commit ff12bb40ada38e4db3931549ae8c8a5963c6f5a9 Author: MrPlatnum Date: Mon Sep 8 08:42:53 2025 +0200 initial setup diff --git a/.editorconfig b/.editorconfig new file mode 100644 index 0000000..59d9a3a --- /dev/null +++ b/.editorconfig @@ -0,0 +1,16 @@ +# Editor configuration, see https://editorconfig.org +root = true + +[*] +charset = utf-8 +indent_style = space +indent_size = 2 +insert_final_newline = true +trim_trailing_whitespace = true + +[*.ts] +quote_type = single + +[*.md] +max_line_length = off +trim_trailing_whitespace = false diff --git a/.gitignore b/.gitignore new file mode 100644 index 0000000..cc7b141 --- /dev/null +++ b/.gitignore @@ -0,0 +1,42 @@ +# See https://docs.github.com/get-started/getting-started-with-git/ignoring-files for more about ignoring files. + +# Compiled output +/dist +/tmp +/out-tsc +/bazel-out + +# Node +/node_modules +npm-debug.log +yarn-error.log + +# IDEs and editors +.idea/ +.project +.classpath +.c9/ +*.launch +.settings/ +*.sublime-workspace + +# Visual Studio Code +.vscode/* +!.vscode/settings.json +!.vscode/tasks.json +!.vscode/launch.json +!.vscode/extensions.json +.history/* + +# Miscellaneous +/.angular/cache +.sass-cache/ +/connect.lock +/coverage +/libpeerconnection.log +testem.log +/typings + +# System files +.DS_Store +Thumbs.db diff --git a/.vscode/extensions.json b/.vscode/extensions.json new file mode 100644 index 0000000..77b3745 --- /dev/null +++ b/.vscode/extensions.json @@ -0,0 +1,4 @@ +{ + // For more information, visit: https://go.microsoft.com/fwlink/?linkid=827846 + "recommendations": ["angular.ng-template"] +} diff --git a/.vscode/launch.json b/.vscode/launch.json new file mode 100644 index 0000000..925af83 --- /dev/null +++ b/.vscode/launch.json @@ -0,0 +1,20 @@ +{ + // For more information, visit: https://go.microsoft.com/fwlink/?linkid=830387 + "version": "0.2.0", + "configurations": [ + { + "name": "ng serve", + "type": "chrome", + "request": "launch", + "preLaunchTask": "npm: start", + "url": "http://localhost:4200/" + }, + { + "name": "ng test", + "type": "chrome", + "request": "launch", + "preLaunchTask": "npm: test", + "url": "http://localhost:9876/debug.html" + } + ] +} diff --git a/.vscode/tasks.json b/.vscode/tasks.json new file mode 100644 index 0000000..a298b5b --- /dev/null +++ b/.vscode/tasks.json @@ -0,0 +1,42 @@ +{ + // For more information, visit: https://go.microsoft.com/fwlink/?LinkId=733558 + "version": "2.0.0", + "tasks": [ + { + "type": "npm", + "script": "start", + "isBackground": true, + "problemMatcher": { + "owner": "typescript", + "pattern": "$tsc", + "background": { + "activeOnStart": true, + "beginsPattern": { + "regexp": "(.*?)" + }, + "endsPattern": { + "regexp": "bundle generation complete" + } + } + } + }, + { + "type": "npm", + "script": "test", + "isBackground": true, + "problemMatcher": { + "owner": "typescript", + "pattern": "$tsc", + "background": { + "activeOnStart": true, + "beginsPattern": { + "regexp": "(.*?)" + }, + "endsPattern": { + "regexp": "bundle generation complete" + } + } + } + } + ] +} diff --git a/README.md b/README.md new file mode 100644 index 0000000..218bc75 --- /dev/null +++ b/README.md @@ -0,0 +1,27 @@ +# CeilingArAssessment + +This project was generated with [Angular CLI](https://github.com/angular/angular-cli) version 18.0.6. + +## Development server + +Run `ng serve` for a dev server. Navigate to `http://localhost:4200/`. The application will automatically reload if you change any of the source files. + +## Code scaffolding + +Run `ng generate component component-name` to generate a new component. You can also use `ng generate directive|pipe|service|class|guard|interface|enum|module`. + +## Build + +Run `ng build` to build the project. The build artifacts will be stored in the `dist/` directory. + +## Running unit tests + +Run `ng test` to execute the unit tests via [Karma](https://karma-runner.github.io). + +## Running end-to-end tests + +Run `ng e2e` to execute the end-to-end tests via a platform of your choice. To use this command, you need to first add a package that implements end-to-end testing capabilities. + +## Further help + +To get more help on the Angular CLI use `ng help` or go check out the [Angular CLI Overview and Command Reference](https://angular.dev/tools/cli) page. diff --git a/angular.json b/angular.json new file mode 100644 index 0000000..2184875 --- /dev/null +++ b/angular.json @@ -0,0 +1,98 @@ +{ + "$schema": "./node_modules/@angular/cli/lib/config/schema.json", + "version": 1, + "newProjectRoot": "projects", + "projects": { + "ceiling-ar-assessment": { + "projectType": "application", + "schematics": {}, + "root": "", + "sourceRoot": "src", + "prefix": "app", + "architect": { + "build": { + "builder": "@angular-devkit/build-angular:application", + "options": { + "outputPath": "dist/ceiling-ar-assessment", + "index": "src/index.html", + "browser": "src/main.ts", + "polyfills": [ + "zone.js" + ], + "tsConfig": "tsconfig.app.json", + "assets": [ + { + "glob": "**/*", + "input": "public" + } + ], + "styles": [ + "src/styles.css" + ], + "scripts": [ + ] + }, + "configurations": { + "production": { + "budgets": [ + { + "type": "initial", + "maximumWarning": "500kB", + "maximumError": "1MB" + }, + { + "type": "anyComponentStyle", + "maximumWarning": "2kB", + "maximumError": "4kB" + } + ], + "outputHashing": "all" + }, + "development": { + "optimization": false, + "extractLicenses": false, + "sourceMap": true + } + }, + "defaultConfiguration": "production" + }, + "serve": { + "builder": "@angular-devkit/build-angular:dev-server", + "configurations": { + "production": { + "buildTarget": "ceiling-ar-assessment:build:production" + }, + "development": { + "buildTarget": "ceiling-ar-assessment:build:development" + } + }, + "defaultConfiguration": "development" + }, + "extract-i18n": { + "builder": "@angular-devkit/build-angular:extract-i18n" + }, + "test": { + "builder": "@angular-devkit/build-angular:karma", + "options": { + "polyfills": [ + "zone.js", + "zone.js/testing" + ], + "tsConfig": "tsconfig.spec.json", + "assets": [ + { + "glob": "**/*", + "input": "public" + } + ], + "styles": [ + "src/styles.css" + ], + "scripts": [ + ] + } + } + } + } + } +} diff --git a/package-lock.json b/package-lock.json new file mode 100644 index 0000000..b763483 --- /dev/null +++ b/package-lock.json @@ -0,0 +1,14579 @@ +{ + "name": "ceiling-ar-assessment", + "version": "0.0.0", + "lockfileVersion": 3, + "requires": true, + "packages": { + "": { + "name": "ceiling-ar-assessment", + "version": "0.0.0", + "dependencies": { + "@angular/animations": "^18.0.0", + "@angular/common": "^18.0.0", + "@angular/compiler": "^18.0.0", + "@angular/core": "^18.0.0", + "@angular/forms": "^18.0.0", + "@angular/platform-browser": "^18.0.0", + "@angular/platform-browser-dynamic": "^18.0.0", + "@angular/router": "^18.0.0", + "rxjs": "~7.8.0", + "tslib": "^2.3.0", + "zone.js": "~0.14.3" + }, + "devDependencies": { + "@angular-devkit/build-angular": "^18.0.6", + 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"@angular-devkit/build-angular": "^18.0.6", + "@angular/cli": "^18.0.6", + "@angular/compiler-cli": "^18.0.0", + "@types/jasmine": "~5.1.0", + "autoprefixer": "^10.4.21", + "jasmine-core": "~5.1.0", + "karma": "~6.4.0", + "karma-chrome-launcher": "~3.2.0", + "karma-coverage": "~2.2.0", + "karma-jasmine": "~5.1.0", + "karma-jasmine-html-reporter": "~2.1.0", + "postcss": "^8.5.6", + "tailwindcss": "^3.4.17", + "typescript": "~5.4.2" + } +} diff --git a/public/favicon.ico b/public/favicon.ico new file mode 100644 index 0000000..57614f9 Binary files /dev/null and b/public/favicon.ico differ diff --git a/src/app/app.component.css b/src/app/app.component.css new file mode 100644 index 0000000..e69de29 diff --git a/src/app/app.component.html b/src/app/app.component.html new file mode 100644 index 0000000..9722ad0 --- /dev/null +++ b/src/app/app.component.html @@ -0,0 +1,8 @@ +
+

+ Ceiling-AR Assessment Suite +

+ + + +
diff --git a/src/app/app.component.spec.ts b/src/app/app.component.spec.ts new file mode 100644 index 0000000..b29e8de --- /dev/null +++ b/src/app/app.component.spec.ts @@ -0,0 +1,29 @@ +import { TestBed } from '@angular/core/testing'; +import { AppComponent } from './app.component'; + +describe('AppComponent', () => { + beforeEach(async () => { + await TestBed.configureTestingModule({ + imports: [AppComponent], + }).compileComponents(); + }); + + it('should create the app', () => { + const fixture = TestBed.createComponent(AppComponent); + const app = fixture.componentInstance; + expect(app).toBeTruthy(); + }); + + it(`should have the 'ceiling-ar-assessment' title`, () => { + const fixture = TestBed.createComponent(AppComponent); + const app = fixture.componentInstance; + expect(app.title).toEqual('ceiling-ar-assessment'); + }); + + it('should render title', () => { + const fixture = TestBed.createComponent(AppComponent); + fixture.detectChanges(); + const compiled = fixture.nativeElement as HTMLElement; + expect(compiled.querySelector('h1')?.textContent).toContain('Hello, ceiling-ar-assessment'); + }); +}); diff --git a/src/app/app.component.ts b/src/app/app.component.ts new file mode 100644 index 0000000..f02a8c5 --- /dev/null +++ b/src/app/app.component.ts @@ -0,0 +1,14 @@ +import { Component } from '@angular/core'; +import { RouterOutlet } from '@angular/router'; +import { TextLegibilityAssessmentComponent } from "./components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component"; + +@Component({ + selector: 'app-root', + standalone: true, + imports: [RouterOutlet, TextLegibilityAssessmentComponent], + templateUrl: './app.component.html', + styleUrl: './app.component.css' +}) +export class AppComponent { + title = 'ceiling-ar-assessment'; +} diff --git a/src/app/app.config.ts b/src/app/app.config.ts new file mode 100644 index 0000000..a1e7d6f --- /dev/null +++ b/src/app/app.config.ts @@ -0,0 +1,8 @@ +import { ApplicationConfig, provideZoneChangeDetection } from '@angular/core'; +import { provideRouter } from '@angular/router'; + +import { routes } from './app.routes'; + +export const appConfig: ApplicationConfig = { + providers: [provideZoneChangeDetection({ eventCoalescing: true }), provideRouter(routes)] +}; diff --git a/src/app/app.routes.ts b/src/app/app.routes.ts new file mode 100644 index 0000000..381c553 --- /dev/null +++ b/src/app/app.routes.ts @@ -0,0 +1,25 @@ +import { Routes } from '@angular/router'; + +export const routes: Routes = [ + { + path: '', + redirectTo: '/consent', + pathMatch: 'full' + }, + { + path: 'consent', + loadComponent: () => import('./components/consent/consent.component').then(c => c.ConsentComponent) + }, + { + path: 'test-suite', + loadComponent: () => import('./components/test-suite/test-suite.component').then(c => c.TestSuiteComponent) + }, + { + path: 'completion', + loadComponent: () => import('./components/completion/completion.component').then(c => c.CompletionComponent) + }, + { + path: '**', + redirectTo: '/consent' + } +]; \ No newline at end of file diff --git a/src/app/app.routing.module.ts b/src/app/app.routing.module.ts new file mode 100644 index 0000000..dfe1689 --- /dev/null +++ b/src/app/app.routing.module.ts @@ -0,0 +1,19 @@ +import { NgModule } from '@angular/core'; +import { RouterModule, Routes } from '@angular/router'; +import { ConsentComponent } from './components/consent/consent.component'; +import { TestSuiteComponent } from './components/test-suite/test-suite.component'; +import { CompletionComponent } from './components/completion/completion.component'; + +const routes: Routes = [ + { path: '', redirectTo: '/consent', pathMatch: 'full' }, + { path: 'consent', component: ConsentComponent }, + { path: 'test-suite', component: TestSuiteComponent }, + { path: 'completion', component: CompletionComponent }, + { path: '**', redirectTo: '/consent' } +]; + +@NgModule({ + imports: [RouterModule.forRoot(routes)], + exports: [RouterModule] +}) +export class AppRoutingModule { } \ No newline at end of file diff --git a/src/app/components/completion/completion.component.ts b/src/app/components/completion/completion.component.ts new file mode 100644 index 0000000..1802490 --- /dev/null +++ b/src/app/components/completion/completion.component.ts @@ -0,0 +1,153 @@ +import { Component, OnInit } from '@angular/core'; +import { CommonModule } from '@angular/common'; +import { Router } from '@angular/router'; +import { ArLoggerService } from '../../services/ar-logger.service'; +import { DataExportService } from '../../services/data-export.service'; + +@Component({ + selector: 'app-completion', + standalone: true, + imports: [CommonModule], + template: ` +
+
+
+ + + +
+

Assessment Suite Completed Successfully

+

+ Thank you for your participation in this research study. Your data has been successfully + collected and is ready for download. +

+
+ + +
+

Session Summary

+
+
+
{{completedTests}}
+
Tests Completed
+
+
+
{{totalInteractions}}
+
Total Interactions
+
+
+
{{sessionDuration}}
+
Session Duration
+
+
+
+ + +
+ +
+ + +
+

Data Preview:

+ 
+
+
+ + +
+ +
+
+ `, + styles: [] +}) +export class CompletionComponent implements OnInit { + completedTests = 0; + totalInteractions = 0; + sessionDuration = '0m 0s'; + dataPreview = ''; + + constructor( + private router: Router, + private logger: ArLoggerService, + private dataExportService: DataExportService + ) {} + + ngOnInit(): void { + this.loadSessionSummary(); + this.generateDataPreview(); + } + + private loadSessionSummary(): void { + const testData = this.logger.getTestData(); + + // Count completed tests + this.completedTests = Object.values(testData.results) + .filter((result: any) => result.completedSuccessfully).length; + + // Count total interactions + this.totalInteractions = Object.values(testData.results) + .reduce((total: number, result: any) => { + return total + (result.interactionCount || 0); + }, 0); + + // Calculate session duration + const duration = Date.now() - new Date(testData.device.timestamp).getTime(); + const minutes = Math.floor(duration / 60000); + const seconds = Math.floor((duration % 60000) / 1000); + this.sessionDuration = `${minutes}m ${seconds}s`; + } + + private generateDataPreview(): void { + const testData = this.logger.getTestData(); + const preview = JSON.stringify(testData, null, 2); + + // Truncate for display + if (preview.length > 2000) { + this.dataPreview = preview.substring(0, 2000) + '...\n\n[Preview truncated - complete data available in CSV export]'; + } else { + this.dataPreview = preview; + } + } + + downloadResults(): void { + const csvData = this.logger.exportToCSV(); + const csvContent = csvData.map(row => row.join(',')).join('\n'); + + const blob = new Blob([csvContent], { type: 'text/csv' }); + const url = window.URL.createObjectURL(blob); + const a = document.createElement('a'); + + a.setAttribute('hidden', ''); + a.setAttribute('href', url); + a.setAttribute('download', `ceiling_ar_assessment_${this.logger.getTestData().device.sessionId}.csv`); + + document.body.appendChild(a); + a.click(); + document.body.removeChild(a); + + window.URL.revokeObjectURL(url); + } + + restartAssessment(): void { + // Reset services and navigate back to consent + this.router.navigate(['/consent']); + } +} \ No newline at end of file diff --git a/src/app/components/consent/consent.component.css b/src/app/components/consent/consent.component.css new file mode 100644 index 0000000..e69de29 diff --git a/src/app/components/consent/consent.component.html b/src/app/components/consent/consent.component.html new file mode 100644 index 0000000..4fce9ae --- /dev/null +++ b/src/app/components/consent/consent.component.html @@ -0,0 +1,63 @@ +
+
+

+ Informed Consent - Ceiling-AR Design Parameter Assessment +

+ +
+

+ Purpose: This empirical study investigates optimal design parameters for + ceiling-based augmented reality applications within a Design Science Research framework + for academic research purposes. +

+ +
+

Data Collection Protocol:

+
    +
  • Device specifications (display dimensions, browser version, operating system)
    • +
  • WebXR interaction metrics and motion tracking data
    • +
  • Parameter adjustment patterns and timing
    • +
  • Device orientation and viewing angle parameters
    • +
  • First input detection and natural gesture analysis
    • +
  • Optional demographic information (age)
    • +
+
+ +

+ Data Protection: All collected data will be anonymized and used + exclusively for scientific analysis. No personally identifiable information is recorded. +

+ +

+ Voluntary Participation: Participation is entirely voluntary. + You may withdraw at any time without consequence. +

+
+ +
+ +
+
+ +
+ +
+
\ No newline at end of file diff --git a/src/app/components/consent/consent.component.ts b/src/app/components/consent/consent.component.ts new file mode 100644 index 0000000..08266fa --- /dev/null +++ b/src/app/components/consent/consent.component.ts @@ -0,0 +1,33 @@ +import { Component } from '@angular/core'; +import { Router } from '@angular/router'; +import { CommonModule } from '@angular/common'; +import { FormsModule } from '@angular/forms'; +import { ArLoggerService } from '../../services/ar-logger.service'; + +@Component({ + selector: 'app-consent', + standalone: true, + imports: [CommonModule, FormsModule], + templateUrl: './consent.component.html', + styleUrls: ['./consent.component.css'] +}) +export class ConsentComponent { + consentGiven = false; + + constructor( + private router: Router, + private logger: ArLoggerService + ) {} + + onConsentChange(event: Event): void { + const target = event.target as HTMLInputElement; + this.consentGiven = target.checked; + } + + startTestSuite(): void { + if (this.consentGiven) { + this.logger.initializeSession(); + this.router.navigate(['/test-suite']); + } + } +} \ No newline at end of file diff --git a/src/app/components/shared/progress-bar/progress-bar.component.css b/src/app/components/shared/progress-bar/progress-bar.component.css new file mode 100644 index 0000000..e69de29 diff --git a/src/app/components/shared/progress-bar/progress-bar.component.html b/src/app/components/shared/progress-bar/progress-bar.component.html new file mode 100644 index 0000000..872ad60 --- /dev/null +++ b/src/app/components/shared/progress-bar/progress-bar.component.html @@ -0,0 +1 @@ +

progress-bar works!

diff --git a/src/app/components/shared/progress-bar/progress-bar.component.spec.ts b/src/app/components/shared/progress-bar/progress-bar.component.spec.ts new file mode 100644 index 0000000..a66e75b --- /dev/null +++ b/src/app/components/shared/progress-bar/progress-bar.component.spec.ts @@ -0,0 +1,23 @@ +import { ComponentFixture, TestBed } from '@angular/core/testing'; + +import { ProgressBarComponent } from './progress-bar.component'; + +describe('ProgressBarComponent', () => { + let component: ProgressBarComponent; + let fixture: ComponentFixture; + + beforeEach(async () => { + await TestBed.configureTestingModule({ + imports: [ProgressBarComponent] + }) + .compileComponents(); + + fixture = TestBed.createComponent(ProgressBarComponent); + component = fixture.componentInstance; + fixture.detectChanges(); + }); + + it('should create', () => { + expect(component).toBeTruthy(); + }); +}); diff --git a/src/app/components/shared/progress-bar/progress-bar.component.ts b/src/app/components/shared/progress-bar/progress-bar.component.ts new file mode 100644 index 0000000..a755f39 --- /dev/null +++ b/src/app/components/shared/progress-bar/progress-bar.component.ts @@ -0,0 +1,12 @@ +import { Component } from '@angular/core'; + +@Component({ + selector: 'app-progress-bar', + standalone: true, + imports: [], + templateUrl: './progress-bar.component.html', + styleUrl: './progress-bar.component.css' +}) +export class ProgressBarComponent { + +} diff --git a/src/app/components/shared/status-display/status-display.component.css b/src/app/components/shared/status-display/status-display.component.css new file mode 100644 index 0000000..e69de29 diff --git a/src/app/components/shared/status-display/status-display.component.html b/src/app/components/shared/status-display/status-display.component.html new file mode 100644 index 0000000..c3ccdfb --- /dev/null +++ b/src/app/components/shared/status-display/status-display.component.html @@ -0,0 +1 @@ +

status-display works!

diff --git a/src/app/components/shared/status-display/status-display.component.spec.ts b/src/app/components/shared/status-display/status-display.component.spec.ts new file mode 100644 index 0000000..89af8eb --- /dev/null +++ b/src/app/components/shared/status-display/status-display.component.spec.ts @@ -0,0 +1,23 @@ +import { ComponentFixture, TestBed } from '@angular/core/testing'; + +import { StatusDisplayComponent } from './status-display.component'; + +describe('StatusDisplayComponent', () => { + let component: StatusDisplayComponent; + let fixture: ComponentFixture; + + beforeEach(async () => { + await TestBed.configureTestingModule({ + imports: [StatusDisplayComponent] + }) + .compileComponents(); + + fixture = TestBed.createComponent(StatusDisplayComponent); + component = fixture.componentInstance; + fixture.detectChanges(); + }); + + it('should create', () => { + expect(component).toBeTruthy(); + }); +}); diff --git a/src/app/components/shared/status-display/status-display.component.ts b/src/app/components/shared/status-display/status-display.component.ts new file mode 100644 index 0000000..8a7c857 --- /dev/null +++ b/src/app/components/shared/status-display/status-display.component.ts @@ -0,0 +1,12 @@ +import { Component } from '@angular/core'; + +@Component({ + selector: 'app-status-display', + standalone: true, + imports: [], + templateUrl: './status-display.component.html', + styleUrl: './status-display.component.css' +}) +export class StatusDisplayComponent { + +} diff --git a/src/app/components/shared/vr-slider/vr-slider.component.css b/src/app/components/shared/vr-slider/vr-slider.component.css new file mode 100644 index 0000000..e69de29 diff --git a/src/app/components/shared/vr-slider/vr-slider.component.html b/src/app/components/shared/vr-slider/vr-slider.component.html new file mode 100644 index 0000000..e3521ec --- /dev/null +++ b/src/app/components/shared/vr-slider/vr-slider.component.html @@ -0,0 +1 @@ +

vr-slider works!

diff --git a/src/app/components/shared/vr-slider/vr-slider.component.spec.ts b/src/app/components/shared/vr-slider/vr-slider.component.spec.ts new file mode 100644 index 0000000..7540cf4 --- /dev/null +++ b/src/app/components/shared/vr-slider/vr-slider.component.spec.ts @@ -0,0 +1,23 @@ +import { ComponentFixture, TestBed } from '@angular/core/testing'; + +import { VrSliderComponent } from './vr-slider.component'; + +describe('VrSliderComponent', () => { + let component: VrSliderComponent; + let fixture: ComponentFixture; + + beforeEach(async () => { + await TestBed.configureTestingModule({ + imports: [VrSliderComponent] + }) + .compileComponents(); + + fixture = TestBed.createComponent(VrSliderComponent); + component = fixture.componentInstance; + fixture.detectChanges(); + }); + + it('should create', () => { + expect(component).toBeTruthy(); + }); +}); diff --git a/src/app/components/shared/vr-slider/vr-slider.component.ts b/src/app/components/shared/vr-slider/vr-slider.component.ts new file mode 100644 index 0000000..6cd96f1 --- /dev/null +++ b/src/app/components/shared/vr-slider/vr-slider.component.ts @@ -0,0 +1,100 @@ +import { Component, Input, Output, EventEmitter } from '@angular/core'; +import { CommonModule } from '@angular/common'; +import { FormsModule } from '@angular/forms'; + +@Component({ + selector: 'app-vr-slider', + standalone: true, + imports: [CommonModule, FormsModule], + template: ` +
+ +
{{ label }}
+ + + +
{{ displayValue }}
+ +
+ +
+
+ `, + styles: [` + input[type="range"]::-webkit-slider-thumb { + -webkit-appearance: none; + appearance: none; + width: 20px; + height: 20px; + background: #4285f4; + border-radius: 50%; + cursor: pointer; + } + + input[type="range"]::-moz-range-thumb { + width: 20px; + height: 20px; + background: #4285f4; + border-radius: 50%; + cursor: pointer; + border: none; + } + + input[type="range"]:focus { + outline: none; + } + + input[type="range"]:focus::-webkit-slider-thumb { + box-shadow: 0 0 0 3px rgba(66, 133, 244, 0.3); + } + `] +}) +export class VrSliderComponent { + @Input() label = ''; + @Input() min = 0; + @Input() max = 100; + @Input() step = 1; + @Input() value = 50; + @Input() unit = ''; + @Input() width = 300; + @Input() showButtons = false; + @Input() buttons: Array<{label: string, action: string}> = []; + + @Output() valueChange = new EventEmitter(); + @Output() buttonClick = new EventEmitter(); + + get displayValue(): string { + return `${this.value}${this.unit}`; + } + + onValueChange(event: Event): void { + const target = event.target as HTMLInputElement; + const newValue = parseFloat(target.value); + this.value = newValue; + this.valueChange.emit(newValue); + } + + onButtonClick(action: string): void { + this.buttonClick.emit(action); + } + + preventXRSelect(event: Event): void { + event.preventDefault(); + } +} \ No newline at end of file diff --git a/src/app/components/test-suite/assessments/demographics-assessment/demographics-assessment.component.css b/src/app/components/test-suite/assessments/demographics-assessment/demographics-assessment.component.css new file mode 100644 index 0000000..e69de29 diff --git a/src/app/components/test-suite/assessments/demographics-assessment/demographics-assessment.component.html b/src/app/components/test-suite/assessments/demographics-assessment/demographics-assessment.component.html new file mode 100644 index 0000000..aa8b70c --- /dev/null +++ b/src/app/components/test-suite/assessments/demographics-assessment/demographics-assessment.component.html @@ -0,0 +1 @@ +

demographics-assessment works!

diff --git a/src/app/components/test-suite/assessments/demographics-assessment/demographics-assessment.component.spec.ts b/src/app/components/test-suite/assessments/demographics-assessment/demographics-assessment.component.spec.ts new file mode 100644 index 0000000..b7c3ca4 --- /dev/null +++ b/src/app/components/test-suite/assessments/demographics-assessment/demographics-assessment.component.spec.ts @@ -0,0 +1,23 @@ +import { ComponentFixture, TestBed } from '@angular/core/testing'; + +import { DemographicsAssessmentComponent } from './demographics-assessment.component'; + +describe('DemographicsAssessmentComponent', () => { + let component: DemographicsAssessmentComponent; + let fixture: ComponentFixture; + + beforeEach(async () => { + await TestBed.configureTestingModule({ + imports: [DemographicsAssessmentComponent] + }) + .compileComponents(); + + fixture = TestBed.createComponent(DemographicsAssessmentComponent); + component = fixture.componentInstance; + fixture.detectChanges(); + }); + + it('should create', () => { + expect(component).toBeTruthy(); + }); +}); diff --git a/src/app/components/test-suite/assessments/demographics-assessment/demographics-assessment.component.ts b/src/app/components/test-suite/assessments/demographics-assessment/demographics-assessment.component.ts new file mode 100644 index 0000000..c76e123 --- /dev/null +++ b/src/app/components/test-suite/assessments/demographics-assessment/demographics-assessment.component.ts @@ -0,0 +1,12 @@ +import { Component } from '@angular/core'; + +@Component({ + selector: 'app-demographics-assessment', + standalone: true, + imports: [], + templateUrl: './demographics-assessment.component.html', + styleUrl: './demographics-assessment.component.css' +}) +export class DemographicsAssessmentComponent { + +} diff --git a/src/app/components/test-suite/assessments/ergonomic-assessment/ergonomic-assessment.component.css b/src/app/components/test-suite/assessments/ergonomic-assessment/ergonomic-assessment.component.css new file mode 100644 index 0000000..e69de29 diff --git a/src/app/components/test-suite/assessments/ergonomic-assessment/ergonomic-assessment.component.html b/src/app/components/test-suite/assessments/ergonomic-assessment/ergonomic-assessment.component.html new file mode 100644 index 0000000..419f98d --- /dev/null +++ b/src/app/components/test-suite/assessments/ergonomic-assessment/ergonomic-assessment.component.html @@ -0,0 +1 @@ +

ergonomic-assessment works!

diff --git a/src/app/components/test-suite/assessments/ergonomic-assessment/ergonomic-assessment.component.spec.ts b/src/app/components/test-suite/assessments/ergonomic-assessment/ergonomic-assessment.component.spec.ts new file mode 100644 index 0000000..0279774 --- /dev/null +++ b/src/app/components/test-suite/assessments/ergonomic-assessment/ergonomic-assessment.component.spec.ts @@ -0,0 +1,23 @@ +import { ComponentFixture, TestBed } from '@angular/core/testing'; + +import { ErgonomicAssessmentComponent } from './ergonomic-assessment.component'; + +describe('ErgonomicAssessmentComponent', () => { + let component: ErgonomicAssessmentComponent; + let fixture: ComponentFixture; + + beforeEach(async () => { + await TestBed.configureTestingModule({ + imports: [ErgonomicAssessmentComponent] + }) + .compileComponents(); + + fixture = TestBed.createComponent(ErgonomicAssessmentComponent); + component = fixture.componentInstance; + fixture.detectChanges(); + }); + + it('should create', () => { + expect(component).toBeTruthy(); + }); +}); diff --git a/src/app/components/test-suite/assessments/ergonomic-assessment/ergonomic-assessment.component.ts b/src/app/components/test-suite/assessments/ergonomic-assessment/ergonomic-assessment.component.ts new file mode 100644 index 0000000..58b5f88 --- /dev/null +++ b/src/app/components/test-suite/assessments/ergonomic-assessment/ergonomic-assessment.component.ts @@ -0,0 +1,12 @@ +import { Component } from '@angular/core'; + +@Component({ + selector: 'app-ergonomic-assessment', + standalone: true, + imports: [], + templateUrl: './ergonomic-assessment.component.html', + styleUrl: './ergonomic-assessment.component.css' +}) +export class ErgonomicAssessmentComponent { + +} diff --git a/src/app/components/test-suite/assessments/first-input-assesment/first-input-assesment.component.ts b/src/app/components/test-suite/assessments/first-input-assesment/first-input-assesment.component.ts new file mode 100644 index 0000000..5e08c89 --- /dev/null +++ b/src/app/components/test-suite/assessments/first-input-assesment/first-input-assesment.component.ts @@ -0,0 +1,149 @@ +import { Component, Output, EventEmitter, OnInit, OnDestroy } from '@angular/core'; +import { CommonModule } from '@angular/common'; +import { ArLoggerService } from '../../../../services/ar-logger.service'; + +@Component({ + selector: 'app-first-input-assessment', + standalone: true, + imports: [CommonModule], + templateUrl: './first-input-assessment.component.html', + styleUrls: ['./first-input-assessment.component.css'] +}) +export class FirstInputAssessmentComponent implements OnInit, OnDestroy { + @Output() testComplete = new EventEmitter(); + @Output() redoTest = new EventEmitter(); + + showManualComplete = false; + showRedoButton = false; + firstInputDetected = false; + sessionStartTime: number = 0; + xrSession: any = null; + + constructor(private logger: ArLoggerService) {} + + ngOnInit(): void { + this.logger.updateStatus('Assessment 1 initialized - Ready to begin first input detection'); + + setTimeout(() => { + this.showManualComplete = true; + this.showRedoButton = true; + }, 30000); + + this.initializeWebXRTracking(); + } + + ngOnDestroy(): void { + this.exitWebXRSession(); + } + + private initializeWebXRTracking(): void { + const modelViewer = document.getElementById('first-input-model') as any; + + if (modelViewer) { + modelViewer.addEventListener('ar-status', (event: any) => { + if (event.detail.status === 'session-started') { + this.xrSession = modelViewer.model?.webXRCamera?.session; + this.sessionStartTime = performance.now(); + this.firstInputDetected = false; + + console.log('WebXR session started for first input test'); + this.logger.updateStatus('WebXR active - Waiting for first input'); + + this.setupFirstInputTracking(); + } + }); + } + } + + private setupFirstInputTracking(): void { + if (!this.xrSession) return; + + const onXRFrame = (time: number, frame: any) => { + if (!this.xrSession || this.firstInputDetected) return; + + const inputSources = this.xrSession.inputSources; + + for (let inputSource of inputSources) { + if (inputSource.gamepad) { + inputSource.gamepad.buttons.forEach((button: any, index: number) => { + if (button.pressed && !this.firstInputDetected) { + this.handleFirstInput('button', { buttonIndex: index, inputSource: inputSource.handedness }); + return; + } + }); + + inputSource.gamepad.axes.forEach((axis: any, index: number) => { + if (Math.abs(axis) > 0.1 && !this.firstInputDetected) { + this.handleFirstInput('axis', { axisIndex: index, value: axis, inputSource: inputSource.handedness }); + return; + } + }); + } + } + + if (this.xrSession && !this.firstInputDetected) { + this.xrSession.requestAnimationFrame(onXRFrame); + } + }; + + this.xrSession.requestAnimationFrame(onXRFrame); + } + + private handleFirstInput(inputType: string, inputData: any): void { + if (this.firstInputDetected) return; + + this.firstInputDetected = true; + const endTime = performance.now(); + const sessionDuration = endTime - this.sessionStartTime; + + const testData = { + duration: sessionDuration, + firstInputType: inputType, + firstInputData: inputData, + sessionDuration: sessionDuration, + completedSuccessfully: true + }; + + this.logger.markTestComplete('firstInputTest'); + + console.log('First input detected:', inputType, inputData); + this.logger.updateStatus(`First input detected: ${inputType} - Auto completing test`); + + setTimeout(() => { + this.exitWebXRSession(); + this.completeTest(); + }, 2000); + } + + manualCompleteFirstTest(): void { + if (!this.firstInputDetected) { + this.logger.markTestComplete('firstInputTest'); + } + this.completeTest(); + } + + private completeTest(): void { + this.showManualComplete = true; + this.showRedoButton = true; + this.testComplete.emit(); + } + + onRedoTest(): void { + this.firstInputDetected = false; + this.showManualComplete = false; + this.showRedoButton = false; + this.exitWebXRSession(); + this.redoTest.emit(); + } + + private exitWebXRSession(): void { + if (this.xrSession) { + this.xrSession.end().then(() => { + console.log('WebXR session ended'); + this.xrSession = null; + }).catch((err: any) => { + console.error('Error ending WebXR session:', err); + }); + } + } +} \ No newline at end of file diff --git a/src/app/components/test-suite/assessments/first-input-assesment/first-input-assessment.component.css b/src/app/components/test-suite/assessments/first-input-assesment/first-input-assessment.component.css new file mode 100644 index 0000000..e69de29 diff --git a/src/app/components/test-suite/assessments/first-input-assesment/first-input-assessment.component.html b/src/app/components/test-suite/assessments/first-input-assesment/first-input-assessment.component.html new file mode 100644 index 0000000..e69de29 diff --git a/src/app/components/test-suite/assessments/rotation-speed-assessment/rotation-speed-assessment.component.css b/src/app/components/test-suite/assessments/rotation-speed-assessment/rotation-speed-assessment.component.css new file mode 100644 index 0000000..e69de29 diff --git a/src/app/components/test-suite/assessments/rotation-speed-assessment/rotation-speed-assessment.component.html b/src/app/components/test-suite/assessments/rotation-speed-assessment/rotation-speed-assessment.component.html new file mode 100644 index 0000000..213d723 --- /dev/null +++ b/src/app/components/test-suite/assessments/rotation-speed-assessment/rotation-speed-assessment.component.html @@ -0,0 +1 @@ +

rotation-speed-assessment works!

diff --git a/src/app/components/test-suite/assessments/rotation-speed-assessment/rotation-speed-assessment.component.spec.ts b/src/app/components/test-suite/assessments/rotation-speed-assessment/rotation-speed-assessment.component.spec.ts new file mode 100644 index 0000000..31aa5e0 --- /dev/null +++ b/src/app/components/test-suite/assessments/rotation-speed-assessment/rotation-speed-assessment.component.spec.ts @@ -0,0 +1,23 @@ +import { ComponentFixture, TestBed } from '@angular/core/testing'; + +import { RotationSpeedAssessmentComponent } from './rotation-speed-assessment.component'; + +describe('RotationSpeedAssessmentComponent', () => { + let component: RotationSpeedAssessmentComponent; + let fixture: ComponentFixture; + + beforeEach(async () => { + await TestBed.configureTestingModule({ + imports: [RotationSpeedAssessmentComponent] + }) + .compileComponents(); + + fixture = TestBed.createComponent(RotationSpeedAssessmentComponent); + component = fixture.componentInstance; + fixture.detectChanges(); + }); + + it('should create', () => { + expect(component).toBeTruthy(); + }); +}); diff --git a/src/app/components/test-suite/assessments/rotation-speed-assessment/rotation-speed-assessment.component.ts b/src/app/components/test-suite/assessments/rotation-speed-assessment/rotation-speed-assessment.component.ts new file mode 100644 index 0000000..3c8d9f8 --- /dev/null +++ b/src/app/components/test-suite/assessments/rotation-speed-assessment/rotation-speed-assessment.component.ts @@ -0,0 +1,90 @@ +import { Component, Output, EventEmitter, OnInit, OnDestroy } from '@angular/core'; +import { CommonModule } from '@angular/common'; +import { FormsModule } from '@angular/forms'; +import { ArLoggerService } from '../../../../services/ar-logger.service'; + +@Component({ + selector: 'app-rotation-speed-assessment', + standalone: true, + imports: [CommonModule, FormsModule], + template: ``}) +export class RotationSpeedAssessmentComponent implements OnInit, OnDestroy { + @Output() testComplete = new EventEmitter(); + @Output() redoTest = new EventEmitter(); + + rotationSpeed = 50; + showConfirmButton = false; + showRedoButton = false; + xrSession: any = null; + + constructor(private logger: ArLoggerService) {} + + ngOnInit(): void { + this.logger.updateStatus('Assessment 2 initialized - Ready to test rotation speed'); + this.initializeWebXRTracking(); + } + + ngOnDestroy(): void { + this.exitWebXRSession(); + } + + private initializeWebXRTracking(): void { + const modelViewer = document.getElementById('speed-model') as any; + + if (modelViewer) { + modelViewer.addEventListener('ar-status', (event: any) => { + if (event.detail.status === 'session-started') { + this.xrSession = modelViewer.model?.webXRCamera?.session; + this.logger.updateStatus('WebXR active - Adjust rotation speed with slider'); + } + }); + } + } + + onSpeedChange(event: Event): void { + const target = event.target as HTMLInputElement; + this.rotationSpeed = parseInt(target.value); + + this.logger.logParameterAdjustment('speed', 'rotationSpeed', this.rotationSpeed); + + this.updateSpeedModel(this.rotationSpeed); + } + + private updateSpeedModel(speed: number): void { + const modelViewer = document.getElementById('speed-model') as any; + if (modelViewer) { + modelViewer.style.setProperty('--auto-rotate-delay', `${101 - speed}0ms`); + } + } + + confirmSpeedSetting(): void { + this.logger.markTestComplete('speedTest'); + this.showConfirmButton = true; + this.showRedoButton = true; + this.logger.updateStatus(`Speed confirmed at ${this.rotationSpeed}%`); + } + + protected completeTest(): void { + this.exitWebXRSession(); + this.testComplete.emit(); + } + + onRedoTest(): void { + this.rotationSpeed = 50; + this.showConfirmButton = false; + this.showRedoButton = false; + this.exitWebXRSession(); + this.redoTest.emit(); + } + + private exitWebXRSession(): void { + if (this.xrSession) { + this.xrSession.end().then(() => { + console.log('WebXR session ended'); + this.xrSession = null; + }).catch((err: any) => { + console.error('Error ending WebXR session:', err); + }); + } + } +} \ No newline at end of file diff --git a/src/app/components/test-suite/assessments/scale-reference-assessment/scale-reference-assessment.component.css b/src/app/components/test-suite/assessments/scale-reference-assessment/scale-reference-assessment.component.css new file mode 100644 index 0000000..e69de29 diff --git a/src/app/components/test-suite/assessments/scale-reference-assessment/scale-reference-assessment.component.html b/src/app/components/test-suite/assessments/scale-reference-assessment/scale-reference-assessment.component.html new file mode 100644 index 0000000..172843d --- /dev/null +++ b/src/app/components/test-suite/assessments/scale-reference-assessment/scale-reference-assessment.component.html @@ -0,0 +1 @@ +

scale-reference-assessment works!

diff --git a/src/app/components/test-suite/assessments/scale-reference-assessment/scale-reference-assessment.component.spec.ts b/src/app/components/test-suite/assessments/scale-reference-assessment/scale-reference-assessment.component.spec.ts new file mode 100644 index 0000000..c801e7b --- /dev/null +++ b/src/app/components/test-suite/assessments/scale-reference-assessment/scale-reference-assessment.component.spec.ts @@ -0,0 +1,23 @@ +import { ComponentFixture, TestBed } from '@angular/core/testing'; + +import { ScaleReferenceAssessmentComponent } from './scale-reference-assessment.component'; + +describe('ScaleReferenceAssessmentComponent', () => { + let component: ScaleReferenceAssessmentComponent; + let fixture: ComponentFixture; + + beforeEach(async () => { + await TestBed.configureTestingModule({ + imports: [ScaleReferenceAssessmentComponent] + }) + .compileComponents(); + + fixture = TestBed.createComponent(ScaleReferenceAssessmentComponent); + component = fixture.componentInstance; + fixture.detectChanges(); + }); + + it('should create', () => { + expect(component).toBeTruthy(); + }); +}); diff --git a/src/app/components/test-suite/assessments/scale-reference-assessment/scale-reference-assessment.component.ts b/src/app/components/test-suite/assessments/scale-reference-assessment/scale-reference-assessment.component.ts new file mode 100644 index 0000000..11c6bfa --- /dev/null +++ b/src/app/components/test-suite/assessments/scale-reference-assessment/scale-reference-assessment.component.ts @@ -0,0 +1,12 @@ +import { Component } from '@angular/core'; + +@Component({ + selector: 'app-scale-reference-assessment', + standalone: true, + imports: [], + templateUrl: './scale-reference-assessment.component.html', + styleUrl: './scale-reference-assessment.component.css' +}) +export class ScaleReferenceAssessmentComponent { + +} diff --git a/src/app/components/test-suite/assessments/spatial-position-assessment/spatial-position-assessment.component.css b/src/app/components/test-suite/assessments/spatial-position-assessment/spatial-position-assessment.component.css new file mode 100644 index 0000000..e69de29 diff --git a/src/app/components/test-suite/assessments/spatial-position-assessment/spatial-position-assessment.component.html b/src/app/components/test-suite/assessments/spatial-position-assessment/spatial-position-assessment.component.html new file mode 100644 index 0000000..276661b --- /dev/null +++ b/src/app/components/test-suite/assessments/spatial-position-assessment/spatial-position-assessment.component.html @@ -0,0 +1,54 @@ +
+ + + + +
+ +
+ + + {{ scale.toFixed(2) }} +
+ + +
+ + + {{ verticalOffset.toFixed(2) }}m +
+
+ +
+ \ No newline at end of file diff --git a/src/app/components/test-suite/assessments/spatial-position-assessment/spatial-position-assessment.component.spec.ts b/src/app/components/test-suite/assessments/spatial-position-assessment/spatial-position-assessment.component.spec.ts new file mode 100644 index 0000000..4c809a6 --- /dev/null +++ b/src/app/components/test-suite/assessments/spatial-position-assessment/spatial-position-assessment.component.spec.ts @@ -0,0 +1,23 @@ +import { ComponentFixture, TestBed } from '@angular/core/testing'; + +import { SpatialPositionAssessmentComponent } from './spatial-position-assessment.component'; + +describe('SpatialPositionAssessmentComponent', () => { + let component: SpatialPositionAssessmentComponent; + let fixture: ComponentFixture; + + beforeEach(async () => { + await TestBed.configureTestingModule({ + imports: [SpatialPositionAssessmentComponent] + }) + .compileComponents(); + + fixture = TestBed.createComponent(SpatialPositionAssessmentComponent); + component = fixture.componentInstance; + fixture.detectChanges(); + }); + + it('should create', () => { + expect(component).toBeTruthy(); + }); +}); diff --git a/src/app/components/test-suite/assessments/spatial-position-assessment/spatial-position-assessment.component.ts b/src/app/components/test-suite/assessments/spatial-position-assessment/spatial-position-assessment.component.ts new file mode 100644 index 0000000..bc07222 --- /dev/null +++ b/src/app/components/test-suite/assessments/spatial-position-assessment/spatial-position-assessment.component.ts @@ -0,0 +1,52 @@ +import { Component, AfterViewInit, ElementRef, ViewChild, ChangeDetectorRef, CUSTOM_ELEMENTS_SCHEMA } from '@angular/core'; +import { CommonModule } from '@angular/common'; +import { FormsModule } from '@angular/forms'; + +@Component({ + selector: 'app-spatial-position-assessment', + standalone: true, + imports: [CommonModule, FormsModule], + templateUrl: './spatial-position-assessment.component.html', + styleUrl: './spatial-position-assessment.component.css', + schemas: [CUSTOM_ELEMENTS_SCHEMA] +}) +export class SpatialPositionAssessmentComponent implements AfterViewInit { + @ViewChild('modelViewer') modelViewerRef!: ElementRef; + + isInWebXR = false; + scale = 1; + verticalOffset = 0; + + constructor(private cdr: ChangeDetectorRef) {} + + ngAfterViewInit() { + const modelViewerElement = this.modelViewerRef.nativeElement; + + modelViewerElement.addEventListener('enter-vr', () => { + this.isInWebXR = true; + modelViewerElement.cameraControls = false; + this.cdr.detectChanges(); + }); + + modelViewerElement.addEventListener('exit-vr', () => { + this.isInWebXR = false; + modelViewerElement.cameraControls = true; + this.resetModelTransform(); + this.cdr.detectChanges(); + }); + } + + updateModelTransform() { + const model = this.modelViewerRef.nativeElement.model; + if (model) { + model.scale.set(this.scale, this.scale, this.scale); + model.position.y = this.verticalOffset; + } + } + + resetModelTransform() { + this.scale = 1; + this.verticalOffset = 0; + this.updateModelTransform(); + } +} diff --git a/src/app/components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component.css b/src/app/components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component.css new file mode 100644 index 0000000..a37b52e --- /dev/null +++ b/src/app/components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component.css @@ -0,0 +1,5 @@ + +.annotation { + line-height: 1.4; + } + \ No newline at end of file diff --git a/src/app/components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component.html b/src/app/components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component.html new file mode 100644 index 0000000..8f189dd --- /dev/null +++ b/src/app/components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component.html @@ -0,0 +1,56 @@ +
+
+

Assessment: Text Legibility Optimization

+

Objective: Determine optimal text scaling for ceiling-AR applications.

+

Procedure: Adjust text size using the WebXR slider until it is clearly legible.

+
+ + + + + + + + +
+
+ + +
+
+ +
+ \ No newline at end of file diff --git a/src/app/components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component.spec.ts b/src/app/components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component.spec.ts new file mode 100644 index 0000000..756139f --- /dev/null +++ b/src/app/components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component.spec.ts @@ -0,0 +1,23 @@ +import { ComponentFixture, TestBed } from '@angular/core/testing'; + +import { TextLegibilityAssessmentComponent } from './text-legibility-assessment.component'; + +describe('TextLegibilityAssessmentComponent', () => { + let component: TextLegibilityAssessmentComponent; + let fixture: ComponentFixture; + + beforeEach(async () => { + await TestBed.configureTestingModule({ + imports: [TextLegibilityAssessmentComponent] + }) + .compileComponents(); + + fixture = TestBed.createComponent(TextLegibilityAssessmentComponent); + component = fixture.componentInstance; + fixture.detectChanges(); + }); + + it('should create', () => { + expect(component).toBeTruthy(); + }); +}); diff --git a/src/app/components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component.ts b/src/app/components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component.ts new file mode 100644 index 0000000..c891178 --- /dev/null +++ b/src/app/components/test-suite/assessments/text-legibility-assessment/text-legibility-assessment.component.ts @@ -0,0 +1,42 @@ +import { Component, AfterViewInit, ViewChild, ElementRef, ChangeDetectorRef, CUSTOM_ELEMENTS_SCHEMA } from '@angular/core'; +import { CommonModule } from '@angular/common'; +import { FormsModule } from '@angular/forms'; + +@Component({ + selector: 'app-text-legibility-assessment', + standalone: true, + imports: [CommonModule, FormsModule], + templateUrl: './text-legibility-assessment.component.html', + styleUrl: './text-legibility-assessment.component.css', + schemas: [CUSTOM_ELEMENTS_SCHEMA] +}) +export class TextLegibilityAssessmentComponent implements AfterViewInit { + @ViewChild('modelViewer') modelViewerRef!: ElementRef; + + isInWebXR = false; + textSize = 16; + + constructor(private cdr: ChangeDetectorRef) {} + + ngAfterViewInit() { + const modelViewerElement = this.modelViewerRef.nativeElement; + + modelViewerElement.addEventListener('enter-vr', () => { + this.isInWebXR = true; + this.cdr.detectChanges(); + }); + + modelViewerElement.addEventListener('exit-vr', () => { + this.isInWebXR = false; + this.resetTextSize(); + this.cdr.detectChanges(); + }); + } + + updateTextSize() { + } + + resetTextSize() { + this.textSize = 16; + } +} diff --git a/src/app/components/test-suite/test-suite.component.css b/src/app/components/test-suite/test-suite.component.css new file mode 100644 index 0000000..e69de29 diff --git a/src/app/components/test-suite/test-suite.component.html b/src/app/components/test-suite/test-suite.component.html new file mode 100644 index 0000000..3c2480c --- /dev/null +++ b/src/app/components/test-suite/test-suite.component.html @@ -0,0 +1,91 @@ +
+

Ceiling-AR Design Parameter Assessment Suite

+ + +
+
+ + Assessment {{ currentTest }} of {{ totalTests }} + + + {{ progress | number:'1.1-1' }}% + +
+ + +
+
+
+
+
+ + +
+
+ Status: {{ status }} +
+
+ + +
+ + +
+ + +
+ + +
+ + +
+ + +
+ + +
+ + +
+ + +
+ + +
+ + +
+ + +
+ + +
+ + +
+ + +
+ +
+
\ No newline at end of file diff --git a/src/app/components/test-suite/test-suite.component.ts b/src/app/components/test-suite/test-suite.component.ts new file mode 100644 index 0000000..d571eba --- /dev/null +++ b/src/app/components/test-suite/test-suite.component.ts @@ -0,0 +1,80 @@ +import { Component, OnInit, OnDestroy } from '@angular/core'; +import { CommonModule } from '@angular/common'; +import { Subject, takeUntil } from 'rxjs'; +import { TestProgressService } from '../../services/test-progress.service'; +import { ArLoggerService } from '../../services/ar-logger.service'; + +import { RotationSpeedAssessmentComponent } from './assessments/rotation-speed-assessment/rotation-speed-assessment.component'; +import { ErgonomicAssessmentComponent } from './assessments/ergonomic-assessment/ergonomic-assessment.component'; +import { TextLegibilityAssessmentComponent } from './assessments/text-legibility-assessment/text-legibility-assessment.component'; +import { ScaleReferenceAssessmentComponent } from './assessments/scale-reference-assessment/scale-reference-assessment.component'; +import { SpatialPositionAssessmentComponent } from './assessments/spatial-position-assessment/spatial-position-assessment.component'; +import { DemographicsAssessmentComponent } from './assessments/demographics-assessment/demographics-assessment.component'; +import { FirstInputAssessmentComponent } from './assessments/first-input-assesment/first-input-assesment.component'; + +@Component({ + selector: 'app-test-suite', + standalone: true, + imports: [ + CommonModule, + FirstInputAssessmentComponent, + RotationSpeedAssessmentComponent, + ErgonomicAssessmentComponent, + TextLegibilityAssessmentComponent, + ScaleReferenceAssessmentComponent, + SpatialPositionAssessmentComponent, + DemographicsAssessmentComponent + ], + templateUrl: './test-suite.component.html', + styleUrls: ['./test-suite.component.css'] +}) +export class TestSuiteComponent implements OnInit, OnDestroy { + currentTest = 1; + totalTests = 7; + progress = 14.3; + status = 'Ready to begin assessments'; + + private destroy$ = new Subject(); + + constructor( + private progressService: TestProgressService, + private logger: ArLoggerService + ) {} + + ngOnInit(): void { + this.progressService.currentTest$ + .pipe(takeUntil(this.destroy$)) + .subscribe(test => { + this.currentTest = test; + this.logger.setCurrentTest(test); + }); + + this.progressService.progress$ + .pipe(takeUntil(this.destroy$)) + .subscribe(progress => { + this.progress = progress; + }); + + this.logger.status$ + .pipe(takeUntil(this.destroy$)) + .subscribe(status => { + this.status = status; + }); + + this.totalTests = this.progressService.getTotalTests(); + this.logger.updateStatus('Test suite initialized - Assessment 1 ready'); + } + + ngOnDestroy(): void { + this.destroy$.next(); + this.destroy$.complete(); + } + + onTestComplete(): void { + this.progressService.nextTest(); + } + + redoTest(testNumber: number): void { + this.progressService.goToTest(testNumber); + } +} \ No newline at end of file diff --git a/src/app/services/ar-logger.service.ts b/src/app/services/ar-logger.service.ts new file mode 100644 index 0000000..a8b1c8c --- /dev/null +++ b/src/app/services/ar-logger.service.ts @@ -0,0 +1,1067 @@ +import { Injectable } from '@angular/core'; +import { BehaviorSubject, interval, Subscription } from 'rxjs'; + + +export interface DeviceInfo { + sessionId: string; + userAgent: string; + displayWidth: number; + displayHeight: number; + pixelRatio: number; + platform: string; + language: string; + timestamp: string; + deviceType: 'mobile' | 'tablet' | 'desktop' | 'vr' | 'unknown'; + browserName: string; + browserVersion: string; + operatingSystem: string; + screenOrientation: string; + hasGyroscope: boolean; + hasAccelerometer: boolean; + hasVRSupport: boolean; + hasARSupport: boolean; + maxTouchPoints: number; + connectionType?: string; + batteryLevel?: number; +} + +export interface GyroscopeData { + timestamp: number; + relativeTime: number; // Time since session start + testPhase: number; + alpha: number | null; // Z-axis rotation (0-360°) + beta: number | null; // X-axis rotation (-180 to 180°) + gamma: number | null; // Y-axis rotation (-90 to 90°) + absoluteAlpha?: number | null; + accuracy?: number; +} + +export interface AccelerometerData { + timestamp: number; + relativeTime: number; + testPhase: number; + x: number; + y: number; + z: number; + acceleration?: { + x: number; + y: number; + z: number; + }; + rotationRate?: { + alpha: number; + beta: number; + gamma: number; + }; +} + +export interface UserInput { + timestamp: number; + relativeTime: number; + testPhase: number; + inputType: 'touch' | 'mouse' | 'keyboard' | 'controller' | 'gesture' | 'voice'; + action: 'start' | 'move' | 'end' | 'click' | 'tap' | 'drag' | 'pinch' | 'rotate'; + coordinates?: { + x: number; + y: number; + screenX: number; + screenY: number; + }; + pressure?: number; + touches?: number; + target?: string; + duration?: number; + velocity?: number; + success: boolean; + errorType?: string; +} + +export interface ModelPlacementData { + timestamp: number; + relativeTime: number; + testPhase: number; + placed: boolean; + position?: { + x: number; + y: number; + z: number; + }; + rotation?: { + x: number; + y: number; + z: number; + }; + scale?: number; + distanceFromUser?: number; + placementAttempts: number; + placementSuccess: boolean; + surfaceDetected: boolean; + lightingCondition?: 'poor' | 'adequate' | 'good' | 'excellent'; +} + +export interface SliderInteraction { + timestamp: number; + relativeTime: number; + testPhase: number; + sliderType: string; + previousValue: number; + newValue: number; + changeAmount: number; + interactionDuration: number; + inputMethod: 'touch' | 'mouse' | 'controller'; + coordinatesStart?: { x: number; y: number }; + coordinatesEnd?: { x: number; y: number }; +} + +export interface PerformanceMetrics { + timestamp: number; + relativeTime: number; + testPhase: number; + frameRate: number; + memoryUsage?: number; + cpuUsage?: number; + batteryLevel?: number; + networkLatency?: number; + renderTime?: number; + loadingTime?: number; +} + +export interface ComfortMetrics { + timestamp: number; + relativeTime: number; + testPhase: number; + headTiltAngle: number; // Derived from gyroscope + neckStrainIndicator: number; // 0-10 scale based on angle thresholds + rapidMovements: number; // Count of sudden movements + restPeriods: number; // Count of stationary periods + gazeDirection: 'ceiling' | 'walls' | 'floor' | 'device'; + estimatedFatigue: number; // 0-10 scale +} + +export interface WebXRSessionData { + sessionId: string; + sessionType: 'immersive-ar' | 'immersive-vr' | 'inline'; + startTime: number; + endTime?: number; + duration?: number; + featureRequested: string[]; + featuresEnabled: string[]; + referenceSpaceType?: string; + inputSources: any[]; + frameRate?: number; + poses: any[]; + hitTests?: any[]; +} + +export interface TestResult { + duration: number; + completedSuccessfully: boolean; + interactionCount: number; + timeInVR: number; + startTime: number; + endTime?: number; + errorCount: number; + successRate: number; + averageResponseTime: number; + retryAttempts: number; + userSatisfaction?: number; + taskDifficulty?: number; + cognitiveLoad?: number; +} + +export type TestResultKey = 'firstInputTest' | 'speedTest' | 'ergonomicTest' | 'textTest' | 'referenceTest' | 'ceilingTest' | 'demographics'; + +export interface AssessmentData { + device: DeviceInfo; + session: { + startTime: number; + endTime?: number; + totalDuration?: number; + webXRSessions: WebXRSessionData[]; + }; + tracking: { + gyroscopeData: GyroscopeData[]; + accelerometerData: AccelerometerData[]; + userInputs: UserInput[]; + modelPlacements: ModelPlacementData[]; + sliderInteractions: SliderInteraction[]; + performanceMetrics: PerformanceMetrics[]; + comfortMetrics: ComfortMetrics[]; + }; + results: { + firstInputTest: TestResult & { + firstInputType: string | null; + firstInputData: any; + motionFrames: number; + naturalBehaviorPattern: string; + }; + speedTest: TestResult & { + finalSpeed: number; + adjustments: SliderInteraction[]; + optimalSpeedFound: boolean; + speedPreferences: number[]; + }; + ergonomicTest: TestResult & { + finalDistance: number; + finalAngle: number; + distanceAdjustments: SliderInteraction[]; + angleAdjustments: SliderInteraction[]; + comfortZone: { minDistance: number; maxDistance: number; optimalAngle: number }; + }; + textTest: TestResult & { + finalTextSize: number; + adjustments: SliderInteraction[]; + readabilityScores: number[]; + eyeStrainIndicators: ComfortMetrics[]; + }; + referenceTest: TestResult & { + finalScale: number; + adjustments: SliderInteraction[]; + scalePerception: string; + depthPerceptionAccuracy: number; + }; + ceilingTest: TestResult & { + finalXPosition: number; + finalYPosition: number; + xAdjustments: SliderInteraction[]; + yAdjustments: SliderInteraction[]; + spatialAwareness: number; + optimalPlacementZone: { x: number; y: number; radius: number }; + }; + demographics: { + age: number | null; + feedback: string; + overallRating: number | null; + arExperience: 'none' | 'beginner' | 'intermediate' | 'advanced'; + vrExperience: 'none' | 'beginner' | 'intermediate' | 'advanced'; + visionProblems: boolean; + motionSickness: boolean; + handedness: 'left' | 'right' | 'ambidextrous'; + techComfort: number; // 1-10 scale + }; + }; + analysis: { + inputHeatMap: { x: number; y: number; intensity: number }[]; + gyroscopeHeatMap: { alpha: number; beta: number; gamma: number; frequency: number }[]; + comfortZoneAnalysis: any; + usabilityScore: number; + recommendedSettings: any; + }; +} + + +@Injectable({ + providedIn: 'root' +}) +export class ArLoggerService { + private sessionId: string = ''; + private startTime: number = 0; + private currentTest = 0; + private testData: AssessmentData; + private gyroscopeSubscription?: Subscription; + private performanceSubscription?: Subscription; + private isTracking = false; + private currentFrameRate = 60; + private isMeasuringFps = false; + + // Status observable for components to subscribe to + private statusSubject = new BehaviorSubject('Ready to begin assessments'); + status$ = this.statusSubject.asObservable(); + + constructor() { + this.testData = this.initializeTestData(); + this.detectDeviceCapabilities(); + } + + + initializeSession(): void { + this.sessionId = this.generateSessionId(); + this.startTime = Date.now(); + this.testData.device.sessionId = this.sessionId; + this.testData.device.timestamp = new Date().toISOString(); + this.testData.session.startTime = this.startTime; + + this.startContinuousTracking(); + this.updateStatus('Session initialized - Ready to begin'); + } + + private generateSessionId(): string { + return 'CEILING_AR_' + Date.now() + '_' + Math.random().toString(36).substr(2, 9); + } + + private initializeTestData(): AssessmentData { + const data: AssessmentData = { + device: this.getDeviceInfo(), + session: { + startTime: 0, + webXRSessions: [] + }, + tracking: { + gyroscopeData: [], + accelerometerData: [], + userInputs: [], + modelPlacements: [], + sliderInteractions: [], + performanceMetrics: [], + comfortMetrics: [] + }, + results: { + firstInputTest: { ...this.createBaseTestResult(), firstInputType: null, firstInputData: null, motionFrames: 0, naturalBehaviorPattern: '' }, + speedTest: { ...this.createBaseTestResult(), finalSpeed: 50, adjustments: [], optimalSpeedFound: false, speedPreferences: [] }, + ergonomicTest: { + ...this.createBaseTestResult(), + finalDistance: 2.0, + finalAngle: 75, + distanceAdjustments: [], + angleAdjustments: [], + comfortZone: { minDistance: 1.0, maxDistance: 4.0, optimalAngle: 75 } + }, + textTest: { + ...this.createBaseTestResult(), + finalTextSize: 16, + adjustments: [], + readabilityScores: [], + eyeStrainIndicators: [] + }, + referenceTest: { + ...this.createBaseTestResult(), + finalScale: 100, + adjustments: [], + scalePerception: 'accurate', + depthPerceptionAccuracy: 0.8 + }, + ceilingTest: { + ...this.createBaseTestResult(), + finalXPosition: 0, + finalYPosition: 0, + xAdjustments: [], + yAdjustments: [], + spatialAwareness: 0.7, + optimalPlacementZone: { x: 0, y: 0, radius: 1.0 } + }, + demographics: { + age: null, + feedback: '', + overallRating: null, + arExperience: 'none', + vrExperience: 'none', + visionProblems: false, + motionSickness: false, + handedness: 'right', + techComfort: 5 + } + }, + analysis: { + inputHeatMap: [], + gyroscopeHeatMap: [], + comfortZoneAnalysis: {}, + usabilityScore: 0, + recommendedSettings: {} + } + }; + return data; + } + + private createBaseTestResult(): TestResult & any { + return { + duration: 0, + completedSuccessfully: false, + interactionCount: 0, + timeInVR: 0, + startTime: 0, + errorCount: 0, + successRate: 0, + averageResponseTime: 0, + retryAttempts: 0 + }; + } + + + private getDeviceInfo(): DeviceInfo { + const userAgent = navigator.userAgent; + + return { + sessionId: '', + userAgent: userAgent, + displayWidth: window.innerWidth, + displayHeight: window.innerHeight, + pixelRatio: window.devicePixelRatio, + platform: navigator.platform, + language: navigator.language, + timestamp: '', + deviceType: this.detectDeviceType(), + browserName: this.detectBrowser().name, + browserVersion: this.detectBrowser().version, + operatingSystem: this.detectOS(), + screenOrientation: this.getScreenOrientation(), + hasGyroscope: 'DeviceOrientationEvent' in window, + hasAccelerometer: 'DeviceMotionEvent' in window, + hasVRSupport: 'xr' in navigator, + hasARSupport: false, // Will be updated when WebXR session starts + maxTouchPoints: navigator.maxTouchPoints || 0, + connectionType: this.getConnectionType(), + batteryLevel: undefined + }; + } + + private detectDeviceType(): 'mobile' | 'tablet' | 'desktop' | 'vr' | 'unknown' { + const userAgent = navigator.userAgent.toLowerCase(); + + if (/mobile|android|iphone|ipod|blackberry|opera mini|iemobile/i.test(userAgent)) { + return 'mobile'; + } + if (/tablet|ipad|playbook|silk/i.test(userAgent)) { + return 'tablet'; + } + if (/oculus|vive|pico|quest/i.test(userAgent)) { + return 'vr'; + } + if (!/mobile|tablet/i.test(userAgent)) { + return 'desktop'; + } + + return 'unknown'; + } + + private detectBrowser(): { name: string; version: string } { + const userAgent = navigator.userAgent; + let name = 'unknown'; + let version = 'unknown'; + + if (userAgent.includes('Chrome')) { + name = 'Chrome'; + version = userAgent.match(/Chrome\/(\d+)/)?.[1] || 'unknown'; + } else if (userAgent.includes('Firefox')) { + name = 'Firefox'; + version = userAgent.match(/Firefox\/(\d+)/)?.[1] || 'unknown'; + } else if (userAgent.includes('Safari')) { + name = 'Safari'; + version = userAgent.match(/Version\/(\d+)/)?.[1] || 'unknown'; + } else if (userAgent.includes('Edge')) { + name = 'Edge'; + version = userAgent.match(/Edge\/(\d+)/)?.[1] || 'unknown'; + } + + return { name, version }; + } + + private detectOS(): string { + const userAgent = navigator.userAgent; + + if (/Windows/i.test(userAgent)) return 'Windows'; + if (/Mac/i.test(userAgent)) return 'macOS'; + if (/Linux/i.test(userAgent)) return 'Linux'; + if (/Android/i.test(userAgent)) return 'Android'; + if (/iOS|iPhone|iPad/i.test(userAgent)) return 'iOS'; + + return 'Unknown'; + } + + private getScreenOrientation(): string { + if (screen.orientation) { + return screen.orientation.type; + } + return window.innerWidth > window.innerHeight ? 'landscape' : 'portrait'; + } + + private getConnectionType(): string | undefined { + const connection = (navigator as any).connection || (navigator as any).mozConnection || (navigator as any).webkitConnection; + return connection?.effectiveType; + } + + private async detectDeviceCapabilities(): Promise { + // Check AR support + if ('xr' in navigator) { + try { + const isARSupported = await (navigator as any).xr.isSessionSupported('immersive-ar'); + this.testData.device.hasARSupport = isARSupported; + } catch (error) { + this.testData.device.hasARSupport = false; + } + } + + // Check battery API + if ('getBattery' in navigator) { + try { + const battery = await (navigator as any).getBattery(); + this.testData.device.batteryLevel = battery.level; + } catch (error) { + // Battery API not available + } + } + } + + private startContinuousTracking(): void { + this.isTracking = true; + this.startGyroscopeTracking(); + this.startPerformanceTracking(); + this.setupInputListeners(); + this.startFrameRateMeasurement(); + } + + private startGyroscopeTracking(): void { + if (!this.testData.device.hasGyroscope) return; + + // Request permission for iOS devices + if (typeof (DeviceOrientationEvent as any).requestPermission === 'function') { + (DeviceOrientationEvent as any).requestPermission() + .then((response: string) => { + if (response === 'granted') { + this.setupGyroscopeListener(); + } + }); + } else { + this.setupGyroscopeListener(); + } + + // Setup accelerometer if available + if (this.testData.device.hasAccelerometer) { + this.setupAccelerometerListener(); + } + } + + private setupGyroscopeListener(): void { + window.addEventListener('deviceorientation', (event) => { + if (!this.isTracking) return; + + const gyroData: GyroscopeData = { + timestamp: Date.now(), + relativeTime: Date.now() - this.startTime, + testPhase: this.currentTest, + alpha: event.alpha, + beta: event.beta, + gamma: event.gamma, + absoluteAlpha: event.absolute ? event.alpha : undefined + }; + + this.testData.tracking.gyroscopeData.push(gyroData); + + this.generateComfortMetrics(gyroData); + + // Limit array size to prevent memory issues + if (this.testData.tracking.gyroscopeData.length > 10000) { + this.testData.tracking.gyroscopeData = this.testData.tracking.gyroscopeData.slice(-5000); + } + }); + } + + private setupAccelerometerListener(): void { + window.addEventListener('devicemotion', (event) => { + if (!this.isTracking) return; + + const accelData: AccelerometerData = { + timestamp: Date.now(), + relativeTime: Date.now() - this.startTime, + testPhase: this.currentTest, + x: event.acceleration?.x || 0, + y: event.acceleration?.y || 0, + z: event.acceleration?.z || 0, + acceleration: { + x: event.acceleration?.x || 0, + y: event.acceleration?.y || 0, + z: event.acceleration?.z || 0 + }, + rotationRate: { + alpha: event.rotationRate?.alpha || 0, + beta: event.rotationRate?.beta || 0, + gamma: event.rotationRate?.gamma || 0 + } + }; + + this.testData.tracking.accelerometerData.push(accelData); + + if (this.testData.tracking.accelerometerData.length > 5000) { + this.testData.tracking.accelerometerData = this.testData.tracking.accelerometerData.slice(-2500); + } + }); + } + + private startPerformanceTracking(): void { + this.performanceSubscription = interval(1000).subscribe(() => { + if (!this.isTracking) return; + + const perfData: PerformanceMetrics = { + timestamp: Date.now(), + relativeTime: Date.now() - this.startTime, + testPhase: this.currentTest, + frameRate: this.currentFrameRate, + memoryUsage: (performance as any).memory?.usedJSHeapSize, + batteryLevel: this.getBatteryLevel() + }; + + this.testData.tracking.performanceMetrics.push(perfData); + }); + } + + private startFrameRateMeasurement(): void { + if (this.isMeasuringFps) { + return; + } + this.isMeasuringFps = true; + + let frames = 0; + let lastTime = performance.now(); + + const measureFrame = () => { + if (!this.isTracking) { + this.isMeasuringFps = false; + return; + } + + frames++; + const now = performance.now(); + const elapsed = now - lastTime; + + if (elapsed >= 1000) { + this.currentFrameRate = Math.round((frames * 1000) / elapsed); + lastTime = now; + frames = 0; + } + + requestAnimationFrame(measureFrame); + }; + + requestAnimationFrame(measureFrame); + } + + private getBatteryLevel(): number | undefined { + return this.testData.device.batteryLevel; + } + + private generateComfortMetrics(gyroData: GyroscopeData): void { + if (!gyroData.beta || !gyroData.gamma) return; + + const headTiltAngle = Math.abs(gyroData.beta); + const neckStrainIndicator = this.calculateNeckStrain(headTiltAngle); + + const comfortMetric: ComfortMetrics = { + timestamp: gyroData.timestamp, + relativeTime: gyroData.relativeTime, + testPhase: gyroData.testPhase, + headTiltAngle: headTiltAngle, + neckStrainIndicator: neckStrainIndicator, + rapidMovements: this.detectRapidMovements(), + restPeriods: this.detectRestPeriods(), + gazeDirection: this.estimateGazeDirection(gyroData), + estimatedFatigue: this.estimateFatigue() + }; + + this.testData.tracking.comfortMetrics.push(comfortMetric); + } + + private calculateNeckStrain(headTiltAngle: number): number { + if (headTiltAngle <= 30) return Math.round((headTiltAngle / 30) * 3); + if (headTiltAngle <= 60) return Math.round(3 + ((headTiltAngle - 30) / 30) * 4); + return Math.min(10, Math.round(7 + ((headTiltAngle - 60) / 30) * 3)); + } + + private detectRapidMovements(): number { + const recentGyroData = this.testData.tracking.gyroscopeData.slice(-10); + let rapidMovements = 0; + + for (let i = 1; i < recentGyroData.length; i++) { + const current = recentGyroData[i]; + const previous = recentGyroData[i - 1]; + + if (current.beta && previous.beta && current.gamma && previous.gamma) { + const betaDiff = Math.abs(current.beta - previous.beta); + const gammaDiff = Math.abs(current.gamma - previous.gamma); + + if (betaDiff > 20 || gammaDiff > 20) { + rapidMovements++; + } + } + } + + return rapidMovements; + } + + private detectRestPeriods(): number { + const recentGyroData = this.testData.tracking.gyroscopeData.slice(-20); + let restPeriods = 0; + let consecutiveStillFrames = 0; + + for (let i = 1; i < recentGyroData.length; i++) { + const current = recentGyroData[i]; + const previous = recentGyroData[i - 1]; + + if (current.beta && previous.beta && current.gamma && previous.gamma) { + const betaDiff = Math.abs(current.beta - previous.beta); + const gammaDiff = Math.abs(current.gamma - previous.gamma); + + if (betaDiff < 2 && gammaDiff < 2) { + consecutiveStillFrames++; + } else { + if (consecutiveStillFrames >= 5) { + restPeriods++; + } + consecutiveStillFrames = 0; + } + } + } + + return restPeriods; + } + + private estimateGazeDirection(gyroData: GyroscopeData): 'ceiling' | 'walls' | 'floor' | 'device' { + if (!gyroData.beta) return 'device'; + + const tiltAngle = gyroData.beta; + + if (tiltAngle > 45) return 'ceiling'; + if (tiltAngle < -30) return 'floor'; + if (Math.abs(tiltAngle) < 15) return 'device'; + + return 'walls'; + } + + private estimateFatigue(): number { + const recentComfort = this.testData.tracking.comfortMetrics.slice(-60); + + if (recentComfort.length === 0) return 0; + + const averageStrain = recentComfort.reduce((sum, metric) => sum + metric.neckStrainIndicator, 0) / recentComfort.length; + const totalRapidMovements = recentComfort.reduce((sum, metric) => sum + metric.rapidMovements, 0); + const sessionDuration = (Date.now() - this.startTime) / (1000 * 60); + + let fatigueScore = averageStrain * 0.4; + fatigueScore += Math.min(totalRapidMovements * 0.1, 3); + fatigueScore += Math.min(sessionDuration * 0.1, 2); + + return Math.min(10, Math.round(fatigueScore)); + } + + + private setupInputListeners(): void { + // Touch events + document.addEventListener('touchstart', (e) => this.logUserInput(e, 'touch', 'start')); + document.addEventListener('touchmove', (e) => this.logUserInput(e, 'touch', 'move')); + document.addEventListener('touchend', (e) => this.logUserInput(e, 'touch', 'end')); + + // Mouse events + document.addEventListener('mousedown', (e) => this.logUserInput(e, 'mouse', 'start')); + document.addEventListener('mousemove', (e) => this.logUserInput(e, 'mouse', 'move')); + document.addEventListener('mouseup', (e) => this.logUserInput(e, 'mouse', 'end')); + document.addEventListener('click', (e) => this.logUserInput(e, 'mouse', 'click')); + + // Keyboard events + document.addEventListener('keydown', (e) => this.logUserInput(e, 'keyboard', 'start')); + document.addEventListener('keyup', (e) => this.logUserInput(e, 'keyboard', 'end')); + } + + private logUserInput(event: Event, inputType: UserInput['inputType'], action: UserInput['action']): void { + if (!this.isTracking) return; + + const input: UserInput = { + timestamp: Date.now(), + relativeTime: Date.now() - this.startTime, + testPhase: this.currentTest, + inputType: inputType, + action: action, + success: true, + target: (event.target as HTMLElement)?.tagName || 'unknown' + }; + + if (event instanceof TouchEvent && event.touches.length > 0) { + const touch = event.touches[0]; + input.coordinates = { + x: touch.clientX, + y: touch.clientY, + screenX: touch.screenX, + screenY: touch.screenY + }; + input.pressure = (touch as any).force || 1; + input.touches = event.touches.length; + } else if (event instanceof MouseEvent) { + input.coordinates = { + x: event.clientX, + y: event.clientY, + screenX: event.screenX, + screenY: event.screenY + }; + } + + this.testData.tracking.userInputs.push(input); + + if (this.testData.tracking.userInputs.length > 5000) { + this.testData.tracking.userInputs = this.testData.tracking.userInputs.slice(-2500); + } + } + + logSliderInteraction(sliderType: string, previousValue: number, newValue: number, interactionStart: number, inputMethod: 'touch' | 'mouse' | 'controller', coordinates?: { start: { x: number; y: number }, end: { x: number; y: number } }): void { + const interaction: SliderInteraction = { + timestamp: Date.now(), + relativeTime: Date.now() - this.startTime, + testPhase: this.currentTest, + sliderType: sliderType, + previousValue: previousValue, + newValue: newValue, + changeAmount: newValue - previousValue, + interactionDuration: Date.now() - interactionStart, + inputMethod: inputMethod, + coordinatesStart: coordinates?.start, + coordinatesEnd: coordinates?.end + }; + + this.testData.tracking.sliderInteractions.push(interaction); + + this.logParameterAdjustment(sliderType, 'value', newValue); + } + + logModelPlacement(placed: boolean, position?: { x: number; y: number; z: number }, rotation?: { x: number; y: number; z: number }, scale?: number, attempts = 1, success = true): void { + const placement: ModelPlacementData = { + timestamp: Date.now(), + relativeTime: Date.now() - this.startTime, + testPhase: this.currentTest, + placed: placed, + position: position, + rotation: rotation, + scale: scale, + placementAttempts: attempts, + placementSuccess: success, + surfaceDetected: !!position, + distanceFromUser: position ? Math.sqrt(position.x ** 2 + position.y ** 2 + position.z ** 2) : undefined, + lightingCondition: this.assessLightingCondition() + }; + + this.testData.tracking.modelPlacements.push(placement); + } + + private assessLightingCondition(): 'poor' | 'adequate' | 'good' | 'excellent' { + const hour = new Date().getHours(); + + if (hour >= 10 && hour <= 16) return 'excellent'; // Daytime + if (hour >= 8 && hour <= 18) return 'good'; // Extended day hours + if (hour >= 6 && hour <= 20) return 'adequate'; // Dawn/dusk + + return 'poor'; + } + + logWebXRSession(sessionData: Partial): void { + const session: WebXRSessionData = { + sessionId: this.generateSessionId(), + sessionType: sessionData.sessionType || 'immersive-ar', + startTime: Date.now(), + featureRequested: sessionData.featureRequested || [], + featuresEnabled: sessionData.featuresEnabled || [], + inputSources: sessionData.inputSources || [], + poses: [], + ...sessionData + }; + + this.testData.session.webXRSessions.push(session); + } + + generateHeatMaps(): void { + this.testData.analysis.inputHeatMap = this.generateInputHeatMap(); + + this.testData.analysis.gyroscopeHeatMap = this.generateGyroscopeHeatMap(); + } + + private generateInputHeatMap(): { x: number; y: number; intensity: number }[] { + const heatMap: { [key: string]: number } = {}; + const gridSize = 50; + + this.testData.tracking.userInputs.forEach(input => { + if (input.coordinates) { + const gridX = Math.floor(input.coordinates.x / gridSize) * gridSize; + const gridY = Math.floor(input.coordinates.y / gridSize) * gridSize; + const key = `${gridX},${gridY}`; + + heatMap[key] = (heatMap[key] || 0) + 1; + } + }); + + return Object.entries(heatMap).map(([key, intensity]) => { + const [x, y] = key.split(',').map(Number); + return { x, y, intensity }; + }); + } + + private generateGyroscopeHeatMap(): { alpha: number; beta: number; gamma: number; frequency: number }[] { + const heatMap: { [key: string]: number } = {}; + const angleStep = 10; + + this.testData.tracking.gyroscopeData.forEach(gyro => { + if (gyro.alpha !== null && gyro.beta !== null && gyro.gamma !== null) { + const gridAlpha = Math.floor((gyro.alpha || 0) / angleStep) * angleStep; + const gridBeta = Math.floor((gyro.beta || 0) / angleStep) * angleStep; + const gridGamma = Math.floor((gyro.gamma || 0) / angleStep) * angleStep; + const key = `${gridAlpha},${gridBeta},${gridGamma}`; + + heatMap[key] = (heatMap[key] || 0) + 1; + } + }); + + return Object.entries(heatMap).map(([key, frequency]) => { + const [alpha, beta, gamma] = key.split(',').map(Number); + return { alpha, beta, gamma, frequency }; + }); + } + + logParameterAdjustment(testType: string, parameter: string, value: any): void { + const adjustment = { + timestamp: Date.now(), + parameter: parameter, + value: value + }; + + const testNames: { [key: string]: TestResultKey } = { + 'speed': 'speedTest', + 'ergonomic': 'ergonomicTest', + 'text': 'textTest', + 'reference': 'referenceTest', + 'ceiling': 'ceilingTest' + }; + + const testName = testNames[testType]; + if (testName && this.testData.results[testName]) { + const testResult = this.testData.results[testName] as any; + + if (!testResult.adjustments) { + testResult.adjustments = []; + } + testResult.adjustments.push(adjustment); + testResult.interactionCount++; + } + } + + + markTestComplete(testName: TestResultKey): void { + if (testName === 'demographics') return; // Demographics is not a test to be completed. + + const testResult = this.testData.results[testName]; + + if (this.isTestResult(testResult)) { + testResult.completedSuccessfully = true; + testResult.endTime = Date.now(); + if (testResult.startTime > 0) { + testResult.duration = testResult.endTime - testResult.startTime; + } + } + } + + + + updateStatus(message: string): void { + this.statusSubject.next(message); + } + + exportToCSV(): string[][] { + this.generateHeatMaps(); + + const csvData: string[][] = []; + + csvData.push([ + 'SessionID', 'TestType', 'Parameter', 'Value', 'Timestamp', 'RelativeTime', + 'DeviceWidth', 'DeviceHeight', 'DeviceType', 'Browser', 'OS', + 'Age', 'OverallRating', 'Completed', 'UsabilityScore', + 'TotalGyroPoints', 'TotalInputs', 'ComfortScore', 'FatigueScore' + ]); + + (Object.keys(this.testData.results) as Array).forEach(testName => { + const testResults = this.testData.results[testName] as any; + Object.keys(testResults).forEach(param => { + csvData.push([ + this.sessionId, + testName, + param, + JSON.stringify(testResults[param]), + Date.now().toString(), + (Date.now() - this.startTime).toString(), + this.testData.device.displayWidth.toString(), + this.testData.device.displayHeight.toString(), + this.testData.device.deviceType, + this.testData.device.browserName, + this.testData.device.operatingSystem, + this.testData.results.demographics.age?.toString() || 'N/A', + this.testData.results.demographics.overallRating?.toString() || 'N/A', + testResults.completedSuccessfully?.toString() || 'false', + this.testData.analysis.usabilityScore?.toString() || '0', + this.testData.tracking.gyroscopeData.length.toString(), + this.testData.tracking.userInputs.length.toString(), + this.calculateComfortScore().toString(), + this.calculateAverageFatigue().toString() + ]); + }); + }); + + return csvData; + } + + exportDetailedData(): any { + this.generateHeatMaps(); + + return { + ...this.testData, + exportTimestamp: new Date().toISOString(), + analysisMetrics: { + totalSessionDuration: Date.now() - this.startTime, + totalGyroPoints: this.testData.tracking.gyroscopeData.length, + totalInputs: this.testData.tracking.userInputs.length, + totalSliderInteractions: this.testData.tracking.sliderInteractions.length, + averageComfortScore: this.calculateComfortScore(), + averageFatigueScore: this.calculateAverageFatigue(), + completedTests: Object.values(this.testData.results).filter((result: any) => result.completedSuccessfully).length + } + }; + } + + private calculateComfortScore(): number { + if (this.testData.tracking.comfortMetrics.length === 0) return 0; + + const avgNeckStrain = this.testData.tracking.comfortMetrics.reduce((sum, metric) => sum + metric.neckStrainIndicator, 0) / this.testData.tracking.comfortMetrics.length; + const avgFatigue = this.calculateAverageFatigue(); + + return Math.max(0, Math.min(10, 10 - (avgNeckStrain * 0.6) - (avgFatigue * 0.4))); + } + + private calculateAverageFatigue(): number { + if (this.testData.tracking.comfortMetrics.length === 0) return 0; + + return this.testData.tracking.comfortMetrics.reduce((sum, metric) => sum + metric.estimatedFatigue, 0) / this.testData.tracking.comfortMetrics.length; + } + + getTestData(): AssessmentData { + return { ...this.testData }; + } + + getCurrentTest(): number { + return this.currentTest; + } + + private isTestResult(obj: any): obj is TestResult { + return obj && typeof obj.completedSuccessfully !== 'undefined'; + } + + setCurrentTest(testNumber: number): void { + this.currentTest = testNumber; + + const testNames: (TestResultKey | '')[] = ['', 'firstInputTest', 'speedTest', 'ergonomicTest', 'textTest', 'referenceTest', 'ceilingTest']; + const testName = testNames[testNumber]; + + if (testName && testName !== 'demographics') { + const testResult = this.testData.results[testName]; + if (this.isTestResult(testResult) && testResult.startTime === 0) { + testResult.startTime = Date.now(); + } + } + } + + + stopTracking(): void { + this.isTracking = false; + this.testData.session.endTime = Date.now(); + this.testData.session.totalDuration = this.testData.session.endTime - this.testData.session.startTime; + + if (this.gyroscopeSubscription) { + this.gyroscopeSubscription.unsubscribe(); + } + if (this.performanceSubscription) { + this.performanceSubscription.unsubscribe(); + } + + this.generateHeatMaps(); + this.updateStatus('Session completed - Tracking stopped'); + } +} \ No newline at end of file diff --git a/src/app/services/data-export.service.spec.ts b/src/app/services/data-export.service.spec.ts new file mode 100644 index 0000000..1e84ef3 --- /dev/null +++ b/src/app/services/data-export.service.spec.ts @@ -0,0 +1,16 @@ +import { TestBed } from '@angular/core/testing'; + +import { DataExportService } from './data-export.service'; + +describe('DataExportService', () => { + let service: DataExportService; + + beforeEach(() => { + TestBed.configureTestingModule({}); + service = TestBed.inject(DataExportService); + }); + + it('should be created', () => { + expect(service).toBeTruthy(); + }); +}); diff --git a/src/app/services/data-export.service.ts b/src/app/services/data-export.service.ts new file mode 100644 index 0000000..9d79532 --- /dev/null +++ b/src/app/services/data-export.service.ts @@ -0,0 +1,9 @@ +import { Injectable } from '@angular/core'; + +@Injectable({ + providedIn: 'root' +}) +export class DataExportService { + + constructor() { } +} diff --git a/src/app/services/test-progress.service.ts b/src/app/services/test-progress.service.ts new file mode 100644 index 0000000..900410a --- /dev/null +++ b/src/app/services/test-progress.service.ts @@ -0,0 +1,54 @@ +import { Injectable } from '@angular/core'; +import { BehaviorSubject } from 'rxjs'; +import { Router } from '@angular/router'; + +@Injectable({ + providedIn: 'root' +}) +export class TestProgressService { + private totalTests = 7; + private currentTestSubject = new BehaviorSubject(1); + private progressSubject = new BehaviorSubject(14.3); // (1/7) * 100 + + currentTest$ = this.currentTestSubject.asObservable(); + progress$ = this.progressSubject.asObservable(); + + constructor(private router: Router) {} + + getCurrentTest(): number { + return this.currentTestSubject.value; + } + + getTotalTests(): number { + return this.totalTests; + } + + nextTest(): void { + const current = this.currentTestSubject.value; + if (current < this.totalTests) { + const nextTest = current + 1; + this.currentTestSubject.next(nextTest); + this.updateProgress(nextTest); + } else { + // All tests completed, navigate to completion screen + this.router.navigate(['/completion']); + } + } + + goToTest(testNumber: number): void { + if (testNumber >= 1 && testNumber <= this.totalTests) { + this.currentTestSubject.next(testNumber); + this.updateProgress(testNumber); + } + } + + private updateProgress(testNumber: number): void { + const progress = (testNumber / this.totalTests) * 100; + this.progressSubject.next(progress); + } + + resetProgress(): void { + this.currentTestSubject.next(1); + this.updateProgress(1); + } +} \ No newline at end of file diff --git a/src/app/services/webxr.service.spec.ts b/src/app/services/webxr.service.spec.ts new file mode 100644 index 0000000..c27735e --- /dev/null +++ b/src/app/services/webxr.service.spec.ts @@ -0,0 +1,16 @@ +import { TestBed } from '@angular/core/testing'; + +import { WebxrService } from './webxr.service'; + +describe('WebxrService', () => { + let service: WebxrService; + + beforeEach(() => { + TestBed.configureTestingModule({}); + service = TestBed.inject(WebxrService); + }); + + it('should be created', () => { + expect(service).toBeTruthy(); + }); +}); diff --git a/src/app/services/webxr.service.ts b/src/app/services/webxr.service.ts new file mode 100644 index 0000000..02039de --- /dev/null +++ b/src/app/services/webxr.service.ts @@ -0,0 +1,9 @@ +import { Injectable } from '@angular/core'; + +@Injectable({ + providedIn: 'root' +}) +export class WebxrService { + + constructor() { } +} diff --git a/src/assets/scripts/model-viewer.js b/src/assets/scripts/model-viewer.js new file mode 100644 index 0000000..10c2c70 --- /dev/null +++ b/src/assets/scripts/model-viewer.js @@ -0,0 +1,80896 @@ +/** + * @license + * Copyright 2019 Google LLC + * SPDX-License-Identifier: BSD-3-Clause + */ +const NODE_MODE = false; +// Allows minifiers to rename references to globalThis +const global$2 = globalThis; +/** + * Whether the current browser supports `adoptedStyleSheets`. + */ +const supportsAdoptingStyleSheets = global$2.ShadowRoot && + (global$2.ShadyCSS === undefined || global$2.ShadyCSS.nativeShadow) && + 'adoptedStyleSheets' in Document.prototype && + 'replace' in CSSStyleSheet.prototype; +const constructionToken = Symbol(); +const cssTagCache = new WeakMap(); +/** + * A container for a string of CSS text, that may be used to create a CSSStyleSheet. + * + * CSSResult is the return value of `css`-tagged template literals and + * `unsafeCSS()`. In order to ensure that CSSResults are only created via the + * `css` tag and `unsafeCSS()`, CSSResult cannot be constructed directly. + */ +class CSSResult { + constructor(cssText, strings, safeToken) { + // This property needs to remain unminified. + this['_$cssResult$'] = true; + if (safeToken !== constructionToken) { + throw new Error('CSSResult is not constructable. Use `unsafeCSS` or `css` instead.'); + } + this.cssText = cssText; + this._strings = strings; + } + // This is a getter so that it's lazy. In practice, this means stylesheets + // are not created until the first element instance is made. + get styleSheet() { + // If `supportsAdoptingStyleSheets` is true then we assume CSSStyleSheet is + // constructable. + let styleSheet = this._styleSheet; + const strings = this._strings; + if (supportsAdoptingStyleSheets && styleSheet === undefined) { + const cacheable = strings !== undefined && strings.length === 1; + if (cacheable) { + styleSheet = cssTagCache.get(strings); + } + if (styleSheet === undefined) { + (this._styleSheet = styleSheet = new CSSStyleSheet()).replaceSync(this.cssText); + if (cacheable) { + cssTagCache.set(strings, styleSheet); + } + } + } + return styleSheet; + } + toString() { + return this.cssText; + } +} +/** + * Wrap a value for interpolation in a {@linkcode css} tagged template literal. + * + * This is unsafe because untrusted CSS text can be used to phone home + * or exfiltrate data to an attacker controlled site. Take care to only use + * this with trusted input. + */ +const unsafeCSS = (value) => new CSSResult(typeof value === 'string' ? value : String(value), undefined, constructionToken); +/** + * Applies the given styles to a `shadowRoot`. When Shadow DOM is + * available but `adoptedStyleSheets` is not, styles are appended to the + * `shadowRoot` to [mimic spec behavior](https://wicg.github.io/construct-stylesheets/#using-constructed-stylesheets). + * Note, when shimming is used, any styles that are subsequently placed into + * the shadowRoot should be placed *before* any shimmed adopted styles. This + * will match spec behavior that gives adopted sheets precedence over styles in + * shadowRoot. + */ +const adoptStyles = (renderRoot, styles) => { + if (supportsAdoptingStyleSheets) { + renderRoot.adoptedStyleSheets = styles.map((s) => s instanceof CSSStyleSheet ? s : s.styleSheet); + } + else { + for (const s of styles) { + const style = document.createElement('style'); + // eslint-disable-next-line @typescript-eslint/no-explicit-any + const nonce = global$2['litNonce']; + if (nonce !== undefined) { + style.setAttribute('nonce', nonce); + } + style.textContent = s.cssText; + renderRoot.appendChild(style); + } + } +}; +const cssResultFromStyleSheet = (sheet) => { + let cssText = ''; + for (const rule of sheet.cssRules) { + cssText += rule.cssText; + } + return unsafeCSS(cssText); +}; +const getCompatibleStyle = supportsAdoptingStyleSheets || + (NODE_MODE) + ? (s) => s + : (s) => s instanceof CSSStyleSheet ? cssResultFromStyleSheet(s) : s; + +/** + * @license + * Copyright 2017 Google LLC + * SPDX-License-Identifier: BSD-3-Clause + */ +/** + * Use this module if you want to create your own base class extending + * {@link ReactiveElement}. + * @packageDocumentation + */ +// TODO (justinfagnani): Add `hasOwn` here when we ship ES2022 +const { is, defineProperty, getOwnPropertyDescriptor, getOwnPropertyNames, getOwnPropertySymbols, getPrototypeOf, } = Object; +// Lets a minifier replace globalThis references with a minified name +const global$1 = globalThis; +let issueWarning$3; +const trustedTypes$1 = global$1 + .trustedTypes; +// Temporary workaround for https://crbug.com/993268 +// Currently, any attribute starting with "on" is considered to be a +// TrustedScript source. Such boolean attributes must be set to the equivalent +// trusted emptyScript value. +const emptyStringForBooleanAttribute = trustedTypes$1 + ? trustedTypes$1.emptyScript + : ''; +const polyfillSupport$2 = global$1.reactiveElementPolyfillSupportDevMode + ; +{ + // Ensure warnings are issued only 1x, even if multiple versions of Lit + // are loaded. + const issuedWarnings = (global$1.litIssuedWarnings ??= + new Set()); + // Issue a warning, if we haven't already. + issueWarning$3 = (code, warning) => { + warning += ` See https://lit.dev/msg/${code} for more information.`; + if (!issuedWarnings.has(warning)) { + console.warn(warning); + issuedWarnings.add(warning); + } + }; + issueWarning$3('dev-mode', `Lit is in dev mode. Not recommended for production!`); + // Issue polyfill support warning. + if (global$1.ShadyDOM?.inUse && polyfillSupport$2 === undefined) { + issueWarning$3('polyfill-support-missing', `Shadow DOM is being polyfilled via \`ShadyDOM\` but ` + + `the \`polyfill-support\` module has not been loaded.`); + } +} +/** + * Useful for visualizing and logging insights into what the Lit template system is doing. + * + * Compiled out of prod mode builds. + */ +const debugLogEvent$1 = (event) => { + const shouldEmit = global$1 + .emitLitDebugLogEvents; + if (!shouldEmit) { + return; + } + global$1.dispatchEvent(new CustomEvent('lit-debug', { + detail: event, + })); + } + ; +/* + * When using Closure Compiler, JSCompiler_renameProperty(property, object) is + * replaced at compile time by the munged name for object[property]. We cannot + * alias this function, so we have to use a small shim that has the same + * behavior when not compiling. + */ +/*@__INLINE__*/ +const JSCompiler_renameProperty$1 = (prop, _obj) => prop; +const defaultConverter = { + toAttribute(value, type) { + switch (type) { + case Boolean: + value = value ? emptyStringForBooleanAttribute : null; + break; + case Object: + case Array: + // if the value is `null` or `undefined` pass this through + // to allow removing/no change behavior. + value = value == null ? value : JSON.stringify(value); + break; + } + return value; + }, + fromAttribute(value, type) { + let fromValue = value; + switch (type) { + case Boolean: + fromValue = value !== null; + break; + case Number: + fromValue = value === null ? null : Number(value); + break; + case Object: + case Array: + // Do *not* generate exception when invalid JSON is set as elements + // don't normally complain on being mis-configured. + // TODO(sorvell): Do generate exception in *dev mode*. + try { + // Assert to adhere to Bazel's "must type assert JSON parse" rule. + fromValue = JSON.parse(value); + } + catch (e) { + fromValue = null; + } + break; + } + return fromValue; + }, +}; +/** + * Change function that returns true if `value` is different from `oldValue`. + * This method is used as the default for a property's `hasChanged` function. + */ +const notEqual = (value, old) => !is(value, old); +const defaultPropertyDeclaration$1 = { + attribute: true, + type: String, + converter: defaultConverter, + reflect: false, + hasChanged: notEqual, +}; +// Ensure metadata is enabled. TypeScript does not polyfill +// Symbol.metadata, so we must ensure that it exists. +Symbol.metadata ??= Symbol('metadata'); +// Map from a class's metadata object to property options +// Note that we must use nullish-coalescing assignment so that we only use one +// map even if we load multiple version of this module. +global$1.litPropertyMetadata ??= new WeakMap(); +/** + * Base element class which manages element properties and attributes. When + * properties change, the `update` method is asynchronously called. This method + * should be supplied by subclasses to render updates as desired. + * @noInheritDoc + */ +class ReactiveElement +// In the Node build, this `extends` clause will be substituted with +// `(globalThis.HTMLElement ?? HTMLElement)`. +// +// This way, we will first prefer any global `HTMLElement` polyfill that the +// user has assigned, and then fall back to the `HTMLElement` shim which has +// been imported (see note at the top of this file about how this import is +// generated by Rollup). Note that the `HTMLElement` variable has been +// shadowed by this import, so it no longer refers to the global. + extends HTMLElement { + /** + * Adds an initializer function to the class that is called during instance + * construction. + * + * This is useful for code that runs against a `ReactiveElement` + * subclass, such as a decorator, that needs to do work for each + * instance, such as setting up a `ReactiveController`. + * + * ```ts + * const myDecorator = (target: typeof ReactiveElement, key: string) => { + * target.addInitializer((instance: ReactiveElement) => { + * // This is run during construction of the element + * new MyController(instance); + * }); + * } + * ``` + * + * Decorating a field will then cause each instance to run an initializer + * that adds a controller: + * + * ```ts + * class MyElement extends LitElement { + * @myDecorator foo; + * } + * ``` + * + * Initializers are stored per-constructor. Adding an initializer to a + * subclass does not add it to a superclass. Since initializers are run in + * constructors, initializers will run in order of the class hierarchy, + * starting with superclasses and progressing to the instance's class. + * + * @nocollapse + */ + static addInitializer(initializer) { + this.__prepare(); + (this._initializers ??= []).push(initializer); + } + /** + * Returns a list of attributes corresponding to the registered properties. + * @nocollapse + * @category attributes + */ + static get observedAttributes() { + // Ensure we've created all properties + this.finalize(); + // this.__attributeToPropertyMap is only undefined after finalize() in + // ReactiveElement itself. ReactiveElement.observedAttributes is only + // accessed with ReactiveElement as the receiver when a subclass or mixin + // calls super.observedAttributes + return (this.__attributeToPropertyMap && [...this.__attributeToPropertyMap.keys()]); + } + /** + * Creates a property accessor on the element prototype if one does not exist + * and stores a {@linkcode PropertyDeclaration} for the property with the + * given options. The property setter calls the property's `hasChanged` + * property option or uses a strict identity check to determine whether or not + * to request an update. + * + * This method may be overridden to customize properties; however, + * when doing so, it's important to call `super.createProperty` to ensure + * the property is setup correctly. This method calls + * `getPropertyDescriptor` internally to get a descriptor to install. + * To customize what properties do when they are get or set, override + * `getPropertyDescriptor`. To customize the options for a property, + * implement `createProperty` like this: + * + * ```ts + * static createProperty(name, options) { + * options = Object.assign(options, {myOption: true}); + * super.createProperty(name, options); + * } + * ``` + * + * @nocollapse + * @category properties + */ + static createProperty(name, options = defaultPropertyDeclaration$1) { + // If this is a state property, force the attribute to false. + if (options.state) { + options.attribute = false; + } + this.__prepare(); + this.elementProperties.set(name, options); + if (!options.noAccessor) { + const key = // Use Symbol.for in dev mode to make it easier to maintain state + // when doing HMR. + Symbol.for(`${String(name)} (@property() cache)`) + ; + const descriptor = this.getPropertyDescriptor(name, key, options); + if (descriptor !== undefined) { + defineProperty(this.prototype, name, descriptor); + } + } + } + /** + * Returns a property descriptor to be defined on the given named property. + * If no descriptor is returned, the property will not become an accessor. + * For example, + * + * ```ts + * class MyElement extends LitElement { + * static getPropertyDescriptor(name, key, options) { + * const defaultDescriptor = + * super.getPropertyDescriptor(name, key, options); + * const setter = defaultDescriptor.set; + * return { + * get: defaultDescriptor.get, + * set(value) { + * setter.call(this, value); + * // custom action. + * }, + * configurable: true, + * enumerable: true + * } + * } + * } + * ``` + * + * @nocollapse + * @category properties + */ + static getPropertyDescriptor(name, key, options) { + const { get, set } = getOwnPropertyDescriptor(this.prototype, name) ?? { + get() { + return this[key]; + }, + set(v) { + this[key] = v; + }, + }; + if (get == null) { + if ('value' in (getOwnPropertyDescriptor(this.prototype, name) ?? {})) { + throw new Error(`Field ${JSON.stringify(String(name))} on ` + + `${this.name} was declared as a reactive property ` + + `but it's actually declared as a value on the prototype. ` + + `Usually this is due to using @property or @state on a method.`); + } + issueWarning$3('reactive-property-without-getter', `Field ${JSON.stringify(String(name))} on ` + + `${this.name} was declared as a reactive property ` + + `but it does not have a getter. This will be an error in a ` + + `future version of Lit.`); + } + return { + get() { + return get?.call(this); + }, + set(value) { + const oldValue = get?.call(this); + set.call(this, value); + this.requestUpdate(name, oldValue, options); + }, + configurable: true, + enumerable: true, + }; + } + /** + * Returns the property options associated with the given property. + * These options are defined with a `PropertyDeclaration` via the `properties` + * object or the `@property` decorator and are registered in + * `createProperty(...)`. + * + * Note, this method should be considered "final" and not overridden. To + * customize the options for a given property, override + * {@linkcode createProperty}. + * + * @nocollapse + * @final + * @category properties + */ + static getPropertyOptions(name) { + return this.elementProperties.get(name) ?? defaultPropertyDeclaration$1; + } + /** + * Initializes static own properties of the class used in bookkeeping + * for element properties, initializers, etc. + * + * Can be called multiple times by code that needs to ensure these + * properties exist before using them. + * + * This method ensures the superclass is finalized so that inherited + * property metadata can be copied down. + * @nocollapse + */ + static __prepare() { + if (this.hasOwnProperty(JSCompiler_renameProperty$1('elementProperties'))) { + // Already prepared + return; + } + // Finalize any superclasses + const superCtor = getPrototypeOf(this); + superCtor.finalize(); + // Create own set of initializers for this class if any exist on the + // superclass and copy them down. Note, for a small perf boost, avoid + // creating initializers unless needed. + if (superCtor._initializers !== undefined) { + this._initializers = [...superCtor._initializers]; + } + // Initialize elementProperties from the superclass + this.elementProperties = new Map(superCtor.elementProperties); + } + /** + * Finishes setting up the class so that it's ready to be registered + * as a custom element and instantiated. + * + * This method is called by the ReactiveElement.observedAttributes getter. + * If you override the observedAttributes getter, you must either call + * super.observedAttributes to trigger finalization, or call finalize() + * yourself. + * + * @nocollapse + */ + static finalize() { + if (this.hasOwnProperty(JSCompiler_renameProperty$1('finalized'))) { + return; + } + this.finalized = true; + this.__prepare(); + // Create properties from the static properties block: + if (this.hasOwnProperty(JSCompiler_renameProperty$1('properties'))) { + const props = this.properties; + const propKeys = [ + ...getOwnPropertyNames(props), + ...getOwnPropertySymbols(props), + ]; + for (const p of propKeys) { + this.createProperty(p, props[p]); + } + } + // Create properties from standard decorator metadata: + const metadata = this[Symbol.metadata]; + if (metadata !== null) { + const properties = litPropertyMetadata.get(metadata); + if (properties !== undefined) { + for (const [p, options] of properties) { + this.elementProperties.set(p, options); + } + } + } + // Create the attribute-to-property map + this.__attributeToPropertyMap = new Map(); + for (const [p, options] of this.elementProperties) { + const attr = this.__attributeNameForProperty(p, options); + if (attr !== undefined) { + this.__attributeToPropertyMap.set(attr, p); + } + } + this.elementStyles = this.finalizeStyles(this.styles); + { + if (this.hasOwnProperty('createProperty')) { + issueWarning$3('no-override-create-property', 'Overriding ReactiveElement.createProperty() is deprecated. ' + + 'The override will not be called with standard decorators'); + } + if (this.hasOwnProperty('getPropertyDescriptor')) { + issueWarning$3('no-override-get-property-descriptor', 'Overriding ReactiveElement.getPropertyDescriptor() is deprecated. ' + + 'The override will not be called with standard decorators'); + } + } + } + /** + * Takes the styles the user supplied via the `static styles` property and + * returns the array of styles to apply to the element. + * Override this method to integrate into a style management system. + * + * Styles are deduplicated preserving the _last_ instance in the list. This + * is a performance optimization to avoid duplicated styles that can occur + * especially when composing via subclassing. The last item is kept to try + * to preserve the cascade order with the assumption that it's most important + * that last added styles override previous styles. + * + * @nocollapse + * @category styles + */ + static finalizeStyles(styles) { + const elementStyles = []; + if (Array.isArray(styles)) { + // Dedupe the flattened array in reverse order to preserve the last items. + // Casting to Array works around TS error that + // appears to come from trying to flatten a type CSSResultArray. + const set = new Set(styles.flat(Infinity).reverse()); + // Then preserve original order by adding the set items in reverse order. + for (const s of set) { + elementStyles.unshift(getCompatibleStyle(s)); + } + } + else if (styles !== undefined) { + elementStyles.push(getCompatibleStyle(styles)); + } + return elementStyles; + } + /** + * Returns the property name for the given attribute `name`. + * @nocollapse + */ + static __attributeNameForProperty(name, options) { + const attribute = options.attribute; + return attribute === false + ? undefined + : typeof attribute === 'string' + ? attribute + : typeof name === 'string' + ? name.toLowerCase() + : undefined; + } + constructor() { + super(); + this.__instanceProperties = undefined; + /** + * True if there is a pending update as a result of calling `requestUpdate()`. + * Should only be read. + * @category updates + */ + this.isUpdatePending = false; + /** + * Is set to `true` after the first update. The element code cannot assume + * that `renderRoot` exists before the element `hasUpdated`. + * @category updates + */ + this.hasUpdated = false; + /** + * Name of currently reflecting property + */ + this.__reflectingProperty = null; + this.__initialize(); + } + /** + * Internal only override point for customizing work done when elements + * are constructed. + */ + __initialize() { + this.__updatePromise = new Promise((res) => (this.enableUpdating = res)); + this._$changedProperties = new Map(); + // This enqueues a microtask that ust run before the first update, so it + // must be called before requestUpdate() + this.__saveInstanceProperties(); + // ensures first update will be caught by an early access of + // `updateComplete` + this.requestUpdate(); + this.constructor._initializers?.forEach((i) => i(this)); + } + /** + * Registers a `ReactiveController` to participate in the element's reactive + * update cycle. The element automatically calls into any registered + * controllers during its lifecycle callbacks. + * + * If the element is connected when `addController()` is called, the + * controller's `hostConnected()` callback will be immediately called. + * @category controllers + */ + addController(controller) { + (this.__controllers ??= new Set()).add(controller); + // If a controller is added after the element has been connected, + // call hostConnected. Note, re-using existence of `renderRoot` here + // (which is set in connectedCallback) to avoid the need to track a + // first connected state. + if (this.renderRoot !== undefined && this.isConnected) { + controller.hostConnected?.(); + } + } + /** + * Removes a `ReactiveController` from the element. + * @category controllers + */ + removeController(controller) { + this.__controllers?.delete(controller); + } + /** + * Fixes any properties set on the instance before upgrade time. + * Otherwise these would shadow the accessor and break these properties. + * The properties are stored in a Map which is played back after the + * constructor runs. Note, on very old versions of Safari (<=9) or Chrome + * (<=41), properties created for native platform properties like (`id` or + * `name`) may not have default values set in the element constructor. On + * these browsers native properties appear on instances and therefore their + * default value will overwrite any element default (e.g. if the element sets + * this.id = 'id' in the constructor, the 'id' will become '' since this is + * the native platform default). + */ + __saveInstanceProperties() { + const instanceProperties = new Map(); + const elementProperties = this.constructor + .elementProperties; + for (const p of elementProperties.keys()) { + if (this.hasOwnProperty(p)) { + instanceProperties.set(p, this[p]); + delete this[p]; + } + } + if (instanceProperties.size > 0) { + this.__instanceProperties = instanceProperties; + } + } + /** + * Returns the node into which the element should render and by default + * creates and returns an open shadowRoot. Implement to customize where the + * element's DOM is rendered. For example, to render into the element's + * childNodes, return `this`. + * + * @return Returns a node into which to render. + * @category rendering + */ + createRenderRoot() { + const renderRoot = this.shadowRoot ?? + this.attachShadow(this.constructor.shadowRootOptions); + adoptStyles(renderRoot, this.constructor.elementStyles); + return renderRoot; + } + /** + * On first connection, creates the element's renderRoot, sets up + * element styling, and enables updating. + * @category lifecycle + */ + connectedCallback() { + // Create renderRoot before controllers `hostConnected` + this.renderRoot ??= + this.createRenderRoot(); + this.enableUpdating(true); + this.__controllers?.forEach((c) => c.hostConnected?.()); + } + /** + * Note, this method should be considered final and not overridden. It is + * overridden on the element instance with a function that triggers the first + * update. + * @category updates + */ + enableUpdating(_requestedUpdate) { } + /** + * Allows for `super.disconnectedCallback()` in extensions while + * reserving the possibility of making non-breaking feature additions + * when disconnecting at some point in the future. + * @category lifecycle + */ + disconnectedCallback() { + this.__controllers?.forEach((c) => c.hostDisconnected?.()); + } + /** + * Synchronizes property values when attributes change. + * + * Specifically, when an attribute is set, the corresponding property is set. + * You should rarely need to implement this callback. If this method is + * overridden, `super.attributeChangedCallback(name, _old, value)` must be + * called. + * + * See [using the lifecycle callbacks](https://developer.mozilla.org/en-US/docs/Web/Web_Components/Using_custom_elements#using_the_lifecycle_callbacks) + * on MDN for more information about the `attributeChangedCallback`. + * @category attributes + */ + attributeChangedCallback(name, _old, value) { + this._$attributeToProperty(name, value); + } + __propertyToAttribute(name, value) { + const elemProperties = this.constructor.elementProperties; + const options = elemProperties.get(name); + const attr = this.constructor.__attributeNameForProperty(name, options); + if (attr !== undefined && options.reflect === true) { + const converter = options.converter?.toAttribute !== + undefined + ? options.converter + : defaultConverter; + const attrValue = converter.toAttribute(value, options.type); + if (this.constructor.enabledWarnings.includes('migration') && + attrValue === undefined) { + issueWarning$3('undefined-attribute-value', `The attribute value for the ${name} property is ` + + `undefined on element ${this.localName}. The attribute will be ` + + `removed, but in the previous version of \`ReactiveElement\`, ` + + `the attribute would not have changed.`); + } + // Track if the property is being reflected to avoid + // setting the property again via `attributeChangedCallback`. Note: + // 1. this takes advantage of the fact that the callback is synchronous. + // 2. will behave incorrectly if multiple attributes are in the reaction + // stack at time of calling. However, since we process attributes + // in `update` this should not be possible (or an extreme corner case + // that we'd like to discover). + // mark state reflecting + this.__reflectingProperty = name; + if (attrValue == null) { + this.removeAttribute(attr); + } + else { + this.setAttribute(attr, attrValue); + } + // mark state not reflecting + this.__reflectingProperty = null; + } + } + /** @internal */ + _$attributeToProperty(name, value) { + const ctor = this.constructor; + // Note, hint this as an `AttributeMap` so closure clearly understands + // the type; it has issues with tracking types through statics + const propName = ctor.__attributeToPropertyMap.get(name); + // Use tracking info to avoid reflecting a property value to an attribute + // if it was just set because the attribute changed. + if (propName !== undefined && this.__reflectingProperty !== propName) { + const options = ctor.getPropertyOptions(propName); + const converter = typeof options.converter === 'function' + ? { fromAttribute: options.converter } + : options.converter?.fromAttribute !== undefined + ? options.converter + : defaultConverter; + // mark state reflecting + this.__reflectingProperty = propName; + this[propName] = converter.fromAttribute(value, options.type + // eslint-disable-next-line @typescript-eslint/no-explicit-any + ); + // mark state not reflecting + this.__reflectingProperty = null; + } + } + /** + * Requests an update which is processed asynchronously. This should be called + * when an element should update based on some state not triggered by setting + * a reactive property. In this case, pass no arguments. It should also be + * called when manually implementing a property setter. In this case, pass the + * property `name` and `oldValue` to ensure that any configured property + * options are honored. + * + * @param name name of requesting property + * @param oldValue old value of requesting property + * @param options property options to use instead of the previously + * configured options + * @category updates + */ + requestUpdate(name, oldValue, options) { + // If we have a property key, perform property update steps. + if (name !== undefined) { + if (name instanceof Event) { + issueWarning$3(``, `The requestUpdate() method was called with an Event as the property name. This is probably a mistake caused by binding this.requestUpdate as an event listener. Instead bind a function that will call it with no arguments: () => this.requestUpdate()`); + } + options ??= this.constructor.getPropertyOptions(name); + const hasChanged = options.hasChanged ?? notEqual; + const newValue = this[name]; + if (hasChanged(newValue, oldValue)) { + this._$changeProperty(name, oldValue, options); + } + else { + // Abort the request if the property should not be considered changed. + return; + } + } + if (this.isUpdatePending === false) { + this.__updatePromise = this.__enqueueUpdate(); + } + } + /** + * @internal + */ + _$changeProperty(name, oldValue, options) { + // TODO (justinfagnani): Create a benchmark of Map.has() + Map.set( + // vs just Map.set() + if (!this._$changedProperties.has(name)) { + this._$changedProperties.set(name, oldValue); + } + // Add to reflecting properties set. + // Note, it's important that every change has a chance to add the + // property to `__reflectingProperties`. This ensures setting + // attribute + property reflects correctly. + if (options.reflect === true && this.__reflectingProperty !== name) { + (this.__reflectingProperties ??= new Set()).add(name); + } + } + /** + * Sets up the element to asynchronously update. + */ + async __enqueueUpdate() { + this.isUpdatePending = true; + try { + // Ensure any previous update has resolved before updating. + // This `await` also ensures that property changes are batched. + await this.__updatePromise; + } + catch (e) { + // Refire any previous errors async so they do not disrupt the update + // cycle. Errors are refired so developers have a chance to observe + // them, and this can be done by implementing + // `window.onunhandledrejection`. + Promise.reject(e); + } + const result = this.scheduleUpdate(); + // If `scheduleUpdate` returns a Promise, we await it. This is done to + // enable coordinating updates with a scheduler. Note, the result is + // checked to avoid delaying an additional microtask unless we need to. + if (result != null) { + await result; + } + return !this.isUpdatePending; + } + /** + * Schedules an element update. You can override this method to change the + * timing of updates by returning a Promise. The update will await the + * returned Promise, and you should resolve the Promise to allow the update + * to proceed. If this method is overridden, `super.scheduleUpdate()` + * must be called. + * + * For instance, to schedule updates to occur just before the next frame: + * + * ```ts + * override protected async scheduleUpdate(): Promise { + * await new Promise((resolve) => requestAnimationFrame(() => resolve())); + * super.scheduleUpdate(); + * } + * ``` + * @category updates + */ + scheduleUpdate() { + const result = this.performUpdate(); + if (this.constructor.enabledWarnings.includes('async-perform-update') && + typeof result?.then === + 'function') { + issueWarning$3('async-perform-update', `Element ${this.localName} returned a Promise from performUpdate(). ` + + `This behavior is deprecated and will be removed in a future ` + + `version of ReactiveElement.`); + } + return result; + } + /** + * Performs an element update. Note, if an exception is thrown during the + * update, `firstUpdated` and `updated` will not be called. + * + * Call `performUpdate()` to immediately process a pending update. This should + * generally not be needed, but it can be done in rare cases when you need to + * update synchronously. + * + * @category updates + */ + performUpdate() { + // Abort any update if one is not pending when this is called. + // This can happen if `performUpdate` is called early to "flush" + // the update. + if (!this.isUpdatePending) { + return; + } + debugLogEvent$1?.({ kind: 'update' }); + if (!this.hasUpdated) { + // Create renderRoot before first update. This occurs in `connectedCallback` + // but is done here to support out of tree calls to `enableUpdating`/`performUpdate`. + this.renderRoot ??= + this.createRenderRoot(); + { + // Produce warning if any reactive properties on the prototype are + // shadowed by class fields. Instance fields set before upgrade are + // deleted by this point, so any own property is caused by class field + // initialization in the constructor. + const ctor = this.constructor; + const shadowedProperties = [...ctor.elementProperties.keys()].filter((p) => this.hasOwnProperty(p) && p in getPrototypeOf(this)); + if (shadowedProperties.length) { + throw new Error(`The following properties on element ${this.localName} will not ` + + `trigger updates as expected because they are set using class ` + + `fields: ${shadowedProperties.join(', ')}. ` + + `Native class fields and some compiled output will overwrite ` + + `accessors used for detecting changes. See ` + + `https://lit.dev/msg/class-field-shadowing ` + + `for more information.`); + } + } + // Mixin instance properties once, if they exist. + if (this.__instanceProperties) { + // TODO (justinfagnani): should we use the stored value? Could a new value + // have been set since we stored the own property value? + for (const [p, value] of this.__instanceProperties) { + this[p] = value; + } + this.__instanceProperties = undefined; + } + // Trigger initial value reflection and populate the initial + // changedProperties map, but only for the case of experimental + // decorators on accessors, which will not have already populated the + // changedProperties map. We can't know if these accessors had + // initializers, so we just set them anyway - a difference from + // experimental decorators on fields and standard decorators on + // auto-accessors. + // For context why experimentalDecorators with auto accessors are handled + // specifically also see: + // https://github.com/lit/lit/pull/4183#issuecomment-1711959635 + const elementProperties = this.constructor + .elementProperties; + if (elementProperties.size > 0) { + for (const [p, options] of elementProperties) { + if (options.wrapped === true && + !this._$changedProperties.has(p) && + this[p] !== undefined) { + this._$changeProperty(p, this[p], options); + } + } + } + } + let shouldUpdate = false; + const changedProperties = this._$changedProperties; + try { + shouldUpdate = this.shouldUpdate(changedProperties); + if (shouldUpdate) { + this.willUpdate(changedProperties); + this.__controllers?.forEach((c) => c.hostUpdate?.()); + this.update(changedProperties); + } + else { + this.__markUpdated(); + } + } + catch (e) { + // Prevent `firstUpdated` and `updated` from running when there's an + // update exception. + shouldUpdate = false; + // Ensure element can accept additional updates after an exception. + this.__markUpdated(); + throw e; + } + // The update is no longer considered pending and further updates are now allowed. + if (shouldUpdate) { + this._$didUpdate(changedProperties); + } + } + /** + * Invoked before `update()` to compute values needed during the update. + * + * Implement `willUpdate` to compute property values that depend on other + * properties and are used in the rest of the update process. + * + * ```ts + * willUpdate(changedProperties) { + * // only need to check changed properties for an expensive computation. + * if (changedProperties.has('firstName') || changedProperties.has('lastName')) { + * this.sha = computeSHA(`${this.firstName} ${this.lastName}`); + * } + * } + * + * render() { + * return html`SHA: ${this.sha}`; + * } + * ``` + * + * @category updates + */ + willUpdate(_changedProperties) { } + // Note, this is an override point for polyfill-support. + // @internal + _$didUpdate(changedProperties) { + this.__controllers?.forEach((c) => c.hostUpdated?.()); + if (!this.hasUpdated) { + this.hasUpdated = true; + this.firstUpdated(changedProperties); + } + this.updated(changedProperties); + if (this.isUpdatePending && + this.constructor.enabledWarnings.includes('change-in-update')) { + issueWarning$3('change-in-update', `Element ${this.localName} scheduled an update ` + + `(generally because a property was set) ` + + `after an update completed, causing a new update to be scheduled. ` + + `This is inefficient and should be avoided unless the next update ` + + `can only be scheduled as a side effect of the previous update.`); + } + } + __markUpdated() { + this._$changedProperties = new Map(); + this.isUpdatePending = false; + } + /** + * Returns a Promise that resolves when the element has completed updating. + * The Promise value is a boolean that is `true` if the element completed the + * update without triggering another update. The Promise result is `false` if + * a property was set inside `updated()`. If the Promise is rejected, an + * exception was thrown during the update. + * + * To await additional asynchronous work, override the `getUpdateComplete` + * method. For example, it is sometimes useful to await a rendered element + * before fulfilling this Promise. To do this, first await + * `super.getUpdateComplete()`, then any subsequent state. + * + * @return A promise of a boolean that resolves to true if the update completed + * without triggering another update. + * @category updates + */ + get updateComplete() { + return this.getUpdateComplete(); + } + /** + * Override point for the `updateComplete` promise. + * + * It is not safe to override the `updateComplete` getter directly due to a + * limitation in TypeScript which means it is not possible to call a + * superclass getter (e.g. `super.updateComplete.then(...)`) when the target + * language is ES5 (https://github.com/microsoft/TypeScript/issues/338). + * This method should be overridden instead. For example: + * + * ```ts + * class MyElement extends LitElement { + * override async getUpdateComplete() { + * const result = await super.getUpdateComplete(); + * await this._myChild.updateComplete; + * return result; + * } + * } + * ``` + * + * @return A promise of a boolean that resolves to true if the update completed + * without triggering another update. + * @category updates + */ + getUpdateComplete() { + return this.__updatePromise; + } + /** + * Controls whether or not `update()` should be called when the element requests + * an update. By default, this method always returns `true`, but this can be + * customized to control when to update. + * + * @param _changedProperties Map of changed properties with old values + * @category updates + */ + shouldUpdate(_changedProperties) { + return true; + } + /** + * Updates the element. This method reflects property values to attributes. + * It can be overridden to render and keep updated element DOM. + * Setting properties inside this method will *not* trigger + * another update. + * + * @param _changedProperties Map of changed properties with old values + * @category updates + */ + update(_changedProperties) { + // The forEach() expression will only run when when __reflectingProperties is + // defined, and it returns undefined, setting __reflectingProperties to + // undefined + this.__reflectingProperties &&= this.__reflectingProperties.forEach((p) => this.__propertyToAttribute(p, this[p])); + this.__markUpdated(); + } + /** + * Invoked whenever the element is updated. Implement to perform + * post-updating tasks via DOM APIs, for example, focusing an element. + * + * Setting properties inside this method will trigger the element to update + * again after this update cycle completes. + * + * @param _changedProperties Map of changed properties with old values + * @category updates + */ + updated(_changedProperties) { } + /** + * Invoked when the element is first updated. Implement to perform one time + * work on the element after update. + * + * ```ts + * firstUpdated() { + * this.renderRoot.getElementById('my-text-area').focus(); + * } + * ``` + * + * Setting properties inside this method will trigger the element to update + * again after this update cycle completes. + * + * @param _changedProperties Map of changed properties with old values + * @category updates + */ + firstUpdated(_changedProperties) { } +} +/** + * Memoized list of all element styles. + * Created lazily on user subclasses when finalizing the class. + * @nocollapse + * @category styles + */ +ReactiveElement.elementStyles = []; +/** + * Options used when calling `attachShadow`. Set this property to customize + * the options for the shadowRoot; for example, to create a closed + * shadowRoot: `{mode: 'closed'}`. + * + * Note, these options are used in `createRenderRoot`. If this method + * is customized, options should be respected if possible. + * @nocollapse + * @category rendering + */ +ReactiveElement.shadowRootOptions = { mode: 'open' }; +// Assigned here to work around a jscompiler bug with static fields +// when compiling to ES5. +// https://github.com/google/closure-compiler/issues/3177 +ReactiveElement[JSCompiler_renameProperty$1('elementProperties')] = new Map(); +ReactiveElement[JSCompiler_renameProperty$1('finalized')] = new Map(); +// Apply polyfills if available +polyfillSupport$2?.({ ReactiveElement }); +// Dev mode warnings... +{ + // Default warning set. + ReactiveElement.enabledWarnings = [ + 'change-in-update', + 'async-perform-update', + ]; + const ensureOwnWarnings = function (ctor) { + if (!ctor.hasOwnProperty(JSCompiler_renameProperty$1('enabledWarnings'))) { + ctor.enabledWarnings = ctor.enabledWarnings.slice(); + } + }; + ReactiveElement.enableWarning = function (warning) { + ensureOwnWarnings(this); + if (!this.enabledWarnings.includes(warning)) { + this.enabledWarnings.push(warning); + } + }; + ReactiveElement.disableWarning = function (warning) { + ensureOwnWarnings(this); + const i = this.enabledWarnings.indexOf(warning); + if (i >= 0) { + this.enabledWarnings.splice(i, 1); + } + }; +} +// IMPORTANT: do not change the property name or the assignment expression. +// This line will be used in regexes to search for ReactiveElement usage. +(global$1.reactiveElementVersions ??= []).push('2.0.4'); +if (global$1.reactiveElementVersions.length > 1) { + issueWarning$3('multiple-versions', `Multiple versions of Lit loaded. Loading multiple versions ` + + `is not recommended.`); +} + +/** + * @license + * Copyright 2017 Google LLC + * SPDX-License-Identifier: BSD-3-Clause + */ +/* + * IMPORTANT: For compatibility with tsickle and the Closure JS compiler, all + * property decorators (but not class decorators) in this file that have + * an @ExportDecoratedItems annotation must be defined as a regular function, + * not an arrow function. + */ +let issueWarning$2; +{ + // Ensure warnings are issued only 1x, even if multiple versions of Lit + // are loaded. + const issuedWarnings = (globalThis.litIssuedWarnings ??= new Set()); + // Issue a warning, if we haven't already. + issueWarning$2 = (code, warning) => { + warning += ` See https://lit.dev/msg/${code} for more information.`; + if (!issuedWarnings.has(warning)) { + console.warn(warning); + issuedWarnings.add(warning); + } + }; +} +const legacyProperty = (options, proto, name) => { + const hasOwnProperty = proto.hasOwnProperty(name); + proto.constructor.createProperty(name, hasOwnProperty ? { ...options, wrapped: true } : options); + // For accessors (which have a descriptor on the prototype) we need to + // return a descriptor, otherwise TypeScript overwrites the descriptor we + // define in createProperty() with the original descriptor. We don't do this + // for fields, which don't have a descriptor, because this could overwrite + // descriptor defined by other decorators. + return hasOwnProperty + ? Object.getOwnPropertyDescriptor(proto, name) + : undefined; +}; +// This is duplicated from a similar variable in reactive-element.ts, but +// actually makes sense to have this default defined with the decorator, so +// that different decorators could have different defaults. +const defaultPropertyDeclaration = { + attribute: true, + type: String, + converter: defaultConverter, + reflect: false, + hasChanged: notEqual, +}; +/** + * Wraps a class accessor or setter so that `requestUpdate()` is called with the + * property name and old value when the accessor is set. + */ +const standardProperty = (options = defaultPropertyDeclaration, target, context) => { + const { kind, metadata } = context; + if (metadata == null) { + issueWarning$2('missing-class-metadata', `The class ${target} is missing decorator metadata. This ` + + `could mean that you're using a compiler that supports decorators ` + + `but doesn't support decorator metadata, such as TypeScript 5.1. ` + + `Please update your compiler.`); + } + // Store the property options + let properties = globalThis.litPropertyMetadata.get(metadata); + if (properties === undefined) { + globalThis.litPropertyMetadata.set(metadata, (properties = new Map())); + } + properties.set(context.name, options); + if (kind === 'accessor') { + // Standard decorators cannot dynamically modify the class, so we can't + // replace a field with accessors. The user must use the new `accessor` + // keyword instead. + const { name } = context; + return { + set(v) { + const oldValue = target.get.call(this); + target.set.call(this, v); + this.requestUpdate(name, oldValue, options); + }, + init(v) { + if (v !== undefined) { + this._$changeProperty(name, undefined, options); + } + return v; + }, + }; + } + else if (kind === 'setter') { + const { name } = context; + return function (value) { + const oldValue = this[name]; + target.call(this, value); + this.requestUpdate(name, oldValue, options); + }; + } + throw new Error(`Unsupported decorator location: ${kind}`); +}; +/** + * A class field or accessor decorator which creates a reactive property that + * reflects a corresponding attribute value. When a decorated property is set + * the element will update and render. A {@linkcode PropertyDeclaration} may + * optionally be supplied to configure property features. + * + * This decorator should only be used for public fields. As public fields, + * properties should be considered as primarily settable by element users, + * either via attribute or the property itself. + * + * Generally, properties that are changed by the element should be private or + * protected fields and should use the {@linkcode state} decorator. + * + * However, sometimes element code does need to set a public property. This + * should typically only be done in response to user interaction, and an event + * should be fired informing the user; for example, a checkbox sets its + * `checked` property when clicked and fires a `changed` event. Mutating public + * properties should typically not be done for non-primitive (object or array) + * properties. In other cases when an element needs to manage state, a private + * property decorated via the {@linkcode state} decorator should be used. When + * needed, state properties can be initialized via public properties to + * facilitate complex interactions. + * + * ```ts + * class MyElement { + * @property({ type: Boolean }) + * clicked = false; + * } + * ``` + * @category Decorator + * @ExportDecoratedItems + */ +function property(options) { + return (protoOrTarget, nameOrContext + // eslint-disable-next-line @typescript-eslint/no-explicit-any + ) => { + return (typeof nameOrContext === 'object' + ? standardProperty(options, protoOrTarget, nameOrContext) + : legacyProperty(options, protoOrTarget, nameOrContext)); + }; +} + +/** + * @license + * Copyright 2017 Google LLC + * SPDX-License-Identifier: BSD-3-Clause + */ +{ + // Ensure warnings are issued only 1x, even if multiple versions of Lit + // are loaded. + (globalThis.litIssuedWarnings ??= new Set()); +} + +/** + * @license + * Copyright 2010-2025 Three.js Authors + * SPDX-License-Identifier: MIT + */ +const REVISION = '174'; +const CullFaceNone = 0; +const CullFaceBack = 1; +const CullFaceFront = 2; +const PCFShadowMap = 1; +const PCFSoftShadowMap = 2; +const VSMShadowMap = 3; +const FrontSide = 0; +const BackSide = 1; +const DoubleSide = 2; +const NoBlending = 0; +const NormalBlending = 1; +const AdditiveBlending = 2; +const SubtractiveBlending = 3; +const MultiplyBlending = 4; +const CustomBlending = 5; +const AddEquation = 100; +const SubtractEquation = 101; +const ReverseSubtractEquation = 102; +const MinEquation = 103; +const MaxEquation = 104; +const ZeroFactor = 200; +const OneFactor = 201; +const SrcColorFactor = 202; +const OneMinusSrcColorFactor = 203; +const SrcAlphaFactor = 204; +const OneMinusSrcAlphaFactor = 205; +const DstAlphaFactor = 206; +const OneMinusDstAlphaFactor = 207; +const DstColorFactor = 208; +const OneMinusDstColorFactor = 209; +const SrcAlphaSaturateFactor = 210; +const ConstantColorFactor = 211; +const OneMinusConstantColorFactor = 212; +const ConstantAlphaFactor = 213; +const OneMinusConstantAlphaFactor = 214; +const NeverDepth = 0; +const AlwaysDepth = 1; +const LessDepth = 2; +const LessEqualDepth = 3; +const EqualDepth = 4; +const GreaterEqualDepth = 5; +const GreaterDepth = 6; +const NotEqualDepth = 7; +const MultiplyOperation = 0; +const MixOperation = 1; +const AddOperation = 2; +const NoToneMapping = 0; +const LinearToneMapping = 1; +const ReinhardToneMapping = 2; +const CineonToneMapping = 3; +const ACESFilmicToneMapping = 4; +const CustomToneMapping = 5; +const AgXToneMapping = 6; +const NeutralToneMapping = 7; +const AttachedBindMode = 'attached'; +const DetachedBindMode = 'detached'; + +const UVMapping = 300; +const CubeReflectionMapping = 301; +const CubeRefractionMapping = 302; +const EquirectangularReflectionMapping = 303; +const EquirectangularRefractionMapping = 304; +const CubeUVReflectionMapping = 306; +const RepeatWrapping = 1000; +const ClampToEdgeWrapping = 1001; +const MirroredRepeatWrapping = 1002; +const NearestFilter = 1003; +const NearestMipmapNearestFilter = 1004; +const NearestMipmapLinearFilter = 1005; +const LinearFilter = 1006; +const LinearMipmapNearestFilter = 1007; +const LinearMipmapLinearFilter = 1008; +const LinearMipMapLinearFilter = 1008; +const UnsignedByteType = 1009; +const ByteType = 1010; +const ShortType = 1011; +const UnsignedShortType = 1012; +const IntType = 1013; +const UnsignedIntType = 1014; +const FloatType = 1015; +const HalfFloatType = 1016; +const UnsignedShort4444Type = 1017; +const UnsignedShort5551Type = 1018; +const UnsignedInt248Type = 1020; +const UnsignedInt5999Type = 35902; +const AlphaFormat = 1021; +const RGBFormat = 1022; +const RGBAFormat = 1023; +const LuminanceFormat = 1024; +const LuminanceAlphaFormat = 1025; +const DepthFormat = 1026; +const DepthStencilFormat = 1027; +const RedFormat = 1028; +const RedIntegerFormat = 1029; +const RGFormat = 1030; +const RGIntegerFormat = 1031; +const RGBAIntegerFormat = 1033; + +const RGB_S3TC_DXT1_Format = 33776; +const RGBA_S3TC_DXT1_Format = 33777; +const RGBA_S3TC_DXT3_Format = 33778; +const RGBA_S3TC_DXT5_Format = 33779; +const RGB_PVRTC_4BPPV1_Format = 35840; +const RGB_PVRTC_2BPPV1_Format = 35841; +const RGBA_PVRTC_4BPPV1_Format = 35842; +const RGBA_PVRTC_2BPPV1_Format = 35843; +const RGB_ETC1_Format = 36196; +const RGB_ETC2_Format = 37492; +const RGBA_ETC2_EAC_Format = 37496; +const RGBA_ASTC_4x4_Format = 37808; +const RGBA_ASTC_5x4_Format = 37809; +const RGBA_ASTC_5x5_Format = 37810; +const RGBA_ASTC_6x5_Format = 37811; +const RGBA_ASTC_6x6_Format = 37812; +const RGBA_ASTC_8x5_Format = 37813; +const RGBA_ASTC_8x6_Format = 37814; +const RGBA_ASTC_8x8_Format = 37815; +const RGBA_ASTC_10x5_Format = 37816; +const RGBA_ASTC_10x6_Format = 37817; +const RGBA_ASTC_10x8_Format = 37818; +const RGBA_ASTC_10x10_Format = 37819; +const RGBA_ASTC_12x10_Format = 37820; +const RGBA_ASTC_12x12_Format = 37821; +const RGBA_BPTC_Format = 36492; +const RGB_BPTC_SIGNED_Format = 36494; +const RGB_BPTC_UNSIGNED_Format = 36495; +const RED_RGTC1_Format = 36283; +const SIGNED_RED_RGTC1_Format = 36284; +const RED_GREEN_RGTC2_Format = 36285; +const SIGNED_RED_GREEN_RGTC2_Format = 36286; +const LoopOnce = 2200; +const LoopRepeat = 2201; +const LoopPingPong = 2202; +const InterpolateDiscrete = 2300; +const InterpolateLinear = 2301; +const InterpolateSmooth = 2302; +const ZeroCurvatureEnding = 2400; +const ZeroSlopeEnding = 2401; +const WrapAroundEnding = 2402; +const NormalAnimationBlendMode = 2500; +const AdditiveAnimationBlendMode = 2501; +const TrianglesDrawMode = 0; +const TriangleStripDrawMode = 1; +const TriangleFanDrawMode = 2; +const BasicDepthPacking = 3200; +const RGBADepthPacking = 3201; +const TangentSpaceNormalMap = 0; +const ObjectSpaceNormalMap = 1; + +// Color space string identifiers, matching CSS Color Module Level 4 and WebGPU names where available. +const NoColorSpace = ''; +const SRGBColorSpace = 'srgb'; +const LinearSRGBColorSpace = 'srgb-linear'; + +const LinearTransfer = 'linear'; +const SRGBTransfer = 'srgb'; +const KeepStencilOp = 7680; +const AlwaysStencilFunc = 519; + +const NeverCompare = 512; +const LessCompare = 513; +const EqualCompare = 514; +const LessEqualCompare = 515; +const GreaterCompare = 516; +const NotEqualCompare = 517; +const GreaterEqualCompare = 518; +const AlwaysCompare = 519; + +const StaticDrawUsage = 35044; +const GLSL3 = '300 es'; + +const WebGLCoordinateSystem = 2000; +const WebGPUCoordinateSystem = 2001; + +/** + * This modules allows to dispatch event objects on custom JavaScript objects. + * + * Main repository: [eventdispatcher.js]{@link https://github.com/mrdoob/eventdispatcher.js/} + * + * Code Example: + * ```js + * class Car extends EventDispatcher { + * start() { + * this.dispatchEvent( { type: 'start', message: 'vroom vroom!' } ); + * } + *}; + * + * // Using events with the custom object + * const car = new Car(); + * car.addEventListener( 'start', function ( event ) { + * alert( event.message ); + * } ); + * + * car.start(); + * ``` + */ +class EventDispatcher { + + /** + * Adds the given event listener to the given event type. + * + * @param {string} type - The type of event to listen to. + * @param {Function} listener - The function that gets called when the event is fired. + */ + addEventListener( type, listener ) { + + if ( this._listeners === undefined ) this._listeners = {}; + + const listeners = this._listeners; + + if ( listeners[ type ] === undefined ) { + + listeners[ type ] = []; + + } + + if ( listeners[ type ].indexOf( listener ) === -1 ) { + + listeners[ type ].push( listener ); + + } + + } + + /** + * Returns `true` if the given event listener has been added to the given event type. + * + * @param {string} type - The type of event. + * @param {Function} listener - The listener to check. + * @return {boolean} Whether the given event listener has been added to the given event type. + */ + hasEventListener( type, listener ) { + + const listeners = this._listeners; + + if ( listeners === undefined ) return false; + + return listeners[ type ] !== undefined && listeners[ type ].indexOf( listener ) !== -1; + + } + + /** + * Removes the given event listener from the given event type. + * + * @param {string} type - The type of event. + * @param {Function} listener - The listener to remove. + */ + removeEventListener( type, listener ) { + + const listeners = this._listeners; + + if ( listeners === undefined ) return; + + const listenerArray = listeners[ type ]; + + if ( listenerArray !== undefined ) { + + const index = listenerArray.indexOf( listener ); + + if ( index !== -1 ) { + + listenerArray.splice( index, 1 ); + + } + + } + + } + + /** + * Dispatches an event object. + * + * @param {Object} event - The event that gets fired. + */ + dispatchEvent( event ) { + + const listeners = this._listeners; + + if ( listeners === undefined ) return; + + const listenerArray = listeners[ event.type ]; + + if ( listenerArray !== undefined ) { + + event.target = this; + + // Make a copy, in case listeners are removed while iterating. + const array = listenerArray.slice( 0 ); + + for ( let i = 0, l = array.length; i < l; i ++ ) { + + array[ i ].call( this, event ); + + } + + event.target = null; + + } + + } + +} + +const _lut = [ '00', '01', '02', '03', '04', '05', '06', '07', '08', '09', '0a', '0b', '0c', '0d', '0e', '0f', '10', '11', '12', '13', '14', '15', '16', '17', '18', '19', '1a', '1b', '1c', '1d', '1e', '1f', '20', '21', '22', '23', '24', '25', '26', '27', '28', '29', '2a', '2b', '2c', '2d', '2e', '2f', '30', '31', '32', '33', '34', '35', '36', '37', '38', '39', '3a', '3b', '3c', '3d', '3e', '3f', '40', '41', '42', '43', '44', '45', '46', '47', '48', '49', '4a', '4b', '4c', '4d', '4e', '4f', '50', '51', '52', '53', '54', '55', '56', '57', '58', '59', '5a', '5b', '5c', '5d', '5e', '5f', '60', '61', '62', '63', '64', '65', '66', '67', '68', '69', '6a', '6b', '6c', '6d', '6e', '6f', '70', '71', '72', '73', '74', '75', '76', '77', '78', '79', '7a', '7b', '7c', '7d', '7e', '7f', '80', '81', '82', '83', '84', '85', '86', '87', '88', '89', '8a', '8b', '8c', '8d', '8e', '8f', '90', '91', '92', '93', '94', '95', '96', '97', '98', '99', '9a', '9b', '9c', '9d', '9e', '9f', 'a0', 'a1', 'a2', 'a3', 'a4', 'a5', 'a6', 'a7', 'a8', 'a9', 'aa', 'ab', 'ac', 'ad', 'ae', 'af', 'b0', 'b1', 'b2', 'b3', 'b4', 'b5', 'b6', 'b7', 'b8', 'b9', 'ba', 'bb', 'bc', 'bd', 'be', 'bf', 'c0', 'c1', 'c2', 'c3', 'c4', 'c5', 'c6', 'c7', 'c8', 'c9', 'ca', 'cb', 'cc', 'cd', 'ce', 'cf', 'd0', 'd1', 'd2', 'd3', 'd4', 'd5', 'd6', 'd7', 'd8', 'd9', 'da', 'db', 'dc', 'dd', 'de', 'df', 'e0', 'e1', 'e2', 'e3', 'e4', 'e5', 'e6', 'e7', 'e8', 'e9', 'ea', 'eb', 'ec', 'ed', 'ee', 'ef', 'f0', 'f1', 'f2', 'f3', 'f4', 'f5', 'f6', 'f7', 'f8', 'f9', 'fa', 'fb', 'fc', 'fd', 'fe', 'ff' ]; + +let _seed = 1234567; + + +const DEG2RAD = Math.PI / 180; +const RAD2DEG = 180 / Math.PI; + +/** + * Generate a [UUID]{@link https://en.wikipedia.org/wiki/Universally_unique_identifier} + * (universally unique identifier). + * + * @return {string} The UUID. + */ +function generateUUID() { + + // http://stackoverflow.com/questions/105034/how-to-create-a-guid-uuid-in-javascript/21963136#21963136 + + const d0 = Math.random() * 0xffffffff | 0; + const d1 = Math.random() * 0xffffffff | 0; + const d2 = Math.random() * 0xffffffff | 0; + const d3 = Math.random() * 0xffffffff | 0; + const uuid = _lut[ d0 & 0xff ] + _lut[ d0 >> 8 & 0xff ] + _lut[ d0 >> 16 & 0xff ] + _lut[ d0 >> 24 & 0xff ] + '-' + + _lut[ d1 & 0xff ] + _lut[ d1 >> 8 & 0xff ] + '-' + _lut[ d1 >> 16 & 0x0f | 0x40 ] + _lut[ d1 >> 24 & 0xff ] + '-' + + _lut[ d2 & 0x3f | 0x80 ] + _lut[ d2 >> 8 & 0xff ] + '-' + _lut[ d2 >> 16 & 0xff ] + _lut[ d2 >> 24 & 0xff ] + + _lut[ d3 & 0xff ] + _lut[ d3 >> 8 & 0xff ] + _lut[ d3 >> 16 & 0xff ] + _lut[ d3 >> 24 & 0xff ]; + + // .toLowerCase() here flattens concatenated strings to save heap memory space. + return uuid.toLowerCase(); + +} + +/** + * Clamps the given value between min and max. + * + * @param {number} value - The value to clamp. + * @param {number} min - The min value. + * @param {number} max - The max value. + * @return {number} The clamped value. + */ +function clamp$1( value, min, max ) { + + return Math.max( min, Math.min( max, value ) ); + +} + +/** + * Computes the Euclidean modulo of the given parameters that + * is `( ( n % m ) + m ) % m`. + * + * @param {number} n - The first parameter. + * @param {number} m - The second parameter. + * @return {number} The Euclidean modulo. + */ +function euclideanModulo( n, m ) { + + // https://en.wikipedia.org/wiki/Modulo_operation + + return ( ( n % m ) + m ) % m; + +} + +/** + * Performs a linear mapping from range `` to range `` + * for the given value. + * + * @param {number} x - The value to be mapped. + * @param {number} a1 - Minimum value for range A. + * @param {number} a2 - Maximum value for range A. + * @param {number} b1 - Minimum value for range B. + * @param {number} b2 - Maximum value for range B. + * @return {number} The mapped value. + */ +function mapLinear( x, a1, a2, b1, b2 ) { + + return b1 + ( x - a1 ) * ( b2 - b1 ) / ( a2 - a1 ); + +} + +/** + * Returns the percentage in the closed interval `[0, 1]` of the given value + * between the start and end point. + * + * @param {number} x - The start point + * @param {number} y - The end point. + * @param {number} value - A value between start and end. + * @return {number} The interpolation factor. + */ +function inverseLerp( x, y, value ) { + + // https://www.gamedev.net/tutorials/programming/general-and-gameplay-programming/inverse-lerp-a-super-useful-yet-often-overlooked-function-r5230/ + + if ( x !== y ) { + + return ( value - x ) / ( y - x ); + + } else { + + return 0; + + } + +} + +/** + * Returns a value linearly interpolated from two known points based on the given interval - + * `t = 0` will return `x` and `t = 1` will return `y`. + * + * @param {number} x - The start point + * @param {number} y - The end point. + * @param {number} t - The interpolation factor in the closed interval `[0, 1]`. + * @return {number} The interpolated value. + */ +function lerp$1( x, y, t ) { + + return ( 1 - t ) * x + t * y; + +} + +/** + * Smoothly interpolate a number from `x` to `y` in a spring-like manner using a delta + * time to maintain frame rate independent movement. For details, see + * [Frame rate independent damping using lerp]{@link http://www.rorydriscoll.com/2016/03/07/frame-rate-independent-damping-using-lerp/}. + * + * @param {number} x - The current point. + * @param {number} y - The target point. + * @param {number} lambda - A higher lambda value will make the movement more sudden, + * and a lower value will make the movement more gradual. + * @param {number} dt - Delta time in seconds. + * @return {number} The interpolated value. + */ +function damp( x, y, lambda, dt ) { + + return lerp$1( x, y, 1 - Math.exp( - lambda * dt ) ); + +} + +/** + * Returns a value that alternates between `0` and the given `length` parameter. + * + * @param {number} x - The value to pingpong. + * @param {number} [length=1] - The positive value the function will pingpong to. + * @return {number} The alternated value. + */ +function pingpong( x, length = 1 ) { + + // https://www.desmos.com/calculator/vcsjnyz7x4 + + return length - Math.abs( euclideanModulo( x, length * 2 ) - length ); + +} + +/** + * Returns a value in the range `[0,1]` that represents the percentage that `x` has + * moved between `min` and `max`, but smoothed or slowed down the closer `x` is to + * the `min` and `max`. + * + * See [Smoothstep]{@link http://en.wikipedia.org/wiki/Smoothstep} for more details. + * + * @param {number} x - The value to evaluate based on its position between min and max. + * @param {number} min - The min value. Any x value below min will be `0`. + * @param {number} max - The max value. Any x value above max will be `1`. + * @return {number} The alternated value. + */ +function smoothstep( x, min, max ) { + + if ( x <= min ) return 0; + if ( x >= max ) return 1; + + x = ( x - min ) / ( max - min ); + + return x * x * ( 3 - 2 * x ); + +} + +/** + * A [variation on smoothstep]{@link https://en.wikipedia.org/wiki/Smoothstep#Variations} + * that has zero 1st and 2nd order derivatives at x=0 and x=1. + * + * @param {number} x - The value to evaluate based on its position between min and max. + * @param {number} min - The min value. Any x value below min will be `0`. + * @param {number} max - The max value. Any x value above max will be `1`. + * @return {number} The alternated value. + */ +function smootherstep( x, min, max ) { + + if ( x <= min ) return 0; + if ( x >= max ) return 1; + + x = ( x - min ) / ( max - min ); + + return x * x * x * ( x * ( x * 6 - 15 ) + 10 ); + +} + +/** + * Returns a random integer from `` interval. + * + * @param {number} low - The lower value boundary. + * @param {number} high - The upper value boundary + * @return {number} A random integer. + */ +function randInt( low, high ) { + + return low + Math.floor( Math.random() * ( high - low + 1 ) ); + +} + +/** + * Returns a random float from `` interval. + * + * @param {number} low - The lower value boundary. + * @param {number} high - The upper value boundary + * @return {number} A random float. + */ +function randFloat( low, high ) { + + return low + Math.random() * ( high - low ); + +} + +/** + * Returns a random integer from `<-range/2, range/2>` interval. + * + * @param {number} range - Defines the value range. + * @return {number} A random float. + */ +function randFloatSpread( range ) { + + return range * ( 0.5 - Math.random() ); + +} + +/** + * Returns a deterministic pseudo-random float in the interval `[0, 1]`. + * + * @param {number} [s] - The integer seed. + * @return {number} A random float. + */ +function seededRandom( s ) { + + if ( s !== undefined ) _seed = s; + + // Mulberry32 generator + + let t = _seed += 0x6D2B79F5; + + t = Math.imul( t ^ t >>> 15, t | 1 ); + + t ^= t + Math.imul( t ^ t >>> 7, t | 61 ); + + return ( ( t ^ t >>> 14 ) >>> 0 ) / 4294967296; + +} + +/** + * Converts degrees to radians. + * + * @param {number} degrees - A value in degrees. + * @return {number} The converted value in radians. + */ +function degToRad( degrees ) { + + return degrees * DEG2RAD; + +} + +/** + * Converts radians to degrees. + * + * @param {number} radians - A value in radians. + * @return {number} The converted value in degrees. + */ +function radToDeg( radians ) { + + return radians * RAD2DEG; + +} + +/** + * Returns `true` if the given number is a power of two. + * + * @param {number} value - The value to check. + * @return {boolean} Whether the given number is a power of two or not. + */ +function isPowerOfTwo( value ) { + + return ( value & ( value - 1 ) ) === 0 && value !== 0; + +} + +/** + * Returns the smallest power of two that is greater than or equal to the given number. + * + * @param {number} value - The value to find a POT for. + * @return {number} The smallest power of two that is greater than or equal to the given number. + */ +function ceilPowerOfTwo( value ) { + + return Math.pow( 2, Math.ceil( Math.log( value ) / Math.LN2 ) ); + +} + +/** + * Returns the largest power of two that is less than or equal to the given number. + * + * @param {number} value - The value to find a POT for. + * @return {number} The largest power of two that is less than or equal to the given number. + */ +function floorPowerOfTwo( value ) { + + return Math.pow( 2, Math.floor( Math.log( value ) / Math.LN2 ) ); + +} + +/** + * Sets the given quaternion from the [Intrinsic Proper Euler Angles]{@link https://en.wikipedia.org/wiki/Euler_angles} + * defined by the given angles and order. + * + * Rotations are applied to the axes in the order specified by order: + * rotation by angle `a` is applied first, then by angle `b`, then by angle `c`. + * + * @param {Quaternion} q - The quaternion to set. + * @param {number} a - The rotation applied to the first axis, in radians. + * @param {number} b - The rotation applied to the second axis, in radians. + * @param {number} c - The rotation applied to the third axis, in radians. + * @param {('XYX'|'XZX'|'YXY'|'YZY'|'ZXZ'|'ZYZ')} order - A string specifying the axes order. + */ +function setQuaternionFromProperEuler( q, a, b, c, order ) { + + const cos = Math.cos; + const sin = Math.sin; + + const c2 = cos( b / 2 ); + const s2 = sin( b / 2 ); + + const c13 = cos( ( a + c ) / 2 ); + const s13 = sin( ( a + c ) / 2 ); + + const c1_3 = cos( ( a - c ) / 2 ); + const s1_3 = sin( ( a - c ) / 2 ); + + const c3_1 = cos( ( c - a ) / 2 ); + const s3_1 = sin( ( c - a ) / 2 ); + + switch ( order ) { + + case 'XYX': + q.set( c2 * s13, s2 * c1_3, s2 * s1_3, c2 * c13 ); + break; + + case 'YZY': + q.set( s2 * s1_3, c2 * s13, s2 * c1_3, c2 * c13 ); + break; + + case 'ZXZ': + q.set( s2 * c1_3, s2 * s1_3, c2 * s13, c2 * c13 ); + break; + + case 'XZX': + q.set( c2 * s13, s2 * s3_1, s2 * c3_1, c2 * c13 ); + break; + + case 'YXY': + q.set( s2 * c3_1, c2 * s13, s2 * s3_1, c2 * c13 ); + break; + + case 'ZYZ': + q.set( s2 * s3_1, s2 * c3_1, c2 * s13, c2 * c13 ); + break; + + default: + console.warn( 'THREE.MathUtils: .setQuaternionFromProperEuler() encountered an unknown order: ' + order ); + + } + +} + +/** + * Denormalizes the given value according to the given typed array. + * + * @param {number} value - The value to denormalize. + * @param {TypedArray} array - The typed array that defines the data type of the value. + * @return {number} The denormalize (float) value in the range `[0,1]`. + */ +function denormalize( value, array ) { + + switch ( array.constructor ) { + + case Float32Array: + + return value; + + case Uint32Array: + + return value / 4294967295.0; + + case Uint16Array: + + return value / 65535.0; + + case Uint8Array: + + return value / 255.0; + + case Int32Array: + + return Math.max( value / 2147483647.0, -1 ); + + case Int16Array: + + return Math.max( value / 32767.0, -1 ); + + case Int8Array: + + return Math.max( value / 127.0, -1 ); + + default: + + throw new Error( 'Invalid component type.' ); + + } + +} + +/** + * Normalizes the given value according to the given typed array. + * + * @param {number} value - The float value in the range `[0,1]` to normalize. + * @param {TypedArray} array - The typed array that defines the data type of the value. + * @return {number} The normalize value. + */ +function normalize( value, array ) { + + switch ( array.constructor ) { + + case Float32Array: + + return value; + + case Uint32Array: + + return Math.round( value * 4294967295.0 ); + + case Uint16Array: + + return Math.round( value * 65535.0 ); + + case Uint8Array: + + return Math.round( value * 255.0 ); + + case Int32Array: + + return Math.round( value * 2147483647.0 ); + + case Int16Array: + + return Math.round( value * 32767.0 ); + + case Int8Array: + + return Math.round( value * 127.0 ); + + default: + + throw new Error( 'Invalid component type.' ); + + } + +} + +const MathUtils = { + DEG2RAD: DEG2RAD, + RAD2DEG: RAD2DEG, + generateUUID: generateUUID, + clamp: clamp$1, + euclideanModulo: euclideanModulo, + mapLinear: mapLinear, + inverseLerp: inverseLerp, + lerp: lerp$1, + damp: damp, + pingpong: pingpong, + smoothstep: smoothstep, + smootherstep: smootherstep, + randInt: randInt, + randFloat: randFloat, + randFloatSpread: randFloatSpread, + seededRandom: seededRandom, + degToRad: degToRad, + radToDeg: radToDeg, + isPowerOfTwo: isPowerOfTwo, + ceilPowerOfTwo: ceilPowerOfTwo, + floorPowerOfTwo: floorPowerOfTwo, + setQuaternionFromProperEuler: setQuaternionFromProperEuler, + normalize: normalize, + denormalize: denormalize +}; + +/** + * Class representing a 2D vector. A 2D vector is an ordered pair of numbers + * (labeled x and y), which can be used to represent a number of things, such as: + * + * - A point in 2D space (i.e. a position on a plane). + * - A direction and length across a plane. In three.js the length will + * always be the Euclidean distance(straight-line distance) from `(0, 0)` to `(x, y)` + * and the direction is also measured from `(0, 0)` towards `(x, y)`. + * - Any arbitrary ordered pair of numbers. + * + * There are other things a 2D vector can be used to represent, such as + * momentum vectors, complex numbers and so on, however these are the most + * common uses in three.js. + * + * Iterating through a vector instance will yield its components `(x, y)` in + * the corresponding order. + * ```js + * const a = new THREE.Vector2( 0, 1 ); + * + * //no arguments; will be initialised to (0, 0) + * const b = new THREE.Vector2( ); + * + * const d = a.distanceTo( b ); + * ``` + */ +class Vector2 { + + /** + * Constructs a new 2D vector. + * + * @param {number} [x=0] - The x value of this vector. + * @param {number} [y=0] - The y value of this vector. + */ + constructor( x = 0, y = 0 ) { + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + Vector2.prototype.isVector2 = true; + + /** + * The x value of this vector. + * + * @type {number} + */ + this.x = x; + + /** + * The y value of this vector. + * + * @type {number} + */ + this.y = y; + + } + + /** + * Alias for {@link Vector2#x}. + * + * @type {number} + */ + get width() { + + return this.x; + + } + + set width( value ) { + + this.x = value; + + } + + /** + * Alias for {@link Vector2#y}. + * + * @type {number} + */ + get height() { + + return this.y; + + } + + set height( value ) { + + this.y = value; + + } + + /** + * Sets the vector components. + * + * @param {number} x - The value of the x component. + * @param {number} y - The value of the y component. + * @return {Vector2} A reference to this vector. + */ + set( x, y ) { + + this.x = x; + this.y = y; + + return this; + + } + + /** + * Sets the vector components to the same value. + * + * @param {number} scalar - The value to set for all vector components. + * @return {Vector2} A reference to this vector. + */ + setScalar( scalar ) { + + this.x = scalar; + this.y = scalar; + + return this; + + } + + /** + * Sets the vector's x component to the given value + * + * @param {number} x - The value to set. + * @return {Vector2} A reference to this vector. + */ + setX( x ) { + + this.x = x; + + return this; + + } + + /** + * Sets the vector's y component to the given value + * + * @param {number} y - The value to set. + * @return {Vector2} A reference to this vector. + */ + setY( y ) { + + this.y = y; + + return this; + + } + + /** + * Allows to set a vector component with an index. + * + * @param {number} index - The component index. `0` equals to x, `1` equals to y. + * @param {number} value - The value to set. + * @return {Vector2} A reference to this vector. + */ + setComponent( index, value ) { + + switch ( index ) { + + case 0: this.x = value; break; + case 1: this.y = value; break; + default: throw new Error( 'index is out of range: ' + index ); + + } + + return this; + + } + + /** + * Returns the value of the vector component which matches the given index. + * + * @param {number} index - The component index. `0` equals to x, `1` equals to y. + * @return {number} A vector component value. + */ + getComponent( index ) { + + switch ( index ) { + + case 0: return this.x; + case 1: return this.y; + default: throw new Error( 'index is out of range: ' + index ); + + } + + } + + /** + * Returns a new vector with copied values from this instance. + * + * @return {Vector2} A clone of this instance. + */ + clone() { + + return new this.constructor( this.x, this.y ); + + } + + /** + * Copies the values of the given vector to this instance. + * + * @param {Vector2} v - The vector to copy. + * @return {Vector2} A reference to this vector. + */ + copy( v ) { + + this.x = v.x; + this.y = v.y; + + return this; + + } + + /** + * Adds the given vector to this instance. + * + * @param {Vector2} v - The vector to add. + * @return {Vector2} A reference to this vector. + */ + add( v ) { + + this.x += v.x; + this.y += v.y; + + return this; + + } + + /** + * Adds the given scalar value to all components of this instance. + * + * @param {number} s - The scalar to add. + * @return {Vector2} A reference to this vector. + */ + addScalar( s ) { + + this.x += s; + this.y += s; + + return this; + + } + + /** + * Adds the given vectors and stores the result in this instance. + * + * @param {Vector2} a - The first vector. + * @param {Vector2} b - The second vector. + * @return {Vector2} A reference to this vector. + */ + addVectors( a, b ) { + + this.x = a.x + b.x; + this.y = a.y + b.y; + + return this; + + } + + /** + * Adds the given vector scaled by the given factor to this instance. + * + * @param {Vector2} v - The vector. + * @param {number} s - The factor that scales `v`. + * @return {Vector2} A reference to this vector. + */ + addScaledVector( v, s ) { + + this.x += v.x * s; + this.y += v.y * s; + + return this; + + } + + /** + * Subtracts the given vector from this instance. + * + * @param {Vector2} v - The vector to subtract. + * @return {Vector2} A reference to this vector. + */ + sub( v ) { + + this.x -= v.x; + this.y -= v.y; + + return this; + + } + + /** + * Subtracts the given scalar value from all components of this instance. + * + * @param {number} s - The scalar to subtract. + * @return {Vector2} A reference to this vector. + */ + subScalar( s ) { + + this.x -= s; + this.y -= s; + + return this; + + } + + /** + * Subtracts the given vectors and stores the result in this instance. + * + * @param {Vector2} a - The first vector. + * @param {Vector2} b - The second vector. + * @return {Vector2} A reference to this vector. + */ + subVectors( a, b ) { + + this.x = a.x - b.x; + this.y = a.y - b.y; + + return this; + + } + + /** + * Multiplies the given vector with this instance. + * + * @param {Vector2} v - The vector to multiply. + * @return {Vector2} A reference to this vector. + */ + multiply( v ) { + + this.x *= v.x; + this.y *= v.y; + + return this; + + } + + /** + * Multiplies the given scalar value with all components of this instance. + * + * @param {number} scalar - The scalar to multiply. + * @return {Vector2} A reference to this vector. + */ + multiplyScalar( scalar ) { + + this.x *= scalar; + this.y *= scalar; + + return this; + + } + + /** + * Divides this instance by the given vector. + * + * @param {Vector2} v - The vector to divide. + * @return {Vector2} A reference to this vector. + */ + divide( v ) { + + this.x /= v.x; + this.y /= v.y; + + return this; + + } + + /** + * Divides this vector by the given scalar. + * + * @param {number} scalar - The scalar to divide. + * @return {Vector2} A reference to this vector. + */ + divideScalar( scalar ) { + + return this.multiplyScalar( 1 / scalar ); + + } + + /** + * Multiplies this vector (with an implicit 1 as the 3rd component) by + * the given 3x3 matrix. + * + * @param {Matrix3} m - The matrix to apply. + * @return {Vector2} A reference to this vector. + */ + applyMatrix3( m ) { + + const x = this.x, y = this.y; + const e = m.elements; + + this.x = e[ 0 ] * x + e[ 3 ] * y + e[ 6 ]; + this.y = e[ 1 ] * x + e[ 4 ] * y + e[ 7 ]; + + return this; + + } + + /** + * If this vector's x or y value is greater than the given vector's x or y + * value, replace that value with the corresponding min value. + * + * @param {Vector2} v - The vector. + * @return {Vector2} A reference to this vector. + */ + min( v ) { + + this.x = Math.min( this.x, v.x ); + this.y = Math.min( this.y, v.y ); + + return this; + + } + + /** + * If this vector's x or y value is less than the given vector's x or y + * value, replace that value with the corresponding max value. + * + * @param {Vector2} v - The vector. + * @return {Vector2} A reference to this vector. + */ + max( v ) { + + this.x = Math.max( this.x, v.x ); + this.y = Math.max( this.y, v.y ); + + return this; + + } + + /** + * If this vector's x or y value is greater than the max vector's x or y + * value, it is replaced by the corresponding value. + * If this vector's x or y value is less than the min vector's x or y value, + * it is replaced by the corresponding value. + * + * @param {Vector2} min - The minimum x and y values. + * @param {Vector2} max - The maximum x and y values in the desired range. + * @return {Vector2} A reference to this vector. + */ + clamp( min, max ) { + + // assumes min < max, componentwise + + this.x = clamp$1( this.x, min.x, max.x ); + this.y = clamp$1( this.y, min.y, max.y ); + + return this; + + } + + /** + * If this vector's x or y values are greater than the max value, they are + * replaced by the max value. + * If this vector's x or y values are less than the min value, they are + * replaced by the min value. + * + * @param {number} minVal - The minimum value the components will be clamped to. + * @param {number} maxVal - The maximum value the components will be clamped to. + * @return {Vector2} A reference to this vector. + */ + clampScalar( minVal, maxVal ) { + + this.x = clamp$1( this.x, minVal, maxVal ); + this.y = clamp$1( this.y, minVal, maxVal ); + + return this; + + } + + /** + * If this vector's length is greater than the max value, it is replaced by + * the max value. + * If this vector's length is less than the min value, it is replaced by the + * min value. + * + * @param {number} min - The minimum value the vector length will be clamped to. + * @param {number} max - The maximum value the vector length will be clamped to. + * @return {Vector2} A reference to this vector. + */ + clampLength( min, max ) { + + const length = this.length(); + + return this.divideScalar( length || 1 ).multiplyScalar( clamp$1( length, min, max ) ); + + } + + /** + * The components of this vector are rounded down to the nearest integer value. + * + * @return {Vector2} A reference to this vector. + */ + floor() { + + this.x = Math.floor( this.x ); + this.y = Math.floor( this.y ); + + return this; + + } + + /** + * The components of this vector are rounded up to the nearest integer value. + * + * @return {Vector2} A reference to this vector. + */ + ceil() { + + this.x = Math.ceil( this.x ); + this.y = Math.ceil( this.y ); + + return this; + + } + + /** + * The components of this vector are rounded to the nearest integer value + * + * @return {Vector2} A reference to this vector. + */ + round() { + + this.x = Math.round( this.x ); + this.y = Math.round( this.y ); + + return this; + + } + + /** + * The components of this vector are rounded towards zero (up if negative, + * down if positive) to an integer value. + * + * @return {Vector2} A reference to this vector. + */ + roundToZero() { + + this.x = Math.trunc( this.x ); + this.y = Math.trunc( this.y ); + + return this; + + } + + /** + * Inverts this vector - i.e. sets x = -x and y = -y. + * + * @return {Vector2} A reference to this vector. + */ + negate() { + + this.x = - this.x; + this.y = - this.y; + + return this; + + } + + /** + * Calculates the dot product of the given vector with this instance. + * + * @param {Vector2} v - The vector to compute the dot product with. + * @return {number} The result of the dot product. + */ + dot( v ) { + + return this.x * v.x + this.y * v.y; + + } + + /** + * Calculates the cross product of the given vector with this instance. + * + * @param {Vector2} v - The vector to compute the cross product with. + * @return {number} The result of the cross product. + */ + cross( v ) { + + return this.x * v.y - this.y * v.x; + + } + + /** + * Computes the square of the Euclidean length (straight-line length) from + * (0, 0) to (x, y). If you are comparing the lengths of vectors, you should + * compare the length squared instead as it is slightly more efficient to calculate. + * + * @return {number} The square length of this vector. + */ + lengthSq() { + + return this.x * this.x + this.y * this.y; + + } + + /** + * Computes the Euclidean length (straight-line length) from (0, 0) to (x, y). + * + * @return {number} The length of this vector. + */ + length() { + + return Math.sqrt( this.x * this.x + this.y * this.y ); + + } + + /** + * Computes the Manhattan length of this vector. + * + * @return {number} The length of this vector. + */ + manhattanLength() { + + return Math.abs( this.x ) + Math.abs( this.y ); + + } + + /** + * Converts this vector to a unit vector - that is, sets it equal to a vector + * with the same direction as this one, but with a vector length of `1`. + * + * @return {Vector2} A reference to this vector. + */ + normalize() { + + return this.divideScalar( this.length() || 1 ); + + } + + /** + * Computes the angle in radians of this vector with respect to the positive x-axis. + * + * @return {number} The angle in radians. + */ + angle() { + + const angle = Math.atan2( - this.y, - this.x ) + Math.PI; + + return angle; + + } + + /** + * Returns the angle between the given vector and this instance in radians. + * + * @param {Vector2} v - The vector to compute the angle with. + * @return {number} The angle in radians. + */ + angleTo( v ) { + + const denominator = Math.sqrt( this.lengthSq() * v.lengthSq() ); + + if ( denominator === 0 ) return Math.PI / 2; + + const theta = this.dot( v ) / denominator; + + // clamp, to handle numerical problems + + return Math.acos( clamp$1( theta, -1, 1 ) ); + + } + + /** + * Computes the distance from the given vector to this instance. + * + * @param {Vector2} v - The vector to compute the distance to. + * @return {number} The distance. + */ + distanceTo( v ) { + + return Math.sqrt( this.distanceToSquared( v ) ); + + } + + /** + * Computes the squared distance from the given vector to this instance. + * If you are just comparing the distance with another distance, you should compare + * the distance squared instead as it is slightly more efficient to calculate. + * + * @param {Vector2} v - The vector to compute the squared distance to. + * @return {number} The squared distance. + */ + distanceToSquared( v ) { + + const dx = this.x - v.x, dy = this.y - v.y; + return dx * dx + dy * dy; + + } + + /** + * Computes the Manhattan distance from the given vector to this instance. + * + * @param {Vector2} v - The vector to compute the Manhattan distance to. + * @return {number} The Manhattan distance. + */ + manhattanDistanceTo( v ) { + + return Math.abs( this.x - v.x ) + Math.abs( this.y - v.y ); + + } + + /** + * Sets this vector to a vector with the same direction as this one, but + * with the specified length. + * + * @param {number} length - The new length of this vector. + * @return {Vector2} A reference to this vector. + */ + setLength( length ) { + + return this.normalize().multiplyScalar( length ); + + } + + /** + * Linearly interpolates between the given vector and this instance, where + * alpha is the percent distance along the line - alpha = 0 will be this + * vector, and alpha = 1 will be the given one. + * + * @param {Vector2} v - The vector to interpolate towards. + * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`. + * @return {Vector2} A reference to this vector. + */ + lerp( v, alpha ) { + + this.x += ( v.x - this.x ) * alpha; + this.y += ( v.y - this.y ) * alpha; + + return this; + + } + + /** + * Linearly interpolates between the given vectors, where alpha is the percent + * distance along the line - alpha = 0 will be first vector, and alpha = 1 will + * be the second one. The result is stored in this instance. + * + * @param {Vector2} v1 - The first vector. + * @param {Vector2} v2 - The second vector. + * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`. + * @return {Vector2} A reference to this vector. + */ + lerpVectors( v1, v2, alpha ) { + + this.x = v1.x + ( v2.x - v1.x ) * alpha; + this.y = v1.y + ( v2.y - v1.y ) * alpha; + + return this; + + } + + /** + * Returns `true` if this vector is equal with the given one. + * + * @param {Vector2} v - The vector to test for equality. + * @return {boolean} Whether this vector is equal with the given one. + */ + equals( v ) { + + return ( ( v.x === this.x ) && ( v.y === this.y ) ); + + } + + /** + * Sets this vector's x value to be `array[ offset ]` and y + * value to be `array[ offset + 1 ]`. + * + * @param {Array} array - An array holding the vector component values. + * @param {number} [offset=0] - The offset into the array. + * @return {Vector2} A reference to this vector. + */ + fromArray( array, offset = 0 ) { + + this.x = array[ offset ]; + this.y = array[ offset + 1 ]; + + return this; + + } + + /** + * Writes the components of this vector to the given array. If no array is provided, + * the method returns a new instance. + * + * @param {Array} [array=[]] - The target array holding the vector components. + * @param {number} [offset=0] - Index of the first element in the array. + * @return {Array} The vector components. + */ + toArray( array = [], offset = 0 ) { + + array[ offset ] = this.x; + array[ offset + 1 ] = this.y; + + return array; + + } + + /** + * Sets the components of this vector from the given buffer attribute. + * + * @param {BufferAttribute} attribute - The buffer attribute holding vector data. + * @param {number} index - The index into the attribute. + * @return {Vector2} A reference to this vector. + */ + fromBufferAttribute( attribute, index ) { + + this.x = attribute.getX( index ); + this.y = attribute.getY( index ); + + return this; + + } + + /** + * Rotates this vector around the given center by the given angle. + * + * @param {Vector2} center - The point around which to rotate. + * @param {number} angle - The angle to rotate, in radians. + * @return {Vector2} A reference to this vector. + */ + rotateAround( center, angle ) { + + const c = Math.cos( angle ), s = Math.sin( angle ); + + const x = this.x - center.x; + const y = this.y - center.y; + + this.x = x * c - y * s + center.x; + this.y = x * s + y * c + center.y; + + return this; + + } + + /** + * Sets each component of this vector to a pseudo-random value between `0` and + * `1`, excluding `1`. + * + * @return {Vector2} A reference to this vector. + */ + random() { + + this.x = Math.random(); + this.y = Math.random(); + + return this; + + } + + *[ Symbol.iterator ]() { + + yield this.x; + yield this.y; + + } + +} + +/** + * Represents a 3x3 matrix. + * + * A Note on Row-Major and Column-Major Ordering: + * + * The constructor and {@link Matrix3#set} method take arguments in + * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order} + * order, while internally they are stored in the {@link Matrix3#elements} array in column-major order. + * This means that calling: + * ```js + * const m = new THREE.Matrix(); + * m.set( 11, 12, 13, + * 21, 22, 23, + * 31, 32, 33 ); + * ``` + * will result in the elements array containing: + * ```js + * m.elements = [ 11, 21, 31, + * 12, 22, 32, + * 13, 23, 33 ]; + * ``` + * and internally all calculations are performed using column-major ordering. + * However, as the actual ordering makes no difference mathematically and + * most people are used to thinking about matrices in row-major order, the + * three.js documentation shows matrices in row-major order. Just bear in + * mind that if you are reading the source code, you'll have to take the + * transpose of any matrices outlined here to make sense of the calculations. + */ +class Matrix3 { + + /** + * Constructs a new 3x3 matrix. The arguments are supposed to be + * in row-major order. If no arguments are provided, the constructor + * initializes the matrix as an identity matrix. + * + * @param {number} [n11] - 1-1 matrix element. + * @param {number} [n12] - 1-2 matrix element. + * @param {number} [n13] - 1-3 matrix element. + * @param {number} [n21] - 2-1 matrix element. + * @param {number} [n22] - 2-2 matrix element. + * @param {number} [n23] - 2-3 matrix element. + * @param {number} [n31] - 3-1 matrix element. + * @param {number} [n32] - 3-2 matrix element. + * @param {number} [n33] - 3-3 matrix element. + */ + constructor( n11, n12, n13, n21, n22, n23, n31, n32, n33 ) { + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + Matrix3.prototype.isMatrix3 = true; + + /** + * A column-major list of matrix values. + * + * @type {Array} + */ + this.elements = [ + + 1, 0, 0, + 0, 1, 0, + 0, 0, 1 + + ]; + + if ( n11 !== undefined ) { + + this.set( n11, n12, n13, n21, n22, n23, n31, n32, n33 ); + + } + + } + + /** + * Sets the elements of the matrix.The arguments are supposed to be + * in row-major order. + * + * @param {number} [n11] - 1-1 matrix element. + * @param {number} [n12] - 1-2 matrix element. + * @param {number} [n13] - 1-3 matrix element. + * @param {number} [n21] - 2-1 matrix element. + * @param {number} [n22] - 2-2 matrix element. + * @param {number} [n23] - 2-3 matrix element. + * @param {number} [n31] - 3-1 matrix element. + * @param {number} [n32] - 3-2 matrix element. + * @param {number} [n33] - 3-3 matrix element. + * @return {Matrix3} A reference to this matrix. + */ + set( n11, n12, n13, n21, n22, n23, n31, n32, n33 ) { + + const te = this.elements; + + te[ 0 ] = n11; te[ 1 ] = n21; te[ 2 ] = n31; + te[ 3 ] = n12; te[ 4 ] = n22; te[ 5 ] = n32; + te[ 6 ] = n13; te[ 7 ] = n23; te[ 8 ] = n33; + + return this; + + } + + /** + * Sets this matrix to the 3x3 identity matrix. + * + * @return {Matrix3} A reference to this matrix. + */ + identity() { + + this.set( + + 1, 0, 0, + 0, 1, 0, + 0, 0, 1 + + ); + + return this; + + } + + /** + * Copies the values of the given matrix to this instance. + * + * @param {Matrix3} m - The matrix to copy. + * @return {Matrix3} A reference to this matrix. + */ + copy( m ) { + + const te = this.elements; + const me = m.elements; + + te[ 0 ] = me[ 0 ]; te[ 1 ] = me[ 1 ]; te[ 2 ] = me[ 2 ]; + te[ 3 ] = me[ 3 ]; te[ 4 ] = me[ 4 ]; te[ 5 ] = me[ 5 ]; + te[ 6 ] = me[ 6 ]; te[ 7 ] = me[ 7 ]; te[ 8 ] = me[ 8 ]; + + return this; + + } + + /** + * Extracts the basis of this matrix into the three axis vectors provided. + * + * @param {Vector3} xAxis - The basis's x axis. + * @param {Vector3} yAxis - The basis's y axis. + * @param {Vector3} zAxis - The basis's z axis. + * @return {Matrix3} A reference to this matrix. + */ + extractBasis( xAxis, yAxis, zAxis ) { + + xAxis.setFromMatrix3Column( this, 0 ); + yAxis.setFromMatrix3Column( this, 1 ); + zAxis.setFromMatrix3Column( this, 2 ); + + return this; + + } + + /** + * Set this matrix to the upper 3x3 matrix of the given 4x4 matrix. + * + * @param {Matrix4} m - The 4x4 matrix. + * @return {Matrix3} A reference to this matrix. + */ + setFromMatrix4( m ) { + + const me = m.elements; + + this.set( + + me[ 0 ], me[ 4 ], me[ 8 ], + me[ 1 ], me[ 5 ], me[ 9 ], + me[ 2 ], me[ 6 ], me[ 10 ] + + ); + + return this; + + } + + /** + * Post-multiplies this matrix by the given 3x3 matrix. + * + * @param {Matrix3} m - The matrix to multiply with. + * @return {Matrix3} A reference to this matrix. + */ + multiply( m ) { + + return this.multiplyMatrices( this, m ); + + } + + /** + * Pre-multiplies this matrix by the given 3x3 matrix. + * + * @param {Matrix3} m - The matrix to multiply with. + * @return {Matrix3} A reference to this matrix. + */ + premultiply( m ) { + + return this.multiplyMatrices( m, this ); + + } + + /** + * Multiples the given 3x3 matrices and stores the result + * in this matrix. + * + * @param {Matrix3} a - The first matrix. + * @param {Matrix3} b - The second matrix. + * @return {Matrix3} A reference to this matrix. + */ + multiplyMatrices( a, b ) { + + const ae = a.elements; + const be = b.elements; + const te = this.elements; + + const a11 = ae[ 0 ], a12 = ae[ 3 ], a13 = ae[ 6 ]; + const a21 = ae[ 1 ], a22 = ae[ 4 ], a23 = ae[ 7 ]; + const a31 = ae[ 2 ], a32 = ae[ 5 ], a33 = ae[ 8 ]; + + const b11 = be[ 0 ], b12 = be[ 3 ], b13 = be[ 6 ]; + const b21 = be[ 1 ], b22 = be[ 4 ], b23 = be[ 7 ]; + const b31 = be[ 2 ], b32 = be[ 5 ], b33 = be[ 8 ]; + + te[ 0 ] = a11 * b11 + a12 * b21 + a13 * b31; + te[ 3 ] = a11 * b12 + a12 * b22 + a13 * b32; + te[ 6 ] = a11 * b13 + a12 * b23 + a13 * b33; + + te[ 1 ] = a21 * b11 + a22 * b21 + a23 * b31; + te[ 4 ] = a21 * b12 + a22 * b22 + a23 * b32; + te[ 7 ] = a21 * b13 + a22 * b23 + a23 * b33; + + te[ 2 ] = a31 * b11 + a32 * b21 + a33 * b31; + te[ 5 ] = a31 * b12 + a32 * b22 + a33 * b32; + te[ 8 ] = a31 * b13 + a32 * b23 + a33 * b33; + + return this; + + } + + /** + * Multiplies every component of the matrix by the given scalar. + * + * @param {number} s - The scalar. + * @return {Matrix3} A reference to this matrix. + */ + multiplyScalar( s ) { + + const te = this.elements; + + te[ 0 ] *= s; te[ 3 ] *= s; te[ 6 ] *= s; + te[ 1 ] *= s; te[ 4 ] *= s; te[ 7 ] *= s; + te[ 2 ] *= s; te[ 5 ] *= s; te[ 8 ] *= s; + + return this; + + } + + /** + * Computes and returns the determinant of this matrix. + * + * @return {number} The determinant. + */ + determinant() { + + const te = this.elements; + + const a = te[ 0 ], b = te[ 1 ], c = te[ 2 ], + d = te[ 3 ], e = te[ 4 ], f = te[ 5 ], + g = te[ 6 ], h = te[ 7 ], i = te[ 8 ]; + + return a * e * i - a * f * h - b * d * i + b * f * g + c * d * h - c * e * g; + + } + + /** + * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}. + * You can not invert with a determinant of zero. If you attempt this, the method produces + * a zero matrix instead. + * + * @return {Matrix3} A reference to this matrix. + */ + invert() { + + const te = this.elements, + + n11 = te[ 0 ], n21 = te[ 1 ], n31 = te[ 2 ], + n12 = te[ 3 ], n22 = te[ 4 ], n32 = te[ 5 ], + n13 = te[ 6 ], n23 = te[ 7 ], n33 = te[ 8 ], + + t11 = n33 * n22 - n32 * n23, + t12 = n32 * n13 - n33 * n12, + t13 = n23 * n12 - n22 * n13, + + det = n11 * t11 + n21 * t12 + n31 * t13; + + if ( det === 0 ) return this.set( 0, 0, 0, 0, 0, 0, 0, 0, 0 ); + + const detInv = 1 / det; + + te[ 0 ] = t11 * detInv; + te[ 1 ] = ( n31 * n23 - n33 * n21 ) * detInv; + te[ 2 ] = ( n32 * n21 - n31 * n22 ) * detInv; + + te[ 3 ] = t12 * detInv; + te[ 4 ] = ( n33 * n11 - n31 * n13 ) * detInv; + te[ 5 ] = ( n31 * n12 - n32 * n11 ) * detInv; + + te[ 6 ] = t13 * detInv; + te[ 7 ] = ( n21 * n13 - n23 * n11 ) * detInv; + te[ 8 ] = ( n22 * n11 - n21 * n12 ) * detInv; + + return this; + + } + + /** + * Transposes this matrix in place. + * + * @return {Matrix3} A reference to this matrix. + */ + transpose() { + + let tmp; + const m = this.elements; + + tmp = m[ 1 ]; m[ 1 ] = m[ 3 ]; m[ 3 ] = tmp; + tmp = m[ 2 ]; m[ 2 ] = m[ 6 ]; m[ 6 ] = tmp; + tmp = m[ 5 ]; m[ 5 ] = m[ 7 ]; m[ 7 ] = tmp; + + return this; + + } + + /** + * Computes the normal matrix which is the inverse transpose of the upper + * left 3x3 portion of the given 4x4 matrix. + * + * @param {Matrix4} matrix4 - The 4x4 matrix. + * @return {Matrix3} A reference to this matrix. + */ + getNormalMatrix( matrix4 ) { + + return this.setFromMatrix4( matrix4 ).invert().transpose(); + + } + + /** + * Transposes this matrix into the supplied array, and returns itself unchanged. + * + * @param {Array} r - An array to store the transposed matrix elements. + * @return {Matrix3} A reference to this matrix. + */ + transposeIntoArray( r ) { + + const m = this.elements; + + r[ 0 ] = m[ 0 ]; + r[ 1 ] = m[ 3 ]; + r[ 2 ] = m[ 6 ]; + r[ 3 ] = m[ 1 ]; + r[ 4 ] = m[ 4 ]; + r[ 5 ] = m[ 7 ]; + r[ 6 ] = m[ 2 ]; + r[ 7 ] = m[ 5 ]; + r[ 8 ] = m[ 8 ]; + + return this; + + } + + /** + * Sets the UV transform matrix from offset, repeat, rotation, and center. + * + * @param {number} tx - Offset x. + * @param {number} ty - Offset y. + * @param {number} sx - Repeat x. + * @param {number} sy - Repeat y. + * @param {number} rotation - Rotation, in radians. Positive values rotate counterclockwise. + * @param {number} cx - Center x of rotation. + * @param {number} cy - Center y of rotation + * @return {Matrix3} A reference to this matrix. + */ + setUvTransform( tx, ty, sx, sy, rotation, cx, cy ) { + + const c = Math.cos( rotation ); + const s = Math.sin( rotation ); + + this.set( + sx * c, sx * s, - sx * ( c * cx + s * cy ) + cx + tx, + - sy * s, sy * c, - sy * ( - s * cx + c * cy ) + cy + ty, + 0, 0, 1 + ); + + return this; + + } + + /** + * Scales this matrix with the given scalar values. + * + * @param {number} sx - The amount to scale in the X axis. + * @param {number} sy - The amount to scale in the Y axis. + * @return {Matrix3} A reference to this matrix. + */ + scale( sx, sy ) { + + this.premultiply( _m3.makeScale( sx, sy ) ); + + return this; + + } + + /** + * Rotates this matrix by the given angle. + * + * @param {number} theta - The rotation in radians. + * @return {Matrix3} A reference to this matrix. + */ + rotate( theta ) { + + this.premultiply( _m3.makeRotation( - theta ) ); + + return this; + + } + + /** + * Translates this matrix by the given scalar values. + * + * @param {number} tx - The amount to translate in the X axis. + * @param {number} ty - The amount to translate in the Y axis. + * @return {Matrix3} A reference to this matrix. + */ + translate( tx, ty ) { + + this.premultiply( _m3.makeTranslation( tx, ty ) ); + + return this; + + } + + // for 2D Transforms + + /** + * Sets this matrix as a 2D translation transform. + * + * @param {number|Vector2} x - The amount to translate in the X axis or alternatively a translation vector. + * @param {number} y - The amount to translate in the Y axis. + * @return {Matrix3} A reference to this matrix. + */ + makeTranslation( x, y ) { + + if ( x.isVector2 ) { + + this.set( + + 1, 0, x.x, + 0, 1, x.y, + 0, 0, 1 + + ); + + } else { + + this.set( + + 1, 0, x, + 0, 1, y, + 0, 0, 1 + + ); + + } + + return this; + + } + + /** + * Sets this matrix as a 2D rotational transformation. + * + * @param {number} theta - The rotation in radians. + * @return {Matrix3} A reference to this matrix. + */ + makeRotation( theta ) { + + // counterclockwise + + const c = Math.cos( theta ); + const s = Math.sin( theta ); + + this.set( + + c, - s, 0, + s, c, 0, + 0, 0, 1 + + ); + + return this; + + } + + /** + * Sets this matrix as a 2D scale transform. + * + * @param {number} x - The amount to scale in the X axis. + * @param {number} y - The amount to scale in the Y axis. + * @return {Matrix3} A reference to this matrix. + */ + makeScale( x, y ) { + + this.set( + + x, 0, 0, + 0, y, 0, + 0, 0, 1 + + ); + + return this; + + } + + /** + * Returns `true` if this matrix is equal with the given one. + * + * @param {Matrix3} matrix - The matrix to test for equality. + * @return {boolean} Whether this matrix is equal with the given one. + */ + equals( matrix ) { + + const te = this.elements; + const me = matrix.elements; + + for ( let i = 0; i < 9; i ++ ) { + + if ( te[ i ] !== me[ i ] ) return false; + + } + + return true; + + } + + /** + * Sets the elements of the matrix from the given array. + * + * @param {Array} array - The matrix elements in column-major order. + * @param {number} [offset=0] - Index of the first element in the array. + * @return {Matrix3} A reference to this matrix. + */ + fromArray( array, offset = 0 ) { + + for ( let i = 0; i < 9; i ++ ) { + + this.elements[ i ] = array[ i + offset ]; + + } + + return this; + + } + + /** + * Writes the elements of this matrix to the given array. If no array is provided, + * the method returns a new instance. + * + * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order. + * @param {number} [offset=0] - Index of the first element in the array. + * @return {Array} The matrix elements in column-major order. + */ + toArray( array = [], offset = 0 ) { + + const te = this.elements; + + array[ offset ] = te[ 0 ]; + array[ offset + 1 ] = te[ 1 ]; + array[ offset + 2 ] = te[ 2 ]; + + array[ offset + 3 ] = te[ 3 ]; + array[ offset + 4 ] = te[ 4 ]; + array[ offset + 5 ] = te[ 5 ]; + + array[ offset + 6 ] = te[ 6 ]; + array[ offset + 7 ] = te[ 7 ]; + array[ offset + 8 ] = te[ 8 ]; + + return array; + + } + + /** + * Returns a matrix with copied values from this instance. + * + * @return {Matrix3} A clone of this instance. + */ + clone() { + + return new this.constructor().fromArray( this.elements ); + + } + +} + +const _m3 = /*@__PURE__*/ new Matrix3(); + +function arrayNeedsUint32( array ) { + + // assumes larger values usually on last + + for ( let i = array.length - 1; i >= 0; -- i ) { + + if ( array[ i ] >= 65535 ) return true; // account for PRIMITIVE_RESTART_FIXED_INDEX, #24565 + + } + + return false; + +} + +function createElementNS( name ) { + + return document.createElementNS( 'http://www.w3.org/1999/xhtml', name ); + +} + +function createCanvasElement() { + + const canvas = createElementNS( 'canvas' ); + canvas.style.display = 'block'; + return canvas; + +} + +const _cache = {}; + +function warnOnce( message ) { + + if ( message in _cache ) return; + + _cache[ message ] = true; + + console.warn( message ); + +} + +function probeAsync( gl, sync, interval ) { + + return new Promise( function ( resolve, reject ) { + + function probe() { + + switch ( gl.clientWaitSync( sync, gl.SYNC_FLUSH_COMMANDS_BIT, 0 ) ) { + + case gl.WAIT_FAILED: + reject(); + break; + + case gl.TIMEOUT_EXPIRED: + setTimeout( probe, interval ); + break; + + default: + resolve(); + + } + + } + + setTimeout( probe, interval ); + + } ); + +} + +function toNormalizedProjectionMatrix( projectionMatrix ) { + + const m = projectionMatrix.elements; + + // Convert [-1, 1] to [0, 1] projection matrix + m[ 2 ] = 0.5 * m[ 2 ] + 0.5 * m[ 3 ]; + m[ 6 ] = 0.5 * m[ 6 ] + 0.5 * m[ 7 ]; + m[ 10 ] = 0.5 * m[ 10 ] + 0.5 * m[ 11 ]; + m[ 14 ] = 0.5 * m[ 14 ] + 0.5 * m[ 15 ]; + +} + +function toReversedProjectionMatrix( projectionMatrix ) { + + const m = projectionMatrix.elements; + const isPerspectiveMatrix = m[ 11 ] === -1; + + // Reverse [0, 1] projection matrix + if ( isPerspectiveMatrix ) { + + m[ 10 ] = - m[ 10 ] - 1; + m[ 14 ] = - m[ 14 ]; + + } else { + + m[ 10 ] = - m[ 10 ]; + m[ 14 ] = - m[ 14 ] + 1; + + } + +} + +const LINEAR_REC709_TO_XYZ = /*@__PURE__*/ new Matrix3().set( + 0.4123908, 0.3575843, 0.1804808, + 0.2126390, 0.7151687, 0.0721923, + 0.0193308, 0.1191948, 0.9505322 +); + +const XYZ_TO_LINEAR_REC709 = /*@__PURE__*/ new Matrix3().set( + 3.2409699, -1.5373832, -0.4986108, + -0.9692436, 1.8759675, 0.0415551, + 0.0556301, -0.203977, 1.0569715 +); + +function createColorManagement() { + + const ColorManagement = { + + enabled: true, + + workingColorSpace: LinearSRGBColorSpace, + + /** + * Implementations of supported color spaces. + * + * Required: + * - primaries: chromaticity coordinates [ rx ry gx gy bx by ] + * - whitePoint: reference white [ x y ] + * - transfer: transfer function (pre-defined) + * - toXYZ: Matrix3 RGB to XYZ transform + * - fromXYZ: Matrix3 XYZ to RGB transform + * - luminanceCoefficients: RGB luminance coefficients + * + * Optional: + * - outputColorSpaceConfig: { drawingBufferColorSpace: ColorSpace } + * - workingColorSpaceConfig: { unpackColorSpace: ColorSpace } + * + * Reference: + * - https://www.russellcottrell.com/photo/matrixCalculator.htm + */ + spaces: {}, + + convert: function ( color, sourceColorSpace, targetColorSpace ) { + + if ( this.enabled === false || sourceColorSpace === targetColorSpace || ! sourceColorSpace || ! targetColorSpace ) { + + return color; + + } + + if ( this.spaces[ sourceColorSpace ].transfer === SRGBTransfer ) { + + color.r = SRGBToLinear( color.r ); + color.g = SRGBToLinear( color.g ); + color.b = SRGBToLinear( color.b ); + + } + + if ( this.spaces[ sourceColorSpace ].primaries !== this.spaces[ targetColorSpace ].primaries ) { + + color.applyMatrix3( this.spaces[ sourceColorSpace ].toXYZ ); + color.applyMatrix3( this.spaces[ targetColorSpace ].fromXYZ ); + + } + + if ( this.spaces[ targetColorSpace ].transfer === SRGBTransfer ) { + + color.r = LinearToSRGB( color.r ); + color.g = LinearToSRGB( color.g ); + color.b = LinearToSRGB( color.b ); + + } + + return color; + + }, + + fromWorkingColorSpace: function ( color, targetColorSpace ) { + + return this.convert( color, this.workingColorSpace, targetColorSpace ); + + }, + + toWorkingColorSpace: function ( color, sourceColorSpace ) { + + return this.convert( color, sourceColorSpace, this.workingColorSpace ); + + }, + + getPrimaries: function ( colorSpace ) { + + return this.spaces[ colorSpace ].primaries; + + }, + + getTransfer: function ( colorSpace ) { + + if ( colorSpace === NoColorSpace ) return LinearTransfer; + + return this.spaces[ colorSpace ].transfer; + + }, + + getLuminanceCoefficients: function ( target, colorSpace = this.workingColorSpace ) { + + return target.fromArray( this.spaces[ colorSpace ].luminanceCoefficients ); + + }, + + define: function ( colorSpaces ) { + + Object.assign( this.spaces, colorSpaces ); + + }, + + // Internal APIs + + _getMatrix: function ( targetMatrix, sourceColorSpace, targetColorSpace ) { + + return targetMatrix + .copy( this.spaces[ sourceColorSpace ].toXYZ ) + .multiply( this.spaces[ targetColorSpace ].fromXYZ ); + + }, + + _getDrawingBufferColorSpace: function ( colorSpace ) { + + return this.spaces[ colorSpace ].outputColorSpaceConfig.drawingBufferColorSpace; + + }, + + _getUnpackColorSpace: function ( colorSpace = this.workingColorSpace ) { + + return this.spaces[ colorSpace ].workingColorSpaceConfig.unpackColorSpace; + + } + + }; + + /****************************************************************************** + * sRGB definitions + */ + + const REC709_PRIMARIES = [ 0.640, 0.330, 0.300, 0.600, 0.150, 0.060 ]; + const REC709_LUMINANCE_COEFFICIENTS = [ 0.2126, 0.7152, 0.0722 ]; + const D65 = [ 0.3127, 0.3290 ]; + + ColorManagement.define( { + + [ LinearSRGBColorSpace ]: { + primaries: REC709_PRIMARIES, + whitePoint: D65, + transfer: LinearTransfer, + toXYZ: LINEAR_REC709_TO_XYZ, + fromXYZ: XYZ_TO_LINEAR_REC709, + luminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS, + workingColorSpaceConfig: { unpackColorSpace: SRGBColorSpace }, + outputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace } + }, + + [ SRGBColorSpace ]: { + primaries: REC709_PRIMARIES, + whitePoint: D65, + transfer: SRGBTransfer, + toXYZ: LINEAR_REC709_TO_XYZ, + fromXYZ: XYZ_TO_LINEAR_REC709, + luminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS, + outputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace } + }, + + } ); + + return ColorManagement; + +} + +const ColorManagement = /*@__PURE__*/ createColorManagement(); + +function SRGBToLinear( c ) { + + return ( c < 0.04045 ) ? c * 0.0773993808 : Math.pow( c * 0.9478672986 + 0.0521327014, 2.4 ); + +} + +function LinearToSRGB( c ) { + + return ( c < 0.0031308 ) ? c * 12.92 : 1.055 * ( Math.pow( c, 0.41666 ) ) - 0.055; + +} + +let _canvas; + +/** + * A class containing utility functions for images. + * + * @hideconstructor + */ +class ImageUtils { + + /** + * Returns a data URI containing a representation of the given image. + * + * @param {(HTMLImageElement|HTMLCanvasElement)} image - The image object. + * @return {string} The data URI. + */ + static getDataURL( image ) { + + if ( /^data:/i.test( image.src ) ) { + + return image.src; + + } + + if ( typeof HTMLCanvasElement === 'undefined' ) { + + return image.src; + + } + + let canvas; + + if ( image instanceof HTMLCanvasElement ) { + + canvas = image; + + } else { + + if ( _canvas === undefined ) _canvas = createElementNS( 'canvas' ); + + _canvas.width = image.width; + _canvas.height = image.height; + + const context = _canvas.getContext( '2d' ); + + if ( image instanceof ImageData ) { + + context.putImageData( image, 0, 0 ); + + } else { + + context.drawImage( image, 0, 0, image.width, image.height ); + + } + + canvas = _canvas; + + } + + return canvas.toDataURL( 'image/png' ); + + } + + /** + * Converts the given sRGB image data to linear color space. + * + * @param {(HTMLImageElement|HTMLCanvasElement|ImageBitmap|Object)} image - The image object. + * @return {HTMLCanvasElement|Object} The converted image. + */ + static sRGBToLinear( image ) { + + if ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) || + ( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) || + ( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) { + + const canvas = createElementNS( 'canvas' ); + + canvas.width = image.width; + canvas.height = image.height; + + const context = canvas.getContext( '2d' ); + context.drawImage( image, 0, 0, image.width, image.height ); + + const imageData = context.getImageData( 0, 0, image.width, image.height ); + const data = imageData.data; + + for ( let i = 0; i < data.length; i ++ ) { + + data[ i ] = SRGBToLinear( data[ i ] / 255 ) * 255; + + } + + context.putImageData( imageData, 0, 0 ); + + return canvas; + + } else if ( image.data ) { + + const data = image.data.slice( 0 ); + + for ( let i = 0; i < data.length; i ++ ) { + + if ( data instanceof Uint8Array || data instanceof Uint8ClampedArray ) { + + data[ i ] = Math.floor( SRGBToLinear( data[ i ] / 255 ) * 255 ); + + } else { + + // assuming float + + data[ i ] = SRGBToLinear( data[ i ] ); + + } + + } + + return { + data: data, + width: image.width, + height: image.height + }; + + } else { + + console.warn( 'THREE.ImageUtils.sRGBToLinear(): Unsupported image type. No color space conversion applied.' ); + return image; + + } + + } + +} + +let _sourceId = 0; + +class Source { + + constructor( data = null ) { + + this.isSource = true; + + Object.defineProperty( this, 'id', { value: _sourceId ++ } ); + + this.uuid = generateUUID(); + + this.data = data; + this.dataReady = true; + + this.version = 0; + + } + + set needsUpdate( value ) { + + if ( value === true ) this.version ++; + + } + + toJSON( meta ) { + + const isRootObject = ( meta === undefined || typeof meta === 'string' ); + + if ( ! isRootObject && meta.images[ this.uuid ] !== undefined ) { + + return meta.images[ this.uuid ]; + + } + + const output = { + uuid: this.uuid, + url: '' + }; + + const data = this.data; + + if ( data !== null ) { + + let url; + + if ( Array.isArray( data ) ) { + + // cube texture + + url = []; + + for ( let i = 0, l = data.length; i < l; i ++ ) { + + if ( data[ i ].isDataTexture ) { + + url.push( serializeImage( data[ i ].image ) ); + + } else { + + url.push( serializeImage( data[ i ] ) ); + + } + + } + + } else { + + // texture + + url = serializeImage( data ); + + } + + output.url = url; + + } + + if ( ! isRootObject ) { + + meta.images[ this.uuid ] = output; + + } + + return output; + + } + +} + +function serializeImage( image ) { + + if ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) || + ( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) || + ( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) { + + // default images + + return ImageUtils.getDataURL( image ); + + } else { + + if ( image.data ) { + + // images of DataTexture + + return { + data: Array.from( image.data ), + width: image.width, + height: image.height, + type: image.data.constructor.name + }; + + } else { + + console.warn( 'THREE.Texture: Unable to serialize Texture.' ); + return {}; + + } + + } + +} + +let _textureId = 0; + +/** + * Base class for all textures. + * + * Note: After the initial use of a texture, its dimensions, format, and type + * cannot be changed. Instead, call {@link Texture#dispose} on the texture and instantiate a new one. + * + * @augments EventDispatcher + */ +let Texture$1 = class Texture extends EventDispatcher { + + /** + * Constructs a new texture. + * + * @param {?Object} [image=Texture.DEFAULT_IMAGE] - The image holding the texture data. + * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping. + * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value. + * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value. + * @param {number} [magFilter=LinearFilter] - The mag filter value. + * @param {number} [minFilter=LinearFilter] - The min filter value. + * @param {number} [format=RGBAFormat] - The min filter value. + * @param {number} [type=UnsignedByteType] - The min filter value. + * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The min filter value. + * @param {string} [colorSpace=NoColorSpace] - The min filter value. + */ + constructor( image = Texture.DEFAULT_IMAGE, mapping = Texture.DEFAULT_MAPPING, wrapS = ClampToEdgeWrapping, wrapT = ClampToEdgeWrapping, magFilter = LinearFilter, minFilter = LinearMipmapLinearFilter, format = RGBAFormat, type = UnsignedByteType, anisotropy = Texture.DEFAULT_ANISOTROPY, colorSpace = NoColorSpace ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isTexture = true; + + /** + * The ID of the texture. + * + * @name Texture#id + * @type {number} + * @readonly + */ + Object.defineProperty( this, 'id', { value: _textureId ++ } ); + + /** + * The UUID of the material. + * + * @type {string} + * @readonly + */ + this.uuid = generateUUID(); + + /** + * The name of the material. + * + * @type {string} + */ + this.name = ''; + + /** + * The data definition of a texture. A reference to the data source can be + * shared across textures. This is often useful in context of spritesheets + * where multiple textures render the same data but with different texture + * transformations. + * + * @type {Source} + */ + this.source = new Source( image ); + + /** + * An array holding user-defined mipmaps. + * + * @type {Array} + */ + this.mipmaps = []; + + /** + * How the texture is applied to the object. The value `UVMapping` + * is the default, where texture or uv coordinates are used to apply the map. + * + * @type {(UVMapping|CubeReflectionMapping|CubeRefractionMapping|EquirectangularReflectionMapping|EquirectangularRefractionMapping|CubeUVReflectionMapping)} + * @default UVMapping + */ + this.mapping = mapping; + + /** + * Lets you select the uv attribute to map the texture to. `0` for `uv`, + * `1` for `uv1`, `2` for `uv2` and `3` for `uv3`. + * + * @type {number} + * @default 0 + */ + this.channel = 0; + + /** + * This defines how the texture is wrapped horizontally and corresponds to + * *U* in UV mapping. + * + * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)} + * @default ClampToEdgeWrapping + */ + this.wrapS = wrapS; + + /** + * This defines how the texture is wrapped horizontally and corresponds to + * *V* in UV mapping. + * + * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)} + * @default ClampToEdgeWrapping + */ + this.wrapT = wrapT; + + /** + * How the texture is sampled when a texel covers more than one pixel. + * + * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)} + * @default LinearFilter + */ + this.magFilter = magFilter; + + /** + * How the texture is sampled when a texel covers less than one pixel. + * + * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)} + * @default LinearMipmapLinearFilter + */ + this.minFilter = minFilter; + + /** + * The number of samples taken along the axis through the pixel that has the + * highest density of texels. By default, this value is `1`. A higher value + * gives a less blurry result than a basic mipmap, at the cost of more + * texture samples being used. + * + * @type {number} + * @default 0 + */ + this.anisotropy = anisotropy; + + /** + * The format of the texture. + * + * @type {number} + * @default RGBAFormat + */ + this.format = format; + + /** + * The default internal format is derived from {@link Texture#format} and {@link Texture#type} and + * defines how the texture data is going to be stored on the GPU. + * + * This property allows to overwrite the default format. + * + * @type {?string} + * @default null + */ + this.internalFormat = null; + + /** + * The data type of the texture. + * + * @type {number} + * @default UnsignedByteType + */ + this.type = type; + + /** + * How much a single repetition of the texture is offset from the beginning, + * in each direction U and V. Typical range is `0.0` to `1.0`. + * + * @type {Vector2} + * @default (0,0) + */ + this.offset = new Vector2( 0, 0 ); + + /** + * How many times the texture is repeated across the surface, in each + * direction U and V. If repeat is set greater than `1` in either direction, + * the corresponding wrap parameter should also be set to `RepeatWrapping` + * or `MirroredRepeatWrapping` to achieve the desired tiling effect. + * + * @type {Vector2} + * @default (1,1) + */ + this.repeat = new Vector2( 1, 1 ); + + /** + * The point around which rotation occurs. A value of `(0.5, 0.5)` corresponds + * to the center of the texture. Default is `(0, 0)`, the lower left. + * + * @type {Vector2} + * @default (0,0) + */ + this.center = new Vector2( 0, 0 ); + + /** + * How much the texture is rotated around the center point, in radians. + * Positive values are counter-clockwise. + * + * @type {number} + * @default 0 + */ + this.rotation = 0; + + /** + * Whether to update the texture's uv-transformation {@link Texture#matrix} + * from the properties {@link Texture#offset}, {@link Texture#repeat}, + * {@link Texture#rotation}, and {@link Texture#center}. + * + * Set this to `false` if you are specifying the uv-transform matrix directly. + * + * @type {boolean} + * @default true + */ + this.matrixAutoUpdate = true; + + /** + * The uv-transformation matrix of the texture. + * + * @type {Matrix3} + */ + this.matrix = new Matrix3(); + + /** + * Whether to generate mipmaps (if possible) for a texture. + * + * Set this to `false` if you are creating mipmaps manually. + * + * @type {boolean} + * @default true + */ + this.generateMipmaps = true; + + /** + * If set to `true`, the alpha channel, if present, is multiplied into the + * color channels when the texture is uploaded to the GPU. + * + * Note that this property has no effect when using `ImageBitmap`. You need to + * configure premultiply alpha on bitmap creation instead. + * + * @type {boolean} + * @default false + */ + this.premultiplyAlpha = false; + + /** + * If set to `true`, the texture is flipped along the vertical axis when + * uploaded to the GPU. + * + * Note that this property has no effect when using `ImageBitmap`. You need to + * configure the flip on bitmap creation instead. + * + * @type {boolean} + * @default true + */ + this.flipY = true; + + /** + * Specifies the alignment requirements for the start of each pixel row in memory. + * The allowable values are `1` (byte-alignment), `2` (rows aligned to even-numbered bytes), + * `4` (word-alignment), and `8` (rows start on double-word boundaries). + * + * @type {number} + * @default 4 + */ + this.unpackAlignment = 4; // valid values: 1, 2, 4, 8 (see http://www.khronos.org/opengles/sdk/docs/man/xhtml/glPixelStorei.xml) + + /** + * Textures containing color data should be annotated with `SRGBColorSpace` or `LinearSRGBColorSpace`. + * + * @type {string} + * @default NoColorSpace + */ + this.colorSpace = colorSpace; + + /** + * An object that can be used to store custom data about the texture. It + * should not hold references to functions as these will not be cloned. + * + * @type {Object} + */ + this.userData = {}; + + /** + * This starts at `0` and counts how many times {@link Texture#needsUpdate} is set to `true`. + * + * @type {number} + * @readonly + * @default 0 + */ + this.version = 0; + + /** + * A callback function, called when the texture is updated (e.g., when + * {@link Texture#needsUpdate} has been set to true and then the texture is used). + * + * @type {?Function} + * @default null + */ + this.onUpdate = null; + + /** + * An optional back reference to the textures render target. + * + * @type {?(RenderTarget|WebGLRenderTarget)} + * @default null + */ + this.renderTarget = null; + + /** + * Indicates whether a texture belongs to a render target or not. + * + * @type {boolean} + * @readonly + * @default false + */ + this.isRenderTargetTexture = false; + + /** + * Indicates whether this texture should be processed by `PMREMGenerator` or not + * (only relevant for render target textures). + * + * @type {number} + * @readonly + * @default 0 + */ + this.pmremVersion = 0; + + } + + /** + * The image object holding the texture data. + * + * @type {?Object} + */ + get image() { + + return this.source.data; + + } + + set image( value = null ) { + + this.source.data = value; + + } + + /** + * Updates the texture transformation matrix from the from the properties {@link Texture#offset}, + * {@link Texture#repeat}, {@link Texture#rotation}, and {@link Texture#center}. + */ + updateMatrix() { + + this.matrix.setUvTransform( this.offset.x, this.offset.y, this.repeat.x, this.repeat.y, this.rotation, this.center.x, this.center.y ); + + } + + /** + * Returns a new texture with copied values from this instance. + * + * @return {Texture} A clone of this instance. + */ + clone() { + + return new this.constructor().copy( this ); + + } + + /** + * Copies the values of the given texture to this instance. + * + * @param {Texture} source - The texture to copy. + * @return {Texture} A reference to this instance. + */ + copy( source ) { + + this.name = source.name; + + this.source = source.source; + this.mipmaps = source.mipmaps.slice( 0 ); + + this.mapping = source.mapping; + this.channel = source.channel; + + this.wrapS = source.wrapS; + this.wrapT = source.wrapT; + + this.magFilter = source.magFilter; + this.minFilter = source.minFilter; + + this.anisotropy = source.anisotropy; + + this.format = source.format; + this.internalFormat = source.internalFormat; + this.type = source.type; + + this.offset.copy( source.offset ); + this.repeat.copy( source.repeat ); + this.center.copy( source.center ); + this.rotation = source.rotation; + + this.matrixAutoUpdate = source.matrixAutoUpdate; + this.matrix.copy( source.matrix ); + + this.generateMipmaps = source.generateMipmaps; + this.premultiplyAlpha = source.premultiplyAlpha; + this.flipY = source.flipY; + this.unpackAlignment = source.unpackAlignment; + this.colorSpace = source.colorSpace; + + this.renderTarget = source.renderTarget; + this.isRenderTargetTexture = source.isRenderTargetTexture; + + this.userData = JSON.parse( JSON.stringify( source.userData ) ); + + this.needsUpdate = true; + + return this; + + } + + /** + * Serializes the texture into JSON. + * + * @param {?(Object|string)} meta - An optional value holding meta information about the serialization. + * @return {Object} A JSON object representing the serialized texture. + * @see {@link ObjectLoader#parse} + */ + toJSON( meta ) { + + const isRootObject = ( meta === undefined || typeof meta === 'string' ); + + if ( ! isRootObject && meta.textures[ this.uuid ] !== undefined ) { + + return meta.textures[ this.uuid ]; + + } + + const output = { + + metadata: { + version: 4.6, + type: 'Texture', + generator: 'Texture.toJSON' + }, + + uuid: this.uuid, + name: this.name, + + image: this.source.toJSON( meta ).uuid, + + mapping: this.mapping, + channel: this.channel, + + repeat: [ this.repeat.x, this.repeat.y ], + offset: [ this.offset.x, this.offset.y ], + center: [ this.center.x, this.center.y ], + rotation: this.rotation, + + wrap: [ this.wrapS, this.wrapT ], + + format: this.format, + internalFormat: this.internalFormat, + type: this.type, + colorSpace: this.colorSpace, + + minFilter: this.minFilter, + magFilter: this.magFilter, + anisotropy: this.anisotropy, + + flipY: this.flipY, + + generateMipmaps: this.generateMipmaps, + premultiplyAlpha: this.premultiplyAlpha, + unpackAlignment: this.unpackAlignment + + }; + + if ( Object.keys( this.userData ).length > 0 ) output.userData = this.userData; + + if ( ! isRootObject ) { + + meta.textures[ this.uuid ] = output; + + } + + return output; + + } + + /** + * Frees the GPU-related resources allocated by this instance. Call this + * method whenever this instance is no longer used in your app. + * + * @fires Texture#dispose + */ + dispose() { + + /** + * Fires when the texture has been disposed of. + * + * @event Texture#dispose + * @type {Object} + */ + this.dispatchEvent( { type: 'dispose' } ); + + } + + /** + * Transforms the given uv vector with the textures uv transformation matrix. + * + * @param {Vector2} uv - The uv vector. + * @return {Vector2} The transformed uv vector. + */ + transformUv( uv ) { + + if ( this.mapping !== UVMapping ) return uv; + + uv.applyMatrix3( this.matrix ); + + if ( uv.x < 0 || uv.x > 1 ) { + + switch ( this.wrapS ) { + + case RepeatWrapping: + + uv.x = uv.x - Math.floor( uv.x ); + break; + + case ClampToEdgeWrapping: + + uv.x = uv.x < 0 ? 0 : 1; + break; + + case MirroredRepeatWrapping: + + if ( Math.abs( Math.floor( uv.x ) % 2 ) === 1 ) { + + uv.x = Math.ceil( uv.x ) - uv.x; + + } else { + + uv.x = uv.x - Math.floor( uv.x ); + + } + + break; + + } + + } + + if ( uv.y < 0 || uv.y > 1 ) { + + switch ( this.wrapT ) { + + case RepeatWrapping: + + uv.y = uv.y - Math.floor( uv.y ); + break; + + case ClampToEdgeWrapping: + + uv.y = uv.y < 0 ? 0 : 1; + break; + + case MirroredRepeatWrapping: + + if ( Math.abs( Math.floor( uv.y ) % 2 ) === 1 ) { + + uv.y = Math.ceil( uv.y ) - uv.y; + + } else { + + uv.y = uv.y - Math.floor( uv.y ); + + } + + break; + + } + + } + + if ( this.flipY ) { + + uv.y = 1 - uv.y; + + } + + return uv; + + } + + /** + * Setting this property to `true` indicates the engine the texture + * must be updated in the next render. This triggers a texture upload + * to the GPU and ensures correct texture parameter configuration. + * + * @type {boolean} + * @default false + * @param {boolean} value + */ + set needsUpdate( value ) { + + if ( value === true ) { + + this.version ++; + this.source.needsUpdate = true; + + } + + } + + /** + * Setting this property to `true` indicates the engine the PMREM + * must be regenerated. + * + * @type {boolean} + * @default false + * @param {boolean} value + */ + set needsPMREMUpdate( value ) { + + if ( value === true ) { + + this.pmremVersion ++; + + } + + } + +}; + +/** + * The default image for all textures. + * + * @static + * @type {?Image} + * @default null + */ +Texture$1.DEFAULT_IMAGE = null; + +/** + * The default mapping for all textures. + * + * @static + * @type {number} + * @default UVMapping + */ +Texture$1.DEFAULT_MAPPING = UVMapping; + +/** + * The default anisotropy value for all textures. + * + * @static + * @type {number} + * @default 1 + */ +Texture$1.DEFAULT_ANISOTROPY = 1; + +/** + * Class representing a 4D vector. A 4D vector is an ordered quadruplet of numbers + * (labeled x, y, z and w), which can be used to represent a number of things, such as: + * + * - A point in 4D space. + * - A direction and length in 4D space. In three.js the length will + * always be the Euclidean distance(straight-line distance) from `(0, 0, 0, 0)` to `(x, y, z, w)` + * and the direction is also measured from `(0, 0, 0, 0)` towards `(x, y, z, w)`. + * - Any arbitrary ordered quadruplet of numbers. + * + * There are other things a 4D vector can be used to represent, however these + * are the most common uses in *three.js*. + * + * Iterating through a vector instance will yield its components `(x, y, z, w)` in + * the corresponding order. + * ```js + * const a = new THREE.Vector4( 0, 1, 0, 0 ); + * + * //no arguments; will be initialised to (0, 0, 0, 1) + * const b = new THREE.Vector4( ); + * + * const d = a.dot( b ); + * ``` + */ +class Vector4 { + + /** + * Constructs a new 4D vector. + * + * @param {number} [x=0] - The x value of this vector. + * @param {number} [y=0] - The y value of this vector. + * @param {number} [z=0] - The z value of this vector. + * @param {number} [w=1] - The w value of this vector. + */ + constructor( x = 0, y = 0, z = 0, w = 1 ) { + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + Vector4.prototype.isVector4 = true; + + /** + * The x value of this vector. + * + * @type {number} + */ + this.x = x; + + /** + * The y value of this vector. + * + * @type {number} + */ + this.y = y; + + /** + * The z value of this vector. + * + * @type {number} + */ + this.z = z; + + /** + * The w value of this vector. + * + * @type {number} + */ + this.w = w; + + } + + /** + * Alias for {@link Vector4#z}. + * + * @type {number} + */ + get width() { + + return this.z; + + } + + set width( value ) { + + this.z = value; + + } + + /** + * Alias for {@link Vector4#w}. + * + * @type {number} + */ + get height() { + + return this.w; + + } + + set height( value ) { + + this.w = value; + + } + + /** + * Sets the vector components. + * + * @param {number} x - The value of the x component. + * @param {number} y - The value of the y component. + * @param {number} z - The value of the z component. + * @param {number} w - The value of the w component. + * @return {Vector4} A reference to this vector. + */ + set( x, y, z, w ) { + + this.x = x; + this.y = y; + this.z = z; + this.w = w; + + return this; + + } + + /** + * Sets the vector components to the same value. + * + * @param {number} scalar - The value to set for all vector components. + * @return {Vector4} A reference to this vector. + */ + setScalar( scalar ) { + + this.x = scalar; + this.y = scalar; + this.z = scalar; + this.w = scalar; + + return this; + + } + + /** + * Sets the vector's x component to the given value + * + * @param {number} x - The value to set. + * @return {Vector4} A reference to this vector. + */ + setX( x ) { + + this.x = x; + + return this; + + } + + /** + * Sets the vector's y component to the given value + * + * @param {number} y - The value to set. + * @return {Vector4} A reference to this vector. + */ + setY( y ) { + + this.y = y; + + return this; + + } + + /** + * Sets the vector's z component to the given value + * + * @param {number} z - The value to set. + * @return {Vector4} A reference to this vector. + */ + setZ( z ) { + + this.z = z; + + return this; + + } + + /** + * Sets the vector's w component to the given value + * + * @param {number} w - The value to set. + * @return {Vector4} A reference to this vector. + */ + setW( w ) { + + this.w = w; + + return this; + + } + + /** + * Allows to set a vector component with an index. + * + * @param {number} index - The component index. `0` equals to x, `1` equals to y, + * `2` equals to z, `3` equals to w. + * @param {number} value - The value to set. + * @return {Vector4} A reference to this vector. + */ + setComponent( index, value ) { + + switch ( index ) { + + case 0: this.x = value; break; + case 1: this.y = value; break; + case 2: this.z = value; break; + case 3: this.w = value; break; + default: throw new Error( 'index is out of range: ' + index ); + + } + + return this; + + } + + /** + * Returns the value of the vector component which matches the given index. + * + * @param {number} index - The component index. `0` equals to x, `1` equals to y, + * `2` equals to z, `3` equals to w. + * @return {number} A vector component value. + */ + getComponent( index ) { + + switch ( index ) { + + case 0: return this.x; + case 1: return this.y; + case 2: return this.z; + case 3: return this.w; + default: throw new Error( 'index is out of range: ' + index ); + + } + + } + + /** + * Returns a new vector with copied values from this instance. + * + * @return {Vector4} A clone of this instance. + */ + clone() { + + return new this.constructor( this.x, this.y, this.z, this.w ); + + } + + /** + * Copies the values of the given vector to this instance. + * + * @param {Vector3|Vector4} v - The vector to copy. + * @return {Vector4} A reference to this vector. + */ + copy( v ) { + + this.x = v.x; + this.y = v.y; + this.z = v.z; + this.w = ( v.w !== undefined ) ? v.w : 1; + + return this; + + } + + /** + * Adds the given vector to this instance. + * + * @param {Vector4} v - The vector to add. + * @return {Vector4} A reference to this vector. + */ + add( v ) { + + this.x += v.x; + this.y += v.y; + this.z += v.z; + this.w += v.w; + + return this; + + } + + /** + * Adds the given scalar value to all components of this instance. + * + * @param {number} s - The scalar to add. + * @return {Vector4} A reference to this vector. + */ + addScalar( s ) { + + this.x += s; + this.y += s; + this.z += s; + this.w += s; + + return this; + + } + + /** + * Adds the given vectors and stores the result in this instance. + * + * @param {Vector4} a - The first vector. + * @param {Vector4} b - The second vector. + * @return {Vector4} A reference to this vector. + */ + addVectors( a, b ) { + + this.x = a.x + b.x; + this.y = a.y + b.y; + this.z = a.z + b.z; + this.w = a.w + b.w; + + return this; + + } + + /** + * Adds the given vector scaled by the given factor to this instance. + * + * @param {Vector4} v - The vector. + * @param {number} s - The factor that scales `v`. + * @return {Vector4} A reference to this vector. + */ + addScaledVector( v, s ) { + + this.x += v.x * s; + this.y += v.y * s; + this.z += v.z * s; + this.w += v.w * s; + + return this; + + } + + /** + * Subtracts the given vector from this instance. + * + * @param {Vector4} v - The vector to subtract. + * @return {Vector4} A reference to this vector. + */ + sub( v ) { + + this.x -= v.x; + this.y -= v.y; + this.z -= v.z; + this.w -= v.w; + + return this; + + } + + /** + * Subtracts the given scalar value from all components of this instance. + * + * @param {number} s - The scalar to subtract. + * @return {Vector4} A reference to this vector. + */ + subScalar( s ) { + + this.x -= s; + this.y -= s; + this.z -= s; + this.w -= s; + + return this; + + } + + /** + * Subtracts the given vectors and stores the result in this instance. + * + * @param {Vector4} a - The first vector. + * @param {Vector4} b - The second vector. + * @return {Vector4} A reference to this vector. + */ + subVectors( a, b ) { + + this.x = a.x - b.x; + this.y = a.y - b.y; + this.z = a.z - b.z; + this.w = a.w - b.w; + + return this; + + } + + /** + * Multiplies the given vector with this instance. + * + * @param {Vector4} v - The vector to multiply. + * @return {Vector4} A reference to this vector. + */ + multiply( v ) { + + this.x *= v.x; + this.y *= v.y; + this.z *= v.z; + this.w *= v.w; + + return this; + + } + + /** + * Multiplies the given scalar value with all components of this instance. + * + * @param {number} scalar - The scalar to multiply. + * @return {Vector4} A reference to this vector. + */ + multiplyScalar( scalar ) { + + this.x *= scalar; + this.y *= scalar; + this.z *= scalar; + this.w *= scalar; + + return this; + + } + + /** + * Multiplies this vector with the given 4x4 matrix. + * + * @param {Matrix4} m - The 4x4 matrix. + * @return {Vector4} A reference to this vector. + */ + applyMatrix4( m ) { + + const x = this.x, y = this.y, z = this.z, w = this.w; + const e = m.elements; + + this.x = e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z + e[ 12 ] * w; + this.y = e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z + e[ 13 ] * w; + this.z = e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z + e[ 14 ] * w; + this.w = e[ 3 ] * x + e[ 7 ] * y + e[ 11 ] * z + e[ 15 ] * w; + + return this; + + } + + /** + * Divides this instance by the given vector. + * + * @param {Vector4} v - The vector to divide. + * @return {Vector4} A reference to this vector. + */ + divide( v ) { + + this.x /= v.x; + this.y /= v.y; + this.z /= v.z; + this.w /= v.w; + + return this; + + } + + /** + * Divides this vector by the given scalar. + * + * @param {number} scalar - The scalar to divide. + * @return {Vector4} A reference to this vector. + */ + divideScalar( scalar ) { + + return this.multiplyScalar( 1 / scalar ); + + } + + /** + * Sets the x, y and z components of this + * vector to the quaternion's axis and w to the angle. + * + * @param {Quaternion} q - The Quaternion to set. + * @return {Vector4} A reference to this vector. + */ + setAxisAngleFromQuaternion( q ) { + + // http://www.euclideanspace.com/maths/geometry/rotations/conversions/quaternionToAngle/index.htm + + // q is assumed to be normalized + + this.w = 2 * Math.acos( q.w ); + + const s = Math.sqrt( 1 - q.w * q.w ); + + if ( s < 0.0001 ) { + + this.x = 1; + this.y = 0; + this.z = 0; + + } else { + + this.x = q.x / s; + this.y = q.y / s; + this.z = q.z / s; + + } + + return this; + + } + + /** + * Sets the x, y and z components of this + * vector to the axis of rotation and w to the angle. + * + * @param {Matrix4} m - A 4x4 matrix of which the upper left 3x3 matrix is a pure rotation matrix. + * @return {Vector4} A reference to this vector. + */ + setAxisAngleFromRotationMatrix( m ) { + + // http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToAngle/index.htm + + // assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled) + + let angle, x, y, z; // variables for result + const epsilon = 0.01, // margin to allow for rounding errors + epsilon2 = 0.1, // margin to distinguish between 0 and 180 degrees + + te = m.elements, + + m11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ], + m21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ], + m31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ]; + + if ( ( Math.abs( m12 - m21 ) < epsilon ) && + ( Math.abs( m13 - m31 ) < epsilon ) && + ( Math.abs( m23 - m32 ) < epsilon ) ) { + + // singularity found + // first check for identity matrix which must have +1 for all terms + // in leading diagonal and zero in other terms + + if ( ( Math.abs( m12 + m21 ) < epsilon2 ) && + ( Math.abs( m13 + m31 ) < epsilon2 ) && + ( Math.abs( m23 + m32 ) < epsilon2 ) && + ( Math.abs( m11 + m22 + m33 - 3 ) < epsilon2 ) ) { + + // this singularity is identity matrix so angle = 0 + + this.set( 1, 0, 0, 0 ); + + return this; // zero angle, arbitrary axis + + } + + // otherwise this singularity is angle = 180 + + angle = Math.PI; + + const xx = ( m11 + 1 ) / 2; + const yy = ( m22 + 1 ) / 2; + const zz = ( m33 + 1 ) / 2; + const xy = ( m12 + m21 ) / 4; + const xz = ( m13 + m31 ) / 4; + const yz = ( m23 + m32 ) / 4; + + if ( ( xx > yy ) && ( xx > zz ) ) { + + // m11 is the largest diagonal term + + if ( xx < epsilon ) { + + x = 0; + y = 0.707106781; + z = 0.707106781; + + } else { + + x = Math.sqrt( xx ); + y = xy / x; + z = xz / x; + + } + + } else if ( yy > zz ) { + + // m22 is the largest diagonal term + + if ( yy < epsilon ) { + + x = 0.707106781; + y = 0; + z = 0.707106781; + + } else { + + y = Math.sqrt( yy ); + x = xy / y; + z = yz / y; + + } + + } else { + + // m33 is the largest diagonal term so base result on this + + if ( zz < epsilon ) { + + x = 0.707106781; + y = 0.707106781; + z = 0; + + } else { + + z = Math.sqrt( zz ); + x = xz / z; + y = yz / z; + + } + + } + + this.set( x, y, z, angle ); + + return this; // return 180 deg rotation + + } + + // as we have reached here there are no singularities so we can handle normally + + let s = Math.sqrt( ( m32 - m23 ) * ( m32 - m23 ) + + ( m13 - m31 ) * ( m13 - m31 ) + + ( m21 - m12 ) * ( m21 - m12 ) ); // used to normalize + + if ( Math.abs( s ) < 0.001 ) s = 1; + + // prevent divide by zero, should not happen if matrix is orthogonal and should be + // caught by singularity test above, but I've left it in just in case + + this.x = ( m32 - m23 ) / s; + this.y = ( m13 - m31 ) / s; + this.z = ( m21 - m12 ) / s; + this.w = Math.acos( ( m11 + m22 + m33 - 1 ) / 2 ); + + return this; + + } + + /** + * Sets the vector components to the position elements of the + * given transformation matrix. + * + * @param {Matrix4} m - The 4x4 matrix. + * @return {Vector4} A reference to this vector. + */ + setFromMatrixPosition( m ) { + + const e = m.elements; + + this.x = e[ 12 ]; + this.y = e[ 13 ]; + this.z = e[ 14 ]; + this.w = e[ 15 ]; + + return this; + + } + + /** + * If this vector's x, y, z or w value is greater than the given vector's x, y, z or w + * value, replace that value with the corresponding min value. + * + * @param {Vector4} v - The vector. + * @return {Vector4} A reference to this vector. + */ + min( v ) { + + this.x = Math.min( this.x, v.x ); + this.y = Math.min( this.y, v.y ); + this.z = Math.min( this.z, v.z ); + this.w = Math.min( this.w, v.w ); + + return this; + + } + + /** + * If this vector's x, y, z or w value is less than the given vector's x, y, z or w + * value, replace that value with the corresponding max value. + * + * @param {Vector4} v - The vector. + * @return {Vector4} A reference to this vector. + */ + max( v ) { + + this.x = Math.max( this.x, v.x ); + this.y = Math.max( this.y, v.y ); + this.z = Math.max( this.z, v.z ); + this.w = Math.max( this.w, v.w ); + + return this; + + } + + /** + * If this vector's x, y, z or w value is greater than the max vector's x, y, z or w + * value, it is replaced by the corresponding value. + * If this vector's x, y, z or w value is less than the min vector's x, y, z or w value, + * it is replaced by the corresponding value. + * + * @param {Vector4} min - The minimum x, y and z values. + * @param {Vector4} max - The maximum x, y and z values in the desired range. + * @return {Vector4} A reference to this vector. + */ + clamp( min, max ) { + + // assumes min < max, componentwise + + this.x = clamp$1( this.x, min.x, max.x ); + this.y = clamp$1( this.y, min.y, max.y ); + this.z = clamp$1( this.z, min.z, max.z ); + this.w = clamp$1( this.w, min.w, max.w ); + + return this; + + } + + /** + * If this vector's x, y, z or w values are greater than the max value, they are + * replaced by the max value. + * If this vector's x, y, z or w values are less than the min value, they are + * replaced by the min value. + * + * @param {number} minVal - The minimum value the components will be clamped to. + * @param {number} maxVal - The maximum value the components will be clamped to. + * @return {Vector4} A reference to this vector. + */ + clampScalar( minVal, maxVal ) { + + this.x = clamp$1( this.x, minVal, maxVal ); + this.y = clamp$1( this.y, minVal, maxVal ); + this.z = clamp$1( this.z, minVal, maxVal ); + this.w = clamp$1( this.w, minVal, maxVal ); + + return this; + + } + + /** + * If this vector's length is greater than the max value, it is replaced by + * the max value. + * If this vector's length is less than the min value, it is replaced by the + * min value. + * + * @param {number} min - The minimum value the vector length will be clamped to. + * @param {number} max - The maximum value the vector length will be clamped to. + * @return {Vector4} A reference to this vector. + */ + clampLength( min, max ) { + + const length = this.length(); + + return this.divideScalar( length || 1 ).multiplyScalar( clamp$1( length, min, max ) ); + + } + + /** + * The components of this vector are rounded down to the nearest integer value. + * + * @return {Vector4} A reference to this vector. + */ + floor() { + + this.x = Math.floor( this.x ); + this.y = Math.floor( this.y ); + this.z = Math.floor( this.z ); + this.w = Math.floor( this.w ); + + return this; + + } + + /** + * The components of this vector are rounded up to the nearest integer value. + * + * @return {Vector4} A reference to this vector. + */ + ceil() { + + this.x = Math.ceil( this.x ); + this.y = Math.ceil( this.y ); + this.z = Math.ceil( this.z ); + this.w = Math.ceil( this.w ); + + return this; + + } + + /** + * The components of this vector are rounded to the nearest integer value + * + * @return {Vector4} A reference to this vector. + */ + round() { + + this.x = Math.round( this.x ); + this.y = Math.round( this.y ); + this.z = Math.round( this.z ); + this.w = Math.round( this.w ); + + return this; + + } + + /** + * The components of this vector are rounded towards zero (up if negative, + * down if positive) to an integer value. + * + * @return {Vector4} A reference to this vector. + */ + roundToZero() { + + this.x = Math.trunc( this.x ); + this.y = Math.trunc( this.y ); + this.z = Math.trunc( this.z ); + this.w = Math.trunc( this.w ); + + return this; + + } + + /** + * Inverts this vector - i.e. sets x = -x, y = -y, z = -z, w = -w. + * + * @return {Vector4} A reference to this vector. + */ + negate() { + + this.x = - this.x; + this.y = - this.y; + this.z = - this.z; + this.w = - this.w; + + return this; + + } + + /** + * Calculates the dot product of the given vector with this instance. + * + * @param {Vector4} v - The vector to compute the dot product with. + * @return {number} The result of the dot product. + */ + dot( v ) { + + return this.x * v.x + this.y * v.y + this.z * v.z + this.w * v.w; + + } + + /** + * Computes the square of the Euclidean length (straight-line length) from + * (0, 0, 0, 0) to (x, y, z, w). If you are comparing the lengths of vectors, you should + * compare the length squared instead as it is slightly more efficient to calculate. + * + * @return {number} The square length of this vector. + */ + lengthSq() { + + return this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w; + + } + + /** + * Computes the Euclidean length (straight-line length) from (0, 0, 0, 0) to (x, y, z, w). + * + * @return {number} The length of this vector. + */ + length() { + + return Math.sqrt( this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w ); + + } + + /** + * Computes the Manhattan length of this vector. + * + * @return {number} The length of this vector. + */ + manhattanLength() { + + return Math.abs( this.x ) + Math.abs( this.y ) + Math.abs( this.z ) + Math.abs( this.w ); + + } + + /** + * Converts this vector to a unit vector - that is, sets it equal to a vector + * with the same direction as this one, but with a vector length of `1`. + * + * @return {Vector4} A reference to this vector. + */ + normalize() { + + return this.divideScalar( this.length() || 1 ); + + } + + /** + * Sets this vector to a vector with the same direction as this one, but + * with the specified length. + * + * @param {number} length - The new length of this vector. + * @return {Vector4} A reference to this vector. + */ + setLength( length ) { + + return this.normalize().multiplyScalar( length ); + + } + + /** + * Linearly interpolates between the given vector and this instance, where + * alpha is the percent distance along the line - alpha = 0 will be this + * vector, and alpha = 1 will be the given one. + * + * @param {Vector4} v - The vector to interpolate towards. + * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`. + * @return {Vector4} A reference to this vector. + */ + lerp( v, alpha ) { + + this.x += ( v.x - this.x ) * alpha; + this.y += ( v.y - this.y ) * alpha; + this.z += ( v.z - this.z ) * alpha; + this.w += ( v.w - this.w ) * alpha; + + return this; + + } + + /** + * Linearly interpolates between the given vectors, where alpha is the percent + * distance along the line - alpha = 0 will be first vector, and alpha = 1 will + * be the second one. The result is stored in this instance. + * + * @param {Vector4} v1 - The first vector. + * @param {Vector4} v2 - The second vector. + * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`. + * @return {Vector4} A reference to this vector. + */ + lerpVectors( v1, v2, alpha ) { + + this.x = v1.x + ( v2.x - v1.x ) * alpha; + this.y = v1.y + ( v2.y - v1.y ) * alpha; + this.z = v1.z + ( v2.z - v1.z ) * alpha; + this.w = v1.w + ( v2.w - v1.w ) * alpha; + + return this; + + } + + /** + * Returns `true` if this vector is equal with the given one. + * + * @param {Vector4} v - The vector to test for equality. + * @return {boolean} Whether this vector is equal with the given one. + */ + equals( v ) { + + return ( ( v.x === this.x ) && ( v.y === this.y ) && ( v.z === this.z ) && ( v.w === this.w ) ); + + } + + /** + * Sets this vector's x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`, + * z value to be `array[ offset + 2 ]`, w value to be `array[ offset + 3 ]`. + * + * @param {Array} array - An array holding the vector component values. + * @param {number} [offset=0] - The offset into the array. + * @return {Vector4} A reference to this vector. + */ + fromArray( array, offset = 0 ) { + + this.x = array[ offset ]; + this.y = array[ offset + 1 ]; + this.z = array[ offset + 2 ]; + this.w = array[ offset + 3 ]; + + return this; + + } + + /** + * Writes the components of this vector to the given array. If no array is provided, + * the method returns a new instance. + * + * @param {Array} [array=[]] - The target array holding the vector components. + * @param {number} [offset=0] - Index of the first element in the array. + * @return {Array} The vector components. + */ + toArray( array = [], offset = 0 ) { + + array[ offset ] = this.x; + array[ offset + 1 ] = this.y; + array[ offset + 2 ] = this.z; + array[ offset + 3 ] = this.w; + + return array; + + } + + /** + * Sets the components of this vector from the given buffer attribute. + * + * @param {BufferAttribute} attribute - The buffer attribute holding vector data. + * @param {number} index - The index into the attribute. + * @return {Vector4} A reference to this vector. + */ + fromBufferAttribute( attribute, index ) { + + this.x = attribute.getX( index ); + this.y = attribute.getY( index ); + this.z = attribute.getZ( index ); + this.w = attribute.getW( index ); + + return this; + + } + + /** + * Sets each component of this vector to a pseudo-random value between `0` and + * `1`, excluding `1`. + * + * @return {Vector4} A reference to this vector. + */ + random() { + + this.x = Math.random(); + this.y = Math.random(); + this.z = Math.random(); + this.w = Math.random(); + + return this; + + } + + *[ Symbol.iterator ]() { + + yield this.x; + yield this.y; + yield this.z; + yield this.w; + + } + +} + +/* + In options, we can specify: + * Texture parameters for an auto-generated target texture + * depthBuffer/stencilBuffer: Booleans to indicate if we should generate these buffers +*/ +class RenderTarget extends EventDispatcher { + + constructor( width = 1, height = 1, options = {} ) { + + super(); + + this.isRenderTarget = true; + + this.width = width; + this.height = height; + this.depth = 1; + + this.scissor = new Vector4( 0, 0, width, height ); + this.scissorTest = false; + + this.viewport = new Vector4( 0, 0, width, height ); + + const image = { width: width, height: height, depth: 1 }; + + options = Object.assign( { + generateMipmaps: false, + internalFormat: null, + minFilter: LinearFilter, + depthBuffer: true, + stencilBuffer: false, + resolveDepthBuffer: true, + resolveStencilBuffer: true, + depthTexture: null, + samples: 0, + count: 1 + }, options ); + + const texture = new Texture$1( image, options.mapping, options.wrapS, options.wrapT, options.magFilter, options.minFilter, options.format, options.type, options.anisotropy, options.colorSpace ); + + texture.flipY = false; + texture.generateMipmaps = options.generateMipmaps; + texture.internalFormat = options.internalFormat; + + this.textures = []; + + const count = options.count; + for ( let i = 0; i < count; i ++ ) { + + this.textures[ i ] = texture.clone(); + this.textures[ i ].isRenderTargetTexture = true; + this.textures[ i ].renderTarget = this; + + } + + this.depthBuffer = options.depthBuffer; + this.stencilBuffer = options.stencilBuffer; + + this.resolveDepthBuffer = options.resolveDepthBuffer; + this.resolveStencilBuffer = options.resolveStencilBuffer; + + this._depthTexture = null; + this.depthTexture = options.depthTexture; + + this.samples = options.samples; + + } + + get texture() { + + return this.textures[ 0 ]; + + } + + set texture( value ) { + + this.textures[ 0 ] = value; + + } + + set depthTexture( current ) { + + if ( this._depthTexture !== null ) this._depthTexture.renderTarget = null; + if ( current !== null ) current.renderTarget = this; + + this._depthTexture = current; + + } + + get depthTexture() { + + return this._depthTexture; + + } + + setSize( width, height, depth = 1 ) { + + if ( this.width !== width || this.height !== height || this.depth !== depth ) { + + this.width = width; + this.height = height; + this.depth = depth; + + for ( let i = 0, il = this.textures.length; i < il; i ++ ) { + + this.textures[ i ].image.width = width; + this.textures[ i ].image.height = height; + this.textures[ i ].image.depth = depth; + + } + + this.dispose(); + + } + + this.viewport.set( 0, 0, width, height ); + this.scissor.set( 0, 0, width, height ); + + } + + clone() { + + return new this.constructor().copy( this ); + + } + + copy( source ) { + + this.width = source.width; + this.height = source.height; + this.depth = source.depth; + + this.scissor.copy( source.scissor ); + this.scissorTest = source.scissorTest; + + this.viewport.copy( source.viewport ); + + this.textures.length = 0; + + for ( let i = 0, il = source.textures.length; i < il; i ++ ) { + + this.textures[ i ] = source.textures[ i ].clone(); + this.textures[ i ].isRenderTargetTexture = true; + this.textures[ i ].renderTarget = this; + + // ensure image object is not shared, see #20328 + + const image = Object.assign( {}, source.textures[ i ].image ); + this.textures[ i ].source = new Source( image ); + + } + + this.depthBuffer = source.depthBuffer; + this.stencilBuffer = source.stencilBuffer; + + this.resolveDepthBuffer = source.resolveDepthBuffer; + this.resolveStencilBuffer = source.resolveStencilBuffer; + + if ( source.depthTexture !== null ) this.depthTexture = source.depthTexture.clone(); + + this.samples = source.samples; + + return this; + + } + + dispose() { + + this.dispatchEvent( { type: 'dispose' } ); + + } + +} + +class WebGLRenderTarget extends RenderTarget { + + constructor( width = 1, height = 1, options = {} ) { + + super( width, height, options ); + + this.isWebGLRenderTarget = true; + + } + +} + +class DataArrayTexture extends Texture$1 { + + constructor( data = null, width = 1, height = 1, depth = 1 ) { + + super( null ); + + this.isDataArrayTexture = true; + + this.image = { data, width, height, depth }; + + this.magFilter = NearestFilter; + this.minFilter = NearestFilter; + + this.wrapR = ClampToEdgeWrapping; + + this.generateMipmaps = false; + this.flipY = false; + this.unpackAlignment = 1; + + this.layerUpdates = new Set(); + + } + + addLayerUpdate( layerIndex ) { + + this.layerUpdates.add( layerIndex ); + + } + + clearLayerUpdates() { + + this.layerUpdates.clear(); + + } + +} + +class Data3DTexture extends Texture$1 { + + constructor( data = null, width = 1, height = 1, depth = 1 ) { + + // We're going to add .setXXX() methods for setting properties later. + // Users can still set in Data3DTexture directly. + // + // const texture = new THREE.Data3DTexture( data, width, height, depth ); + // texture.anisotropy = 16; + // + // See #14839 + + super( null ); + + this.isData3DTexture = true; + + this.image = { data, width, height, depth }; + + this.magFilter = NearestFilter; + this.minFilter = NearestFilter; + + this.wrapR = ClampToEdgeWrapping; + + this.generateMipmaps = false; + this.flipY = false; + this.unpackAlignment = 1; + + } + +} + +/** + * Class for representing a Quaternion. Quaternions are used in three.js to represent rotations. + * + * Iterating through a vector instance will yield its components `(x, y, z, w)` in + * the corresponding order. + * + * Note that three.js expects Quaternions to be normalized. + * ```js + * const quaternion = new THREE.Quaternion(); + * quaternion.setFromAxisAngle( new THREE.Vector3( 0, 1, 0 ), Math.PI / 2 ); + * + * const vector = new THREE.Vector3( 1, 0, 0 ); + * vector.applyQuaternion( quaternion ); + * ``` + */ +class Quaternion { + + /** + * Constructs a new quaternion. + * + * @param {number} [x=0] - The x value of this quaternion. + * @param {number} [y=0] - The y value of this quaternion. + * @param {number} [z=0] - The z value of this quaternion. + * @param {number} [w=1] - The w value of this quaternion. + */ + constructor( x = 0, y = 0, z = 0, w = 1 ) { + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isQuaternion = true; + + this._x = x; + this._y = y; + this._z = z; + this._w = w; + + } + + /** + * Interpolates between two quaternions via SLERP. This implementation assumes the + * quaternion data are managed in flat arrays. + * + * @param {Array} dst - The destination array. + * @param {number} dstOffset - An offset into the destination array. + * @param {Array} src0 - The source array of the first quaternion. + * @param {number} srcOffset0 - An offset into the first source array. + * @param {Array} src1 - The source array of the second quaternion. + * @param {number} srcOffset1 - An offset into the second source array. + * @param {number} t - The interpolation factor in the range `[0,1]`. + * @see {@link Quaternion#slerp} + */ + static slerpFlat( dst, dstOffset, src0, srcOffset0, src1, srcOffset1, t ) { + + // fuzz-free, array-based Quaternion SLERP operation + + let x0 = src0[ srcOffset0 + 0 ], + y0 = src0[ srcOffset0 + 1 ], + z0 = src0[ srcOffset0 + 2 ], + w0 = src0[ srcOffset0 + 3 ]; + + const x1 = src1[ srcOffset1 + 0 ], + y1 = src1[ srcOffset1 + 1 ], + z1 = src1[ srcOffset1 + 2 ], + w1 = src1[ srcOffset1 + 3 ]; + + if ( t === 0 ) { + + dst[ dstOffset + 0 ] = x0; + dst[ dstOffset + 1 ] = y0; + dst[ dstOffset + 2 ] = z0; + dst[ dstOffset + 3 ] = w0; + return; + + } + + if ( t === 1 ) { + + dst[ dstOffset + 0 ] = x1; + dst[ dstOffset + 1 ] = y1; + dst[ dstOffset + 2 ] = z1; + dst[ dstOffset + 3 ] = w1; + return; + + } + + if ( w0 !== w1 || x0 !== x1 || y0 !== y1 || z0 !== z1 ) { + + let s = 1 - t; + const cos = x0 * x1 + y0 * y1 + z0 * z1 + w0 * w1, + dir = ( cos >= 0 ? 1 : -1 ), + sqrSin = 1 - cos * cos; + + // Skip the Slerp for tiny steps to avoid numeric problems: + if ( sqrSin > Number.EPSILON ) { + + const sin = Math.sqrt( sqrSin ), + len = Math.atan2( sin, cos * dir ); + + s = Math.sin( s * len ) / sin; + t = Math.sin( t * len ) / sin; + + } + + const tDir = t * dir; + + x0 = x0 * s + x1 * tDir; + y0 = y0 * s + y1 * tDir; + z0 = z0 * s + z1 * tDir; + w0 = w0 * s + w1 * tDir; + + // Normalize in case we just did a lerp: + if ( s === 1 - t ) { + + const f = 1 / Math.sqrt( x0 * x0 + y0 * y0 + z0 * z0 + w0 * w0 ); + + x0 *= f; + y0 *= f; + z0 *= f; + w0 *= f; + + } + + } + + dst[ dstOffset ] = x0; + dst[ dstOffset + 1 ] = y0; + dst[ dstOffset + 2 ] = z0; + dst[ dstOffset + 3 ] = w0; + + } + + /** + * Multiplies two quaternions. This implementation assumes the quaternion data are managed + * in flat arrays. + * + * @param {Array} dst - The destination array. + * @param {number} dstOffset - An offset into the destination array. + * @param {Array} src0 - The source array of the first quaternion. + * @param {number} srcOffset0 - An offset into the first source array. + * @param {Array} src1 - The source array of the second quaternion. + * @param {number} srcOffset1 - An offset into the second source array. + * @return {Array} The destination array. + * @see {@link Quaternion#multiplyQuaternions}. + */ + static multiplyQuaternionsFlat( dst, dstOffset, src0, srcOffset0, src1, srcOffset1 ) { + + const x0 = src0[ srcOffset0 ]; + const y0 = src0[ srcOffset0 + 1 ]; + const z0 = src0[ srcOffset0 + 2 ]; + const w0 = src0[ srcOffset0 + 3 ]; + + const x1 = src1[ srcOffset1 ]; + const y1 = src1[ srcOffset1 + 1 ]; + const z1 = src1[ srcOffset1 + 2 ]; + const w1 = src1[ srcOffset1 + 3 ]; + + dst[ dstOffset ] = x0 * w1 + w0 * x1 + y0 * z1 - z0 * y1; + dst[ dstOffset + 1 ] = y0 * w1 + w0 * y1 + z0 * x1 - x0 * z1; + dst[ dstOffset + 2 ] = z0 * w1 + w0 * z1 + x0 * y1 - y0 * x1; + dst[ dstOffset + 3 ] = w0 * w1 - x0 * x1 - y0 * y1 - z0 * z1; + + return dst; + + } + + /** + * The x value of this quaternion. + * + * @type {number} + * @default 0 + */ + get x() { + + return this._x; + + } + + set x( value ) { + + this._x = value; + this._onChangeCallback(); + + } + + /** + * The y value of this quaternion. + * + * @type {number} + * @default 0 + */ + get y() { + + return this._y; + + } + + set y( value ) { + + this._y = value; + this._onChangeCallback(); + + } + + /** + * The z value of this quaternion. + * + * @type {number} + * @default 0 + */ + get z() { + + return this._z; + + } + + set z( value ) { + + this._z = value; + this._onChangeCallback(); + + } + + /** + * The w value of this quaternion. + * + * @type {number} + * @default 1 + */ + get w() { + + return this._w; + + } + + set w( value ) { + + this._w = value; + this._onChangeCallback(); + + } + + /** + * Sets the quaternion components. + * + * @param {number} x - The x value of this quaternion. + * @param {number} y - The y value of this quaternion. + * @param {number} z - The z value of this quaternion. + * @param {number} w - The w value of this quaternion. + * @return {Quaternion} A reference to this quaternion. + */ + set( x, y, z, w ) { + + this._x = x; + this._y = y; + this._z = z; + this._w = w; + + this._onChangeCallback(); + + return this; + + } + + /** + * Returns a new quaternion with copied values from this instance. + * + * @return {Quaternion} A clone of this instance. + */ + clone() { + + return new this.constructor( this._x, this._y, this._z, this._w ); + + } + + /** + * Copies the values of the given quaternion to this instance. + * + * @param {Quaternion} quaternion - The quaternion to copy. + * @return {Quaternion} A reference to this quaternion. + */ + copy( quaternion ) { + + this._x = quaternion.x; + this._y = quaternion.y; + this._z = quaternion.z; + this._w = quaternion.w; + + this._onChangeCallback(); + + return this; + + } + + /** + * Sets this quaternion from the rotation specified by the given + * Euler angles. + * + * @param {Euler} euler - The Euler angles. + * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not. + * @return {Quaternion} A reference to this quaternion. + */ + setFromEuler( euler, update = true ) { + + const x = euler._x, y = euler._y, z = euler._z, order = euler._order; + + // http://www.mathworks.com/matlabcentral/fileexchange/ + // 20696-function-to-convert-between-dcm-euler-angles-quaternions-and-euler-vectors/ + // content/SpinCalc.m + + const cos = Math.cos; + const sin = Math.sin; + + const c1 = cos( x / 2 ); + const c2 = cos( y / 2 ); + const c3 = cos( z / 2 ); + + const s1 = sin( x / 2 ); + const s2 = sin( y / 2 ); + const s3 = sin( z / 2 ); + + switch ( order ) { + + case 'XYZ': + this._x = s1 * c2 * c3 + c1 * s2 * s3; + this._y = c1 * s2 * c3 - s1 * c2 * s3; + this._z = c1 * c2 * s3 + s1 * s2 * c3; + this._w = c1 * c2 * c3 - s1 * s2 * s3; + break; + + case 'YXZ': + this._x = s1 * c2 * c3 + c1 * s2 * s3; + this._y = c1 * s2 * c3 - s1 * c2 * s3; + this._z = c1 * c2 * s3 - s1 * s2 * c3; + this._w = c1 * c2 * c3 + s1 * s2 * s3; + break; + + case 'ZXY': + this._x = s1 * c2 * c3 - c1 * s2 * s3; + this._y = c1 * s2 * c3 + s1 * c2 * s3; + this._z = c1 * c2 * s3 + s1 * s2 * c3; + this._w = c1 * c2 * c3 - s1 * s2 * s3; + break; + + case 'ZYX': + this._x = s1 * c2 * c3 - c1 * s2 * s3; + this._y = c1 * s2 * c3 + s1 * c2 * s3; + this._z = c1 * c2 * s3 - s1 * s2 * c3; + this._w = c1 * c2 * c3 + s1 * s2 * s3; + break; + + case 'YZX': + this._x = s1 * c2 * c3 + c1 * s2 * s3; + this._y = c1 * s2 * c3 + s1 * c2 * s3; + this._z = c1 * c2 * s3 - s1 * s2 * c3; + this._w = c1 * c2 * c3 - s1 * s2 * s3; + break; + + case 'XZY': + this._x = s1 * c2 * c3 - c1 * s2 * s3; + this._y = c1 * s2 * c3 - s1 * c2 * s3; + this._z = c1 * c2 * s3 + s1 * s2 * c3; + this._w = c1 * c2 * c3 + s1 * s2 * s3; + break; + + default: + console.warn( 'THREE.Quaternion: .setFromEuler() encountered an unknown order: ' + order ); + + } + + if ( update === true ) this._onChangeCallback(); + + return this; + + } + + /** + * Sets this quaternion from the given axis and angle. + * + * @param {Vector3} axis - The normalized axis. + * @param {number} angle - The angle in radians. + * @return {Quaternion} A reference to this quaternion. + */ + setFromAxisAngle( axis, angle ) { + + // http://www.euclideanspace.com/maths/geometry/rotations/conversions/angleToQuaternion/index.htm + + const halfAngle = angle / 2, s = Math.sin( halfAngle ); + + this._x = axis.x * s; + this._y = axis.y * s; + this._z = axis.z * s; + this._w = Math.cos( halfAngle ); + + this._onChangeCallback(); + + return this; + + } + + /** + * Sets this quaternion from the given rotation matrix. + * + * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled). + * @return {Quaternion} A reference to this quaternion. + */ + setFromRotationMatrix( m ) { + + // http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToQuaternion/index.htm + + // assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled) + + const te = m.elements, + + m11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ], + m21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ], + m31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ], + + trace = m11 + m22 + m33; + + if ( trace > 0 ) { + + const s = 0.5 / Math.sqrt( trace + 1.0 ); + + this._w = 0.25 / s; + this._x = ( m32 - m23 ) * s; + this._y = ( m13 - m31 ) * s; + this._z = ( m21 - m12 ) * s; + + } else if ( m11 > m22 && m11 > m33 ) { + + const s = 2.0 * Math.sqrt( 1.0 + m11 - m22 - m33 ); + + this._w = ( m32 - m23 ) / s; + this._x = 0.25 * s; + this._y = ( m12 + m21 ) / s; + this._z = ( m13 + m31 ) / s; + + } else if ( m22 > m33 ) { + + const s = 2.0 * Math.sqrt( 1.0 + m22 - m11 - m33 ); + + this._w = ( m13 - m31 ) / s; + this._x = ( m12 + m21 ) / s; + this._y = 0.25 * s; + this._z = ( m23 + m32 ) / s; + + } else { + + const s = 2.0 * Math.sqrt( 1.0 + m33 - m11 - m22 ); + + this._w = ( m21 - m12 ) / s; + this._x = ( m13 + m31 ) / s; + this._y = ( m23 + m32 ) / s; + this._z = 0.25 * s; + + } + + this._onChangeCallback(); + + return this; + + } + + /** + * Sets this quaternion to the rotation required to rotate the direction vector + * `vFrom` to the direction vector `vTo`. + * + * @param {Vector3} vFrom - The first (normalized) direction vector. + * @param {Vector3} vTo - The second (normalized) direction vector. + * @return {Quaternion} A reference to this quaternion. + */ + setFromUnitVectors( vFrom, vTo ) { + + // assumes direction vectors vFrom and vTo are normalized + + let r = vFrom.dot( vTo ) + 1; + + if ( r < Number.EPSILON ) { + + // vFrom and vTo point in opposite directions + + r = 0; + + if ( Math.abs( vFrom.x ) > Math.abs( vFrom.z ) ) { + + this._x = - vFrom.y; + this._y = vFrom.x; + this._z = 0; + this._w = r; + + } else { + + this._x = 0; + this._y = - vFrom.z; + this._z = vFrom.y; + this._w = r; + + } + + } else { + + // crossVectors( vFrom, vTo ); // inlined to avoid cyclic dependency on Vector3 + + this._x = vFrom.y * vTo.z - vFrom.z * vTo.y; + this._y = vFrom.z * vTo.x - vFrom.x * vTo.z; + this._z = vFrom.x * vTo.y - vFrom.y * vTo.x; + this._w = r; + + } + + return this.normalize(); + + } + + /** + * Returns the angle between this quaternion and the given one in radians. + * + * @param {Quaternion} q - The quaternion to compute the angle with. + * @return {number} The angle in radians. + */ + angleTo( q ) { + + return 2 * Math.acos( Math.abs( clamp$1( this.dot( q ), -1, 1 ) ) ); + + } + + /** + * Rotates this quaternion by a given angular step to the given quaternion. + * The method ensures that the final quaternion will not overshoot `q`. + * + * @param {Quaternion} q - The target quaternion. + * @param {number} step - The angular step in radians. + * @return {Quaternion} A reference to this quaternion. + */ + rotateTowards( q, step ) { + + const angle = this.angleTo( q ); + + if ( angle === 0 ) return this; + + const t = Math.min( 1, step / angle ); + + this.slerp( q, t ); + + return this; + + } + + /** + * Sets this quaternion to the identity quaternion; that is, to the + * quaternion that represents "no rotation". + * + * @return {Quaternion} A reference to this quaternion. + */ + identity() { + + return this.set( 0, 0, 0, 1 ); + + } + + /** + * Inverts this quaternion via {@link Quaternion#conjugate}. The + * quaternion is assumed to have unit length. + * + * @return {Quaternion} A reference to this quaternion. + */ + invert() { + + return this.conjugate(); + + } + + /** + * Returns the rotational conjugate of this quaternion. The conjugate of a + * quaternion represents the same rotation in the opposite direction about + * the rotational axis. + * + * @return {Quaternion} A reference to this quaternion. + */ + conjugate() { + + this._x *= -1; + this._y *= -1; + this._z *= -1; + + this._onChangeCallback(); + + return this; + + } + + /** + * Calculates the dot product of this quaternion and the given one. + * + * @param {Quaternion} v - The quaternion to compute the dot product with. + * @return {number} The result of the dot product. + */ + dot( v ) { + + return this._x * v._x + this._y * v._y + this._z * v._z + this._w * v._w; + + } + + /** + * Computes the squared Euclidean length (straight-line length) of this quaternion, + * considered as a 4 dimensional vector. This can be useful if you are comparing the + * lengths of two quaternions, as this is a slightly more efficient calculation than + * {@link Quaternion#length}. + * + * @return {number} The squared Euclidean length. + */ + lengthSq() { + + return this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w; + + } + + /** + * Computes the Euclidean length (straight-line length) of this quaternion, + * considered as a 4 dimensional vector. + * + * @return {number} The Euclidean length. + */ + length() { + + return Math.sqrt( this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w ); + + } + + /** + * Normalizes this quaternion - that is, calculated the quaternion that performs + * the same rotation as this one, but has a length equal to `1`. + * + * @return {Quaternion} A reference to this quaternion. + */ + normalize() { + + let l = this.length(); + + if ( l === 0 ) { + + this._x = 0; + this._y = 0; + this._z = 0; + this._w = 1; + + } else { + + l = 1 / l; + + this._x = this._x * l; + this._y = this._y * l; + this._z = this._z * l; + this._w = this._w * l; + + } + + this._onChangeCallback(); + + return this; + + } + + /** + * Multiplies this quaternion by the given one. + * + * @param {Quaternion} q - The quaternion. + * @return {Quaternion} A reference to this quaternion. + */ + multiply( q ) { + + return this.multiplyQuaternions( this, q ); + + } + + /** + * Pre-multiplies this quaternion by the given one. + * + * @param {Quaternion} q - The quaternion. + * @return {Quaternion} A reference to this quaternion. + */ + premultiply( q ) { + + return this.multiplyQuaternions( q, this ); + + } + + /** + * Multiplies the given quaternions and stores the result in this instance. + * + * @param {Quaternion} a - The first quaternion. + * @param {Quaternion} b - The second quaternion. + * @return {Quaternion} A reference to this quaternion. + */ + multiplyQuaternions( a, b ) { + + // from http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/code/index.htm + + const qax = a._x, qay = a._y, qaz = a._z, qaw = a._w; + const qbx = b._x, qby = b._y, qbz = b._z, qbw = b._w; + + this._x = qax * qbw + qaw * qbx + qay * qbz - qaz * qby; + this._y = qay * qbw + qaw * qby + qaz * qbx - qax * qbz; + this._z = qaz * qbw + qaw * qbz + qax * qby - qay * qbx; + this._w = qaw * qbw - qax * qbx - qay * qby - qaz * qbz; + + this._onChangeCallback(); + + return this; + + } + + /** + * Performs a spherical linear interpolation between quaternions. + * + * @param {Quaternion} qb - The target quaternion. + * @param {number} t - The interpolation factor in the closed interval `[0, 1]`. + * @return {Quaternion} A reference to this quaternion. + */ + slerp( qb, t ) { + + if ( t === 0 ) return this; + if ( t === 1 ) return this.copy( qb ); + + const x = this._x, y = this._y, z = this._z, w = this._w; + + // http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/slerp/ + + let cosHalfTheta = w * qb._w + x * qb._x + y * qb._y + z * qb._z; + + if ( cosHalfTheta < 0 ) { + + this._w = - qb._w; + this._x = - qb._x; + this._y = - qb._y; + this._z = - qb._z; + + cosHalfTheta = - cosHalfTheta; + + } else { + + this.copy( qb ); + + } + + if ( cosHalfTheta >= 1.0 ) { + + this._w = w; + this._x = x; + this._y = y; + this._z = z; + + return this; + + } + + const sqrSinHalfTheta = 1.0 - cosHalfTheta * cosHalfTheta; + + if ( sqrSinHalfTheta <= Number.EPSILON ) { + + const s = 1 - t; + this._w = s * w + t * this._w; + this._x = s * x + t * this._x; + this._y = s * y + t * this._y; + this._z = s * z + t * this._z; + + this.normalize(); // normalize calls _onChangeCallback() + + return this; + + } + + const sinHalfTheta = Math.sqrt( sqrSinHalfTheta ); + const halfTheta = Math.atan2( sinHalfTheta, cosHalfTheta ); + const ratioA = Math.sin( ( 1 - t ) * halfTheta ) / sinHalfTheta, + ratioB = Math.sin( t * halfTheta ) / sinHalfTheta; + + this._w = ( w * ratioA + this._w * ratioB ); + this._x = ( x * ratioA + this._x * ratioB ); + this._y = ( y * ratioA + this._y * ratioB ); + this._z = ( z * ratioA + this._z * ratioB ); + + this._onChangeCallback(); + + return this; + + } + + /** + * Performs a spherical linear interpolation between the given quaternions + * and stores the result in this quaternion. + * + * @param {Quaternion} qa - The source quaternion. + * @param {Quaternion} qb - The target quaternion. + * @param {number} t - The interpolation factor in the closed interval `[0, 1]`. + * @return {Quaternion} A reference to this quaternion. + */ + slerpQuaternions( qa, qb, t ) { + + return this.copy( qa ).slerp( qb, t ); + + } + + /** + * Sets this quaternion to a uniformly random, normalized quaternion. + * + * @return {Quaternion} A reference to this quaternion. + */ + random() { + + // Ken Shoemake + // Uniform random rotations + // D. Kirk, editor, Graphics Gems III, pages 124-132. Academic Press, New York, 1992. + + const theta1 = 2 * Math.PI * Math.random(); + const theta2 = 2 * Math.PI * Math.random(); + + const x0 = Math.random(); + const r1 = Math.sqrt( 1 - x0 ); + const r2 = Math.sqrt( x0 ); + + return this.set( + r1 * Math.sin( theta1 ), + r1 * Math.cos( theta1 ), + r2 * Math.sin( theta2 ), + r2 * Math.cos( theta2 ), + ); + + } + + /** + * Returns `true` if this quaternion is equal with the given one. + * + * @param {Quaternion} quaternion - The quaternion to test for equality. + * @return {boolean} Whether this quaternion is equal with the given one. + */ + equals( quaternion ) { + + return ( quaternion._x === this._x ) && ( quaternion._y === this._y ) && ( quaternion._z === this._z ) && ( quaternion._w === this._w ); + + } + + /** + * Sets this quaternion's components from the given array. + * + * @param {Array} array - An array holding the quaternion component values. + * @param {number} [offset=0] - The offset into the array. + * @return {Quaternion} A reference to this quaternion. + */ + fromArray( array, offset = 0 ) { + + this._x = array[ offset ]; + this._y = array[ offset + 1 ]; + this._z = array[ offset + 2 ]; + this._w = array[ offset + 3 ]; + + this._onChangeCallback(); + + return this; + + } + + /** + * Writes the components of this quaternion to the given array. If no array is provided, + * the method returns a new instance. + * + * @param {Array} [array=[]] - The target array holding the quaternion components. + * @param {number} [offset=0] - Index of the first element in the array. + * @return {Array} The quaternion components. + */ + toArray( array = [], offset = 0 ) { + + array[ offset ] = this._x; + array[ offset + 1 ] = this._y; + array[ offset + 2 ] = this._z; + array[ offset + 3 ] = this._w; + + return array; + + } + + /** + * Sets the components of this quaternion from the given buffer attribute. + * + * @param {BufferAttribute} attribute - The buffer attribute holding quaternion data. + * @param {number} index - The index into the attribute. + * @return {Quaternion} A reference to this quaternion. + */ + fromBufferAttribute( attribute, index ) { + + this._x = attribute.getX( index ); + this._y = attribute.getY( index ); + this._z = attribute.getZ( index ); + this._w = attribute.getW( index ); + + this._onChangeCallback(); + + return this; + + } + + /** + * This methods defines the serialization result of this class. Returns the + * numerical elements of this quaternion in an array of format `[x, y, z, w]`. + * + * @return {Array} The serialized quaternion. + */ + toJSON() { + + return this.toArray(); + + } + + _onChange( callback ) { + + this._onChangeCallback = callback; + + return this; + + } + + _onChangeCallback() {} + + *[ Symbol.iterator ]() { + + yield this._x; + yield this._y; + yield this._z; + yield this._w; + + } + +} + +/** + * Class representing a 3D vector. A 3D vector is an ordered triplet of numbers + * (labeled x, y and z), which can be used to represent a number of things, such as: + * + * - A point in 3D space. + * - A direction and length in 3D space. In three.js the length will + * always be the Euclidean distance(straight-line distance) from `(0, 0, 0)` to `(x, y, z)` + * and the direction is also measured from `(0, 0, 0)` towards `(x, y, z)`. + * - Any arbitrary ordered triplet of numbers. + * + * There are other things a 3D vector can be used to represent, such as + * momentum vectors and so on, however these are the most + * common uses in three.js. + * + * Iterating through a vector instance will yield its components `(x, y, z)` in + * the corresponding order. + * ```js + * const a = new THREE.Vector3( 0, 1, 0 ); + * + * //no arguments; will be initialised to (0, 0, 0) + * const b = new THREE.Vector3( ); + * + * const d = a.distanceTo( b ); + * ``` + */ +class Vector3 { + + /** + * Constructs a new 3D vector. + * + * @param {number} [x=0] - The x value of this vector. + * @param {number} [y=0] - The y value of this vector. + * @param {number} [z=0] - The z value of this vector. + */ + constructor( x = 0, y = 0, z = 0 ) { + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + Vector3.prototype.isVector3 = true; + + /** + * The x value of this vector. + * + * @type {number} + */ + this.x = x; + + /** + * The y value of this vector. + * + * @type {number} + */ + this.y = y; + + /** + * The z value of this vector. + * + * @type {number} + */ + this.z = z; + + } + + /** + * Sets the vector components. + * + * @param {number} x - The value of the x component. + * @param {number} y - The value of the y component. + * @param {number} z - The value of the z component. + * @return {Vector3} A reference to this vector. + */ + set( x, y, z ) { + + if ( z === undefined ) z = this.z; // sprite.scale.set(x,y) + + this.x = x; + this.y = y; + this.z = z; + + return this; + + } + + /** + * Sets the vector components to the same value. + * + * @param {number} scalar - The value to set for all vector components. + * @return {Vector3} A reference to this vector. + */ + setScalar( scalar ) { + + this.x = scalar; + this.y = scalar; + this.z = scalar; + + return this; + + } + + /** + * Sets the vector's x component to the given value + * + * @param {number} x - The value to set. + * @return {Vector3} A reference to this vector. + */ + setX( x ) { + + this.x = x; + + return this; + + } + + /** + * Sets the vector's y component to the given value + * + * @param {number} y - The value to set. + * @return {Vector3} A reference to this vector. + */ + setY( y ) { + + this.y = y; + + return this; + + } + + /** + * Sets the vector's z component to the given value + * + * @param {number} z - The value to set. + * @return {Vector3} A reference to this vector. + */ + setZ( z ) { + + this.z = z; + + return this; + + } + + /** + * Allows to set a vector component with an index. + * + * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z. + * @param {number} value - The value to set. + * @return {Vector3} A reference to this vector. + */ + setComponent( index, value ) { + + switch ( index ) { + + case 0: this.x = value; break; + case 1: this.y = value; break; + case 2: this.z = value; break; + default: throw new Error( 'index is out of range: ' + index ); + + } + + return this; + + } + + /** + * Returns the value of the vector component which matches the given index. + * + * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z. + * @return {number} A vector component value. + */ + getComponent( index ) { + + switch ( index ) { + + case 0: return this.x; + case 1: return this.y; + case 2: return this.z; + default: throw new Error( 'index is out of range: ' + index ); + + } + + } + + /** + * Returns a new vector with copied values from this instance. + * + * @return {Vector3} A clone of this instance. + */ + clone() { + + return new this.constructor( this.x, this.y, this.z ); + + } + + /** + * Copies the values of the given vector to this instance. + * + * @param {Vector3} v - The vector to copy. + * @return {Vector3} A reference to this vector. + */ + copy( v ) { + + this.x = v.x; + this.y = v.y; + this.z = v.z; + + return this; + + } + + /** + * Adds the given vector to this instance. + * + * @param {Vector3} v - The vector to add. + * @return {Vector3} A reference to this vector. + */ + add( v ) { + + this.x += v.x; + this.y += v.y; + this.z += v.z; + + return this; + + } + + /** + * Adds the given scalar value to all components of this instance. + * + * @param {number} s - The scalar to add. + * @return {Vector3} A reference to this vector. + */ + addScalar( s ) { + + this.x += s; + this.y += s; + this.z += s; + + return this; + + } + + /** + * Adds the given vectors and stores the result in this instance. + * + * @param {Vector3} a - The first vector. + * @param {Vector3} b - The second vector. + * @return {Vector3} A reference to this vector. + */ + addVectors( a, b ) { + + this.x = a.x + b.x; + this.y = a.y + b.y; + this.z = a.z + b.z; + + return this; + + } + + /** + * Adds the given vector scaled by the given factor to this instance. + * + * @param {Vector3|Vector4} v - The vector. + * @param {number} s - The factor that scales `v`. + * @return {Vector3} A reference to this vector. + */ + addScaledVector( v, s ) { + + this.x += v.x * s; + this.y += v.y * s; + this.z += v.z * s; + + return this; + + } + + /** + * Subtracts the given vector from this instance. + * + * @param {Vector3} v - The vector to subtract. + * @return {Vector3} A reference to this vector. + */ + sub( v ) { + + this.x -= v.x; + this.y -= v.y; + this.z -= v.z; + + return this; + + } + + /** + * Subtracts the given scalar value from all components of this instance. + * + * @param {number} s - The scalar to subtract. + * @return {Vector3} A reference to this vector. + */ + subScalar( s ) { + + this.x -= s; + this.y -= s; + this.z -= s; + + return this; + + } + + /** + * Subtracts the given vectors and stores the result in this instance. + * + * @param {Vector3} a - The first vector. + * @param {Vector3} b - The second vector. + * @return {Vector3} A reference to this vector. + */ + subVectors( a, b ) { + + this.x = a.x - b.x; + this.y = a.y - b.y; + this.z = a.z - b.z; + + return this; + + } + + /** + * Multiplies the given vector with this instance. + * + * @param {Vector3} v - The vector to multiply. + * @return {Vector3} A reference to this vector. + */ + multiply( v ) { + + this.x *= v.x; + this.y *= v.y; + this.z *= v.z; + + return this; + + } + + /** + * Multiplies the given scalar value with all components of this instance. + * + * @param {number} scalar - The scalar to multiply. + * @return {Vector3} A reference to this vector. + */ + multiplyScalar( scalar ) { + + this.x *= scalar; + this.y *= scalar; + this.z *= scalar; + + return this; + + } + + /** + * Multiplies the given vectors and stores the result in this instance. + * + * @param {Vector3} a - The first vector. + * @param {Vector3} b - The second vector. + * @return {Vector3} A reference to this vector. + */ + multiplyVectors( a, b ) { + + this.x = a.x * b.x; + this.y = a.y * b.y; + this.z = a.z * b.z; + + return this; + + } + + /** + * Applies the given Euler rotation to this vector. + * + * @param {Euler} euler - The Euler angles. + * @return {Vector3} A reference to this vector. + */ + applyEuler( euler ) { + + return this.applyQuaternion( _quaternion$4.setFromEuler( euler ) ); + + } + + /** + * Applies a rotation specified by an axis and an angle to this vector. + * + * @param {Vector3} axis - A normalized vector representing the rotation axis. + * @param {number} angle - The angle in radians. + * @return {Vector3} A reference to this vector. + */ + applyAxisAngle( axis, angle ) { + + return this.applyQuaternion( _quaternion$4.setFromAxisAngle( axis, angle ) ); + + } + + /** + * Multiplies this vector with the given 3x3 matrix. + * + * @param {Matrix3} m - The 3x3 matrix. + * @return {Vector3} A reference to this vector. + */ + applyMatrix3( m ) { + + const x = this.x, y = this.y, z = this.z; + const e = m.elements; + + this.x = e[ 0 ] * x + e[ 3 ] * y + e[ 6 ] * z; + this.y = e[ 1 ] * x + e[ 4 ] * y + e[ 7 ] * z; + this.z = e[ 2 ] * x + e[ 5 ] * y + e[ 8 ] * z; + + return this; + + } + + /** + * Multiplies this vector by the given normal matrix and normalizes + * the result. + * + * @param {Matrix3} m - The normal matrix. + * @return {Vector3} A reference to this vector. + */ + applyNormalMatrix( m ) { + + return this.applyMatrix3( m ).normalize(); + + } + + /** + * Multiplies this vector (with an implicit 1 in the 4th dimension) by m, and + * divides by perspective. + * + * @param {Matrix4} m - The matrix to apply. + * @return {Vector3} A reference to this vector. + */ + applyMatrix4( m ) { + + const x = this.x, y = this.y, z = this.z; + const e = m.elements; + + const w = 1 / ( e[ 3 ] * x + e[ 7 ] * y + e[ 11 ] * z + e[ 15 ] ); + + this.x = ( e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z + e[ 12 ] ) * w; + this.y = ( e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z + e[ 13 ] ) * w; + this.z = ( e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z + e[ 14 ] ) * w; + + return this; + + } + + /** + * Applies the given Quaternion to this vector. + * + * @param {Quaternion} q - The Quaternion. + * @return {Vector3} A reference to this vector. + */ + applyQuaternion( q ) { + + // quaternion q is assumed to have unit length + + const vx = this.x, vy = this.y, vz = this.z; + const qx = q.x, qy = q.y, qz = q.z, qw = q.w; + + // t = 2 * cross( q.xyz, v ); + const tx = 2 * ( qy * vz - qz * vy ); + const ty = 2 * ( qz * vx - qx * vz ); + const tz = 2 * ( qx * vy - qy * vx ); + + // v + q.w * t + cross( q.xyz, t ); + this.x = vx + qw * tx + qy * tz - qz * ty; + this.y = vy + qw * ty + qz * tx - qx * tz; + this.z = vz + qw * tz + qx * ty - qy * tx; + + return this; + + } + + /** + * Projects this vector from world space into the camera's normalized + * device coordinate (NDC) space. + * + * @param {Camera} camera - The camera. + * @return {Vector3} A reference to this vector. + */ + project( camera ) { + + return this.applyMatrix4( camera.matrixWorldInverse ).applyMatrix4( camera.projectionMatrix ); + + } + + /** + * Unprojects this vector from the camera's normalized device coordinate (NDC) + * space into world space. + * + * @param {Camera} camera - The camera. + * @return {Vector3} A reference to this vector. + */ + unproject( camera ) { + + return this.applyMatrix4( camera.projectionMatrixInverse ).applyMatrix4( camera.matrixWorld ); + + } + + /** + * Transforms the direction of this vector by a matrix (the upper left 3 x 3 + * subset of the given 4x4 matrix and then normalizes the result. + * + * @param {Matrix4} m - The matrix. + * @return {Vector3} A reference to this vector. + */ + transformDirection( m ) { + + // input: THREE.Matrix4 affine matrix + // vector interpreted as a direction + + const x = this.x, y = this.y, z = this.z; + const e = m.elements; + + this.x = e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z; + this.y = e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z; + this.z = e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z; + + return this.normalize(); + + } + + /** + * Divides this instance by the given vector. + * + * @param {Vector3} v - The vector to divide. + * @return {Vector3} A reference to this vector. + */ + divide( v ) { + + this.x /= v.x; + this.y /= v.y; + this.z /= v.z; + + return this; + + } + + /** + * Divides this vector by the given scalar. + * + * @param {number} scalar - The scalar to divide. + * @return {Vector3} A reference to this vector. + */ + divideScalar( scalar ) { + + return this.multiplyScalar( 1 / scalar ); + + } + + /** + * If this vector's x, y or z value is greater than the given vector's x, y or z + * value, replace that value with the corresponding min value. + * + * @param {Vector3} v - The vector. + * @return {Vector3} A reference to this vector. + */ + min( v ) { + + this.x = Math.min( this.x, v.x ); + this.y = Math.min( this.y, v.y ); + this.z = Math.min( this.z, v.z ); + + return this; + + } + + /** + * If this vector's x, y or z value is less than the given vector's x, y or z + * value, replace that value with the corresponding max value. + * + * @param {Vector3} v - The vector. + * @return {Vector3} A reference to this vector. + */ + max( v ) { + + this.x = Math.max( this.x, v.x ); + this.y = Math.max( this.y, v.y ); + this.z = Math.max( this.z, v.z ); + + return this; + + } + + /** + * If this vector's x, y or z value is greater than the max vector's x, y or z + * value, it is replaced by the corresponding value. + * If this vector's x, y or z value is less than the min vector's x, y or z value, + * it is replaced by the corresponding value. + * + * @param {Vector3} min - The minimum x, y and z values. + * @param {Vector3} max - The maximum x, y and z values in the desired range. + * @return {Vector3} A reference to this vector. + */ + clamp( min, max ) { + + // assumes min < max, componentwise + + this.x = clamp$1( this.x, min.x, max.x ); + this.y = clamp$1( this.y, min.y, max.y ); + this.z = clamp$1( this.z, min.z, max.z ); + + return this; + + } + + /** + * If this vector's x, y or z values are greater than the max value, they are + * replaced by the max value. + * If this vector's x, y or z values are less than the min value, they are + * replaced by the min value. + * + * @param {number} minVal - The minimum value the components will be clamped to. + * @param {number} maxVal - The maximum value the components will be clamped to. + * @return {Vector3} A reference to this vector. + */ + clampScalar( minVal, maxVal ) { + + this.x = clamp$1( this.x, minVal, maxVal ); + this.y = clamp$1( this.y, minVal, maxVal ); + this.z = clamp$1( this.z, minVal, maxVal ); + + return this; + + } + + /** + * If this vector's length is greater than the max value, it is replaced by + * the max value. + * If this vector's length is less than the min value, it is replaced by the + * min value. + * + * @param {number} min - The minimum value the vector length will be clamped to. + * @param {number} max - The maximum value the vector length will be clamped to. + * @return {Vector3} A reference to this vector. + */ + clampLength( min, max ) { + + const length = this.length(); + + return this.divideScalar( length || 1 ).multiplyScalar( clamp$1( length, min, max ) ); + + } + + /** + * The components of this vector are rounded down to the nearest integer value. + * + * @return {Vector3} A reference to this vector. + */ + floor() { + + this.x = Math.floor( this.x ); + this.y = Math.floor( this.y ); + this.z = Math.floor( this.z ); + + return this; + + } + + /** + * The components of this vector are rounded up to the nearest integer value. + * + * @return {Vector3} A reference to this vector. + */ + ceil() { + + this.x = Math.ceil( this.x ); + this.y = Math.ceil( this.y ); + this.z = Math.ceil( this.z ); + + return this; + + } + + /** + * The components of this vector are rounded to the nearest integer value + * + * @return {Vector3} A reference to this vector. + */ + round() { + + this.x = Math.round( this.x ); + this.y = Math.round( this.y ); + this.z = Math.round( this.z ); + + return this; + + } + + /** + * The components of this vector are rounded towards zero (up if negative, + * down if positive) to an integer value. + * + * @return {Vector3} A reference to this vector. + */ + roundToZero() { + + this.x = Math.trunc( this.x ); + this.y = Math.trunc( this.y ); + this.z = Math.trunc( this.z ); + + return this; + + } + + /** + * Inverts this vector - i.e. sets x = -x, y = -y and z = -z. + * + * @return {Vector3} A reference to this vector. + */ + negate() { + + this.x = - this.x; + this.y = - this.y; + this.z = - this.z; + + return this; + + } + + /** + * Calculates the dot product of the given vector with this instance. + * + * @param {Vector3} v - The vector to compute the dot product with. + * @return {number} The result of the dot product. + */ + dot( v ) { + + return this.x * v.x + this.y * v.y + this.z * v.z; + + } + + // TODO lengthSquared? + + /** + * Computes the square of the Euclidean length (straight-line length) from + * (0, 0, 0) to (x, y, z). If you are comparing the lengths of vectors, you should + * compare the length squared instead as it is slightly more efficient to calculate. + * + * @return {number} The square length of this vector. + */ + lengthSq() { + + return this.x * this.x + this.y * this.y + this.z * this.z; + + } + + /** + * Computes the Euclidean length (straight-line length) from (0, 0, 0) to (x, y, z). + * + * @return {number} The length of this vector. + */ + length() { + + return Math.sqrt( this.x * this.x + this.y * this.y + this.z * this.z ); + + } + + /** + * Computes the Manhattan length of this vector. + * + * @return {number} The length of this vector. + */ + manhattanLength() { + + return Math.abs( this.x ) + Math.abs( this.y ) + Math.abs( this.z ); + + } + + /** + * Converts this vector to a unit vector - that is, sets it equal to a vector + * with the same direction as this one, but with a vector length of `1`. + * + * @return {Vector3} A reference to this vector. + */ + normalize() { + + return this.divideScalar( this.length() || 1 ); + + } + + /** + * Sets this vector to a vector with the same direction as this one, but + * with the specified length. + * + * @param {number} length - The new length of this vector. + * @return {Vector3} A reference to this vector. + */ + setLength( length ) { + + return this.normalize().multiplyScalar( length ); + + } + + /** + * Linearly interpolates between the given vector and this instance, where + * alpha is the percent distance along the line - alpha = 0 will be this + * vector, and alpha = 1 will be the given one. + * + * @param {Vector3} v - The vector to interpolate towards. + * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`. + * @return {Vector3} A reference to this vector. + */ + lerp( v, alpha ) { + + this.x += ( v.x - this.x ) * alpha; + this.y += ( v.y - this.y ) * alpha; + this.z += ( v.z - this.z ) * alpha; + + return this; + + } + + /** + * Linearly interpolates between the given vectors, where alpha is the percent + * distance along the line - alpha = 0 will be first vector, and alpha = 1 will + * be the second one. The result is stored in this instance. + * + * @param {Vector3} v1 - The first vector. + * @param {Vector3} v2 - The second vector. + * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`. + * @return {Vector3} A reference to this vector. + */ + lerpVectors( v1, v2, alpha ) { + + this.x = v1.x + ( v2.x - v1.x ) * alpha; + this.y = v1.y + ( v2.y - v1.y ) * alpha; + this.z = v1.z + ( v2.z - v1.z ) * alpha; + + return this; + + } + + /** + * Calculates the cross product of the given vector with this instance. + * + * @param {Vector3} v - The vector to compute the cross product with. + * @return {Vector3} The result of the cross product. + */ + cross( v ) { + + return this.crossVectors( this, v ); + + } + + /** + * Calculates the cross product of the given vectors and stores the result + * in this instance. + * + * @param {Vector3} a - The first vector. + * @param {Vector3} b - The second vector. + * @return {Vector3} A reference to this vector. + */ + crossVectors( a, b ) { + + const ax = a.x, ay = a.y, az = a.z; + const bx = b.x, by = b.y, bz = b.z; + + this.x = ay * bz - az * by; + this.y = az * bx - ax * bz; + this.z = ax * by - ay * bx; + + return this; + + } + + /** + * Projects this vector onto the given one. + * + * @param {Vector3} v - The vector to project to. + * @return {Vector3} A reference to this vector. + */ + projectOnVector( v ) { + + const denominator = v.lengthSq(); + + if ( denominator === 0 ) return this.set( 0, 0, 0 ); + + const scalar = v.dot( this ) / denominator; + + return this.copy( v ).multiplyScalar( scalar ); + + } + + /** + * Projects this vector onto a plane by subtracting this + * vector projected onto the plane's normal from this vector. + * + * @param {Vector3} planeNormal - The plane normal. + * @return {Vector3} A reference to this vector. + */ + projectOnPlane( planeNormal ) { + + _vector$c.copy( this ).projectOnVector( planeNormal ); + + return this.sub( _vector$c ); + + } + + /** + * Reflects this vector off a plane orthogonal to the given normal vector. + * + * @param {Vector3} normal - The (normalized) normal vector. + * @return {Vector3} A reference to this vector. + */ + reflect( normal ) { + + return this.sub( _vector$c.copy( normal ).multiplyScalar( 2 * this.dot( normal ) ) ); + + } + /** + * Returns the angle between the given vector and this instance in radians. + * + * @param {Vector3} v - The vector to compute the angle with. + * @return {number} The angle in radians. + */ + angleTo( v ) { + + const denominator = Math.sqrt( this.lengthSq() * v.lengthSq() ); + + if ( denominator === 0 ) return Math.PI / 2; + + const theta = this.dot( v ) / denominator; + + // clamp, to handle numerical problems + + return Math.acos( clamp$1( theta, -1, 1 ) ); + + } + + /** + * Computes the distance from the given vector to this instance. + * + * @param {Vector3} v - The vector to compute the distance to. + * @return {number} The distance. + */ + distanceTo( v ) { + + return Math.sqrt( this.distanceToSquared( v ) ); + + } + + /** + * Computes the squared distance from the given vector to this instance. + * If you are just comparing the distance with another distance, you should compare + * the distance squared instead as it is slightly more efficient to calculate. + * + * @param {Vector3} v - The vector to compute the squared distance to. + * @return {number} The squared distance. + */ + distanceToSquared( v ) { + + const dx = this.x - v.x, dy = this.y - v.y, dz = this.z - v.z; + + return dx * dx + dy * dy + dz * dz; + + } + + /** + * Computes the Manhattan distance from the given vector to this instance. + * + * @param {Vector3} v - The vector to compute the Manhattan distance to. + * @return {number} The Manhattan distance. + */ + manhattanDistanceTo( v ) { + + return Math.abs( this.x - v.x ) + Math.abs( this.y - v.y ) + Math.abs( this.z - v.z ); + + } + + /** + * Sets the vector components from the given spherical coordinates. + * + * @param {Spherical} s - The spherical coordinates. + * @return {Vector3} A reference to this vector. + */ + setFromSpherical( s ) { + + return this.setFromSphericalCoords( s.radius, s.phi, s.theta ); + + } + + /** + * Sets the vector components from the given spherical coordinates. + * + * @param {number} radius - The radius. + * @param {number} phi - The phi angle in radians. + * @param {number} theta - The theta angle in radians. + * @return {Vector3} A reference to this vector. + */ + setFromSphericalCoords( radius, phi, theta ) { + + const sinPhiRadius = Math.sin( phi ) * radius; + + this.x = sinPhiRadius * Math.sin( theta ); + this.y = Math.cos( phi ) * radius; + this.z = sinPhiRadius * Math.cos( theta ); + + return this; + + } + + /** + * Sets the vector components from the given cylindrical coordinates. + * + * @param {Cylindrical} c - The cylindrical coordinates. + * @return {Vector3} A reference to this vector. + */ + setFromCylindrical( c ) { + + return this.setFromCylindricalCoords( c.radius, c.theta, c.y ); + + } + + /** + * Sets the vector components from the given cylindrical coordinates. + * + * @param {number} radius - The radius. + * @param {number} theta - The theta angle in radians. + * @param {number} y - The y value. + * @return {Vector3} A reference to this vector. + */ + setFromCylindricalCoords( radius, theta, y ) { + + this.x = radius * Math.sin( theta ); + this.y = y; + this.z = radius * Math.cos( theta ); + + return this; + + } + + /** + * Sets the vector components to the position elements of the + * given transformation matrix. + * + * @param {Matrix4} m - The 4x4 matrix. + * @return {Vector3} A reference to this vector. + */ + setFromMatrixPosition( m ) { + + const e = m.elements; + + this.x = e[ 12 ]; + this.y = e[ 13 ]; + this.z = e[ 14 ]; + + return this; + + } + + /** + * Sets the vector components to the scale elements of the + * given transformation matrix. + * + * @param {Matrix4} m - The 4x4 matrix. + * @return {Vector3} A reference to this vector. + */ + setFromMatrixScale( m ) { + + const sx = this.setFromMatrixColumn( m, 0 ).length(); + const sy = this.setFromMatrixColumn( m, 1 ).length(); + const sz = this.setFromMatrixColumn( m, 2 ).length(); + + this.x = sx; + this.y = sy; + this.z = sz; + + return this; + + } + + /** + * Sets the vector components from the specified matrix column. + * + * @param {Matrix4} m - The 4x4 matrix. + * @param {number} index - The column index. + * @return {Vector3} A reference to this vector. + */ + setFromMatrixColumn( m, index ) { + + return this.fromArray( m.elements, index * 4 ); + + } + + /** + * Sets the vector components from the specified matrix column. + * + * @param {Matrix3} m - The 3x3 matrix. + * @param {number} index - The column index. + * @return {Vector3} A reference to this vector. + */ + setFromMatrix3Column( m, index ) { + + return this.fromArray( m.elements, index * 3 ); + + } + + /** + * Sets the vector components from the given Euler angles. + * + * @param {Euler} e - The Euler angles to set. + * @return {Vector3} A reference to this vector. + */ + setFromEuler( e ) { + + this.x = e._x; + this.y = e._y; + this.z = e._z; + + return this; + + } + + /** + * Sets the vector components from the RGB components of the + * given color. + * + * @param {Color} c - The color to set. + * @return {Vector3} A reference to this vector. + */ + setFromColor( c ) { + + this.x = c.r; + this.y = c.g; + this.z = c.b; + + return this; + + } + + /** + * Returns `true` if this vector is equal with the given one. + * + * @param {Vector3} v - The vector to test for equality. + * @return {boolean} Whether this vector is equal with the given one. + */ + equals( v ) { + + return ( ( v.x === this.x ) && ( v.y === this.y ) && ( v.z === this.z ) ); + + } + + /** + * Sets this vector's x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]` + * and z value to be `array[ offset + 2 ]`. + * + * @param {Array} array - An array holding the vector component values. + * @param {number} [offset=0] - The offset into the array. + * @return {Vector3} A reference to this vector. + */ + fromArray( array, offset = 0 ) { + + this.x = array[ offset ]; + this.y = array[ offset + 1 ]; + this.z = array[ offset + 2 ]; + + return this; + + } + + /** + * Writes the components of this vector to the given array. If no array is provided, + * the method returns a new instance. + * + * @param {Array} [array=[]] - The target array holding the vector components. + * @param {number} [offset=0] - Index of the first element in the array. + * @return {Array} The vector components. + */ + toArray( array = [], offset = 0 ) { + + array[ offset ] = this.x; + array[ offset + 1 ] = this.y; + array[ offset + 2 ] = this.z; + + return array; + + } + + /** + * Sets the components of this vector from the given buffer attribute. + * + * @param {BufferAttribute} attribute - The buffer attribute holding vector data. + * @param {number} index - The index into the attribute. + * @return {Vector3} A reference to this vector. + */ + fromBufferAttribute( attribute, index ) { + + this.x = attribute.getX( index ); + this.y = attribute.getY( index ); + this.z = attribute.getZ( index ); + + return this; + + } + + /** + * Sets each component of this vector to a pseudo-random value between `0` and + * `1`, excluding `1`. + * + * @return {Vector3} A reference to this vector. + */ + random() { + + this.x = Math.random(); + this.y = Math.random(); + this.z = Math.random(); + + return this; + + } + + /** + * Sets this vector to a uniformly random point on a unit sphere. + * + * @return {Vector3} A reference to this vector. + */ + randomDirection() { + + // https://mathworld.wolfram.com/SpherePointPicking.html + + const theta = Math.random() * Math.PI * 2; + const u = Math.random() * 2 - 1; + const c = Math.sqrt( 1 - u * u ); + + this.x = c * Math.cos( theta ); + this.y = u; + this.z = c * Math.sin( theta ); + + return this; + + } + + *[ Symbol.iterator ]() { + + yield this.x; + yield this.y; + yield this.z; + + } + +} + +const _vector$c = /*@__PURE__*/ new Vector3(); +const _quaternion$4 = /*@__PURE__*/ new Quaternion(); + +/** + * Represents an axis-aligned bounding box (AABB) in 3D space. + */ +class Box3 { + + /** + * Constructs a new bounding box. + * + * @param {Vector3} [min=(Infinity,Infinity,Infinity)] - A vector representing the lower boundary of the box. + * @param {Vector3} [max=(-Infinity,-Infinity,-Infinity)] - A vector representing the upper boundary of the box. + */ + constructor( min = new Vector3( + Infinity, + Infinity, + Infinity ), max = new Vector3( - Infinity, - Infinity, - Infinity ) ) { + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isBox3 = true; + + /** + * The lower boundary of the box. + * + * @type {Vector3} + */ + this.min = min; + + /** + * The upper boundary of the box. + * + * @type {Vector3} + */ + this.max = max; + + } + + /** + * Sets the lower and upper boundaries of this box. + * Please note that this method only copies the values from the given objects. + * + * @param {Vector3} min - The lower boundary of the box. + * @param {Vector3} max - The upper boundary of the box. + * @return {Box3} A reference to this bounding box. + */ + set( min, max ) { + + this.min.copy( min ); + this.max.copy( max ); + + return this; + + } + + /** + * Sets the upper and lower bounds of this box so it encloses the position data + * in the given array. + * + * @param {Array} array - An array holding 3D position data. + * @return {Box3} A reference to this bounding box. + */ + setFromArray( array ) { + + this.makeEmpty(); + + for ( let i = 0, il = array.length; i < il; i += 3 ) { + + this.expandByPoint( _vector$b.fromArray( array, i ) ); + + } + + return this; + + } + + /** + * Sets the upper and lower bounds of this box so it encloses the position data + * in the given buffer attribute. + * + * @param {BufferAttribute} attribute - A buffer attribute holding 3D position data. + * @return {Box3} A reference to this bounding box. + */ + setFromBufferAttribute( attribute ) { + + this.makeEmpty(); + + for ( let i = 0, il = attribute.count; i < il; i ++ ) { + + this.expandByPoint( _vector$b.fromBufferAttribute( attribute, i ) ); + + } + + return this; + + } + + /** + * Sets the upper and lower bounds of this box so it encloses the position data + * in the given array. + * + * @param {Array} points - An array holding 3D position data as instances of {@link Vector3}. + * @return {Box3} A reference to this bounding box. + */ + setFromPoints( points ) { + + this.makeEmpty(); + + for ( let i = 0, il = points.length; i < il; i ++ ) { + + this.expandByPoint( points[ i ] ); + + } + + return this; + + } + + /** + * Centers this box on the given center vector and sets this box's width, height and + * depth to the given size values. + * + * @param {Vector3} center - The center of the box. + * @param {Vector3} size - The x, y and z dimensions of the box. + * @return {Box3} A reference to this bounding box. + */ + setFromCenterAndSize( center, size ) { + + const halfSize = _vector$b.copy( size ).multiplyScalar( 0.5 ); + + this.min.copy( center ).sub( halfSize ); + this.max.copy( center ).add( halfSize ); + + return this; + + } + + /** + * Computes the world-axis-aligned bounding box for the given 3D object + * (including its children), accounting for the object's, and children's, + * world transforms. The function may result in a larger box than strictly necessary. + * + * @param {Object3D} object - The 3D object to compute the bounding box for. + * @param {boolean} [precise=false] - If set to `true`, the method computes the smallest + * world-axis-aligned bounding box at the expense of more computation. + * @return {Box3} A reference to this bounding box. + */ + setFromObject( object, precise = false ) { + + this.makeEmpty(); + + return this.expandByObject( object, precise ); + + } + + /** + * Returns a new box with copied values from this instance. + * + * @return {Box3} A clone of this instance. + */ + clone() { + + return new this.constructor().copy( this ); + + } + + /** + * Copies the values of the given box to this instance. + * + * @param {Box3} box - The box to copy. + * @return {Box3} A reference to this bounding box. + */ + copy( box ) { + + this.min.copy( box.min ); + this.max.copy( box.max ); + + return this; + + } + + /** + * Makes this box empty which means in encloses a zero space in 3D. + * + * @return {Box3} A reference to this bounding box. + */ + makeEmpty() { + + this.min.x = this.min.y = this.min.z = + Infinity; + this.max.x = this.max.y = this.max.z = - Infinity; + + return this; + + } + + /** + * Returns true if this box includes zero points within its bounds. + * Note that a box with equal lower and upper bounds still includes one + * point, the one both bounds share. + * + * @return {boolean} Whether this box is empty or not. + */ + isEmpty() { + + // this is a more robust check for empty than ( volume <= 0 ) because volume can get positive with two negative axes + + return ( this.max.x < this.min.x ) || ( this.max.y < this.min.y ) || ( this.max.z < this.min.z ); + + } + + /** + * Returns the center point of this box. + * + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The center point. + */ + getCenter( target ) { + + return this.isEmpty() ? target.set( 0, 0, 0 ) : target.addVectors( this.min, this.max ).multiplyScalar( 0.5 ); + + } + + /** + * Returns the dimensions of this box. + * + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The size. + */ + getSize( target ) { + + return this.isEmpty() ? target.set( 0, 0, 0 ) : target.subVectors( this.max, this.min ); + + } + + /** + * Expands the boundaries of this box to include the given point. + * + * @param {Vector3} point - The point that should be included by the bounding box. + * @return {Box3} A reference to this bounding box. + */ + expandByPoint( point ) { + + this.min.min( point ); + this.max.max( point ); + + return this; + + } + + /** + * Expands this box equilaterally by the given vector. The width of this + * box will be expanded by the x component of the vector in both + * directions. The height of this box will be expanded by the y component of + * the vector in both directions. The depth of this box will be + * expanded by the z component of the vector in both directions. + * + * @param {Vector3} vector - The vector that should expand the bounding box. + * @return {Box3} A reference to this bounding box. + */ + expandByVector( vector ) { + + this.min.sub( vector ); + this.max.add( vector ); + + return this; + + } + + /** + * Expands each dimension of the box by the given scalar. If negative, the + * dimensions of the box will be contracted. + * + * @param {number} scalar - The scalar value that should expand the bounding box. + * @return {Box3} A reference to this bounding box. + */ + expandByScalar( scalar ) { + + this.min.addScalar( - scalar ); + this.max.addScalar( scalar ); + + return this; + + } + + /** + * Expands the boundaries of this box to include the given 3D object and + * its children, accounting for the object's, and children's, world + * transforms. The function may result in a larger box than strictly + * necessary (unless the precise parameter is set to true). + * + * @param {Object3D} object - The 3D object that should expand the bounding box. + * @param {boolean} precise - If set to `true`, the method expands the bounding box + * as little as necessary at the expense of more computation. + * @return {Box3} A reference to this bounding box. + */ + expandByObject( object, precise = false ) { + + // Computes the world-axis-aligned bounding box of an object (including its children), + // accounting for both the object's, and children's, world transforms + + object.updateWorldMatrix( false, false ); + + const geometry = object.geometry; + + if ( geometry !== undefined ) { + + const positionAttribute = geometry.getAttribute( 'position' ); + + // precise AABB computation based on vertex data requires at least a position attribute. + // instancing isn't supported so far and uses the normal (conservative) code path. + + if ( precise === true && positionAttribute !== undefined && object.isInstancedMesh !== true ) { + + for ( let i = 0, l = positionAttribute.count; i < l; i ++ ) { + + if ( object.isMesh === true ) { + + object.getVertexPosition( i, _vector$b ); + + } else { + + _vector$b.fromBufferAttribute( positionAttribute, i ); + + } + + _vector$b.applyMatrix4( object.matrixWorld ); + this.expandByPoint( _vector$b ); + + } + + } else { + + if ( object.boundingBox !== undefined ) { + + // object-level bounding box + + if ( object.boundingBox === null ) { + + object.computeBoundingBox(); + + } + + _box$4.copy( object.boundingBox ); + + + } else { + + // geometry-level bounding box + + if ( geometry.boundingBox === null ) { + + geometry.computeBoundingBox(); + + } + + _box$4.copy( geometry.boundingBox ); + + } + + _box$4.applyMatrix4( object.matrixWorld ); + + this.union( _box$4 ); + + } + + } + + const children = object.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + this.expandByObject( children[ i ], precise ); + + } + + return this; + + } + + /** + * Returns `true` if the given point lies within or on the boundaries of this box. + * + * @param {Vector3} point - The point to test. + * @return {boolean} Whether the bounding box contains the given point or not. + */ + containsPoint( point ) { + + return point.x >= this.min.x && point.x <= this.max.x && + point.y >= this.min.y && point.y <= this.max.y && + point.z >= this.min.z && point.z <= this.max.z; + + } + + /** + * Returns `true` if this bounding box includes the entirety of the given bounding box. + * If this box and the given one are identical, this function also returns `true`. + * + * @param {Box3} box - The bounding box to test. + * @return {boolean} Whether the bounding box contains the given bounding box or not. + */ + containsBox( box ) { + + return this.min.x <= box.min.x && box.max.x <= this.max.x && + this.min.y <= box.min.y && box.max.y <= this.max.y && + this.min.z <= box.min.z && box.max.z <= this.max.z; + + } + + /** + * Returns a point as a proportion of this box's width, height and depth. + * + * @param {Vector3} point - A point in 3D space. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} A point as a proportion of this box's width, height and depth. + */ + getParameter( point, target ) { + + // This can potentially have a divide by zero if the box + // has a size dimension of 0. + + return target.set( + ( point.x - this.min.x ) / ( this.max.x - this.min.x ), + ( point.y - this.min.y ) / ( this.max.y - this.min.y ), + ( point.z - this.min.z ) / ( this.max.z - this.min.z ) + ); + + } + + /** + * Returns `true` if the given bounding box intersects with this bounding box. + * + * @param {Box3} box - The bounding box to test. + * @return {boolean} Whether the given bounding box intersects with this bounding box. + */ + intersectsBox( box ) { + + // using 6 splitting planes to rule out intersections. + return box.max.x >= this.min.x && box.min.x <= this.max.x && + box.max.y >= this.min.y && box.min.y <= this.max.y && + box.max.z >= this.min.z && box.min.z <= this.max.z; + + } + + /** + * Returns `true` if the given bounding sphere intersects with this bounding box. + * + * @param {Sphere} sphere - The bounding sphere to test. + * @return {boolean} Whether the given bounding sphere intersects with this bounding box. + */ + intersectsSphere( sphere ) { + + // Find the point on the AABB closest to the sphere center. + this.clampPoint( sphere.center, _vector$b ); + + // If that point is inside the sphere, the AABB and sphere intersect. + return _vector$b.distanceToSquared( sphere.center ) <= ( sphere.radius * sphere.radius ); + + } + + /** + * Returns `true` if the given plane intersects with this bounding box. + * + * @param {Plane} plane - The plane to test. + * @return {boolean} Whether the given plane intersects with this bounding box. + */ + intersectsPlane( plane ) { + + // We compute the minimum and maximum dot product values. If those values + // are on the same side (back or front) of the plane, then there is no intersection. + + let min, max; + + if ( plane.normal.x > 0 ) { + + min = plane.normal.x * this.min.x; + max = plane.normal.x * this.max.x; + + } else { + + min = plane.normal.x * this.max.x; + max = plane.normal.x * this.min.x; + + } + + if ( plane.normal.y > 0 ) { + + min += plane.normal.y * this.min.y; + max += plane.normal.y * this.max.y; + + } else { + + min += plane.normal.y * this.max.y; + max += plane.normal.y * this.min.y; + + } + + if ( plane.normal.z > 0 ) { + + min += plane.normal.z * this.min.z; + max += plane.normal.z * this.max.z; + + } else { + + min += plane.normal.z * this.max.z; + max += plane.normal.z * this.min.z; + + } + + return ( min <= - plane.constant && max >= - plane.constant ); + + } + + /** + * Returns `true` if the given triangle intersects with this bounding box. + * + * @param {Triangle} triangle - The triangle to test. + * @return {boolean} Whether the given triangle intersects with this bounding box. + */ + intersectsTriangle( triangle ) { + + if ( this.isEmpty() ) { + + return false; + + } + + // compute box center and extents + this.getCenter( _center ); + _extents.subVectors( this.max, _center ); + + // translate triangle to aabb origin + _v0$2.subVectors( triangle.a, _center ); + _v1$7.subVectors( triangle.b, _center ); + _v2$4.subVectors( triangle.c, _center ); + + // compute edge vectors for triangle + _f0.subVectors( _v1$7, _v0$2 ); + _f1.subVectors( _v2$4, _v1$7 ); + _f2.subVectors( _v0$2, _v2$4 ); + + // test against axes that are given by cross product combinations of the edges of the triangle and the edges of the aabb + // make an axis testing of each of the 3 sides of the aabb against each of the 3 sides of the triangle = 9 axis of separation + // axis_ij = u_i x f_j (u0, u1, u2 = face normals of aabb = x,y,z axes vectors since aabb is axis aligned) + let axes = [ + 0, - _f0.z, _f0.y, 0, - _f1.z, _f1.y, 0, - _f2.z, _f2.y, + _f0.z, 0, - _f0.x, _f1.z, 0, - _f1.x, _f2.z, 0, - _f2.x, + - _f0.y, _f0.x, 0, - _f1.y, _f1.x, 0, - _f2.y, _f2.x, 0 + ]; + if ( ! satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ) ) { + + return false; + + } + + // test 3 face normals from the aabb + axes = [ 1, 0, 0, 0, 1, 0, 0, 0, 1 ]; + if ( ! satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ) ) { + + return false; + + } + + // finally testing the face normal of the triangle + // use already existing triangle edge vectors here + _triangleNormal.crossVectors( _f0, _f1 ); + axes = [ _triangleNormal.x, _triangleNormal.y, _triangleNormal.z ]; + + return satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ); + + } + + /** + * Clamps the given point within the bounds of this box. + * + * @param {Vector3} point - The point to clamp. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The clamped point. + */ + clampPoint( point, target ) { + + return target.copy( point ).clamp( this.min, this.max ); + + } + + /** + * Returns the euclidean distance from any edge of this box to the specified point. If + * the given point lies inside of this box, the distance will be `0`. + * + * @param {Vector3} point - The point to compute the distance to. + * @return {number} The euclidean distance. + */ + distanceToPoint( point ) { + + return this.clampPoint( point, _vector$b ).distanceTo( point ); + + } + + /** + * Returns a bounding sphere that encloses this bounding box. + * + * @param {Sphere} target - The target sphere that is used to store the method's result. + * @return {Sphere} The bounding sphere that encloses this bounding box. + */ + getBoundingSphere( target ) { + + if ( this.isEmpty() ) { + + target.makeEmpty(); + + } else { + + this.getCenter( target.center ); + + target.radius = this.getSize( _vector$b ).length() * 0.5; + + } + + return target; + + } + + /** + * Computes the intersection of this bounding box and the given one, setting the upper + * bound of this box to the lesser of the two boxes' upper bounds and the + * lower bound of this box to the greater of the two boxes' lower bounds. If + * there's no overlap, makes this box empty. + * + * @param {Box3} box - The bounding box to intersect with. + * @return {Box3} A reference to this bounding box. + */ + intersect( box ) { + + this.min.max( box.min ); + this.max.min( box.max ); + + // ensure that if there is no overlap, the result is fully empty, not slightly empty with non-inf/+inf values that will cause subsequence intersects to erroneously return valid values. + if ( this.isEmpty() ) this.makeEmpty(); + + return this; + + } + + /** + * Computes the union of this box and another and the given one, setting the upper + * bound of this box to the greater of the two boxes' upper bounds and the + * lower bound of this box to the lesser of the two boxes' lower bounds. + * + * @param {Box3} box - The bounding box that will be unioned with this instance. + * @return {Box3} A reference to this bounding box. + */ + union( box ) { + + this.min.min( box.min ); + this.max.max( box.max ); + + return this; + + } + + /** + * Transforms this bounding box by the given 4x4 transformation matrix. + * + * @param {Matrix4} matrix - The transformation matrix. + * @return {Box3} A reference to this bounding box. + */ + applyMatrix4( matrix ) { + + // transform of empty box is an empty box. + if ( this.isEmpty() ) return this; + + // NOTE: I am using a binary pattern to specify all 2^3 combinations below + _points[ 0 ].set( this.min.x, this.min.y, this.min.z ).applyMatrix4( matrix ); // 000 + _points[ 1 ].set( this.min.x, this.min.y, this.max.z ).applyMatrix4( matrix ); // 001 + _points[ 2 ].set( this.min.x, this.max.y, this.min.z ).applyMatrix4( matrix ); // 010 + _points[ 3 ].set( this.min.x, this.max.y, this.max.z ).applyMatrix4( matrix ); // 011 + _points[ 4 ].set( this.max.x, this.min.y, this.min.z ).applyMatrix4( matrix ); // 100 + _points[ 5 ].set( this.max.x, this.min.y, this.max.z ).applyMatrix4( matrix ); // 101 + _points[ 6 ].set( this.max.x, this.max.y, this.min.z ).applyMatrix4( matrix ); // 110 + _points[ 7 ].set( this.max.x, this.max.y, this.max.z ).applyMatrix4( matrix ); // 111 + + this.setFromPoints( _points ); + + return this; + + } + + /** + * Adds the given offset to both the upper and lower bounds of this bounding box, + * effectively moving it in 3D space. + * + * @param {Vector3} offset - The offset that should be used to translate the bounding box. + * @return {Box3} A reference to this bounding box. + */ + translate( offset ) { + + this.min.add( offset ); + this.max.add( offset ); + + return this; + + } + + /** + * Returns `true` if this bounding box is equal with the given one. + * + * @param {Box3} box - The box to test for equality. + * @return {boolean} Whether this bounding box is equal with the given one. + */ + equals( box ) { + + return box.min.equals( this.min ) && box.max.equals( this.max ); + + } + +} + +const _points = [ + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3() +]; + +const _vector$b = /*@__PURE__*/ new Vector3(); + +const _box$4 = /*@__PURE__*/ new Box3(); + +// triangle centered vertices + +const _v0$2 = /*@__PURE__*/ new Vector3(); +const _v1$7 = /*@__PURE__*/ new Vector3(); +const _v2$4 = /*@__PURE__*/ new Vector3(); + +// triangle edge vectors + +const _f0 = /*@__PURE__*/ new Vector3(); +const _f1 = /*@__PURE__*/ new Vector3(); +const _f2 = /*@__PURE__*/ new Vector3(); + +const _center = /*@__PURE__*/ new Vector3(); +const _extents = /*@__PURE__*/ new Vector3(); +const _triangleNormal = /*@__PURE__*/ new Vector3(); +const _testAxis = /*@__PURE__*/ new Vector3(); + +function satForAxes( axes, v0, v1, v2, extents ) { + + for ( let i = 0, j = axes.length - 3; i <= j; i += 3 ) { + + _testAxis.fromArray( axes, i ); + // project the aabb onto the separating axis + const r = extents.x * Math.abs( _testAxis.x ) + extents.y * Math.abs( _testAxis.y ) + extents.z * Math.abs( _testAxis.z ); + // project all 3 vertices of the triangle onto the separating axis + const p0 = v0.dot( _testAxis ); + const p1 = v1.dot( _testAxis ); + const p2 = v2.dot( _testAxis ); + // actual test, basically see if either of the most extreme of the triangle points intersects r + if ( Math.max( - Math.max( p0, p1, p2 ), Math.min( p0, p1, p2 ) ) > r ) { + + // points of the projected triangle are outside the projected half-length of the aabb + // the axis is separating and we can exit + return false; + + } + + } + + return true; + +} + +const _box$3 = /*@__PURE__*/ new Box3(); +const _v1$6 = /*@__PURE__*/ new Vector3(); +const _v2$3 = /*@__PURE__*/ new Vector3(); + +/** + * An analytical 3D sphere defined by a center and radius. This class is mainly + * used as a Bounding Sphere for 3D objects. + */ +class Sphere { + + /** + * Constructs a new sphere. + * + * @param {Vector3} [center=(0,0,0)] - The center of the sphere + * @param {number} [radius=-1] - The radius of the sphere. + */ + constructor( center = new Vector3(), radius = -1 ) { + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isSphere = true; + + /** + * The center of the sphere + * + * @type {Vector3} + */ + this.center = center; + + /** + * The radius of the sphere. + * + * @type {number} + */ + this.radius = radius; + + } + + /** + * Sets the sphere's components by copying the given values. + * + * @param {Vector3} center - The center. + * @param {number} radius - The radius. + * @return {Sphere} A reference to this sphere. + */ + set( center, radius ) { + + this.center.copy( center ); + this.radius = radius; + + return this; + + } + + /** + * Computes the minimum bounding sphere for list of points. + * If the optional center point is given, it is used as the sphere's + * center. Otherwise, the center of the axis-aligned bounding box + * encompassing the points is calculated. + * + * @param {Array} points - A list of points in 3D space. + * @param {Vector3} [optionalCenter] - The center of the sphere. + * @return {Sphere} A reference to this sphere. + */ + setFromPoints( points, optionalCenter ) { + + const center = this.center; + + if ( optionalCenter !== undefined ) { + + center.copy( optionalCenter ); + + } else { + + _box$3.setFromPoints( points ).getCenter( center ); + + } + + let maxRadiusSq = 0; + + for ( let i = 0, il = points.length; i < il; i ++ ) { + + maxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( points[ i ] ) ); + + } + + this.radius = Math.sqrt( maxRadiusSq ); + + return this; + + } + + /** + * Copies the values of the given sphere to this instance. + * + * @param {Sphere} sphere - The sphere to copy. + * @return {Sphere} A reference to this sphere. + */ + copy( sphere ) { + + this.center.copy( sphere.center ); + this.radius = sphere.radius; + + return this; + + } + + /** + * Returns `true` if the sphere is empty (the radius set to a negative number). + * + * Spheres with a radius of `0` contain only their center point and are not + * considered to be empty. + * + * @return {boolean} Whether this sphere is empty or not. + */ + isEmpty() { + + return ( this.radius < 0 ); + + } + + /** + * Makes this sphere empty which means in encloses a zero space in 3D. + * + * @return {Sphere} A reference to this sphere. + */ + makeEmpty() { + + this.center.set( 0, 0, 0 ); + this.radius = -1; + + return this; + + } + + /** + * Returns `true` if this sphere contains the given point inclusive of + * the surface of the sphere. + * + * @param {Vector3} point - The point to check. + * @return {boolean} Whether this sphere contains the given point or not. + */ + containsPoint( point ) { + + return ( point.distanceToSquared( this.center ) <= ( this.radius * this.radius ) ); + + } + + /** + * Returns the closest distance from the boundary of the sphere to the + * given point. If the sphere contains the point, the distance will + * be negative. + * + * @param {Vector3} point - The point to compute the distance to. + * @return {number} The distance to the point. + */ + distanceToPoint( point ) { + + return ( point.distanceTo( this.center ) - this.radius ); + + } + + /** + * Returns `true` if this sphere intersects with the given one. + * + * @param {Sphere} sphere - The sphere to test. + * @return {boolean} Whether this sphere intersects with the given one or not. + */ + intersectsSphere( sphere ) { + + const radiusSum = this.radius + sphere.radius; + + return sphere.center.distanceToSquared( this.center ) <= ( radiusSum * radiusSum ); + + } + + /** + * Returns `true` if this sphere intersects with the given box. + * + * @param {Box3} box - The box to test. + * @return {boolean} Whether this sphere intersects with the given box or not. + */ + intersectsBox( box ) { + + return box.intersectsSphere( this ); + + } + + /** + * Returns `true` if this sphere intersects with the given plane. + * + * @param {Plane} plane - The plane to test. + * @return {boolean} Whether this sphere intersects with the given plane or not. + */ + intersectsPlane( plane ) { + + return Math.abs( plane.distanceToPoint( this.center ) ) <= this.radius; + + } + + /** + * Clamps a point within the sphere. If the point is outside the sphere, it + * will clamp it to the closest point on the edge of the sphere. Points + * already inside the sphere will not be affected. + * + * @param {Vector3} point - The plane to clamp. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The clamped point. + */ + clampPoint( point, target ) { + + const deltaLengthSq = this.center.distanceToSquared( point ); + + target.copy( point ); + + if ( deltaLengthSq > ( this.radius * this.radius ) ) { + + target.sub( this.center ).normalize(); + target.multiplyScalar( this.radius ).add( this.center ); + + } + + return target; + + } + + /** + * Returns a bounding box that encloses this sphere. + * + * @param {Box3} target - The target box that is used to store the method's result. + * @return {Box3} The bounding box that encloses this sphere. + */ + getBoundingBox( target ) { + + if ( this.isEmpty() ) { + + // Empty sphere produces empty bounding box + target.makeEmpty(); + return target; + + } + + target.set( this.center, this.center ); + target.expandByScalar( this.radius ); + + return target; + + } + + /** + * Transforms this sphere with the given 4x4 transformation matrix. + * + * @param {Matrix4} matrix - The transformation matrix. + * @return {Sphere} A reference to this sphere. + */ + applyMatrix4( matrix ) { + + this.center.applyMatrix4( matrix ); + this.radius = this.radius * matrix.getMaxScaleOnAxis(); + + return this; + + } + + /** + * Translates the sphere's center by the given offset. + * + * @param {Vector3} offset - The offset. + * @return {Sphere} A reference to this sphere. + */ + translate( offset ) { + + this.center.add( offset ); + + return this; + + } + + /** + * Expands the boundaries of this sphere to include the given point. + * + * @param {Vector3} point - The point to include. + * @return {Sphere} A reference to this sphere. + */ + expandByPoint( point ) { + + if ( this.isEmpty() ) { + + this.center.copy( point ); + + this.radius = 0; + + return this; + + } + + _v1$6.subVectors( point, this.center ); + + const lengthSq = _v1$6.lengthSq(); + + if ( lengthSq > ( this.radius * this.radius ) ) { + + // calculate the minimal sphere + + const length = Math.sqrt( lengthSq ); + + const delta = ( length - this.radius ) * 0.5; + + this.center.addScaledVector( _v1$6, delta / length ); + + this.radius += delta; + + } + + return this; + + } + + /** + * Expands this sphere to enclose both the original sphere and the given sphere. + * + * @param {Sphere} sphere - The sphere to include. + * @return {Sphere} A reference to this sphere. + */ + union( sphere ) { + + if ( sphere.isEmpty() ) { + + return this; + + } + + if ( this.isEmpty() ) { + + this.copy( sphere ); + + return this; + + } + + if ( this.center.equals( sphere.center ) === true ) { + + this.radius = Math.max( this.radius, sphere.radius ); + + } else { + + _v2$3.subVectors( sphere.center, this.center ).setLength( sphere.radius ); + + this.expandByPoint( _v1$6.copy( sphere.center ).add( _v2$3 ) ); + + this.expandByPoint( _v1$6.copy( sphere.center ).sub( _v2$3 ) ); + + } + + return this; + + } + + /** + * Returns `true` if this sphere is equal with the given one. + * + * @param {Sphere} sphere - The sphere to test for equality. + * @return {boolean} Whether this bounding sphere is equal with the given one. + */ + equals( sphere ) { + + return sphere.center.equals( this.center ) && ( sphere.radius === this.radius ); + + } + + /** + * Returns a new sphere with copied values from this instance. + * + * @return {Sphere} A clone of this instance. + */ + clone() { + + return new this.constructor().copy( this ); + + } + +} + +const _vector$a = /*@__PURE__*/ new Vector3(); +const _segCenter = /*@__PURE__*/ new Vector3(); +const _segDir = /*@__PURE__*/ new Vector3(); +const _diff = /*@__PURE__*/ new Vector3(); + +const _edge1 = /*@__PURE__*/ new Vector3(); +const _edge2 = /*@__PURE__*/ new Vector3(); +const _normal$1 = /*@__PURE__*/ new Vector3(); + +/** + * A ray that emits from an origin in a certain direction. The class is used by + * {@link Raycaster} to assist with raycasting. Raycasting is used for + * mouse picking (working out what objects in the 3D space the mouse is over) + * amongst other things. + */ +class Ray { + + /** + * Constructs a new ray. + * + * @param {Vector3} [origin=(0,0,0)] - The origin of the ray. + * @param {Vector3} [direction=(0,0,-1)] - The (normalized) direction of the ray. + */ + constructor( origin = new Vector3(), direction = new Vector3( 0, 0, -1 ) ) { + + /** + * The origin of the ray. + * + * @type {Vector3} + */ + this.origin = origin; + + /** + * The (normalized) direction of the ray. + * + * @type {Vector3} + */ + this.direction = direction; + + } + + /** + * Sets the ray's components by copying the given values. + * + * @param {Vector3} origin - The origin. + * @param {Vector3} direction - The direction. + * @return {Ray} A reference to this ray. + */ + set( origin, direction ) { + + this.origin.copy( origin ); + this.direction.copy( direction ); + + return this; + + } + + /** + * Copies the values of the given ray to this instance. + * + * @param {Ray} ray - The ray to copy. + * @return {Ray} A reference to this ray. + */ + copy( ray ) { + + this.origin.copy( ray.origin ); + this.direction.copy( ray.direction ); + + return this; + + } + + /** + * Returns a vector that is located at a given distance along this ray. + * + * @param {number} t - The distance along the ray to retrieve a position for. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} A position on the ray. + */ + at( t, target ) { + + return target.copy( this.origin ).addScaledVector( this.direction, t ); + + } + + /** + * Adjusts the direction of the ray to point at the given vector in world space. + * + * @param {Vector3} v - The target position. + * @return {Ray} A reference to this ray. + */ + lookAt( v ) { + + this.direction.copy( v ).sub( this.origin ).normalize(); + + return this; + + } + + /** + * Shift the origin of this ray along its direction by the given distance. + * + * @param {number} t - The distance along the ray to interpolate. + * @return {Ray} A reference to this ray. + */ + recast( t ) { + + this.origin.copy( this.at( t, _vector$a ) ); + + return this; + + } + + /** + * Returns the point along this ray that is closest to the given point. + * + * @param {Vector3} point - A point in 3D space to get the closet location on the ray for. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The closest point on this ray. + */ + closestPointToPoint( point, target ) { + + target.subVectors( point, this.origin ); + + const directionDistance = target.dot( this.direction ); + + if ( directionDistance < 0 ) { + + return target.copy( this.origin ); + + } + + return target.copy( this.origin ).addScaledVector( this.direction, directionDistance ); + + } + + /** + * Returns the distance of the closest approach between this ray and the given point. + * + * @param {Vector3} point - A point in 3D space to compute the distance to. + * @return {number} The distance. + */ + distanceToPoint( point ) { + + return Math.sqrt( this.distanceSqToPoint( point ) ); + + } + + /** + * Returns the squared distance of the closest approach between this ray and the given point. + * + * @param {Vector3} point - A point in 3D space to compute the distance to. + * @return {number} The squared distance. + */ + distanceSqToPoint( point ) { + + const directionDistance = _vector$a.subVectors( point, this.origin ).dot( this.direction ); + + // point behind the ray + + if ( directionDistance < 0 ) { + + return this.origin.distanceToSquared( point ); + + } + + _vector$a.copy( this.origin ).addScaledVector( this.direction, directionDistance ); + + return _vector$a.distanceToSquared( point ); + + } + + /** + * Returns the squared distance between this ray and the given line segment. + * + * @param {Vector3} v0 - The start point of the line segment. + * @param {Vector3} v1 - The end point of the line segment. + * @param {Vector3} [optionalPointOnRay] - When provided, it receives the point on this ray that is closest to the segment. + * @param {Vector3} [optionalPointOnSegment] - When provided, it receives the point on the line segment that is closest to this ray. + * @return {number} The squared distance. + */ + distanceSqToSegment( v0, v1, optionalPointOnRay, optionalPointOnSegment ) { + + // from https://github.com/pmjoniak/GeometricTools/blob/master/GTEngine/Include/Mathematics/GteDistRaySegment.h + // It returns the min distance between the ray and the segment + // defined by v0 and v1 + // It can also set two optional targets : + // - The closest point on the ray + // - The closest point on the segment + + _segCenter.copy( v0 ).add( v1 ).multiplyScalar( 0.5 ); + _segDir.copy( v1 ).sub( v0 ).normalize(); + _diff.copy( this.origin ).sub( _segCenter ); + + const segExtent = v0.distanceTo( v1 ) * 0.5; + const a01 = - this.direction.dot( _segDir ); + const b0 = _diff.dot( this.direction ); + const b1 = - _diff.dot( _segDir ); + const c = _diff.lengthSq(); + const det = Math.abs( 1 - a01 * a01 ); + let s0, s1, sqrDist, extDet; + + if ( det > 0 ) { + + // The ray and segment are not parallel. + + s0 = a01 * b1 - b0; + s1 = a01 * b0 - b1; + extDet = segExtent * det; + + if ( s0 >= 0 ) { + + if ( s1 >= - extDet ) { + + if ( s1 <= extDet ) { + + // region 0 + // Minimum at interior points of ray and segment. + + const invDet = 1 / det; + s0 *= invDet; + s1 *= invDet; + sqrDist = s0 * ( s0 + a01 * s1 + 2 * b0 ) + s1 * ( a01 * s0 + s1 + 2 * b1 ) + c; + + } else { + + // region 1 + + s1 = segExtent; + s0 = Math.max( 0, - ( a01 * s1 + b0 ) ); + sqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c; + + } + + } else { + + // region 5 + + s1 = - segExtent; + s0 = Math.max( 0, - ( a01 * s1 + b0 ) ); + sqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c; + + } + + } else { + + if ( s1 <= - extDet ) { + + // region 4 + + s0 = Math.max( 0, - ( - a01 * segExtent + b0 ) ); + s1 = ( s0 > 0 ) ? - segExtent : Math.min( Math.max( - segExtent, - b1 ), segExtent ); + sqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c; + + } else if ( s1 <= extDet ) { + + // region 3 + + s0 = 0; + s1 = Math.min( Math.max( - segExtent, - b1 ), segExtent ); + sqrDist = s1 * ( s1 + 2 * b1 ) + c; + + } else { + + // region 2 + + s0 = Math.max( 0, - ( a01 * segExtent + b0 ) ); + s1 = ( s0 > 0 ) ? segExtent : Math.min( Math.max( - segExtent, - b1 ), segExtent ); + sqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c; + + } + + } + + } else { + + // Ray and segment are parallel. + + s1 = ( a01 > 0 ) ? - segExtent : segExtent; + s0 = Math.max( 0, - ( a01 * s1 + b0 ) ); + sqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c; + + } + + if ( optionalPointOnRay ) { + + optionalPointOnRay.copy( this.origin ).addScaledVector( this.direction, s0 ); + + } + + if ( optionalPointOnSegment ) { + + optionalPointOnSegment.copy( _segCenter ).addScaledVector( _segDir, s1 ); + + } + + return sqrDist; + + } + + /** + * Intersects this ray with the given sphere, returning the intersection + * point or `null` if there is no intersection. + * + * @param {Sphere} sphere - The sphere to intersect. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {?Vector3} The intersection point. + */ + intersectSphere( sphere, target ) { + + _vector$a.subVectors( sphere.center, this.origin ); + const tca = _vector$a.dot( this.direction ); + const d2 = _vector$a.dot( _vector$a ) - tca * tca; + const radius2 = sphere.radius * sphere.radius; + + if ( d2 > radius2 ) return null; + + const thc = Math.sqrt( radius2 - d2 ); + + // t0 = first intersect point - entrance on front of sphere + const t0 = tca - thc; + + // t1 = second intersect point - exit point on back of sphere + const t1 = tca + thc; + + // test to see if t1 is behind the ray - if so, return null + if ( t1 < 0 ) return null; + + // test to see if t0 is behind the ray: + // if it is, the ray is inside the sphere, so return the second exit point scaled by t1, + // in order to always return an intersect point that is in front of the ray. + if ( t0 < 0 ) return this.at( t1, target ); + + // else t0 is in front of the ray, so return the first collision point scaled by t0 + return this.at( t0, target ); + + } + + /** + * Returns `true` if this ray intersects with the given sphere. + * + * @param {Sphere} sphere - The sphere to intersect. + * @return {boolean} Whether this ray intersects with the given sphere or not. + */ + intersectsSphere( sphere ) { + + return this.distanceSqToPoint( sphere.center ) <= ( sphere.radius * sphere.radius ); + + } + + /** + * Computes the distance from the ray's origin to the given plane. Returns `null` if the ray + * does not intersect with the plane. + * + * @param {Plane} plane - The plane to compute the distance to. + * @return {?number} Whether this ray intersects with the given sphere or not. + */ + distanceToPlane( plane ) { + + const denominator = plane.normal.dot( this.direction ); + + if ( denominator === 0 ) { + + // line is coplanar, return origin + if ( plane.distanceToPoint( this.origin ) === 0 ) { + + return 0; + + } + + // Null is preferable to undefined since undefined means.... it is undefined + + return null; + + } + + const t = - ( this.origin.dot( plane.normal ) + plane.constant ) / denominator; + + // Return if the ray never intersects the plane + + return t >= 0 ? t : null; + + } + + /** + * Intersects this ray with the given plane, returning the intersection + * point or `null` if there is no intersection. + * + * @param {Plane} plane - The plane to intersect. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {?Vector3} The intersection point. + */ + intersectPlane( plane, target ) { + + const t = this.distanceToPlane( plane ); + + if ( t === null ) { + + return null; + + } + + return this.at( t, target ); + + } + + /** + * Returns `true` if this ray intersects with the given plane. + * + * @param {Plane} plane - The plane to intersect. + * @return {boolean} Whether this ray intersects with the given plane or not. + */ + intersectsPlane( plane ) { + + // check if the ray lies on the plane first + + const distToPoint = plane.distanceToPoint( this.origin ); + + if ( distToPoint === 0 ) { + + return true; + + } + + const denominator = plane.normal.dot( this.direction ); + + if ( denominator * distToPoint < 0 ) { + + return true; + + } + + // ray origin is behind the plane (and is pointing behind it) + + return false; + + } + + /** + * Intersects this ray with the given bounding box, returning the intersection + * point or `null` if there is no intersection. + * + * @param {Box3} box - The box to intersect. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {?Vector3} The intersection point. + */ + intersectBox( box, target ) { + + let tmin, tmax, tymin, tymax, tzmin, tzmax; + + const invdirx = 1 / this.direction.x, + invdiry = 1 / this.direction.y, + invdirz = 1 / this.direction.z; + + const origin = this.origin; + + if ( invdirx >= 0 ) { + + tmin = ( box.min.x - origin.x ) * invdirx; + tmax = ( box.max.x - origin.x ) * invdirx; + + } else { + + tmin = ( box.max.x - origin.x ) * invdirx; + tmax = ( box.min.x - origin.x ) * invdirx; + + } + + if ( invdiry >= 0 ) { + + tymin = ( box.min.y - origin.y ) * invdiry; + tymax = ( box.max.y - origin.y ) * invdiry; + + } else { + + tymin = ( box.max.y - origin.y ) * invdiry; + tymax = ( box.min.y - origin.y ) * invdiry; + + } + + if ( ( tmin > tymax ) || ( tymin > tmax ) ) return null; + + if ( tymin > tmin || isNaN( tmin ) ) tmin = tymin; + + if ( tymax < tmax || isNaN( tmax ) ) tmax = tymax; + + if ( invdirz >= 0 ) { + + tzmin = ( box.min.z - origin.z ) * invdirz; + tzmax = ( box.max.z - origin.z ) * invdirz; + + } else { + + tzmin = ( box.max.z - origin.z ) * invdirz; + tzmax = ( box.min.z - origin.z ) * invdirz; + + } + + if ( ( tmin > tzmax ) || ( tzmin > tmax ) ) return null; + + if ( tzmin > tmin || tmin !== tmin ) tmin = tzmin; + + if ( tzmax < tmax || tmax !== tmax ) tmax = tzmax; + + //return point closest to the ray (positive side) + + if ( tmax < 0 ) return null; + + return this.at( tmin >= 0 ? tmin : tmax, target ); + + } + + /** + * Returns `true` if this ray intersects with the given box. + * + * @param {Box3} box - The box to intersect. + * @return {boolean} Whether this ray intersects with the given box or not. + */ + intersectsBox( box ) { + + return this.intersectBox( box, _vector$a ) !== null; + + } + + /** + * Intersects this ray with the given triangle, returning the intersection + * point or `null` if there is no intersection. + * + * @param {Vector3} a - The first vertex of the triangle. + * @param {Vector3} b - The second vertex of the triangle. + * @param {Vector3} c - The third vertex of the triangle. + * @param {boolean} backfaceCulling - Whether to use backface culling or not. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {?Vector3} The intersection point. + */ + intersectTriangle( a, b, c, backfaceCulling, target ) { + + // Compute the offset origin, edges, and normal. + + // from https://github.com/pmjoniak/GeometricTools/blob/master/GTEngine/Include/Mathematics/GteIntrRay3Triangle3.h + + _edge1.subVectors( b, a ); + _edge2.subVectors( c, a ); + _normal$1.crossVectors( _edge1, _edge2 ); + + // Solve Q + t*D = b1*E1 + b2*E2 (Q = kDiff, D = ray direction, + // E1 = kEdge1, E2 = kEdge2, N = Cross(E1,E2)) by + // |Dot(D,N)|*b1 = sign(Dot(D,N))*Dot(D,Cross(Q,E2)) + // |Dot(D,N)|*b2 = sign(Dot(D,N))*Dot(D,Cross(E1,Q)) + // |Dot(D,N)|*t = -sign(Dot(D,N))*Dot(Q,N) + let DdN = this.direction.dot( _normal$1 ); + let sign; + + if ( DdN > 0 ) { + + if ( backfaceCulling ) return null; + sign = 1; + + } else if ( DdN < 0 ) { + + sign = -1; + DdN = - DdN; + + } else { + + return null; + + } + + _diff.subVectors( this.origin, a ); + const DdQxE2 = sign * this.direction.dot( _edge2.crossVectors( _diff, _edge2 ) ); + + // b1 < 0, no intersection + if ( DdQxE2 < 0 ) { + + return null; + + } + + const DdE1xQ = sign * this.direction.dot( _edge1.cross( _diff ) ); + + // b2 < 0, no intersection + if ( DdE1xQ < 0 ) { + + return null; + + } + + // b1+b2 > 1, no intersection + if ( DdQxE2 + DdE1xQ > DdN ) { + + return null; + + } + + // Line intersects triangle, check if ray does. + const QdN = - sign * _diff.dot( _normal$1 ); + + // t < 0, no intersection + if ( QdN < 0 ) { + + return null; + + } + + // Ray intersects triangle. + return this.at( QdN / DdN, target ); + + } + + /** + * Transforms this ray with the given 4x4 transformation matrix. + * + * @param {Matrix4} matrix4 - The transformation matrix. + * @return {Ray} A reference to this ray. + */ + applyMatrix4( matrix4 ) { + + this.origin.applyMatrix4( matrix4 ); + this.direction.transformDirection( matrix4 ); + + return this; + + } + + /** + * Returns `true` if this ray is equal with the given one. + * + * @param {Ray} ray - The ray to test for equality. + * @return {boolean} Whether this ray is equal with the given one. + */ + equals( ray ) { + + return ray.origin.equals( this.origin ) && ray.direction.equals( this.direction ); + + } + + /** + * Returns a new ray with copied values from this instance. + * + * @return {Ray} A clone of this instance. + */ + clone() { + + return new this.constructor().copy( this ); + + } + +} + +/** + * Represents a 4x4 matrix. + * + * The most common use of a 4x4 matrix in 3D computer graphics is as a transformation matrix. + * For an introduction to transformation matrices as used in WebGL, check out [this tutorial]{@link https://www.opengl-tutorial.org/beginners-tutorials/tutorial-3-matrices} + * + * This allows a 3D vector representing a point in 3D space to undergo + * transformations such as translation, rotation, shear, scale, reflection, + * orthogonal or perspective projection and so on, by being multiplied by the + * matrix. This is known as `applying` the matrix to the vector. + * + * A Note on Row-Major and Column-Major Ordering: + * + * The constructor and {@link Matrix3#set} method take arguments in + * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order} + * order, while internally they are stored in the {@link Matrix3#elements} array in column-major order. + * This means that calling: + * ```js + * const m = new THREE.Matrix4(); + * m.set( 11, 12, 13, 14, + * 21, 22, 23, 24, + * 31, 32, 33, 34, + * 41, 42, 43, 44 ); + * ``` + * will result in the elements array containing: + * ```js + * m.elements = [ 11, 21, 31, 41, + * 12, 22, 32, 42, + * 13, 23, 33, 43, + * 14, 24, 34, 44 ]; + * ``` + * and internally all calculations are performed using column-major ordering. + * However, as the actual ordering makes no difference mathematically and + * most people are used to thinking about matrices in row-major order, the + * three.js documentation shows matrices in row-major order. Just bear in + * mind that if you are reading the source code, you'll have to take the + * transpose of any matrices outlined here to make sense of the calculations. + */ +class Matrix4 { + + /** + * Constructs a new 4x4 matrix. The arguments are supposed to be + * in row-major order. If no arguments are provided, the constructor + * initializes the matrix as an identity matrix. + * + * @param {number} [n11] - 1-1 matrix element. + * @param {number} [n12] - 1-2 matrix element. + * @param {number} [n13] - 1-3 matrix element. + * @param {number} [n14] - 1-4 matrix element. + * @param {number} [n21] - 2-1 matrix element. + * @param {number} [n22] - 2-2 matrix element. + * @param {number} [n23] - 2-3 matrix element. + * @param {number} [n24] - 2-4 matrix element. + * @param {number} [n31] - 3-1 matrix element. + * @param {number} [n32] - 3-2 matrix element. + * @param {number} [n33] - 3-3 matrix element. + * @param {number} [n34] - 3-4 matrix element. + * @param {number} [n41] - 4-1 matrix element. + * @param {number} [n42] - 4-2 matrix element. + * @param {number} [n43] - 4-3 matrix element. + * @param {number} [n44] - 4-4 matrix element. + */ + constructor( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ) { + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + Matrix4.prototype.isMatrix4 = true; + + /** + * A column-major list of matrix values. + * + * @type {Array} + */ + this.elements = [ + + 1, 0, 0, 0, + 0, 1, 0, 0, + 0, 0, 1, 0, + 0, 0, 0, 1 + + ]; + + if ( n11 !== undefined ) { + + this.set( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ); + + } + + } + + /** + * Sets the elements of the matrix.The arguments are supposed to be + * in row-major order. + * + * @param {number} [n11] - 1-1 matrix element. + * @param {number} [n12] - 1-2 matrix element. + * @param {number} [n13] - 1-3 matrix element. + * @param {number} [n14] - 1-4 matrix element. + * @param {number} [n21] - 2-1 matrix element. + * @param {number} [n22] - 2-2 matrix element. + * @param {number} [n23] - 2-3 matrix element. + * @param {number} [n24] - 2-4 matrix element. + * @param {number} [n31] - 3-1 matrix element. + * @param {number} [n32] - 3-2 matrix element. + * @param {number} [n33] - 3-3 matrix element. + * @param {number} [n34] - 3-4 matrix element. + * @param {number} [n41] - 4-1 matrix element. + * @param {number} [n42] - 4-2 matrix element. + * @param {number} [n43] - 4-3 matrix element. + * @param {number} [n44] - 4-4 matrix element. + * @return {Matrix4} A reference to this matrix. + */ + set( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ) { + + const te = this.elements; + + te[ 0 ] = n11; te[ 4 ] = n12; te[ 8 ] = n13; te[ 12 ] = n14; + te[ 1 ] = n21; te[ 5 ] = n22; te[ 9 ] = n23; te[ 13 ] = n24; + te[ 2 ] = n31; te[ 6 ] = n32; te[ 10 ] = n33; te[ 14 ] = n34; + te[ 3 ] = n41; te[ 7 ] = n42; te[ 11 ] = n43; te[ 15 ] = n44; + + return this; + + } + + /** + * Sets this matrix to the 4x4 identity matrix. + * + * @return {Matrix4} A reference to this matrix. + */ + identity() { + + this.set( + + 1, 0, 0, 0, + 0, 1, 0, 0, + 0, 0, 1, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + /** + * Returns a matrix with copied values from this instance. + * + * @return {Matrix4} A clone of this instance. + */ + clone() { + + return new Matrix4().fromArray( this.elements ); + + } + + /** + * Copies the values of the given matrix to this instance. + * + * @param {Matrix4} m - The matrix to copy. + * @return {Matrix4} A reference to this matrix. + */ + copy( m ) { + + const te = this.elements; + const me = m.elements; + + te[ 0 ] = me[ 0 ]; te[ 1 ] = me[ 1 ]; te[ 2 ] = me[ 2 ]; te[ 3 ] = me[ 3 ]; + te[ 4 ] = me[ 4 ]; te[ 5 ] = me[ 5 ]; te[ 6 ] = me[ 6 ]; te[ 7 ] = me[ 7 ]; + te[ 8 ] = me[ 8 ]; te[ 9 ] = me[ 9 ]; te[ 10 ] = me[ 10 ]; te[ 11 ] = me[ 11 ]; + te[ 12 ] = me[ 12 ]; te[ 13 ] = me[ 13 ]; te[ 14 ] = me[ 14 ]; te[ 15 ] = me[ 15 ]; + + return this; + + } + + /** + * Copies the translation component of the given matrix + * into this matrix's translation component. + * + * @param {Matrix4} m - The matrix to copy the translation component. + * @return {Matrix4} A reference to this matrix. + */ + copyPosition( m ) { + + const te = this.elements, me = m.elements; + + te[ 12 ] = me[ 12 ]; + te[ 13 ] = me[ 13 ]; + te[ 14 ] = me[ 14 ]; + + return this; + + } + + /** + * Set the upper 3x3 elements of this matrix to the values of given 3x3 matrix. + * + * @param {Matrix3} m - The 3x3 matrix. + * @return {Matrix4} A reference to this matrix. + */ + setFromMatrix3( m ) { + + const me = m.elements; + + this.set( + + me[ 0 ], me[ 3 ], me[ 6 ], 0, + me[ 1 ], me[ 4 ], me[ 7 ], 0, + me[ 2 ], me[ 5 ], me[ 8 ], 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + /** + * Extracts the basis of this matrix into the three axis vectors provided. + * + * @param {Vector3} xAxis - The basis's x axis. + * @param {Vector3} yAxis - The basis's y axis. + * @param {Vector3} zAxis - The basis's z axis. + * @return {Matrix4} A reference to this matrix. + */ + extractBasis( xAxis, yAxis, zAxis ) { + + xAxis.setFromMatrixColumn( this, 0 ); + yAxis.setFromMatrixColumn( this, 1 ); + zAxis.setFromMatrixColumn( this, 2 ); + + return this; + + } + + /** + * Sets the given basis vectors to this matrix. + * + * @param {Vector3} xAxis - The basis's x axis. + * @param {Vector3} yAxis - The basis's y axis. + * @param {Vector3} zAxis - The basis's z axis. + * @return {Matrix4} A reference to this matrix. + */ + makeBasis( xAxis, yAxis, zAxis ) { + + this.set( + xAxis.x, yAxis.x, zAxis.x, 0, + xAxis.y, yAxis.y, zAxis.y, 0, + xAxis.z, yAxis.z, zAxis.z, 0, + 0, 0, 0, 1 + ); + + return this; + + } + + /** + * Extracts the rotation component of the given matrix + * into this matrix's rotation component. + * + * Note: This method does not support reflection matrices. + * + * @param {Matrix4} m - The matrix. + * @return {Matrix4} A reference to this matrix. + */ + extractRotation( m ) { + + const te = this.elements; + const me = m.elements; + + const scaleX = 1 / _v1$5.setFromMatrixColumn( m, 0 ).length(); + const scaleY = 1 / _v1$5.setFromMatrixColumn( m, 1 ).length(); + const scaleZ = 1 / _v1$5.setFromMatrixColumn( m, 2 ).length(); + + te[ 0 ] = me[ 0 ] * scaleX; + te[ 1 ] = me[ 1 ] * scaleX; + te[ 2 ] = me[ 2 ] * scaleX; + te[ 3 ] = 0; + + te[ 4 ] = me[ 4 ] * scaleY; + te[ 5 ] = me[ 5 ] * scaleY; + te[ 6 ] = me[ 6 ] * scaleY; + te[ 7 ] = 0; + + te[ 8 ] = me[ 8 ] * scaleZ; + te[ 9 ] = me[ 9 ] * scaleZ; + te[ 10 ] = me[ 10 ] * scaleZ; + te[ 11 ] = 0; + + te[ 12 ] = 0; + te[ 13 ] = 0; + te[ 14 ] = 0; + te[ 15 ] = 1; + + return this; + + } + + /** + * Sets the rotation component (the upper left 3x3 matrix) of this matrix to + * the rotation specified by the given Euler angles. The rest of + * the matrix is set to the identity. Depending on the {@link Euler#order}, + * there are six possible outcomes. See [this page]{@link https://en.wikipedia.org/wiki/Euler_angles#Rotation_matrix} + * for a complete list. + * + * @param {Euler} euler - The Euler angles. + * @return {Matrix4} A reference to this matrix. + */ + makeRotationFromEuler( euler ) { + + const te = this.elements; + + const x = euler.x, y = euler.y, z = euler.z; + const a = Math.cos( x ), b = Math.sin( x ); + const c = Math.cos( y ), d = Math.sin( y ); + const e = Math.cos( z ), f = Math.sin( z ); + + if ( euler.order === 'XYZ' ) { + + const ae = a * e, af = a * f, be = b * e, bf = b * f; + + te[ 0 ] = c * e; + te[ 4 ] = - c * f; + te[ 8 ] = d; + + te[ 1 ] = af + be * d; + te[ 5 ] = ae - bf * d; + te[ 9 ] = - b * c; + + te[ 2 ] = bf - ae * d; + te[ 6 ] = be + af * d; + te[ 10 ] = a * c; + + } else if ( euler.order === 'YXZ' ) { + + const ce = c * e, cf = c * f, de = d * e, df = d * f; + + te[ 0 ] = ce + df * b; + te[ 4 ] = de * b - cf; + te[ 8 ] = a * d; + + te[ 1 ] = a * f; + te[ 5 ] = a * e; + te[ 9 ] = - b; + + te[ 2 ] = cf * b - de; + te[ 6 ] = df + ce * b; + te[ 10 ] = a * c; + + } else if ( euler.order === 'ZXY' ) { + + const ce = c * e, cf = c * f, de = d * e, df = d * f; + + te[ 0 ] = ce - df * b; + te[ 4 ] = - a * f; + te[ 8 ] = de + cf * b; + + te[ 1 ] = cf + de * b; + te[ 5 ] = a * e; + te[ 9 ] = df - ce * b; + + te[ 2 ] = - a * d; + te[ 6 ] = b; + te[ 10 ] = a * c; + + } else if ( euler.order === 'ZYX' ) { + + const ae = a * e, af = a * f, be = b * e, bf = b * f; + + te[ 0 ] = c * e; + te[ 4 ] = be * d - af; + te[ 8 ] = ae * d + bf; + + te[ 1 ] = c * f; + te[ 5 ] = bf * d + ae; + te[ 9 ] = af * d - be; + + te[ 2 ] = - d; + te[ 6 ] = b * c; + te[ 10 ] = a * c; + + } else if ( euler.order === 'YZX' ) { + + const ac = a * c, ad = a * d, bc = b * c, bd = b * d; + + te[ 0 ] = c * e; + te[ 4 ] = bd - ac * f; + te[ 8 ] = bc * f + ad; + + te[ 1 ] = f; + te[ 5 ] = a * e; + te[ 9 ] = - b * e; + + te[ 2 ] = - d * e; + te[ 6 ] = ad * f + bc; + te[ 10 ] = ac - bd * f; + + } else if ( euler.order === 'XZY' ) { + + const ac = a * c, ad = a * d, bc = b * c, bd = b * d; + + te[ 0 ] = c * e; + te[ 4 ] = - f; + te[ 8 ] = d * e; + + te[ 1 ] = ac * f + bd; + te[ 5 ] = a * e; + te[ 9 ] = ad * f - bc; + + te[ 2 ] = bc * f - ad; + te[ 6 ] = b * e; + te[ 10 ] = bd * f + ac; + + } + + // bottom row + te[ 3 ] = 0; + te[ 7 ] = 0; + te[ 11 ] = 0; + + // last column + te[ 12 ] = 0; + te[ 13 ] = 0; + te[ 14 ] = 0; + te[ 15 ] = 1; + + return this; + + } + + /** + * Sets the rotation component of this matrix to the rotation specified by + * the given Quaternion as outlined [here]{@link https://en.wikipedia.org/wiki/Rotation_matrix#Quaternion} + * The rest of the matrix is set to the identity. + * + * @param {Quaternion} q - The Quaternion. + * @return {Matrix4} A reference to this matrix. + */ + makeRotationFromQuaternion( q ) { + + return this.compose( _zero, q, _one ); + + } + + /** + * Sets the rotation component of the transformation matrix, looking from `eye` towards + * `target`, and oriented by the up-direction. + * + * @param {Vector3} eye - The eye vector. + * @param {Vector3} target - The target vector. + * @param {Vector3} up - The up vector. + * @return {Matrix4} A reference to this matrix. + */ + lookAt( eye, target, up ) { + + const te = this.elements; + + _z.subVectors( eye, target ); + + if ( _z.lengthSq() === 0 ) { + + // eye and target are in the same position + + _z.z = 1; + + } + + _z.normalize(); + _x.crossVectors( up, _z ); + + if ( _x.lengthSq() === 0 ) { + + // up and z are parallel + + if ( Math.abs( up.z ) === 1 ) { + + _z.x += 0.0001; + + } else { + + _z.z += 0.0001; + + } + + _z.normalize(); + _x.crossVectors( up, _z ); + + } + + _x.normalize(); + _y.crossVectors( _z, _x ); + + te[ 0 ] = _x.x; te[ 4 ] = _y.x; te[ 8 ] = _z.x; + te[ 1 ] = _x.y; te[ 5 ] = _y.y; te[ 9 ] = _z.y; + te[ 2 ] = _x.z; te[ 6 ] = _y.z; te[ 10 ] = _z.z; + + return this; + + } + + /** + * Post-multiplies this matrix by the given 4x4 matrix. + * + * @param {Matrix4} m - The matrix to multiply with. + * @return {Matrix4} A reference to this matrix. + */ + multiply( m ) { + + return this.multiplyMatrices( this, m ); + + } + + /** + * Pre-multiplies this matrix by the given 4x4 matrix. + * + * @param {Matrix4} m - The matrix to multiply with. + * @return {Matrix4} A reference to this matrix. + */ + premultiply( m ) { + + return this.multiplyMatrices( m, this ); + + } + + /** + * Multiples the given 4x4 matrices and stores the result + * in this matrix. + * + * @param {Matrix4} a - The first matrix. + * @param {Matrix4} b - The second matrix. + * @return {Matrix4} A reference to this matrix. + */ + multiplyMatrices( a, b ) { + + const ae = a.elements; + const be = b.elements; + const te = this.elements; + + const a11 = ae[ 0 ], a12 = ae[ 4 ], a13 = ae[ 8 ], a14 = ae[ 12 ]; + const a21 = ae[ 1 ], a22 = ae[ 5 ], a23 = ae[ 9 ], a24 = ae[ 13 ]; + const a31 = ae[ 2 ], a32 = ae[ 6 ], a33 = ae[ 10 ], a34 = ae[ 14 ]; + const a41 = ae[ 3 ], a42 = ae[ 7 ], a43 = ae[ 11 ], a44 = ae[ 15 ]; + + const b11 = be[ 0 ], b12 = be[ 4 ], b13 = be[ 8 ], b14 = be[ 12 ]; + const b21 = be[ 1 ], b22 = be[ 5 ], b23 = be[ 9 ], b24 = be[ 13 ]; + const b31 = be[ 2 ], b32 = be[ 6 ], b33 = be[ 10 ], b34 = be[ 14 ]; + const b41 = be[ 3 ], b42 = be[ 7 ], b43 = be[ 11 ], b44 = be[ 15 ]; + + te[ 0 ] = a11 * b11 + a12 * b21 + a13 * b31 + a14 * b41; + te[ 4 ] = a11 * b12 + a12 * b22 + a13 * b32 + a14 * b42; + te[ 8 ] = a11 * b13 + a12 * b23 + a13 * b33 + a14 * b43; + te[ 12 ] = a11 * b14 + a12 * b24 + a13 * b34 + a14 * b44; + + te[ 1 ] = a21 * b11 + a22 * b21 + a23 * b31 + a24 * b41; + te[ 5 ] = a21 * b12 + a22 * b22 + a23 * b32 + a24 * b42; + te[ 9 ] = a21 * b13 + a22 * b23 + a23 * b33 + a24 * b43; + te[ 13 ] = a21 * b14 + a22 * b24 + a23 * b34 + a24 * b44; + + te[ 2 ] = a31 * b11 + a32 * b21 + a33 * b31 + a34 * b41; + te[ 6 ] = a31 * b12 + a32 * b22 + a33 * b32 + a34 * b42; + te[ 10 ] = a31 * b13 + a32 * b23 + a33 * b33 + a34 * b43; + te[ 14 ] = a31 * b14 + a32 * b24 + a33 * b34 + a34 * b44; + + te[ 3 ] = a41 * b11 + a42 * b21 + a43 * b31 + a44 * b41; + te[ 7 ] = a41 * b12 + a42 * b22 + a43 * b32 + a44 * b42; + te[ 11 ] = a41 * b13 + a42 * b23 + a43 * b33 + a44 * b43; + te[ 15 ] = a41 * b14 + a42 * b24 + a43 * b34 + a44 * b44; + + return this; + + } + + /** + * Multiplies every component of the matrix by the given scalar. + * + * @param {number} s - The scalar. + * @return {Matrix4} A reference to this matrix. + */ + multiplyScalar( s ) { + + const te = this.elements; + + te[ 0 ] *= s; te[ 4 ] *= s; te[ 8 ] *= s; te[ 12 ] *= s; + te[ 1 ] *= s; te[ 5 ] *= s; te[ 9 ] *= s; te[ 13 ] *= s; + te[ 2 ] *= s; te[ 6 ] *= s; te[ 10 ] *= s; te[ 14 ] *= s; + te[ 3 ] *= s; te[ 7 ] *= s; te[ 11 ] *= s; te[ 15 ] *= s; + + return this; + + } + + /** + * Computes and returns the determinant of this matrix. + * + * Based on the method outlined [here]{@link http://www.euclideanspace.com/maths/algebra/matrix/functions/inverse/fourD/index.html}. + * + * @return {number} The determinant. + */ + determinant() { + + const te = this.elements; + + const n11 = te[ 0 ], n12 = te[ 4 ], n13 = te[ 8 ], n14 = te[ 12 ]; + const n21 = te[ 1 ], n22 = te[ 5 ], n23 = te[ 9 ], n24 = te[ 13 ]; + const n31 = te[ 2 ], n32 = te[ 6 ], n33 = te[ 10 ], n34 = te[ 14 ]; + const n41 = te[ 3 ], n42 = te[ 7 ], n43 = te[ 11 ], n44 = te[ 15 ]; + + //TODO: make this more efficient + + return ( + n41 * ( + + n14 * n23 * n32 + - n13 * n24 * n32 + - n14 * n22 * n33 + + n12 * n24 * n33 + + n13 * n22 * n34 + - n12 * n23 * n34 + ) + + n42 * ( + + n11 * n23 * n34 + - n11 * n24 * n33 + + n14 * n21 * n33 + - n13 * n21 * n34 + + n13 * n24 * n31 + - n14 * n23 * n31 + ) + + n43 * ( + + n11 * n24 * n32 + - n11 * n22 * n34 + - n14 * n21 * n32 + + n12 * n21 * n34 + + n14 * n22 * n31 + - n12 * n24 * n31 + ) + + n44 * ( + - n13 * n22 * n31 + - n11 * n23 * n32 + + n11 * n22 * n33 + + n13 * n21 * n32 + - n12 * n21 * n33 + + n12 * n23 * n31 + ) + + ); + + } + + /** + * Transposes this matrix in place. + * + * @return {Matrix4} A reference to this matrix. + */ + transpose() { + + const te = this.elements; + let tmp; + + tmp = te[ 1 ]; te[ 1 ] = te[ 4 ]; te[ 4 ] = tmp; + tmp = te[ 2 ]; te[ 2 ] = te[ 8 ]; te[ 8 ] = tmp; + tmp = te[ 6 ]; te[ 6 ] = te[ 9 ]; te[ 9 ] = tmp; + + tmp = te[ 3 ]; te[ 3 ] = te[ 12 ]; te[ 12 ] = tmp; + tmp = te[ 7 ]; te[ 7 ] = te[ 13 ]; te[ 13 ] = tmp; + tmp = te[ 11 ]; te[ 11 ] = te[ 14 ]; te[ 14 ] = tmp; + + return this; + + } + + /** + * Sets the position component for this matrix from the given vector, + * without affecting the rest of the matrix. + * + * @param {number|Vector3} x - The x component of the vector or alternatively the vector object. + * @param {number} y - The y component of the vector. + * @param {number} z - The z component of the vector. + * @return {Matrix4} A reference to this matrix. + */ + setPosition( x, y, z ) { + + const te = this.elements; + + if ( x.isVector3 ) { + + te[ 12 ] = x.x; + te[ 13 ] = x.y; + te[ 14 ] = x.z; + + } else { + + te[ 12 ] = x; + te[ 13 ] = y; + te[ 14 ] = z; + + } + + return this; + + } + + /** + * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}. + * You can not invert with a determinant of zero. If you attempt this, the method produces + * a zero matrix instead. + * + * @return {Matrix4} A reference to this matrix. + */ + invert() { + + // based on http://www.euclideanspace.com/maths/algebra/matrix/functions/inverse/fourD/index.htm + const te = this.elements, + + n11 = te[ 0 ], n21 = te[ 1 ], n31 = te[ 2 ], n41 = te[ 3 ], + n12 = te[ 4 ], n22 = te[ 5 ], n32 = te[ 6 ], n42 = te[ 7 ], + n13 = te[ 8 ], n23 = te[ 9 ], n33 = te[ 10 ], n43 = te[ 11 ], + n14 = te[ 12 ], n24 = te[ 13 ], n34 = te[ 14 ], n44 = te[ 15 ], + + t11 = n23 * n34 * n42 - n24 * n33 * n42 + n24 * n32 * n43 - n22 * n34 * n43 - n23 * n32 * n44 + n22 * n33 * n44, + t12 = n14 * n33 * n42 - n13 * n34 * n42 - n14 * n32 * n43 + n12 * n34 * n43 + n13 * n32 * n44 - n12 * n33 * n44, + t13 = n13 * n24 * n42 - n14 * n23 * n42 + n14 * n22 * n43 - n12 * n24 * n43 - n13 * n22 * n44 + n12 * n23 * n44, + t14 = n14 * n23 * n32 - n13 * n24 * n32 - n14 * n22 * n33 + n12 * n24 * n33 + n13 * n22 * n34 - n12 * n23 * n34; + + const det = n11 * t11 + n21 * t12 + n31 * t13 + n41 * t14; + + if ( det === 0 ) return this.set( 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 ); + + const detInv = 1 / det; + + te[ 0 ] = t11 * detInv; + te[ 1 ] = ( n24 * n33 * n41 - n23 * n34 * n41 - n24 * n31 * n43 + n21 * n34 * n43 + n23 * n31 * n44 - n21 * n33 * n44 ) * detInv; + te[ 2 ] = ( n22 * n34 * n41 - n24 * n32 * n41 + n24 * n31 * n42 - n21 * n34 * n42 - n22 * n31 * n44 + n21 * n32 * n44 ) * detInv; + te[ 3 ] = ( n23 * n32 * n41 - n22 * n33 * n41 - n23 * n31 * n42 + n21 * n33 * n42 + n22 * n31 * n43 - n21 * n32 * n43 ) * detInv; + + te[ 4 ] = t12 * detInv; + te[ 5 ] = ( n13 * n34 * n41 - n14 * n33 * n41 + n14 * n31 * n43 - n11 * n34 * n43 - n13 * n31 * n44 + n11 * n33 * n44 ) * detInv; + te[ 6 ] = ( n14 * n32 * n41 - n12 * n34 * n41 - n14 * n31 * n42 + n11 * n34 * n42 + n12 * n31 * n44 - n11 * n32 * n44 ) * detInv; + te[ 7 ] = ( n12 * n33 * n41 - n13 * n32 * n41 + n13 * n31 * n42 - n11 * n33 * n42 - n12 * n31 * n43 + n11 * n32 * n43 ) * detInv; + + te[ 8 ] = t13 * detInv; + te[ 9 ] = ( n14 * n23 * n41 - n13 * n24 * n41 - n14 * n21 * n43 + n11 * n24 * n43 + n13 * n21 * n44 - n11 * n23 * n44 ) * detInv; + te[ 10 ] = ( n12 * n24 * n41 - n14 * n22 * n41 + n14 * n21 * n42 - n11 * n24 * n42 - n12 * n21 * n44 + n11 * n22 * n44 ) * detInv; + te[ 11 ] = ( n13 * n22 * n41 - n12 * n23 * n41 - n13 * n21 * n42 + n11 * n23 * n42 + n12 * n21 * n43 - n11 * n22 * n43 ) * detInv; + + te[ 12 ] = t14 * detInv; + te[ 13 ] = ( n13 * n24 * n31 - n14 * n23 * n31 + n14 * n21 * n33 - n11 * n24 * n33 - n13 * n21 * n34 + n11 * n23 * n34 ) * detInv; + te[ 14 ] = ( n14 * n22 * n31 - n12 * n24 * n31 - n14 * n21 * n32 + n11 * n24 * n32 + n12 * n21 * n34 - n11 * n22 * n34 ) * detInv; + te[ 15 ] = ( n12 * n23 * n31 - n13 * n22 * n31 + n13 * n21 * n32 - n11 * n23 * n32 - n12 * n21 * n33 + n11 * n22 * n33 ) * detInv; + + return this; + + } + + /** + * Multiplies the columns of this matrix by the given vector. + * + * @param {Vector3} v - The scale vector. + * @return {Matrix4} A reference to this matrix. + */ + scale( v ) { + + const te = this.elements; + const x = v.x, y = v.y, z = v.z; + + te[ 0 ] *= x; te[ 4 ] *= y; te[ 8 ] *= z; + te[ 1 ] *= x; te[ 5 ] *= y; te[ 9 ] *= z; + te[ 2 ] *= x; te[ 6 ] *= y; te[ 10 ] *= z; + te[ 3 ] *= x; te[ 7 ] *= y; te[ 11 ] *= z; + + return this; + + } + + /** + * Gets the maximum scale value of the three axes. + * + * @return {number} The maximum scale. + */ + getMaxScaleOnAxis() { + + const te = this.elements; + + const scaleXSq = te[ 0 ] * te[ 0 ] + te[ 1 ] * te[ 1 ] + te[ 2 ] * te[ 2 ]; + const scaleYSq = te[ 4 ] * te[ 4 ] + te[ 5 ] * te[ 5 ] + te[ 6 ] * te[ 6 ]; + const scaleZSq = te[ 8 ] * te[ 8 ] + te[ 9 ] * te[ 9 ] + te[ 10 ] * te[ 10 ]; + + return Math.sqrt( Math.max( scaleXSq, scaleYSq, scaleZSq ) ); + + } + + /** + * Sets this matrix as a translation transform from the given vector. + * + * @param {number|Vector3} x - The amount to translate in the X axis or alternatively a translation vector. + * @param {number} y - The amount to translate in the Y axis. + * @param {number} z - The amount to translate in the z axis. + * @return {Matrix4} A reference to this matrix. + */ + makeTranslation( x, y, z ) { + + if ( x.isVector3 ) { + + this.set( + + 1, 0, 0, x.x, + 0, 1, 0, x.y, + 0, 0, 1, x.z, + 0, 0, 0, 1 + + ); + + } else { + + this.set( + + 1, 0, 0, x, + 0, 1, 0, y, + 0, 0, 1, z, + 0, 0, 0, 1 + + ); + + } + + return this; + + } + + /** + * Sets this matrix as a rotational transformation around the X axis by + * the given angle. + * + * @param {number} theta - The rotation in radians. + * @return {Matrix4} A reference to this matrix. + */ + makeRotationX( theta ) { + + const c = Math.cos( theta ), s = Math.sin( theta ); + + this.set( + + 1, 0, 0, 0, + 0, c, - s, 0, + 0, s, c, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + /** + * Sets this matrix as a rotational transformation around the Y axis by + * the given angle. + * + * @param {number} theta - The rotation in radians. + * @return {Matrix4} A reference to this matrix. + */ + makeRotationY( theta ) { + + const c = Math.cos( theta ), s = Math.sin( theta ); + + this.set( + + c, 0, s, 0, + 0, 1, 0, 0, + - s, 0, c, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + /** + * Sets this matrix as a rotational transformation around the Z axis by + * the given angle. + * + * @param {number} theta - The rotation in radians. + * @return {Matrix4} A reference to this matrix. + */ + makeRotationZ( theta ) { + + const c = Math.cos( theta ), s = Math.sin( theta ); + + this.set( + + c, - s, 0, 0, + s, c, 0, 0, + 0, 0, 1, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + /** + * Sets this matrix as a rotational transformation around the given axis by + * the given angle. + * + * This is a somewhat controversial but mathematically sound alternative to + * rotating via Quaternions. See the discussion [here]{@link https://www.gamedev.net/articles/programming/math-and-physics/do-we-really-need-quaternions-r1199}. + * + * @param {Vector3} axis - The normalized rotation axis. + * @param {number} angle - The rotation in radians. + * @return {Matrix4} A reference to this matrix. + */ + makeRotationAxis( axis, angle ) { + + // Based on http://www.gamedev.net/reference/articles/article1199.asp + + const c = Math.cos( angle ); + const s = Math.sin( angle ); + const t = 1 - c; + const x = axis.x, y = axis.y, z = axis.z; + const tx = t * x, ty = t * y; + + this.set( + + tx * x + c, tx * y - s * z, tx * z + s * y, 0, + tx * y + s * z, ty * y + c, ty * z - s * x, 0, + tx * z - s * y, ty * z + s * x, t * z * z + c, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + /** + * Sets this matrix as a scale transformation. + * + * @param {number} x - The amount to scale in the X axis. + * @param {number} y - The amount to scale in the Y axis. + * @param {number} z - The amount to scale in the Z axis. + * @return {Matrix4} A reference to this matrix. + */ + makeScale( x, y, z ) { + + this.set( + + x, 0, 0, 0, + 0, y, 0, 0, + 0, 0, z, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + /** + * Sets this matrix as a shear transformation. + * + * @param {number} xy - The amount to shear X by Y. + * @param {number} xz - The amount to shear X by Z. + * @param {number} yx - The amount to shear Y by X. + * @param {number} yz - The amount to shear Y by Z. + * @param {number} zx - The amount to shear Z by X. + * @param {number} zy - The amount to shear Z by Y. + * @return {Matrix4} A reference to this matrix. + */ + makeShear( xy, xz, yx, yz, zx, zy ) { + + this.set( + + 1, yx, zx, 0, + xy, 1, zy, 0, + xz, yz, 1, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + /** + * Sets this matrix to the transformation composed of the given position, + * rotation (Quaternion) and scale. + * + * @param {Vector3} position - The position vector. + * @param {Quaternion} quaternion - The rotation as a Quaternion. + * @param {Vector3} scale - The scale vector. + * @return {Matrix4} A reference to this matrix. + */ + compose( position, quaternion, scale ) { + + const te = this.elements; + + const x = quaternion._x, y = quaternion._y, z = quaternion._z, w = quaternion._w; + const x2 = x + x, y2 = y + y, z2 = z + z; + const xx = x * x2, xy = x * y2, xz = x * z2; + const yy = y * y2, yz = y * z2, zz = z * z2; + const wx = w * x2, wy = w * y2, wz = w * z2; + + const sx = scale.x, sy = scale.y, sz = scale.z; + + te[ 0 ] = ( 1 - ( yy + zz ) ) * sx; + te[ 1 ] = ( xy + wz ) * sx; + te[ 2 ] = ( xz - wy ) * sx; + te[ 3 ] = 0; + + te[ 4 ] = ( xy - wz ) * sy; + te[ 5 ] = ( 1 - ( xx + zz ) ) * sy; + te[ 6 ] = ( yz + wx ) * sy; + te[ 7 ] = 0; + + te[ 8 ] = ( xz + wy ) * sz; + te[ 9 ] = ( yz - wx ) * sz; + te[ 10 ] = ( 1 - ( xx + yy ) ) * sz; + te[ 11 ] = 0; + + te[ 12 ] = position.x; + te[ 13 ] = position.y; + te[ 14 ] = position.z; + te[ 15 ] = 1; + + return this; + + } + + /** + * Decomposes this matrix into its position, rotation and scale components + * and provides the result in the given objects. + * + * Note: Not all matrices are decomposable in this way. For example, if an + * object has a non-uniformly scaled parent, then the object's world matrix + * may not be decomposable, and this method may not be appropriate. + * + * @param {Vector3} position - The position vector. + * @param {Quaternion} quaternion - The rotation as a Quaternion. + * @param {Vector3} scale - The scale vector. + * @return {Matrix4} A reference to this matrix. + */ + decompose( position, quaternion, scale ) { + + const te = this.elements; + + let sx = _v1$5.set( te[ 0 ], te[ 1 ], te[ 2 ] ).length(); + const sy = _v1$5.set( te[ 4 ], te[ 5 ], te[ 6 ] ).length(); + const sz = _v1$5.set( te[ 8 ], te[ 9 ], te[ 10 ] ).length(); + + // if determine is negative, we need to invert one scale + const det = this.determinant(); + if ( det < 0 ) sx = - sx; + + position.x = te[ 12 ]; + position.y = te[ 13 ]; + position.z = te[ 14 ]; + + // scale the rotation part + _m1$2.copy( this ); + + const invSX = 1 / sx; + const invSY = 1 / sy; + const invSZ = 1 / sz; + + _m1$2.elements[ 0 ] *= invSX; + _m1$2.elements[ 1 ] *= invSX; + _m1$2.elements[ 2 ] *= invSX; + + _m1$2.elements[ 4 ] *= invSY; + _m1$2.elements[ 5 ] *= invSY; + _m1$2.elements[ 6 ] *= invSY; + + _m1$2.elements[ 8 ] *= invSZ; + _m1$2.elements[ 9 ] *= invSZ; + _m1$2.elements[ 10 ] *= invSZ; + + quaternion.setFromRotationMatrix( _m1$2 ); + + scale.x = sx; + scale.y = sy; + scale.z = sz; + + return this; + + } + + /** + * Creates a perspective projection matrix. This is used internally by + * {@link PerspectiveCamera#updateProjectionMatrix}. + + * @param {number} left - Left boundary of the viewing frustum at the near plane. + * @param {number} right - Right boundary of the viewing frustum at the near plane. + * @param {number} top - Top boundary of the viewing frustum at the near plane. + * @param {number} bottom - Bottom boundary of the viewing frustum at the near plane. + * @param {number} near - The distance from the camera to the near plane. + * @param {number} far - The distance from the camera to the far plane. + * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} [coordinateSystem=WebGLCoordinateSystem] - The coordinate system. + * @return {Matrix4} A reference to this matrix. + */ + makePerspective( left, right, top, bottom, near, far, coordinateSystem = WebGLCoordinateSystem ) { + + const te = this.elements; + const x = 2 * near / ( right - left ); + const y = 2 * near / ( top - bottom ); + + const a = ( right + left ) / ( right - left ); + const b = ( top + bottom ) / ( top - bottom ); + + let c, d; + + if ( coordinateSystem === WebGLCoordinateSystem ) { + + c = - ( far + near ) / ( far - near ); + d = ( -2 * far * near ) / ( far - near ); + + } else if ( coordinateSystem === WebGPUCoordinateSystem ) { + + c = - far / ( far - near ); + d = ( - far * near ) / ( far - near ); + + } else { + + throw new Error( 'THREE.Matrix4.makePerspective(): Invalid coordinate system: ' + coordinateSystem ); + + } + + te[ 0 ] = x; te[ 4 ] = 0; te[ 8 ] = a; te[ 12 ] = 0; + te[ 1 ] = 0; te[ 5 ] = y; te[ 9 ] = b; te[ 13 ] = 0; + te[ 2 ] = 0; te[ 6 ] = 0; te[ 10 ] = c; te[ 14 ] = d; + te[ 3 ] = 0; te[ 7 ] = 0; te[ 11 ] = -1; te[ 15 ] = 0; + + return this; + + } + + /** + * Creates a orthographic projection matrix. This is used internally by + * {@link OrthographicCamera#updateProjectionMatrix}. + + * @param {number} left - Left boundary of the viewing frustum at the near plane. + * @param {number} right - Right boundary of the viewing frustum at the near plane. + * @param {number} top - Top boundary of the viewing frustum at the near plane. + * @param {number} bottom - Bottom boundary of the viewing frustum at the near plane. + * @param {number} near - The distance from the camera to the near plane. + * @param {number} far - The distance from the camera to the far plane. + * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} [coordinateSystem=WebGLCoordinateSystem] - The coordinate system. + * @return {Matrix4} A reference to this matrix. + */ + makeOrthographic( left, right, top, bottom, near, far, coordinateSystem = WebGLCoordinateSystem ) { + + const te = this.elements; + const w = 1.0 / ( right - left ); + const h = 1.0 / ( top - bottom ); + const p = 1.0 / ( far - near ); + + const x = ( right + left ) * w; + const y = ( top + bottom ) * h; + + let z, zInv; + + if ( coordinateSystem === WebGLCoordinateSystem ) { + + z = ( far + near ) * p; + zInv = -2 * p; + + } else if ( coordinateSystem === WebGPUCoordinateSystem ) { + + z = near * p; + zInv = -1 * p; + + } else { + + throw new Error( 'THREE.Matrix4.makeOrthographic(): Invalid coordinate system: ' + coordinateSystem ); + + } + + te[ 0 ] = 2 * w; te[ 4 ] = 0; te[ 8 ] = 0; te[ 12 ] = - x; + te[ 1 ] = 0; te[ 5 ] = 2 * h; te[ 9 ] = 0; te[ 13 ] = - y; + te[ 2 ] = 0; te[ 6 ] = 0; te[ 10 ] = zInv; te[ 14 ] = - z; + te[ 3 ] = 0; te[ 7 ] = 0; te[ 11 ] = 0; te[ 15 ] = 1; + + return this; + + } + + /** + * Returns `true` if this matrix is equal with the given one. + * + * @param {Matrix4} matrix - The matrix to test for equality. + * @return {boolean} Whether this matrix is equal with the given one. + */ + equals( matrix ) { + + const te = this.elements; + const me = matrix.elements; + + for ( let i = 0; i < 16; i ++ ) { + + if ( te[ i ] !== me[ i ] ) return false; + + } + + return true; + + } + + /** + * Sets the elements of the matrix from the given array. + * + * @param {Array} array - The matrix elements in column-major order. + * @param {number} [offset=0] - Index of the first element in the array. + * @return {Matrix4} A reference to this matrix. + */ + fromArray( array, offset = 0 ) { + + for ( let i = 0; i < 16; i ++ ) { + + this.elements[ i ] = array[ i + offset ]; + + } + + return this; + + } + + /** + * Writes the elements of this matrix to the given array. If no array is provided, + * the method returns a new instance. + * + * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order. + * @param {number} [offset=0] - Index of the first element in the array. + * @return {Array} The matrix elements in column-major order. + */ + toArray( array = [], offset = 0 ) { + + const te = this.elements; + + array[ offset ] = te[ 0 ]; + array[ offset + 1 ] = te[ 1 ]; + array[ offset + 2 ] = te[ 2 ]; + array[ offset + 3 ] = te[ 3 ]; + + array[ offset + 4 ] = te[ 4 ]; + array[ offset + 5 ] = te[ 5 ]; + array[ offset + 6 ] = te[ 6 ]; + array[ offset + 7 ] = te[ 7 ]; + + array[ offset + 8 ] = te[ 8 ]; + array[ offset + 9 ] = te[ 9 ]; + array[ offset + 10 ] = te[ 10 ]; + array[ offset + 11 ] = te[ 11 ]; + + array[ offset + 12 ] = te[ 12 ]; + array[ offset + 13 ] = te[ 13 ]; + array[ offset + 14 ] = te[ 14 ]; + array[ offset + 15 ] = te[ 15 ]; + + return array; + + } + +} + +const _v1$5 = /*@__PURE__*/ new Vector3(); +const _m1$2 = /*@__PURE__*/ new Matrix4(); +const _zero = /*@__PURE__*/ new Vector3( 0, 0, 0 ); +const _one = /*@__PURE__*/ new Vector3( 1, 1, 1 ); +const _x = /*@__PURE__*/ new Vector3(); +const _y = /*@__PURE__*/ new Vector3(); +const _z = /*@__PURE__*/ new Vector3(); + +const _matrix$2 = /*@__PURE__*/ new Matrix4(); +const _quaternion$3 = /*@__PURE__*/ new Quaternion(); + +/** + * A class representing Euler angles. + * + * Euler angles describe a rotational transformation by rotating an object on + * its various axes in specified amounts per axis, and a specified axis + * order. + * + * Iterating through an instance will yield its components (x, y, z, + * order) in the corresponding order. + * + * ```js + * const a = new THREE.Euler( 0, 1, 1.57, 'XYZ' ); + * const b = new THREE.Vector3( 1, 0, 1 ); + * b.applyEuler(a); + * ``` + */ +class Euler { + + /** + * Constructs a new euler instance. + * + * @param {number} [x=0] - The angle of the x axis in radians. + * @param {number} [y=0] - The angle of the y axis in radians. + * @param {number} [z=0] - The angle of the z axis in radians. + * @param {string} [order=Euler.DEFAULT_ORDER] - A string representing the order that the rotations are applied. + */ + constructor( x = 0, y = 0, z = 0, order = Euler.DEFAULT_ORDER ) { + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isEuler = true; + + this._x = x; + this._y = y; + this._z = z; + this._order = order; + + } + + /** + * The angle of the x axis in radians. + * + * @type {number} + * @default 0 + */ + get x() { + + return this._x; + + } + + set x( value ) { + + this._x = value; + this._onChangeCallback(); + + } + + /** + * The angle of the y axis in radians. + * + * @type {number} + * @default 0 + */ + get y() { + + return this._y; + + } + + set y( value ) { + + this._y = value; + this._onChangeCallback(); + + } + + /** + * The angle of the z axis in radians. + * + * @type {number} + * @default 0 + */ + get z() { + + return this._z; + + } + + set z( value ) { + + this._z = value; + this._onChangeCallback(); + + } + + /** + * A string representing the order that the rotations are applied. + * + * @type {string} + * @default 'XYZ' + */ + get order() { + + return this._order; + + } + + set order( value ) { + + this._order = value; + this._onChangeCallback(); + + } + + /** + * Sets the Euler components. + * + * @param {number} x - The angle of the x axis in radians. + * @param {number} y - The angle of the y axis in radians. + * @param {number} z - The angle of the z axis in radians. + * @param {string} [order] - A string representing the order that the rotations are applied. + * @return {Euler} A reference to this Euler instance. + */ + set( x, y, z, order = this._order ) { + + this._x = x; + this._y = y; + this._z = z; + this._order = order; + + this._onChangeCallback(); + + return this; + + } + + /** + * Returns a new Euler instance with copied values from this instance. + * + * @return {Euler} A clone of this instance. + */ + clone() { + + return new this.constructor( this._x, this._y, this._z, this._order ); + + } + + /** + * Copies the values of the given Euler instance to this instance. + * + * @param {Euler} euler - The Euler instance to copy. + * @return {Euler} A reference to this Euler instance. + */ + copy( euler ) { + + this._x = euler._x; + this._y = euler._y; + this._z = euler._z; + this._order = euler._order; + + this._onChangeCallback(); + + return this; + + } + + /** + * Sets the angles of this Euler instance from a pure rotation matrix. + * + * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled). + * @param {string} [order] - A string representing the order that the rotations are applied. + * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not. + * @return {Euler} A reference to this Euler instance. + */ + setFromRotationMatrix( m, order = this._order, update = true ) { + + const te = m.elements; + const m11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ]; + const m21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ]; + const m31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ]; + + switch ( order ) { + + case 'XYZ': + + this._y = Math.asin( clamp$1( m13, -1, 1 ) ); + + if ( Math.abs( m13 ) < 0.9999999 ) { + + this._x = Math.atan2( - m23, m33 ); + this._z = Math.atan2( - m12, m11 ); + + } else { + + this._x = Math.atan2( m32, m22 ); + this._z = 0; + + } + + break; + + case 'YXZ': + + this._x = Math.asin( - clamp$1( m23, -1, 1 ) ); + + if ( Math.abs( m23 ) < 0.9999999 ) { + + this._y = Math.atan2( m13, m33 ); + this._z = Math.atan2( m21, m22 ); + + } else { + + this._y = Math.atan2( - m31, m11 ); + this._z = 0; + + } + + break; + + case 'ZXY': + + this._x = Math.asin( clamp$1( m32, -1, 1 ) ); + + if ( Math.abs( m32 ) < 0.9999999 ) { + + this._y = Math.atan2( - m31, m33 ); + this._z = Math.atan2( - m12, m22 ); + + } else { + + this._y = 0; + this._z = Math.atan2( m21, m11 ); + + } + + break; + + case 'ZYX': + + this._y = Math.asin( - clamp$1( m31, -1, 1 ) ); + + if ( Math.abs( m31 ) < 0.9999999 ) { + + this._x = Math.atan2( m32, m33 ); + this._z = Math.atan2( m21, m11 ); + + } else { + + this._x = 0; + this._z = Math.atan2( - m12, m22 ); + + } + + break; + + case 'YZX': + + this._z = Math.asin( clamp$1( m21, -1, 1 ) ); + + if ( Math.abs( m21 ) < 0.9999999 ) { + + this._x = Math.atan2( - m23, m22 ); + this._y = Math.atan2( - m31, m11 ); + + } else { + + this._x = 0; + this._y = Math.atan2( m13, m33 ); + + } + + break; + + case 'XZY': + + this._z = Math.asin( - clamp$1( m12, -1, 1 ) ); + + if ( Math.abs( m12 ) < 0.9999999 ) { + + this._x = Math.atan2( m32, m22 ); + this._y = Math.atan2( m13, m11 ); + + } else { + + this._x = Math.atan2( - m23, m33 ); + this._y = 0; + + } + + break; + + default: + + console.warn( 'THREE.Euler: .setFromRotationMatrix() encountered an unknown order: ' + order ); + + } + + this._order = order; + + if ( update === true ) this._onChangeCallback(); + + return this; + + } + + /** + * Sets the angles of this Euler instance from a normalized quaternion. + * + * @param {Quaternion} q - A normalized Quaternion. + * @param {string} [order] - A string representing the order that the rotations are applied. + * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not. + * @return {Euler} A reference to this Euler instance. + */ + setFromQuaternion( q, order, update ) { + + _matrix$2.makeRotationFromQuaternion( q ); + + return this.setFromRotationMatrix( _matrix$2, order, update ); + + } + + /** + * Sets the angles of this Euler instance from the given vector. + * + * @param {Vector3} v - The vector. + * @param {string} [order] - A string representing the order that the rotations are applied. + * @return {Euler} A reference to this Euler instance. + */ + setFromVector3( v, order = this._order ) { + + return this.set( v.x, v.y, v.z, order ); + + } + + /** + * Resets the euler angle with a new order by creating a quaternion from this + * euler angle and then setting this euler angle with the quaternion and the + * new order. + * + * Warning: This discards revolution information. + * + * @param {string} [newOrder] - A string representing the new order that the rotations are applied. + * @return {Euler} A reference to this Euler instance. + */ + reorder( newOrder ) { + + _quaternion$3.setFromEuler( this ); + + return this.setFromQuaternion( _quaternion$3, newOrder ); + + } + + /** + * Returns `true` if this Euler instance is equal with the given one. + * + * @param {Euler} euler - The Euler instance to test for equality. + * @return {boolean} Whether this Euler instance is equal with the given one. + */ + equals( euler ) { + + return ( euler._x === this._x ) && ( euler._y === this._y ) && ( euler._z === this._z ) && ( euler._order === this._order ); + + } + + /** + * Sets this Euler instance's components to values from the given array. The first three + * entries of the array are assign to the x,y and z components. An optional fourth entry + * defines the Euler order. + * + * @param {Array} array - An array holding the Euler component values. + * @return {Euler} A reference to this Euler instance. + */ + fromArray( array ) { + + this._x = array[ 0 ]; + this._y = array[ 1 ]; + this._z = array[ 2 ]; + if ( array[ 3 ] !== undefined ) this._order = array[ 3 ]; + + this._onChangeCallback(); + + return this; + + } + + /** + * Writes the components of this Euler instance to the given array. If no array is provided, + * the method returns a new instance. + * + * @param {Array} [array=[]] - The target array holding the Euler components. + * @param {number} [offset=0] - Index of the first element in the array. + * @return {Array} The Euler components. + */ + toArray( array = [], offset = 0 ) { + + array[ offset ] = this._x; + array[ offset + 1 ] = this._y; + array[ offset + 2 ] = this._z; + array[ offset + 3 ] = this._order; + + return array; + + } + + _onChange( callback ) { + + this._onChangeCallback = callback; + + return this; + + } + + _onChangeCallback() {} + + *[ Symbol.iterator ]() { + + yield this._x; + yield this._y; + yield this._z; + yield this._order; + + } + +} + +/** + * The default Euler angle order. + * + * @static + * @type {string} + * @default 'XYZ' + */ +Euler.DEFAULT_ORDER = 'XYZ'; + +class Layers { + + constructor() { + + this.mask = 1 | 0; + + } + + set( channel ) { + + this.mask = ( 1 << channel | 0 ) >>> 0; + + } + + enable( channel ) { + + this.mask |= 1 << channel | 0; + + } + + enableAll() { + + this.mask = 0xffffffff | 0; + + } + + toggle( channel ) { + + this.mask ^= 1 << channel | 0; + + } + + disable( channel ) { + + this.mask &= ~ ( 1 << channel | 0 ); + + } + + disableAll() { + + this.mask = 0; + + } + + test( layers ) { + + return ( this.mask & layers.mask ) !== 0; + + } + + isEnabled( channel ) { + + return ( this.mask & ( 1 << channel | 0 ) ) !== 0; + + } + +} + +let _object3DId = 0; + +const _v1$4 = /*@__PURE__*/ new Vector3(); +const _q1 = /*@__PURE__*/ new Quaternion(); +const _m1$1$1 = /*@__PURE__*/ new Matrix4(); +const _target = /*@__PURE__*/ new Vector3(); + +const _position$3 = /*@__PURE__*/ new Vector3(); +const _scale$2 = /*@__PURE__*/ new Vector3(); +const _quaternion$2 = /*@__PURE__*/ new Quaternion(); + +const _xAxis = /*@__PURE__*/ new Vector3( 1, 0, 0 ); +const _yAxis = /*@__PURE__*/ new Vector3( 0, 1, 0 ); +const _zAxis = /*@__PURE__*/ new Vector3( 0, 0, 1 ); + +/** + * Fires when the object has been added to its parent object. + * + * @event Object3D#added + * @type {Object} + */ +const _addedEvent = { type: 'added' }; + +/** + * Fires when the object has been removed from its parent object. + * + * @event Object3D#removed + * @type {Object} + */ +const _removedEvent = { type: 'removed' }; + +/** + * Fires when a new child object has been added. + * + * @event Object3D#childadded + * @type {Object} + */ +const _childaddedEvent = { type: 'childadded', child: null }; + +/** + * Fires when a new child object has been added. + * + * @event Object3D#childremoved + * @type {Object} + */ +const _childremovedEvent = { type: 'childremoved', child: null }; + +/** + * This is the base class for most objects in three.js and provides a set of + * properties and methods for manipulating objects in 3D space. + * + * @augments EventDispatcher + */ +class Object3D extends EventDispatcher { + + /** + * Constructs a new 3D object. + */ + constructor() { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isObject3D = true; + + /** + * The ID of the 3D object. + * + * @name Object3D#id + * @type {number} + * @readonly + */ + Object.defineProperty( this, 'id', { value: _object3DId ++ } ); + + /** + * The UUID of the 3D object. + * + * @type {string} + * @readonly + */ + this.uuid = generateUUID(); + + /** + * The name of the 3D object. + * + * @type {string} + */ + this.name = ''; + + /** + * The type property is used for detecting the object type + * in context of serialization/deserialization. + * + * @type {string} + * @readonly + */ + this.type = 'Object3D'; + + /** + * A reference to the parent object. + * + * @type {?Object3D} + * @default null + */ + this.parent = null; + + /** + * An array holding the child 3D objects of this instance. + * + * @type {Array} + */ + this.children = []; + + /** + * Defines the `up` direction of the 3D object which influences + * the orientation via methods like {@link Object3D#lookAt}. + * + * The default values for all 3D objects is defined by `Object3D.DEFAULT_UP`. + * + * @type {Vector3} + */ + this.up = Object3D.DEFAULT_UP.clone(); + + const position = new Vector3(); + const rotation = new Euler(); + const quaternion = new Quaternion(); + const scale = new Vector3( 1, 1, 1 ); + + function onRotationChange() { + + quaternion.setFromEuler( rotation, false ); + + } + + function onQuaternionChange() { + + rotation.setFromQuaternion( quaternion, undefined, false ); + + } + + rotation._onChange( onRotationChange ); + quaternion._onChange( onQuaternionChange ); + + Object.defineProperties( this, { + /** + * Represents the object's local position. + * + * @name Object3D#position + * @type {Vector3} + * @default (0,0,0) + */ + position: { + configurable: true, + enumerable: true, + value: position + }, + /** + * Represents the object's local rotation as Euler angles, in radians. + * + * @name Object3D#rotation + * @type {Euler} + * @default (0,0,0) + */ + rotation: { + configurable: true, + enumerable: true, + value: rotation + }, + /** + * Represents the object's local rotation as Quaternions. + * + * @name Object3D#quaternion + * @type {Quaternion} + */ + quaternion: { + configurable: true, + enumerable: true, + value: quaternion + }, + /** + * Represents the object's local scale. + * + * @name Object3D#scale + * @type {Vector3} + * @default (1,1,1) + */ + scale: { + configurable: true, + enumerable: true, + value: scale + }, + /** + * Represents the object's model-view matrix. + * + * @name Object3D#modelViewMatrix + * @type {Matrix4} + */ + modelViewMatrix: { + value: new Matrix4() + }, + /** + * Represents the object's normal matrix. + * + * @name Object3D#normalMatrix + * @type {Matrix3} + */ + normalMatrix: { + value: new Matrix3() + } + } ); + + /** + * Represents the object's transformation matrix in local space. + * + * @type {Matrix4} + */ + this.matrix = new Matrix4(); + + /** + * Represents the object's transformation matrix in world space. + * If the 3D object has no parent, then it's identical to the local transformation matrix + * + * @type {Matrix4} + */ + this.matrixWorld = new Matrix4(); + + /** + * When set to `true`, the engine automatically computes the local matrix from position, + * rotation and scale every frame. + * + * The default values for all 3D objects is defined by `Object3D.DEFAULT_MATRIX_AUTO_UPDATE`. + * + * @type {boolean} + * @default true + */ + this.matrixAutoUpdate = Object3D.DEFAULT_MATRIX_AUTO_UPDATE; + + /** + * When set to `true`, the engine automatically computes the world matrix from the current local + * matrix and the object's transformation hierarchy. + * + * The default values for all 3D objects is defined by `Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE`. + * + * @type {boolean} + * @default true + */ + this.matrixWorldAutoUpdate = Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE; // checked by the renderer + + /** + * When set to `true`, it calculates the world matrix in that frame and resets this property + * to `false`. + * + * @type {boolean} + * @default false + */ + this.matrixWorldNeedsUpdate = false; + + /** + * The layer membership of the 3D object. The 3D object is only visible if it has + * at least one layer in common with the camera in use. This property can also be + * used to filter out unwanted objects in ray-intersection tests when using {@link Raycaster}. + * + * @type {Layers} + */ + this.layers = new Layers(); + + /** + * When set to `true`, the 3D object gets rendered. + * + * @type {boolean} + * @default true + */ + this.visible = true; + + /** + * When set to `true`, the 3D object gets rendered into shadow maps. + * + * @type {boolean} + * @default false + */ + this.castShadow = false; + + /** + * When set to `true`, the 3D object is affected by shadows in the scene. + * + * @type {boolean} + * @default false + */ + this.receiveShadow = false; + + /** + * When set to `true`, the 3D object is honored by view frustum culling. + * + * @type {boolean} + * @default true + */ + this.frustumCulled = true; + + /** + * This value allows the default rendering order of scene graph objects to be + * overridden although opaque and transparent objects remain sorted independently. + * When this property is set for an instance of {@link Group},all descendants + * objects will be sorted and rendered together. Sorting is from lowest to highest + * render order. + * + * @type {number} + * @default 0 + */ + this.renderOrder = 0; + + /** + * An array holding the animation clips of the 3D object. + * + * @type {Array} + */ + this.animations = []; + + /** + * An object that can be used to store custom data about the 3D object. It + * should not hold references to functions as these will not be cloned. + * + * @type {Object} + */ + this.userData = {}; + + } + + /** + * A callback that is executed immediately before a 3D object is rendered to a shadow map. + * + * @param {Renderer|WebGLRenderer} renderer - The renderer. + * @param {Object3D} object - The 3D object. + * @param {Camera} camera - The camera that is used to render the scene. + * @param {Camera} shadowCamera - The shadow camera. + * @param {BufferGeometry} geometry - The 3D object's geometry. + * @param {Material} depthMaterial - The depth material. + * @param {Object} group - The geometry group data. + */ + onBeforeShadow( /* renderer, object, camera, shadowCamera, geometry, depthMaterial, group */ ) {} + + /** + * A callback that is executed immediately after a 3D object is rendered to a shadow map. + * + * @param {Renderer|WebGLRenderer} renderer - The renderer. + * @param {Object3D} object - The 3D object. + * @param {Camera} camera - The camera that is used to render the scene. + * @param {Camera} shadowCamera - The shadow camera. + * @param {BufferGeometry} geometry - The 3D object's geometry. + * @param {Material} depthMaterial - The depth material. + * @param {Object} group - The geometry group data. + */ + onAfterShadow( /* renderer, object, camera, shadowCamera, geometry, depthMaterial, group */ ) {} + + /** + * A callback that is executed immediately before a 3D object is rendered. + * + * @param {Renderer|WebGLRenderer} renderer - The renderer. + * @param {Object3D} object - The 3D object. + * @param {Camera} camera - The camera that is used to render the scene. + * @param {BufferGeometry} geometry - The 3D object's geometry. + * @param {Material} material - The 3D object's material. + * @param {Object} group - The geometry group data. + */ + onBeforeRender( /* renderer, scene, camera, geometry, material, group */ ) {} + + /** + * A callback that is executed immediately after a 3D object is rendered. + * + * @param {Renderer|WebGLRenderer} renderer - The renderer. + * @param {Object3D} object - The 3D object. + * @param {Camera} camera - The camera that is used to render the scene. + * @param {BufferGeometry} geometry - The 3D object's geometry. + * @param {Material} material - The 3D object's material. + * @param {Object} group - The geometry group data. + */ + onAfterRender( /* renderer, scene, camera, geometry, material, group */ ) {} + + /** + * Applies the given transformation matrix to the object and updates the object's position, + * rotation and scale. + * + * @param {Matrix4} matrix - The transformation matrix. + */ + applyMatrix4( matrix ) { + + if ( this.matrixAutoUpdate ) this.updateMatrix(); + + this.matrix.premultiply( matrix ); + + this.matrix.decompose( this.position, this.quaternion, this.scale ); + + } + + /** + * Applies a rotation represented by given the quaternion to the 3D object. + * + * @param {Quaternion} q - The quaternion. + * @return {Object3D} A reference to this instance. + */ + applyQuaternion( q ) { + + this.quaternion.premultiply( q ); + + return this; + + } + + /** + * Sets the given rotation represented as an axis/angle couple to the 3D object. + * + * @param {Vector3} axis - The (normalized) axis vector. + * @param {number} angle - The angle in radians. + */ + setRotationFromAxisAngle( axis, angle ) { + + // assumes axis is normalized + + this.quaternion.setFromAxisAngle( axis, angle ); + + } + + /** + * Sets the given rotation represented as Euler angles to the 3D object. + * + * @param {Euler} euler - The Euler angles. + */ + setRotationFromEuler( euler ) { + + this.quaternion.setFromEuler( euler, true ); + + } + + /** + * Sets the given rotation represented as rotation matrix to the 3D object. + * + * @param {Matrix4} m - Although a 4x4 matrix is expected, the upper 3x3 portion must be + * a pure rotation matrix (i.e, unscaled). + */ + setRotationFromMatrix( m ) { + + // assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled) + + this.quaternion.setFromRotationMatrix( m ); + + } + + /** + * Sets the given rotation represented as a Quaternion to the 3D object. + * + * @param {Quaternion} q - The Quaternion + */ + setRotationFromQuaternion( q ) { + + // assumes q is normalized + + this.quaternion.copy( q ); + + } + + /** + * Rotates the 3D object along an axis in local space. + * + * @param {Vector3} axis - The (normalized) axis vector. + * @param {number} angle - The angle in radians. + * @return {Object3D} A reference to this instance. + */ + rotateOnAxis( axis, angle ) { + + // rotate object on axis in object space + // axis is assumed to be normalized + + _q1.setFromAxisAngle( axis, angle ); + + this.quaternion.multiply( _q1 ); + + return this; + + } + + /** + * Rotates the 3D object along an axis in world space. + * + * @param {Vector3} axis - The (normalized) axis vector. + * @param {number} angle - The angle in radians. + * @return {Object3D} A reference to this instance. + */ + rotateOnWorldAxis( axis, angle ) { + + // rotate object on axis in world space + // axis is assumed to be normalized + // method assumes no rotated parent + + _q1.setFromAxisAngle( axis, angle ); + + this.quaternion.premultiply( _q1 ); + + return this; + + } + + /** + * Rotates the 3D object around its X axis in local space. + * + * @param {number} angle - The angle in radians. + * @return {Object3D} A reference to this instance. + */ + rotateX( angle ) { + + return this.rotateOnAxis( _xAxis, angle ); + + } + + /** + * Rotates the 3D object around its Y axis in local space. + * + * @param {number} angle - The angle in radians. + * @return {Object3D} A reference to this instance. + */ + rotateY( angle ) { + + return this.rotateOnAxis( _yAxis, angle ); + + } + + /** + * Rotates the 3D object around its Z axis in local space. + * + * @param {number} angle - The angle in radians. + * @return {Object3D} A reference to this instance. + */ + rotateZ( angle ) { + + return this.rotateOnAxis( _zAxis, angle ); + + } + + /** + * Translate the 3D object by a distance along the given axis in local space. + * + * @param {Vector3} axis - The (normalized) axis vector. + * @param {number} distance - The distance in world units. + * @return {Object3D} A reference to this instance. + */ + translateOnAxis( axis, distance ) { + + // translate object by distance along axis in object space + // axis is assumed to be normalized + + _v1$4.copy( axis ).applyQuaternion( this.quaternion ); + + this.position.add( _v1$4.multiplyScalar( distance ) ); + + return this; + + } + + /** + * Translate the 3D object by a distance along its X-axis in local space. + * + * @param {number} distance - The distance in world units. + * @return {Object3D} A reference to this instance. + */ + translateX( distance ) { + + return this.translateOnAxis( _xAxis, distance ); + + } + + /** + * Translate the 3D object by a distance along its Y-axis in local space. + * + * @param {number} distance - The distance in world units. + * @return {Object3D} A reference to this instance. + */ + translateY( distance ) { + + return this.translateOnAxis( _yAxis, distance ); + + } + + /** + * Translate the 3D object by a distance along its Z-axis in local space. + * + * @param {number} distance - The distance in world units. + * @return {Object3D} A reference to this instance. + */ + translateZ( distance ) { + + return this.translateOnAxis( _zAxis, distance ); + + } + + /** + * Converts the given vector from this 3D object's local space to world space. + * + * @param {Vector3} vector - The vector to convert. + * @return {Vector3} The converted vector. + */ + localToWorld( vector ) { + + this.updateWorldMatrix( true, false ); + + return vector.applyMatrix4( this.matrixWorld ); + + } + + /** + * Converts the given vector from this 3D object's word space to local space. + * + * @param {Vector3} vector - The vector to convert. + * @return {Vector3} The converted vector. + */ + worldToLocal( vector ) { + + this.updateWorldMatrix( true, false ); + + return vector.applyMatrix4( _m1$1$1.copy( this.matrixWorld ).invert() ); + + } + + /** + * Rotates the object to face a point in world space. + * + * This method does not support objects having non-uniformly-scaled parent(s). + * + * @param {number|Vector3} x - The x coordinate in world space. Alternatively, a vector representing a position in world space + * @param {number} [y] - The y coordinate in world space. + * @param {number} [z] - The z coordinate in world space. + */ + lookAt( x, y, z ) { + + // This method does not support objects having non-uniformly-scaled parent(s) + + if ( x.isVector3 ) { + + _target.copy( x ); + + } else { + + _target.set( x, y, z ); + + } + + const parent = this.parent; + + this.updateWorldMatrix( true, false ); + + _position$3.setFromMatrixPosition( this.matrixWorld ); + + if ( this.isCamera || this.isLight ) { + + _m1$1$1.lookAt( _position$3, _target, this.up ); + + } else { + + _m1$1$1.lookAt( _target, _position$3, this.up ); + + } + + this.quaternion.setFromRotationMatrix( _m1$1$1 ); + + if ( parent ) { + + _m1$1$1.extractRotation( parent.matrixWorld ); + _q1.setFromRotationMatrix( _m1$1$1 ); + this.quaternion.premultiply( _q1.invert() ); + + } + + } + + /** + * Adds the given 3D object as a child to this 3D object. An arbitrary number of + * objects may be added. Any current parent on an object passed in here will be + * removed, since an object can have at most one parent. + * + * @fires Object3D#added + * @fires Object3D#childadded + * @param {Object3D} object - The 3D object to add. + * @return {Object3D} A reference to this instance. + */ + add( object ) { + + if ( arguments.length > 1 ) { + + for ( let i = 0; i < arguments.length; i ++ ) { + + this.add( arguments[ i ] ); + + } + + return this; + + } + + if ( object === this ) { + + console.error( 'THREE.Object3D.add: object can\'t be added as a child of itself.', object ); + return this; + + } + + if ( object && object.isObject3D ) { + + object.removeFromParent(); + object.parent = this; + this.children.push( object ); + + object.dispatchEvent( _addedEvent ); + + _childaddedEvent.child = object; + this.dispatchEvent( _childaddedEvent ); + _childaddedEvent.child = null; + + } else { + + console.error( 'THREE.Object3D.add: object not an instance of THREE.Object3D.', object ); + + } + + return this; + + } + + /** + * Removes the given 3D object as child from this 3D object. + * An arbitrary number of objects may be removed. + * + * @fires Object3D#removed + * @fires Object3D#childremoved + * @param {Object3D} object - The 3D object to remove. + * @return {Object3D} A reference to this instance. + */ + remove( object ) { + + if ( arguments.length > 1 ) { + + for ( let i = 0; i < arguments.length; i ++ ) { + + this.remove( arguments[ i ] ); + + } + + return this; + + } + + const index = this.children.indexOf( object ); + + if ( index !== -1 ) { + + object.parent = null; + this.children.splice( index, 1 ); + + object.dispatchEvent( _removedEvent ); + + _childremovedEvent.child = object; + this.dispatchEvent( _childremovedEvent ); + _childremovedEvent.child = null; + + } + + return this; + + } + + /** + * Removes this 3D object from its current parent. + * + * @fires Object3D#removed + * @fires Object3D#childremoved + * @return {Object3D} A reference to this instance. + */ + removeFromParent() { + + const parent = this.parent; + + if ( parent !== null ) { + + parent.remove( this ); + + } + + return this; + + } + + /** + * Removes all child objects. + * + * @fires Object3D#removed + * @fires Object3D#childremoved + * @return {Object3D} A reference to this instance. + */ + clear() { + + return this.remove( ... this.children ); + + } + + /** + * Adds the given 3D object as a child of this 3D object, while maintaining the object's world + * transform. This method does not support scene graphs having non-uniformly-scaled nodes(s). + * + * @fires Object3D#added + * @fires Object3D#childadded + * @param {Object3D} object - The 3D object to attach. + * @return {Object3D} A reference to this instance. + */ + attach( object ) { + + // adds object as a child of this, while maintaining the object's world transform + + // Note: This method does not support scene graphs having non-uniformly-scaled nodes(s) + + this.updateWorldMatrix( true, false ); + + _m1$1$1.copy( this.matrixWorld ).invert(); + + if ( object.parent !== null ) { + + object.parent.updateWorldMatrix( true, false ); + + _m1$1$1.multiply( object.parent.matrixWorld ); + + } + + object.applyMatrix4( _m1$1$1 ); + + object.removeFromParent(); + object.parent = this; + this.children.push( object ); + + object.updateWorldMatrix( false, true ); + + object.dispatchEvent( _addedEvent ); + + _childaddedEvent.child = object; + this.dispatchEvent( _childaddedEvent ); + _childaddedEvent.child = null; + + return this; + + } + + /** + * Searches through the 3D object and its children, starting with the 3D object + * itself, and returns the first with a matching ID. + * + * @param {number} id - The id. + * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found. + */ + getObjectById( id ) { + + return this.getObjectByProperty( 'id', id ); + + } + + /** + * Searches through the 3D object and its children, starting with the 3D object + * itself, and returns the first with a matching name. + * + * @param {string} name - The name. + * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found. + */ + getObjectByName( name ) { + + return this.getObjectByProperty( 'name', name ); + + } + + /** + * Searches through the 3D object and its children, starting with the 3D object + * itself, and returns the first with a matching property value. + * + * @param {string} name - The name of the property. + * @param {any} value - The value. + * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found. + */ + getObjectByProperty( name, value ) { + + if ( this[ name ] === value ) return this; + + for ( let i = 0, l = this.children.length; i < l; i ++ ) { + + const child = this.children[ i ]; + const object = child.getObjectByProperty( name, value ); + + if ( object !== undefined ) { + + return object; + + } + + } + + return undefined; + + } + + /** + * Searches through the 3D object and its children, starting with the 3D object + * itself, and returns all 3D objects with a matching property value. + * + * @param {string} name - The name of the property. + * @param {any} value - The value. + * @param {Array} result - The method stores the result in this array. + * @return {Array} The found 3D objects. + */ + getObjectsByProperty( name, value, result = [] ) { + + if ( this[ name ] === value ) result.push( this ); + + const children = this.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + children[ i ].getObjectsByProperty( name, value, result ); + + } + + return result; + + } + + /** + * Returns a vector representing the position of the 3D object in world space. + * + * @param {Vector3} target - The target vector the result is stored to. + * @return {Vector3} The 3D object's position in world space. + */ + getWorldPosition( target ) { + + this.updateWorldMatrix( true, false ); + + return target.setFromMatrixPosition( this.matrixWorld ); + + } + + /** + * Returns a Quaternion representing the position of the 3D object in world space. + * + * @param {Quaternion} target - The target Quaternion the result is stored to. + * @return {Quaternion} The 3D object's rotation in world space. + */ + getWorldQuaternion( target ) { + + this.updateWorldMatrix( true, false ); + + this.matrixWorld.decompose( _position$3, target, _scale$2 ); + + return target; + + } + + /** + * Returns a vector representing the scale of the 3D object in world space. + * + * @param {Vector3} target - The target vector the result is stored to. + * @return {Vector3} The 3D object's scale in world space. + */ + getWorldScale( target ) { + + this.updateWorldMatrix( true, false ); + + this.matrixWorld.decompose( _position$3, _quaternion$2, target ); + + return target; + + } + + /** + * Returns a vector representing the ("look") direction of the 3D object in world space. + * + * @param {Vector3} target - The target vector the result is stored to. + * @return {Vector3} The 3D object's direction in world space. + */ + getWorldDirection( target ) { + + this.updateWorldMatrix( true, false ); + + const e = this.matrixWorld.elements; + + return target.set( e[ 8 ], e[ 9 ], e[ 10 ] ).normalize(); + + } + + /** + * Abstract method to get intersections between a casted ray and this + * 3D object. Renderable 3D objects such as {@link Mesh}, {@link Line} or {@link Points} + * implement this method in order to use raycasting. + * + * @abstract + * @param {Raycaster} raycaster - The raycaster. + * @param {Array} intersects - An array holding the result of the method. + */ + raycast( /* raycaster, intersects */ ) {} + + /** + * Executes the callback on this 3D object and all descendants. + * + * Note: Modifying the scene graph inside the callback is discouraged. + * + * @param {Function} callback - A callback function that allows to process the current 3D object. + */ + traverse( callback ) { + + callback( this ); + + const children = this.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + children[ i ].traverse( callback ); + + } + + } + + /** + * Like {@link Object3D#traverse}, but the callback will only be executed for visible 3D objects. + * Descendants of invisible 3D objects are not traversed. + * + * Note: Modifying the scene graph inside the callback is discouraged. + * + * @param {Function} callback - A callback function that allows to process the current 3D object. + */ + traverseVisible( callback ) { + + if ( this.visible === false ) return; + + callback( this ); + + const children = this.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + children[ i ].traverseVisible( callback ); + + } + + } + + /** + * Like {@link Object3D#traverse}, but the callback will only be executed for all ancestors. + * + * Note: Modifying the scene graph inside the callback is discouraged. + * + * @param {Function} callback - A callback function that allows to process the current 3D object. + */ + traverseAncestors( callback ) { + + const parent = this.parent; + + if ( parent !== null ) { + + callback( parent ); + + parent.traverseAncestors( callback ); + + } + + } + + /** + * Updates the transformation matrix in local space by computing it from the current + * position, rotation and scale values. + */ + updateMatrix() { + + this.matrix.compose( this.position, this.quaternion, this.scale ); + + this.matrixWorldNeedsUpdate = true; + + } + + /** + * Updates the transformation matrix in world space of this 3D objects and its descendants. + * + * To ensure correct results, this method also recomputes the 3D object's transformation matrix in + * local space. The computation of the local and world matrix can be controlled with the + * {@link Object3D#matrixAutoUpdate} and {@link Object3D#matrixWorldAutoUpdate} flags which are both + * `true` by default. Set these flags to `false` if you need more control over the update matrix process. + * + * @param {boolean} [force=false] - When set to `true`, a recomputation of world matrices is forced even + * when {@link Object3D#matrixWorldAutoUpdate} is set to `false`. + */ + updateMatrixWorld( force ) { + + if ( this.matrixAutoUpdate ) this.updateMatrix(); + + if ( this.matrixWorldNeedsUpdate || force ) { + + if ( this.matrixWorldAutoUpdate === true ) { + + if ( this.parent === null ) { + + this.matrixWorld.copy( this.matrix ); + + } else { + + this.matrixWorld.multiplyMatrices( this.parent.matrixWorld, this.matrix ); + + } + + } + + this.matrixWorldNeedsUpdate = false; + + force = true; + + } + + // make sure descendants are updated if required + + const children = this.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + const child = children[ i ]; + + child.updateMatrixWorld( force ); + + } + + } + + /** + * An alternative version of {@link Object3D#updateMatrixWorld} with more control over the + * update of ancestor and descendant nodes. + * + * @param {boolean} [updateParents=false] Whether ancestor nodes should be updated or not. + * @param {boolean} [updateChildren=false] Whether descendant nodes should be updated or not. + */ + updateWorldMatrix( updateParents, updateChildren ) { + + const parent = this.parent; + + if ( updateParents === true && parent !== null ) { + + parent.updateWorldMatrix( true, false ); + + } + + if ( this.matrixAutoUpdate ) this.updateMatrix(); + + if ( this.matrixWorldAutoUpdate === true ) { + + if ( this.parent === null ) { + + this.matrixWorld.copy( this.matrix ); + + } else { + + this.matrixWorld.multiplyMatrices( this.parent.matrixWorld, this.matrix ); + + } + + } + + // make sure descendants are updated + + if ( updateChildren === true ) { + + const children = this.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + const child = children[ i ]; + + child.updateWorldMatrix( false, true ); + + } + + } + + } + + /** + * Serializes the 3D object into JSON. + * + * @param {?(Object|string)} meta - An optional value holding meta information about the serialization. + * @return {Object} A JSON object representing the serialized 3D object. + * @see {@link ObjectLoader#parse} + */ + toJSON( meta ) { + + // meta is a string when called from JSON.stringify + const isRootObject = ( meta === undefined || typeof meta === 'string' ); + + const output = {}; + + // meta is a hash used to collect geometries, materials. + // not providing it implies that this is the root object + // being serialized. + if ( isRootObject ) { + + // initialize meta obj + meta = { + geometries: {}, + materials: {}, + textures: {}, + images: {}, + shapes: {}, + skeletons: {}, + animations: {}, + nodes: {} + }; + + output.metadata = { + version: 4.6, + type: 'Object', + generator: 'Object3D.toJSON' + }; + + } + + // standard Object3D serialization + + const object = {}; + + object.uuid = this.uuid; + object.type = this.type; + + if ( this.name !== '' ) object.name = this.name; + if ( this.castShadow === true ) object.castShadow = true; + if ( this.receiveShadow === true ) object.receiveShadow = true; + if ( this.visible === false ) object.visible = false; + if ( this.frustumCulled === false ) object.frustumCulled = false; + if ( this.renderOrder !== 0 ) object.renderOrder = this.renderOrder; + if ( Object.keys( this.userData ).length > 0 ) object.userData = this.userData; + + object.layers = this.layers.mask; + object.matrix = this.matrix.toArray(); + object.up = this.up.toArray(); + + if ( this.matrixAutoUpdate === false ) object.matrixAutoUpdate = false; + + // object specific properties + + if ( this.isInstancedMesh ) { + + object.type = 'InstancedMesh'; + object.count = this.count; + object.instanceMatrix = this.instanceMatrix.toJSON(); + if ( this.instanceColor !== null ) object.instanceColor = this.instanceColor.toJSON(); + + } + + if ( this.isBatchedMesh ) { + + object.type = 'BatchedMesh'; + object.perObjectFrustumCulled = this.perObjectFrustumCulled; + object.sortObjects = this.sortObjects; + + object.drawRanges = this._drawRanges; + object.reservedRanges = this._reservedRanges; + + object.visibility = this._visibility; + object.active = this._active; + object.bounds = this._bounds.map( bound => ( { + boxInitialized: bound.boxInitialized, + boxMin: bound.box.min.toArray(), + boxMax: bound.box.max.toArray(), + + sphereInitialized: bound.sphereInitialized, + sphereRadius: bound.sphere.radius, + sphereCenter: bound.sphere.center.toArray() + } ) ); + + object.maxInstanceCount = this._maxInstanceCount; + object.maxVertexCount = this._maxVertexCount; + object.maxIndexCount = this._maxIndexCount; + + object.geometryInitialized = this._geometryInitialized; + object.geometryCount = this._geometryCount; + + object.matricesTexture = this._matricesTexture.toJSON( meta ); + + if ( this._colorsTexture !== null ) object.colorsTexture = this._colorsTexture.toJSON( meta ); + + if ( this.boundingSphere !== null ) { + + object.boundingSphere = { + center: object.boundingSphere.center.toArray(), + radius: object.boundingSphere.radius + }; + + } + + if ( this.boundingBox !== null ) { + + object.boundingBox = { + min: object.boundingBox.min.toArray(), + max: object.boundingBox.max.toArray() + }; + + } + + } + + // + + function serialize( library, element ) { + + if ( library[ element.uuid ] === undefined ) { + + library[ element.uuid ] = element.toJSON( meta ); + + } + + return element.uuid; + + } + + if ( this.isScene ) { + + if ( this.background ) { + + if ( this.background.isColor ) { + + object.background = this.background.toJSON(); + + } else if ( this.background.isTexture ) { + + object.background = this.background.toJSON( meta ).uuid; + + } + + } + + if ( this.environment && this.environment.isTexture && this.environment.isRenderTargetTexture !== true ) { + + object.environment = this.environment.toJSON( meta ).uuid; + + } + + } else if ( this.isMesh || this.isLine || this.isPoints ) { + + object.geometry = serialize( meta.geometries, this.geometry ); + + const parameters = this.geometry.parameters; + + if ( parameters !== undefined && parameters.shapes !== undefined ) { + + const shapes = parameters.shapes; + + if ( Array.isArray( shapes ) ) { + + for ( let i = 0, l = shapes.length; i < l; i ++ ) { + + const shape = shapes[ i ]; + + serialize( meta.shapes, shape ); + + } + + } else { + + serialize( meta.shapes, shapes ); + + } + + } + + } + + if ( this.isSkinnedMesh ) { + + object.bindMode = this.bindMode; + object.bindMatrix = this.bindMatrix.toArray(); + + if ( this.skeleton !== undefined ) { + + serialize( meta.skeletons, this.skeleton ); + + object.skeleton = this.skeleton.uuid; + + } + + } + + if ( this.material !== undefined ) { + + if ( Array.isArray( this.material ) ) { + + const uuids = []; + + for ( let i = 0, l = this.material.length; i < l; i ++ ) { + + uuids.push( serialize( meta.materials, this.material[ i ] ) ); + + } + + object.material = uuids; + + } else { + + object.material = serialize( meta.materials, this.material ); + + } + + } + + // + + if ( this.children.length > 0 ) { + + object.children = []; + + for ( let i = 0; i < this.children.length; i ++ ) { + + object.children.push( this.children[ i ].toJSON( meta ).object ); + + } + + } + + // + + if ( this.animations.length > 0 ) { + + object.animations = []; + + for ( let i = 0; i < this.animations.length; i ++ ) { + + const animation = this.animations[ i ]; + + object.animations.push( serialize( meta.animations, animation ) ); + + } + + } + + if ( isRootObject ) { + + const geometries = extractFromCache( meta.geometries ); + const materials = extractFromCache( meta.materials ); + const textures = extractFromCache( meta.textures ); + const images = extractFromCache( meta.images ); + const shapes = extractFromCache( meta.shapes ); + const skeletons = extractFromCache( meta.skeletons ); + const animations = extractFromCache( meta.animations ); + const nodes = extractFromCache( meta.nodes ); + + if ( geometries.length > 0 ) output.geometries = geometries; + if ( materials.length > 0 ) output.materials = materials; + if ( textures.length > 0 ) output.textures = textures; + if ( images.length > 0 ) output.images = images; + if ( shapes.length > 0 ) output.shapes = shapes; + if ( skeletons.length > 0 ) output.skeletons = skeletons; + if ( animations.length > 0 ) output.animations = animations; + if ( nodes.length > 0 ) output.nodes = nodes; + + } + + output.object = object; + + return output; + + // extract data from the cache hash + // remove metadata on each item + // and return as array + function extractFromCache( cache ) { + + const values = []; + for ( const key in cache ) { + + const data = cache[ key ]; + delete data.metadata; + values.push( data ); + + } + + return values; + + } + + } + + /** + * Returns a new 3D object with copied values from this instance. + * + * @param {boolean} [recursive=true] - When set to `true`, descendants of the 3D object are also cloned. + * @return {Object3D} A clone of this instance. + */ + clone( recursive ) { + + return new this.constructor().copy( this, recursive ); + + } + + /** + * Copies the values of the given 3D object to this instance. + * + * @param {Object3D} source - The 3D object to copy. + * @param {boolean} [recursive=true] - When set to `true`, descendants of the 3D object are cloned. + * @return {Object3D} A reference to this instance. + */ + copy( source, recursive = true ) { + + this.name = source.name; + + this.up.copy( source.up ); + + this.position.copy( source.position ); + this.rotation.order = source.rotation.order; + this.quaternion.copy( source.quaternion ); + this.scale.copy( source.scale ); + + this.matrix.copy( source.matrix ); + this.matrixWorld.copy( source.matrixWorld ); + + this.matrixAutoUpdate = source.matrixAutoUpdate; + + this.matrixWorldAutoUpdate = source.matrixWorldAutoUpdate; + this.matrixWorldNeedsUpdate = source.matrixWorldNeedsUpdate; + + this.layers.mask = source.layers.mask; + this.visible = source.visible; + + this.castShadow = source.castShadow; + this.receiveShadow = source.receiveShadow; + + this.frustumCulled = source.frustumCulled; + this.renderOrder = source.renderOrder; + + this.animations = source.animations.slice(); + + this.userData = JSON.parse( JSON.stringify( source.userData ) ); + + if ( recursive === true ) { + + for ( let i = 0; i < source.children.length; i ++ ) { + + const child = source.children[ i ]; + this.add( child.clone() ); + + } + + } + + return this; + + } + +} + +/** + * The default up direction for objects, also used as the default + * position for {@link DirectionalLight} and {@link HemisphereLight}. + * + * @static + * @type {Vector3} + * @default (0,1,0) + */ +Object3D.DEFAULT_UP = /*@__PURE__*/ new Vector3( 0, 1, 0 ); + +/** + * The default setting for {@link Object3D#matrixAutoUpdate} for + * newly created 3D objects. + * + * @static + * @type {boolean} + * @default true + */ +Object3D.DEFAULT_MATRIX_AUTO_UPDATE = true; + +/** + * The default setting for {@link Object3D#matrixWorldAutoUpdate} for + * newly created 3D objects. + * + * @static + * @type {boolean} + * @default true + */ +Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE = true; + +const _v0$1 = /*@__PURE__*/ new Vector3(); +const _v1$3 = /*@__PURE__*/ new Vector3(); +const _v2$2 = /*@__PURE__*/ new Vector3(); +const _v3$2 = /*@__PURE__*/ new Vector3(); + +const _vab = /*@__PURE__*/ new Vector3(); +const _vac = /*@__PURE__*/ new Vector3(); +const _vbc = /*@__PURE__*/ new Vector3(); +const _vap = /*@__PURE__*/ new Vector3(); +const _vbp = /*@__PURE__*/ new Vector3(); +const _vcp = /*@__PURE__*/ new Vector3(); + +const _v40 = /*@__PURE__*/ new Vector4(); +const _v41 = /*@__PURE__*/ new Vector4(); +const _v42 = /*@__PURE__*/ new Vector4(); + +/** + * A geometric triangle as defined by three vectors representing its three corners. + */ +class Triangle { + + /** + * Constructs a new triangle. + * + * @param {Vector3} [a=(0,0,0)] - The first corner of the triangle. + * @param {Vector3} [b=(0,0,0)] - The second corner of the triangle. + * @param {Vector3} [c=(0,0,0)] - The third corner of the triangle. + */ + constructor( a = new Vector3(), b = new Vector3(), c = new Vector3() ) { + + /** + * The first corner of the triangle. + * + * @type {Vector3} + */ + this.a = a; + + /** + * The second corner of the triangle. + * + * @type {Vector3} + */ + this.b = b; + + /** + * The third corner of the triangle. + * + * @type {Vector3} + */ + this.c = c; + + } + + /** + * Computes the normal vector of a triangle. + * + * @param {Vector3} a - The first corner of the triangle. + * @param {Vector3} b - The second corner of the triangle. + * @param {Vector3} c - The third corner of the triangle. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The triangle's normal. + */ + static getNormal( a, b, c, target ) { + + target.subVectors( c, b ); + _v0$1.subVectors( a, b ); + target.cross( _v0$1 ); + + const targetLengthSq = target.lengthSq(); + if ( targetLengthSq > 0 ) { + + return target.multiplyScalar( 1 / Math.sqrt( targetLengthSq ) ); + + } + + return target.set( 0, 0, 0 ); + + } + + /** + * Computes a barycentric coordinates from the given vector. + * Returns `null` if the triangle is degenerate. + * + * @param {Vector3} point - A point in 3D space. + * @param {Vector3} a - The first corner of the triangle. + * @param {Vector3} b - The second corner of the triangle. + * @param {Vector3} c - The third corner of the triangle. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {?Vector3} The barycentric coordinates for the given point + */ + static getBarycoord( point, a, b, c, target ) { + + // based on: http://www.blackpawn.com/texts/pointinpoly/default.html + + _v0$1.subVectors( c, a ); + _v1$3.subVectors( b, a ); + _v2$2.subVectors( point, a ); + + const dot00 = _v0$1.dot( _v0$1 ); + const dot01 = _v0$1.dot( _v1$3 ); + const dot02 = _v0$1.dot( _v2$2 ); + const dot11 = _v1$3.dot( _v1$3 ); + const dot12 = _v1$3.dot( _v2$2 ); + + const denom = ( dot00 * dot11 - dot01 * dot01 ); + + // collinear or singular triangle + if ( denom === 0 ) { + + target.set( 0, 0, 0 ); + return null; + + } + + const invDenom = 1 / denom; + const u = ( dot11 * dot02 - dot01 * dot12 ) * invDenom; + const v = ( dot00 * dot12 - dot01 * dot02 ) * invDenom; + + // barycentric coordinates must always sum to 1 + return target.set( 1 - u - v, v, u ); + + } + + /** + * Returns `true` if the given point, when projected onto the plane of the + * triangle, lies within the triangle. + * + * @param {Vector3} point - The point in 3D space to test. + * @param {Vector3} a - The first corner of the triangle. + * @param {Vector3} b - The second corner of the triangle. + * @param {Vector3} c - The third corner of the triangle. + * @return {boolean} Whether the given point, when projected onto the plane of the + * triangle, lies within the triangle or not. + */ + static containsPoint( point, a, b, c ) { + + // if the triangle is degenerate then we can't contain a point + if ( this.getBarycoord( point, a, b, c, _v3$2 ) === null ) { + + return false; + + } + + return ( _v3$2.x >= 0 ) && ( _v3$2.y >= 0 ) && ( ( _v3$2.x + _v3$2.y ) <= 1 ); + + } + + /** + * Computes the value barycentrically interpolated for the given point on the + * triangle. Returns `null` if the triangle is degenerate. + * + * @param {Vector3} point - Position of interpolated point. + * @param {Vector3} p1 - The first corner of the triangle. + * @param {Vector3} p2 - The second corner of the triangle. + * @param {Vector3} p3 - The third corner of the triangle. + * @param {Vector3} v1 - Value to interpolate of first vertex. + * @param {Vector3} v2 - Value to interpolate of second vertex. + * @param {Vector3} v3 - Value to interpolate of third vertex. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {?Vector3} The interpolated value. + */ + static getInterpolation( point, p1, p2, p3, v1, v2, v3, target ) { + + if ( this.getBarycoord( point, p1, p2, p3, _v3$2 ) === null ) { + + target.x = 0; + target.y = 0; + if ( 'z' in target ) target.z = 0; + if ( 'w' in target ) target.w = 0; + return null; + + } + + target.setScalar( 0 ); + target.addScaledVector( v1, _v3$2.x ); + target.addScaledVector( v2, _v3$2.y ); + target.addScaledVector( v3, _v3$2.z ); + + return target; + + } + + /** + * Computes the value barycentrically interpolated for the given attribute and indices. + * + * @param {BufferAttribute} attr - The attribute to interpolate. + * @param {number} i1 - Index of first vertex. + * @param {number} i2 - Index of second vertex. + * @param {number} i3 - Index of third vertex. + * @param {Vector3} barycoord - The barycoordinate value to use to interpolate. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The interpolated attribute value. + */ + static getInterpolatedAttribute( attr, i1, i2, i3, barycoord, target ) { + + _v40.setScalar( 0 ); + _v41.setScalar( 0 ); + _v42.setScalar( 0 ); + + _v40.fromBufferAttribute( attr, i1 ); + _v41.fromBufferAttribute( attr, i2 ); + _v42.fromBufferAttribute( attr, i3 ); + + target.setScalar( 0 ); + target.addScaledVector( _v40, barycoord.x ); + target.addScaledVector( _v41, barycoord.y ); + target.addScaledVector( _v42, barycoord.z ); + + return target; + + } + + /** + * Returns `true` if the triangle is oriented towards the given direction. + * + * @param {Vector3} a - The first corner of the triangle. + * @param {Vector3} b - The second corner of the triangle. + * @param {Vector3} c - The third corner of the triangle. + * @param {Vector3} direction - The (normalized) direction vector. + * @return {boolean} Whether the triangle is oriented towards the given direction or not. + */ + static isFrontFacing( a, b, c, direction ) { + + _v0$1.subVectors( c, b ); + _v1$3.subVectors( a, b ); + + // strictly front facing + return ( _v0$1.cross( _v1$3 ).dot( direction ) < 0 ) ? true : false; + + } + + /** + * Sets the triangle's vertices by copying the given values. + * + * @param {Vector3} a - The first corner of the triangle. + * @param {Vector3} b - The second corner of the triangle. + * @param {Vector3} c - The third corner of the triangle. + * @return {Triangle} A reference to this triangle. + */ + set( a, b, c ) { + + this.a.copy( a ); + this.b.copy( b ); + this.c.copy( c ); + + return this; + + } + + /** + * Sets the triangle's vertices by copying the given array values. + * + * @param {Array} points - An array with 3D points. + * @param {number} i0 - The array index representing the first corner of the triangle. + * @param {number} i1 - The array index representing the second corner of the triangle. + * @param {number} i2 - The array index representing the third corner of the triangle. + * @return {Triangle} A reference to this triangle. + */ + setFromPointsAndIndices( points, i0, i1, i2 ) { + + this.a.copy( points[ i0 ] ); + this.b.copy( points[ i1 ] ); + this.c.copy( points[ i2 ] ); + + return this; + + } + + /** + * Sets the triangle's vertices by copying the given attribute values. + * + * @param {BufferAttribute} attribute - A buffer attribute with 3D points data. + * @param {number} i0 - The attribute index representing the first corner of the triangle. + * @param {number} i1 - The attribute index representing the second corner of the triangle. + * @param {number} i2 - The attribute index representing the third corner of the triangle. + * @return {Triangle} A reference to this triangle. + */ + setFromAttributeAndIndices( attribute, i0, i1, i2 ) { + + this.a.fromBufferAttribute( attribute, i0 ); + this.b.fromBufferAttribute( attribute, i1 ); + this.c.fromBufferAttribute( attribute, i2 ); + + return this; + + } + + /** + * Returns a new triangle with copied values from this instance. + * + * @return {Triangle} A clone of this instance. + */ + clone() { + + return new this.constructor().copy( this ); + + } + + /** + * Copies the values of the given triangle to this instance. + * + * @param {Triangle} triangle - The triangle to copy. + * @return {Triangle} A reference to this triangle. + */ + copy( triangle ) { + + this.a.copy( triangle.a ); + this.b.copy( triangle.b ); + this.c.copy( triangle.c ); + + return this; + + } + + /** + * Computes the area of the triangle. + * + * @return {number} The triangle's area. + */ + getArea() { + + _v0$1.subVectors( this.c, this.b ); + _v1$3.subVectors( this.a, this.b ); + + return _v0$1.cross( _v1$3 ).length() * 0.5; + + } + + /** + * Computes the midpoint of the triangle. + * + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The triangle's midpoint. + */ + getMidpoint( target ) { + + return target.addVectors( this.a, this.b ).add( this.c ).multiplyScalar( 1 / 3 ); + + } + + /** + * Computes the normal of the triangle. + * + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The triangle's normal. + */ + getNormal( target ) { + + return Triangle.getNormal( this.a, this.b, this.c, target ); + + } + + /** + * Computes a plane the triangle lies within. + * + * @param {Plane} target - The target vector that is used to store the method's result. + * @return {Plane} The plane the triangle lies within. + */ + getPlane( target ) { + + return target.setFromCoplanarPoints( this.a, this.b, this.c ); + + } + + /** + * Computes a barycentric coordinates from the given vector. + * Returns `null` if the triangle is degenerate. + * + * @param {Vector3} point - A point in 3D space. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {?Vector3} The barycentric coordinates for the given point + */ + getBarycoord( point, target ) { + + return Triangle.getBarycoord( point, this.a, this.b, this.c, target ); + + } + + /** + * Computes the value barycentrically interpolated for the given point on the + * triangle. Returns `null` if the triangle is degenerate. + * + * @param {Vector3} point - Position of interpolated point. + * @param {Vector3} v1 - Value to interpolate of first vertex. + * @param {Vector3} v2 - Value to interpolate of second vertex. + * @param {Vector3} v3 - Value to interpolate of third vertex. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {?Vector3} The interpolated value. + */ + getInterpolation( point, v1, v2, v3, target ) { + + return Triangle.getInterpolation( point, this.a, this.b, this.c, v1, v2, v3, target ); + + } + + /** + * Returns `true` if the given point, when projected onto the plane of the + * triangle, lies within the triangle. + * + * @param {Vector3} point - The point in 3D space to test. + * @return {boolean} Whether the given point, when projected onto the plane of the + * triangle, lies within the triangle or not. + */ + containsPoint( point ) { + + return Triangle.containsPoint( point, this.a, this.b, this.c ); + + } + + /** + * Returns `true` if the triangle is oriented towards the given direction. + * + * @param {Vector3} direction - The (normalized) direction vector. + * @return {boolean} Whether the triangle is oriented towards the given direction or not. + */ + isFrontFacing( direction ) { + + return Triangle.isFrontFacing( this.a, this.b, this.c, direction ); + + } + + /** + * Returns `true` if this triangle intersects with the given box. + * + * @param {Box3} box - The box to intersect. + * @return {boolean} Whether this triangle intersects with the given box or not. + */ + intersectsBox( box ) { + + return box.intersectsTriangle( this ); + + } + + /** + * Returns the closest point on the triangle to the given point. + * + * @param {Vector3} p - The point to compute the closest point for. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The closest point on the triangle. + */ + closestPointToPoint( p, target ) { + + const a = this.a, b = this.b, c = this.c; + let v, w; + + // algorithm thanks to Real-Time Collision Detection by Christer Ericson, + // published by Morgan Kaufmann Publishers, (c) 2005 Elsevier Inc., + // under the accompanying license; see chapter 5.1.5 for detailed explanation. + // basically, we're distinguishing which of the voronoi regions of the triangle + // the point lies in with the minimum amount of redundant computation. + + _vab.subVectors( b, a ); + _vac.subVectors( c, a ); + _vap.subVectors( p, a ); + const d1 = _vab.dot( _vap ); + const d2 = _vac.dot( _vap ); + if ( d1 <= 0 && d2 <= 0 ) { + + // vertex region of A; barycentric coords (1, 0, 0) + return target.copy( a ); + + } + + _vbp.subVectors( p, b ); + const d3 = _vab.dot( _vbp ); + const d4 = _vac.dot( _vbp ); + if ( d3 >= 0 && d4 <= d3 ) { + + // vertex region of B; barycentric coords (0, 1, 0) + return target.copy( b ); + + } + + const vc = d1 * d4 - d3 * d2; + if ( vc <= 0 && d1 >= 0 && d3 <= 0 ) { + + v = d1 / ( d1 - d3 ); + // edge region of AB; barycentric coords (1-v, v, 0) + return target.copy( a ).addScaledVector( _vab, v ); + + } + + _vcp.subVectors( p, c ); + const d5 = _vab.dot( _vcp ); + const d6 = _vac.dot( _vcp ); + if ( d6 >= 0 && d5 <= d6 ) { + + // vertex region of C; barycentric coords (0, 0, 1) + return target.copy( c ); + + } + + const vb = d5 * d2 - d1 * d6; + if ( vb <= 0 && d2 >= 0 && d6 <= 0 ) { + + w = d2 / ( d2 - d6 ); + // edge region of AC; barycentric coords (1-w, 0, w) + return target.copy( a ).addScaledVector( _vac, w ); + + } + + const va = d3 * d6 - d5 * d4; + if ( va <= 0 && ( d4 - d3 ) >= 0 && ( d5 - d6 ) >= 0 ) { + + _vbc.subVectors( c, b ); + w = ( d4 - d3 ) / ( ( d4 - d3 ) + ( d5 - d6 ) ); + // edge region of BC; barycentric coords (0, 1-w, w) + return target.copy( b ).addScaledVector( _vbc, w ); // edge region of BC + + } + + // face region + const denom = 1 / ( va + vb + vc ); + // u = va * denom + v = vb * denom; + w = vc * denom; + + return target.copy( a ).addScaledVector( _vab, v ).addScaledVector( _vac, w ); + + } + + /** + * Returns `true` if this triangle is equal with the given one. + * + * @param {Triangle} triangle - The triangle to test for equality. + * @return {boolean} Whether this triangle is equal with the given one. + */ + equals( triangle ) { + + return triangle.a.equals( this.a ) && triangle.b.equals( this.b ) && triangle.c.equals( this.c ); + + } + +} + +const _colorKeywords = { 'aliceblue': 0xF0F8FF, 'antiquewhite': 0xFAEBD7, 'aqua': 0x00FFFF, 'aquamarine': 0x7FFFD4, 'azure': 0xF0FFFF, + 'beige': 0xF5F5DC, 'bisque': 0xFFE4C4, 'black': 0x000000, 'blanchedalmond': 0xFFEBCD, 'blue': 0x0000FF, 'blueviolet': 0x8A2BE2, + 'brown': 0xA52A2A, 'burlywood': 0xDEB887, 'cadetblue': 0x5F9EA0, 'chartreuse': 0x7FFF00, 'chocolate': 0xD2691E, 'coral': 0xFF7F50, + 'cornflowerblue': 0x6495ED, 'cornsilk': 0xFFF8DC, 'crimson': 0xDC143C, 'cyan': 0x00FFFF, 'darkblue': 0x00008B, 'darkcyan': 0x008B8B, + 'darkgoldenrod': 0xB8860B, 'darkgray': 0xA9A9A9, 'darkgreen': 0x006400, 'darkgrey': 0xA9A9A9, 'darkkhaki': 0xBDB76B, 'darkmagenta': 0x8B008B, + 'darkolivegreen': 0x556B2F, 'darkorange': 0xFF8C00, 'darkorchid': 0x9932CC, 'darkred': 0x8B0000, 'darksalmon': 0xE9967A, 'darkseagreen': 0x8FBC8F, + 'darkslateblue': 0x483D8B, 'darkslategray': 0x2F4F4F, 'darkslategrey': 0x2F4F4F, 'darkturquoise': 0x00CED1, 'darkviolet': 0x9400D3, + 'deeppink': 0xFF1493, 'deepskyblue': 0x00BFFF, 'dimgray': 0x696969, 'dimgrey': 0x696969, 'dodgerblue': 0x1E90FF, 'firebrick': 0xB22222, + 'floralwhite': 0xFFFAF0, 'forestgreen': 0x228B22, 'fuchsia': 0xFF00FF, 'gainsboro': 0xDCDCDC, 'ghostwhite': 0xF8F8FF, 'gold': 0xFFD700, + 'goldenrod': 0xDAA520, 'gray': 0x808080, 'green': 0x008000, 'greenyellow': 0xADFF2F, 'grey': 0x808080, 'honeydew': 0xF0FFF0, 'hotpink': 0xFF69B4, + 'indianred': 0xCD5C5C, 'indigo': 0x4B0082, 'ivory': 0xFFFFF0, 'khaki': 0xF0E68C, 'lavender': 0xE6E6FA, 'lavenderblush': 0xFFF0F5, 'lawngreen': 0x7CFC00, + 'lemonchiffon': 0xFFFACD, 'lightblue': 0xADD8E6, 'lightcoral': 0xF08080, 'lightcyan': 0xE0FFFF, 'lightgoldenrodyellow': 0xFAFAD2, 'lightgray': 0xD3D3D3, + 'lightgreen': 0x90EE90, 'lightgrey': 0xD3D3D3, 'lightpink': 0xFFB6C1, 'lightsalmon': 0xFFA07A, 'lightseagreen': 0x20B2AA, 'lightskyblue': 0x87CEFA, + 'lightslategray': 0x778899, 'lightslategrey': 0x778899, 'lightsteelblue': 0xB0C4DE, 'lightyellow': 0xFFFFE0, 'lime': 0x00FF00, 'limegreen': 0x32CD32, + 'linen': 0xFAF0E6, 'magenta': 0xFF00FF, 'maroon': 0x800000, 'mediumaquamarine': 0x66CDAA, 'mediumblue': 0x0000CD, 'mediumorchid': 0xBA55D3, + 'mediumpurple': 0x9370DB, 'mediumseagreen': 0x3CB371, 'mediumslateblue': 0x7B68EE, 'mediumspringgreen': 0x00FA9A, 'mediumturquoise': 0x48D1CC, + 'mediumvioletred': 0xC71585, 'midnightblue': 0x191970, 'mintcream': 0xF5FFFA, 'mistyrose': 0xFFE4E1, 'moccasin': 0xFFE4B5, 'navajowhite': 0xFFDEAD, + 'navy': 0x000080, 'oldlace': 0xFDF5E6, 'olive': 0x808000, 'olivedrab': 0x6B8E23, 'orange': 0xFFA500, 'orangered': 0xFF4500, 'orchid': 0xDA70D6, + 'palegoldenrod': 0xEEE8AA, 'palegreen': 0x98FB98, 'paleturquoise': 0xAFEEEE, 'palevioletred': 0xDB7093, 'papayawhip': 0xFFEFD5, 'peachpuff': 0xFFDAB9, + 'peru': 0xCD853F, 'pink': 0xFFC0CB, 'plum': 0xDDA0DD, 'powderblue': 0xB0E0E6, 'purple': 0x800080, 'rebeccapurple': 0x663399, 'red': 0xFF0000, 'rosybrown': 0xBC8F8F, + 'royalblue': 0x4169E1, 'saddlebrown': 0x8B4513, 'salmon': 0xFA8072, 'sandybrown': 0xF4A460, 'seagreen': 0x2E8B57, 'seashell': 0xFFF5EE, + 'sienna': 0xA0522D, 'silver': 0xC0C0C0, 'skyblue': 0x87CEEB, 'slateblue': 0x6A5ACD, 'slategray': 0x708090, 'slategrey': 0x708090, 'snow': 0xFFFAFA, + 'springgreen': 0x00FF7F, 'steelblue': 0x4682B4, 'tan': 0xD2B48C, 'teal': 0x008080, 'thistle': 0xD8BFD8, 'tomato': 0xFF6347, 'turquoise': 0x40E0D0, + 'violet': 0xEE82EE, 'wheat': 0xF5DEB3, 'white': 0xFFFFFF, 'whitesmoke': 0xF5F5F5, 'yellow': 0xFFFF00, 'yellowgreen': 0x9ACD32 }; + +const _hslA = { h: 0, s: 0, l: 0 }; +const _hslB = { h: 0, s: 0, l: 0 }; + +function hue2rgb( p, q, t ) { + + if ( t < 0 ) t += 1; + if ( t > 1 ) t -= 1; + if ( t < 1 / 6 ) return p + ( q - p ) * 6 * t; + if ( t < 1 / 2 ) return q; + if ( t < 2 / 3 ) return p + ( q - p ) * 6 * ( 2 / 3 - t ); + return p; + +} + +/** + * A Color instance is represented by RGB components in the linear working + * color space, which defaults to `LinearSRGBColorSpace`. Inputs + * conventionally using `SRGBColorSpace` (such as hexadecimals and CSS + * strings) are converted to the working color space automatically. + * + * ```js + * // converted automatically from SRGBColorSpace to LinearSRGBColorSpace + * const color = new THREE.Color().setHex( 0x112233 ); + * ``` + * Source color spaces may be specified explicitly, to ensure correct conversions. + * ```js + * // assumed already LinearSRGBColorSpace; no conversion + * const color = new THREE.Color().setRGB( 0.5, 0.5, 0.5 ); + * + * // converted explicitly from SRGBColorSpace to LinearSRGBColorSpace + * const color = new THREE.Color().setRGB( 0.5, 0.5, 0.5, SRGBColorSpace ); + * ``` + * If THREE.ColorManagement is disabled, no conversions occur. For details, + * see Color management. Iterating through a Color instance will yield + * its components (r, g, b) in the corresponding order. A Color can be initialised + * in any of the following ways: + * ```js + * //empty constructor - will default white + * const color1 = new THREE.Color(); + * + * //Hexadecimal color (recommended) + * const color2 = new THREE.Color( 0xff0000 ); + * + * //RGB string + * const color3 = new THREE.Color("rgb(255, 0, 0)"); + * const color4 = new THREE.Color("rgb(100%, 0%, 0%)"); + * + * //X11 color name - all 140 color names are supported. + * //Note the lack of CamelCase in the name + * const color5 = new THREE.Color( 'skyblue' ); + * //HSL string + * const color6 = new THREE.Color("hsl(0, 100%, 50%)"); + * + * //Separate RGB values between 0 and 1 + * const color7 = new THREE.Color( 1, 0, 0 ); + * ``` + */ +class Color { + + /** + * Constructs a new color. + * + * Note that standard method of specifying color in three.js is with a hexadecimal triplet, + * and that method is used throughout the rest of the documentation. + * + * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are + * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance. + * @param {number} [g] - The green component. + * @param {number} [b] - The blue component. + */ + constructor( r, g, b ) { + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isColor = true; + + /** + * The red component. + * + * @type {number} + * @default 1 + */ + this.r = 1; + + /** + * The green component. + * + * @type {number} + * @default 1 + */ + this.g = 1; + + /** + * The blue component. + * + * @type {number} + * @default 1 + */ + this.b = 1; + + return this.set( r, g, b ); + + } + + /** + * Sets the colors's components from the given values. + * + * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are + * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance. + * @param {number} [g] - The green component. + * @param {number} [b] - The blue component. + * @return {Color} A reference to this color. + */ + set( r, g, b ) { + + if ( g === undefined && b === undefined ) { + + // r is THREE.Color, hex or string + + const value = r; + + if ( value && value.isColor ) { + + this.copy( value ); + + } else if ( typeof value === 'number' ) { + + this.setHex( value ); + + } else if ( typeof value === 'string' ) { + + this.setStyle( value ); + + } + + } else { + + this.setRGB( r, g, b ); + + } + + return this; + + } + + /** + * Sets the colors's components to the given scalar value. + * + * @param {number} scalar - The scalar value. + * @return {Color} A reference to this color. + */ + setScalar( scalar ) { + + this.r = scalar; + this.g = scalar; + this.b = scalar; + + return this; + + } + + /** + * Sets this color from a hexadecimal value. + * + * @param {number} hex - The hexadecimal value. + * @param {string} [colorSpace=SRGBColorSpace] - The color space. + * @return {Color} A reference to this color. + */ + setHex( hex, colorSpace = SRGBColorSpace ) { + + hex = Math.floor( hex ); + + this.r = ( hex >> 16 & 255 ) / 255; + this.g = ( hex >> 8 & 255 ) / 255; + this.b = ( hex & 255 ) / 255; + + ColorManagement.toWorkingColorSpace( this, colorSpace ); + + return this; + + } + + /** + * Sets this color from RGB values. + * + * @param {number} r - Red channel value between `0.0` and `1.0`. + * @param {number} g - Green channel value between `0.0` and `1.0`. + * @param {number} b - Blue channel value between `0.0` and `1.0`. + * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space. + * @return {Color} A reference to this color. + */ + setRGB( r, g, b, colorSpace = ColorManagement.workingColorSpace ) { + + this.r = r; + this.g = g; + this.b = b; + + ColorManagement.toWorkingColorSpace( this, colorSpace ); + + return this; + + } + + /** + * Sets this color from RGB values. + * + * @param {number} h - Hue value between `0.0` and `1.0`. + * @param {number} s - Saturation value between `0.0` and `1.0`. + * @param {number} l - Lightness value between `0.0` and `1.0`. + * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space. + * @return {Color} A reference to this color. + */ + setHSL( h, s, l, colorSpace = ColorManagement.workingColorSpace ) { + + // h,s,l ranges are in 0.0 - 1.0 + h = euclideanModulo( h, 1 ); + s = clamp$1( s, 0, 1 ); + l = clamp$1( l, 0, 1 ); + + if ( s === 0 ) { + + this.r = this.g = this.b = l; + + } else { + + const p = l <= 0.5 ? l * ( 1 + s ) : l + s - ( l * s ); + const q = ( 2 * l ) - p; + + this.r = hue2rgb( q, p, h + 1 / 3 ); + this.g = hue2rgb( q, p, h ); + this.b = hue2rgb( q, p, h - 1 / 3 ); + + } + + ColorManagement.toWorkingColorSpace( this, colorSpace ); + + return this; + + } + + /** + * Sets this color from a CSS-style string. For example, `rgb(250, 0,0)`, + * `rgb(100%, 0%, 0%)`, `hsl(0, 100%, 50%)`, `#ff0000`, `#f00`, or `red` ( or + * any [X11 color name]{@link https://en.wikipedia.org/wiki/X11_color_names#Color_name_chart} - + * all 140 color names are supported). + * + * @param {string} style - Color as a CSS-style string. + * @param {string} [colorSpace=SRGBColorSpace] - The color space. + * @return {Color} A reference to this color. + */ + setStyle( style, colorSpace = SRGBColorSpace ) { + + function handleAlpha( string ) { + + if ( string === undefined ) return; + + if ( parseFloat( string ) < 1 ) { + + console.warn( 'THREE.Color: Alpha component of ' + style + ' will be ignored.' ); + + } + + } + + + let m; + + if ( m = /^(\w+)\(([^\)]*)\)/.exec( style ) ) { + + // rgb / hsl + + let color; + const name = m[ 1 ]; + const components = m[ 2 ]; + + switch ( name ) { + + case 'rgb': + case 'rgba': + + if ( color = /^\s*(\d+)\s*,\s*(\d+)\s*,\s*(\d+)\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec( components ) ) { + + // rgb(255,0,0) rgba(255,0,0,0.5) + + handleAlpha( color[ 4 ] ); + + return this.setRGB( + Math.min( 255, parseInt( color[ 1 ], 10 ) ) / 255, + Math.min( 255, parseInt( color[ 2 ], 10 ) ) / 255, + Math.min( 255, parseInt( color[ 3 ], 10 ) ) / 255, + colorSpace + ); + + } + + if ( color = /^\s*(\d+)\%\s*,\s*(\d+)\%\s*,\s*(\d+)\%\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec( components ) ) { + + // rgb(100%,0%,0%) rgba(100%,0%,0%,0.5) + + handleAlpha( color[ 4 ] ); + + return this.setRGB( + Math.min( 100, parseInt( color[ 1 ], 10 ) ) / 100, + Math.min( 100, parseInt( color[ 2 ], 10 ) ) / 100, + Math.min( 100, parseInt( color[ 3 ], 10 ) ) / 100, + colorSpace + ); + + } + + break; + + case 'hsl': + case 'hsla': + + if ( color = /^\s*(\d*\.?\d+)\s*,\s*(\d*\.?\d+)\%\s*,\s*(\d*\.?\d+)\%\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec( components ) ) { + + // hsl(120,50%,50%) hsla(120,50%,50%,0.5) + + handleAlpha( color[ 4 ] ); + + return this.setHSL( + parseFloat( color[ 1 ] ) / 360, + parseFloat( color[ 2 ] ) / 100, + parseFloat( color[ 3 ] ) / 100, + colorSpace + ); + + } + + break; + + default: + + console.warn( 'THREE.Color: Unknown color model ' + style ); + + } + + } else if ( m = /^\#([A-Fa-f\d]+)$/.exec( style ) ) { + + // hex color + + const hex = m[ 1 ]; + const size = hex.length; + + if ( size === 3 ) { + + // #ff0 + return this.setRGB( + parseInt( hex.charAt( 0 ), 16 ) / 15, + parseInt( hex.charAt( 1 ), 16 ) / 15, + parseInt( hex.charAt( 2 ), 16 ) / 15, + colorSpace + ); + + } else if ( size === 6 ) { + + // #ff0000 + return this.setHex( parseInt( hex, 16 ), colorSpace ); + + } else { + + console.warn( 'THREE.Color: Invalid hex color ' + style ); + + } + + } else if ( style && style.length > 0 ) { + + return this.setColorName( style, colorSpace ); + + } + + return this; + + } + + /** + * Sets this color from a color name. Faster than {@link Color#setStyle} if + * you don't need the other CSS-style formats. + * + * For convenience, the list of names is exposed in `Color.NAMES` as a hash. + * ```js + * Color.NAMES.aliceblue // returns 0xF0F8FF + * ``` + * + * @param {string} style - The color name. + * @param {string} [colorSpace=SRGBColorSpace] - The color space. + * @return {Color} A reference to this color. + */ + setColorName( style, colorSpace = SRGBColorSpace ) { + + // color keywords + const hex = _colorKeywords[ style.toLowerCase() ]; + + if ( hex !== undefined ) { + + // red + this.setHex( hex, colorSpace ); + + } else { + + // unknown color + console.warn( 'THREE.Color: Unknown color ' + style ); + + } + + return this; + + } + + /** + * Returns a new color with copied values from this instance. + * + * @return {Color} A clone of this instance. + */ + clone() { + + return new this.constructor( this.r, this.g, this.b ); + + } + + /** + * Copies the values of the given color to this instance. + * + * @param {Color} color - The color to copy. + * @return {Color} A reference to this color. + */ + copy( color ) { + + this.r = color.r; + this.g = color.g; + this.b = color.b; + + return this; + + } + + /** + * Copies the given color into this color, and then converts this color from + * `SRGBColorSpace` to `LinearSRGBColorSpace`. + * + * @param {Color} color - The color to copy/convert. + * @return {Color} A reference to this color. + */ + copySRGBToLinear( color ) { + + this.r = SRGBToLinear( color.r ); + this.g = SRGBToLinear( color.g ); + this.b = SRGBToLinear( color.b ); + + return this; + + } + + /** + * Copies the given color into this color, and then converts this color from + * `LinearSRGBColorSpace` to `SRGBColorSpace`. + * + * @param {Color} color - The color to copy/convert. + * @return {Color} A reference to this color. + */ + copyLinearToSRGB( color ) { + + this.r = LinearToSRGB( color.r ); + this.g = LinearToSRGB( color.g ); + this.b = LinearToSRGB( color.b ); + + return this; + + } + + /** + * Converts this color from `SRGBColorSpace` to `LinearSRGBColorSpace`. + * + * @return {Color} A reference to this color. + */ + convertSRGBToLinear() { + + this.copySRGBToLinear( this ); + + return this; + + } + + /** + * Converts this color from `LinearSRGBColorSpace` to `SRGBColorSpace`. + * + * @return {Color} A reference to this color. + */ + convertLinearToSRGB() { + + this.copyLinearToSRGB( this ); + + return this; + + } + + /** + * Returns the hexadecimal value of this color. + * + * @param {string} [colorSpace=SRGBColorSpace] - The color space. + * @return {number} The hexadecimal value. + */ + getHex( colorSpace = SRGBColorSpace ) { + + ColorManagement.fromWorkingColorSpace( _color.copy( this ), colorSpace ); + + return Math.round( clamp$1( _color.r * 255, 0, 255 ) ) * 65536 + Math.round( clamp$1( _color.g * 255, 0, 255 ) ) * 256 + Math.round( clamp$1( _color.b * 255, 0, 255 ) ); + + } + + /** + * Returns the hexadecimal value of this color as a string (for example, 'FFFFFF'). + * + * @param {string} [colorSpace=SRGBColorSpace] - The color space. + * @return {string} The hexadecimal value as a string. + */ + getHexString( colorSpace = SRGBColorSpace ) { + + return ( '000000' + this.getHex( colorSpace ).toString( 16 ) ).slice( -6 ); + + } + + /** + * Converts the colors RGB values into the HSL format and stores them into the + * given target object. + * + * @param {{h:0,s:0,l:0}} target - The target object that is used to store the method's result. + * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space. + * @return {{h:number,s:number,l:number}} The HSL representation of this color. + */ + getHSL( target, colorSpace = ColorManagement.workingColorSpace ) { + + // h,s,l ranges are in 0.0 - 1.0 + + ColorManagement.fromWorkingColorSpace( _color.copy( this ), colorSpace ); + + const r = _color.r, g = _color.g, b = _color.b; + + const max = Math.max( r, g, b ); + const min = Math.min( r, g, b ); + + let hue, saturation; + const lightness = ( min + max ) / 2.0; + + if ( min === max ) { + + hue = 0; + saturation = 0; + + } else { + + const delta = max - min; + + saturation = lightness <= 0.5 ? delta / ( max + min ) : delta / ( 2 - max - min ); + + switch ( max ) { + + case r: hue = ( g - b ) / delta + ( g < b ? 6 : 0 ); break; + case g: hue = ( b - r ) / delta + 2; break; + case b: hue = ( r - g ) / delta + 4; break; + + } + + hue /= 6; + + } + + target.h = hue; + target.s = saturation; + target.l = lightness; + + return target; + + } + + /** + * Returns the RGB values of this color and stores them into the given target object. + * + * @param {Color} target - The target color that is used to store the method's result. + * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space. + * @return {Color} The RGB representation of this color. + */ + getRGB( target, colorSpace = ColorManagement.workingColorSpace ) { + + ColorManagement.fromWorkingColorSpace( _color.copy( this ), colorSpace ); + + target.r = _color.r; + target.g = _color.g; + target.b = _color.b; + + return target; + + } + + /** + * Returns the value of this color as a CSS style string. Example: `rgb(255,0,0)`. + * + * @param {string} [colorSpace=SRGBColorSpace] - The color space. + * @return {string} The CSS representation of this color. + */ + getStyle( colorSpace = SRGBColorSpace ) { + + ColorManagement.fromWorkingColorSpace( _color.copy( this ), colorSpace ); + + const r = _color.r, g = _color.g, b = _color.b; + + if ( colorSpace !== SRGBColorSpace ) { + + // Requires CSS Color Module Level 4 (https://www.w3.org/TR/css-color-4/). + return `color(${ colorSpace } ${ r.toFixed( 3 ) } ${ g.toFixed( 3 ) } ${ b.toFixed( 3 ) })`; + + } + + return `rgb(${ Math.round( r * 255 ) },${ Math.round( g * 255 ) },${ Math.round( b * 255 ) })`; + + } + + /** + * Adds the given HSL values to this color's values. + * Internally, this converts the color's RGB values to HSL, adds HSL + * and then converts the color back to RGB. + * + * @param {number} h - Hue value between `0.0` and `1.0`. + * @param {number} s - Saturation value between `0.0` and `1.0`. + * @param {number} l - Lightness value between `0.0` and `1.0`. + * @return {Color} A reference to this color. + */ + offsetHSL( h, s, l ) { + + this.getHSL( _hslA ); + + return this.setHSL( _hslA.h + h, _hslA.s + s, _hslA.l + l ); + + } + + /** + * Adds the RGB values of the given color to the RGB values of this color. + * + * @param {Color} color - The color to add. + * @return {Color} A reference to this color. + */ + add( color ) { + + this.r += color.r; + this.g += color.g; + this.b += color.b; + + return this; + + } + + /** + * Adds the RGB values of the given colors and stores the result in this instance. + * + * @param {Color} color1 - The first color. + * @param {Color} color2 - The second color. + * @return {Color} A reference to this color. + */ + addColors( color1, color2 ) { + + this.r = color1.r + color2.r; + this.g = color1.g + color2.g; + this.b = color1.b + color2.b; + + return this; + + } + + /** + * Adds the given scalar value to the RGB values of this color. + * + * @param {number} s - The scalar to add. + * @return {Color} A reference to this color. + */ + addScalar( s ) { + + this.r += s; + this.g += s; + this.b += s; + + return this; + + } + + /** + * Subtracts the RGB values of the given color from the RGB values of this color. + * + * @param {Color} color - The color to subtract. + * @return {Color} A reference to this color. + */ + sub( color ) { + + this.r = Math.max( 0, this.r - color.r ); + this.g = Math.max( 0, this.g - color.g ); + this.b = Math.max( 0, this.b - color.b ); + + return this; + + } + + /** + * Multiplies the RGB values of the given color with the RGB values of this color. + * + * @param {Color} color - The color to multiply. + * @return {Color} A reference to this color. + */ + multiply( color ) { + + this.r *= color.r; + this.g *= color.g; + this.b *= color.b; + + return this; + + } + + /** + * Multiplies the given scalar value with the RGB values of this color. + * + * @param {number} s - The scalar to multiply. + * @return {Color} A reference to this color. + */ + multiplyScalar( s ) { + + this.r *= s; + this.g *= s; + this.b *= s; + + return this; + + } + + /** + * Linearly interpolates this color's RGB values toward the RGB values of the + * given color. The alpha argument can be thought of as the ratio between + * the two colors, where `0.0` is this color and `1.0` is the first argument. + * + * @param {Color} color - The color to converge on. + * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`. + * @return {Color} A reference to this color. + */ + lerp( color, alpha ) { + + this.r += ( color.r - this.r ) * alpha; + this.g += ( color.g - this.g ) * alpha; + this.b += ( color.b - this.b ) * alpha; + + return this; + + } + + /** + * Linearly interpolates between the given colors and stores the result in this instance. + * The alpha argument can be thought of as the ratio between the two colors, where `0.0` + * is the first and `1.0` is the second color. + * + * @param {Color} color1 - The first color. + * @param {Color} color2 - The second color. + * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`. + * @return {Color} A reference to this color. + */ + lerpColors( color1, color2, alpha ) { + + this.r = color1.r + ( color2.r - color1.r ) * alpha; + this.g = color1.g + ( color2.g - color1.g ) * alpha; + this.b = color1.b + ( color2.b - color1.b ) * alpha; + + return this; + + } + + /** + * Linearly interpolates this color's HSL values toward the HSL values of the + * given color. It differs from {@link Color#lerp} by not interpolating straight + * from one color to the other, but instead going through all the hues in between + * those two colors. The alpha argument can be thought of as the ratio between + * the two colors, where 0.0 is this color and 1.0 is the first argument. + * + * @param {Color} color - The color to converge on. + * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`. + * @return {Color} A reference to this color. + */ + lerpHSL( color, alpha ) { + + this.getHSL( _hslA ); + color.getHSL( _hslB ); + + const h = lerp$1( _hslA.h, _hslB.h, alpha ); + const s = lerp$1( _hslA.s, _hslB.s, alpha ); + const l = lerp$1( _hslA.l, _hslB.l, alpha ); + + this.setHSL( h, s, l ); + + return this; + + } + + /** + * Sets the color's RGB components from the given 3D vector. + * + * @param {Vector3} v - The vector to set. + * @return {Color} A reference to this color. + */ + setFromVector3( v ) { + + this.r = v.x; + this.g = v.y; + this.b = v.z; + + return this; + + } + + /** + * Transforms this color with the given 3x3 matrix. + * + * @param {Matrix3} m - The matrix. + * @return {Color} A reference to this color. + */ + applyMatrix3( m ) { + + const r = this.r, g = this.g, b = this.b; + const e = m.elements; + + this.r = e[ 0 ] * r + e[ 3 ] * g + e[ 6 ] * b; + this.g = e[ 1 ] * r + e[ 4 ] * g + e[ 7 ] * b; + this.b = e[ 2 ] * r + e[ 5 ] * g + e[ 8 ] * b; + + return this; + + } + + /** + * Returns `true` if this color is equal with the given one. + * + * @param {Color} c - The color to test for equality. + * @return {boolean} Whether this bounding color is equal with the given one. + */ + equals( c ) { + + return ( c.r === this.r ) && ( c.g === this.g ) && ( c.b === this.b ); + + } + + /** + * Sets this color's RGB components from the given array. + * + * @param {Array} array - An array holding the RGB values. + * @param {number} [offset=0] - The offset into the array. + * @return {Color} A reference to this color. + */ + fromArray( array, offset = 0 ) { + + this.r = array[ offset ]; + this.g = array[ offset + 1 ]; + this.b = array[ offset + 2 ]; + + return this; + + } + + /** + * Writes the RGB components of this color to the given array. If no array is provided, + * the method returns a new instance. + * + * @param {Array} [array=[]] - The target array holding the color components. + * @param {number} [offset=0] - Index of the first element in the array. + * @return {Array} The color components. + */ + toArray( array = [], offset = 0 ) { + + array[ offset ] = this.r; + array[ offset + 1 ] = this.g; + array[ offset + 2 ] = this.b; + + return array; + + } + + /** + * Sets the components of this color from the given buffer attribute. + * + * @param {BufferAttribute} attribute - The buffer attribute holding color data. + * @param {number} index - The index into the attribute. + * @return {Color} A reference to this color. + */ + fromBufferAttribute( attribute, index ) { + + this.r = attribute.getX( index ); + this.g = attribute.getY( index ); + this.b = attribute.getZ( index ); + + return this; + + } + + /** + * This methods defines the serialization result of this class. Returns the color + * as a hexadecimal value. + * + * @return {number} The hexadecimal value. + */ + toJSON() { + + return this.getHex(); + + } + + *[ Symbol.iterator ]() { + + yield this.r; + yield this.g; + yield this.b; + + } + +} + +const _color = /*@__PURE__*/ new Color(); + +/** + * A dictionary with X11 color names. + * + * Note that multiple words such as Dark Orange become the string 'darkorange'. + * + * @static + * @type {Object} + */ +Color.NAMES = _colorKeywords; + +let _materialId = 0; + +/** + * Abstract base class for materials. + * + * Materials define the appearance of renderable 3D objects. + * + * @abstract + * @augments EventDispatcher + */ +let Material$1 = class Material extends EventDispatcher { + + /** + * Constructs a new material. + */ + constructor() { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isMaterial = true; + + /** + * The ID of the material. + * + * @name Material#id + * @type {number} + * @readonly + */ + Object.defineProperty( this, 'id', { value: _materialId ++ } ); + + /** + * The UUID of the material. + * + * @type {string} + * @readonly + */ + this.uuid = generateUUID(); + + /** + * The name of the material. + * + * @type {string} + */ + this.name = ''; + + /** + * The type property is used for detecting the object type + * in context of serialization/deserialization. + * + * @type {string} + * @readonly + */ + this.type = 'Material'; + + /** + * Defines the blending type of the material. + * + * It must be set to `CustomBlending` if custom blending properties like + * {@link Material#blendSrc}, {@link Material#blendDst} or {@link Material#blendEquation} + * should have any effect. + * + * @type {(NoBlending|NormalBlending|AdditiveBlending|SubtractiveBlending|MultiplyBlending|CustomBlending)} + * @default NormalBlending + */ + this.blending = NormalBlending; + + /** + * Defines which side of faces will be rendered - front, back or both. + * + * @type {(FrontSide|BackSide|DoubleSide)} + * @default FrontSide + */ + this.side = FrontSide; + + /** + * If set to `true`, vertex colors should be used. + * + * The engine supports RGB and RGBA vertex colors depending on whether a three (RGB) or + * four (RGBA) component color buffer attribute is used. + * + * @type {boolean} + * @default false + */ + this.vertexColors = false; + + /** + * Defines how transparent the material is. + * A value of `0.0` indicates fully transparent, `1.0` is fully opaque. + * + * If the {@link Material#transparent} is not set to `true`, + * the material will remain fully opaque and this value will only affect its color. + * + * @type {number} + * @default 1 + */ + this.opacity = 1; + + /** + * Defines whether this material is transparent. This has an effect on + * rendering as transparent objects need special treatment and are rendered + * after non-transparent objects. + * + * When set to true, the extent to which the material is transparent is + * controlled by {@link Material#opacity}. + * + * @type {boolean} + * @default false + */ + this.transparent = false; + + /** + * Enables alpha hashed transparency, an alternative to {@link Material#transparent} or + * {@link Material#alphaTest}. The material will not be rendered if opacity is lower than + * a random threshold. Randomization introduces some grain or noise, but approximates alpha + * blending without the associated problems of sorting. Using TAA can reduce the resulting noise. + * + * @type {boolean} + * @default false + */ + this.alphaHash = false; + + /** + * Defines the blending source factor. + * + * @type {(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)} + * @default SrcAlphaFactor + */ + this.blendSrc = SrcAlphaFactor; + + /** + * Defines the blending destination factor. + * + * @type {(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)} + * @default OneMinusSrcAlphaFactor + */ + this.blendDst = OneMinusSrcAlphaFactor; + + /** + * Defines the blending equation. + * + * @type {(AddEquation|SubtractEquation|ReverseSubtractEquation|MinEquation|MaxEquation)} + * @default OneMinusSrcAlphaFactor + */ + this.blendEquation = AddEquation; + + /** + * Defines the blending source alpha factor. + * + * @type {?(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)} + * @default null + */ + this.blendSrcAlpha = null; + + /** + * Defines the blending destination alpha factor. + * + * @type {?(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)} + * @default null + */ + this.blendDstAlpha = null; + + /** + * Defines the blending equation of the alpha channel. + * + * @type {(AddEquation|SubtractEquation|ReverseSubtractEquation|MinEquation|MaxEquation)} + * @default OneMinusSrcAlphaFactor + */ + this.blendEquationAlpha = null; + + /** + * Represents the RGB values of the constant blend color. + * + * This property has only an effect when using custom blending with `ConstantColor` or `OneMinusConstantColor`. + * + * @type {Color} + * @default (0,0,0) + */ + this.blendColor = new Color( 0, 0, 0 ); + + /** + * Represents the alpha value of the constant blend color. + * + * This property has only an effect when using custom blending with `ConstantAlpha` or `OneMinusConstantAlpha`. + * + * @type {number} + * @default 0 + */ + this.blendAlpha = 0; + + /** + * Defines the depth function. + * + * @type {(NeverDepth|AlwaysDepth|LessDepth|LessEqualDepth|EqualDepth|GreaterEqualDepth|GreaterDepth|NotEqualDepth)} + * @default LessEqualDepth + */ + this.depthFunc = LessEqualDepth; + + /** + * Whether to have depth test enabled when rendering this material. + * When the depth test is disabled, the depth write will also be implicitly disabled. + * + * @type {boolean} + * @default true + */ + this.depthTest = true; + + /** + * Whether rendering this material has any effect on the depth buffer. + * + * When drawing 2D overlays it can be useful to disable the depth writing in + * order to layer several things together without creating z-index artifacts. + * + * @type {boolean} + * @default true + */ + this.depthWrite = true; + + /** + * The bit mask to use when writing to the stencil buffer. + * + * @type {number} + * @default 0xff + */ + this.stencilWriteMask = 0xff; + + /** + * The stencil comparison function to use. + * + * @type {NeverStencilFunc|LessStencilFunc|EqualStencilFunc|LessEqualStencilFunc|GreaterStencilFunc|NotEqualStencilFunc|GreaterEqualStencilFunc|AlwaysStencilFunc} + * @default AlwaysStencilFunc + */ + this.stencilFunc = AlwaysStencilFunc; + + /** + * The value to use when performing stencil comparisons or stencil operations. + * + * @type {number} + * @default 0 + */ + this.stencilRef = 0; + + /** + * The bit mask to use when comparing against the stencil buffer. + * + * @type {number} + * @default 0xff + */ + this.stencilFuncMask = 0xff; + + /** + * Which stencil operation to perform when the comparison function returns `false`. + * + * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp} + * @default KeepStencilOp + */ + this.stencilFail = KeepStencilOp; + + /** + * Which stencil operation to perform when the comparison function returns + * `true` but the depth test fails. + * + * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp} + * @default KeepStencilOp + */ + this.stencilZFail = KeepStencilOp; + + /** + * Which stencil operation to perform when the comparison function returns + * `true` and the depth test passes. + * + * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp} + * @default KeepStencilOp + */ + this.stencilZPass = KeepStencilOp; + + /** + * Whether stencil operations are performed against the stencil buffer. In + * order to perform writes or comparisons against the stencil buffer this + * value must be `true`. + * + * @type {boolean} + * @default false + */ + this.stencilWrite = false; + + /** + * User-defined clipping planes specified as THREE.Plane objects in world + * space. These planes apply to the objects this material is attached to. + * Points in space whose signed distance to the plane is negative are clipped + * (not rendered). This requires {@link WebGLRenderer#localClippingEnabled} to + * be `true`. + * + * @type {?Array} + * @default null + */ + this.clippingPlanes = null; + + /** + * Changes the behavior of clipping planes so that only their intersection is + * clipped, rather than their union. + * + * @type {boolean} + * @default false + */ + this.clipIntersection = false; + + /** + * Defines whether to clip shadows according to the clipping planes specified + * on this material. + * + * @type {boolean} + * @default false + */ + this.clipShadows = false; + + /** + * Defines which side of faces cast shadows. If `null`, the side casting shadows + * is determined as follows: + * + * - When {@link Material#side} is set to `FrontSide`, the back side cast shadows. + * - When {@link Material#side} is set to `BackSide`, the front side cast shadows. + * - When {@link Material#side} is set to `DoubleSide`, both sides cast shadows. + * + * @type {?(FrontSide|BackSide|DoubleSide)} + * @default null + */ + this.shadowSide = null; + + /** + * Whether to render the material's color. + * + * This can be used in conjunction with {@link Object3D#renderOder} to create invisible + * objects that occlude other objects. + * + * @type {boolean} + * @default true + */ + this.colorWrite = true; + + /** + * Override the renderer's default precision for this material. + * + * @type {?('highp'|'mediump'|'lowp')} + * @default null + */ + this.precision = null; + + /** + * Whether to use polygon offset or not. When enabled, each fragment's depth value will + * be offset after it is interpolated from the depth values of the appropriate vertices. + * The offset is added before the depth test is performed and before the value is written + * into the depth buffer. + * + * Can be useful for rendering hidden-line images, for applying decals to surfaces, and for + * rendering solids with highlighted edges. + * + * @type {boolean} + * @default false + */ + this.polygonOffset = false; + + /** + * Specifies a scale factor that is used to create a variable depth offset for each polygon. + * + * @type {number} + * @default 0 + */ + this.polygonOffsetFactor = 0; + + /** + * Is multiplied by an implementation-specific value to create a constant depth offset. + * + * @type {number} + * @default 0 + */ + this.polygonOffsetUnits = 0; + + /** + * Whether to apply dithering to the color to remove the appearance of banding. + * + * @type {boolean} + * @default false + */ + this.dithering = false; + + /** + * Whether alpha to coverage should be enabled or not. Can only be used with MSAA-enabled contexts + * (meaning when the renderer was created with *antialias* parameter set to `true`). Enabling this + * will smooth aliasing on clip plane edges and alphaTest-clipped edges. + * + * @type {boolean} + * @default false + */ + this.alphaToCoverage = false; + + /** + * Whether to premultiply the alpha (transparency) value. + * + * @type {boolean} + * @default false + */ + this.premultipliedAlpha = false; + + /** + * Whether double-sided, transparent objects should be rendered with a single pass or not. + * + * The engine renders double-sided, transparent objects with two draw calls (back faces first, + * then front faces) to mitigate transparency artifacts. There are scenarios however where this + * approach produces no quality gains but still doubles draw calls e.g. when rendering flat + * vegetation like grass sprites. In these cases, set the `forceSinglePass` flag to `true` to + * disable the two pass rendering to avoid performance issues. + * + * @type {boolean} + * @default false + */ + this.forceSinglePass = false; + + /** + * Defines whether 3D objects using this material are visible. + * + * @type {boolean} + * @default true + */ + this.visible = true; + + /** + * Defines whether this material is tone mapped according to the renderer's tone mapping setting. + * + * It is ignored when rendering to a render target or using post processing or when using + * `WebGPURenderer`. In all these cases, all materials are honored by tone mapping. + * + * @type {boolean} + * @default true + */ + this.toneMapped = true; + + /** + * An object that can be used to store custom data about the Material. It + * should not hold references to functions as these will not be cloned. + * + * @type {Object} + */ + this.userData = {}; + + /** + * This starts at `0` and counts how many times {@link Material#needsUpdate} is set to `true`. + * + * @type {number} + * @readonly + * @default 0 + */ + this.version = 0; + + this._alphaTest = 0; + + } + + /** + * Sets the alpha value to be used when running an alpha test. The material + * will not be rendered if the opacity is lower than this value. + * + * @type {number} + * @readonly + * @default 0 + */ + get alphaTest() { + + return this._alphaTest; + + } + + set alphaTest( value ) { + + if ( this._alphaTest > 0 !== value > 0 ) { + + this.version ++; + + } + + this._alphaTest = value; + + } + + /** + * An optional callback that is executed immediately before the material is used to render a 3D object. + * + * This method can only be used when rendering with {@link WebGLRenderer}. + * + * @param {WebGLRenderer} renderer - The renderer. + * @param {Scene} scene - The scene. + * @param {Camera} camera - The camera that is used to render the scene. + * @param {BufferGeometry} geometry - The 3D object's geometry. + * @param {Object3D} object - The 3D object. + * @param {Object} group - The geometry group data. + */ + onBeforeRender( /* renderer, scene, camera, geometry, object, group */ ) {} + + /** + * An optional callback that is executed immediately before the shader + * program is compiled. This function is called with the shader source code + * as a parameter. Useful for the modification of built-in materials. + * + * This method can only be used when rendering with {@link WebGLRenderer}. The + * recommended approach when customizing materials is to use `WebGPURenderer` with the new + * Node Material system and [TSL]{@link https://github.com/mrdoob/three.js/wiki/Three.js-Shading-Language}. + * + * @param {{vertexShader:string,fragmentShader:string,uniforms:Object}} shaderobject - The object holds the uniforms and the vertex and fragment shader source. + * @param {WebGLRenderer} renderer - A reference to the renderer. + */ + onBeforeCompile( /* shaderobject, renderer */ ) {} + + /** + * In case {@link Material#onBeforeCompile} is used, this callback can be used to identify + * values of settings used in `onBeforeCompile()`, so three.js can reuse a cached + * shader or recompile the shader for this material as needed. + * + * This method can only be used when rendering with {@link WebGLRenderer}. + * + * @return {string} The custom program cache key. + */ + customProgramCacheKey() { + + return this.onBeforeCompile.toString(); + + } + + setValues( values ) { + + if ( values === undefined ) return; + + for ( const key in values ) { + + const newValue = values[ key ]; + + if ( newValue === undefined ) { + + console.warn( `THREE.Material: parameter '${ key }' has value of undefined.` ); + continue; + + } + + const currentValue = this[ key ]; + + if ( currentValue === undefined ) { + + console.warn( `THREE.Material: '${ key }' is not a property of THREE.${ this.type }.` ); + continue; + + } + + if ( currentValue && currentValue.isColor ) { + + currentValue.set( newValue ); + + } else if ( ( currentValue && currentValue.isVector3 ) && ( newValue && newValue.isVector3 ) ) { + + currentValue.copy( newValue ); + + } else { + + this[ key ] = newValue; + + } + + } + + } + + /** + * Serializes the material into JSON. + * + * @param {?(Object|string)} meta - An optional value holding meta information about the serialization. + * @return {Object} A JSON object representing the serialized material. + * @see {@link ObjectLoader#parse} + */ + toJSON( meta ) { + + const isRootObject = ( meta === undefined || typeof meta === 'string' ); + + if ( isRootObject ) { + + meta = { + textures: {}, + images: {} + }; + + } + + const data = { + metadata: { + version: 4.6, + type: 'Material', + generator: 'Material.toJSON' + } + }; + + // standard Material serialization + data.uuid = this.uuid; + data.type = this.type; + + if ( this.name !== '' ) data.name = this.name; + + if ( this.color && this.color.isColor ) data.color = this.color.getHex(); + + if ( this.roughness !== undefined ) data.roughness = this.roughness; + if ( this.metalness !== undefined ) data.metalness = this.metalness; + + if ( this.sheen !== undefined ) data.sheen = this.sheen; + if ( this.sheenColor && this.sheenColor.isColor ) data.sheenColor = this.sheenColor.getHex(); + if ( this.sheenRoughness !== undefined ) data.sheenRoughness = this.sheenRoughness; + if ( this.emissive && this.emissive.isColor ) data.emissive = this.emissive.getHex(); + if ( this.emissiveIntensity !== undefined && this.emissiveIntensity !== 1 ) data.emissiveIntensity = this.emissiveIntensity; + + if ( this.specular && this.specular.isColor ) data.specular = this.specular.getHex(); + if ( this.specularIntensity !== undefined ) data.specularIntensity = this.specularIntensity; + if ( this.specularColor && this.specularColor.isColor ) data.specularColor = this.specularColor.getHex(); + if ( this.shininess !== undefined ) data.shininess = this.shininess; + if ( this.clearcoat !== undefined ) data.clearcoat = this.clearcoat; + if ( this.clearcoatRoughness !== undefined ) data.clearcoatRoughness = this.clearcoatRoughness; + + if ( this.clearcoatMap && this.clearcoatMap.isTexture ) { + + data.clearcoatMap = this.clearcoatMap.toJSON( meta ).uuid; + + } + + if ( this.clearcoatRoughnessMap && this.clearcoatRoughnessMap.isTexture ) { + + data.clearcoatRoughnessMap = this.clearcoatRoughnessMap.toJSON( meta ).uuid; + + } + + if ( this.clearcoatNormalMap && this.clearcoatNormalMap.isTexture ) { + + data.clearcoatNormalMap = this.clearcoatNormalMap.toJSON( meta ).uuid; + data.clearcoatNormalScale = this.clearcoatNormalScale.toArray(); + + } + + if ( this.dispersion !== undefined ) data.dispersion = this.dispersion; + + if ( this.iridescence !== undefined ) data.iridescence = this.iridescence; + if ( this.iridescenceIOR !== undefined ) data.iridescenceIOR = this.iridescenceIOR; + if ( this.iridescenceThicknessRange !== undefined ) data.iridescenceThicknessRange = this.iridescenceThicknessRange; + + if ( this.iridescenceMap && this.iridescenceMap.isTexture ) { + + data.iridescenceMap = this.iridescenceMap.toJSON( meta ).uuid; + + } + + if ( this.iridescenceThicknessMap && this.iridescenceThicknessMap.isTexture ) { + + data.iridescenceThicknessMap = this.iridescenceThicknessMap.toJSON( meta ).uuid; + + } + + if ( this.anisotropy !== undefined ) data.anisotropy = this.anisotropy; + if ( this.anisotropyRotation !== undefined ) data.anisotropyRotation = this.anisotropyRotation; + + if ( this.anisotropyMap && this.anisotropyMap.isTexture ) { + + data.anisotropyMap = this.anisotropyMap.toJSON( meta ).uuid; + + } + + if ( this.map && this.map.isTexture ) data.map = this.map.toJSON( meta ).uuid; + if ( this.matcap && this.matcap.isTexture ) data.matcap = this.matcap.toJSON( meta ).uuid; + if ( this.alphaMap && this.alphaMap.isTexture ) data.alphaMap = this.alphaMap.toJSON( meta ).uuid; + + if ( this.lightMap && this.lightMap.isTexture ) { + + data.lightMap = this.lightMap.toJSON( meta ).uuid; + data.lightMapIntensity = this.lightMapIntensity; + + } + + if ( this.aoMap && this.aoMap.isTexture ) { + + data.aoMap = this.aoMap.toJSON( meta ).uuid; + data.aoMapIntensity = this.aoMapIntensity; + + } + + if ( this.bumpMap && this.bumpMap.isTexture ) { + + data.bumpMap = this.bumpMap.toJSON( meta ).uuid; + data.bumpScale = this.bumpScale; + + } + + if ( this.normalMap && this.normalMap.isTexture ) { + + data.normalMap = this.normalMap.toJSON( meta ).uuid; + data.normalMapType = this.normalMapType; + data.normalScale = this.normalScale.toArray(); + + } + + if ( this.displacementMap && this.displacementMap.isTexture ) { + + data.displacementMap = this.displacementMap.toJSON( meta ).uuid; + data.displacementScale = this.displacementScale; + data.displacementBias = this.displacementBias; + + } + + if ( this.roughnessMap && this.roughnessMap.isTexture ) data.roughnessMap = this.roughnessMap.toJSON( meta ).uuid; + if ( this.metalnessMap && this.metalnessMap.isTexture ) data.metalnessMap = this.metalnessMap.toJSON( meta ).uuid; + + if ( this.emissiveMap && this.emissiveMap.isTexture ) data.emissiveMap = this.emissiveMap.toJSON( meta ).uuid; + if ( this.specularMap && this.specularMap.isTexture ) data.specularMap = this.specularMap.toJSON( meta ).uuid; + if ( this.specularIntensityMap && this.specularIntensityMap.isTexture ) data.specularIntensityMap = this.specularIntensityMap.toJSON( meta ).uuid; + if ( this.specularColorMap && this.specularColorMap.isTexture ) data.specularColorMap = this.specularColorMap.toJSON( meta ).uuid; + + if ( this.envMap && this.envMap.isTexture ) { + + data.envMap = this.envMap.toJSON( meta ).uuid; + + if ( this.combine !== undefined ) data.combine = this.combine; + + } + + if ( this.envMapRotation !== undefined ) data.envMapRotation = this.envMapRotation.toArray(); + if ( this.envMapIntensity !== undefined ) data.envMapIntensity = this.envMapIntensity; + if ( this.reflectivity !== undefined ) data.reflectivity = this.reflectivity; + if ( this.refractionRatio !== undefined ) data.refractionRatio = this.refractionRatio; + + if ( this.gradientMap && this.gradientMap.isTexture ) { + + data.gradientMap = this.gradientMap.toJSON( meta ).uuid; + + } + + if ( this.transmission !== undefined ) data.transmission = this.transmission; + if ( this.transmissionMap && this.transmissionMap.isTexture ) data.transmissionMap = this.transmissionMap.toJSON( meta ).uuid; + if ( this.thickness !== undefined ) data.thickness = this.thickness; + if ( this.thicknessMap && this.thicknessMap.isTexture ) data.thicknessMap = this.thicknessMap.toJSON( meta ).uuid; + if ( this.attenuationDistance !== undefined && this.attenuationDistance !== Infinity ) data.attenuationDistance = this.attenuationDistance; + if ( this.attenuationColor !== undefined ) data.attenuationColor = this.attenuationColor.getHex(); + + if ( this.size !== undefined ) data.size = this.size; + if ( this.shadowSide !== null ) data.shadowSide = this.shadowSide; + if ( this.sizeAttenuation !== undefined ) data.sizeAttenuation = this.sizeAttenuation; + + if ( this.blending !== NormalBlending ) data.blending = this.blending; + if ( this.side !== FrontSide ) data.side = this.side; + if ( this.vertexColors === true ) data.vertexColors = true; + + if ( this.opacity < 1 ) data.opacity = this.opacity; + if ( this.transparent === true ) data.transparent = true; + + if ( this.blendSrc !== SrcAlphaFactor ) data.blendSrc = this.blendSrc; + if ( this.blendDst !== OneMinusSrcAlphaFactor ) data.blendDst = this.blendDst; + if ( this.blendEquation !== AddEquation ) data.blendEquation = this.blendEquation; + if ( this.blendSrcAlpha !== null ) data.blendSrcAlpha = this.blendSrcAlpha; + if ( this.blendDstAlpha !== null ) data.blendDstAlpha = this.blendDstAlpha; + if ( this.blendEquationAlpha !== null ) data.blendEquationAlpha = this.blendEquationAlpha; + if ( this.blendColor && this.blendColor.isColor ) data.blendColor = this.blendColor.getHex(); + if ( this.blendAlpha !== 0 ) data.blendAlpha = this.blendAlpha; + + if ( this.depthFunc !== LessEqualDepth ) data.depthFunc = this.depthFunc; + if ( this.depthTest === false ) data.depthTest = this.depthTest; + if ( this.depthWrite === false ) data.depthWrite = this.depthWrite; + if ( this.colorWrite === false ) data.colorWrite = this.colorWrite; + + if ( this.stencilWriteMask !== 0xff ) data.stencilWriteMask = this.stencilWriteMask; + if ( this.stencilFunc !== AlwaysStencilFunc ) data.stencilFunc = this.stencilFunc; + if ( this.stencilRef !== 0 ) data.stencilRef = this.stencilRef; + if ( this.stencilFuncMask !== 0xff ) data.stencilFuncMask = this.stencilFuncMask; + if ( this.stencilFail !== KeepStencilOp ) data.stencilFail = this.stencilFail; + if ( this.stencilZFail !== KeepStencilOp ) data.stencilZFail = this.stencilZFail; + if ( this.stencilZPass !== KeepStencilOp ) data.stencilZPass = this.stencilZPass; + if ( this.stencilWrite === true ) data.stencilWrite = this.stencilWrite; + + // rotation (SpriteMaterial) + if ( this.rotation !== undefined && this.rotation !== 0 ) data.rotation = this.rotation; + + if ( this.polygonOffset === true ) data.polygonOffset = true; + if ( this.polygonOffsetFactor !== 0 ) data.polygonOffsetFactor = this.polygonOffsetFactor; + if ( this.polygonOffsetUnits !== 0 ) data.polygonOffsetUnits = this.polygonOffsetUnits; + + if ( this.linewidth !== undefined && this.linewidth !== 1 ) data.linewidth = this.linewidth; + if ( this.dashSize !== undefined ) data.dashSize = this.dashSize; + if ( this.gapSize !== undefined ) data.gapSize = this.gapSize; + if ( this.scale !== undefined ) data.scale = this.scale; + + if ( this.dithering === true ) data.dithering = true; + + if ( this.alphaTest > 0 ) data.alphaTest = this.alphaTest; + if ( this.alphaHash === true ) data.alphaHash = true; + if ( this.alphaToCoverage === true ) data.alphaToCoverage = true; + if ( this.premultipliedAlpha === true ) data.premultipliedAlpha = true; + if ( this.forceSinglePass === true ) data.forceSinglePass = true; + + if ( this.wireframe === true ) data.wireframe = true; + if ( this.wireframeLinewidth > 1 ) data.wireframeLinewidth = this.wireframeLinewidth; + if ( this.wireframeLinecap !== 'round' ) data.wireframeLinecap = this.wireframeLinecap; + if ( this.wireframeLinejoin !== 'round' ) data.wireframeLinejoin = this.wireframeLinejoin; + + if ( this.flatShading === true ) data.flatShading = true; + + if ( this.visible === false ) data.visible = false; + + if ( this.toneMapped === false ) data.toneMapped = false; + + if ( this.fog === false ) data.fog = false; + + if ( Object.keys( this.userData ).length > 0 ) data.userData = this.userData; + + // TODO: Copied from Object3D.toJSON + + function extractFromCache( cache ) { + + const values = []; + + for ( const key in cache ) { + + const data = cache[ key ]; + delete data.metadata; + values.push( data ); + + } + + return values; + + } + + if ( isRootObject ) { + + const textures = extractFromCache( meta.textures ); + const images = extractFromCache( meta.images ); + + if ( textures.length > 0 ) data.textures = textures; + if ( images.length > 0 ) data.images = images; + + } + + return data; + + } + + /** + * Returns a new material with copied values from this instance. + * + * @return {Material} A clone of this instance. + */ + clone() { + + return new this.constructor().copy( this ); + + } + + /** + * Copies the values of the given material to this instance. + * + * @param {Material} source - The material to copy. + * @return {Material} A reference to this instance. + */ + copy( source ) { + + this.name = source.name; + + this.blending = source.blending; + this.side = source.side; + this.vertexColors = source.vertexColors; + + this.opacity = source.opacity; + this.transparent = source.transparent; + + this.blendSrc = source.blendSrc; + this.blendDst = source.blendDst; + this.blendEquation = source.blendEquation; + this.blendSrcAlpha = source.blendSrcAlpha; + this.blendDstAlpha = source.blendDstAlpha; + this.blendEquationAlpha = source.blendEquationAlpha; + this.blendColor.copy( source.blendColor ); + this.blendAlpha = source.blendAlpha; + + this.depthFunc = source.depthFunc; + this.depthTest = source.depthTest; + this.depthWrite = source.depthWrite; + + this.stencilWriteMask = source.stencilWriteMask; + this.stencilFunc = source.stencilFunc; + this.stencilRef = source.stencilRef; + this.stencilFuncMask = source.stencilFuncMask; + this.stencilFail = source.stencilFail; + this.stencilZFail = source.stencilZFail; + this.stencilZPass = source.stencilZPass; + this.stencilWrite = source.stencilWrite; + + const srcPlanes = source.clippingPlanes; + let dstPlanes = null; + + if ( srcPlanes !== null ) { + + const n = srcPlanes.length; + dstPlanes = new Array( n ); + + for ( let i = 0; i !== n; ++ i ) { + + dstPlanes[ i ] = srcPlanes[ i ].clone(); + + } + + } + + this.clippingPlanes = dstPlanes; + this.clipIntersection = source.clipIntersection; + this.clipShadows = source.clipShadows; + + this.shadowSide = source.shadowSide; + + this.colorWrite = source.colorWrite; + + this.precision = source.precision; + + this.polygonOffset = source.polygonOffset; + this.polygonOffsetFactor = source.polygonOffsetFactor; + this.polygonOffsetUnits = source.polygonOffsetUnits; + + this.dithering = source.dithering; + + this.alphaTest = source.alphaTest; + this.alphaHash = source.alphaHash; + this.alphaToCoverage = source.alphaToCoverage; + this.premultipliedAlpha = source.premultipliedAlpha; + this.forceSinglePass = source.forceSinglePass; + + this.visible = source.visible; + + this.toneMapped = source.toneMapped; + + this.userData = JSON.parse( JSON.stringify( source.userData ) ); + + return this; + + } + + /** + * Frees the GPU-related resources allocated by this instance. Call this + * method whenever this instance is no longer used in your app. + * + * @fires Material#dispose + */ + dispose() { + + /** + * Fires when the material has been disposed of. + * + * @event Material#dispose + * @type {Object} + */ + this.dispatchEvent( { type: 'dispose' } ); + + } + + /** + * Setting this property to `true` indicates the engine the material + * needs to be recompiled. + * + * @type {boolean} + * @default false + * @param {boolean} value + */ + set needsUpdate( value ) { + + if ( value === true ) this.version ++; + + } + + onBuild( /* shaderobject, renderer */ ) { + + console.warn( 'Material: onBuild() has been removed.' ); // @deprecated, r166 + + } + +}; + +class MeshBasicMaterial extends Material$1 { + + constructor( parameters ) { + + super(); + + this.isMeshBasicMaterial = true; + + this.type = 'MeshBasicMaterial'; + + this.color = new Color( 0xffffff ); // emissive + + this.map = null; + + this.lightMap = null; + this.lightMapIntensity = 1.0; + + this.aoMap = null; + this.aoMapIntensity = 1.0; + + this.specularMap = null; + + this.alphaMap = null; + + this.envMap = null; + this.envMapRotation = new Euler(); + this.combine = MultiplyOperation; + this.reflectivity = 1; + this.refractionRatio = 0.98; + + this.wireframe = false; + this.wireframeLinewidth = 1; + this.wireframeLinecap = 'round'; + this.wireframeLinejoin = 'round'; + + this.fog = true; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.color.copy( source.color ); + + this.map = source.map; + + this.lightMap = source.lightMap; + this.lightMapIntensity = source.lightMapIntensity; + + this.aoMap = source.aoMap; + this.aoMapIntensity = source.aoMapIntensity; + + this.specularMap = source.specularMap; + + this.alphaMap = source.alphaMap; + + this.envMap = source.envMap; + this.envMapRotation.copy( source.envMapRotation ); + this.combine = source.combine; + this.reflectivity = source.reflectivity; + this.refractionRatio = source.refractionRatio; + + this.wireframe = source.wireframe; + this.wireframeLinewidth = source.wireframeLinewidth; + this.wireframeLinecap = source.wireframeLinecap; + this.wireframeLinejoin = source.wireframeLinejoin; + + this.fog = source.fog; + + return this; + + } + +} + +// Fast Half Float Conversions, http://www.fox-toolkit.org/ftp/fasthalffloatconversion.pdf + +const _tables = /*@__PURE__*/ _generateTables(); + +function _generateTables() { + + // float32 to float16 helpers + + const buffer = new ArrayBuffer( 4 ); + const floatView = new Float32Array( buffer ); + const uint32View = new Uint32Array( buffer ); + + const baseTable = new Uint32Array( 512 ); + const shiftTable = new Uint32Array( 512 ); + + for ( let i = 0; i < 256; ++ i ) { + + const e = i - 127; + + // very small number (0, -0) + + if ( e < -27 ) { + + baseTable[ i ] = 0x0000; + baseTable[ i | 0x100 ] = 0x8000; + shiftTable[ i ] = 24; + shiftTable[ i | 0x100 ] = 24; + + // small number (denorm) + + } else if ( e < -14 ) { + + baseTable[ i ] = 0x0400 >> ( - e - 14 ); + baseTable[ i | 0x100 ] = ( 0x0400 >> ( - e - 14 ) ) | 0x8000; + shiftTable[ i ] = - e - 1; + shiftTable[ i | 0x100 ] = - e - 1; + + // normal number + + } else if ( e <= 15 ) { + + baseTable[ i ] = ( e + 15 ) << 10; + baseTable[ i | 0x100 ] = ( ( e + 15 ) << 10 ) | 0x8000; + shiftTable[ i ] = 13; + shiftTable[ i | 0x100 ] = 13; + + // large number (Infinity, -Infinity) + + } else if ( e < 128 ) { + + baseTable[ i ] = 0x7c00; + baseTable[ i | 0x100 ] = 0xfc00; + shiftTable[ i ] = 24; + shiftTable[ i | 0x100 ] = 24; + + // stay (NaN, Infinity, -Infinity) + + } else { + + baseTable[ i ] = 0x7c00; + baseTable[ i | 0x100 ] = 0xfc00; + shiftTable[ i ] = 13; + shiftTable[ i | 0x100 ] = 13; + + } + + } + + // float16 to float32 helpers + + const mantissaTable = new Uint32Array( 2048 ); + const exponentTable = new Uint32Array( 64 ); + const offsetTable = new Uint32Array( 64 ); + + for ( let i = 1; i < 1024; ++ i ) { + + let m = i << 13; // zero pad mantissa bits + let e = 0; // zero exponent + + // normalized + while ( ( m & 0x00800000 ) === 0 ) { + + m <<= 1; + e -= 0x00800000; // decrement exponent + + } + + m &= -8388609; // clear leading 1 bit + e += 0x38800000; // adjust bias + + mantissaTable[ i ] = m | e; + + } + + for ( let i = 1024; i < 2048; ++ i ) { + + mantissaTable[ i ] = 0x38000000 + ( ( i - 1024 ) << 13 ); + + } + + for ( let i = 1; i < 31; ++ i ) { + + exponentTable[ i ] = i << 23; + + } + + exponentTable[ 31 ] = 0x47800000; + exponentTable[ 32 ] = 0x80000000; + + for ( let i = 33; i < 63; ++ i ) { + + exponentTable[ i ] = 0x80000000 + ( ( i - 32 ) << 23 ); + + } + + exponentTable[ 63 ] = 0xc7800000; + + for ( let i = 1; i < 64; ++ i ) { + + if ( i !== 32 ) { + + offsetTable[ i ] = 1024; + + } + + } + + return { + floatView: floatView, + uint32View: uint32View, + baseTable: baseTable, + shiftTable: shiftTable, + mantissaTable: mantissaTable, + exponentTable: exponentTable, + offsetTable: offsetTable + }; + +} + +/** + * Returns a half precision floating point value (FP16) from the given single + * precision floating point value (FP32). + * + * @param {number} val - A single precision floating point value. + * @return {number} The FP16 value. + */ +function toHalfFloat( val ) { + + if ( Math.abs( val ) > 65504 ) console.warn( 'THREE.DataUtils.toHalfFloat(): Value out of range.' ); + + val = clamp$1( val, -65504, 65504 ); + + _tables.floatView[ 0 ] = val; + const f = _tables.uint32View[ 0 ]; + const e = ( f >> 23 ) & 0x1ff; + return _tables.baseTable[ e ] + ( ( f & 0x007fffff ) >> _tables.shiftTable[ e ] ); + +} + +/** + * Returns a single precision floating point value (FP32) from the given half + * precision floating point value (FP16). + * + * @param {number} val - A half precision floating point value. + * @return {number} The FP32 value. + */ +function fromHalfFloat( val ) { + + const m = val >> 10; + _tables.uint32View[ 0 ] = _tables.mantissaTable[ _tables.offsetTable[ m ] + ( val & 0x3ff ) ] + _tables.exponentTable[ m ]; + return _tables.floatView[ 0 ]; + +} + +/** + * A class containing utility functions for data. + * + * @hideconstructor + */ +class DataUtils { + + /** + * Returns a half precision floating point value (FP16) from the given single + * precision floating point value (FP32). + * + * @param {number} val - A single precision floating point value. + * @return {number} The FP16 value. + */ + static toHalfFloat( val ) { + + return toHalfFloat( val ); + + } + + /** + * Returns a single precision floating point value (FP32) from the given half + * precision floating point value (FP16). + * + * @param {number} val - A half precision floating point value. + * @return {number} The FP32 value. + */ + static fromHalfFloat( val ) { + + return fromHalfFloat( val ); + + } + +} + +const _vector$9 = /*@__PURE__*/ new Vector3(); +const _vector2$1 = /*@__PURE__*/ new Vector2(); + +let _id$2 = 0; + +class BufferAttribute { + + constructor( array, itemSize, normalized = false ) { + + if ( Array.isArray( array ) ) { + + throw new TypeError( 'THREE.BufferAttribute: array should be a Typed Array.' ); + + } + + this.isBufferAttribute = true; + + Object.defineProperty( this, 'id', { value: _id$2 ++ } ); + + this.name = ''; + + this.array = array; + this.itemSize = itemSize; + this.count = array !== undefined ? array.length / itemSize : 0; + this.normalized = normalized; + + this.usage = StaticDrawUsage; + this.updateRanges = []; + this.gpuType = FloatType; + + this.version = 0; + + } + + onUploadCallback() {} + + set needsUpdate( value ) { + + if ( value === true ) this.version ++; + + } + + setUsage( value ) { + + this.usage = value; + + return this; + + } + + addUpdateRange( start, count ) { + + this.updateRanges.push( { start, count } ); + + } + + clearUpdateRanges() { + + this.updateRanges.length = 0; + + } + + copy( source ) { + + this.name = source.name; + this.array = new source.array.constructor( source.array ); + this.itemSize = source.itemSize; + this.count = source.count; + this.normalized = source.normalized; + + this.usage = source.usage; + this.gpuType = source.gpuType; + + return this; + + } + + copyAt( index1, attribute, index2 ) { + + index1 *= this.itemSize; + index2 *= attribute.itemSize; + + for ( let i = 0, l = this.itemSize; i < l; i ++ ) { + + this.array[ index1 + i ] = attribute.array[ index2 + i ]; + + } + + return this; + + } + + copyArray( array ) { + + this.array.set( array ); + + return this; + + } + + applyMatrix3( m ) { + + if ( this.itemSize === 2 ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector2$1.fromBufferAttribute( this, i ); + _vector2$1.applyMatrix3( m ); + + this.setXY( i, _vector2$1.x, _vector2$1.y ); + + } + + } else if ( this.itemSize === 3 ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector$9.fromBufferAttribute( this, i ); + _vector$9.applyMatrix3( m ); + + this.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z ); + + } + + } + + return this; + + } + + applyMatrix4( m ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector$9.fromBufferAttribute( this, i ); + + _vector$9.applyMatrix4( m ); + + this.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z ); + + } + + return this; + + } + + applyNormalMatrix( m ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector$9.fromBufferAttribute( this, i ); + + _vector$9.applyNormalMatrix( m ); + + this.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z ); + + } + + return this; + + } + + transformDirection( m ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector$9.fromBufferAttribute( this, i ); + + _vector$9.transformDirection( m ); + + this.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z ); + + } + + return this; + + } + + set( value, offset = 0 ) { + + // Matching BufferAttribute constructor, do not normalize the array. + this.array.set( value, offset ); + + return this; + + } + + getComponent( index, component ) { + + let value = this.array[ index * this.itemSize + component ]; + + if ( this.normalized ) value = denormalize( value, this.array ); + + return value; + + } + + setComponent( index, component, value ) { + + if ( this.normalized ) value = normalize( value, this.array ); + + this.array[ index * this.itemSize + component ] = value; + + return this; + + } + + getX( index ) { + + let x = this.array[ index * this.itemSize ]; + + if ( this.normalized ) x = denormalize( x, this.array ); + + return x; + + } + + setX( index, x ) { + + if ( this.normalized ) x = normalize( x, this.array ); + + this.array[ index * this.itemSize ] = x; + + return this; + + } + + getY( index ) { + + let y = this.array[ index * this.itemSize + 1 ]; + + if ( this.normalized ) y = denormalize( y, this.array ); + + return y; + + } + + setY( index, y ) { + + if ( this.normalized ) y = normalize( y, this.array ); + + this.array[ index * this.itemSize + 1 ] = y; + + return this; + + } + + getZ( index ) { + + let z = this.array[ index * this.itemSize + 2 ]; + + if ( this.normalized ) z = denormalize( z, this.array ); + + return z; + + } + + setZ( index, z ) { + + if ( this.normalized ) z = normalize( z, this.array ); + + this.array[ index * this.itemSize + 2 ] = z; + + return this; + + } + + getW( index ) { + + let w = this.array[ index * this.itemSize + 3 ]; + + if ( this.normalized ) w = denormalize( w, this.array ); + + return w; + + } + + setW( index, w ) { + + if ( this.normalized ) w = normalize( w, this.array ); + + this.array[ index * this.itemSize + 3 ] = w; + + return this; + + } + + setXY( index, x, y ) { + + index *= this.itemSize; + + if ( this.normalized ) { + + x = normalize( x, this.array ); + y = normalize( y, this.array ); + + } + + this.array[ index + 0 ] = x; + this.array[ index + 1 ] = y; + + return this; + + } + + setXYZ( index, x, y, z ) { + + index *= this.itemSize; + + if ( this.normalized ) { + + x = normalize( x, this.array ); + y = normalize( y, this.array ); + z = normalize( z, this.array ); + + } + + this.array[ index + 0 ] = x; + this.array[ index + 1 ] = y; + this.array[ index + 2 ] = z; + + return this; + + } + + setXYZW( index, x, y, z, w ) { + + index *= this.itemSize; + + if ( this.normalized ) { + + x = normalize( x, this.array ); + y = normalize( y, this.array ); + z = normalize( z, this.array ); + w = normalize( w, this.array ); + + } + + this.array[ index + 0 ] = x; + this.array[ index + 1 ] = y; + this.array[ index + 2 ] = z; + this.array[ index + 3 ] = w; + + return this; + + } + + onUpload( callback ) { + + this.onUploadCallback = callback; + + return this; + + } + + clone() { + + return new this.constructor( this.array, this.itemSize ).copy( this ); + + } + + toJSON() { + + const data = { + itemSize: this.itemSize, + type: this.array.constructor.name, + array: Array.from( this.array ), + normalized: this.normalized + }; + + if ( this.name !== '' ) data.name = this.name; + if ( this.usage !== StaticDrawUsage ) data.usage = this.usage; + + return data; + + } + +} + +class Uint16BufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized ) { + + super( new Uint16Array( array ), itemSize, normalized ); + + } + +} + +class Uint32BufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized ) { + + super( new Uint32Array( array ), itemSize, normalized ); + + } + +} + + +class Float32BufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized ) { + + super( new Float32Array( array ), itemSize, normalized ); + + } + +} + +let _id$1 = 0; + +const _m1$3 = /*@__PURE__*/ new Matrix4(); +const _obj = /*@__PURE__*/ new Object3D(); +const _offset = /*@__PURE__*/ new Vector3(); +const _box$2 = /*@__PURE__*/ new Box3(); +const _boxMorphTargets = /*@__PURE__*/ new Box3(); +const _vector$8 = /*@__PURE__*/ new Vector3(); + +class BufferGeometry extends EventDispatcher { + + constructor() { + + super(); + + this.isBufferGeometry = true; + + Object.defineProperty( this, 'id', { value: _id$1 ++ } ); + + this.uuid = generateUUID(); + + this.name = ''; + this.type = 'BufferGeometry'; + + this.index = null; + this.indirect = null; + this.attributes = {}; + + this.morphAttributes = {}; + this.morphTargetsRelative = false; + + this.groups = []; + + this.boundingBox = null; + this.boundingSphere = null; + + this.drawRange = { start: 0, count: Infinity }; + + this.userData = {}; + + } + + getIndex() { + + return this.index; + + } + + setIndex( index ) { + + if ( Array.isArray( index ) ) { + + this.index = new ( arrayNeedsUint32( index ) ? Uint32BufferAttribute : Uint16BufferAttribute )( index, 1 ); + + } else { + + this.index = index; + + } + + return this; + + } + + setIndirect( indirect ) { + + this.indirect = indirect; + + return this; + + } + + getIndirect() { + + return this.indirect; + + } + + getAttribute( name ) { + + return this.attributes[ name ]; + + } + + setAttribute( name, attribute ) { + + this.attributes[ name ] = attribute; + + return this; + + } + + deleteAttribute( name ) { + + delete this.attributes[ name ]; + + return this; + + } + + hasAttribute( name ) { + + return this.attributes[ name ] !== undefined; + + } + + addGroup( start, count, materialIndex = 0 ) { + + this.groups.push( { + + start: start, + count: count, + materialIndex: materialIndex + + } ); + + } + + clearGroups() { + + this.groups = []; + + } + + setDrawRange( start, count ) { + + this.drawRange.start = start; + this.drawRange.count = count; + + } + + applyMatrix4( matrix ) { + + const position = this.attributes.position; + + if ( position !== undefined ) { + + position.applyMatrix4( matrix ); + + position.needsUpdate = true; + + } + + const normal = this.attributes.normal; + + if ( normal !== undefined ) { + + const normalMatrix = new Matrix3().getNormalMatrix( matrix ); + + normal.applyNormalMatrix( normalMatrix ); + + normal.needsUpdate = true; + + } + + const tangent = this.attributes.tangent; + + if ( tangent !== undefined ) { + + tangent.transformDirection( matrix ); + + tangent.needsUpdate = true; + + } + + if ( this.boundingBox !== null ) { + + this.computeBoundingBox(); + + } + + if ( this.boundingSphere !== null ) { + + this.computeBoundingSphere(); + + } + + return this; + + } + + applyQuaternion( q ) { + + _m1$3.makeRotationFromQuaternion( q ); + + this.applyMatrix4( _m1$3 ); + + return this; + + } + + rotateX( angle ) { + + // rotate geometry around world x-axis + + _m1$3.makeRotationX( angle ); + + this.applyMatrix4( _m1$3 ); + + return this; + + } + + rotateY( angle ) { + + // rotate geometry around world y-axis + + _m1$3.makeRotationY( angle ); + + this.applyMatrix4( _m1$3 ); + + return this; + + } + + rotateZ( angle ) { + + // rotate geometry around world z-axis + + _m1$3.makeRotationZ( angle ); + + this.applyMatrix4( _m1$3 ); + + return this; + + } + + translate( x, y, z ) { + + // translate geometry + + _m1$3.makeTranslation( x, y, z ); + + this.applyMatrix4( _m1$3 ); + + return this; + + } + + scale( x, y, z ) { + + // scale geometry + + _m1$3.makeScale( x, y, z ); + + this.applyMatrix4( _m1$3 ); + + return this; + + } + + lookAt( vector ) { + + _obj.lookAt( vector ); + + _obj.updateMatrix(); + + this.applyMatrix4( _obj.matrix ); + + return this; + + } + + center() { + + this.computeBoundingBox(); + + this.boundingBox.getCenter( _offset ).negate(); + + this.translate( _offset.x, _offset.y, _offset.z ); + + return this; + + } + + setFromPoints( points ) { + + const positionAttribute = this.getAttribute( 'position' ); + + if ( positionAttribute === undefined ) { + + const position = []; + + for ( let i = 0, l = points.length; i < l; i ++ ) { + + const point = points[ i ]; + position.push( point.x, point.y, point.z || 0 ); + + } + + this.setAttribute( 'position', new Float32BufferAttribute( position, 3 ) ); + + } else { + + const l = Math.min( points.length, positionAttribute.count ); // make sure data do not exceed buffer size + + for ( let i = 0; i < l; i ++ ) { + + const point = points[ i ]; + positionAttribute.setXYZ( i, point.x, point.y, point.z || 0 ); + + } + + if ( points.length > positionAttribute.count ) { + + console.warn( 'THREE.BufferGeometry: Buffer size too small for points data. Use .dispose() and create a new geometry.' ); + + } + + positionAttribute.needsUpdate = true; + + } + + return this; + + } + + computeBoundingBox() { + + if ( this.boundingBox === null ) { + + this.boundingBox = new Box3(); + + } + + const position = this.attributes.position; + const morphAttributesPosition = this.morphAttributes.position; + + if ( position && position.isGLBufferAttribute ) { + + console.error( 'THREE.BufferGeometry.computeBoundingBox(): GLBufferAttribute requires a manual bounding box.', this ); + + this.boundingBox.set( + new Vector3( - Infinity, - Infinity, - Infinity ), + new Vector3( + Infinity, + Infinity, + Infinity ) + ); + + return; + + } + + if ( position !== undefined ) { + + this.boundingBox.setFromBufferAttribute( position ); + + // process morph attributes if present + + if ( morphAttributesPosition ) { + + for ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) { + + const morphAttribute = morphAttributesPosition[ i ]; + _box$2.setFromBufferAttribute( morphAttribute ); + + if ( this.morphTargetsRelative ) { + + _vector$8.addVectors( this.boundingBox.min, _box$2.min ); + this.boundingBox.expandByPoint( _vector$8 ); + + _vector$8.addVectors( this.boundingBox.max, _box$2.max ); + this.boundingBox.expandByPoint( _vector$8 ); + + } else { + + this.boundingBox.expandByPoint( _box$2.min ); + this.boundingBox.expandByPoint( _box$2.max ); + + } + + } + + } + + } else { + + this.boundingBox.makeEmpty(); + + } + + if ( isNaN( this.boundingBox.min.x ) || isNaN( this.boundingBox.min.y ) || isNaN( this.boundingBox.min.z ) ) { + + console.error( 'THREE.BufferGeometry.computeBoundingBox(): Computed min/max have NaN values. The "position" attribute is likely to have NaN values.', this ); + + } + + } + + computeBoundingSphere() { + + if ( this.boundingSphere === null ) { + + this.boundingSphere = new Sphere(); + + } + + const position = this.attributes.position; + const morphAttributesPosition = this.morphAttributes.position; + + if ( position && position.isGLBufferAttribute ) { + + console.error( 'THREE.BufferGeometry.computeBoundingSphere(): GLBufferAttribute requires a manual bounding sphere.', this ); + + this.boundingSphere.set( new Vector3(), Infinity ); + + return; + + } + + if ( position ) { + + // first, find the center of the bounding sphere + + const center = this.boundingSphere.center; + + _box$2.setFromBufferAttribute( position ); + + // process morph attributes if present + + if ( morphAttributesPosition ) { + + for ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) { + + const morphAttribute = morphAttributesPosition[ i ]; + _boxMorphTargets.setFromBufferAttribute( morphAttribute ); + + if ( this.morphTargetsRelative ) { + + _vector$8.addVectors( _box$2.min, _boxMorphTargets.min ); + _box$2.expandByPoint( _vector$8 ); + + _vector$8.addVectors( _box$2.max, _boxMorphTargets.max ); + _box$2.expandByPoint( _vector$8 ); + + } else { + + _box$2.expandByPoint( _boxMorphTargets.min ); + _box$2.expandByPoint( _boxMorphTargets.max ); + + } + + } + + } + + _box$2.getCenter( center ); + + // second, try to find a boundingSphere with a radius smaller than the + // boundingSphere of the boundingBox: sqrt(3) smaller in the best case + + let maxRadiusSq = 0; + + for ( let i = 0, il = position.count; i < il; i ++ ) { + + _vector$8.fromBufferAttribute( position, i ); + + maxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( _vector$8 ) ); + + } + + // process morph attributes if present + + if ( morphAttributesPosition ) { + + for ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) { + + const morphAttribute = morphAttributesPosition[ i ]; + const morphTargetsRelative = this.morphTargetsRelative; + + for ( let j = 0, jl = morphAttribute.count; j < jl; j ++ ) { + + _vector$8.fromBufferAttribute( morphAttribute, j ); + + if ( morphTargetsRelative ) { + + _offset.fromBufferAttribute( position, j ); + _vector$8.add( _offset ); + + } + + maxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( _vector$8 ) ); + + } + + } + + } + + this.boundingSphere.radius = Math.sqrt( maxRadiusSq ); + + if ( isNaN( this.boundingSphere.radius ) ) { + + console.error( 'THREE.BufferGeometry.computeBoundingSphere(): Computed radius is NaN. The "position" attribute is likely to have NaN values.', this ); + + } + + } + + } + + computeTangents() { + + const index = this.index; + const attributes = this.attributes; + + // based on http://www.terathon.com/code/tangent.html + // (per vertex tangents) + + if ( index === null || + attributes.position === undefined || + attributes.normal === undefined || + attributes.uv === undefined ) { + + console.error( 'THREE.BufferGeometry: .computeTangents() failed. Missing required attributes (index, position, normal or uv)' ); + return; + + } + + const positionAttribute = attributes.position; + const normalAttribute = attributes.normal; + const uvAttribute = attributes.uv; + + if ( this.hasAttribute( 'tangent' ) === false ) { + + this.setAttribute( 'tangent', new BufferAttribute( new Float32Array( 4 * positionAttribute.count ), 4 ) ); + + } + + const tangentAttribute = this.getAttribute( 'tangent' ); + + const tan1 = [], tan2 = []; + + for ( let i = 0; i < positionAttribute.count; i ++ ) { + + tan1[ i ] = new Vector3(); + tan2[ i ] = new Vector3(); + + } + + const vA = new Vector3(), + vB = new Vector3(), + vC = new Vector3(), + + uvA = new Vector2(), + uvB = new Vector2(), + uvC = new Vector2(), + + sdir = new Vector3(), + tdir = new Vector3(); + + function handleTriangle( a, b, c ) { + + vA.fromBufferAttribute( positionAttribute, a ); + vB.fromBufferAttribute( positionAttribute, b ); + vC.fromBufferAttribute( positionAttribute, c ); + + uvA.fromBufferAttribute( uvAttribute, a ); + uvB.fromBufferAttribute( uvAttribute, b ); + uvC.fromBufferAttribute( uvAttribute, c ); + + vB.sub( vA ); + vC.sub( vA ); + + uvB.sub( uvA ); + uvC.sub( uvA ); + + const r = 1.0 / ( uvB.x * uvC.y - uvC.x * uvB.y ); + + // silently ignore degenerate uv triangles having coincident or colinear vertices + + if ( ! isFinite( r ) ) return; + + sdir.copy( vB ).multiplyScalar( uvC.y ).addScaledVector( vC, - uvB.y ).multiplyScalar( r ); + tdir.copy( vC ).multiplyScalar( uvB.x ).addScaledVector( vB, - uvC.x ).multiplyScalar( r ); + + tan1[ a ].add( sdir ); + tan1[ b ].add( sdir ); + tan1[ c ].add( sdir ); + + tan2[ a ].add( tdir ); + tan2[ b ].add( tdir ); + tan2[ c ].add( tdir ); + + } + + let groups = this.groups; + + if ( groups.length === 0 ) { + + groups = [ { + start: 0, + count: index.count + } ]; + + } + + for ( let i = 0, il = groups.length; i < il; ++ i ) { + + const group = groups[ i ]; + + const start = group.start; + const count = group.count; + + for ( let j = start, jl = start + count; j < jl; j += 3 ) { + + handleTriangle( + index.getX( j + 0 ), + index.getX( j + 1 ), + index.getX( j + 2 ) + ); + + } + + } + + const tmp = new Vector3(), tmp2 = new Vector3(); + const n = new Vector3(), n2 = new Vector3(); + + function handleVertex( v ) { + + n.fromBufferAttribute( normalAttribute, v ); + n2.copy( n ); + + const t = tan1[ v ]; + + // Gram-Schmidt orthogonalize + + tmp.copy( t ); + tmp.sub( n.multiplyScalar( n.dot( t ) ) ).normalize(); + + // Calculate handedness + + tmp2.crossVectors( n2, t ); + const test = tmp2.dot( tan2[ v ] ); + const w = ( test < 0.0 ) ? -1 : 1.0; + + tangentAttribute.setXYZW( v, tmp.x, tmp.y, tmp.z, w ); + + } + + for ( let i = 0, il = groups.length; i < il; ++ i ) { + + const group = groups[ i ]; + + const start = group.start; + const count = group.count; + + for ( let j = start, jl = start + count; j < jl; j += 3 ) { + + handleVertex( index.getX( j + 0 ) ); + handleVertex( index.getX( j + 1 ) ); + handleVertex( index.getX( j + 2 ) ); + + } + + } + + } + + computeVertexNormals() { + + const index = this.index; + const positionAttribute = this.getAttribute( 'position' ); + + if ( positionAttribute !== undefined ) { + + let normalAttribute = this.getAttribute( 'normal' ); + + if ( normalAttribute === undefined ) { + + normalAttribute = new BufferAttribute( new Float32Array( positionAttribute.count * 3 ), 3 ); + this.setAttribute( 'normal', normalAttribute ); + + } else { + + // reset existing normals to zero + + for ( let i = 0, il = normalAttribute.count; i < il; i ++ ) { + + normalAttribute.setXYZ( i, 0, 0, 0 ); + + } + + } + + const pA = new Vector3(), pB = new Vector3(), pC = new Vector3(); + const nA = new Vector3(), nB = new Vector3(), nC = new Vector3(); + const cb = new Vector3(), ab = new Vector3(); + + // indexed elements + + if ( index ) { + + for ( let i = 0, il = index.count; i < il; i += 3 ) { + + const vA = index.getX( i + 0 ); + const vB = index.getX( i + 1 ); + const vC = index.getX( i + 2 ); + + pA.fromBufferAttribute( positionAttribute, vA ); + pB.fromBufferAttribute( positionAttribute, vB ); + pC.fromBufferAttribute( positionAttribute, vC ); + + cb.subVectors( pC, pB ); + ab.subVectors( pA, pB ); + cb.cross( ab ); + + nA.fromBufferAttribute( normalAttribute, vA ); + nB.fromBufferAttribute( normalAttribute, vB ); + nC.fromBufferAttribute( normalAttribute, vC ); + + nA.add( cb ); + nB.add( cb ); + nC.add( cb ); + + normalAttribute.setXYZ( vA, nA.x, nA.y, nA.z ); + normalAttribute.setXYZ( vB, nB.x, nB.y, nB.z ); + normalAttribute.setXYZ( vC, nC.x, nC.y, nC.z ); + + } + + } else { + + // non-indexed elements (unconnected triangle soup) + + for ( let i = 0, il = positionAttribute.count; i < il; i += 3 ) { + + pA.fromBufferAttribute( positionAttribute, i + 0 ); + pB.fromBufferAttribute( positionAttribute, i + 1 ); + pC.fromBufferAttribute( positionAttribute, i + 2 ); + + cb.subVectors( pC, pB ); + ab.subVectors( pA, pB ); + cb.cross( ab ); + + normalAttribute.setXYZ( i + 0, cb.x, cb.y, cb.z ); + normalAttribute.setXYZ( i + 1, cb.x, cb.y, cb.z ); + normalAttribute.setXYZ( i + 2, cb.x, cb.y, cb.z ); + + } + + } + + this.normalizeNormals(); + + normalAttribute.needsUpdate = true; + + } + + } + + normalizeNormals() { + + const normals = this.attributes.normal; + + for ( let i = 0, il = normals.count; i < il; i ++ ) { + + _vector$8.fromBufferAttribute( normals, i ); + + _vector$8.normalize(); + + normals.setXYZ( i, _vector$8.x, _vector$8.y, _vector$8.z ); + + } + + } + + toNonIndexed() { + + function convertBufferAttribute( attribute, indices ) { + + const array = attribute.array; + const itemSize = attribute.itemSize; + const normalized = attribute.normalized; + + const array2 = new array.constructor( indices.length * itemSize ); + + let index = 0, index2 = 0; + + for ( let i = 0, l = indices.length; i < l; i ++ ) { + + if ( attribute.isInterleavedBufferAttribute ) { + + index = indices[ i ] * attribute.data.stride + attribute.offset; + + } else { + + index = indices[ i ] * itemSize; + + } + + for ( let j = 0; j < itemSize; j ++ ) { + + array2[ index2 ++ ] = array[ index ++ ]; + + } + + } + + return new BufferAttribute( array2, itemSize, normalized ); + + } + + // + + if ( this.index === null ) { + + console.warn( 'THREE.BufferGeometry.toNonIndexed(): BufferGeometry is already non-indexed.' ); + return this; + + } + + const geometry2 = new BufferGeometry(); + + const indices = this.index.array; + const attributes = this.attributes; + + // attributes + + for ( const name in attributes ) { + + const attribute = attributes[ name ]; + + const newAttribute = convertBufferAttribute( attribute, indices ); + + geometry2.setAttribute( name, newAttribute ); + + } + + // morph attributes + + const morphAttributes = this.morphAttributes; + + for ( const name in morphAttributes ) { + + const morphArray = []; + const morphAttribute = morphAttributes[ name ]; // morphAttribute: array of Float32BufferAttributes + + for ( let i = 0, il = morphAttribute.length; i < il; i ++ ) { + + const attribute = morphAttribute[ i ]; + + const newAttribute = convertBufferAttribute( attribute, indices ); + + morphArray.push( newAttribute ); + + } + + geometry2.morphAttributes[ name ] = morphArray; + + } + + geometry2.morphTargetsRelative = this.morphTargetsRelative; + + // groups + + const groups = this.groups; + + for ( let i = 0, l = groups.length; i < l; i ++ ) { + + const group = groups[ i ]; + geometry2.addGroup( group.start, group.count, group.materialIndex ); + + } + + return geometry2; + + } + + toJSON() { + + const data = { + metadata: { + version: 4.6, + type: 'BufferGeometry', + generator: 'BufferGeometry.toJSON' + } + }; + + // standard BufferGeometry serialization + + data.uuid = this.uuid; + data.type = this.type; + if ( this.name !== '' ) data.name = this.name; + if ( Object.keys( this.userData ).length > 0 ) data.userData = this.userData; + + if ( this.parameters !== undefined ) { + + const parameters = this.parameters; + + for ( const key in parameters ) { + + if ( parameters[ key ] !== undefined ) data[ key ] = parameters[ key ]; + + } + + return data; + + } + + // for simplicity the code assumes attributes are not shared across geometries, see #15811 + + data.data = { attributes: {} }; + + const index = this.index; + + if ( index !== null ) { + + data.data.index = { + type: index.array.constructor.name, + array: Array.prototype.slice.call( index.array ) + }; + + } + + const attributes = this.attributes; + + for ( const key in attributes ) { + + const attribute = attributes[ key ]; + + data.data.attributes[ key ] = attribute.toJSON( data.data ); + + } + + const morphAttributes = {}; + let hasMorphAttributes = false; + + for ( const key in this.morphAttributes ) { + + const attributeArray = this.morphAttributes[ key ]; + + const array = []; + + for ( let i = 0, il = attributeArray.length; i < il; i ++ ) { + + const attribute = attributeArray[ i ]; + + array.push( attribute.toJSON( data.data ) ); + + } + + if ( array.length > 0 ) { + + morphAttributes[ key ] = array; + + hasMorphAttributes = true; + + } + + } + + if ( hasMorphAttributes ) { + + data.data.morphAttributes = morphAttributes; + data.data.morphTargetsRelative = this.morphTargetsRelative; + + } + + const groups = this.groups; + + if ( groups.length > 0 ) { + + data.data.groups = JSON.parse( JSON.stringify( groups ) ); + + } + + const boundingSphere = this.boundingSphere; + + if ( boundingSphere !== null ) { + + data.data.boundingSphere = { + center: boundingSphere.center.toArray(), + radius: boundingSphere.radius + }; + + } + + return data; + + } + + clone() { + + return new this.constructor().copy( this ); + + } + + copy( source ) { + + // reset + + this.index = null; + this.attributes = {}; + this.morphAttributes = {}; + this.groups = []; + this.boundingBox = null; + this.boundingSphere = null; + + // used for storing cloned, shared data + + const data = {}; + + // name + + this.name = source.name; + + // index + + const index = source.index; + + if ( index !== null ) { + + this.setIndex( index.clone( data ) ); + + } + + // attributes + + const attributes = source.attributes; + + for ( const name in attributes ) { + + const attribute = attributes[ name ]; + this.setAttribute( name, attribute.clone( data ) ); + + } + + // morph attributes + + const morphAttributes = source.morphAttributes; + + for ( const name in morphAttributes ) { + + const array = []; + const morphAttribute = morphAttributes[ name ]; // morphAttribute: array of Float32BufferAttributes + + for ( let i = 0, l = morphAttribute.length; i < l; i ++ ) { + + array.push( morphAttribute[ i ].clone( data ) ); + + } + + this.morphAttributes[ name ] = array; + + } + + this.morphTargetsRelative = source.morphTargetsRelative; + + // groups + + const groups = source.groups; + + for ( let i = 0, l = groups.length; i < l; i ++ ) { + + const group = groups[ i ]; + this.addGroup( group.start, group.count, group.materialIndex ); + + } + + // bounding box + + const boundingBox = source.boundingBox; + + if ( boundingBox !== null ) { + + this.boundingBox = boundingBox.clone(); + + } + + // bounding sphere + + const boundingSphere = source.boundingSphere; + + if ( boundingSphere !== null ) { + + this.boundingSphere = boundingSphere.clone(); + + } + + // draw range + + this.drawRange.start = source.drawRange.start; + this.drawRange.count = source.drawRange.count; + + // user data + + this.userData = source.userData; + + return this; + + } + + dispose() { + + this.dispatchEvent( { type: 'dispose' } ); + + } + +} + +const _inverseMatrix$3 = /*@__PURE__*/ new Matrix4(); +const _ray$3 = /*@__PURE__*/ new Ray(); +const _sphere$6 = /*@__PURE__*/ new Sphere(); +const _sphereHitAt = /*@__PURE__*/ new Vector3(); + +const _vA$1 = /*@__PURE__*/ new Vector3(); +const _vB$1 = /*@__PURE__*/ new Vector3(); +const _vC$1 = /*@__PURE__*/ new Vector3(); + +const _tempA = /*@__PURE__*/ new Vector3(); +const _morphA = /*@__PURE__*/ new Vector3(); + +const _intersectionPoint = /*@__PURE__*/ new Vector3(); +const _intersectionPointWorld = /*@__PURE__*/ new Vector3(); + +/** + * Class representing triangular polygon mesh based objects. + * + * ```js + * const geometry = new THREE.BoxGeometry( 1, 1, 1 ); + * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } ); + * const mesh = new THREE.Mesh( geometry, material ); + * scene.add( mesh ); + * ``` + * + * @augments Object3D + */ +class Mesh extends Object3D { + + /** + * Constructs a new mesh. + * + * @param {BufferGeometry} [geometry] - The mesh geometry. + * @param {Material|Array} [material] - The mesh material. + */ + constructor( geometry = new BufferGeometry(), material = new MeshBasicMaterial() ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isMesh = true; + + this.type = 'Mesh'; + + /** + * The mesh geometry. + * + * @type {BufferGeometry} + */ + this.geometry = geometry; + + /** + * The mesh material. + * + * @type {Material|Array} + * @default MeshBasicMaterial + */ + this.material = material; + + /** + * A dictionary representing the morph targets in the geometry. The key is the + * morph targets name, the value its attribute index. This member is `undefined` + * by default and only set when morph targets are detected in the geometry. + * + * @type {Object|undefined} + * @default undefined + */ + this.morphTargetDictionary = undefined; + + /** + * An array of weights typically in the range `[0,1]` that specify how much of the morph + * is applied. This member is `undefined` by default and only set when morph targets are + * detected in the geometry. + * + * @type {Array|undefined} + * @default undefined + */ + this.morphTargetInfluences = undefined; + + this.updateMorphTargets(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + if ( source.morphTargetInfluences !== undefined ) { + + this.morphTargetInfluences = source.morphTargetInfluences.slice(); + + } + + if ( source.morphTargetDictionary !== undefined ) { + + this.morphTargetDictionary = Object.assign( {}, source.morphTargetDictionary ); + + } + + this.material = Array.isArray( source.material ) ? source.material.slice() : source.material; + this.geometry = source.geometry; + + return this; + + } + + /** + * Sets the values of {@link Mesh#morphTargetDictionary} and {@link Mesh#morphTargetInfluences} + * to make sure existing morph targets can influence this 3D object. + */ + updateMorphTargets() { + + const geometry = this.geometry; + + const morphAttributes = geometry.morphAttributes; + const keys = Object.keys( morphAttributes ); + + if ( keys.length > 0 ) { + + const morphAttribute = morphAttributes[ keys[ 0 ] ]; + + if ( morphAttribute !== undefined ) { + + this.morphTargetInfluences = []; + this.morphTargetDictionary = {}; + + for ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) { + + const name = morphAttribute[ m ].name || String( m ); + + this.morphTargetInfluences.push( 0 ); + this.morphTargetDictionary[ name ] = m; + + } + + } + + } + + } + + /** + * Returns the local-space position of the vertex at the given index, taking into + * account the current animation state of both morph targets and skinning. + * + * @param {number} index - The vertex index. + * @param {Vector3} target - The target object that is used to store the method's result. + * @return {Vector3} The vertex position in local space. + */ + getVertexPosition( index, target ) { + + const geometry = this.geometry; + const position = geometry.attributes.position; + const morphPosition = geometry.morphAttributes.position; + const morphTargetsRelative = geometry.morphTargetsRelative; + + target.fromBufferAttribute( position, index ); + + const morphInfluences = this.morphTargetInfluences; + + if ( morphPosition && morphInfluences ) { + + _morphA.set( 0, 0, 0 ); + + for ( let i = 0, il = morphPosition.length; i < il; i ++ ) { + + const influence = morphInfluences[ i ]; + const morphAttribute = morphPosition[ i ]; + + if ( influence === 0 ) continue; + + _tempA.fromBufferAttribute( morphAttribute, index ); + + if ( morphTargetsRelative ) { + + _morphA.addScaledVector( _tempA, influence ); + + } else { + + _morphA.addScaledVector( _tempA.sub( target ), influence ); + + } + + } + + target.add( _morphA ); + + } + + return target; + + } + + /** + * Computes intersection points between a casted ray and this line. + * + * @param {Raycaster} raycaster - The raycaster. + * @param {Array} intersects - The target array that holds the intersection points. + */ + raycast( raycaster, intersects ) { + + const geometry = this.geometry; + const material = this.material; + const matrixWorld = this.matrixWorld; + + if ( material === undefined ) return; + + // test with bounding sphere in world space + + if ( geometry.boundingSphere === null ) geometry.computeBoundingSphere(); + + _sphere$6.copy( geometry.boundingSphere ); + _sphere$6.applyMatrix4( matrixWorld ); + + // check distance from ray origin to bounding sphere + + _ray$3.copy( raycaster.ray ).recast( raycaster.near ); + + if ( _sphere$6.containsPoint( _ray$3.origin ) === false ) { + + if ( _ray$3.intersectSphere( _sphere$6, _sphereHitAt ) === null ) return; + + if ( _ray$3.origin.distanceToSquared( _sphereHitAt ) > ( raycaster.far - raycaster.near ) ** 2 ) return; + + } + + // convert ray to local space of mesh + + _inverseMatrix$3.copy( matrixWorld ).invert(); + _ray$3.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$3 ); + + // test with bounding box in local space + + if ( geometry.boundingBox !== null ) { + + if ( _ray$3.intersectsBox( geometry.boundingBox ) === false ) return; + + } + + // test for intersections with geometry + + this._computeIntersections( raycaster, intersects, _ray$3 ); + + } + + _computeIntersections( raycaster, intersects, rayLocalSpace ) { + + let intersection; + + const geometry = this.geometry; + const material = this.material; + + const index = geometry.index; + const position = geometry.attributes.position; + const uv = geometry.attributes.uv; + const uv1 = geometry.attributes.uv1; + const normal = geometry.attributes.normal; + const groups = geometry.groups; + const drawRange = geometry.drawRange; + + if ( index !== null ) { + + // indexed buffer geometry + + if ( Array.isArray( material ) ) { + + for ( let i = 0, il = groups.length; i < il; i ++ ) { + + const group = groups[ i ]; + const groupMaterial = material[ group.materialIndex ]; + + const start = Math.max( group.start, drawRange.start ); + const end = Math.min( index.count, Math.min( ( group.start + group.count ), ( drawRange.start + drawRange.count ) ) ); + + for ( let j = start, jl = end; j < jl; j += 3 ) { + + const a = index.getX( j ); + const b = index.getX( j + 1 ); + const c = index.getX( j + 2 ); + + intersection = checkGeometryIntersection( this, groupMaterial, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c ); + + if ( intersection ) { + + intersection.faceIndex = Math.floor( j / 3 ); // triangle number in indexed buffer semantics + intersection.face.materialIndex = group.materialIndex; + intersects.push( intersection ); + + } + + } + + } + + } else { + + const start = Math.max( 0, drawRange.start ); + const end = Math.min( index.count, ( drawRange.start + drawRange.count ) ); + + for ( let i = start, il = end; i < il; i += 3 ) { + + const a = index.getX( i ); + const b = index.getX( i + 1 ); + const c = index.getX( i + 2 ); + + intersection = checkGeometryIntersection( this, material, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c ); + + if ( intersection ) { + + intersection.faceIndex = Math.floor( i / 3 ); // triangle number in indexed buffer semantics + intersects.push( intersection ); + + } + + } + + } + + } else if ( position !== undefined ) { + + // non-indexed buffer geometry + + if ( Array.isArray( material ) ) { + + for ( let i = 0, il = groups.length; i < il; i ++ ) { + + const group = groups[ i ]; + const groupMaterial = material[ group.materialIndex ]; + + const start = Math.max( group.start, drawRange.start ); + const end = Math.min( position.count, Math.min( ( group.start + group.count ), ( drawRange.start + drawRange.count ) ) ); + + for ( let j = start, jl = end; j < jl; j += 3 ) { + + const a = j; + const b = j + 1; + const c = j + 2; + + intersection = checkGeometryIntersection( this, groupMaterial, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c ); + + if ( intersection ) { + + intersection.faceIndex = Math.floor( j / 3 ); // triangle number in non-indexed buffer semantics + intersection.face.materialIndex = group.materialIndex; + intersects.push( intersection ); + + } + + } + + } + + } else { + + const start = Math.max( 0, drawRange.start ); + const end = Math.min( position.count, ( drawRange.start + drawRange.count ) ); + + for ( let i = start, il = end; i < il; i += 3 ) { + + const a = i; + const b = i + 1; + const c = i + 2; + + intersection = checkGeometryIntersection( this, material, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c ); + + if ( intersection ) { + + intersection.faceIndex = Math.floor( i / 3 ); // triangle number in non-indexed buffer semantics + intersects.push( intersection ); + + } + + } + + } + + } + + } + +} + +function checkIntersection$1( object, material, raycaster, ray, pA, pB, pC, point ) { + + let intersect; + + if ( material.side === BackSide ) { + + intersect = ray.intersectTriangle( pC, pB, pA, true, point ); + + } else { + + intersect = ray.intersectTriangle( pA, pB, pC, ( material.side === FrontSide ), point ); + + } + + if ( intersect === null ) return null; + + _intersectionPointWorld.copy( point ); + _intersectionPointWorld.applyMatrix4( object.matrixWorld ); + + const distance = raycaster.ray.origin.distanceTo( _intersectionPointWorld ); + + if ( distance < raycaster.near || distance > raycaster.far ) return null; + + return { + distance: distance, + point: _intersectionPointWorld.clone(), + object: object + }; + +} + +function checkGeometryIntersection( object, material, raycaster, ray, uv, uv1, normal, a, b, c ) { + + object.getVertexPosition( a, _vA$1 ); + object.getVertexPosition( b, _vB$1 ); + object.getVertexPosition( c, _vC$1 ); + + const intersection = checkIntersection$1( object, material, raycaster, ray, _vA$1, _vB$1, _vC$1, _intersectionPoint ); + + if ( intersection ) { + + const barycoord = new Vector3(); + Triangle.getBarycoord( _intersectionPoint, _vA$1, _vB$1, _vC$1, barycoord ); + + if ( uv ) { + + intersection.uv = Triangle.getInterpolatedAttribute( uv, a, b, c, barycoord, new Vector2() ); + + } + + if ( uv1 ) { + + intersection.uv1 = Triangle.getInterpolatedAttribute( uv1, a, b, c, barycoord, new Vector2() ); + + } + + if ( normal ) { + + intersection.normal = Triangle.getInterpolatedAttribute( normal, a, b, c, barycoord, new Vector3() ); + + if ( intersection.normal.dot( ray.direction ) > 0 ) { + + intersection.normal.multiplyScalar( -1 ); + + } + + } + + const face = { + a: a, + b: b, + c: c, + normal: new Vector3(), + materialIndex: 0 + }; + + Triangle.getNormal( _vA$1, _vB$1, _vC$1, face.normal ); + + intersection.face = face; + intersection.barycoord = barycoord; + + } + + return intersection; + +} + +/** + * A geometry class for a rectangular cuboid with a given width, height, and depth. + * On creation, the cuboid is centred on the origin, with each edge parallel to one + * of the axes. + * + * ```js + * const geometry = new THREE.BoxGeometry( 1, 1, 1 ); + * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } ); + * const cube = new THREE.Mesh( geometry, material ); + * scene.add( cube ); + * ``` + * + * @augments BufferGeometry + */ +class BoxGeometry extends BufferGeometry { + + /** + * Constructs a new box geometry. + * + * @param {number} [width=1] - The width. That is, the length of the edges parallel to the X axis. + * @param {number} [height=1] - The height. That is, the length of the edges parallel to the Y axis. + * @param {number} [depth=1] - The depth. That is, the length of the edges parallel to the Z axis. + * @param {number} [widthSegments=1] - Number of segmented rectangular faces along the width of the sides. + * @param {number} [heightSegments=1] - Number of segmented rectangular faces along the height of the sides. + * @param {number} [depthSegments=1] - Number of segmented rectangular faces along the depth of the sides. + */ + constructor( width = 1, height = 1, depth = 1, widthSegments = 1, heightSegments = 1, depthSegments = 1 ) { + + super(); + + this.type = 'BoxGeometry'; + + /** + * Holds the constructor parameters that have been + * used to generate the geometry. Any modification + * after instantiation does not change the geometry. + * + * @type {Object} + */ + this.parameters = { + width: width, + height: height, + depth: depth, + widthSegments: widthSegments, + heightSegments: heightSegments, + depthSegments: depthSegments + }; + + const scope = this; + + // segments + + widthSegments = Math.floor( widthSegments ); + heightSegments = Math.floor( heightSegments ); + depthSegments = Math.floor( depthSegments ); + + // buffers + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + // helper variables + + let numberOfVertices = 0; + let groupStart = 0; + + // build each side of the box geometry + + buildPlane( 'z', 'y', 'x', -1, -1, depth, height, width, depthSegments, heightSegments, 0 ); // px + buildPlane( 'z', 'y', 'x', 1, -1, depth, height, - width, depthSegments, heightSegments, 1 ); // nx + buildPlane( 'x', 'z', 'y', 1, 1, width, depth, height, widthSegments, depthSegments, 2 ); // py + buildPlane( 'x', 'z', 'y', 1, -1, width, depth, - height, widthSegments, depthSegments, 3 ); // ny + buildPlane( 'x', 'y', 'z', 1, -1, width, height, depth, widthSegments, heightSegments, 4 ); // pz + buildPlane( 'x', 'y', 'z', -1, -1, width, height, - depth, widthSegments, heightSegments, 5 ); // nz + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + function buildPlane( u, v, w, udir, vdir, width, height, depth, gridX, gridY, materialIndex ) { + + const segmentWidth = width / gridX; + const segmentHeight = height / gridY; + + const widthHalf = width / 2; + const heightHalf = height / 2; + const depthHalf = depth / 2; + + const gridX1 = gridX + 1; + const gridY1 = gridY + 1; + + let vertexCounter = 0; + let groupCount = 0; + + const vector = new Vector3(); + + // generate vertices, normals and uvs + + for ( let iy = 0; iy < gridY1; iy ++ ) { + + const y = iy * segmentHeight - heightHalf; + + for ( let ix = 0; ix < gridX1; ix ++ ) { + + const x = ix * segmentWidth - widthHalf; + + // set values to correct vector component + + vector[ u ] = x * udir; + vector[ v ] = y * vdir; + vector[ w ] = depthHalf; + + // now apply vector to vertex buffer + + vertices.push( vector.x, vector.y, vector.z ); + + // set values to correct vector component + + vector[ u ] = 0; + vector[ v ] = 0; + vector[ w ] = depth > 0 ? 1 : -1; + + // now apply vector to normal buffer + + normals.push( vector.x, vector.y, vector.z ); + + // uvs + + uvs.push( ix / gridX ); + uvs.push( 1 - ( iy / gridY ) ); + + // counters + + vertexCounter += 1; + + } + + } + + // indices + + // 1. you need three indices to draw a single face + // 2. a single segment consists of two faces + // 3. so we need to generate six (2*3) indices per segment + + for ( let iy = 0; iy < gridY; iy ++ ) { + + for ( let ix = 0; ix < gridX; ix ++ ) { + + const a = numberOfVertices + ix + gridX1 * iy; + const b = numberOfVertices + ix + gridX1 * ( iy + 1 ); + const c = numberOfVertices + ( ix + 1 ) + gridX1 * ( iy + 1 ); + const d = numberOfVertices + ( ix + 1 ) + gridX1 * iy; + + // faces + + indices.push( a, b, d ); + indices.push( b, c, d ); + + // increase counter + + groupCount += 6; + + } + + } + + // add a group to the geometry. this will ensure multi material support + + scope.addGroup( groupStart, groupCount, materialIndex ); + + // calculate new start value for groups + + groupStart += groupCount; + + // update total number of vertices + + numberOfVertices += vertexCounter; + + } + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + /** + * Factory method for creating an instance of this class from the given + * JSON object. + * + * @param {Object} data - A JSON object representing the serialized geometry. + * @return {BoxGeometry} A new instance. + */ + static fromJSON( data ) { + + return new BoxGeometry( data.width, data.height, data.depth, data.widthSegments, data.heightSegments, data.depthSegments ); + + } + +} + +/** + * Uniform Utilities + */ + +function cloneUniforms( src ) { + + const dst = {}; + + for ( const u in src ) { + + dst[ u ] = {}; + + for ( const p in src[ u ] ) { + + const property = src[ u ][ p ]; + + if ( property && ( property.isColor || + property.isMatrix3 || property.isMatrix4 || + property.isVector2 || property.isVector3 || property.isVector4 || + property.isTexture || property.isQuaternion ) ) { + + if ( property.isRenderTargetTexture ) { + + console.warn( 'UniformsUtils: Textures of render targets cannot be cloned via cloneUniforms() or mergeUniforms().' ); + dst[ u ][ p ] = null; + + } else { + + dst[ u ][ p ] = property.clone(); + + } + + } else if ( Array.isArray( property ) ) { + + dst[ u ][ p ] = property.slice(); + + } else { + + dst[ u ][ p ] = property; + + } + + } + + } + + return dst; + +} + +function mergeUniforms( uniforms ) { + + const merged = {}; + + for ( let u = 0; u < uniforms.length; u ++ ) { + + const tmp = cloneUniforms( uniforms[ u ] ); + + for ( const p in tmp ) { + + merged[ p ] = tmp[ p ]; + + } + + } + + return merged; + +} + +function cloneUniformsGroups( src ) { + + const dst = []; + + for ( let u = 0; u < src.length; u ++ ) { + + dst.push( src[ u ].clone() ); + + } + + return dst; + +} + +function getUnlitUniformColorSpace( renderer ) { + + const currentRenderTarget = renderer.getRenderTarget(); + + if ( currentRenderTarget === null ) { + + // https://github.com/mrdoob/three.js/pull/23937#issuecomment-1111067398 + return renderer.outputColorSpace; + + } + + // https://github.com/mrdoob/three.js/issues/27868 + if ( currentRenderTarget.isXRRenderTarget === true ) { + + return currentRenderTarget.texture.colorSpace; + + } + + return ColorManagement.workingColorSpace; + +} + +// Legacy + +const UniformsUtils = { clone: cloneUniforms, merge: mergeUniforms }; + +var default_vertex = "void main() {\n\tgl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );\n}"; + +var default_fragment = "void main() {\n\tgl_FragColor = vec4( 1.0, 0.0, 0.0, 1.0 );\n}"; + +class ShaderMaterial extends Material$1 { + + constructor( parameters ) { + + super(); + + this.isShaderMaterial = true; + + this.type = 'ShaderMaterial'; + + this.defines = {}; + this.uniforms = {}; + this.uniformsGroups = []; + + this.vertexShader = default_vertex; + this.fragmentShader = default_fragment; + + this.linewidth = 1; + + this.wireframe = false; + this.wireframeLinewidth = 1; + + this.fog = false; // set to use scene fog + this.lights = false; // set to use scene lights + this.clipping = false; // set to use user-defined clipping planes + + this.forceSinglePass = true; + + this.extensions = { + clipCullDistance: false, // set to use vertex shader clipping + multiDraw: false // set to use vertex shader multi_draw / enable gl_DrawID + }; + + // When rendered geometry doesn't include these attributes but the material does, + // use these default values in WebGL. This avoids errors when buffer data is missing. + this.defaultAttributeValues = { + 'color': [ 1, 1, 1 ], + 'uv': [ 0, 0 ], + 'uv1': [ 0, 0 ] + }; + + this.index0AttributeName = undefined; + this.uniformsNeedUpdate = false; + + this.glslVersion = null; + + if ( parameters !== undefined ) { + + this.setValues( parameters ); + + } + + } + + copy( source ) { + + super.copy( source ); + + this.fragmentShader = source.fragmentShader; + this.vertexShader = source.vertexShader; + + this.uniforms = cloneUniforms( source.uniforms ); + this.uniformsGroups = cloneUniformsGroups( source.uniformsGroups ); + + this.defines = Object.assign( {}, source.defines ); + + this.wireframe = source.wireframe; + this.wireframeLinewidth = source.wireframeLinewidth; + + this.fog = source.fog; + this.lights = source.lights; + this.clipping = source.clipping; + + this.extensions = Object.assign( {}, source.extensions ); + + this.glslVersion = source.glslVersion; + + return this; + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + data.glslVersion = this.glslVersion; + data.uniforms = {}; + + for ( const name in this.uniforms ) { + + const uniform = this.uniforms[ name ]; + const value = uniform.value; + + if ( value && value.isTexture ) { + + data.uniforms[ name ] = { + type: 't', + value: value.toJSON( meta ).uuid + }; + + } else if ( value && value.isColor ) { + + data.uniforms[ name ] = { + type: 'c', + value: value.getHex() + }; + + } else if ( value && value.isVector2 ) { + + data.uniforms[ name ] = { + type: 'v2', + value: value.toArray() + }; + + } else if ( value && value.isVector3 ) { + + data.uniforms[ name ] = { + type: 'v3', + value: value.toArray() + }; + + } else if ( value && value.isVector4 ) { + + data.uniforms[ name ] = { + type: 'v4', + value: value.toArray() + }; + + } else if ( value && value.isMatrix3 ) { + + data.uniforms[ name ] = { + type: 'm3', + value: value.toArray() + }; + + } else if ( value && value.isMatrix4 ) { + + data.uniforms[ name ] = { + type: 'm4', + value: value.toArray() + }; + + } else { + + data.uniforms[ name ] = { + value: value + }; + + // note: the array variants v2v, v3v, v4v, m4v and tv are not supported so far + + } + + } + + if ( Object.keys( this.defines ).length > 0 ) data.defines = this.defines; + + data.vertexShader = this.vertexShader; + data.fragmentShader = this.fragmentShader; + + data.lights = this.lights; + data.clipping = this.clipping; + + const extensions = {}; + + for ( const key in this.extensions ) { + + if ( this.extensions[ key ] === true ) extensions[ key ] = true; + + } + + if ( Object.keys( extensions ).length > 0 ) data.extensions = extensions; + + return data; + + } + +} + +/** + * Abstract base class for cameras. This class should always be inherited + * when you build a new camera. + * + * @abstract + * @augments Object3D + */ +class Camera extends Object3D { + + /** + * Constructs a new camera. + */ + constructor() { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isCamera = true; + + this.type = 'Camera'; + + /** + * The inverse of the camera's world matrix. + * + * @type {Matrix4} + */ + this.matrixWorldInverse = new Matrix4(); + + /** + * The camera's projection matrix. + * + * @type {Matrix4} + */ + this.projectionMatrix = new Matrix4(); + + /** + * The inverse of the camera's projection matrix. + * + * @type {Matrix4} + */ + this.projectionMatrixInverse = new Matrix4(); + + /** + * The coordinate system in which the camera is used. + * + * @type {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} + */ + this.coordinateSystem = WebGLCoordinateSystem; + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.matrixWorldInverse.copy( source.matrixWorldInverse ); + + this.projectionMatrix.copy( source.projectionMatrix ); + this.projectionMatrixInverse.copy( source.projectionMatrixInverse ); + + this.coordinateSystem = source.coordinateSystem; + + return this; + + } + + /** + * Returns a vector representing the ("look") direction of the 3D object in world space. + * + * This method is overwritten since cameras have a different forward vector compared to other + * 3D objects. A camera looks down its local, negative z-axis by default. + * + * @param {Vector3} target - The target vector the result is stored to. + * @return {Vector3} The 3D object's direction in world space. + */ + getWorldDirection( target ) { + + return super.getWorldDirection( target ).negate(); + + } + + updateMatrixWorld( force ) { + + super.updateMatrixWorld( force ); + + this.matrixWorldInverse.copy( this.matrixWorld ).invert(); + + } + + updateWorldMatrix( updateParents, updateChildren ) { + + super.updateWorldMatrix( updateParents, updateChildren ); + + this.matrixWorldInverse.copy( this.matrixWorld ).invert(); + + } + + clone() { + + return new this.constructor().copy( this ); + + } + +} + +const _v3$1 = /*@__PURE__*/ new Vector3(); +const _minTarget = /*@__PURE__*/ new Vector2(); +const _maxTarget = /*@__PURE__*/ new Vector2(); + +/** + * Camera that uses [perspective projection]{@link https://en.wikipedia.org/wiki/Perspective_(graphical)}. + * + * This projection mode is designed to mimic the way the human eye sees. It + * is the most common projection mode used for rendering a 3D scene. + * + * ```js + * const camera = new THREE.PerspectiveCamera( 45, width / height, 1, 1000 ); + * scene.add( camera ); + * ``` + * + * @augments Camera + */ +class PerspectiveCamera extends Camera { + + /** + * Constructs a new perspective camera. + * + * @param {number} [fov=50] - The vertical field of view. + * @param {number} [aspect=1] - The aspect ratio. + * @param {number} [near=0.1] - The camera's near plane. + * @param {number} [far=2000] - The camera's far plane. + */ + constructor( fov = 50, aspect = 1, near = 0.1, far = 2000 ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isPerspectiveCamera = true; + + this.type = 'PerspectiveCamera'; + + /** + * The vertical field of view, from bottom to top of view, + * in degrees. + * + * @type {number} + * @default 50 + */ + this.fov = fov; + + /** + * The zoom factor of the camera. + * + * @type {number} + * @default 1 + */ + this.zoom = 1; + + /** + * The camera's near plane. The valid range is greater than `0` + * and less than the current value of {@link PerspectiveCamera#far}. + * + * Note that, unlike for the {@link OrthographicCamera}, `0` is not a + * valid value for a perspective camera's near plane. + * + * @type {number} + * @default 0.1 + */ + this.near = near; + + /** + * The camera's far plane. Must be greater than the + * current value of {@link PerspectiveCamera#near}. + * + * @type {number} + * @default 2000 + */ + this.far = far; + + /** + * Object distance used for stereoscopy and depth-of-field effects. This + * parameter does not influence the projection matrix unless a + * {@link StereoCamera} is being used. + * + * @type {number} + * @default 10 + */ + this.focus = 10; + + /** + * The aspect ratio, usually the canvas width / canvas height. + * + * @type {number} + * @default 1 + */ + this.aspect = aspect; + + /** + * Represents the frustum window specification. This property should not be edited + * directly but via {@link PerspectiveCamera#setViewOffset} and {@link PerspectiveCamera#clearViewOffset}. + * + * @type {?Object} + * @default null + */ + this.view = null; + + /** + * Film size used for the larger axis. Default is `35` (millimeters). This + * parameter does not influence the projection matrix unless {@link PerspectiveCamera#filmOffset} + * is set to a nonzero value. + * + * @type {number} + * @default 35 + */ + this.filmGauge = 35; + + /** + * Horizontal off-center offset in the same unit as {@link PerspectiveCamera#filmGauge}. + * + * @type {number} + * @default 0 + */ + this.filmOffset = 0; + + this.updateProjectionMatrix(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.fov = source.fov; + this.zoom = source.zoom; + + this.near = source.near; + this.far = source.far; + this.focus = source.focus; + + this.aspect = source.aspect; + this.view = source.view === null ? null : Object.assign( {}, source.view ); + + this.filmGauge = source.filmGauge; + this.filmOffset = source.filmOffset; + + return this; + + } + + /** + * Sets the FOV by focal length in respect to the current {@link PerspectiveCamera#filmGauge}. + * + * The default film gauge is 35, so that the focal length can be specified for + * a 35mm (full frame) camera. + * + * @param {number} focalLength - Values for focal length and film gauge must have the same unit. + */ + setFocalLength( focalLength ) { + + /** see {@link http://www.bobatkins.com/photography/technical/field_of_view.html} */ + const vExtentSlope = 0.5 * this.getFilmHeight() / focalLength; + + this.fov = RAD2DEG * 2 * Math.atan( vExtentSlope ); + this.updateProjectionMatrix(); + + } + + /** + * Returns the focal length from the current {@link PerspectiveCamera#fov} and + * {@link PerspectiveCamera#filmGauge}. + * + * @return {number} The computed focal length. + */ + getFocalLength() { + + const vExtentSlope = Math.tan( DEG2RAD * 0.5 * this.fov ); + + return 0.5 * this.getFilmHeight() / vExtentSlope; + + } + + /** + * Returns the current vertical field of view angle in degrees considering {@link PerspectiveCamera#zoom}. + * + * @return {number} The effective FOV. + */ + getEffectiveFOV() { + + return RAD2DEG * 2 * Math.atan( + Math.tan( DEG2RAD * 0.5 * this.fov ) / this.zoom ); + + } + + /** + * Returns the width of the image on the film. If {@link PerspectiveCamera#aspect} is greater than or + * equal to one (landscape format), the result equals {@link PerspectiveCamera#filmGauge}. + * + * @return {number} The film width. + */ + getFilmWidth() { + + // film not completely covered in portrait format (aspect < 1) + return this.filmGauge * Math.min( this.aspect, 1 ); + + } + + /** + * Returns the height of the image on the film. If {@link PerspectiveCamera#aspect} is greater than or + * equal to one (landscape format), the result equals {@link PerspectiveCamera#filmGauge}. + * + * @return {number} The film width. + */ + getFilmHeight() { + + // film not completely covered in landscape format (aspect > 1) + return this.filmGauge / Math.max( this.aspect, 1 ); + + } + + /** + * Computes the 2D bounds of the camera's viewable rectangle at a given distance along the viewing direction. + * Sets `minTarget` and `maxTarget` to the coordinates of the lower-left and upper-right corners of the view rectangle. + * + * @param {number} distance - The viewing distance. + * @param {Vector2} minTarget - The lower-left corner of the view rectangle is written into this vector. + * @param {Vector2} maxTarget - The upper-right corner of the view rectangle is written into this vector. + */ + getViewBounds( distance, minTarget, maxTarget ) { + + _v3$1.set( -1, -1, 0.5 ).applyMatrix4( this.projectionMatrixInverse ); + + minTarget.set( _v3$1.x, _v3$1.y ).multiplyScalar( - distance / _v3$1.z ); + + _v3$1.set( 1, 1, 0.5 ).applyMatrix4( this.projectionMatrixInverse ); + + maxTarget.set( _v3$1.x, _v3$1.y ).multiplyScalar( - distance / _v3$1.z ); + + } + + /** + * Computes the width and height of the camera's viewable rectangle at a given distance along the viewing direction. + * + * @param {number} distance - The viewing distance. + * @param {Vector2} target - The target vector that is used to store result where x is width and y is height. + * @returns {Vector2} The view size. + */ + getViewSize( distance, target ) { + + this.getViewBounds( distance, _minTarget, _maxTarget ); + + return target.subVectors( _maxTarget, _minTarget ); + + } + + /** + * Sets an offset in a larger frustum. This is useful for multi-window or + * multi-monitor/multi-machine setups. + * + * For example, if you have 3x2 monitors and each monitor is 1920x1080 and + * the monitors are in grid like this + *``` + * +---+---+---+ + * | A | B | C | + * +---+---+---+ + * | D | E | F | + * +---+---+---+ + *``` + * then for each monitor you would call it like this: + *```js + * const w = 1920; + * const h = 1080; + * const fullWidth = w * 3; + * const fullHeight = h * 2; + * + * // --A-- + * camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 0, w, h ); + * // --B-- + * camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 0, w, h ); + * // --C-- + * camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 0, w, h ); + * // --D-- + * camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 1, w, h ); + * // --E-- + * camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 1, w, h ); + * // --F-- + * camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 1, w, h ); + * ``` + * + * Note there is no reason monitors have to be the same size or in a grid. + * + * @param {number} fullWidth - The full width of multiview setup. + * @param {number} fullHeight - The full height of multiview setup. + * @param {number} x - The horizontal offset of the subcamera. + * @param {number} y - The vertical offset of the subcamera. + * @param {number} width - The width of subcamera. + * @param {number} height - The height of subcamera. + */ + setViewOffset( fullWidth, fullHeight, x, y, width, height ) { + + this.aspect = fullWidth / fullHeight; + + if ( this.view === null ) { + + this.view = { + enabled: true, + fullWidth: 1, + fullHeight: 1, + offsetX: 0, + offsetY: 0, + width: 1, + height: 1 + }; + + } + + this.view.enabled = true; + this.view.fullWidth = fullWidth; + this.view.fullHeight = fullHeight; + this.view.offsetX = x; + this.view.offsetY = y; + this.view.width = width; + this.view.height = height; + + this.updateProjectionMatrix(); + + } + + /** + * Removes the view offset from the projection matrix. + */ + clearViewOffset() { + + if ( this.view !== null ) { + + this.view.enabled = false; + + } + + this.updateProjectionMatrix(); + + } + + /** + * Updates the camera's projection matrix. Must be called after any change of + * camera properties. + */ + updateProjectionMatrix() { + + const near = this.near; + let top = near * Math.tan( DEG2RAD * 0.5 * this.fov ) / this.zoom; + let height = 2 * top; + let width = this.aspect * height; + let left = -0.5 * width; + const view = this.view; + + if ( this.view !== null && this.view.enabled ) { + + const fullWidth = view.fullWidth, + fullHeight = view.fullHeight; + + left += view.offsetX * width / fullWidth; + top -= view.offsetY * height / fullHeight; + width *= view.width / fullWidth; + height *= view.height / fullHeight; + + } + + const skew = this.filmOffset; + if ( skew !== 0 ) left += near * skew / this.getFilmWidth(); + + this.projectionMatrix.makePerspective( left, left + width, top, top - height, near, this.far, this.coordinateSystem ); + + this.projectionMatrixInverse.copy( this.projectionMatrix ).invert(); + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + data.object.fov = this.fov; + data.object.zoom = this.zoom; + + data.object.near = this.near; + data.object.far = this.far; + data.object.focus = this.focus; + + data.object.aspect = this.aspect; + + if ( this.view !== null ) data.object.view = Object.assign( {}, this.view ); + + data.object.filmGauge = this.filmGauge; + data.object.filmOffset = this.filmOffset; + + return data; + + } + +} + +const fov = -90; // negative fov is not an error +const aspect = 1; + +/** + * A special type of camera that is positioned in 3D space to render its surroundings into a + * cube render target. The render target can then be used as an environment map for rendering + * realtime reflections in your scene. + * + * ```js + * // Create cube render target + * const cubeRenderTarget = new THREE.WebGLCubeRenderTarget( 256, { generateMipmaps: true, minFilter: THREE.LinearMipmapLinearFilter } ); + * + * // Create cube camera + * const cubeCamera = new THREE.CubeCamera( 1, 100000, cubeRenderTarget ); + * scene.add( cubeCamera ); + * + * // Create car + * const chromeMaterial = new THREE.MeshLambertMaterial( { color: 0xffffff, envMap: cubeRenderTarget.texture } ); + * const car = new THREE.Mesh( carGeometry, chromeMaterial ); + * scene.add( car ); + * + * // Update the render target cube + * car.visible = false; + * cubeCamera.position.copy( car.position ); + * cubeCamera.update( renderer, scene ); + * + * // Render the scene + * car.visible = true; + * renderer.render( scene, camera ); + * ``` + * + * @augments Object3D + */ +class CubeCamera extends Object3D { + + /** + * Constructs a new cube camera. + * + * @param {number} near - The camera's near plane. + * @param {number} far - The camera's far plane. + * @param {WebGLCubeRenderTarget} renderTarget - The cube render target. + */ + constructor( near, far, renderTarget ) { + + super(); + + this.type = 'CubeCamera'; + + /** + * A reference to the cube render target. + * + * @type {WebGLCubeRenderTarget} + */ + this.renderTarget = renderTarget; + + /** + * The current active coordinate system. + * + * @type {?(WebGLCoordinateSystem|WebGPUCoordinateSystem)} + * @default null + */ + this.coordinateSystem = null; + + /** + * The current active mipmap level + * + * @type {number} + * @default 0 + */ + this.activeMipmapLevel = 0; + + const cameraPX = new PerspectiveCamera( fov, aspect, near, far ); + cameraPX.layers = this.layers; + this.add( cameraPX ); + + const cameraNX = new PerspectiveCamera( fov, aspect, near, far ); + cameraNX.layers = this.layers; + this.add( cameraNX ); + + const cameraPY = new PerspectiveCamera( fov, aspect, near, far ); + cameraPY.layers = this.layers; + this.add( cameraPY ); + + const cameraNY = new PerspectiveCamera( fov, aspect, near, far ); + cameraNY.layers = this.layers; + this.add( cameraNY ); + + const cameraPZ = new PerspectiveCamera( fov, aspect, near, far ); + cameraPZ.layers = this.layers; + this.add( cameraPZ ); + + const cameraNZ = new PerspectiveCamera( fov, aspect, near, far ); + cameraNZ.layers = this.layers; + this.add( cameraNZ ); + + } + + /** + * Must be called when the coordinate system of the cube camera is changed. + */ + updateCoordinateSystem() { + + const coordinateSystem = this.coordinateSystem; + + const cameras = this.children.concat(); + + const [ cameraPX, cameraNX, cameraPY, cameraNY, cameraPZ, cameraNZ ] = cameras; + + for ( const camera of cameras ) this.remove( camera ); + + if ( coordinateSystem === WebGLCoordinateSystem ) { + + cameraPX.up.set( 0, 1, 0 ); + cameraPX.lookAt( 1, 0, 0 ); + + cameraNX.up.set( 0, 1, 0 ); + cameraNX.lookAt( -1, 0, 0 ); + + cameraPY.up.set( 0, 0, -1 ); + cameraPY.lookAt( 0, 1, 0 ); + + cameraNY.up.set( 0, 0, 1 ); + cameraNY.lookAt( 0, -1, 0 ); + + cameraPZ.up.set( 0, 1, 0 ); + cameraPZ.lookAt( 0, 0, 1 ); + + cameraNZ.up.set( 0, 1, 0 ); + cameraNZ.lookAt( 0, 0, -1 ); + + } else if ( coordinateSystem === WebGPUCoordinateSystem ) { + + cameraPX.up.set( 0, -1, 0 ); + cameraPX.lookAt( -1, 0, 0 ); + + cameraNX.up.set( 0, -1, 0 ); + cameraNX.lookAt( 1, 0, 0 ); + + cameraPY.up.set( 0, 0, 1 ); + cameraPY.lookAt( 0, 1, 0 ); + + cameraNY.up.set( 0, 0, -1 ); + cameraNY.lookAt( 0, -1, 0 ); + + cameraPZ.up.set( 0, -1, 0 ); + cameraPZ.lookAt( 0, 0, 1 ); + + cameraNZ.up.set( 0, -1, 0 ); + cameraNZ.lookAt( 0, 0, -1 ); + + } else { + + throw new Error( 'THREE.CubeCamera.updateCoordinateSystem(): Invalid coordinate system: ' + coordinateSystem ); + + } + + for ( const camera of cameras ) { + + this.add( camera ); + + camera.updateMatrixWorld(); + + } + + } + + /** + * Calling this method will render the given scene with the given renderer + * into the cube render target of the camera. + * + * @param {(Renderer|WebGLRenderer)} renderer - The renderer. + * @param {Scene} scene - The scene to render. + */ + update( renderer, scene ) { + + if ( this.parent === null ) this.updateMatrixWorld(); + + const { renderTarget, activeMipmapLevel } = this; + + if ( this.coordinateSystem !== renderer.coordinateSystem ) { + + this.coordinateSystem = renderer.coordinateSystem; + + this.updateCoordinateSystem(); + + } + + const [ cameraPX, cameraNX, cameraPY, cameraNY, cameraPZ, cameraNZ ] = this.children; + + const currentRenderTarget = renderer.getRenderTarget(); + const currentActiveCubeFace = renderer.getActiveCubeFace(); + const currentActiveMipmapLevel = renderer.getActiveMipmapLevel(); + + const currentXrEnabled = renderer.xr.enabled; + + renderer.xr.enabled = false; + + const generateMipmaps = renderTarget.texture.generateMipmaps; + + renderTarget.texture.generateMipmaps = false; + + renderer.setRenderTarget( renderTarget, 0, activeMipmapLevel ); + renderer.render( scene, cameraPX ); + + renderer.setRenderTarget( renderTarget, 1, activeMipmapLevel ); + renderer.render( scene, cameraNX ); + + renderer.setRenderTarget( renderTarget, 2, activeMipmapLevel ); + renderer.render( scene, cameraPY ); + + renderer.setRenderTarget( renderTarget, 3, activeMipmapLevel ); + renderer.render( scene, cameraNY ); + + renderer.setRenderTarget( renderTarget, 4, activeMipmapLevel ); + renderer.render( scene, cameraPZ ); + + // mipmaps are generated during the last call of render() + // at this point, all sides of the cube render target are defined + + renderTarget.texture.generateMipmaps = generateMipmaps; + + renderer.setRenderTarget( renderTarget, 5, activeMipmapLevel ); + renderer.render( scene, cameraNZ ); + + renderer.setRenderTarget( currentRenderTarget, currentActiveCubeFace, currentActiveMipmapLevel ); + + renderer.xr.enabled = currentXrEnabled; + + renderTarget.texture.needsPMREMUpdate = true; + + } + +} + +class CubeTexture extends Texture$1 { + + constructor( images, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace ) { + + images = images !== undefined ? images : []; + mapping = mapping !== undefined ? mapping : CubeReflectionMapping; + + super( images, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace ); + + this.isCubeTexture = true; + + this.flipY = false; + + } + + get images() { + + return this.image; + + } + + set images( value ) { + + this.image = value; + + } + +} + +class WebGLCubeRenderTarget extends WebGLRenderTarget { + + constructor( size = 1, options = {} ) { + + super( size, size, options ); + + this.isWebGLCubeRenderTarget = true; + + const image = { width: size, height: size, depth: 1 }; + const images = [ image, image, image, image, image, image ]; + + this.texture = new CubeTexture( images, options.mapping, options.wrapS, options.wrapT, options.magFilter, options.minFilter, options.format, options.type, options.anisotropy, options.colorSpace ); + + // By convention -- likely based on the RenderMan spec from the 1990's -- cube maps are specified by WebGL (and three.js) + // in a coordinate system in which positive-x is to the right when looking up the positive-z axis -- in other words, + // in a left-handed coordinate system. By continuing this convention, preexisting cube maps continued to render correctly. + + // three.js uses a right-handed coordinate system. So environment maps used in three.js appear to have px and nx swapped + // and the flag isRenderTargetTexture controls this conversion. The flip is not required when using WebGLCubeRenderTarget.texture + // as a cube texture (this is detected when isRenderTargetTexture is set to true for cube textures). + + this.texture.isRenderTargetTexture = true; + + this.texture.generateMipmaps = options.generateMipmaps !== undefined ? options.generateMipmaps : false; + this.texture.minFilter = options.minFilter !== undefined ? options.minFilter : LinearFilter; + + } + + fromEquirectangularTexture( renderer, texture ) { + + this.texture.type = texture.type; + this.texture.colorSpace = texture.colorSpace; + + this.texture.generateMipmaps = texture.generateMipmaps; + this.texture.minFilter = texture.minFilter; + this.texture.magFilter = texture.magFilter; + + const shader = { + + uniforms: { + tEquirect: { value: null }, + }, + + vertexShader: /* glsl */` + + varying vec3 vWorldDirection; + + vec3 transformDirection( in vec3 dir, in mat4 matrix ) { + + return normalize( ( matrix * vec4( dir, 0.0 ) ).xyz ); + + } + + void main() { + + vWorldDirection = transformDirection( position, modelMatrix ); + + #include + #include + + } + `, + + fragmentShader: /* glsl */` + + uniform sampler2D tEquirect; + + varying vec3 vWorldDirection; + + #include + + void main() { + + vec3 direction = normalize( vWorldDirection ); + + vec2 sampleUV = equirectUv( direction ); + + gl_FragColor = texture2D( tEquirect, sampleUV ); + + } + ` + }; + + const geometry = new BoxGeometry( 5, 5, 5 ); + + const material = new ShaderMaterial( { + + name: 'CubemapFromEquirect', + + uniforms: cloneUniforms( shader.uniforms ), + vertexShader: shader.vertexShader, + fragmentShader: shader.fragmentShader, + side: BackSide, + blending: NoBlending + + } ); + + material.uniforms.tEquirect.value = texture; + + const mesh = new Mesh( geometry, material ); + + const currentMinFilter = texture.minFilter; + + // Avoid blurred poles + if ( texture.minFilter === LinearMipmapLinearFilter ) texture.minFilter = LinearFilter; + + const camera = new CubeCamera( 1, 10, this ); + camera.update( renderer, mesh ); + + texture.minFilter = currentMinFilter; + + mesh.geometry.dispose(); + mesh.material.dispose(); + + return this; + + } + + clear( renderer, color, depth, stencil ) { + + const currentRenderTarget = renderer.getRenderTarget(); + + for ( let i = 0; i < 6; i ++ ) { + + renderer.setRenderTarget( this, i ); + + renderer.clear( color, depth, stencil ); + + } + + renderer.setRenderTarget( currentRenderTarget ); + + } + +} + +/** + * This is almost identical to an {@link Object3D}. Its purpose is to + * make working with groups of objects syntactically clearer. + * + * ```js + * // Create a group and add the two cubes. + * // These cubes can now be rotated / scaled etc as a group. + * const group = new THREE.Group(); + * + * group.add( meshA ); + * group.add( meshB ); + * + * scene.add( group ); + * ``` + * + * @augments Object3D + */ +class Group extends Object3D { + + constructor() { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isGroup = true; + + this.type = 'Group'; + + } + +} + +const _moveEvent = { type: 'move' }; + +class WebXRController { + + constructor() { + + this._targetRay = null; + this._grip = null; + this._hand = null; + + } + + getHandSpace() { + + if ( this._hand === null ) { + + this._hand = new Group(); + this._hand.matrixAutoUpdate = false; + this._hand.visible = false; + + this._hand.joints = {}; + this._hand.inputState = { pinching: false }; + + } + + return this._hand; + + } + + getTargetRaySpace() { + + if ( this._targetRay === null ) { + + this._targetRay = new Group(); + this._targetRay.matrixAutoUpdate = false; + this._targetRay.visible = false; + this._targetRay.hasLinearVelocity = false; + this._targetRay.linearVelocity = new Vector3(); + this._targetRay.hasAngularVelocity = false; + this._targetRay.angularVelocity = new Vector3(); + + } + + return this._targetRay; + + } + + getGripSpace() { + + if ( this._grip === null ) { + + this._grip = new Group(); + this._grip.matrixAutoUpdate = false; + this._grip.visible = false; + this._grip.hasLinearVelocity = false; + this._grip.linearVelocity = new Vector3(); + this._grip.hasAngularVelocity = false; + this._grip.angularVelocity = new Vector3(); + + } + + return this._grip; + + } + + dispatchEvent( event ) { + + if ( this._targetRay !== null ) { + + this._targetRay.dispatchEvent( event ); + + } + + if ( this._grip !== null ) { + + this._grip.dispatchEvent( event ); + + } + + if ( this._hand !== null ) { + + this._hand.dispatchEvent( event ); + + } + + return this; + + } + + connect( inputSource ) { + + if ( inputSource && inputSource.hand ) { + + const hand = this._hand; + + if ( hand ) { + + for ( const inputjoint of inputSource.hand.values() ) { + + // Initialize hand with joints when connected + this._getHandJoint( hand, inputjoint ); + + } + + } + + } + + this.dispatchEvent( { type: 'connected', data: inputSource } ); + + return this; + + } + + disconnect( inputSource ) { + + this.dispatchEvent( { type: 'disconnected', data: inputSource } ); + + if ( this._targetRay !== null ) { + + this._targetRay.visible = false; + + } + + if ( this._grip !== null ) { + + this._grip.visible = false; + + } + + if ( this._hand !== null ) { + + this._hand.visible = false; + + } + + return this; + + } + + update( inputSource, frame, referenceSpace ) { + + let inputPose = null; + let gripPose = null; + let handPose = null; + + const targetRay = this._targetRay; + const grip = this._grip; + const hand = this._hand; + + if ( inputSource && frame.session.visibilityState !== 'visible-blurred' ) { + + if ( hand && inputSource.hand ) { + + handPose = true; + + for ( const inputjoint of inputSource.hand.values() ) { + + // Update the joints groups with the XRJoint poses + const jointPose = frame.getJointPose( inputjoint, referenceSpace ); + + // The transform of this joint will be updated with the joint pose on each frame + const joint = this._getHandJoint( hand, inputjoint ); + + if ( jointPose !== null ) { + + joint.matrix.fromArray( jointPose.transform.matrix ); + joint.matrix.decompose( joint.position, joint.rotation, joint.scale ); + joint.matrixWorldNeedsUpdate = true; + joint.jointRadius = jointPose.radius; + + } + + joint.visible = jointPose !== null; + + } + + // Custom events + + // Check pinchz + const indexTip = hand.joints[ 'index-finger-tip' ]; + const thumbTip = hand.joints[ 'thumb-tip' ]; + const distance = indexTip.position.distanceTo( thumbTip.position ); + + const distanceToPinch = 0.02; + const threshold = 0.005; + + if ( hand.inputState.pinching && distance > distanceToPinch + threshold ) { + + hand.inputState.pinching = false; + this.dispatchEvent( { + type: 'pinchend', + handedness: inputSource.handedness, + target: this + } ); + + } else if ( ! hand.inputState.pinching && distance <= distanceToPinch - threshold ) { + + hand.inputState.pinching = true; + this.dispatchEvent( { + type: 'pinchstart', + handedness: inputSource.handedness, + target: this + } ); + + } + + } else { + + if ( grip !== null && inputSource.gripSpace ) { + + gripPose = frame.getPose( inputSource.gripSpace, referenceSpace ); + + if ( gripPose !== null ) { + + grip.matrix.fromArray( gripPose.transform.matrix ); + grip.matrix.decompose( grip.position, grip.rotation, grip.scale ); + grip.matrixWorldNeedsUpdate = true; + + if ( gripPose.linearVelocity ) { + + grip.hasLinearVelocity = true; + grip.linearVelocity.copy( gripPose.linearVelocity ); + + } else { + + grip.hasLinearVelocity = false; + + } + + if ( gripPose.angularVelocity ) { + + grip.hasAngularVelocity = true; + grip.angularVelocity.copy( gripPose.angularVelocity ); + + } else { + + grip.hasAngularVelocity = false; + + } + + } + + } + + } + + if ( targetRay !== null ) { + + inputPose = frame.getPose( inputSource.targetRaySpace, referenceSpace ); + + // Some runtimes (namely Vive Cosmos with Vive OpenXR Runtime) have only grip space and ray space is equal to it + if ( inputPose === null && gripPose !== null ) { + + inputPose = gripPose; + + } + + if ( inputPose !== null ) { + + targetRay.matrix.fromArray( inputPose.transform.matrix ); + targetRay.matrix.decompose( targetRay.position, targetRay.rotation, targetRay.scale ); + targetRay.matrixWorldNeedsUpdate = true; + + if ( inputPose.linearVelocity ) { + + targetRay.hasLinearVelocity = true; + targetRay.linearVelocity.copy( inputPose.linearVelocity ); + + } else { + + targetRay.hasLinearVelocity = false; + + } + + if ( inputPose.angularVelocity ) { + + targetRay.hasAngularVelocity = true; + targetRay.angularVelocity.copy( inputPose.angularVelocity ); + + } else { + + targetRay.hasAngularVelocity = false; + + } + + this.dispatchEvent( _moveEvent ); + + } + + } + + + } + + if ( targetRay !== null ) { + + targetRay.visible = ( inputPose !== null ); + + } + + if ( grip !== null ) { + + grip.visible = ( gripPose !== null ); + + } + + if ( hand !== null ) { + + hand.visible = ( handPose !== null ); + + } + + return this; + + } + + // private method + + _getHandJoint( hand, inputjoint ) { + + if ( hand.joints[ inputjoint.jointName ] === undefined ) { + + const joint = new Group(); + joint.matrixAutoUpdate = false; + joint.visible = false; + hand.joints[ inputjoint.jointName ] = joint; + + hand.add( joint ); + + } + + return hand.joints[ inputjoint.jointName ]; + + } + +} + +/** + * Scenes allow you to set up what is to be rendered and where by three.js. + * This is where you place 3D objects like meshes, lines or lights. + * + * @augments Object3D + */ +class Scene extends Object3D { + + /** + * Constructs a new scene. + */ + constructor() { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isScene = true; + + this.type = 'Scene'; + + /** + * Defines the background of the scene. Valid inputs are: + * + * - A color for defining a uniform colored background. + * - A texture for defining a (flat) textured background. + * - Cube textures or equirectangular textures for defining a skybox. + * + * @type {?(Color|Texture)} + * @default null + */ + this.background = null; + + /** + * Sets the environment map for all physical materials in the scene. However, + * it's not possible to overwrite an existing texture assigned to the `envMap` + * material property. + * + * @type {?Texture} + * @default null + */ + this.environment = null; + + /** + * A fog instance defining the type of fog that affects everything + * rendered in the scene. + * + * @type {?(Fog|FogExp2)} + * @default null + */ + this.fog = null; + + /** + * Sets the blurriness of the background. Only influences environment maps + * assigned to {@link Scene#background}. Valid input is a float between `0` + * and `1`. + * + * @type {number} + * @default 0 + */ + this.backgroundBlurriness = 0; + + /** + * Attenuates the color of the background. Only applies to background textures. + * + * @type {number} + * @default 1 + */ + this.backgroundIntensity = 1; + + /** + * The rotation of the background in radians. Only influences environment maps + * assigned to {@link Scene#background}. + * + * @type {Euler} + * @default (0,0,0) + */ + this.backgroundRotation = new Euler(); + + /** + * Attenuates the color of the environment. Only influences environment maps + * assigned to {@link Scene#environment}. + * + * @type {number} + * @default 1 + */ + this.environmentIntensity = 1; + + /** + * The rotation of the environment map in radians. Only influences physical materials + * in the scene when {@link Scene#environment} is used. + * + * @type {Euler} + * @default (0,0,0) + */ + this.environmentRotation = new Euler(); + + /** + * Forces everything in the scene to be rendered with the defined material. + * + * @type {?Material} + * @default null + */ + this.overrideMaterial = null; + + if ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) { + + __THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'observe', { detail: this } ) ); + + } + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + if ( source.background !== null ) this.background = source.background.clone(); + if ( source.environment !== null ) this.environment = source.environment.clone(); + if ( source.fog !== null ) this.fog = source.fog.clone(); + + this.backgroundBlurriness = source.backgroundBlurriness; + this.backgroundIntensity = source.backgroundIntensity; + this.backgroundRotation.copy( source.backgroundRotation ); + + this.environmentIntensity = source.environmentIntensity; + this.environmentRotation.copy( source.environmentRotation ); + + if ( source.overrideMaterial !== null ) this.overrideMaterial = source.overrideMaterial.clone(); + + this.matrixAutoUpdate = source.matrixAutoUpdate; + + return this; + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + if ( this.fog !== null ) data.object.fog = this.fog.toJSON(); + + if ( this.backgroundBlurriness > 0 ) data.object.backgroundBlurriness = this.backgroundBlurriness; + if ( this.backgroundIntensity !== 1 ) data.object.backgroundIntensity = this.backgroundIntensity; + data.object.backgroundRotation = this.backgroundRotation.toArray(); + + if ( this.environmentIntensity !== 1 ) data.object.environmentIntensity = this.environmentIntensity; + data.object.environmentRotation = this.environmentRotation.toArray(); + + return data; + + } + +} + +class InterleavedBuffer { + + constructor( array, stride ) { + + this.isInterleavedBuffer = true; + + this.array = array; + this.stride = stride; + this.count = array !== undefined ? array.length / stride : 0; + + this.usage = StaticDrawUsage; + this.updateRanges = []; + + this.version = 0; + + this.uuid = generateUUID(); + + } + + onUploadCallback() {} + + set needsUpdate( value ) { + + if ( value === true ) this.version ++; + + } + + setUsage( value ) { + + this.usage = value; + + return this; + + } + + addUpdateRange( start, count ) { + + this.updateRanges.push( { start, count } ); + + } + + clearUpdateRanges() { + + this.updateRanges.length = 0; + + } + + copy( source ) { + + this.array = new source.array.constructor( source.array ); + this.count = source.count; + this.stride = source.stride; + this.usage = source.usage; + + return this; + + } + + copyAt( index1, attribute, index2 ) { + + index1 *= this.stride; + index2 *= attribute.stride; + + for ( let i = 0, l = this.stride; i < l; i ++ ) { + + this.array[ index1 + i ] = attribute.array[ index2 + i ]; + + } + + return this; + + } + + set( value, offset = 0 ) { + + this.array.set( value, offset ); + + return this; + + } + + clone( data ) { + + if ( data.arrayBuffers === undefined ) { + + data.arrayBuffers = {}; + + } + + if ( this.array.buffer._uuid === undefined ) { + + this.array.buffer._uuid = generateUUID(); + + } + + if ( data.arrayBuffers[ this.array.buffer._uuid ] === undefined ) { + + data.arrayBuffers[ this.array.buffer._uuid ] = this.array.slice( 0 ).buffer; + + } + + const array = new this.array.constructor( data.arrayBuffers[ this.array.buffer._uuid ] ); + + const ib = new this.constructor( array, this.stride ); + ib.setUsage( this.usage ); + + return ib; + + } + + onUpload( callback ) { + + this.onUploadCallback = callback; + + return this; + + } + + toJSON( data ) { + + if ( data.arrayBuffers === undefined ) { + + data.arrayBuffers = {}; + + } + + // generate UUID for array buffer if necessary + + if ( this.array.buffer._uuid === undefined ) { + + this.array.buffer._uuid = generateUUID(); + + } + + if ( data.arrayBuffers[ this.array.buffer._uuid ] === undefined ) { + + data.arrayBuffers[ this.array.buffer._uuid ] = Array.from( new Uint32Array( this.array.buffer ) ); + + } + + // + + return { + uuid: this.uuid, + buffer: this.array.buffer._uuid, + type: this.array.constructor.name, + stride: this.stride + }; + + } + +} + +const _vector$7 = /*@__PURE__*/ new Vector3(); + +class InterleavedBufferAttribute { + + constructor( interleavedBuffer, itemSize, offset, normalized = false ) { + + this.isInterleavedBufferAttribute = true; + + this.name = ''; + + this.data = interleavedBuffer; + this.itemSize = itemSize; + this.offset = offset; + + this.normalized = normalized; + + } + + get count() { + + return this.data.count; + + } + + get array() { + + return this.data.array; + + } + + set needsUpdate( value ) { + + this.data.needsUpdate = value; + + } + + applyMatrix4( m ) { + + for ( let i = 0, l = this.data.count; i < l; i ++ ) { + + _vector$7.fromBufferAttribute( this, i ); + + _vector$7.applyMatrix4( m ); + + this.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z ); + + } + + return this; + + } + + applyNormalMatrix( m ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector$7.fromBufferAttribute( this, i ); + + _vector$7.applyNormalMatrix( m ); + + this.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z ); + + } + + return this; + + } + + transformDirection( m ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector$7.fromBufferAttribute( this, i ); + + _vector$7.transformDirection( m ); + + this.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z ); + + } + + return this; + + } + + getComponent( index, component ) { + + let value = this.array[ index * this.data.stride + this.offset + component ]; + + if ( this.normalized ) value = denormalize( value, this.array ); + + return value; + + } + + setComponent( index, component, value ) { + + if ( this.normalized ) value = normalize( value, this.array ); + + this.data.array[ index * this.data.stride + this.offset + component ] = value; + + return this; + + } + + setX( index, x ) { + + if ( this.normalized ) x = normalize( x, this.array ); + + this.data.array[ index * this.data.stride + this.offset ] = x; + + return this; + + } + + setY( index, y ) { + + if ( this.normalized ) y = normalize( y, this.array ); + + this.data.array[ index * this.data.stride + this.offset + 1 ] = y; + + return this; + + } + + setZ( index, z ) { + + if ( this.normalized ) z = normalize( z, this.array ); + + this.data.array[ index * this.data.stride + this.offset + 2 ] = z; + + return this; + + } + + setW( index, w ) { + + if ( this.normalized ) w = normalize( w, this.array ); + + this.data.array[ index * this.data.stride + this.offset + 3 ] = w; + + return this; + + } + + getX( index ) { + + let x = this.data.array[ index * this.data.stride + this.offset ]; + + if ( this.normalized ) x = denormalize( x, this.array ); + + return x; + + } + + getY( index ) { + + let y = this.data.array[ index * this.data.stride + this.offset + 1 ]; + + if ( this.normalized ) y = denormalize( y, this.array ); + + return y; + + } + + getZ( index ) { + + let z = this.data.array[ index * this.data.stride + this.offset + 2 ]; + + if ( this.normalized ) z = denormalize( z, this.array ); + + return z; + + } + + getW( index ) { + + let w = this.data.array[ index * this.data.stride + this.offset + 3 ]; + + if ( this.normalized ) w = denormalize( w, this.array ); + + return w; + + } + + setXY( index, x, y ) { + + index = index * this.data.stride + this.offset; + + if ( this.normalized ) { + + x = normalize( x, this.array ); + y = normalize( y, this.array ); + + } + + this.data.array[ index + 0 ] = x; + this.data.array[ index + 1 ] = y; + + return this; + + } + + setXYZ( index, x, y, z ) { + + index = index * this.data.stride + this.offset; + + if ( this.normalized ) { + + x = normalize( x, this.array ); + y = normalize( y, this.array ); + z = normalize( z, this.array ); + + } + + this.data.array[ index + 0 ] = x; + this.data.array[ index + 1 ] = y; + this.data.array[ index + 2 ] = z; + + return this; + + } + + setXYZW( index, x, y, z, w ) { + + index = index * this.data.stride + this.offset; + + if ( this.normalized ) { + + x = normalize( x, this.array ); + y = normalize( y, this.array ); + z = normalize( z, this.array ); + w = normalize( w, this.array ); + + } + + this.data.array[ index + 0 ] = x; + this.data.array[ index + 1 ] = y; + this.data.array[ index + 2 ] = z; + this.data.array[ index + 3 ] = w; + + return this; + + } + + clone( data ) { + + if ( data === undefined ) { + + console.log( 'THREE.InterleavedBufferAttribute.clone(): Cloning an interleaved buffer attribute will de-interleave buffer data.' ); + + const array = []; + + for ( let i = 0; i < this.count; i ++ ) { + + const index = i * this.data.stride + this.offset; + + for ( let j = 0; j < this.itemSize; j ++ ) { + + array.push( this.data.array[ index + j ] ); + + } + + } + + return new BufferAttribute( new this.array.constructor( array ), this.itemSize, this.normalized ); + + } else { + + if ( data.interleavedBuffers === undefined ) { + + data.interleavedBuffers = {}; + + } + + if ( data.interleavedBuffers[ this.data.uuid ] === undefined ) { + + data.interleavedBuffers[ this.data.uuid ] = this.data.clone( data ); + + } + + return new InterleavedBufferAttribute( data.interleavedBuffers[ this.data.uuid ], this.itemSize, this.offset, this.normalized ); + + } + + } + + toJSON( data ) { + + if ( data === undefined ) { + + console.log( 'THREE.InterleavedBufferAttribute.toJSON(): Serializing an interleaved buffer attribute will de-interleave buffer data.' ); + + const array = []; + + for ( let i = 0; i < this.count; i ++ ) { + + const index = i * this.data.stride + this.offset; + + for ( let j = 0; j < this.itemSize; j ++ ) { + + array.push( this.data.array[ index + j ] ); + + } + + } + + // de-interleave data and save it as an ordinary buffer attribute for now + + return { + itemSize: this.itemSize, + type: this.array.constructor.name, + array: array, + normalized: this.normalized + }; + + } else { + + // save as true interleaved attribute + + if ( data.interleavedBuffers === undefined ) { + + data.interleavedBuffers = {}; + + } + + if ( data.interleavedBuffers[ this.data.uuid ] === undefined ) { + + data.interleavedBuffers[ this.data.uuid ] = this.data.toJSON( data ); + + } + + return { + isInterleavedBufferAttribute: true, + itemSize: this.itemSize, + data: this.data.uuid, + offset: this.offset, + normalized: this.normalized + }; + + } + + } + +} + +const _basePosition = /*@__PURE__*/ new Vector3(); + +const _skinIndex = /*@__PURE__*/ new Vector4(); +const _skinWeight = /*@__PURE__*/ new Vector4(); + +const _vector3 = /*@__PURE__*/ new Vector3(); +const _matrix4 = /*@__PURE__*/ new Matrix4(); +const _vertex = /*@__PURE__*/ new Vector3(); + +const _sphere$5 = /*@__PURE__*/ new Sphere(); +const _inverseMatrix$2 = /*@__PURE__*/ new Matrix4(); +const _ray$2 = /*@__PURE__*/ new Ray(); + +/** + * A mesh that has a {@link Skeleton} that can then be used to animate the + * vertices of the geometry with skinning/skeleton animation. + * + * Next to a valid skeleton, the skinned mesh requires skin indices and weights + * as buffer attributes in its geometry. These attribute define which bones affect a single + * vertex to a certain extend. + * + * Typically skinned meshes are not created manually but loaders like {@link GLTFLoader} + * or {@link FBXLoader } import respective models. + * + * @augments Mesh + */ +class SkinnedMesh extends Mesh { + + /** + * Constructs a new skinned mesh. + * + * @param {BufferGeometry} [geometry] - The mesh geometry. + * @param {Material|Array} [material] - The mesh material. + */ + constructor( geometry, material ) { + + super( geometry, material ); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isSkinnedMesh = true; + + this.type = 'SkinnedMesh'; + + /** + * `AttachedBindMode` means the skinned mesh shares the same world space as the skeleton. + * This is not true when using `DetachedBindMode` which is useful when sharing a skeleton + * across multiple skinned meshes. + * + * @type {(AttachedBindMode|DetachedBindMode)} + * @default AttachedBindMode + */ + this.bindMode = AttachedBindMode; + + /** + * The base matrix that is used for the bound bone transforms. + * + * @type {Matrix4} + */ + this.bindMatrix = new Matrix4(); + + /** + * The base matrix that is used for resetting the bound bone transforms. + * + * @type {Matrix4} + */ + this.bindMatrixInverse = new Matrix4(); + + /** + * The bounding box of the skinned mesh. Can be computed via {@link SkinnedMesh#computeBoundingBox}. + * + * @type {?Box3} + * @default null + */ + this.boundingBox = null; + + /** + * The bounding sphere of the skinned mesh. Can be computed via {@link SkinnedMesh#computeBoundingSphere}. + * + * @type {?Sphere} + * @default null + */ + this.boundingSphere = null; + + } + + /** + * Computes the bounding box of the skinned mesh, and updates {@link SkinnedMesh#boundingBox}. + * The bounding box is not automatically computed by the engine; this method must be called by your app. + * If the skinned mesh is animated, the bounding box should be recomputed per frame in order to reflect + * the current animation state. + */ + computeBoundingBox() { + + const geometry = this.geometry; + + if ( this.boundingBox === null ) { + + this.boundingBox = new Box3(); + + } + + this.boundingBox.makeEmpty(); + + const positionAttribute = geometry.getAttribute( 'position' ); + + for ( let i = 0; i < positionAttribute.count; i ++ ) { + + this.getVertexPosition( i, _vertex ); + this.boundingBox.expandByPoint( _vertex ); + + } + + } + + /** + * Computes the bounding sphere of the skinned mesh, and updates {@link SkinnedMesh#boundingSphere}. + * The bounding sphere is automatically computed by the engine once when it is needed, e.g., for ray casting + * and view frustum culling. If the skinned mesh is animated, the bounding sphere should be recomputed + * per frame in order to reflect the current animation state. + */ + computeBoundingSphere() { + + const geometry = this.geometry; + + if ( this.boundingSphere === null ) { + + this.boundingSphere = new Sphere(); + + } + + this.boundingSphere.makeEmpty(); + + const positionAttribute = geometry.getAttribute( 'position' ); + + for ( let i = 0; i < positionAttribute.count; i ++ ) { + + this.getVertexPosition( i, _vertex ); + this.boundingSphere.expandByPoint( _vertex ); + + } + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.bindMode = source.bindMode; + this.bindMatrix.copy( source.bindMatrix ); + this.bindMatrixInverse.copy( source.bindMatrixInverse ); + + this.skeleton = source.skeleton; + + if ( source.boundingBox !== null ) this.boundingBox = source.boundingBox.clone(); + if ( source.boundingSphere !== null ) this.boundingSphere = source.boundingSphere.clone(); + + return this; + + } + + raycast( raycaster, intersects ) { + + const material = this.material; + const matrixWorld = this.matrixWorld; + + if ( material === undefined ) return; + + // test with bounding sphere in world space + + if ( this.boundingSphere === null ) this.computeBoundingSphere(); + + _sphere$5.copy( this.boundingSphere ); + _sphere$5.applyMatrix4( matrixWorld ); + + if ( raycaster.ray.intersectsSphere( _sphere$5 ) === false ) return; + + // convert ray to local space of skinned mesh + + _inverseMatrix$2.copy( matrixWorld ).invert(); + _ray$2.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$2 ); + + // test with bounding box in local space + + if ( this.boundingBox !== null ) { + + if ( _ray$2.intersectsBox( this.boundingBox ) === false ) return; + + } + + // test for intersections with geometry + + this._computeIntersections( raycaster, intersects, _ray$2 ); + + } + + getVertexPosition( index, target ) { + + super.getVertexPosition( index, target ); + + this.applyBoneTransform( index, target ); + + return target; + + } + + /** + * Binds the given skeleton to the skinned mesh. + * + * @param {Skeleton} skeleton - The skeleton to bind. + * @param {Matrix4} [bindMatrix] - The bind matrix. If no bind matrix is provided, + * the skinned mesh's world matrix will be used instead. + */ + bind( skeleton, bindMatrix ) { + + this.skeleton = skeleton; + + if ( bindMatrix === undefined ) { + + this.updateMatrixWorld( true ); + + this.skeleton.calculateInverses(); + + bindMatrix = this.matrixWorld; + + } + + this.bindMatrix.copy( bindMatrix ); + this.bindMatrixInverse.copy( bindMatrix ).invert(); + + } + + /** + * This method sets the skinned mesh in the rest pose). + */ + pose() { + + this.skeleton.pose(); + + } + + /** + * Normalizes the skin weights which are defined as a buffer attribute + * in the skinned mesh's geometry. + */ + normalizeSkinWeights() { + + const vector = new Vector4(); + + const skinWeight = this.geometry.attributes.skinWeight; + + for ( let i = 0, l = skinWeight.count; i < l; i ++ ) { + + vector.fromBufferAttribute( skinWeight, i ); + + const scale = 1.0 / vector.manhattanLength(); + + if ( scale !== Infinity ) { + + vector.multiplyScalar( scale ); + + } else { + + vector.set( 1, 0, 0, 0 ); // do something reasonable + + } + + skinWeight.setXYZW( i, vector.x, vector.y, vector.z, vector.w ); + + } + + } + + updateMatrixWorld( force ) { + + super.updateMatrixWorld( force ); + + if ( this.bindMode === AttachedBindMode ) { + + this.bindMatrixInverse.copy( this.matrixWorld ).invert(); + + } else if ( this.bindMode === DetachedBindMode ) { + + this.bindMatrixInverse.copy( this.bindMatrix ).invert(); + + } else { + + console.warn( 'THREE.SkinnedMesh: Unrecognized bindMode: ' + this.bindMode ); + + } + + } + + /** + * Applies the bone transform associated with the given index to the given + * vertex position. Returns the updated vector. + * + * @param {number} index - The vertex index. + * @param {Vector3} target - The target object that is used to store the method's result. + * the skinned mesh's world matrix will be used instead. + * @return {Vector3} The updated vertex position. + */ + applyBoneTransform( index, target ) { + + const skeleton = this.skeleton; + const geometry = this.geometry; + + _skinIndex.fromBufferAttribute( geometry.attributes.skinIndex, index ); + _skinWeight.fromBufferAttribute( geometry.attributes.skinWeight, index ); + + _basePosition.copy( target ).applyMatrix4( this.bindMatrix ); + + target.set( 0, 0, 0 ); + + for ( let i = 0; i < 4; i ++ ) { + + const weight = _skinWeight.getComponent( i ); + + if ( weight !== 0 ) { + + const boneIndex = _skinIndex.getComponent( i ); + + _matrix4.multiplyMatrices( skeleton.bones[ boneIndex ].matrixWorld, skeleton.boneInverses[ boneIndex ] ); + + target.addScaledVector( _vector3.copy( _basePosition ).applyMatrix4( _matrix4 ), weight ); + + } + + } + + return target.applyMatrix4( this.bindMatrixInverse ); + + } + +} + +/** + * A bone which is part of a {@link Skeleton}. The skeleton in turn is used by + * the {@link SkinnedMesh}. + * + * ```js + * const root = new THREE.Bone(); + * const child = new THREE.Bone(); + * + * root.add( child ); + * child.position.y = 5; + * ``` + * + * @augments Object3D + */ +class Bone extends Object3D { + + /** + * Constructs a new bone. + */ + constructor() { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isBone = true; + + this.type = 'Bone'; + + } + +} + +class DataTexture extends Texture$1 { + + constructor( data = null, width = 1, height = 1, format, type, mapping, wrapS, wrapT, magFilter = NearestFilter, minFilter = NearestFilter, anisotropy, colorSpace ) { + + super( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace ); + + this.isDataTexture = true; + + this.image = { data: data, width: width, height: height }; + + this.generateMipmaps = false; + this.flipY = false; + this.unpackAlignment = 1; + + } + +} + +const _offsetMatrix = /*@__PURE__*/ new Matrix4(); +const _identityMatrix$1 = /*@__PURE__*/ new Matrix4(); + +/** + * Class for representing the armatures in `three.js`. The skeleton + * is defined by a hierarchy of bones. + * + * ```js + * const bones = []; + * + * const shoulder = new THREE.Bone(); + * const elbow = new THREE.Bone(); + * const hand = new THREE.Bone(); + * + * shoulder.add( elbow ); + * elbow.add( hand ); + * + * bones.push( shoulder , elbow, hand); + * + * shoulder.position.y = -5; + * elbow.position.y = 0; + * hand.position.y = 5; + * + * const armSkeleton = new THREE.Skeleton( bones ); + * ``` + */ +class Skeleton { + + /** + * Constructs a new skeleton. + * + * @param {Array} [bones] - An array of bones. + * @param {Array} [boneInverses] - An array of bone inverse matrices. + * If not provided, these matrices will be computed automatically via {@link Skeleton#calculateInverses}. + */ + constructor( bones = [], boneInverses = [] ) { + + this.uuid = generateUUID(); + + /** + * An array of bones defining the skeleton. + * + * @type {Array} + */ + this.bones = bones.slice( 0 ); + + /** + * An array of bone inverse matrices. + * + * @type {Array} + */ + this.boneInverses = boneInverses; + + /** + * An array buffer holding the bone data. + * Input data for {@link Skeleton#boneTexture}. + * + * @type {?Float32Array} + * @default null + */ + this.boneMatrices = null; + + /** + * A texture holding the bone data for use + * in the vertex shader. + * + * @type {?DataTexture} + * @default null + */ + this.boneTexture = null; + + this.init(); + + } + + /** + * Initializes the skeleton. This method gets automatically called by the constructor + * but depending on how the skeleton is created it might be necessary to call this method + * manually. + */ + init() { + + const bones = this.bones; + const boneInverses = this.boneInverses; + + this.boneMatrices = new Float32Array( bones.length * 16 ); + + // calculate inverse bone matrices if necessary + + if ( boneInverses.length === 0 ) { + + this.calculateInverses(); + + } else { + + // handle special case + + if ( bones.length !== boneInverses.length ) { + + console.warn( 'THREE.Skeleton: Number of inverse bone matrices does not match amount of bones.' ); + + this.boneInverses = []; + + for ( let i = 0, il = this.bones.length; i < il; i ++ ) { + + this.boneInverses.push( new Matrix4() ); + + } + + } + + } + + } + + /** + * Computes the bone inverse matrices. This method resets {@link Skeleton#boneInverses} + * and fills it with new matrices. + */ + calculateInverses() { + + this.boneInverses.length = 0; + + for ( let i = 0, il = this.bones.length; i < il; i ++ ) { + + const inverse = new Matrix4(); + + if ( this.bones[ i ] ) { + + inverse.copy( this.bones[ i ].matrixWorld ).invert(); + + } + + this.boneInverses.push( inverse ); + + } + + } + + /** + * Resets the skeleton to the base pose. + */ + pose() { + + // recover the bind-time world matrices + + for ( let i = 0, il = this.bones.length; i < il; i ++ ) { + + const bone = this.bones[ i ]; + + if ( bone ) { + + bone.matrixWorld.copy( this.boneInverses[ i ] ).invert(); + + } + + } + + // compute the local matrices, positions, rotations and scales + + for ( let i = 0, il = this.bones.length; i < il; i ++ ) { + + const bone = this.bones[ i ]; + + if ( bone ) { + + if ( bone.parent && bone.parent.isBone ) { + + bone.matrix.copy( bone.parent.matrixWorld ).invert(); + bone.matrix.multiply( bone.matrixWorld ); + + } else { + + bone.matrix.copy( bone.matrixWorld ); + + } + + bone.matrix.decompose( bone.position, bone.quaternion, bone.scale ); + + } + + } + + } + + /** + * Resets the skeleton to the base pose. + */ + update() { + + const bones = this.bones; + const boneInverses = this.boneInverses; + const boneMatrices = this.boneMatrices; + const boneTexture = this.boneTexture; + + // flatten bone matrices to array + + for ( let i = 0, il = bones.length; i < il; i ++ ) { + + // compute the offset between the current and the original transform + + const matrix = bones[ i ] ? bones[ i ].matrixWorld : _identityMatrix$1; + + _offsetMatrix.multiplyMatrices( matrix, boneInverses[ i ] ); + _offsetMatrix.toArray( boneMatrices, i * 16 ); + + } + + if ( boneTexture !== null ) { + + boneTexture.needsUpdate = true; + + } + + } + + /** + * Returns a new skeleton with copied values from this instance. + * + * @return {Skeleton} A clone of this instance. + */ + clone() { + + return new Skeleton( this.bones, this.boneInverses ); + + } + + /** + * Computes a data texture for passing bone data to the vertex shader. + * + * @return {Skeleton} A reference of this instance. + */ + computeBoneTexture() { + + // layout (1 matrix = 4 pixels) + // RGBA RGBA RGBA RGBA (=> column1, column2, column3, column4) + // with 8x8 pixel texture max 16 bones * 4 pixels = (8 * 8) + // 16x16 pixel texture max 64 bones * 4 pixels = (16 * 16) + // 32x32 pixel texture max 256 bones * 4 pixels = (32 * 32) + // 64x64 pixel texture max 1024 bones * 4 pixels = (64 * 64) + + let size = Math.sqrt( this.bones.length * 4 ); // 4 pixels needed for 1 matrix + size = Math.ceil( size / 4 ) * 4; + size = Math.max( size, 4 ); + + const boneMatrices = new Float32Array( size * size * 4 ); // 4 floats per RGBA pixel + boneMatrices.set( this.boneMatrices ); // copy current values + + const boneTexture = new DataTexture( boneMatrices, size, size, RGBAFormat, FloatType ); + boneTexture.needsUpdate = true; + + this.boneMatrices = boneMatrices; + this.boneTexture = boneTexture; + + return this; + + } + + /** + * Searches through the skeleton's bone array and returns the first with a + * matching name. + * + * @param {string} name - The name of the bone. + * @return {Bone|undefined} The found bone. `undefined` if no bone has been found. + */ + getBoneByName( name ) { + + for ( let i = 0, il = this.bones.length; i < il; i ++ ) { + + const bone = this.bones[ i ]; + + if ( bone.name === name ) { + + return bone; + + } + + } + + return undefined; + + } + + /** + * Frees the GPU-related resources allocated by this instance. Call this + * method whenever this instance is no longer used in your app. + */ + dispose( ) { + + if ( this.boneTexture !== null ) { + + this.boneTexture.dispose(); + + this.boneTexture = null; + + } + + } + + /** + * Setups the skeleton by the given JSON and bones. + * + * @param {Object} json - The skeleton as serialized JSON. + * @param {Array} bones - An array of bones. + * @return {Skeleton} A reference of this instance. + */ + fromJSON( json, bones ) { + + this.uuid = json.uuid; + + for ( let i = 0, l = json.bones.length; i < l; i ++ ) { + + const uuid = json.bones[ i ]; + let bone = bones[ uuid ]; + + if ( bone === undefined ) { + + console.warn( 'THREE.Skeleton: No bone found with UUID:', uuid ); + bone = new Bone(); + + } + + this.bones.push( bone ); + this.boneInverses.push( new Matrix4().fromArray( json.boneInverses[ i ] ) ); + + } + + this.init(); + + return this; + + } + + /** + * Serializes the skeleton into JSON. + * + * @return {Object} A JSON object representing the serialized skeleton. + * @see {@link ObjectLoader#parse} + */ + toJSON() { + + const data = { + metadata: { + version: 4.6, + type: 'Skeleton', + generator: 'Skeleton.toJSON' + }, + bones: [], + boneInverses: [] + }; + + data.uuid = this.uuid; + + const bones = this.bones; + const boneInverses = this.boneInverses; + + for ( let i = 0, l = bones.length; i < l; i ++ ) { + + const bone = bones[ i ]; + data.bones.push( bone.uuid ); + + const boneInverse = boneInverses[ i ]; + data.boneInverses.push( boneInverse.toArray() ); + + } + + return data; + + } + +} + +class InstancedBufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized, meshPerAttribute = 1 ) { + + super( array, itemSize, normalized ); + + this.isInstancedBufferAttribute = true; + + this.meshPerAttribute = meshPerAttribute; + + } + + copy( source ) { + + super.copy( source ); + + this.meshPerAttribute = source.meshPerAttribute; + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.meshPerAttribute = this.meshPerAttribute; + + data.isInstancedBufferAttribute = true; + + return data; + + } + +} + +const _instanceLocalMatrix = /*@__PURE__*/ new Matrix4(); +const _instanceWorldMatrix = /*@__PURE__*/ new Matrix4(); + +const _instanceIntersects = []; + +const _box3 = /*@__PURE__*/ new Box3(); +const _identity = /*@__PURE__*/ new Matrix4(); +const _mesh$1 = /*@__PURE__*/ new Mesh(); +const _sphere$4 = /*@__PURE__*/ new Sphere(); + +/** + * A special version of a mesh with instanced rendering support. Use + * this class if you have to render a large number of objects with the same + * geometry and material(s) but with different world transformations. The usage + * of 'InstancedMesh' will help you to reduce the number of draw calls and thus + * improve the overall rendering performance in your application. + * + * @augments Mesh + */ +class InstancedMesh extends Mesh { + + /** + * Constructs a new instanced mesh. + * + * @param {BufferGeometry} [geometry] - The mesh geometry. + * @param {Material|Array} [material] - The mesh material. + * @param {number} count - The number of instances. + */ + constructor( geometry, material, count ) { + + super( geometry, material ); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isInstancedMesh = true; + + /** + * Represents the local transformation of all instances. You have to set its + * {@link BufferAttribute#needsUpdate} flag to true if you modify instanced data + * via {@link InstancedMesh#setMatrixAt}. + * + * @type {InstancedBufferAttribute} + */ + this.instanceMatrix = new InstancedBufferAttribute( new Float32Array( count * 16 ), 16 ); + + /** + * Represents the color of all instances. You have to set its + * {@link BufferAttribute#needsUpdate} flag to true if you modify instanced data + * via {@link InstancedMesh#setColorAt}. + * + * @type {?InstancedBufferAttribute} + * @default null + */ + this.instanceColor = null; + + /** + * Represents the morph target weights of all instances. You have to set its + * {@link Texture#needsUpdate} flag to true if you modify instanced data + * via {@link InstancedMesh#setMorphAt}. + * + * @type {?InstancedBufferAttribute} + * @default null + */ + this.morphTexture = null; + + /** + * The number of instances. + * + * @type {number} + */ + this.count = count; + + /** + * The bounding box of the instanced mesh. Can be computed via {@link InstancedMesh#computeBoundingBox}. + * + * @type {?Box3} + * @default null + */ + this.boundingBox = null; + + /** + * The bounding sphere of the instanced mesh. Can be computed via {@link InstancedMesh#computeBoundingSphere}. + * + * @type {?Sphere} + * @default null + */ + this.boundingSphere = null; + + for ( let i = 0; i < count; i ++ ) { + + this.setMatrixAt( i, _identity ); + + } + + } + + /** + * Computes the bounding box of the instanced mesh, and updates {@link InstancedMesh#boundingBox}. + * The bounding box is not automatically computed by the engine; this method must be called by your app. + * You may need to recompute the bounding box if an instance is transformed via {@link InstancedMesh#setMatrixAt}. + */ + computeBoundingBox() { + + const geometry = this.geometry; + const count = this.count; + + if ( this.boundingBox === null ) { + + this.boundingBox = new Box3(); + + } + + if ( geometry.boundingBox === null ) { + + geometry.computeBoundingBox(); + + } + + this.boundingBox.makeEmpty(); + + for ( let i = 0; i < count; i ++ ) { + + this.getMatrixAt( i, _instanceLocalMatrix ); + + _box3.copy( geometry.boundingBox ).applyMatrix4( _instanceLocalMatrix ); + + this.boundingBox.union( _box3 ); + + } + + } + + /** + * Computes the bounding sphere of the instanced mesh, and updates {@link InstancedMesh#boundingSphere} + * The engine automatically computes the bounding sphere when it is needed, e.g., for ray casting or view frustum culling. + * You may need to recompute the bounding sphere if an instance is transformed via {@link InstancedMesh#setMatrixAt}. + */ + computeBoundingSphere() { + + const geometry = this.geometry; + const count = this.count; + + if ( this.boundingSphere === null ) { + + this.boundingSphere = new Sphere(); + + } + + if ( geometry.boundingSphere === null ) { + + geometry.computeBoundingSphere(); + + } + + this.boundingSphere.makeEmpty(); + + for ( let i = 0; i < count; i ++ ) { + + this.getMatrixAt( i, _instanceLocalMatrix ); + + _sphere$4.copy( geometry.boundingSphere ).applyMatrix4( _instanceLocalMatrix ); + + this.boundingSphere.union( _sphere$4 ); + + } + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.instanceMatrix.copy( source.instanceMatrix ); + + if ( source.morphTexture !== null ) this.morphTexture = source.morphTexture.clone(); + if ( source.instanceColor !== null ) this.instanceColor = source.instanceColor.clone(); + + this.count = source.count; + + if ( source.boundingBox !== null ) this.boundingBox = source.boundingBox.clone(); + if ( source.boundingSphere !== null ) this.boundingSphere = source.boundingSphere.clone(); + + return this; + + } + + /** + * Gets the color of the defined instance. + * + * @param {number} index - The instance index. + * @param {Color} color - The target object that is used to store the method's result. + */ + getColorAt( index, color ) { + + color.fromArray( this.instanceColor.array, index * 3 ); + + } + + /** + * Gets the local transformation matrix of the defined instance. + * + * @param {number} index - The instance index. + * @param {Matrix4} matrix - The target object that is used to store the method's result. + */ + getMatrixAt( index, matrix ) { + + matrix.fromArray( this.instanceMatrix.array, index * 16 ); + + } + + /** + * Gets the morph target weights of the defined instance. + * + * @param {number} index - The instance index. + * @param {Mesh} object - The target object that is used to store the method's result. + */ + getMorphAt( index, object ) { + + const objectInfluences = object.morphTargetInfluences; + + const array = this.morphTexture.source.data.data; + + const len = objectInfluences.length + 1; // All influences + the baseInfluenceSum + + const dataIndex = index * len + 1; // Skip the baseInfluenceSum at the beginning + + for ( let i = 0; i < objectInfluences.length; i ++ ) { + + objectInfluences[ i ] = array[ dataIndex + i ]; + + } + + } + + raycast( raycaster, intersects ) { + + const matrixWorld = this.matrixWorld; + const raycastTimes = this.count; + + _mesh$1.geometry = this.geometry; + _mesh$1.material = this.material; + + if ( _mesh$1.material === undefined ) return; + + // test with bounding sphere first + + if ( this.boundingSphere === null ) this.computeBoundingSphere(); + + _sphere$4.copy( this.boundingSphere ); + _sphere$4.applyMatrix4( matrixWorld ); + + if ( raycaster.ray.intersectsSphere( _sphere$4 ) === false ) return; + + // now test each instance + + for ( let instanceId = 0; instanceId < raycastTimes; instanceId ++ ) { + + // calculate the world matrix for each instance + + this.getMatrixAt( instanceId, _instanceLocalMatrix ); + + _instanceWorldMatrix.multiplyMatrices( matrixWorld, _instanceLocalMatrix ); + + // the mesh represents this single instance + + _mesh$1.matrixWorld = _instanceWorldMatrix; + + _mesh$1.raycast( raycaster, _instanceIntersects ); + + // process the result of raycast + + for ( let i = 0, l = _instanceIntersects.length; i < l; i ++ ) { + + const intersect = _instanceIntersects[ i ]; + intersect.instanceId = instanceId; + intersect.object = this; + intersects.push( intersect ); + + } + + _instanceIntersects.length = 0; + + } + + } + + /** + * Sets the given color to the defined instance. Make sure you set the `needsUpdate` flag of + * {@link InstancedMesh#instanceColor} to `true` after updating all the colors. + * + * @param {number} index - The instance index. + * @param {Color} color - The instance color. + */ + setColorAt( index, color ) { + + if ( this.instanceColor === null ) { + + this.instanceColor = new InstancedBufferAttribute( new Float32Array( this.instanceMatrix.count * 3 ).fill( 1 ), 3 ); + + } + + color.toArray( this.instanceColor.array, index * 3 ); + + } + + /** + * Sets the given local transformation matrix to the defined instance. Make sure you set the `needsUpdate` flag of + * {@link InstancedMesh#instanceMatrix} to `true` after updating all the colors. + * + * @param {number} index - The instance index. + * @param {Matrix4} matrix - The the local transformation. + */ + setMatrixAt( index, matrix ) { + + matrix.toArray( this.instanceMatrix.array, index * 16 ); + + } + + /** + * Sets the morph target weights to the defined instance. Make sure you set the `needsUpdate` flag of + * {@link InstancedMesh#morphTexture} to `true` after updating all the influences. + * + * @param {number} index - The instance index. + * @param {Mesh} object - A mesh which `morphTargetInfluences` property containing the morph target weights + * of a single instance. + */ + setMorphAt( index, object ) { + + const objectInfluences = object.morphTargetInfluences; + + const len = objectInfluences.length + 1; // morphBaseInfluence + all influences + + if ( this.morphTexture === null ) { + + this.morphTexture = new DataTexture( new Float32Array( len * this.count ), len, this.count, RedFormat, FloatType ); + + } + + const array = this.morphTexture.source.data.data; + + let morphInfluencesSum = 0; + + for ( let i = 0; i < objectInfluences.length; i ++ ) { + + morphInfluencesSum += objectInfluences[ i ]; + + } + + const morphBaseInfluence = this.geometry.morphTargetsRelative ? 1 : 1 - morphInfluencesSum; + + const dataIndex = len * index; + + array[ dataIndex ] = morphBaseInfluence; + + array.set( objectInfluences, dataIndex + 1 ); + + } + + updateMorphTargets() { + + } + + /** + * Frees the GPU-related resources allocated by this instance. Call this + * method whenever this instance is no longer used in your app. + */ + dispose() { + + this.dispatchEvent( { type: 'dispose' } ); + + if ( this.morphTexture !== null ) { + + this.morphTexture.dispose(); + this.morphTexture = null; + + } + + } + +} + +const _vector1 = /*@__PURE__*/ new Vector3(); +const _vector2 = /*@__PURE__*/ new Vector3(); +const _normalMatrix = /*@__PURE__*/ new Matrix3(); + +/** + * A two dimensional surface that extends infinitely in 3D space, represented + * in [Hessian normal form]{@link http://mathworld.wolfram.com/HessianNormalForm.html} + * by a unit length normal vector and a constant. + */ +class Plane { + + /** + * Constructs a new plane. + * + * @param {Vector3} [normal=(1,0,0)] - A unit length vector defining the normal of the plane. + * @param {number} [constant=0] - The signed distance from the origin to the plane. + */ + constructor( normal = new Vector3( 1, 0, 0 ), constant = 0 ) { + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isPlane = true; + + /** + * A unit length vector defining the normal of the plane. + * + * @type {Vector3} + */ + this.normal = normal; + + /** + * The signed distance from the origin to the plane. + * + * @type {number} + * @default 0 + */ + this.constant = constant; + + } + + /** + * Sets the plane components by copying the given values. + * + * @param {Vector3} normal - The normal. + * @param {number} constant - The constant. + * @return {Plane} A reference to this plane. + */ + set( normal, constant ) { + + this.normal.copy( normal ); + this.constant = constant; + + return this; + + } + + /** + * Sets the plane components by defining `x`, `y`, `z` as the + * plane normal and `w` as the constant. + * + * @param {number} x - The value for the normal's x component. + * @param {number} y - The value for the normal's y component. + * @param {number} z - The value for the normal's z component. + * @param {number} w - The constant value. + * @return {Plane} A reference to this plane. + */ + setComponents( x, y, z, w ) { + + this.normal.set( x, y, z ); + this.constant = w; + + return this; + + } + + /** + * Sets the plane from the given normal and coplanar point (that is a point + * that lies onto the plane). + * + * @param {Vector3} normal - The normal. + * @param {Vector3} point - A coplanar point. + * @return {Plane} A reference to this plane. + */ + setFromNormalAndCoplanarPoint( normal, point ) { + + this.normal.copy( normal ); + this.constant = - point.dot( this.normal ); + + return this; + + } + + /** + * Sets the plane from three coplanar points. The winding order is + * assumed to be counter-clockwise, and determines the direction of + * the plane normal. + * + * @param {Vector3} a - The first coplanar point. + * @param {Vector3} b - The second coplanar point. + * @param {Vector3} c - The third coplanar point. + * @return {Plane} A reference to this plane. + */ + setFromCoplanarPoints( a, b, c ) { + + const normal = _vector1.subVectors( c, b ).cross( _vector2.subVectors( a, b ) ).normalize(); + + // Q: should an error be thrown if normal is zero (e.g. degenerate plane)? + + this.setFromNormalAndCoplanarPoint( normal, a ); + + return this; + + } + + /** + * Copies the values of the given plane to this instance. + * + * @param {Plane} plane - The plane to copy. + * @return {Plane} A reference to this plane. + */ + copy( plane ) { + + this.normal.copy( plane.normal ); + this.constant = plane.constant; + + return this; + + } + + /** + * Normalizes the plane normal and adjusts the constant accordingly. + * + * @return {Plane} A reference to this plane. + */ + normalize() { + + // Note: will lead to a divide by zero if the plane is invalid. + + const inverseNormalLength = 1.0 / this.normal.length(); + this.normal.multiplyScalar( inverseNormalLength ); + this.constant *= inverseNormalLength; + + return this; + + } + + /** + * Negates both the plane normal and the constant. + * + * @return {Plane} A reference to this plane. + */ + negate() { + + this.constant *= -1; + this.normal.negate(); + + return this; + + } + + /** + * Returns the signed distance from the given point to this plane. + * + * @param {Vector3} point - The point to compute the distance for. + * @return {number} The signed distance. + */ + distanceToPoint( point ) { + + return this.normal.dot( point ) + this.constant; + + } + + /** + * Returns the signed distance from the given sphere to this plane. + * + * @param {Sphere} sphere - The sphere to compute the distance for. + * @return {number} The signed distance. + */ + distanceToSphere( sphere ) { + + return this.distanceToPoint( sphere.center ) - sphere.radius; + + } + + /** + * Projects a the given point onto the plane. + * + * @param {Vector3} point - The point to project. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The projected point on the plane. + */ + projectPoint( point, target ) { + + return target.copy( point ).addScaledVector( this.normal, - this.distanceToPoint( point ) ); + + } + + /** + * Returns the intersection point of the passed line and the plane. Returns + * `null` if the line does not intersect. Returns the line's starting point if + * the line is coplanar with the plane. + * + * @param {Line3} line - The line to compute the intersection for. + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {?Vector3} The intersection point. + */ + intersectLine( line, target ) { + + const direction = line.delta( _vector1 ); + + const denominator = this.normal.dot( direction ); + + if ( denominator === 0 ) { + + // line is coplanar, return origin + if ( this.distanceToPoint( line.start ) === 0 ) { + + return target.copy( line.start ); + + } + + // Unsure if this is the correct method to handle this case. + return null; + + } + + const t = - ( line.start.dot( this.normal ) + this.constant ) / denominator; + + if ( t < 0 || t > 1 ) { + + return null; + + } + + return target.copy( line.start ).addScaledVector( direction, t ); + + } + + /** + * Returns `true` if the given line segment intersects with (passes through) the plane. + * + * @param {Line3} line - The line to test. + * @return {boolean} Whether the given line segment intersects with the plane or not. + */ + intersectsLine( line ) { + + // Note: this tests if a line intersects the plane, not whether it (or its end-points) are coplanar with it. + + const startSign = this.distanceToPoint( line.start ); + const endSign = this.distanceToPoint( line.end ); + + return ( startSign < 0 && endSign > 0 ) || ( endSign < 0 && startSign > 0 ); + + } + + /** + * Returns `true` if the given bounding box intersects with the plane. + * + * @param {Box3} box - The bounding box to test. + * @return {boolean} Whether the given bounding box intersects with the plane or not. + */ + intersectsBox( box ) { + + return box.intersectsPlane( this ); + + } + + /** + * Returns `true` if the given bounding sphere intersects with the plane. + * + * @param {Sphere} sphere - The bounding sphere to test. + * @return {boolean} Whether the given bounding sphere intersects with the plane or not. + */ + intersectsSphere( sphere ) { + + return sphere.intersectsPlane( this ); + + } + + /** + * Returns a coplanar vector to the plane, by calculating the + * projection of the normal at the origin onto the plane. + * + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The coplanar point. + */ + coplanarPoint( target ) { + + return target.copy( this.normal ).multiplyScalar( - this.constant ); + + } + + /** + * Apply a 4x4 matrix to the plane. The matrix must be an affine, homogeneous transform. + * + * The optional normal matrix can be pre-computed like so: + * ```js + * const optionalNormalMatrix = new THREE.Matrix3().getNormalMatrix( matrix ); + * ``` + * + * @param {Matrix4} matrix - The transformation matrix. + * @param {Matrix4} [optionalNormalMatrix] - A pre-computed normal matrix. + * @return {Plane} A reference to this plane. + */ + applyMatrix4( matrix, optionalNormalMatrix ) { + + const normalMatrix = optionalNormalMatrix || _normalMatrix.getNormalMatrix( matrix ); + + const referencePoint = this.coplanarPoint( _vector1 ).applyMatrix4( matrix ); + + const normal = this.normal.applyMatrix3( normalMatrix ).normalize(); + + this.constant = - referencePoint.dot( normal ); + + return this; + + } + + /** + * Translates the plane by the distance defined by the given offset vector. + * Note that this only affects the plane constant and will not affect the normal vector. + * + * @param {Vector3} offset - The offset vector. + * @return {Plane} A reference to this plane. + */ + translate( offset ) { + + this.constant -= offset.dot( this.normal ); + + return this; + + } + + /** + * Returns `true` if this plane is equal with the given one. + * + * @param {Plane} plane - The plane to test for equality. + * @return {boolean} Whether this plane is equal with the given one. + */ + equals( plane ) { + + return plane.normal.equals( this.normal ) && ( plane.constant === this.constant ); + + } + + /** + * Returns a new plane with copied values from this instance. + * + * @return {Plane} A clone of this instance. + */ + clone() { + + return new this.constructor().copy( this ); + + } + +} + +const _sphere$3 = /*@__PURE__*/ new Sphere(); +const _vector$6 = /*@__PURE__*/ new Vector3(); + +/** + * Frustums are used to determine what is inside the camera's field of view. + * They help speed up the rendering process - objects which lie outside a camera's + * frustum can safely be excluded from rendering. + * + * This class is mainly intended for use internally by a renderer. + */ +class Frustum { + + /** + * Constructs a new frustum. + * + * @param {Plane} [p0] - The first plane that encloses the frustum. + * @param {Plane} [p1] - The second plane that encloses the frustum. + * @param {Plane} [p2] - The third plane that encloses the frustum. + * @param {Plane} [p3] - The fourth plane that encloses the frustum. + * @param {Plane} [p4] - The fifth plane that encloses the frustum. + * @param {Plane} [p5] - The sixth plane that encloses the frustum. + */ + constructor( p0 = new Plane(), p1 = new Plane(), p2 = new Plane(), p3 = new Plane(), p4 = new Plane(), p5 = new Plane() ) { + + /** + * This array holds the planes that enclose the frustum. + * + * @type {Array} + */ + this.planes = [ p0, p1, p2, p3, p4, p5 ]; + + } + + /** + * Sets the frustum planes by copying the given planes. + * + * @param {Plane} [p0] - The first plane that encloses the frustum. + * @param {Plane} [p1] - The second plane that encloses the frustum. + * @param {Plane} [p2] - The third plane that encloses the frustum. + * @param {Plane} [p3] - The fourth plane that encloses the frustum. + * @param {Plane} [p4] - The fifth plane that encloses the frustum. + * @param {Plane} [p5] - The sixth plane that encloses the frustum. + * @return {Frustum} A reference to this frustum. + */ + set( p0, p1, p2, p3, p4, p5 ) { + + const planes = this.planes; + + planes[ 0 ].copy( p0 ); + planes[ 1 ].copy( p1 ); + planes[ 2 ].copy( p2 ); + planes[ 3 ].copy( p3 ); + planes[ 4 ].copy( p4 ); + planes[ 5 ].copy( p5 ); + + return this; + + } + + /** + * Copies the values of the given frustum to this instance. + * + * @param {Frustum} frustum - The frustum to copy. + * @return {Frustum} A reference to this frustum. + */ + copy( frustum ) { + + const planes = this.planes; + + for ( let i = 0; i < 6; i ++ ) { + + planes[ i ].copy( frustum.planes[ i ] ); + + } + + return this; + + } + + /** + * Sets the frustum planes from the given projection matrix. + * + * @param {Matrix4} m - The projection matrix. + * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} coordinateSystem - The coordinate system. + * @return {Frustum} A reference to this frustum. + */ + setFromProjectionMatrix( m, coordinateSystem = WebGLCoordinateSystem ) { + + const planes = this.planes; + const me = m.elements; + const me0 = me[ 0 ], me1 = me[ 1 ], me2 = me[ 2 ], me3 = me[ 3 ]; + const me4 = me[ 4 ], me5 = me[ 5 ], me6 = me[ 6 ], me7 = me[ 7 ]; + const me8 = me[ 8 ], me9 = me[ 9 ], me10 = me[ 10 ], me11 = me[ 11 ]; + const me12 = me[ 12 ], me13 = me[ 13 ], me14 = me[ 14 ], me15 = me[ 15 ]; + + planes[ 0 ].setComponents( me3 - me0, me7 - me4, me11 - me8, me15 - me12 ).normalize(); + planes[ 1 ].setComponents( me3 + me0, me7 + me4, me11 + me8, me15 + me12 ).normalize(); + planes[ 2 ].setComponents( me3 + me1, me7 + me5, me11 + me9, me15 + me13 ).normalize(); + planes[ 3 ].setComponents( me3 - me1, me7 - me5, me11 - me9, me15 - me13 ).normalize(); + planes[ 4 ].setComponents( me3 - me2, me7 - me6, me11 - me10, me15 - me14 ).normalize(); + + if ( coordinateSystem === WebGLCoordinateSystem ) { + + planes[ 5 ].setComponents( me3 + me2, me7 + me6, me11 + me10, me15 + me14 ).normalize(); + + } else if ( coordinateSystem === WebGPUCoordinateSystem ) { + + planes[ 5 ].setComponents( me2, me6, me10, me14 ).normalize(); + + } else { + + throw new Error( 'THREE.Frustum.setFromProjectionMatrix(): Invalid coordinate system: ' + coordinateSystem ); + + } + + return this; + + } + + /** + * Returns `true` if the 3D object's bounding sphere is intersecting this frustum. + * + * Note that the 3D object must have a geometry so that the bounding sphere can be calculated. + * + * @param {Object3D} object - The 3D object to test. + * @return {boolean} Whether the 3D object's bounding sphere is intersecting this frustum or not. + */ + intersectsObject( object ) { + + if ( object.boundingSphere !== undefined ) { + + if ( object.boundingSphere === null ) object.computeBoundingSphere(); + + _sphere$3.copy( object.boundingSphere ).applyMatrix4( object.matrixWorld ); + + } else { + + const geometry = object.geometry; + + if ( geometry.boundingSphere === null ) geometry.computeBoundingSphere(); + + _sphere$3.copy( geometry.boundingSphere ).applyMatrix4( object.matrixWorld ); + + } + + return this.intersectsSphere( _sphere$3 ); + + } + + /** + * Returns `true` if the given sprite is intersecting this frustum. + * + * @param {Sprite} sprite - The sprite to test. + * @return {boolean} Whether the sprite is intersecting this frustum or not. + */ + intersectsSprite( sprite ) { + + _sphere$3.center.set( 0, 0, 0 ); + _sphere$3.radius = 0.7071067811865476; + _sphere$3.applyMatrix4( sprite.matrixWorld ); + + return this.intersectsSphere( _sphere$3 ); + + } + + /** + * Returns `true` if the given bounding sphere is intersecting this frustum. + * + * @param {Sphere} sphere - The bounding sphere to test. + * @return {boolean} Whether the bounding sphere is intersecting this frustum or not. + */ + intersectsSphere( sphere ) { + + const planes = this.planes; + const center = sphere.center; + const negRadius = - sphere.radius; + + for ( let i = 0; i < 6; i ++ ) { + + const distance = planes[ i ].distanceToPoint( center ); + + if ( distance < negRadius ) { + + return false; + + } + + } + + return true; + + } + + /** + * Returns `true` if the given bounding box is intersecting this frustum. + * + * @param {Box3} box - The bounding box to test. + * @return {boolean} Whether the bounding box is intersecting this frustum or not. + */ + intersectsBox( box ) { + + const planes = this.planes; + + for ( let i = 0; i < 6; i ++ ) { + + const plane = planes[ i ]; + + // corner at max distance + + _vector$6.x = plane.normal.x > 0 ? box.max.x : box.min.x; + _vector$6.y = plane.normal.y > 0 ? box.max.y : box.min.y; + _vector$6.z = plane.normal.z > 0 ? box.max.z : box.min.z; + + if ( plane.distanceToPoint( _vector$6 ) < 0 ) { + + return false; + + } + + } + + return true; + + } + + /** + * Returns `true` if the given point lies within the frustum. + * + * @param {Vector3} point - The point to test. + * @return {boolean} Whether the point lies within this frustum or not. + */ + containsPoint( point ) { + + const planes = this.planes; + + for ( let i = 0; i < 6; i ++ ) { + + if ( planes[ i ].distanceToPoint( point ) < 0 ) { + + return false; + + } + + } + + return true; + + } + + /** + * Returns a new frustum with copied values from this instance. + * + * @return {Frustum} A clone of this instance. + */ + clone() { + + return new this.constructor().copy( this ); + + } + +} + +class LineBasicMaterial extends Material$1 { + + constructor( parameters ) { + + super(); + + this.isLineBasicMaterial = true; + + this.type = 'LineBasicMaterial'; + + this.color = new Color( 0xffffff ); + + this.map = null; + + this.linewidth = 1; + this.linecap = 'round'; + this.linejoin = 'round'; + + this.fog = true; + + this.setValues( parameters ); + + } + + + copy( source ) { + + super.copy( source ); + + this.color.copy( source.color ); + + this.map = source.map; + + this.linewidth = source.linewidth; + this.linecap = source.linecap; + this.linejoin = source.linejoin; + + this.fog = source.fog; + + return this; + + } + +} + +const _vStart = /*@__PURE__*/ new Vector3(); +const _vEnd = /*@__PURE__*/ new Vector3(); + +const _inverseMatrix$1 = /*@__PURE__*/ new Matrix4(); +const _ray$1 = /*@__PURE__*/ new Ray(); +const _sphere$1 = /*@__PURE__*/ new Sphere(); + +const _intersectPointOnRay = /*@__PURE__*/ new Vector3(); +const _intersectPointOnSegment = /*@__PURE__*/ new Vector3(); + +/** + * A continuous line. The line are rendered by connecting consecutive + * vertices with straight lines. + * + * ```js + * const material = new THREE.LineBasicMaterial( { color: 0x0000ff } ); + * + * const points = []; + * points.push( new THREE.Vector3( - 10, 0, 0 ) ); + * points.push( new THREE.Vector3( 0, 10, 0 ) ); + * points.push( new THREE.Vector3( 10, 0, 0 ) ); + * + * const geometry = new THREE.BufferGeometry().setFromPoints( points ); + * + * const line = new THREE.Line( geometry, material ); + * scene.add( line ); + * ``` + * + * @augments Object3D + */ +class Line extends Object3D { + + /** + * Constructs a new line. + * + * @param {BufferGeometry} [geometry] - The line geometry. + * @param {Material|Array} [material] - The line material. + */ + constructor( geometry = new BufferGeometry(), material = new LineBasicMaterial() ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isLine = true; + + this.type = 'Line'; + + /** + * The line geometry. + * + * @type {BufferGeometry} + */ + this.geometry = geometry; + + /** + * The line material. + * + * @type {Material|Array} + * @default LineBasicMaterial + */ + this.material = material; + + /** + * A dictionary representing the morph targets in the geometry. The key is the + * morph targets name, the value its attribute index. This member is `undefined` + * by default and only set when morph targets are detected in the geometry. + * + * @type {Object|undefined} + * @default undefined + */ + this.morphTargetDictionary = undefined; + + /** + * An array of weights typically in the range `[0,1]` that specify how much of the morph + * is applied. This member is `undefined` by default and only set when morph targets are + * detected in the geometry. + * + * @type {Array|undefined} + * @default undefined + */ + this.morphTargetInfluences = undefined; + + this.updateMorphTargets(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.material = Array.isArray( source.material ) ? source.material.slice() : source.material; + this.geometry = source.geometry; + + return this; + + } + + /** + * Computes an array of distance values which are necessary for rendering dashed lines. + * For each vertex in the geometry, the method calculates the cumulative length from the + * current point to the very beginning of the line. + * + * @return {Line} A reference to this line. + */ + computeLineDistances() { + + const geometry = this.geometry; + + // we assume non-indexed geometry + + if ( geometry.index === null ) { + + const positionAttribute = geometry.attributes.position; + const lineDistances = [ 0 ]; + + for ( let i = 1, l = positionAttribute.count; i < l; i ++ ) { + + _vStart.fromBufferAttribute( positionAttribute, i - 1 ); + _vEnd.fromBufferAttribute( positionAttribute, i ); + + lineDistances[ i ] = lineDistances[ i - 1 ]; + lineDistances[ i ] += _vStart.distanceTo( _vEnd ); + + } + + geometry.setAttribute( 'lineDistance', new Float32BufferAttribute( lineDistances, 1 ) ); + + } else { + + console.warn( 'THREE.Line.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.' ); + + } + + return this; + + } + + /** + * Computes intersection points between a casted ray and this line. + * + * @param {Raycaster} raycaster - The raycaster. + * @param {Array} intersects - The target array that holds the intersection points. + */ + raycast( raycaster, intersects ) { + + const geometry = this.geometry; + const matrixWorld = this.matrixWorld; + const threshold = raycaster.params.Line.threshold; + const drawRange = geometry.drawRange; + + // Checking boundingSphere distance to ray + + if ( geometry.boundingSphere === null ) geometry.computeBoundingSphere(); + + _sphere$1.copy( geometry.boundingSphere ); + _sphere$1.applyMatrix4( matrixWorld ); + _sphere$1.radius += threshold; + + if ( raycaster.ray.intersectsSphere( _sphere$1 ) === false ) return; + + // + + _inverseMatrix$1.copy( matrixWorld ).invert(); + _ray$1.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$1 ); + + const localThreshold = threshold / ( ( this.scale.x + this.scale.y + this.scale.z ) / 3 ); + const localThresholdSq = localThreshold * localThreshold; + + const step = this.isLineSegments ? 2 : 1; + + const index = geometry.index; + const attributes = geometry.attributes; + const positionAttribute = attributes.position; + + if ( index !== null ) { + + const start = Math.max( 0, drawRange.start ); + const end = Math.min( index.count, ( drawRange.start + drawRange.count ) ); + + for ( let i = start, l = end - 1; i < l; i += step ) { + + const a = index.getX( i ); + const b = index.getX( i + 1 ); + + const intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, a, b, i ); + + if ( intersect ) { + + intersects.push( intersect ); + + } + + } + + if ( this.isLineLoop ) { + + const a = index.getX( end - 1 ); + const b = index.getX( start ); + + const intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, a, b, end - 1 ); + + if ( intersect ) { + + intersects.push( intersect ); + + } + + } + + } else { + + const start = Math.max( 0, drawRange.start ); + const end = Math.min( positionAttribute.count, ( drawRange.start + drawRange.count ) ); + + for ( let i = start, l = end - 1; i < l; i += step ) { + + const intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, i, i + 1, i ); + + if ( intersect ) { + + intersects.push( intersect ); + + } + + } + + if ( this.isLineLoop ) { + + const intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, end - 1, start, end - 1 ); + + if ( intersect ) { + + intersects.push( intersect ); + + } + + } + + } + + } + + /** + * Sets the values of {@link Line#morphTargetDictionary} and {@link Line#morphTargetInfluences} + * to make sure existing morph targets can influence this 3D object. + */ + updateMorphTargets() { + + const geometry = this.geometry; + + const morphAttributes = geometry.morphAttributes; + const keys = Object.keys( morphAttributes ); + + if ( keys.length > 0 ) { + + const morphAttribute = morphAttributes[ keys[ 0 ] ]; + + if ( morphAttribute !== undefined ) { + + this.morphTargetInfluences = []; + this.morphTargetDictionary = {}; + + for ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) { + + const name = morphAttribute[ m ].name || String( m ); + + this.morphTargetInfluences.push( 0 ); + this.morphTargetDictionary[ name ] = m; + + } + + } + + } + + } + +} + +function checkIntersection( object, raycaster, ray, thresholdSq, a, b, i ) { + + const positionAttribute = object.geometry.attributes.position; + + _vStart.fromBufferAttribute( positionAttribute, a ); + _vEnd.fromBufferAttribute( positionAttribute, b ); + + const distSq = ray.distanceSqToSegment( _vStart, _vEnd, _intersectPointOnRay, _intersectPointOnSegment ); + + if ( distSq > thresholdSq ) return; + + _intersectPointOnRay.applyMatrix4( object.matrixWorld ); // Move back to world space for distance calculation + + const distance = raycaster.ray.origin.distanceTo( _intersectPointOnRay ); + + if ( distance < raycaster.near || distance > raycaster.far ) return; + + return { + + distance: distance, + // What do we want? intersection point on the ray or on the segment?? + // point: raycaster.ray.at( distance ), + point: _intersectPointOnSegment.clone().applyMatrix4( object.matrixWorld ), + index: i, + face: null, + faceIndex: null, + barycoord: null, + object: object + + }; + +} + +const _start = /*@__PURE__*/ new Vector3(); +const _end = /*@__PURE__*/ new Vector3(); + +/** + * A series of lines drawn between pairs of vertices. + * + * @augments Line + */ +class LineSegments extends Line { + + /** + * Constructs a new line segments. + * + * @param {BufferGeometry} [geometry] - The line geometry. + * @param {Material|Array} [material] - The line material. + */ + constructor( geometry, material ) { + + super( geometry, material ); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isLineSegments = true; + + this.type = 'LineSegments'; + + } + + computeLineDistances() { + + const geometry = this.geometry; + + // we assume non-indexed geometry + + if ( geometry.index === null ) { + + const positionAttribute = geometry.attributes.position; + const lineDistances = []; + + for ( let i = 0, l = positionAttribute.count; i < l; i += 2 ) { + + _start.fromBufferAttribute( positionAttribute, i ); + _end.fromBufferAttribute( positionAttribute, i + 1 ); + + lineDistances[ i ] = ( i === 0 ) ? 0 : lineDistances[ i - 1 ]; + lineDistances[ i + 1 ] = lineDistances[ i ] + _start.distanceTo( _end ); + + } + + geometry.setAttribute( 'lineDistance', new Float32BufferAttribute( lineDistances, 1 ) ); + + } else { + + console.warn( 'THREE.LineSegments.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.' ); + + } + + return this; + + } + +} + +/** + * A continuous line. This is nearly the same as {@link Line} the only difference + * is that the last vertex is connected with the first vertex in order to close + * the line to form a loop. + * + * @augments Line + */ +class LineLoop extends Line { + + /** + * Constructs a new line loop. + * + * @param {BufferGeometry} [geometry] - The line geometry. + * @param {Material|Array} [material] - The line material. + */ + constructor( geometry, material ) { + + super( geometry, material ); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isLineLoop = true; + + this.type = 'LineLoop'; + + } + +} + +class PointsMaterial extends Material$1 { + + constructor( parameters ) { + + super(); + + this.isPointsMaterial = true; + + this.type = 'PointsMaterial'; + + this.color = new Color( 0xffffff ); + + this.map = null; + + this.alphaMap = null; + + this.size = 1; + this.sizeAttenuation = true; + + this.fog = true; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.color.copy( source.color ); + + this.map = source.map; + + this.alphaMap = source.alphaMap; + + this.size = source.size; + this.sizeAttenuation = source.sizeAttenuation; + + this.fog = source.fog; + + return this; + + } + +} + +const _inverseMatrix = /*@__PURE__*/ new Matrix4(); +const _ray = /*@__PURE__*/ new Ray(); +const _sphere = /*@__PURE__*/ new Sphere(); +const _position$2 = /*@__PURE__*/ new Vector3(); + +/** + * A class for displaying points or point clouds. + * + * @augments Object3D + */ +class Points extends Object3D { + + /** + * Constructs a new point cloud. + * + * @param {BufferGeometry} [geometry] - The points geometry. + * @param {Material|Array} [material] - The points material. + */ + constructor( geometry = new BufferGeometry(), material = new PointsMaterial() ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isPoints = true; + + this.type = 'Points'; + + /** + * The points geometry. + * + * @type {BufferGeometry} + */ + this.geometry = geometry; + + /** + * The line material. + * + * @type {Material|Array} + * @default PointsMaterial + */ + this.material = material; + + /** + * A dictionary representing the morph targets in the geometry. The key is the + * morph targets name, the value its attribute index. This member is `undefined` + * by default and only set when morph targets are detected in the geometry. + * + * @type {Object|undefined} + * @default undefined + */ + this.morphTargetDictionary = undefined; + + /** + * An array of weights typically in the range `[0,1]` that specify how much of the morph + * is applied. This member is `undefined` by default and only set when morph targets are + * detected in the geometry. + * + * @type {Array|undefined} + * @default undefined + */ + this.morphTargetInfluences = undefined; + + this.updateMorphTargets(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.material = Array.isArray( source.material ) ? source.material.slice() : source.material; + this.geometry = source.geometry; + + return this; + + } + + /** + * Computes intersection points between a casted ray and this point cloud. + * + * @param {Raycaster} raycaster - The raycaster. + * @param {Array} intersects - The target array that holds the intersection points. + */ + raycast( raycaster, intersects ) { + + const geometry = this.geometry; + const matrixWorld = this.matrixWorld; + const threshold = raycaster.params.Points.threshold; + const drawRange = geometry.drawRange; + + // Checking boundingSphere distance to ray + + if ( geometry.boundingSphere === null ) geometry.computeBoundingSphere(); + + _sphere.copy( geometry.boundingSphere ); + _sphere.applyMatrix4( matrixWorld ); + _sphere.radius += threshold; + + if ( raycaster.ray.intersectsSphere( _sphere ) === false ) return; + + // + + _inverseMatrix.copy( matrixWorld ).invert(); + _ray.copy( raycaster.ray ).applyMatrix4( _inverseMatrix ); + + const localThreshold = threshold / ( ( this.scale.x + this.scale.y + this.scale.z ) / 3 ); + const localThresholdSq = localThreshold * localThreshold; + + const index = geometry.index; + const attributes = geometry.attributes; + const positionAttribute = attributes.position; + + if ( index !== null ) { + + const start = Math.max( 0, drawRange.start ); + const end = Math.min( index.count, ( drawRange.start + drawRange.count ) ); + + for ( let i = start, il = end; i < il; i ++ ) { + + const a = index.getX( i ); + + _position$2.fromBufferAttribute( positionAttribute, a ); + + testPoint( _position$2, a, localThresholdSq, matrixWorld, raycaster, intersects, this ); + + } + + } else { + + const start = Math.max( 0, drawRange.start ); + const end = Math.min( positionAttribute.count, ( drawRange.start + drawRange.count ) ); + + for ( let i = start, l = end; i < l; i ++ ) { + + _position$2.fromBufferAttribute( positionAttribute, i ); + + testPoint( _position$2, i, localThresholdSq, matrixWorld, raycaster, intersects, this ); + + } + + } + + } + + /** + * Sets the values of {@link Points#morphTargetDictionary} and {@link Points#morphTargetInfluences} + * to make sure existing morph targets can influence this 3D object. + */ + updateMorphTargets() { + + const geometry = this.geometry; + + const morphAttributes = geometry.morphAttributes; + const keys = Object.keys( morphAttributes ); + + if ( keys.length > 0 ) { + + const morphAttribute = morphAttributes[ keys[ 0 ] ]; + + if ( morphAttribute !== undefined ) { + + this.morphTargetInfluences = []; + this.morphTargetDictionary = {}; + + for ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) { + + const name = morphAttribute[ m ].name || String( m ); + + this.morphTargetInfluences.push( 0 ); + this.morphTargetDictionary[ name ] = m; + + } + + } + + } + + } + +} + +function testPoint( point, index, localThresholdSq, matrixWorld, raycaster, intersects, object ) { + + const rayPointDistanceSq = _ray.distanceSqToPoint( point ); + + if ( rayPointDistanceSq < localThresholdSq ) { + + const intersectPoint = new Vector3(); + + _ray.closestPointToPoint( point, intersectPoint ); + intersectPoint.applyMatrix4( matrixWorld ); + + const distance = raycaster.ray.origin.distanceTo( intersectPoint ); + + if ( distance < raycaster.near || distance > raycaster.far ) return; + + intersects.push( { + + distance: distance, + distanceToRay: Math.sqrt( rayPointDistanceSq ), + point: intersectPoint, + index: index, + face: null, + faceIndex: null, + barycoord: null, + object: object + + } ); + + } + +} + +class VideoTexture extends Texture$1 { + + constructor( video, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ) { + + super( video, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ); + + this.isVideoTexture = true; + + this.minFilter = minFilter !== undefined ? minFilter : LinearFilter; + this.magFilter = magFilter !== undefined ? magFilter : LinearFilter; + + this.generateMipmaps = false; + + const scope = this; + + function updateVideo() { + + scope.needsUpdate = true; + video.requestVideoFrameCallback( updateVideo ); + + } + + if ( 'requestVideoFrameCallback' in video ) { + + video.requestVideoFrameCallback( updateVideo ); + + } + + } + + clone() { + + return new this.constructor( this.image ).copy( this ); + + } + + update() { + + const video = this.image; + const hasVideoFrameCallback = 'requestVideoFrameCallback' in video; + + if ( hasVideoFrameCallback === false && video.readyState >= video.HAVE_CURRENT_DATA ) { + + this.needsUpdate = true; + + } + + } + +} + +class CompressedTexture extends Texture$1 { + + constructor( mipmaps, width, height, format, type, mapping, wrapS, wrapT, magFilter, minFilter, anisotropy, colorSpace ) { + + super( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace ); + + this.isCompressedTexture = true; + + this.image = { width: width, height: height }; + this.mipmaps = mipmaps; + + // no flipping for cube textures + // (also flipping doesn't work for compressed textures ) + + this.flipY = false; + + // can't generate mipmaps for compressed textures + // mips must be embedded in DDS files + + this.generateMipmaps = false; + + } + +} + +class CompressedArrayTexture extends CompressedTexture { + + constructor( mipmaps, width, height, depth, format, type ) { + + super( mipmaps, width, height, format, type ); + + this.isCompressedArrayTexture = true; + this.image.depth = depth; + this.wrapR = ClampToEdgeWrapping; + + this.layerUpdates = new Set(); + + } + + addLayerUpdate( layerIndex ) { + + this.layerUpdates.add( layerIndex ); + + } + + clearLayerUpdates() { + + this.layerUpdates.clear(); + + } + +} + +class CompressedCubeTexture extends CompressedTexture { + + constructor( images, format, type ) { + + super( undefined, images[ 0 ].width, images[ 0 ].height, format, type, CubeReflectionMapping ); + + this.isCompressedCubeTexture = true; + this.isCubeTexture = true; + + this.image = images; + + } + +} + +class CanvasTexture extends Texture$1 { + + constructor( canvas, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ) { + + super( canvas, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ); + + this.isCanvasTexture = true; + + this.needsUpdate = true; + + } + +} + +class DepthTexture extends Texture$1 { + + constructor( width, height, type, mapping, wrapS, wrapT, magFilter, minFilter, anisotropy, format = DepthFormat ) { + + if ( format !== DepthFormat && format !== DepthStencilFormat ) { + + throw new Error( 'DepthTexture format must be either THREE.DepthFormat or THREE.DepthStencilFormat' ); + + } + + if ( type === undefined && format === DepthFormat ) type = UnsignedIntType; + if ( type === undefined && format === DepthStencilFormat ) type = UnsignedInt248Type; + + super( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ); + + this.isDepthTexture = true; + + this.image = { width: width, height: height }; + + this.magFilter = magFilter !== undefined ? magFilter : NearestFilter; + this.minFilter = minFilter !== undefined ? minFilter : NearestFilter; + + this.flipY = false; + this.generateMipmaps = false; + + this.compareFunction = null; + + } + + + copy( source ) { + + super.copy( source ); + + this.source = new Source( Object.assign( {}, source.image ) ); // see #30540 + this.compareFunction = source.compareFunction; + + return this; + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + if ( this.compareFunction !== null ) data.compareFunction = this.compareFunction; + + return data; + + } + +} + +/** + * An abstract base class for creating an analytic curve object that contains methods + * for interpolation. + * + * @abstract + */ +class Curve { + + /** + * Constructs a new curve. + */ + constructor() { + + /** + * The type property is used for detecting the object type + * in context of serialization/deserialization. + * + * @type {string} + * @readonly + */ + this.type = 'Curve'; + + /** + * This value determines the amount of divisions when calculating the + * cumulative segment lengths of a curve via {@link Curve#getLengths}. To ensure + * precision when using methods like {@link Curve#getSpacedPoints}, it is + * recommended to increase the value of this property if the curve is very large. + * + * @type {number} + * @default 200 + */ + this.arcLengthDivisions = 200; + + /** + * Must be set to `true` if the curve parameters have changed. + * + * @type {boolean} + * @default false + */ + this.needsUpdate = false; + + /** + * An internal cache that holds precomputed curve length values. + * + * @private + * @type {?Array} + * @default null + */ + this.cacheArcLengths = null; + + } + + /** + * This method returns a vector in 2D or 3D space (depending on the curve definition) + * for the given interpolation factor. + * + * @abstract + * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`. + * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to. + * @return {?(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition. + */ + getPoint( /* t, optionalTarget */ ) { + + console.warn( 'THREE.Curve: .getPoint() not implemented.' ); + + } + + /** + * This method returns a vector in 2D or 3D space (depending on the curve definition) + * for the given interpolation factor. Unlike {@link Curve#getPoint}, this method honors the length + * of the curve which equidistant samples. + * + * @param {number} u - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`. + * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to. + * @return {(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition. + */ + getPointAt( u, optionalTarget ) { + + const t = this.getUtoTmapping( u ); + return this.getPoint( t, optionalTarget ); + + } + + /** + * This method samples the curve via {@link Curve#getPoint} and returns an array of points representing + * the curve shape. + * + * @param {number} [divisions=5] - The number of divisions. + * @return {Array<(Vector2|Vector3)>} An array holding the sampled curve values. The number of points is `divisions + 1`. + */ + getPoints( divisions = 5 ) { + + const points = []; + + for ( let d = 0; d <= divisions; d ++ ) { + + points.push( this.getPoint( d / divisions ) ); + + } + + return points; + + } + + // Get sequence of points using getPointAt( u ) + + /** + * This method samples the curve via {@link Curve#getPointAt} and returns an array of points representing + * the curve shape. Unlike {@link Curve#getPoints}, this method returns equi-spaced points across the entire + * curve. + * + * @param {number} [divisions=5] - The number of divisions. + * @return {Array<(Vector2|Vector3)>} An array holding the sampled curve values. The number of points is `divisions + 1`. + */ + getSpacedPoints( divisions = 5 ) { + + const points = []; + + for ( let d = 0; d <= divisions; d ++ ) { + + points.push( this.getPointAt( d / divisions ) ); + + } + + return points; + + } + + /** + * Returns the total arc length of the curve. + * + * @return {number} The length of the curve. + */ + getLength() { + + const lengths = this.getLengths(); + return lengths[ lengths.length - 1 ]; + + } + + /** + * Returns an array of cumulative segment lengths of the curve. + * + * @param {number} [divisions=this.arcLengthDivisions] - The number of divisions. + * @return {Array} An array holding the cumulative segment lengths. + */ + getLengths( divisions = this.arcLengthDivisions ) { + + if ( this.cacheArcLengths && + ( this.cacheArcLengths.length === divisions + 1 ) && + ! this.needsUpdate ) { + + return this.cacheArcLengths; + + } + + this.needsUpdate = false; + + const cache = []; + let current, last = this.getPoint( 0 ); + let sum = 0; + + cache.push( 0 ); + + for ( let p = 1; p <= divisions; p ++ ) { + + current = this.getPoint( p / divisions ); + sum += current.distanceTo( last ); + cache.push( sum ); + last = current; + + } + + this.cacheArcLengths = cache; + + return cache; // { sums: cache, sum: sum }; Sum is in the last element. + + } + + /** + * Update the cumulative segment distance cache. The method must be called + * every time curve parameters are changed. If an updated curve is part of a + * composed curve like {@link CurvePath}, this method must be called on the + * composed curve, too. + */ + updateArcLengths() { + + this.needsUpdate = true; + this.getLengths(); + + } + + /** + * Given an interpolation factor in the range `[0,1]`, this method returns an updated + * interpolation factor in the same range that can be ued to sample equidistant points + * from a curve. + * + * @param {number} u - The interpolation factor. + * @param {?number} distance - An optional distance on the curve. + * @return {number} The updated interpolation factor. + */ + getUtoTmapping( u, distance = null ) { + + const arcLengths = this.getLengths(); + + let i = 0; + const il = arcLengths.length; + + let targetArcLength; // The targeted u distance value to get + + if ( distance ) { + + targetArcLength = distance; + + } else { + + targetArcLength = u * arcLengths[ il - 1 ]; + + } + + // binary search for the index with largest value smaller than target u distance + + let low = 0, high = il - 1, comparison; + + while ( low <= high ) { + + i = Math.floor( low + ( high - low ) / 2 ); // less likely to overflow, though probably not issue here, JS doesn't really have integers, all numbers are floats + + comparison = arcLengths[ i ] - targetArcLength; + + if ( comparison < 0 ) { + + low = i + 1; + + } else if ( comparison > 0 ) { + + high = i - 1; + + } else { + + high = i; + break; + + // DONE + + } + + } + + i = high; + + if ( arcLengths[ i ] === targetArcLength ) { + + return i / ( il - 1 ); + + } + + // we could get finer grain at lengths, or use simple interpolation between two points + + const lengthBefore = arcLengths[ i ]; + const lengthAfter = arcLengths[ i + 1 ]; + + const segmentLength = lengthAfter - lengthBefore; + + // determine where we are between the 'before' and 'after' points + + const segmentFraction = ( targetArcLength - lengthBefore ) / segmentLength; + + // add that fractional amount to t + + const t = ( i + segmentFraction ) / ( il - 1 ); + + return t; + + } + + /** + * Returns a unit vector tangent for the given interpolation factor. + * If the derived curve does not implement its tangent derivation, + * two points a small delta apart will be used to find its gradient + * which seems to give a reasonable approximation. + * + * @param {number} t - The interpolation factor. + * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to. + * @return {(Vector2|Vector3)} The tangent vector. + */ + getTangent( t, optionalTarget ) { + + const delta = 0.0001; + let t1 = t - delta; + let t2 = t + delta; + + // Capping in case of danger + + if ( t1 < 0 ) t1 = 0; + if ( t2 > 1 ) t2 = 1; + + const pt1 = this.getPoint( t1 ); + const pt2 = this.getPoint( t2 ); + + const tangent = optionalTarget || ( ( pt1.isVector2 ) ? new Vector2() : new Vector3() ); + + tangent.copy( pt2 ).sub( pt1 ).normalize(); + + return tangent; + + } + + /** + * Same as {@link Curve#getTangent} but with equidistant samples. + * + * @param {number} u - The interpolation factor. + * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to. + * @return {(Vector2|Vector3)} The tangent vector. + * @see {@link Curve#getPointAt} + */ + getTangentAt( u, optionalTarget ) { + + const t = this.getUtoTmapping( u ); + return this.getTangent( t, optionalTarget ); + + } + + /** + * Generates the Frenet Frames. Requires a curve definition in 3D space. Used + * in geometries like {@link TubeGeometry} or {@link ExtrudeGeometry}. + * + * @param {number} segments - The number of segments. + * @param {boolean} [closed=false] - Whether the curve is closed or not. + * @return {{tangents: Array, normals: Array, binormals: Array}} The Frenet Frames. + */ + computeFrenetFrames( segments, closed = false ) { + + // see http://www.cs.indiana.edu/pub/techreports/TR425.pdf + + const normal = new Vector3(); + + const tangents = []; + const normals = []; + const binormals = []; + + const vec = new Vector3(); + const mat = new Matrix4(); + + // compute the tangent vectors for each segment on the curve + + for ( let i = 0; i <= segments; i ++ ) { + + const u = i / segments; + + tangents[ i ] = this.getTangentAt( u, new Vector3() ); + + } + + // select an initial normal vector perpendicular to the first tangent vector, + // and in the direction of the minimum tangent xyz component + + normals[ 0 ] = new Vector3(); + binormals[ 0 ] = new Vector3(); + let min = Number.MAX_VALUE; + const tx = Math.abs( tangents[ 0 ].x ); + const ty = Math.abs( tangents[ 0 ].y ); + const tz = Math.abs( tangents[ 0 ].z ); + + if ( tx <= min ) { + + min = tx; + normal.set( 1, 0, 0 ); + + } + + if ( ty <= min ) { + + min = ty; + normal.set( 0, 1, 0 ); + + } + + if ( tz <= min ) { + + normal.set( 0, 0, 1 ); + + } + + vec.crossVectors( tangents[ 0 ], normal ).normalize(); + + normals[ 0 ].crossVectors( tangents[ 0 ], vec ); + binormals[ 0 ].crossVectors( tangents[ 0 ], normals[ 0 ] ); + + + // compute the slowly-varying normal and binormal vectors for each segment on the curve + + for ( let i = 1; i <= segments; i ++ ) { + + normals[ i ] = normals[ i - 1 ].clone(); + + binormals[ i ] = binormals[ i - 1 ].clone(); + + vec.crossVectors( tangents[ i - 1 ], tangents[ i ] ); + + if ( vec.length() > Number.EPSILON ) { + + vec.normalize(); + + const theta = Math.acos( clamp$1( tangents[ i - 1 ].dot( tangents[ i ] ), -1, 1 ) ); // clamp for floating pt errors + + normals[ i ].applyMatrix4( mat.makeRotationAxis( vec, theta ) ); + + } + + binormals[ i ].crossVectors( tangents[ i ], normals[ i ] ); + + } + + // if the curve is closed, postprocess the vectors so the first and last normal vectors are the same + + if ( closed === true ) { + + let theta = Math.acos( clamp$1( normals[ 0 ].dot( normals[ segments ] ), -1, 1 ) ); + theta /= segments; + + if ( tangents[ 0 ].dot( vec.crossVectors( normals[ 0 ], normals[ segments ] ) ) > 0 ) { + + theta = - theta; + + } + + for ( let i = 1; i <= segments; i ++ ) { + + // twist a little... + normals[ i ].applyMatrix4( mat.makeRotationAxis( tangents[ i ], theta * i ) ); + binormals[ i ].crossVectors( tangents[ i ], normals[ i ] ); + + } + + } + + return { + tangents: tangents, + normals: normals, + binormals: binormals + }; + + } + + /** + * Returns a new curve with copied values from this instance. + * + * @return {Curve} A clone of this instance. + */ + clone() { + + return new this.constructor().copy( this ); + + } + + /** + * Copies the values of the given curve to this instance. + * + * @param {Curve} source - The curve to copy. + * @return {Curve} A reference to this curve. + */ + copy( source ) { + + this.arcLengthDivisions = source.arcLengthDivisions; + + return this; + + } + + /** + * Serializes the curve into JSON. + * + * @return {Object} A JSON object representing the serialized curve. + * @see {@link ObjectLoader#parse} + */ + toJSON() { + + const data = { + metadata: { + version: 4.6, + type: 'Curve', + generator: 'Curve.toJSON' + } + }; + + data.arcLengthDivisions = this.arcLengthDivisions; + data.type = this.type; + + return data; + + } + + /** + * Deserializes the curve from the given JSON. + * + * @param {Object} json - The JSON holding the serialized curve. + * @return {Curve} A reference to this curve. + */ + fromJSON( json ) { + + this.arcLengthDivisions = json.arcLengthDivisions; + + return this; + + } + +} + +/** + * A curve representing an ellipse. + * + * ```js + * const curve = new THREE.EllipseCurve( + * 0, 0, + * 10, 10, + * 0, 2 * Math.PI, + * false, + * 0 + * ); + * + * const points = curve.getPoints( 50 ); + * const geometry = new THREE.BufferGeometry().setFromPoints( points ); + * + * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } ); + * + * // Create the final object to add to the scene + * const ellipse = new THREE.Line( geometry, material ); + * ``` + * + * @augments Curve + */ +class EllipseCurve extends Curve { + + /** + * Constructs a new ellipse curve. + * + * @param {number} [aX=0] - The X center of the ellipse. + * @param {number} [aY=0] - The Y center of the ellipse. + * @param {number} [xRadius=1] - The radius of the ellipse in the x direction. + * @param {number} [yRadius=1] - The radius of the ellipse in the y direction. + * @param {number} [aStartAngle=0] - The start angle of the curve in radians starting from the positive X axis. + * @param {number} [aEndAngle=Math.PI*2] - The end angle of the curve in radians starting from the positive X axis. + * @param {boolean} [aClockwise=false] - Whether the ellipse is drawn clockwise or not. + * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis. + */ + constructor( aX = 0, aY = 0, xRadius = 1, yRadius = 1, aStartAngle = 0, aEndAngle = Math.PI * 2, aClockwise = false, aRotation = 0 ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isEllipseCurve = true; + + this.type = 'EllipseCurve'; + + /** + * The X center of the ellipse. + * + * @type {number} + * @default 0 + */ + this.aX = aX; + + /** + * The Y center of the ellipse. + * + * @type {number} + * @default 0 + */ + this.aY = aY; + + /** + * The radius of the ellipse in the x direction. + * Setting the this value equal to the {@link EllipseCurve#yRadius} will result in a circle. + * + * @type {number} + * @default 1 + */ + this.xRadius = xRadius; + + /** + * The radius of the ellipse in the y direction. + * Setting the this value equal to the {@link EllipseCurve#xRadius} will result in a circle. + * + * @type {number} + * @default 1 + */ + this.yRadius = yRadius; + + /** + * The start angle of the curve in radians starting from the positive X axis. + * + * @type {number} + * @default 0 + */ + this.aStartAngle = aStartAngle; + + /** + * The end angle of the curve in radians starting from the positive X axis. + * + * @type {number} + * @default Math.PI*2 + */ + this.aEndAngle = aEndAngle; + + /** + * Whether the ellipse is drawn clockwise or not. + * + * @type {boolean} + * @default false + */ + this.aClockwise = aClockwise; + + /** + * The rotation angle of the ellipse in radians, counterclockwise from the positive X axis. + * + * @type {number} + * @default 0 + */ + this.aRotation = aRotation; + + } + + /** + * Returns a point on the curve. + * + * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`. + * @param {Vector2} [optionalTarget] - The optional target vector the result is written to. + * @return {Vector2} The position on the curve. + */ + getPoint( t, optionalTarget = new Vector2() ) { + + const point = optionalTarget; + + const twoPi = Math.PI * 2; + let deltaAngle = this.aEndAngle - this.aStartAngle; + const samePoints = Math.abs( deltaAngle ) < Number.EPSILON; + + // ensures that deltaAngle is 0 .. 2 PI + while ( deltaAngle < 0 ) deltaAngle += twoPi; + while ( deltaAngle > twoPi ) deltaAngle -= twoPi; + + if ( deltaAngle < Number.EPSILON ) { + + if ( samePoints ) { + + deltaAngle = 0; + + } else { + + deltaAngle = twoPi; + + } + + } + + if ( this.aClockwise === true && ! samePoints ) { + + if ( deltaAngle === twoPi ) { + + deltaAngle = - twoPi; + + } else { + + deltaAngle = deltaAngle - twoPi; + + } + + } + + const angle = this.aStartAngle + t * deltaAngle; + let x = this.aX + this.xRadius * Math.cos( angle ); + let y = this.aY + this.yRadius * Math.sin( angle ); + + if ( this.aRotation !== 0 ) { + + const cos = Math.cos( this.aRotation ); + const sin = Math.sin( this.aRotation ); + + const tx = x - this.aX; + const ty = y - this.aY; + + // Rotate the point about the center of the ellipse. + x = tx * cos - ty * sin + this.aX; + y = tx * sin + ty * cos + this.aY; + + } + + return point.set( x, y ); + + } + + copy( source ) { + + super.copy( source ); + + this.aX = source.aX; + this.aY = source.aY; + + this.xRadius = source.xRadius; + this.yRadius = source.yRadius; + + this.aStartAngle = source.aStartAngle; + this.aEndAngle = source.aEndAngle; + + this.aClockwise = source.aClockwise; + + this.aRotation = source.aRotation; + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.aX = this.aX; + data.aY = this.aY; + + data.xRadius = this.xRadius; + data.yRadius = this.yRadius; + + data.aStartAngle = this.aStartAngle; + data.aEndAngle = this.aEndAngle; + + data.aClockwise = this.aClockwise; + + data.aRotation = this.aRotation; + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.aX = json.aX; + this.aY = json.aY; + + this.xRadius = json.xRadius; + this.yRadius = json.yRadius; + + this.aStartAngle = json.aStartAngle; + this.aEndAngle = json.aEndAngle; + + this.aClockwise = json.aClockwise; + + this.aRotation = json.aRotation; + + return this; + + } + +} + +/** + * A curve representing an arc. + * + * @augments EllipseCurve + */ +class ArcCurve extends EllipseCurve { + + /** + * Constructs a new arc curve. + * + * @param {number} [aX=0] - The X center of the ellipse. + * @param {number} [aY=0] - The Y center of the ellipse. + * @param {number} [aRadius=1] - The radius of the ellipse in the x direction. + * @param {number} [aStartAngle=0] - The start angle of the curve in radians starting from the positive X axis. + * @param {number} [aEndAngle=Math.PI*2] - The end angle of the curve in radians starting from the positive X axis. + * @param {boolean} [aClockwise=false] - Whether the ellipse is drawn clockwise or not. + */ + constructor( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) { + + super( aX, aY, aRadius, aRadius, aStartAngle, aEndAngle, aClockwise ); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isArcCurve = true; + + this.type = 'ArcCurve'; + + } + +} + +function CubicPoly() { + + /** + * Centripetal CatmullRom Curve - which is useful for avoiding + * cusps and self-intersections in non-uniform catmull rom curves. + * http://www.cemyuksel.com/research/catmullrom_param/catmullrom.pdf + * + * curve.type accepts centripetal(default), chordal and catmullrom + * curve.tension is used for catmullrom which defaults to 0.5 + */ + + /* + Based on an optimized c++ solution in + - http://stackoverflow.com/questions/9489736/catmull-rom-curve-with-no-cusps-and-no-self-intersections/ + - http://ideone.com/NoEbVM + + This CubicPoly class could be used for reusing some variables and calculations, + but for three.js curve use, it could be possible inlined and flatten into a single function call + which can be placed in CurveUtils. + */ + + let c0 = 0, c1 = 0, c2 = 0, c3 = 0; + + /* + * Compute coefficients for a cubic polynomial + * p(s) = c0 + c1*s + c2*s^2 + c3*s^3 + * such that + * p(0) = x0, p(1) = x1 + * and + * p'(0) = t0, p'(1) = t1. + */ + function init( x0, x1, t0, t1 ) { + + c0 = x0; + c1 = t0; + c2 = -3 * x0 + 3 * x1 - 2 * t0 - t1; + c3 = 2 * x0 - 2 * x1 + t0 + t1; + + } + + return { + + initCatmullRom: function ( x0, x1, x2, x3, tension ) { + + init( x1, x2, tension * ( x2 - x0 ), tension * ( x3 - x1 ) ); + + }, + + initNonuniformCatmullRom: function ( x0, x1, x2, x3, dt0, dt1, dt2 ) { + + // compute tangents when parameterized in [t1,t2] + let t1 = ( x1 - x0 ) / dt0 - ( x2 - x0 ) / ( dt0 + dt1 ) + ( x2 - x1 ) / dt1; + let t2 = ( x2 - x1 ) / dt1 - ( x3 - x1 ) / ( dt1 + dt2 ) + ( x3 - x2 ) / dt2; + + // rescale tangents for parametrization in [0,1] + t1 *= dt1; + t2 *= dt1; + + init( x1, x2, t1, t2 ); + + }, + + calc: function ( t ) { + + const t2 = t * t; + const t3 = t2 * t; + return c0 + c1 * t + c2 * t2 + c3 * t3; + + } + + }; + +} + +// + +const tmp = /*@__PURE__*/ new Vector3(); +const px = /*@__PURE__*/ new CubicPoly(); +const py = /*@__PURE__*/ new CubicPoly(); +const pz = /*@__PURE__*/ new CubicPoly(); + +/** + * A curve representing a Catmull-Rom spline. + * + * ```js + * //Create a closed wavey loop + * const curve = new THREE.CatmullRomCurve3( [ + * new THREE.Vector3( -10, 0, 10 ), + * new THREE.Vector3( -5, 5, 5 ), + * new THREE.Vector3( 0, 0, 0 ), + * new THREE.Vector3( 5, -5, 5 ), + * new THREE.Vector3( 10, 0, 10 ) + * ] ); + * + * const points = curve.getPoints( 50 ); + * const geometry = new THREE.BufferGeometry().setFromPoints( points ); + * + * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } ); + * + * // Create the final object to add to the scene + * const curveObject = new THREE.Line( geometry, material ); + * ``` + * + * @augments Curve + */ +class CatmullRomCurve3 extends Curve { + + /** + * Constructs a new Catmull-Rom curve. + * + * @param {Array} [points] - An array of 3D points defining the curve. + * @param {boolean} [closed=false] - Whether the curve is closed or not. + * @param {('centripetal'|'chordal'|'catmullrom')} [curveType='centripetal'] - The curve type. + * @param {number} [tension=0.5] - Tension of the curve. + */ + constructor( points = [], closed = false, curveType = 'centripetal', tension = 0.5 ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isCatmullRomCurve3 = true; + + this.type = 'CatmullRomCurve3'; + + /** + * An array of 3D points defining the curve. + * + * @type {Array} + */ + this.points = points; + + /** + * Whether the curve is closed or not. + * + * @type {boolean} + * @default false + */ + this.closed = closed; + + /** + * The curve type. + * + * @type {('centripetal'|'chordal'|'catmullrom')} + * @default 'centripetal' + */ + this.curveType = curveType; + + /** + * Tension of the curve. + * + * @type {number} + * @default 0.5 + */ + this.tension = tension; + + } + + /** + * Returns a point on the curve. + * + * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`. + * @param {Vector3} [optionalTarget] - The optional target vector the result is written to. + * @return {Vector3} The position on the curve. + */ + getPoint( t, optionalTarget = new Vector3() ) { + + const point = optionalTarget; + + const points = this.points; + const l = points.length; + + const p = ( l - ( this.closed ? 0 : 1 ) ) * t; + let intPoint = Math.floor( p ); + let weight = p - intPoint; + + if ( this.closed ) { + + intPoint += intPoint > 0 ? 0 : ( Math.floor( Math.abs( intPoint ) / l ) + 1 ) * l; + + } else if ( weight === 0 && intPoint === l - 1 ) { + + intPoint = l - 2; + weight = 1; + + } + + let p0, p3; // 4 points (p1 & p2 defined below) + + if ( this.closed || intPoint > 0 ) { + + p0 = points[ ( intPoint - 1 ) % l ]; + + } else { + + // extrapolate first point + tmp.subVectors( points[ 0 ], points[ 1 ] ).add( points[ 0 ] ); + p0 = tmp; + + } + + const p1 = points[ intPoint % l ]; + const p2 = points[ ( intPoint + 1 ) % l ]; + + if ( this.closed || intPoint + 2 < l ) { + + p3 = points[ ( intPoint + 2 ) % l ]; + + } else { + + // extrapolate last point + tmp.subVectors( points[ l - 1 ], points[ l - 2 ] ).add( points[ l - 1 ] ); + p3 = tmp; + + } + + if ( this.curveType === 'centripetal' || this.curveType === 'chordal' ) { + + // init Centripetal / Chordal Catmull-Rom + const pow = this.curveType === 'chordal' ? 0.5 : 0.25; + let dt0 = Math.pow( p0.distanceToSquared( p1 ), pow ); + let dt1 = Math.pow( p1.distanceToSquared( p2 ), pow ); + let dt2 = Math.pow( p2.distanceToSquared( p3 ), pow ); + + // safety check for repeated points + if ( dt1 < 1e-4 ) dt1 = 1.0; + if ( dt0 < 1e-4 ) dt0 = dt1; + if ( dt2 < 1e-4 ) dt2 = dt1; + + px.initNonuniformCatmullRom( p0.x, p1.x, p2.x, p3.x, dt0, dt1, dt2 ); + py.initNonuniformCatmullRom( p0.y, p1.y, p2.y, p3.y, dt0, dt1, dt2 ); + pz.initNonuniformCatmullRom( p0.z, p1.z, p2.z, p3.z, dt0, dt1, dt2 ); + + } else if ( this.curveType === 'catmullrom' ) { + + px.initCatmullRom( p0.x, p1.x, p2.x, p3.x, this.tension ); + py.initCatmullRom( p0.y, p1.y, p2.y, p3.y, this.tension ); + pz.initCatmullRom( p0.z, p1.z, p2.z, p3.z, this.tension ); + + } + + point.set( + px.calc( weight ), + py.calc( weight ), + pz.calc( weight ) + ); + + return point; + + } + + copy( source ) { + + super.copy( source ); + + this.points = []; + + for ( let i = 0, l = source.points.length; i < l; i ++ ) { + + const point = source.points[ i ]; + + this.points.push( point.clone() ); + + } + + this.closed = source.closed; + this.curveType = source.curveType; + this.tension = source.tension; + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.points = []; + + for ( let i = 0, l = this.points.length; i < l; i ++ ) { + + const point = this.points[ i ]; + data.points.push( point.toArray() ); + + } + + data.closed = this.closed; + data.curveType = this.curveType; + data.tension = this.tension; + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.points = []; + + for ( let i = 0, l = json.points.length; i < l; i ++ ) { + + const point = json.points[ i ]; + this.points.push( new Vector3().fromArray( point ) ); + + } + + this.closed = json.closed; + this.curveType = json.curveType; + this.tension = json.tension; + + return this; + + } + +} + +// Bezier Curves formulas obtained from: https://en.wikipedia.org/wiki/B%C3%A9zier_curve + +/** + * Computes a point on a Catmull-Rom spline. + * + * @param {number} t - The interpolation factor. + * @param {number} p0 - The first control point. + * @param {number} p1 - The second control point. + * @param {number} p2 - The third control point. + * @param {number} p3 - The fourth control point. + * @return {number} The calculated point on a Catmull-Rom spline. + */ +function CatmullRom( t, p0, p1, p2, p3 ) { + + const v0 = ( p2 - p0 ) * 0.5; + const v1 = ( p3 - p1 ) * 0.5; + const t2 = t * t; + const t3 = t * t2; + return ( 2 * p1 - 2 * p2 + v0 + v1 ) * t3 + ( -3 * p1 + 3 * p2 - 2 * v0 - v1 ) * t2 + v0 * t + p1; + +} + +// + +function QuadraticBezierP0( t, p ) { + + const k = 1 - t; + return k * k * p; + +} + +function QuadraticBezierP1( t, p ) { + + return 2 * ( 1 - t ) * t * p; + +} + +function QuadraticBezierP2( t, p ) { + + return t * t * p; + +} + +/** + * Computes a point on a Quadratic Bezier curve. + * + * @param {number} t - The interpolation factor. + * @param {number} p0 - The first control point. + * @param {number} p1 - The second control point. + * @param {number} p2 - The third control point. + * @return {number} The calculated point on a Quadratic Bezier curve. + */ +function QuadraticBezier( t, p0, p1, p2 ) { + + return QuadraticBezierP0( t, p0 ) + QuadraticBezierP1( t, p1 ) + + QuadraticBezierP2( t, p2 ); + +} + +// + +function CubicBezierP0( t, p ) { + + const k = 1 - t; + return k * k * k * p; + +} + +function CubicBezierP1( t, p ) { + + const k = 1 - t; + return 3 * k * k * t * p; + +} + +function CubicBezierP2( t, p ) { + + return 3 * ( 1 - t ) * t * t * p; + +} + +function CubicBezierP3( t, p ) { + + return t * t * t * p; + +} + +/** + * Computes a point on a Cubic Bezier curve. + * + * @param {number} t - The interpolation factor. + * @param {number} p0 - The first control point. + * @param {number} p1 - The second control point. + * @param {number} p2 - The third control point. + * @param {number} p3 - The fourth control point. + * @return {number} The calculated point on a Cubic Bezier curve. + */ +function CubicBezier( t, p0, p1, p2, p3 ) { + + return CubicBezierP0( t, p0 ) + CubicBezierP1( t, p1 ) + CubicBezierP2( t, p2 ) + + CubicBezierP3( t, p3 ); + +} + +/** + * A curve representing a 2D Cubic Bezier curve. + * + * ```js + * const curve = new THREE.CubicBezierCurve( + * new THREE.Vector2( - 0, 0 ), + * new THREE.Vector2( - 5, 15 ), + * new THREE.Vector2( 20, 15 ), + * new THREE.Vector2( 10, 0 ) + * ); + * + * const points = curve.getPoints( 50 ); + * const geometry = new THREE.BufferGeometry().setFromPoints( points ); + * + * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } ); + * + * // Create the final object to add to the scene + * const curveObject = new THREE.Line( geometry, material ); + * ``` + * + * @augments Curve + */ +class CubicBezierCurve extends Curve { + + /** + * Constructs a new Cubic Bezier curve. + * + * @param {Vector2} [v0] - The start point. + * @param {Vector2} [v1] - The first control point. + * @param {Vector2} [v2] - The second control point. + * @param {Vector2} [v3] - The end point. + */ + constructor( v0 = new Vector2(), v1 = new Vector2(), v2 = new Vector2(), v3 = new Vector2() ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isCubicBezierCurve = true; + + this.type = 'CubicBezierCurve'; + + /** + * The start point. + * + * @type {Vector2} + */ + this.v0 = v0; + + /** + * The first control point. + * + * @type {Vector2} + */ + this.v1 = v1; + + /** + * The second control point. + * + * @type {Vector2} + */ + this.v2 = v2; + + /** + * The end point. + * + * @type {Vector2} + */ + this.v3 = v3; + + } + + /** + * Returns a point on the curve. + * + * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`. + * @param {Vector2} [optionalTarget] - The optional target vector the result is written to. + * @return {Vector2} The position on the curve. + */ + getPoint( t, optionalTarget = new Vector2() ) { + + const point = optionalTarget; + + const v0 = this.v0, v1 = this.v1, v2 = this.v2, v3 = this.v3; + + point.set( + CubicBezier( t, v0.x, v1.x, v2.x, v3.x ), + CubicBezier( t, v0.y, v1.y, v2.y, v3.y ) + ); + + return point; + + } + + copy( source ) { + + super.copy( source ); + + this.v0.copy( source.v0 ); + this.v1.copy( source.v1 ); + this.v2.copy( source.v2 ); + this.v3.copy( source.v3 ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.v0 = this.v0.toArray(); + data.v1 = this.v1.toArray(); + data.v2 = this.v2.toArray(); + data.v3 = this.v3.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.v0.fromArray( json.v0 ); + this.v1.fromArray( json.v1 ); + this.v2.fromArray( json.v2 ); + this.v3.fromArray( json.v3 ); + + return this; + + } + +} + +/** + * A curve representing a 3D Cubic Bezier curve. + * + * @augments Curve + */ +class CubicBezierCurve3 extends Curve { + + /** + * Constructs a new Cubic Bezier curve. + * + * @param {Vector3} [v0] - The start point. + * @param {Vector3} [v1] - The first control point. + * @param {Vector3} [v2] - The second control point. + * @param {Vector3} [v3] - The end point. + */ + constructor( v0 = new Vector3(), v1 = new Vector3(), v2 = new Vector3(), v3 = new Vector3() ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isCubicBezierCurve3 = true; + + this.type = 'CubicBezierCurve3'; + + /** + * The start point. + * + * @type {Vector3} + */ + this.v0 = v0; + + /** + * The first control point. + * + * @type {Vector3} + */ + this.v1 = v1; + + /** + * The second control point. + * + * @type {Vector3} + */ + this.v2 = v2; + + /** + * The end point. + * + * @type {Vector3} + */ + this.v3 = v3; + + } + + /** + * Returns a point on the curve. + * + * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`. + * @param {Vector3} [optionalTarget] - The optional target vector the result is written to. + * @return {Vector3} The position on the curve. + */ + getPoint( t, optionalTarget = new Vector3() ) { + + const point = optionalTarget; + + const v0 = this.v0, v1 = this.v1, v2 = this.v2, v3 = this.v3; + + point.set( + CubicBezier( t, v0.x, v1.x, v2.x, v3.x ), + CubicBezier( t, v0.y, v1.y, v2.y, v3.y ), + CubicBezier( t, v0.z, v1.z, v2.z, v3.z ) + ); + + return point; + + } + + copy( source ) { + + super.copy( source ); + + this.v0.copy( source.v0 ); + this.v1.copy( source.v1 ); + this.v2.copy( source.v2 ); + this.v3.copy( source.v3 ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.v0 = this.v0.toArray(); + data.v1 = this.v1.toArray(); + data.v2 = this.v2.toArray(); + data.v3 = this.v3.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.v0.fromArray( json.v0 ); + this.v1.fromArray( json.v1 ); + this.v2.fromArray( json.v2 ); + this.v3.fromArray( json.v3 ); + + return this; + + } + +} + +/** + * A curve representing a 2D line segment. + * + * @augments Curve + */ +class LineCurve extends Curve { + + /** + * Constructs a new line curve. + * + * @param {Vector2} [v1] - The start point. + * @param {Vector2} [v2] - The end point. + */ + constructor( v1 = new Vector2(), v2 = new Vector2() ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isLineCurve = true; + + this.type = 'LineCurve'; + + /** + * The start point. + * + * @type {Vector2} + */ + this.v1 = v1; + + /** + * The end point. + * + * @type {Vector2} + */ + this.v2 = v2; + + } + + /** + * Returns a point on the line. + * + * @param {number} t - A interpolation factor representing a position on the line. Must be in the range `[0,1]`. + * @param {Vector2} [optionalTarget] - The optional target vector the result is written to. + * @return {Vector2} The position on the line. + */ + getPoint( t, optionalTarget = new Vector2() ) { + + const point = optionalTarget; + + if ( t === 1 ) { + + point.copy( this.v2 ); + + } else { + + point.copy( this.v2 ).sub( this.v1 ); + point.multiplyScalar( t ).add( this.v1 ); + + } + + return point; + + } + + // Line curve is linear, so we can overwrite default getPointAt + getPointAt( u, optionalTarget ) { + + return this.getPoint( u, optionalTarget ); + + } + + getTangent( t, optionalTarget = new Vector2() ) { + + return optionalTarget.subVectors( this.v2, this.v1 ).normalize(); + + } + + getTangentAt( u, optionalTarget ) { + + return this.getTangent( u, optionalTarget ); + + } + + copy( source ) { + + super.copy( source ); + + this.v1.copy( source.v1 ); + this.v2.copy( source.v2 ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.v1 = this.v1.toArray(); + data.v2 = this.v2.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.v1.fromArray( json.v1 ); + this.v2.fromArray( json.v2 ); + + return this; + + } + +} + +/** + * A curve representing a 3D line segment. + * + * @augments Curve + */ +class LineCurve3 extends Curve { + + /** + * Constructs a new line curve. + * + * @param {Vector3} [v1] - The start point. + * @param {Vector3} [v2] - The end point. + */ + constructor( v1 = new Vector3(), v2 = new Vector3() ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isLineCurve3 = true; + + this.type = 'LineCurve3'; + + /** + * The start point. + * + * @type {Vector3} + */ + this.v1 = v1; + + /** + * The end point. + * + * @type {Vector2} + */ + this.v2 = v2; + + } + + /** + * Returns a point on the line. + * + * @param {number} t - A interpolation factor representing a position on the line. Must be in the range `[0,1]`. + * @param {Vector3} [optionalTarget] - The optional target vector the result is written to. + * @return {Vector3} The position on the line. + */ + getPoint( t, optionalTarget = new Vector3() ) { + + const point = optionalTarget; + + if ( t === 1 ) { + + point.copy( this.v2 ); + + } else { + + point.copy( this.v2 ).sub( this.v1 ); + point.multiplyScalar( t ).add( this.v1 ); + + } + + return point; + + } + + // Line curve is linear, so we can overwrite default getPointAt + getPointAt( u, optionalTarget ) { + + return this.getPoint( u, optionalTarget ); + + } + + getTangent( t, optionalTarget = new Vector3() ) { + + return optionalTarget.subVectors( this.v2, this.v1 ).normalize(); + + } + + getTangentAt( u, optionalTarget ) { + + return this.getTangent( u, optionalTarget ); + + } + + copy( source ) { + + super.copy( source ); + + this.v1.copy( source.v1 ); + this.v2.copy( source.v2 ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.v1 = this.v1.toArray(); + data.v2 = this.v2.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.v1.fromArray( json.v1 ); + this.v2.fromArray( json.v2 ); + + return this; + + } + +} + +/** + * A curve representing a 2D Quadratic Bezier curve. + * + * ```js + * const curve = new THREE.QuadraticBezierCurve( + * new THREE.Vector2( - 10, 0 ), + * new THREE.Vector2( 20, 15 ), + * new THREE.Vector2( 10, 0 ) + * ) + * + * const points = curve.getPoints( 50 ); + * const geometry = new THREE.BufferGeometry().setFromPoints( points ); + * + * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } ); + * + * // Create the final object to add to the scene + * const curveObject = new THREE.Line( geometry, material ); + * ``` + * + * @augments Curve + */ +class QuadraticBezierCurve extends Curve { + + /** + * Constructs a new Quadratic Bezier curve. + * + * @param {Vector2} [v0] - The start point. + * @param {Vector2} [v1] - The control point. + * @param {Vector2} [v2] - The end point. + */ + constructor( v0 = new Vector2(), v1 = new Vector2(), v2 = new Vector2() ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isQuadraticBezierCurve = true; + + this.type = 'QuadraticBezierCurve'; + + /** + * The start point. + * + * @type {Vector2} + */ + this.v0 = v0; + + /** + * The control point. + * + * @type {Vector2} + */ + this.v1 = v1; + + /** + * The end point. + * + * @type {Vector2} + */ + this.v2 = v2; + + } + + /** + * Returns a point on the curve. + * + * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`. + * @param {Vector2} [optionalTarget] - The optional target vector the result is written to. + * @return {Vector2} The position on the curve. + */ + getPoint( t, optionalTarget = new Vector2() ) { + + const point = optionalTarget; + + const v0 = this.v0, v1 = this.v1, v2 = this.v2; + + point.set( + QuadraticBezier( t, v0.x, v1.x, v2.x ), + QuadraticBezier( t, v0.y, v1.y, v2.y ) + ); + + return point; + + } + + copy( source ) { + + super.copy( source ); + + this.v0.copy( source.v0 ); + this.v1.copy( source.v1 ); + this.v2.copy( source.v2 ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.v0 = this.v0.toArray(); + data.v1 = this.v1.toArray(); + data.v2 = this.v2.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.v0.fromArray( json.v0 ); + this.v1.fromArray( json.v1 ); + this.v2.fromArray( json.v2 ); + + return this; + + } + +} + +/** + * A curve representing a 3D Quadratic Bezier curve. + * + * @augments Curve + */ +class QuadraticBezierCurve3 extends Curve { + + /** + * Constructs a new Quadratic Bezier curve. + * + * @param {Vector3} [v0] - The start point. + * @param {Vector3} [v1] - The control point. + * @param {Vector3} [v2] - The end point. + */ + constructor( v0 = new Vector3(), v1 = new Vector3(), v2 = new Vector3() ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isQuadraticBezierCurve3 = true; + + this.type = 'QuadraticBezierCurve3'; + + /** + * The start point. + * + * @type {Vector3} + */ + this.v0 = v0; + + /** + * The control point. + * + * @type {Vector3} + */ + this.v1 = v1; + + /** + * The end point. + * + * @type {Vector3} + */ + this.v2 = v2; + + } + + /** + * Returns a point on the curve. + * + * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`. + * @param {Vector3} [optionalTarget] - The optional target vector the result is written to. + * @return {Vector3} The position on the curve. + */ + getPoint( t, optionalTarget = new Vector3() ) { + + const point = optionalTarget; + + const v0 = this.v0, v1 = this.v1, v2 = this.v2; + + point.set( + QuadraticBezier( t, v0.x, v1.x, v2.x ), + QuadraticBezier( t, v0.y, v1.y, v2.y ), + QuadraticBezier( t, v0.z, v1.z, v2.z ) + ); + + return point; + + } + + copy( source ) { + + super.copy( source ); + + this.v0.copy( source.v0 ); + this.v1.copy( source.v1 ); + this.v2.copy( source.v2 ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.v0 = this.v0.toArray(); + data.v1 = this.v1.toArray(); + data.v2 = this.v2.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.v0.fromArray( json.v0 ); + this.v1.fromArray( json.v1 ); + this.v2.fromArray( json.v2 ); + + return this; + + } + +} + +/** + * A curve representing a 2D spline curve. + * + * ```js + * // Create a sine-like wave + * const curve = new THREE.SplineCurve( [ + * new THREE.Vector2( -10, 0 ), + * new THREE.Vector2( -5, 5 ), + * new THREE.Vector2( 0, 0 ), + * new THREE.Vector2( 5, -5 ), + * new THREE.Vector2( 10, 0 ) + * ] ); + * + * const points = curve.getPoints( 50 ); + * const geometry = new THREE.BufferGeometry().setFromPoints( points ); + * + * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } ); + * + * // Create the final object to add to the scene + * const splineObject = new THREE.Line( geometry, material ); + * ``` + * + * @augments Curve + */ +class SplineCurve extends Curve { + + /** + * Constructs a new 2D spline curve. + * + * @param {Array} [points] - An array of 2D points defining the curve. + */ + constructor( points = [] ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isSplineCurve = true; + + this.type = 'SplineCurve'; + + /** + * An array of 2D points defining the curve. + * + * @type {Array} + */ + this.points = points; + + } + + /** + * Returns a point on the curve. + * + * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`. + * @param {Vector2} [optionalTarget] - The optional target vector the result is written to. + * @return {Vector2} The position on the curve. + */ + getPoint( t, optionalTarget = new Vector2() ) { + + const point = optionalTarget; + + const points = this.points; + const p = ( points.length - 1 ) * t; + + const intPoint = Math.floor( p ); + const weight = p - intPoint; + + const p0 = points[ intPoint === 0 ? intPoint : intPoint - 1 ]; + const p1 = points[ intPoint ]; + const p2 = points[ intPoint > points.length - 2 ? points.length - 1 : intPoint + 1 ]; + const p3 = points[ intPoint > points.length - 3 ? points.length - 1 : intPoint + 2 ]; + + point.set( + CatmullRom( weight, p0.x, p1.x, p2.x, p3.x ), + CatmullRom( weight, p0.y, p1.y, p2.y, p3.y ) + ); + + return point; + + } + + copy( source ) { + + super.copy( source ); + + this.points = []; + + for ( let i = 0, l = source.points.length; i < l; i ++ ) { + + const point = source.points[ i ]; + + this.points.push( point.clone() ); + + } + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.points = []; + + for ( let i = 0, l = this.points.length; i < l; i ++ ) { + + const point = this.points[ i ]; + data.points.push( point.toArray() ); + + } + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.points = []; + + for ( let i = 0, l = json.points.length; i < l; i ++ ) { + + const point = json.points[ i ]; + this.points.push( new Vector2().fromArray( point ) ); + + } + + return this; + + } + +} + +var Curves = /*#__PURE__*/Object.freeze({ + __proto__: null, + ArcCurve: ArcCurve, + CatmullRomCurve3: CatmullRomCurve3, + CubicBezierCurve: CubicBezierCurve, + CubicBezierCurve3: CubicBezierCurve3, + EllipseCurve: EllipseCurve, + LineCurve: LineCurve, + LineCurve3: LineCurve3, + QuadraticBezierCurve: QuadraticBezierCurve, + QuadraticBezierCurve3: QuadraticBezierCurve3, + SplineCurve: SplineCurve +}); + +/** + * A base class extending {@link Curve}. `CurvePath` is simply an + * array of connected curves, but retains the API of a curve. + * + * @augments Curve + */ +class CurvePath extends Curve { + + /** + * Constructs a new curve path. + */ + constructor() { + + super(); + + this.type = 'CurvePath'; + + /** + * An array of curves defining the + * path. + * + * @type {Array} + */ + this.curves = []; + + /** + * Whether the path should automatically be closed + * by a line curve. + * + * @type {boolean} + * @default false + */ + this.autoClose = false; + + } + + /** + * Adds a curve to this curve path. + * + * @param {Curve} curve - The curve to add. + */ + add( curve ) { + + this.curves.push( curve ); + + } + + /** + * Adds a line curve to close the path. + * + * @return {CurvePath} A reference to this curve path. + */ + closePath() { + + // Add a line curve if start and end of lines are not connected + const startPoint = this.curves[ 0 ].getPoint( 0 ); + const endPoint = this.curves[ this.curves.length - 1 ].getPoint( 1 ); + + if ( ! startPoint.equals( endPoint ) ) { + + const lineType = ( startPoint.isVector2 === true ) ? 'LineCurve' : 'LineCurve3'; + this.curves.push( new Curves[ lineType ]( endPoint, startPoint ) ); + + } + + return this; + + } + + /** + * This method returns a vector in 2D or 3D space (depending on the curve definitions) + * for the given interpolation factor. + * + * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`. + * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to. + * @return {?(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition. + */ + getPoint( t, optionalTarget ) { + + // To get accurate point with reference to + // entire path distance at time t, + // following has to be done: + + // 1. Length of each sub path have to be known + // 2. Locate and identify type of curve + // 3. Get t for the curve + // 4. Return curve.getPointAt(t') + + const d = t * this.getLength(); + const curveLengths = this.getCurveLengths(); + let i = 0; + + // To think about boundaries points. + + while ( i < curveLengths.length ) { + + if ( curveLengths[ i ] >= d ) { + + const diff = curveLengths[ i ] - d; + const curve = this.curves[ i ]; + + const segmentLength = curve.getLength(); + const u = segmentLength === 0 ? 0 : 1 - diff / segmentLength; + + return curve.getPointAt( u, optionalTarget ); + + } + + i ++; + + } + + return null; + + // loop where sum != 0, sum > d , sum+1 } The curve lengths. + */ + getCurveLengths() { + + // Compute lengths and cache them + // We cannot overwrite getLengths() because UtoT mapping uses it. + // We use cache values if curves and cache array are same length + + if ( this.cacheLengths && this.cacheLengths.length === this.curves.length ) { + + return this.cacheLengths; + + } + + // Get length of sub-curve + // Push sums into cached array + + const lengths = []; + let sums = 0; + + for ( let i = 0, l = this.curves.length; i < l; i ++ ) { + + sums += this.curves[ i ].getLength(); + lengths.push( sums ); + + } + + this.cacheLengths = lengths; + + return lengths; + + } + + getSpacedPoints( divisions = 40 ) { + + const points = []; + + for ( let i = 0; i <= divisions; i ++ ) { + + points.push( this.getPoint( i / divisions ) ); + + } + + if ( this.autoClose ) { + + points.push( points[ 0 ] ); + + } + + return points; + + } + + getPoints( divisions = 12 ) { + + const points = []; + let last; + + for ( let i = 0, curves = this.curves; i < curves.length; i ++ ) { + + const curve = curves[ i ]; + const resolution = curve.isEllipseCurve ? divisions * 2 + : ( curve.isLineCurve || curve.isLineCurve3 ) ? 1 + : curve.isSplineCurve ? divisions * curve.points.length + : divisions; + + const pts = curve.getPoints( resolution ); + + for ( let j = 0; j < pts.length; j ++ ) { + + const point = pts[ j ]; + + if ( last && last.equals( point ) ) continue; // ensures no consecutive points are duplicates + + points.push( point ); + last = point; + + } + + } + + if ( this.autoClose && points.length > 1 && ! points[ points.length - 1 ].equals( points[ 0 ] ) ) { + + points.push( points[ 0 ] ); + + } + + return points; + + } + + copy( source ) { + + super.copy( source ); + + this.curves = []; + + for ( let i = 0, l = source.curves.length; i < l; i ++ ) { + + const curve = source.curves[ i ]; + + this.curves.push( curve.clone() ); + + } + + this.autoClose = source.autoClose; + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.autoClose = this.autoClose; + data.curves = []; + + for ( let i = 0, l = this.curves.length; i < l; i ++ ) { + + const curve = this.curves[ i ]; + data.curves.push( curve.toJSON() ); + + } + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.autoClose = json.autoClose; + this.curves = []; + + for ( let i = 0, l = json.curves.length; i < l; i ++ ) { + + const curve = json.curves[ i ]; + this.curves.push( new Curves[ curve.type ]().fromJSON( curve ) ); + + } + + return this; + + } + +} + +/** + * A 2D path representation. The class provides methods for creating paths + * and contours of 2D shapes similar to the 2D Canvas API. + * + * ```js + * const path = new THREE.Path(); + * + * path.lineTo( 0, 0.8 ); + * path.quadraticCurveTo( 0, 1, 0.2, 1 ); + * path.lineTo( 1, 1 ); + * + * const points = path.getPoints(); + * + * const geometry = new THREE.BufferGeometry().setFromPoints( points ); + * const material = new THREE.LineBasicMaterial( { color: 0xffffff } ); + * + * const line = new THREE.Line( geometry, material ); + * scene.add( line ); + * ``` + * + * @augments CurvePath + */ +class Path extends CurvePath { + + /** + * Constructs a new path. + * + * @param {Array} [points] - An array of 2D points defining the path. + */ + constructor( points ) { + + super(); + + this.type = 'Path'; + + /** + * The current offset of the path. Any new curve added will start here. + * + * @type {Vector2} + */ + this.currentPoint = new Vector2(); + + if ( points ) { + + this.setFromPoints( points ); + + } + + } + + /** + * Creates a path from the given list of points. The points are added + * to the path as instances of {@link LineCurve}. + * + * @param {Array} points - An array of 2D points. + * @return {Path} A reference to this path. + */ + setFromPoints( points ) { + + this.moveTo( points[ 0 ].x, points[ 0 ].y ); + + for ( let i = 1, l = points.length; i < l; i ++ ) { + + this.lineTo( points[ i ].x, points[ i ].y ); + + } + + return this; + + } + + /** + * Moves {@link Path#currentPoint} to the given point. + * + * @param {number} x - The x coordinate. + * @param {number} y - The y coordinate. + * @return {Path} A reference to this path. + */ + moveTo( x, y ) { + + this.currentPoint.set( x, y ); // TODO consider referencing vectors instead of copying? + + return this; + + } + + /** + * Adds an instance of {@link LineCurve} to the path by connecting + * the current point with the given one. + * + * @param {number} x - The x coordinate of the end point. + * @param {number} y - The y coordinate of the end point. + * @return {Path} A reference to this path. + */ + lineTo( x, y ) { + + const curve = new LineCurve( this.currentPoint.clone(), new Vector2( x, y ) ); + this.curves.push( curve ); + + this.currentPoint.set( x, y ); + + return this; + + } + + /** + * Adds an instance of {@link QuadraticBezierCurve} to the path by connecting + * the current point with the given one. + * + * @param {number} aCPx - The x coordinate of the control point. + * @param {number} aCPy - The y coordinate of the control point. + * @param {number} aX - The x coordinate of the end point. + * @param {number} aY - The y coordinate of the end point. + * @return {Path} A reference to this path. + */ + quadraticCurveTo( aCPx, aCPy, aX, aY ) { + + const curve = new QuadraticBezierCurve( + this.currentPoint.clone(), + new Vector2( aCPx, aCPy ), + new Vector2( aX, aY ) + ); + + this.curves.push( curve ); + + this.currentPoint.set( aX, aY ); + + return this; + + } + + /** + * Adds an instance of {@link CubicBezierCurve} to the path by connecting + * the current point with the given one. + * + * @param {number} aCP1x - The x coordinate of the first control point. + * @param {number} aCP1y - The y coordinate of the first control point. + * @param {number} aCP2x - The x coordinate of the second control point. + * @param {number} aCP2y - The y coordinate of the second control point. + * @param {number} aX - The x coordinate of the end point. + * @param {number} aY - The y coordinate of the end point. + * @return {Path} A reference to this path. + */ + bezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY ) { + + const curve = new CubicBezierCurve( + this.currentPoint.clone(), + new Vector2( aCP1x, aCP1y ), + new Vector2( aCP2x, aCP2y ), + new Vector2( aX, aY ) + ); + + this.curves.push( curve ); + + this.currentPoint.set( aX, aY ); + + return this; + + } + + /** + * Adds an instance of {@link SplineCurve} to the path by connecting + * the current point with the given list of points. + * + * @param {Array} pts - An array of points in 2D space. + * @return {Path} A reference to this path. + */ + splineThru( pts ) { + + const npts = [ this.currentPoint.clone() ].concat( pts ); + + const curve = new SplineCurve( npts ); + this.curves.push( curve ); + + this.currentPoint.copy( pts[ pts.length - 1 ] ); + + return this; + + } + + /** + * Adds an arc as an instance of {@link EllipseCurve} to the path, positioned relative + * to the current point. + * + * @param {number} aX - The x coordinate of the center of the arc offsetted from the previous curve. + * @param {number} aY - The y coordinate of the center of the arc offsetted from the previous curve. + * @param {number} aRadius - The radius of the arc. + * @param {number} aStartAngle - The start angle in radians. + * @param {number} aEndAngle - The end angle in radians. + * @param {boolean} [aClockwise=false] - Whether to sweep the arc clockwise or not. + * @return {Path} A reference to this path. + */ + arc( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) { + + const x0 = this.currentPoint.x; + const y0 = this.currentPoint.y; + + this.absarc( aX + x0, aY + y0, aRadius, + aStartAngle, aEndAngle, aClockwise ); + + return this; + + } + + /** + * Adds an absolutely positioned arc as an instance of {@link EllipseCurve} to the path. + * + * @param {number} aX - The x coordinate of the center of the arc. + * @param {number} aY - The y coordinate of the center of the arc. + * @param {number} aRadius - The radius of the arc. + * @param {number} aStartAngle - The start angle in radians. + * @param {number} aEndAngle - The end angle in radians. + * @param {boolean} [aClockwise=false] - Whether to sweep the arc clockwise or not. + * @return {Path} A reference to this path. + */ + absarc( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) { + + this.absellipse( aX, aY, aRadius, aRadius, aStartAngle, aEndAngle, aClockwise ); + + return this; + + } + + /** + * Adds an ellipse as an instance of {@link EllipseCurve} to the path, positioned relative + * to the current point + * + * @param {number} aX - The x coordinate of the center of the ellipse offsetted from the previous curve. + * @param {number} aY - The y coordinate of the center of the ellipse offsetted from the previous curve. + * @param {number} xRadius - The radius of the ellipse in the x axis. + * @param {number} yRadius - The radius of the ellipse in the y axis. + * @param {number} aStartAngle - The start angle in radians. + * @param {number} aEndAngle - The end angle in radians. + * @param {boolean} [aClockwise=false] - Whether to sweep the ellipse clockwise or not. + * @param {boolean} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis. + * @return {Path} A reference to this path. + */ + ellipse( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ) { + + const x0 = this.currentPoint.x; + const y0 = this.currentPoint.y; + + this.absellipse( aX + x0, aY + y0, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ); + + return this; + + } + + /** + * Adds an absolutely positioned ellipse as an instance of {@link EllipseCurve} to the path. + * + * @param {number} aX - The x coordinate of the absolute center of the ellipse. + * @param {number} aY - The y coordinate of the absolute center of the ellipse. + * @param {number} xRadius - The radius of the ellipse in the x axis. + * @param {number} yRadius - The radius of the ellipse in the y axis. + * @param {number} aStartAngle - The start angle in radians. + * @param {number} aEndAngle - The end angle in radians. + * @param {boolean} [aClockwise=false] - Whether to sweep the ellipse clockwise or not. + * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis. + * @return {Path} A reference to this path. + */ + absellipse( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ) { + + const curve = new EllipseCurve( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ); + + if ( this.curves.length > 0 ) { + + // if a previous curve is present, attempt to join + const firstPoint = curve.getPoint( 0 ); + + if ( ! firstPoint.equals( this.currentPoint ) ) { + + this.lineTo( firstPoint.x, firstPoint.y ); + + } + + } + + this.curves.push( curve ); + + const lastPoint = curve.getPoint( 1 ); + this.currentPoint.copy( lastPoint ); + + return this; + + } + + copy( source ) { + + super.copy( source ); + + this.currentPoint.copy( source.currentPoint ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.currentPoint = this.currentPoint.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.currentPoint.fromArray( json.currentPoint ); + + return this; + + } + +} + +/** + * Defines an arbitrary 2d shape plane using paths with optional holes. It + * can be used with {@link ExtrudeGeometry}, {@link ShapeGeometry}, to get + * points, or to get triangulated faces. + * + * ```js + * const heartShape = new THREE.Shape(); + * + * heartShape.moveTo( 25, 25 ); + * heartShape.bezierCurveTo( 25, 25, 20, 0, 0, 0 ); + * heartShape.bezierCurveTo( - 30, 0, - 30, 35, - 30, 35 ); + * heartShape.bezierCurveTo( - 30, 55, - 10, 77, 25, 95 ); + * heartShape.bezierCurveTo( 60, 77, 80, 55, 80, 35 ); + * heartShape.bezierCurveTo( 80, 35, 80, 0, 50, 0 ); + * heartShape.bezierCurveTo( 35, 0, 25, 25, 25, 25 ); + * + * const extrudeSettings = { + * depth: 8, + * bevelEnabled: true, + * bevelSegments: 2, + * steps: 2, + * bevelSize: 1, + * bevelThickness: 1 + * }; + * + * const geometry = new THREE.ExtrudeGeometry( heartShape, extrudeSettings ); + * const mesh = new THREE.Mesh( geometry, new THREE.MeshBasicMaterial() ); + * ``` + * + * @augments Path + */ +class Shape extends Path { + + /** + * Constructs a new shape. + * + * @param {Array} [points] - An array of 2D points defining the shape. + */ + constructor( points ) { + + super( points ); + + /** + * The UUID of the shape. + * + * @type {string} + * @readonly + */ + this.uuid = generateUUID(); + + this.type = 'Shape'; + + /** + * Defines the holes in the shape. Hole definitions must use the + * opposite winding order (CW/CCW) than the outer shape. + * + * @type {Array} + * @readonly + */ + this.holes = []; + + } + + /** + * Returns an array representing each contour of the holes + * as a list of 2D points. + * + * @param {number} divisions - The fineness of the result. + * @return {Array>} The holes as a series of 2D points. + */ + getPointsHoles( divisions ) { + + const holesPts = []; + + for ( let i = 0, l = this.holes.length; i < l; i ++ ) { + + holesPts[ i ] = this.holes[ i ].getPoints( divisions ); + + } + + return holesPts; + + } + + // get points of shape and holes (keypoints based on segments parameter) + + /** + * Returns an object that holds contour data for the shape and its holes as + * arrays of 2D points. + * + * @param {number} divisions - The fineness of the result. + * @return {{shape:Array,holes:Array>}} An object with contour data. + */ + extractPoints( divisions ) { + + return { + + shape: this.getPoints( divisions ), + holes: this.getPointsHoles( divisions ) + + }; + + } + + copy( source ) { + + super.copy( source ); + + this.holes = []; + + for ( let i = 0, l = source.holes.length; i < l; i ++ ) { + + const hole = source.holes[ i ]; + + this.holes.push( hole.clone() ); + + } + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.uuid = this.uuid; + data.holes = []; + + for ( let i = 0, l = this.holes.length; i < l; i ++ ) { + + const hole = this.holes[ i ]; + data.holes.push( hole.toJSON() ); + + } + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.uuid = json.uuid; + this.holes = []; + + for ( let i = 0, l = json.holes.length; i < l; i ++ ) { + + const hole = json.holes[ i ]; + this.holes.push( new Path().fromJSON( hole ) ); + + } + + return this; + + } + +} + +/** + * An implementation of the earcut polygon triangulation algorithm. The code + * is a port of [mapbox/earcut]{@link https://github.com/mapbox/earcut mapbox/earcut} (v2.2.4). + * + * @hideconstructor + */ +class Earcut { + + /** + * Triangulates the given shape definition by returning an array of triangles. + * + * @param {Array} data - An array with 2D points. + * @param {Array} holeIndices - An array with indices defining holes. + * @param {number} [dim=2] - The number of coordinates per vertex in the input array. + * @return {Array} An array representing the triangulated faces. Each face is defined by three consecutive numbers + * representing vertex indices. + */ + static triangulate( data, holeIndices, dim = 2 ) { + + const hasHoles = holeIndices && holeIndices.length; + const outerLen = hasHoles ? holeIndices[ 0 ] * dim : data.length; + let outerNode = linkedList( data, 0, outerLen, dim, true ); + const triangles = []; + + if ( ! outerNode || outerNode.next === outerNode.prev ) return triangles; + + let minX, minY, maxX, maxY, x, y, invSize; + + if ( hasHoles ) outerNode = eliminateHoles( data, holeIndices, outerNode, dim ); + + // if the shape is not too simple, we'll use z-order curve hash later; calculate polygon bbox + if ( data.length > 80 * dim ) { + + minX = maxX = data[ 0 ]; + minY = maxY = data[ 1 ]; + + for ( let i = dim; i < outerLen; i += dim ) { + + x = data[ i ]; + y = data[ i + 1 ]; + if ( x < minX ) minX = x; + if ( y < minY ) minY = y; + if ( x > maxX ) maxX = x; + if ( y > maxY ) maxY = y; + + } + + // minX, minY and invSize are later used to transform coords into integers for z-order calculation + invSize = Math.max( maxX - minX, maxY - minY ); + invSize = invSize !== 0 ? 32767 / invSize : 0; + + } + + earcutLinked( outerNode, triangles, dim, minX, minY, invSize, 0 ); + + return triangles; + + } + +} + +// create a circular doubly linked list from polygon points in the specified winding order +function linkedList( data, start, end, dim, clockwise ) { + + let i, last; + + if ( clockwise === ( signedArea( data, start, end, dim ) > 0 ) ) { + + for ( i = start; i < end; i += dim ) last = insertNode( i, data[ i ], data[ i + 1 ], last ); + + } else { + + for ( i = end - dim; i >= start; i -= dim ) last = insertNode( i, data[ i ], data[ i + 1 ], last ); + + } + + if ( last && equals( last, last.next ) ) { + + removeNode( last ); + last = last.next; + + } + + return last; + +} + +// eliminate colinear or duplicate points +function filterPoints( start, end ) { + + if ( ! start ) return start; + if ( ! end ) end = start; + + let p = start, + again; + do { + + again = false; + + if ( ! p.steiner && ( equals( p, p.next ) || area( p.prev, p, p.next ) === 0 ) ) { + + removeNode( p ); + p = end = p.prev; + if ( p === p.next ) break; + again = true; + + } else { + + p = p.next; + + } + + } while ( again || p !== end ); + + return end; + +} + +// main ear slicing loop which triangulates a polygon (given as a linked list) +function earcutLinked( ear, triangles, dim, minX, minY, invSize, pass ) { + + if ( ! ear ) return; + + // interlink polygon nodes in z-order + if ( ! pass && invSize ) indexCurve( ear, minX, minY, invSize ); + + let stop = ear, + prev, next; + + // iterate through ears, slicing them one by one + while ( ear.prev !== ear.next ) { + + prev = ear.prev; + next = ear.next; + + if ( invSize ? isEarHashed( ear, minX, minY, invSize ) : isEar( ear ) ) { + + // cut off the triangle + triangles.push( prev.i / dim | 0 ); + triangles.push( ear.i / dim | 0 ); + triangles.push( next.i / dim | 0 ); + + removeNode( ear ); + + // skipping the next vertex leads to less sliver triangles + ear = next.next; + stop = next.next; + + continue; + + } + + ear = next; + + // if we looped through the whole remaining polygon and can't find any more ears + if ( ear === stop ) { + + // try filtering points and slicing again + if ( ! pass ) { + + earcutLinked( filterPoints( ear ), triangles, dim, minX, minY, invSize, 1 ); + + // if this didn't work, try curing all small self-intersections locally + + } else if ( pass === 1 ) { + + ear = cureLocalIntersections( filterPoints( ear ), triangles, dim ); + earcutLinked( ear, triangles, dim, minX, minY, invSize, 2 ); + + // as a last resort, try splitting the remaining polygon into two + + } else if ( pass === 2 ) { + + splitEarcut( ear, triangles, dim, minX, minY, invSize ); + + } + + break; + + } + + } + +} + +// check whether a polygon node forms a valid ear with adjacent nodes +function isEar( ear ) { + + const a = ear.prev, + b = ear, + c = ear.next; + + if ( area( a, b, c ) >= 0 ) return false; // reflex, can't be an ear + + // now make sure we don't have other points inside the potential ear + const ax = a.x, bx = b.x, cx = c.x, ay = a.y, by = b.y, cy = c.y; + + // triangle bbox; min & max are calculated like this for speed + const x0 = ax < bx ? ( ax < cx ? ax : cx ) : ( bx < cx ? bx : cx ), + y0 = ay < by ? ( ay < cy ? ay : cy ) : ( by < cy ? by : cy ), + x1 = ax > bx ? ( ax > cx ? ax : cx ) : ( bx > cx ? bx : cx ), + y1 = ay > by ? ( ay > cy ? ay : cy ) : ( by > cy ? by : cy ); + + let p = c.next; + while ( p !== a ) { + + if ( p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && + pointInTriangle( ax, ay, bx, by, cx, cy, p.x, p.y ) && + area( p.prev, p, p.next ) >= 0 ) return false; + p = p.next; + + } + + return true; + +} + +function isEarHashed( ear, minX, minY, invSize ) { + + const a = ear.prev, + b = ear, + c = ear.next; + + if ( area( a, b, c ) >= 0 ) return false; // reflex, can't be an ear + + const ax = a.x, bx = b.x, cx = c.x, ay = a.y, by = b.y, cy = c.y; + + // triangle bbox; min & max are calculated like this for speed + const x0 = ax < bx ? ( ax < cx ? ax : cx ) : ( bx < cx ? bx : cx ), + y0 = ay < by ? ( ay < cy ? ay : cy ) : ( by < cy ? by : cy ), + x1 = ax > bx ? ( ax > cx ? ax : cx ) : ( bx > cx ? bx : cx ), + y1 = ay > by ? ( ay > cy ? ay : cy ) : ( by > cy ? by : cy ); + + // z-order range for the current triangle bbox; + const minZ = zOrder( x0, y0, minX, minY, invSize ), + maxZ = zOrder( x1, y1, minX, minY, invSize ); + + let p = ear.prevZ, + n = ear.nextZ; + + // look for points inside the triangle in both directions + while ( p && p.z >= minZ && n && n.z <= maxZ ) { + + if ( p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && p !== a && p !== c && + pointInTriangle( ax, ay, bx, by, cx, cy, p.x, p.y ) && area( p.prev, p, p.next ) >= 0 ) return false; + p = p.prevZ; + + if ( n.x >= x0 && n.x <= x1 && n.y >= y0 && n.y <= y1 && n !== a && n !== c && + pointInTriangle( ax, ay, bx, by, cx, cy, n.x, n.y ) && area( n.prev, n, n.next ) >= 0 ) return false; + n = n.nextZ; + + } + + // look for remaining points in decreasing z-order + while ( p && p.z >= minZ ) { + + if ( p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && p !== a && p !== c && + pointInTriangle( ax, ay, bx, by, cx, cy, p.x, p.y ) && area( p.prev, p, p.next ) >= 0 ) return false; + p = p.prevZ; + + } + + // look for remaining points in increasing z-order + while ( n && n.z <= maxZ ) { + + if ( n.x >= x0 && n.x <= x1 && n.y >= y0 && n.y <= y1 && n !== a && n !== c && + pointInTriangle( ax, ay, bx, by, cx, cy, n.x, n.y ) && area( n.prev, n, n.next ) >= 0 ) return false; + n = n.nextZ; + + } + + return true; + +} + +// go through all polygon nodes and cure small local self-intersections +function cureLocalIntersections( start, triangles, dim ) { + + let p = start; + do { + + const a = p.prev, + b = p.next.next; + + if ( ! equals( a, b ) && intersects( a, p, p.next, b ) && locallyInside( a, b ) && locallyInside( b, a ) ) { + + triangles.push( a.i / dim | 0 ); + triangles.push( p.i / dim | 0 ); + triangles.push( b.i / dim | 0 ); + + // remove two nodes involved + removeNode( p ); + removeNode( p.next ); + + p = start = b; + + } + + p = p.next; + + } while ( p !== start ); + + return filterPoints( p ); + +} + +// try splitting polygon into two and triangulate them independently +function splitEarcut( start, triangles, dim, minX, minY, invSize ) { + + // look for a valid diagonal that divides the polygon into two + let a = start; + do { + + let b = a.next.next; + while ( b !== a.prev ) { + + if ( a.i !== b.i && isValidDiagonal( a, b ) ) { + + // split the polygon in two by the diagonal + let c = splitPolygon( a, b ); + + // filter colinear points around the cuts + a = filterPoints( a, a.next ); + c = filterPoints( c, c.next ); + + // run earcut on each half + earcutLinked( a, triangles, dim, minX, minY, invSize, 0 ); + earcutLinked( c, triangles, dim, minX, minY, invSize, 0 ); + return; + + } + + b = b.next; + + } + + a = a.next; + + } while ( a !== start ); + +} + +// link every hole into the outer loop, producing a single-ring polygon without holes +function eliminateHoles( data, holeIndices, outerNode, dim ) { + + const queue = []; + let i, len, start, end, list; + + for ( i = 0, len = holeIndices.length; i < len; i ++ ) { + + start = holeIndices[ i ] * dim; + end = i < len - 1 ? holeIndices[ i + 1 ] * dim : data.length; + list = linkedList( data, start, end, dim, false ); + if ( list === list.next ) list.steiner = true; + queue.push( getLeftmost( list ) ); + + } + + queue.sort( compareX ); + + // process holes from left to right + for ( i = 0; i < queue.length; i ++ ) { + + outerNode = eliminateHole( queue[ i ], outerNode ); + + } + + return outerNode; + +} + +function compareX( a, b ) { + + return a.x - b.x; + +} + +// find a bridge between vertices that connects hole with an outer ring and link it +function eliminateHole( hole, outerNode ) { + + const bridge = findHoleBridge( hole, outerNode ); + if ( ! bridge ) { + + return outerNode; + + } + + const bridgeReverse = splitPolygon( bridge, hole ); + + // filter collinear points around the cuts + filterPoints( bridgeReverse, bridgeReverse.next ); + return filterPoints( bridge, bridge.next ); + +} + +// David Eberly's algorithm for finding a bridge between hole and outer polygon +function findHoleBridge( hole, outerNode ) { + + let p = outerNode, + qx = - Infinity, + m; + + const hx = hole.x, hy = hole.y; + + // find a segment intersected by a ray from the hole's leftmost point to the left; + // segment's endpoint with lesser x will be potential connection point + do { + + if ( hy <= p.y && hy >= p.next.y && p.next.y !== p.y ) { + + const x = p.x + ( hy - p.y ) * ( p.next.x - p.x ) / ( p.next.y - p.y ); + if ( x <= hx && x > qx ) { + + qx = x; + m = p.x < p.next.x ? p : p.next; + if ( x === hx ) return m; // hole touches outer segment; pick leftmost endpoint + + } + + } + + p = p.next; + + } while ( p !== outerNode ); + + if ( ! m ) return null; + + // look for points inside the triangle of hole point, segment intersection and endpoint; + // if there are no points found, we have a valid connection; + // otherwise choose the point of the minimum angle with the ray as connection point + + const stop = m, + mx = m.x, + my = m.y; + let tanMin = Infinity, tan; + + p = m; + + do { + + if ( hx >= p.x && p.x >= mx && hx !== p.x && + pointInTriangle( hy < my ? hx : qx, hy, mx, my, hy < my ? qx : hx, hy, p.x, p.y ) ) { + + tan = Math.abs( hy - p.y ) / ( hx - p.x ); // tangential + + if ( locallyInside( p, hole ) && ( tan < tanMin || ( tan === tanMin && ( p.x > m.x || ( p.x === m.x && sectorContainsSector( m, p ) ) ) ) ) ) { + + m = p; + tanMin = tan; + + } + + } + + p = p.next; + + } while ( p !== stop ); + + return m; + +} + +// whether sector in vertex m contains sector in vertex p in the same coordinates +function sectorContainsSector( m, p ) { + + return area( m.prev, m, p.prev ) < 0 && area( p.next, m, m.next ) < 0; + +} + +// interlink polygon nodes in z-order +function indexCurve( start, minX, minY, invSize ) { + + let p = start; + do { + + if ( p.z === 0 ) p.z = zOrder( p.x, p.y, minX, minY, invSize ); + p.prevZ = p.prev; + p.nextZ = p.next; + p = p.next; + + } while ( p !== start ); + + p.prevZ.nextZ = null; + p.prevZ = null; + + sortLinked( p ); + +} + +// Simon Tatham's linked list merge sort algorithm +// http://www.chiark.greenend.org.uk/~sgtatham/algorithms/listsort.html +function sortLinked( list ) { + + let i, p, q, e, tail, numMerges, pSize, qSize, + inSize = 1; + + do { + + p = list; + list = null; + tail = null; + numMerges = 0; + + while ( p ) { + + numMerges ++; + q = p; + pSize = 0; + for ( i = 0; i < inSize; i ++ ) { + + pSize ++; + q = q.nextZ; + if ( ! q ) break; + + } + + qSize = inSize; + + while ( pSize > 0 || ( qSize > 0 && q ) ) { + + if ( pSize !== 0 && ( qSize === 0 || ! q || p.z <= q.z ) ) { + + e = p; + p = p.nextZ; + pSize --; + + } else { + + e = q; + q = q.nextZ; + qSize --; + + } + + if ( tail ) tail.nextZ = e; + else list = e; + + e.prevZ = tail; + tail = e; + + } + + p = q; + + } + + tail.nextZ = null; + inSize *= 2; + + } while ( numMerges > 1 ); + + return list; + +} + +// z-order of a point given coords and inverse of the longer side of data bbox +function zOrder( x, y, minX, minY, invSize ) { + + // coords are transformed into non-negative 15-bit integer range + x = ( x - minX ) * invSize | 0; + y = ( y - minY ) * invSize | 0; + + x = ( x | ( x << 8 ) ) & 0x00FF00FF; + x = ( x | ( x << 4 ) ) & 0x0F0F0F0F; + x = ( x | ( x << 2 ) ) & 0x33333333; + x = ( x | ( x << 1 ) ) & 0x55555555; + + y = ( y | ( y << 8 ) ) & 0x00FF00FF; + y = ( y | ( y << 4 ) ) & 0x0F0F0F0F; + y = ( y | ( y << 2 ) ) & 0x33333333; + y = ( y | ( y << 1 ) ) & 0x55555555; + + return x | ( y << 1 ); + +} + +// find the leftmost node of a polygon ring +function getLeftmost( start ) { + + let p = start, + leftmost = start; + do { + + if ( p.x < leftmost.x || ( p.x === leftmost.x && p.y < leftmost.y ) ) leftmost = p; + p = p.next; + + } while ( p !== start ); + + return leftmost; + +} + +// check if a point lies within a convex triangle +function pointInTriangle( ax, ay, bx, by, cx, cy, px, py ) { + + return ( cx - px ) * ( ay - py ) >= ( ax - px ) * ( cy - py ) && + ( ax - px ) * ( by - py ) >= ( bx - px ) * ( ay - py ) && + ( bx - px ) * ( cy - py ) >= ( cx - px ) * ( by - py ); + +} + +// check if a diagonal between two polygon nodes is valid (lies in polygon interior) +function isValidDiagonal( a, b ) { + + return a.next.i !== b.i && a.prev.i !== b.i && ! intersectsPolygon( a, b ) && // doesn't intersect other edges + ( locallyInside( a, b ) && locallyInside( b, a ) && middleInside( a, b ) && // locally visible + ( area( a.prev, a, b.prev ) || area( a, b.prev, b ) ) || // does not create opposite-facing sectors + equals( a, b ) && area( a.prev, a, a.next ) > 0 && area( b.prev, b, b.next ) > 0 ); // special zero-length case + +} + +// signed area of a triangle +function area( p, q, r ) { + + return ( q.y - p.y ) * ( r.x - q.x ) - ( q.x - p.x ) * ( r.y - q.y ); + +} + +// check if two points are equal +function equals( p1, p2 ) { + + return p1.x === p2.x && p1.y === p2.y; + +} + +// check if two segments intersect +function intersects( p1, q1, p2, q2 ) { + + const o1 = sign( area( p1, q1, p2 ) ); + const o2 = sign( area( p1, q1, q2 ) ); + const o3 = sign( area( p2, q2, p1 ) ); + const o4 = sign( area( p2, q2, q1 ) ); + + if ( o1 !== o2 && o3 !== o4 ) return true; // general case + + if ( o1 === 0 && onSegment( p1, p2, q1 ) ) return true; // p1, q1 and p2 are collinear and p2 lies on p1q1 + if ( o2 === 0 && onSegment( p1, q2, q1 ) ) return true; // p1, q1 and q2 are collinear and q2 lies on p1q1 + if ( o3 === 0 && onSegment( p2, p1, q2 ) ) return true; // p2, q2 and p1 are collinear and p1 lies on p2q2 + if ( o4 === 0 && onSegment( p2, q1, q2 ) ) return true; // p2, q2 and q1 are collinear and q1 lies on p2q2 + + return false; + +} + +// for collinear points p, q, r, check if point q lies on segment pr +function onSegment( p, q, r ) { + + return q.x <= Math.max( p.x, r.x ) && q.x >= Math.min( p.x, r.x ) && q.y <= Math.max( p.y, r.y ) && q.y >= Math.min( p.y, r.y ); + +} + +function sign( num ) { + + return num > 0 ? 1 : num < 0 ? -1 : 0; + +} + +// check if a polygon diagonal intersects any polygon segments +function intersectsPolygon( a, b ) { + + let p = a; + do { + + if ( p.i !== a.i && p.next.i !== a.i && p.i !== b.i && p.next.i !== b.i && + intersects( p, p.next, a, b ) ) return true; + p = p.next; + + } while ( p !== a ); + + return false; + +} + +// check if a polygon diagonal is locally inside the polygon +function locallyInside( a, b ) { + + return area( a.prev, a, a.next ) < 0 ? + area( a, b, a.next ) >= 0 && area( a, a.prev, b ) >= 0 : + area( a, b, a.prev ) < 0 || area( a, a.next, b ) < 0; + +} + +// check if the middle point of a polygon diagonal is inside the polygon +function middleInside( a, b ) { + + let p = a, + inside = false; + const px = ( a.x + b.x ) / 2, + py = ( a.y + b.y ) / 2; + do { + + if ( ( ( p.y > py ) !== ( p.next.y > py ) ) && p.next.y !== p.y && + ( px < ( p.next.x - p.x ) * ( py - p.y ) / ( p.next.y - p.y ) + p.x ) ) + inside = ! inside; + p = p.next; + + } while ( p !== a ); + + return inside; + +} + +// link two polygon vertices with a bridge; if the vertices belong to the same ring, it splits polygon into two; +// if one belongs to the outer ring and another to a hole, it merges it into a single ring +function splitPolygon( a, b ) { + + const a2 = new Node$2( a.i, a.x, a.y ), + b2 = new Node$2( b.i, b.x, b.y ), + an = a.next, + bp = b.prev; + + a.next = b; + b.prev = a; + + a2.next = an; + an.prev = a2; + + b2.next = a2; + a2.prev = b2; + + bp.next = b2; + b2.prev = bp; + + return b2; + +} + +// create a node and optionally link it with previous one (in a circular doubly linked list) +function insertNode( i, x, y, last ) { + + const p = new Node$2( i, x, y ); + + if ( ! last ) { + + p.prev = p; + p.next = p; + + } else { + + p.next = last.next; + p.prev = last; + last.next.prev = p; + last.next = p; + + } + + return p; + +} + +function removeNode( p ) { + + p.next.prev = p.prev; + p.prev.next = p.next; + + if ( p.prevZ ) p.prevZ.nextZ = p.nextZ; + if ( p.nextZ ) p.nextZ.prevZ = p.prevZ; + +} + +function Node$2( i, x, y ) { + + // vertex index in coordinates array + this.i = i; + + // vertex coordinates + this.x = x; + this.y = y; + + // previous and next vertex nodes in a polygon ring + this.prev = null; + this.next = null; + + // z-order curve value + this.z = 0; + + // previous and next nodes in z-order + this.prevZ = null; + this.nextZ = null; + + // indicates whether this is a steiner point + this.steiner = false; + +} + +function signedArea( data, start, end, dim ) { + + let sum = 0; + for ( let i = start, j = end - dim; i < end; i += dim ) { + + sum += ( data[ j ] - data[ i ] ) * ( data[ i + 1 ] + data[ j + 1 ] ); + j = i; + + } + + return sum; + +} + +/** + * A class containing utility functions for shapes. + * + * @hideconstructor + */ +class ShapeUtils { + + /** + * Calculate area of a ( 2D ) contour polygon. + * + * @param {Array} contour - An array of 2D points. + * @return {number} The area. + */ + static area( contour ) { + + const n = contour.length; + let a = 0.0; + + for ( let p = n - 1, q = 0; q < n; p = q ++ ) { + + a += contour[ p ].x * contour[ q ].y - contour[ q ].x * contour[ p ].y; + + } + + return a * 0.5; + + } + + /** + * Returns `true` if the given contour uses a clockwise winding order. + * + * @param {Array} pts - An array of 2D points defining a polygon. + * @return {boolean} Whether the given contour uses a clockwise winding order or not. + */ + static isClockWise( pts ) { + + return ShapeUtils.area( pts ) < 0; + + } + + /** + * Triangulates the given shape definition. + * + * @param {Array} contour - An array of 2D points defining the contour. + * @param {Array>} holes - An array that holds arrays of 2D points defining the holes. + * @return {Array>} An array that holds for each face definition an array with three indices. + */ + static triangulateShape( contour, holes ) { + + const vertices = []; // flat array of vertices like [ x0,y0, x1,y1, x2,y2, ... ] + const holeIndices = []; // array of hole indices + const faces = []; // final array of vertex indices like [ [ a,b,d ], [ b,c,d ] ] + + removeDupEndPts( contour ); + addContour( vertices, contour ); + + // + + let holeIndex = contour.length; + + holes.forEach( removeDupEndPts ); + + for ( let i = 0; i < holes.length; i ++ ) { + + holeIndices.push( holeIndex ); + holeIndex += holes[ i ].length; + addContour( vertices, holes[ i ] ); + + } + + // + + const triangles = Earcut.triangulate( vertices, holeIndices ); + + // + + for ( let i = 0; i < triangles.length; i += 3 ) { + + faces.push( triangles.slice( i, i + 3 ) ); + + } + + return faces; + + } + +} + +function removeDupEndPts( points ) { + + const l = points.length; + + if ( l > 2 && points[ l - 1 ].equals( points[ 0 ] ) ) { + + points.pop(); + + } + +} + +function addContour( vertices, contour ) { + + for ( let i = 0; i < contour.length; i ++ ) { + + vertices.push( contour[ i ].x ); + vertices.push( contour[ i ].y ); + + } + +} + +/** + * A geometry class for representing a plane. + * + * ```js + * const geometry = new THREE.PlaneGeometry( 1, 1 ); + * const material = new THREE.MeshBasicMaterial( { color: 0xffff00, side: THREE.DoubleSide } ); + * const plane = new THREE.Mesh( geometry, material ); + * scene.add( plane ); + * ``` + * + * @augments BufferGeometry + */ +class PlaneGeometry extends BufferGeometry { + + /** + * Constructs a new plane geometry. + * + * @param {number} [width=1] - The width along the X axis. + * @param {number} [height=1] - The height along the Y axis + * @param {number} [widthSegments=1] - The number of segments along the X axis. + * @param {number} [heightSegments=1] - The number of segments along the Y axis. + */ + constructor( width = 1, height = 1, widthSegments = 1, heightSegments = 1 ) { + + super(); + + this.type = 'PlaneGeometry'; + + /** + * Holds the constructor parameters that have been + * used to generate the geometry. Any modification + * after instantiation does not change the geometry. + * + * @type {Object} + */ + this.parameters = { + width: width, + height: height, + widthSegments: widthSegments, + heightSegments: heightSegments + }; + + const width_half = width / 2; + const height_half = height / 2; + + const gridX = Math.floor( widthSegments ); + const gridY = Math.floor( heightSegments ); + + const gridX1 = gridX + 1; + const gridY1 = gridY + 1; + + const segment_width = width / gridX; + const segment_height = height / gridY; + + // + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + for ( let iy = 0; iy < gridY1; iy ++ ) { + + const y = iy * segment_height - height_half; + + for ( let ix = 0; ix < gridX1; ix ++ ) { + + const x = ix * segment_width - width_half; + + vertices.push( x, - y, 0 ); + + normals.push( 0, 0, 1 ); + + uvs.push( ix / gridX ); + uvs.push( 1 - ( iy / gridY ) ); + + } + + } + + for ( let iy = 0; iy < gridY; iy ++ ) { + + for ( let ix = 0; ix < gridX; ix ++ ) { + + const a = ix + gridX1 * iy; + const b = ix + gridX1 * ( iy + 1 ); + const c = ( ix + 1 ) + gridX1 * ( iy + 1 ); + const d = ( ix + 1 ) + gridX1 * iy; + + indices.push( a, b, d ); + indices.push( b, c, d ); + + } + + } + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + /** + * Factory method for creating an instance of this class from the given + * JSON object. + * + * @param {Object} data - A JSON object representing the serialized geometry. + * @return {PlaneGeometry} A new instance. + */ + static fromJSON( data ) { + + return new PlaneGeometry( data.width, data.height, data.widthSegments, data.heightSegments ); + + } + +} + +/** + * Creates an one-sided polygonal geometry from one or more path shapes. + * + * ```js + * const arcShape = new THREE.Shape() + * .moveTo( 5, 1 ) + * .absarc( 1, 1, 4, 0, Math.PI * 2, false ); + * + * const geometry = new THREE.ShapeGeometry( arcShape ); + * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00, side: THREE.DoubleSide } ); + * const mesh = new THREE.Mesh( geometry, material ) ; + * scene.add( mesh ); + * ``` + * + * @augments BufferGeometry + */ +class ShapeGeometry extends BufferGeometry { + + /** + * Constructs a new shape geometry. + * + * @param {Shape|Array} [shapes] - A shape or an array of shapes. + * @param {number} [curveSegments=12] - Number of segments per shape. + */ + constructor( shapes = new Shape( [ new Vector2( 0, 0.5 ), new Vector2( -0.5, -0.5 ), new Vector2( 0.5, -0.5 ) ] ), curveSegments = 12 ) { + + super(); + + this.type = 'ShapeGeometry'; + + /** + * Holds the constructor parameters that have been + * used to generate the geometry. Any modification + * after instantiation does not change the geometry. + * + * @type {Object} + */ + this.parameters = { + shapes: shapes, + curveSegments: curveSegments + }; + + // buffers + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + // helper variables + + let groupStart = 0; + let groupCount = 0; + + // allow single and array values for "shapes" parameter + + if ( Array.isArray( shapes ) === false ) { + + addShape( shapes ); + + } else { + + for ( let i = 0; i < shapes.length; i ++ ) { + + addShape( shapes[ i ] ); + + this.addGroup( groupStart, groupCount, i ); // enables MultiMaterial support + + groupStart += groupCount; + groupCount = 0; + + } + + } + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + + // helper functions + + function addShape( shape ) { + + const indexOffset = vertices.length / 3; + const points = shape.extractPoints( curveSegments ); + + let shapeVertices = points.shape; + const shapeHoles = points.holes; + + // check direction of vertices + + if ( ShapeUtils.isClockWise( shapeVertices ) === false ) { + + shapeVertices = shapeVertices.reverse(); + + } + + for ( let i = 0, l = shapeHoles.length; i < l; i ++ ) { + + const shapeHole = shapeHoles[ i ]; + + if ( ShapeUtils.isClockWise( shapeHole ) === true ) { + + shapeHoles[ i ] = shapeHole.reverse(); + + } + + } + + const faces = ShapeUtils.triangulateShape( shapeVertices, shapeHoles ); + + // join vertices of inner and outer paths to a single array + + for ( let i = 0, l = shapeHoles.length; i < l; i ++ ) { + + const shapeHole = shapeHoles[ i ]; + shapeVertices = shapeVertices.concat( shapeHole ); + + } + + // vertices, normals, uvs + + for ( let i = 0, l = shapeVertices.length; i < l; i ++ ) { + + const vertex = shapeVertices[ i ]; + + vertices.push( vertex.x, vertex.y, 0 ); + normals.push( 0, 0, 1 ); + uvs.push( vertex.x, vertex.y ); // world uvs + + } + + // indices + + for ( let i = 0, l = faces.length; i < l; i ++ ) { + + const face = faces[ i ]; + + const a = face[ 0 ] + indexOffset; + const b = face[ 1 ] + indexOffset; + const c = face[ 2 ] + indexOffset; + + indices.push( a, b, c ); + groupCount += 3; + + } + + } + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + const shapes = this.parameters.shapes; + + return toJSON( shapes, data ); + + } + + /** + * Factory method for creating an instance of this class from the given + * JSON object. + * + * @param {Object} data - A JSON object representing the serialized geometry. + * @param {Array} shapes - An array of shapes. + * @return {ShapeGeometry} A new instance. + */ + static fromJSON( data, shapes ) { + + const geometryShapes = []; + + for ( let j = 0, jl = data.shapes.length; j < jl; j ++ ) { + + const shape = shapes[ data.shapes[ j ] ]; + + geometryShapes.push( shape ); + + } + + return new ShapeGeometry( geometryShapes, data.curveSegments ); + + } + +} + +function toJSON( shapes, data ) { + + data.shapes = []; + + if ( Array.isArray( shapes ) ) { + + for ( let i = 0, l = shapes.length; i < l; i ++ ) { + + const shape = shapes[ i ]; + + data.shapes.push( shape.uuid ); + + } + + } else { + + data.shapes.push( shapes.uuid ); + + } + + return data; + +} + +/** + * A class for generating a sphere geometry. + * + * ```js + * const geometry = new THREE.SphereGeometry( 15, 32, 16 ); + * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } ); + * const sphere = new THREE.Mesh( geometry, material ); + * scene.add( sphere ); + * ``` + * + * @augments BufferGeometry + */ +class SphereGeometry extends BufferGeometry { + + /** + * Constructs a new sphere geometry. + * + * @param {number} [radius=1] - The sphere radius. + * @param {number} [widthSegments=32] - The number of horizontal segments. Minimum value is `3`. + * @param {number} [heightSegments=16] - The number of vertical segments. Minimum value is `2`. + * @param {number} [phiStart=0] - The horizontal starting angle in radians. + * @param {number} [phiLength=Math.PI*2] - The horizontal sweep angle size. + * @param {number} [thetaStart=0] - The vertical starting angle in radians. + * @param {number} [thetaLength=Math.PI] - The vertical sweep angle size. + */ + constructor( radius = 1, widthSegments = 32, heightSegments = 16, phiStart = 0, phiLength = Math.PI * 2, thetaStart = 0, thetaLength = Math.PI ) { + + super(); + + this.type = 'SphereGeometry'; + + /** + * Holds the constructor parameters that have been + * used to generate the geometry. Any modification + * after instantiation does not change the geometry. + * + * @type {Object} + */ + this.parameters = { + radius: radius, + widthSegments: widthSegments, + heightSegments: heightSegments, + phiStart: phiStart, + phiLength: phiLength, + thetaStart: thetaStart, + thetaLength: thetaLength + }; + + widthSegments = Math.max( 3, Math.floor( widthSegments ) ); + heightSegments = Math.max( 2, Math.floor( heightSegments ) ); + + const thetaEnd = Math.min( thetaStart + thetaLength, Math.PI ); + + let index = 0; + const grid = []; + + const vertex = new Vector3(); + const normal = new Vector3(); + + // buffers + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + // generate vertices, normals and uvs + + for ( let iy = 0; iy <= heightSegments; iy ++ ) { + + const verticesRow = []; + + const v = iy / heightSegments; + + // special case for the poles + + let uOffset = 0; + + if ( iy === 0 && thetaStart === 0 ) { + + uOffset = 0.5 / widthSegments; + + } else if ( iy === heightSegments && thetaEnd === Math.PI ) { + + uOffset = -0.5 / widthSegments; + + } + + for ( let ix = 0; ix <= widthSegments; ix ++ ) { + + const u = ix / widthSegments; + + // vertex + + vertex.x = - radius * Math.cos( phiStart + u * phiLength ) * Math.sin( thetaStart + v * thetaLength ); + vertex.y = radius * Math.cos( thetaStart + v * thetaLength ); + vertex.z = radius * Math.sin( phiStart + u * phiLength ) * Math.sin( thetaStart + v * thetaLength ); + + vertices.push( vertex.x, vertex.y, vertex.z ); + + // normal + + normal.copy( vertex ).normalize(); + normals.push( normal.x, normal.y, normal.z ); + + // uv + + uvs.push( u + uOffset, 1 - v ); + + verticesRow.push( index ++ ); + + } + + grid.push( verticesRow ); + + } + + // indices + + for ( let iy = 0; iy < heightSegments; iy ++ ) { + + for ( let ix = 0; ix < widthSegments; ix ++ ) { + + const a = grid[ iy ][ ix + 1 ]; + const b = grid[ iy ][ ix ]; + const c = grid[ iy + 1 ][ ix ]; + const d = grid[ iy + 1 ][ ix + 1 ]; + + if ( iy !== 0 || thetaStart > 0 ) indices.push( a, b, d ); + if ( iy !== heightSegments - 1 || thetaEnd < Math.PI ) indices.push( b, c, d ); + + } + + } + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + /** + * Factory method for creating an instance of this class from the given + * JSON object. + * + * @param {Object} data - A JSON object representing the serialized geometry. + * @return {SphereGeometry} A new instance. + */ + static fromJSON( data ) { + + return new SphereGeometry( data.radius, data.widthSegments, data.heightSegments, data.phiStart, data.phiLength, data.thetaStart, data.thetaLength ); + + } + +} + +class MeshStandardMaterial extends Material$1 { + + constructor( parameters ) { + + super(); + + this.isMeshStandardMaterial = true; + + this.type = 'MeshStandardMaterial'; + + this.defines = { 'STANDARD': '' }; + + this.color = new Color( 0xffffff ); // diffuse + this.roughness = 1.0; + this.metalness = 0.0; + + this.map = null; + + this.lightMap = null; + this.lightMapIntensity = 1.0; + + this.aoMap = null; + this.aoMapIntensity = 1.0; + + this.emissive = new Color( 0x000000 ); + this.emissiveIntensity = 1.0; + this.emissiveMap = null; + + this.bumpMap = null; + this.bumpScale = 1; + + this.normalMap = null; + this.normalMapType = TangentSpaceNormalMap; + this.normalScale = new Vector2( 1, 1 ); + + this.displacementMap = null; + this.displacementScale = 1; + this.displacementBias = 0; + + this.roughnessMap = null; + + this.metalnessMap = null; + + this.alphaMap = null; + + this.envMap = null; + this.envMapRotation = new Euler(); + this.envMapIntensity = 1.0; + + this.wireframe = false; + this.wireframeLinewidth = 1; + this.wireframeLinecap = 'round'; + this.wireframeLinejoin = 'round'; + + this.flatShading = false; + + this.fog = true; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.defines = { 'STANDARD': '' }; + + this.color.copy( source.color ); + this.roughness = source.roughness; + this.metalness = source.metalness; + + this.map = source.map; + + this.lightMap = source.lightMap; + this.lightMapIntensity = source.lightMapIntensity; + + this.aoMap = source.aoMap; + this.aoMapIntensity = source.aoMapIntensity; + + this.emissive.copy( source.emissive ); + this.emissiveMap = source.emissiveMap; + this.emissiveIntensity = source.emissiveIntensity; + + this.bumpMap = source.bumpMap; + this.bumpScale = source.bumpScale; + + this.normalMap = source.normalMap; + this.normalMapType = source.normalMapType; + this.normalScale.copy( source.normalScale ); + + this.displacementMap = source.displacementMap; + this.displacementScale = source.displacementScale; + this.displacementBias = source.displacementBias; + + this.roughnessMap = source.roughnessMap; + + this.metalnessMap = source.metalnessMap; + + this.alphaMap = source.alphaMap; + + this.envMap = source.envMap; + this.envMapRotation.copy( source.envMapRotation ); + this.envMapIntensity = source.envMapIntensity; + + this.wireframe = source.wireframe; + this.wireframeLinewidth = source.wireframeLinewidth; + this.wireframeLinecap = source.wireframeLinecap; + this.wireframeLinejoin = source.wireframeLinejoin; + + this.flatShading = source.flatShading; + + this.fog = source.fog; + + return this; + + } + +} + +class MeshPhysicalMaterial extends MeshStandardMaterial { + + constructor( parameters ) { + + super(); + + this.isMeshPhysicalMaterial = true; + + this.defines = { + + 'STANDARD': '', + 'PHYSICAL': '' + + }; + + this.type = 'MeshPhysicalMaterial'; + + this.anisotropyRotation = 0; + this.anisotropyMap = null; + + this.clearcoatMap = null; + this.clearcoatRoughness = 0.0; + this.clearcoatRoughnessMap = null; + this.clearcoatNormalScale = new Vector2( 1, 1 ); + this.clearcoatNormalMap = null; + + this.ior = 1.5; + + Object.defineProperty( this, 'reflectivity', { + get: function () { + + return ( clamp$1( 2.5 * ( this.ior - 1 ) / ( this.ior + 1 ), 0, 1 ) ); + + }, + set: function ( reflectivity ) { + + this.ior = ( 1 + 0.4 * reflectivity ) / ( 1 - 0.4 * reflectivity ); + + } + } ); + + this.iridescenceMap = null; + this.iridescenceIOR = 1.3; + this.iridescenceThicknessRange = [ 100, 400 ]; + this.iridescenceThicknessMap = null; + + this.sheenColor = new Color( 0x000000 ); + this.sheenColorMap = null; + this.sheenRoughness = 1.0; + this.sheenRoughnessMap = null; + + this.transmissionMap = null; + + this.thickness = 0; + this.thicknessMap = null; + this.attenuationDistance = Infinity; + this.attenuationColor = new Color( 1, 1, 1 ); + + this.specularIntensity = 1.0; + this.specularIntensityMap = null; + this.specularColor = new Color( 1, 1, 1 ); + this.specularColorMap = null; + + this._anisotropy = 0; + this._clearcoat = 0; + this._dispersion = 0; + this._iridescence = 0; + this._sheen = 0.0; + this._transmission = 0; + + this.setValues( parameters ); + + } + + get anisotropy() { + + return this._anisotropy; + + } + + set anisotropy( value ) { + + if ( this._anisotropy > 0 !== value > 0 ) { + + this.version ++; + + } + + this._anisotropy = value; + + } + + get clearcoat() { + + return this._clearcoat; + + } + + set clearcoat( value ) { + + if ( this._clearcoat > 0 !== value > 0 ) { + + this.version ++; + + } + + this._clearcoat = value; + + } + + get iridescence() { + + return this._iridescence; + + } + + set iridescence( value ) { + + if ( this._iridescence > 0 !== value > 0 ) { + + this.version ++; + + } + + this._iridescence = value; + + } + + get dispersion() { + + return this._dispersion; + + } + + set dispersion( value ) { + + if ( this._dispersion > 0 !== value > 0 ) { + + this.version ++; + + } + + this._dispersion = value; + + } + + get sheen() { + + return this._sheen; + + } + + set sheen( value ) { + + if ( this._sheen > 0 !== value > 0 ) { + + this.version ++; + + } + + this._sheen = value; + + } + + get transmission() { + + return this._transmission; + + } + + set transmission( value ) { + + if ( this._transmission > 0 !== value > 0 ) { + + this.version ++; + + } + + this._transmission = value; + + } + + copy( source ) { + + super.copy( source ); + + this.defines = { + + 'STANDARD': '', + 'PHYSICAL': '' + + }; + + this.anisotropy = source.anisotropy; + this.anisotropyRotation = source.anisotropyRotation; + this.anisotropyMap = source.anisotropyMap; + + this.clearcoat = source.clearcoat; + this.clearcoatMap = source.clearcoatMap; + this.clearcoatRoughness = source.clearcoatRoughness; + this.clearcoatRoughnessMap = source.clearcoatRoughnessMap; + this.clearcoatNormalMap = source.clearcoatNormalMap; + this.clearcoatNormalScale.copy( source.clearcoatNormalScale ); + + this.dispersion = source.dispersion; + this.ior = source.ior; + + this.iridescence = source.iridescence; + this.iridescenceMap = source.iridescenceMap; + this.iridescenceIOR = source.iridescenceIOR; + this.iridescenceThicknessRange = [ ...source.iridescenceThicknessRange ]; + this.iridescenceThicknessMap = source.iridescenceThicknessMap; + + this.sheen = source.sheen; + this.sheenColor.copy( source.sheenColor ); + this.sheenColorMap = source.sheenColorMap; + this.sheenRoughness = source.sheenRoughness; + this.sheenRoughnessMap = source.sheenRoughnessMap; + + this.transmission = source.transmission; + this.transmissionMap = source.transmissionMap; + + this.thickness = source.thickness; + this.thicknessMap = source.thicknessMap; + this.attenuationDistance = source.attenuationDistance; + this.attenuationColor.copy( source.attenuationColor ); + + this.specularIntensity = source.specularIntensity; + this.specularIntensityMap = source.specularIntensityMap; + this.specularColor.copy( source.specularColor ); + this.specularColorMap = source.specularColorMap; + + return this; + + } + +} + +class MeshDepthMaterial extends Material$1 { + + constructor( parameters ) { + + super(); + + this.isMeshDepthMaterial = true; + + this.type = 'MeshDepthMaterial'; + + this.depthPacking = BasicDepthPacking; + + this.map = null; + + this.alphaMap = null; + + this.displacementMap = null; + this.displacementScale = 1; + this.displacementBias = 0; + + this.wireframe = false; + this.wireframeLinewidth = 1; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.depthPacking = source.depthPacking; + + this.map = source.map; + + this.alphaMap = source.alphaMap; + + this.displacementMap = source.displacementMap; + this.displacementScale = source.displacementScale; + this.displacementBias = source.displacementBias; + + this.wireframe = source.wireframe; + this.wireframeLinewidth = source.wireframeLinewidth; + + return this; + + } + +} + +class MeshDistanceMaterial extends Material$1 { + + constructor( parameters ) { + + super(); + + this.isMeshDistanceMaterial = true; + + this.type = 'MeshDistanceMaterial'; + + this.map = null; + + this.alphaMap = null; + + this.displacementMap = null; + this.displacementScale = 1; + this.displacementBias = 0; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.map = source.map; + + this.alphaMap = source.alphaMap; + + this.displacementMap = source.displacementMap; + this.displacementScale = source.displacementScale; + this.displacementBias = source.displacementBias; + + return this; + + } + +} + +// converts an array to a specific type +function convertArray( array, type, forceClone ) { + + if ( ! array || // let 'undefined' and 'null' pass + ! forceClone && array.constructor === type ) return array; + + if ( typeof type.BYTES_PER_ELEMENT === 'number' ) { + + return new type( array ); // create typed array + + } + + return Array.prototype.slice.call( array ); // create Array + +} + +function isTypedArray( object ) { + + return ArrayBuffer.isView( object ) && + ! ( object instanceof DataView ); + +} + +// returns an array by which times and values can be sorted +function getKeyframeOrder( times ) { + + function compareTime( i, j ) { + + return times[ i ] - times[ j ]; + + } + + const n = times.length; + const result = new Array( n ); + for ( let i = 0; i !== n; ++ i ) result[ i ] = i; + + result.sort( compareTime ); + + return result; + +} + +// uses the array previously returned by 'getKeyframeOrder' to sort data +function sortedArray( values, stride, order ) { + + const nValues = values.length; + const result = new values.constructor( nValues ); + + for ( let i = 0, dstOffset = 0; dstOffset !== nValues; ++ i ) { + + const srcOffset = order[ i ] * stride; + + for ( let j = 0; j !== stride; ++ j ) { + + result[ dstOffset ++ ] = values[ srcOffset + j ]; + + } + + } + + return result; + +} + +// function for parsing AOS keyframe formats +function flattenJSON( jsonKeys, times, values, valuePropertyName ) { + + let i = 1, key = jsonKeys[ 0 ]; + + while ( key !== undefined && key[ valuePropertyName ] === undefined ) { + + key = jsonKeys[ i ++ ]; + + } + + if ( key === undefined ) return; // no data + + let value = key[ valuePropertyName ]; + if ( value === undefined ) return; // no data + + if ( Array.isArray( value ) ) { + + do { + + value = key[ valuePropertyName ]; + + if ( value !== undefined ) { + + times.push( key.time ); + values.push( ...value ); // push all elements + + } + + key = jsonKeys[ i ++ ]; + + } while ( key !== undefined ); + + } else if ( value.toArray !== undefined ) { + + // ...assume THREE.Math-ish + + do { + + value = key[ valuePropertyName ]; + + if ( value !== undefined ) { + + times.push( key.time ); + value.toArray( values, values.length ); + + } + + key = jsonKeys[ i ++ ]; + + } while ( key !== undefined ); + + } else { + + // otherwise push as-is + + do { + + value = key[ valuePropertyName ]; + + if ( value !== undefined ) { + + times.push( key.time ); + values.push( value ); + + } + + key = jsonKeys[ i ++ ]; + + } while ( key !== undefined ); + + } + +} + +/** + * Abstract base class of interpolants over parametric samples. + * + * The parameter domain is one dimensional, typically the time or a path + * along a curve defined by the data. + * + * The sample values can have any dimensionality and derived classes may + * apply special interpretations to the data. + * + * This class provides the interval seek in a Template Method, deferring + * the actual interpolation to derived classes. + * + * Time complexity is O(1) for linear access crossing at most two points + * and O(log N) for random access, where N is the number of positions. + * + * References: {@link http://www.oodesign.com/template-method-pattern.html} + * + * @abstract + */ +class Interpolant { + + /** + * Constructs a new interpolant. + * + * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors. + * @param {TypedArray} sampleValues - The sample values. + * @param {number} sampleSize - The sample size + * @param {TypedArray} [resultBuffer] - The result buffer. + */ + constructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) { + + /** + * The parameter positions. + * + * @type {TypedArray} + */ + this.parameterPositions = parameterPositions; + + /** + * A cache index. + * + * @private + * @type {number} + * @default 0 + */ + this._cachedIndex = 0; + + /** + * The result buffer. + * + * @type {TypedArray} + */ + this.resultBuffer = resultBuffer !== undefined ? resultBuffer : new sampleValues.constructor( sampleSize ); + + /** + * The sample values. + * + * @type {TypedArray} + */ + this.sampleValues = sampleValues; + + /** + * The value size. + * + * @type {TypedArray} + */ + this.valueSize = sampleSize; + + /** + * The interpolation settings. + * + * @type {?Object} + * @default null + */ + this.settings = null; + + /** + * The default settings object. + * + * @type {Object} + */ + this.DefaultSettings_ = {}; + + } + + /** + * Evaluate the interpolant at position `t`. + * + * @param {number} t - The interpolation factor. + * @return {TypedArray} The result buffer. + */ + evaluate( t ) { + + const pp = this.parameterPositions; + let i1 = this._cachedIndex, + t1 = pp[ i1 ], + t0 = pp[ i1 - 1 ]; + + validate_interval: { + + seek: { + + let right; + + linear_scan: { + + //- See http://jsperf.com/comparison-to-undefined/3 + //- slower code: + //- + //- if ( t >= t1 || t1 === undefined ) { + forward_scan: if ( ! ( t < t1 ) ) { + + for ( let giveUpAt = i1 + 2; ; ) { + + if ( t1 === undefined ) { + + if ( t < t0 ) break forward_scan; + + // after end + + i1 = pp.length; + this._cachedIndex = i1; + return this.copySampleValue_( i1 - 1 ); + + } + + if ( i1 === giveUpAt ) break; // this loop + + t0 = t1; + t1 = pp[ ++ i1 ]; + + if ( t < t1 ) { + + // we have arrived at the sought interval + break seek; + + } + + } + + // prepare binary search on the right side of the index + right = pp.length; + break linear_scan; + + } + + //- slower code: + //- if ( t < t0 || t0 === undefined ) { + if ( ! ( t >= t0 ) ) { + + // looping? + + const t1global = pp[ 1 ]; + + if ( t < t1global ) { + + i1 = 2; // + 1, using the scan for the details + t0 = t1global; + + } + + // linear reverse scan + + for ( let giveUpAt = i1 - 2; ; ) { + + if ( t0 === undefined ) { + + // before start + + this._cachedIndex = 0; + return this.copySampleValue_( 0 ); + + } + + if ( i1 === giveUpAt ) break; // this loop + + t1 = t0; + t0 = pp[ -- i1 - 1 ]; + + if ( t >= t0 ) { + + // we have arrived at the sought interval + break seek; + + } + + } + + // prepare binary search on the left side of the index + right = i1; + i1 = 0; + break linear_scan; + + } + + // the interval is valid + + break validate_interval; + + } // linear scan + + // binary search + + while ( i1 < right ) { + + const mid = ( i1 + right ) >>> 1; + + if ( t < pp[ mid ] ) { + + right = mid; + + } else { + + i1 = mid + 1; + + } + + } + + t1 = pp[ i1 ]; + t0 = pp[ i1 - 1 ]; + + // check boundary cases, again + + if ( t0 === undefined ) { + + this._cachedIndex = 0; + return this.copySampleValue_( 0 ); + + } + + if ( t1 === undefined ) { + + i1 = pp.length; + this._cachedIndex = i1; + return this.copySampleValue_( i1 - 1 ); + + } + + } // seek + + this._cachedIndex = i1; + + this.intervalChanged_( i1, t0, t1 ); + + } // validate_interval + + return this.interpolate_( i1, t0, t, t1 ); + + } + + /** + * Returns the interpolation settings. + * + * @return {Object} The interpolation settings. + */ + getSettings_() { + + return this.settings || this.DefaultSettings_; + + } + + /** + * Copies a sample value to the result buffer. + * + * @param {number} index - An index into the sample value buffer. + * @return {TypedArray} The result buffer. + */ + copySampleValue_( index ) { + + // copies a sample value to the result buffer + + const result = this.resultBuffer, + values = this.sampleValues, + stride = this.valueSize, + offset = index * stride; + + for ( let i = 0; i !== stride; ++ i ) { + + result[ i ] = values[ offset + i ]; + + } + + return result; + + } + + /** + * Copies a sample value to the result buffer. + * + * @abstract + * @param {number} i1 - An index into the sample value buffer. + * @param {number} t0 - The previous interpolation factor. + * @param {number} t - The current interpolation factor. + * @param {number} t1 - The next interpolation factor. + * @return {TypedArray} The result buffer. + */ + interpolate_( /* i1, t0, t, t1 */ ) { + + throw new Error( 'call to abstract method' ); + // implementations shall return this.resultBuffer + + } + + /** + * Optional method that is executed when the interval has changed. + * + * @param {number} i1 - An index into the sample value buffer. + * @param {number} t0 - The previous interpolation factor. + * @param {number} t - The current interpolation factor. + */ + intervalChanged_( /* i1, t0, t1 */ ) { + + // empty + + } + +} + +/** + * Fast and simple cubic spline interpolant. + * + * It was derived from a Hermitian construction setting the first derivative + * at each sample position to the linear slope between neighboring positions + * over their parameter interval. + * + * @augments Interpolant + */ +class CubicInterpolant extends Interpolant { + + /** + * Constructs a new cubic interpolant. + * + * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors. + * @param {TypedArray} sampleValues - The sample values. + * @param {number} sampleSize - The sample size + * @param {TypedArray} [resultBuffer] - The result buffer. + */ + constructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) { + + super( parameterPositions, sampleValues, sampleSize, resultBuffer ); + + this._weightPrev = -0; + this._offsetPrev = -0; + this._weightNext = -0; + this._offsetNext = -0; + + this.DefaultSettings_ = { + + endingStart: ZeroCurvatureEnding, + endingEnd: ZeroCurvatureEnding + + }; + + } + + intervalChanged_( i1, t0, t1 ) { + + const pp = this.parameterPositions; + let iPrev = i1 - 2, + iNext = i1 + 1, + + tPrev = pp[ iPrev ], + tNext = pp[ iNext ]; + + if ( tPrev === undefined ) { + + switch ( this.getSettings_().endingStart ) { + + case ZeroSlopeEnding: + + // f'(t0) = 0 + iPrev = i1; + tPrev = 2 * t0 - t1; + + break; + + case WrapAroundEnding: + + // use the other end of the curve + iPrev = pp.length - 2; + tPrev = t0 + pp[ iPrev ] - pp[ iPrev + 1 ]; + + break; + + default: // ZeroCurvatureEnding + + // f''(t0) = 0 a.k.a. Natural Spline + iPrev = i1; + tPrev = t1; + + } + + } + + if ( tNext === undefined ) { + + switch ( this.getSettings_().endingEnd ) { + + case ZeroSlopeEnding: + + // f'(tN) = 0 + iNext = i1; + tNext = 2 * t1 - t0; + + break; + + case WrapAroundEnding: + + // use the other end of the curve + iNext = 1; + tNext = t1 + pp[ 1 ] - pp[ 0 ]; + + break; + + default: // ZeroCurvatureEnding + + // f''(tN) = 0, a.k.a. Natural Spline + iNext = i1 - 1; + tNext = t0; + + } + + } + + const halfDt = ( t1 - t0 ) * 0.5, + stride = this.valueSize; + + this._weightPrev = halfDt / ( t0 - tPrev ); + this._weightNext = halfDt / ( tNext - t1 ); + this._offsetPrev = iPrev * stride; + this._offsetNext = iNext * stride; + + } + + interpolate_( i1, t0, t, t1 ) { + + const result = this.resultBuffer, + values = this.sampleValues, + stride = this.valueSize, + + o1 = i1 * stride, o0 = o1 - stride, + oP = this._offsetPrev, oN = this._offsetNext, + wP = this._weightPrev, wN = this._weightNext, + + p = ( t - t0 ) / ( t1 - t0 ), + pp = p * p, + ppp = pp * p; + + // evaluate polynomials + + const sP = - wP * ppp + 2 * wP * pp - wP * p; + const s0 = ( 1 + wP ) * ppp + ( -1.5 - 2 * wP ) * pp + ( -0.5 + wP ) * p + 1; + const s1 = ( -1 - wN ) * ppp + ( 1.5 + wN ) * pp + 0.5 * p; + const sN = wN * ppp - wN * pp; + + // combine data linearly + + for ( let i = 0; i !== stride; ++ i ) { + + result[ i ] = + sP * values[ oP + i ] + + s0 * values[ o0 + i ] + + s1 * values[ o1 + i ] + + sN * values[ oN + i ]; + + } + + return result; + + } + +} + +/** + * A basic linear interpolant. + * + * @augments Interpolant + */ +class LinearInterpolant extends Interpolant { + + /** + * Constructs a new linear interpolant. + * + * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors. + * @param {TypedArray} sampleValues - The sample values. + * @param {number} sampleSize - The sample size + * @param {TypedArray} [resultBuffer] - The result buffer. + */ + constructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) { + + super( parameterPositions, sampleValues, sampleSize, resultBuffer ); + + } + + interpolate_( i1, t0, t, t1 ) { + + const result = this.resultBuffer, + values = this.sampleValues, + stride = this.valueSize, + + offset1 = i1 * stride, + offset0 = offset1 - stride, + + weight1 = ( t - t0 ) / ( t1 - t0 ), + weight0 = 1 - weight1; + + for ( let i = 0; i !== stride; ++ i ) { + + result[ i ] = + values[ offset0 + i ] * weight0 + + values[ offset1 + i ] * weight1; + + } + + return result; + + } + +} + +/** + * Interpolant that evaluates to the sample value at the position preceding + * the parameter. + * + * @augments Interpolant + */ +class DiscreteInterpolant extends Interpolant { + + /** + * Constructs a new discrete interpolant. + * + * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors. + * @param {TypedArray} sampleValues - The sample values. + * @param {number} sampleSize - The sample size + * @param {TypedArray} [resultBuffer] - The result buffer. + */ + constructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) { + + super( parameterPositions, sampleValues, sampleSize, resultBuffer ); + + } + + interpolate_( i1 /*, t0, t, t1 */ ) { + + return this.copySampleValue_( i1 - 1 ); + + } + +} + +class KeyframeTrack { + + constructor( name, times, values, interpolation ) { + + if ( name === undefined ) throw new Error( 'THREE.KeyframeTrack: track name is undefined' ); + if ( times === undefined || times.length === 0 ) throw new Error( 'THREE.KeyframeTrack: no keyframes in track named ' + name ); + + this.name = name; + + this.times = convertArray( times, this.TimeBufferType ); + this.values = convertArray( values, this.ValueBufferType ); + + this.setInterpolation( interpolation || this.DefaultInterpolation ); + + } + + // Serialization (in static context, because of constructor invocation + // and automatic invocation of .toJSON): + + static toJSON( track ) { + + const trackType = track.constructor; + + let json; + + // derived classes can define a static toJSON method + if ( trackType.toJSON !== this.toJSON ) { + + json = trackType.toJSON( track ); + + } else { + + // by default, we assume the data can be serialized as-is + json = { + + 'name': track.name, + 'times': convertArray( track.times, Array ), + 'values': convertArray( track.values, Array ) + + }; + + const interpolation = track.getInterpolation(); + + if ( interpolation !== track.DefaultInterpolation ) { + + json.interpolation = interpolation; + + } + + } + + json.type = track.ValueTypeName; // mandatory + + return json; + + } + + InterpolantFactoryMethodDiscrete( result ) { + + return new DiscreteInterpolant( this.times, this.values, this.getValueSize(), result ); + + } + + InterpolantFactoryMethodLinear( result ) { + + return new LinearInterpolant( this.times, this.values, this.getValueSize(), result ); + + } + + InterpolantFactoryMethodSmooth( result ) { + + return new CubicInterpolant( this.times, this.values, this.getValueSize(), result ); + + } + + setInterpolation( interpolation ) { + + let factoryMethod; + + switch ( interpolation ) { + + case InterpolateDiscrete: + + factoryMethod = this.InterpolantFactoryMethodDiscrete; + + break; + + case InterpolateLinear: + + factoryMethod = this.InterpolantFactoryMethodLinear; + + break; + + case InterpolateSmooth: + + factoryMethod = this.InterpolantFactoryMethodSmooth; + + break; + + } + + if ( factoryMethod === undefined ) { + + const message = 'unsupported interpolation for ' + + this.ValueTypeName + ' keyframe track named ' + this.name; + + if ( this.createInterpolant === undefined ) { + + // fall back to default, unless the default itself is messed up + if ( interpolation !== this.DefaultInterpolation ) { + + this.setInterpolation( this.DefaultInterpolation ); + + } else { + + throw new Error( message ); // fatal, in this case + + } + + } + + console.warn( 'THREE.KeyframeTrack:', message ); + return this; + + } + + this.createInterpolant = factoryMethod; + + return this; + + } + + getInterpolation() { + + switch ( this.createInterpolant ) { + + case this.InterpolantFactoryMethodDiscrete: + + return InterpolateDiscrete; + + case this.InterpolantFactoryMethodLinear: + + return InterpolateLinear; + + case this.InterpolantFactoryMethodSmooth: + + return InterpolateSmooth; + + } + + } + + getValueSize() { + + return this.values.length / this.times.length; + + } + + // move all keyframes either forwards or backwards in time + shift( timeOffset ) { + + if ( timeOffset !== 0.0 ) { + + const times = this.times; + + for ( let i = 0, n = times.length; i !== n; ++ i ) { + + times[ i ] += timeOffset; + + } + + } + + return this; + + } + + // scale all keyframe times by a factor (useful for frame <-> seconds conversions) + scale( timeScale ) { + + if ( timeScale !== 1.0 ) { + + const times = this.times; + + for ( let i = 0, n = times.length; i !== n; ++ i ) { + + times[ i ] *= timeScale; + + } + + } + + return this; + + } + + // removes keyframes before and after animation without changing any values within the range [startTime, endTime]. + // IMPORTANT: We do not shift around keys to the start of the track time, because for interpolated keys this will change their values + trim( startTime, endTime ) { + + const times = this.times, + nKeys = times.length; + + let from = 0, + to = nKeys - 1; + + while ( from !== nKeys && times[ from ] < startTime ) { + + ++ from; + + } + + while ( to !== -1 && times[ to ] > endTime ) { + + -- to; + + } + + ++ to; // inclusive -> exclusive bound + + if ( from !== 0 || to !== nKeys ) { + + // empty tracks are forbidden, so keep at least one keyframe + if ( from >= to ) { + + to = Math.max( to, 1 ); + from = to - 1; + + } + + const stride = this.getValueSize(); + this.times = times.slice( from, to ); + this.values = this.values.slice( from * stride, to * stride ); + + } + + return this; + + } + + // ensure we do not get a GarbageInGarbageOut situation, make sure tracks are at least minimally viable + validate() { + + let valid = true; + + const valueSize = this.getValueSize(); + if ( valueSize - Math.floor( valueSize ) !== 0 ) { + + console.error( 'THREE.KeyframeTrack: Invalid value size in track.', this ); + valid = false; + + } + + const times = this.times, + values = this.values, + + nKeys = times.length; + + if ( nKeys === 0 ) { + + console.error( 'THREE.KeyframeTrack: Track is empty.', this ); + valid = false; + + } + + let prevTime = null; + + for ( let i = 0; i !== nKeys; i ++ ) { + + const currTime = times[ i ]; + + if ( typeof currTime === 'number' && isNaN( currTime ) ) { + + console.error( 'THREE.KeyframeTrack: Time is not a valid number.', this, i, currTime ); + valid = false; + break; + + } + + if ( prevTime !== null && prevTime > currTime ) { + + console.error( 'THREE.KeyframeTrack: Out of order keys.', this, i, currTime, prevTime ); + valid = false; + break; + + } + + prevTime = currTime; + + } + + if ( values !== undefined ) { + + if ( isTypedArray( values ) ) { + + for ( let i = 0, n = values.length; i !== n; ++ i ) { + + const value = values[ i ]; + + if ( isNaN( value ) ) { + + console.error( 'THREE.KeyframeTrack: Value is not a valid number.', this, i, value ); + valid = false; + break; + + } + + } + + } + + } + + return valid; + + } + + // removes equivalent sequential keys as common in morph target sequences + // (0,0,0,0,1,1,1,0,0,0,0,0,0,0) --> (0,0,1,1,0,0) + optimize() { + + // times or values may be shared with other tracks, so overwriting is unsafe + const times = this.times.slice(), + values = this.values.slice(), + stride = this.getValueSize(), + + smoothInterpolation = this.getInterpolation() === InterpolateSmooth, + + lastIndex = times.length - 1; + + let writeIndex = 1; + + for ( let i = 1; i < lastIndex; ++ i ) { + + let keep = false; + + const time = times[ i ]; + const timeNext = times[ i + 1 ]; + + // remove adjacent keyframes scheduled at the same time + + if ( time !== timeNext && ( i !== 1 || time !== times[ 0 ] ) ) { + + if ( ! smoothInterpolation ) { + + // remove unnecessary keyframes same as their neighbors + + const offset = i * stride, + offsetP = offset - stride, + offsetN = offset + stride; + + for ( let j = 0; j !== stride; ++ j ) { + + const value = values[ offset + j ]; + + if ( value !== values[ offsetP + j ] || + value !== values[ offsetN + j ] ) { + + keep = true; + break; + + } + + } + + } else { + + keep = true; + + } + + } + + // in-place compaction + + if ( keep ) { + + if ( i !== writeIndex ) { + + times[ writeIndex ] = times[ i ]; + + const readOffset = i * stride, + writeOffset = writeIndex * stride; + + for ( let j = 0; j !== stride; ++ j ) { + + values[ writeOffset + j ] = values[ readOffset + j ]; + + } + + } + + ++ writeIndex; + + } + + } + + // flush last keyframe (compaction looks ahead) + + if ( lastIndex > 0 ) { + + times[ writeIndex ] = times[ lastIndex ]; + + for ( let readOffset = lastIndex * stride, writeOffset = writeIndex * stride, j = 0; j !== stride; ++ j ) { + + values[ writeOffset + j ] = values[ readOffset + j ]; + + } + + ++ writeIndex; + + } + + if ( writeIndex !== times.length ) { + + this.times = times.slice( 0, writeIndex ); + this.values = values.slice( 0, writeIndex * stride ); + + } else { + + this.times = times; + this.values = values; + + } + + return this; + + } + + clone() { + + const times = this.times.slice(); + const values = this.values.slice(); + + const TypedKeyframeTrack = this.constructor; + const track = new TypedKeyframeTrack( this.name, times, values ); + + // Interpolant argument to constructor is not saved, so copy the factory method directly. + track.createInterpolant = this.createInterpolant; + + return track; + + } + +} + +KeyframeTrack.prototype.TimeBufferType = Float32Array; +KeyframeTrack.prototype.ValueBufferType = Float32Array; +KeyframeTrack.prototype.DefaultInterpolation = InterpolateLinear; + +/** + * A Track of Boolean keyframe values. + */ +class BooleanKeyframeTrack extends KeyframeTrack { + + // No interpolation parameter because only InterpolateDiscrete is valid. + constructor( name, times, values ) { + + super( name, times, values ); + + } + +} + +BooleanKeyframeTrack.prototype.ValueTypeName = 'bool'; +BooleanKeyframeTrack.prototype.ValueBufferType = Array; +BooleanKeyframeTrack.prototype.DefaultInterpolation = InterpolateDiscrete; +BooleanKeyframeTrack.prototype.InterpolantFactoryMethodLinear = undefined; +BooleanKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined; + +/** + * A Track of keyframe values that represent color. + */ +class ColorKeyframeTrack extends KeyframeTrack {} + +ColorKeyframeTrack.prototype.ValueTypeName = 'color'; + +/** + * A Track of numeric keyframe values. + */ +class NumberKeyframeTrack extends KeyframeTrack {} + +NumberKeyframeTrack.prototype.ValueTypeName = 'number'; + +/** + * Spherical linear unit quaternion interpolant. + * + * @augments Interpolant + */ +class QuaternionLinearInterpolant extends Interpolant { + + /** + * Constructs a new SLERP interpolant. + * + * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors. + * @param {TypedArray} sampleValues - The sample values. + * @param {number} sampleSize - The sample size + * @param {TypedArray} [resultBuffer] - The result buffer. + */ + constructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) { + + super( parameterPositions, sampleValues, sampleSize, resultBuffer ); + + } + + interpolate_( i1, t0, t, t1 ) { + + const result = this.resultBuffer, + values = this.sampleValues, + stride = this.valueSize, + + alpha = ( t - t0 ) / ( t1 - t0 ); + + let offset = i1 * stride; + + for ( let end = offset + stride; offset !== end; offset += 4 ) { + + Quaternion.slerpFlat( result, 0, values, offset - stride, values, offset, alpha ); + + } + + return result; + + } + +} + +/** + * A Track of quaternion keyframe values. + */ +class QuaternionKeyframeTrack extends KeyframeTrack { + + InterpolantFactoryMethodLinear( result ) { + + return new QuaternionLinearInterpolant( this.times, this.values, this.getValueSize(), result ); + + } + +} + +QuaternionKeyframeTrack.prototype.ValueTypeName = 'quaternion'; +// ValueBufferType is inherited +// DefaultInterpolation is inherited; +QuaternionKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined; + +/** + * A Track that interpolates Strings + */ +class StringKeyframeTrack extends KeyframeTrack { + + // No interpolation parameter because only InterpolateDiscrete is valid. + constructor( name, times, values ) { + + super( name, times, values ); + + } + +} + +StringKeyframeTrack.prototype.ValueTypeName = 'string'; +StringKeyframeTrack.prototype.ValueBufferType = Array; +StringKeyframeTrack.prototype.DefaultInterpolation = InterpolateDiscrete; +StringKeyframeTrack.prototype.InterpolantFactoryMethodLinear = undefined; +StringKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined; + +/** + * A Track of vectored keyframe values. + */ +class VectorKeyframeTrack extends KeyframeTrack {} + +VectorKeyframeTrack.prototype.ValueTypeName = 'vector'; + +class AnimationClip { + + constructor( name = '', duration = -1, tracks = [], blendMode = NormalAnimationBlendMode ) { + + this.name = name; + this.tracks = tracks; + this.duration = duration; + this.blendMode = blendMode; + + this.uuid = generateUUID(); + + // this means it should figure out its duration by scanning the tracks + if ( this.duration < 0 ) { + + this.resetDuration(); + + } + + } + + + static parse( json ) { + + const tracks = [], + jsonTracks = json.tracks, + frameTime = 1.0 / ( json.fps || 1.0 ); + + for ( let i = 0, n = jsonTracks.length; i !== n; ++ i ) { + + tracks.push( parseKeyframeTrack( jsonTracks[ i ] ).scale( frameTime ) ); + + } + + const clip = new this( json.name, json.duration, tracks, json.blendMode ); + clip.uuid = json.uuid; + + return clip; + + } + + static toJSON( clip ) { + + const tracks = [], + clipTracks = clip.tracks; + + const json = { + + 'name': clip.name, + 'duration': clip.duration, + 'tracks': tracks, + 'uuid': clip.uuid, + 'blendMode': clip.blendMode + + }; + + for ( let i = 0, n = clipTracks.length; i !== n; ++ i ) { + + tracks.push( KeyframeTrack.toJSON( clipTracks[ i ] ) ); + + } + + return json; + + } + + static CreateFromMorphTargetSequence( name, morphTargetSequence, fps, noLoop ) { + + const numMorphTargets = morphTargetSequence.length; + const tracks = []; + + for ( let i = 0; i < numMorphTargets; i ++ ) { + + let times = []; + let values = []; + + times.push( + ( i + numMorphTargets - 1 ) % numMorphTargets, + i, + ( i + 1 ) % numMorphTargets ); + + values.push( 0, 1, 0 ); + + const order = getKeyframeOrder( times ); + times = sortedArray( times, 1, order ); + values = sortedArray( values, 1, order ); + + // if there is a key at the first frame, duplicate it as the + // last frame as well for perfect loop. + if ( ! noLoop && times[ 0 ] === 0 ) { + + times.push( numMorphTargets ); + values.push( values[ 0 ] ); + + } + + tracks.push( + new NumberKeyframeTrack( + '.morphTargetInfluences[' + morphTargetSequence[ i ].name + ']', + times, values + ).scale( 1.0 / fps ) ); + + } + + return new this( name, -1, tracks ); + + } + + static findByName( objectOrClipArray, name ) { + + let clipArray = objectOrClipArray; + + if ( ! Array.isArray( objectOrClipArray ) ) { + + const o = objectOrClipArray; + clipArray = o.geometry && o.geometry.animations || o.animations; + + } + + for ( let i = 0; i < clipArray.length; i ++ ) { + + if ( clipArray[ i ].name === name ) { + + return clipArray[ i ]; + + } + + } + + return null; + + } + + static CreateClipsFromMorphTargetSequences( morphTargets, fps, noLoop ) { + + const animationToMorphTargets = {}; + + // tested with https://regex101.com/ on trick sequences + // such flamingo_flyA_003, flamingo_run1_003, crdeath0059 + const pattern = /^([\w-]*?)([\d]+)$/; + + // sort morph target names into animation groups based + // patterns like Walk_001, Walk_002, Run_001, Run_002 + for ( let i = 0, il = morphTargets.length; i < il; i ++ ) { + + const morphTarget = morphTargets[ i ]; + const parts = morphTarget.name.match( pattern ); + + if ( parts && parts.length > 1 ) { + + const name = parts[ 1 ]; + + let animationMorphTargets = animationToMorphTargets[ name ]; + + if ( ! animationMorphTargets ) { + + animationToMorphTargets[ name ] = animationMorphTargets = []; + + } + + animationMorphTargets.push( morphTarget ); + + } + + } + + const clips = []; + + for ( const name in animationToMorphTargets ) { + + clips.push( this.CreateFromMorphTargetSequence( name, animationToMorphTargets[ name ], fps, noLoop ) ); + + } + + return clips; + + } + + // parse the animation.hierarchy format + static parseAnimation( animation, bones ) { + + if ( ! animation ) { + + console.error( 'THREE.AnimationClip: No animation in JSONLoader data.' ); + return null; + + } + + const addNonemptyTrack = function ( trackType, trackName, animationKeys, propertyName, destTracks ) { + + // only return track if there are actually keys. + if ( animationKeys.length !== 0 ) { + + const times = []; + const values = []; + + flattenJSON( animationKeys, times, values, propertyName ); + + // empty keys are filtered out, so check again + if ( times.length !== 0 ) { + + destTracks.push( new trackType( trackName, times, values ) ); + + } + + } + + }; + + const tracks = []; + + const clipName = animation.name || 'default'; + const fps = animation.fps || 30; + const blendMode = animation.blendMode; + + // automatic length determination in AnimationClip. + let duration = animation.length || -1; + + const hierarchyTracks = animation.hierarchy || []; + + for ( let h = 0; h < hierarchyTracks.length; h ++ ) { + + const animationKeys = hierarchyTracks[ h ].keys; + + // skip empty tracks + if ( ! animationKeys || animationKeys.length === 0 ) continue; + + // process morph targets + if ( animationKeys[ 0 ].morphTargets ) { + + // figure out all morph targets used in this track + const morphTargetNames = {}; + + let k; + + for ( k = 0; k < animationKeys.length; k ++ ) { + + if ( animationKeys[ k ].morphTargets ) { + + for ( let m = 0; m < animationKeys[ k ].morphTargets.length; m ++ ) { + + morphTargetNames[ animationKeys[ k ].morphTargets[ m ] ] = -1; + + } + + } + + } + + // create a track for each morph target with all zero + // morphTargetInfluences except for the keys in which + // the morphTarget is named. + for ( const morphTargetName in morphTargetNames ) { + + const times = []; + const values = []; + + for ( let m = 0; m !== animationKeys[ k ].morphTargets.length; ++ m ) { + + const animationKey = animationKeys[ k ]; + + times.push( animationKey.time ); + values.push( ( animationKey.morphTarget === morphTargetName ) ? 1 : 0 ); + + } + + tracks.push( new NumberKeyframeTrack( '.morphTargetInfluence[' + morphTargetName + ']', times, values ) ); + + } + + duration = morphTargetNames.length * fps; + + } else { + + // ...assume skeletal animation + + const boneName = '.bones[' + bones[ h ].name + ']'; + + addNonemptyTrack( + VectorKeyframeTrack, boneName + '.position', + animationKeys, 'pos', tracks ); + + addNonemptyTrack( + QuaternionKeyframeTrack, boneName + '.quaternion', + animationKeys, 'rot', tracks ); + + addNonemptyTrack( + VectorKeyframeTrack, boneName + '.scale', + animationKeys, 'scl', tracks ); + + } + + } + + if ( tracks.length === 0 ) { + + return null; + + } + + const clip = new this( clipName, duration, tracks, blendMode ); + + return clip; + + } + + resetDuration() { + + const tracks = this.tracks; + let duration = 0; + + for ( let i = 0, n = tracks.length; i !== n; ++ i ) { + + const track = this.tracks[ i ]; + + duration = Math.max( duration, track.times[ track.times.length - 1 ] ); + + } + + this.duration = duration; + + return this; + + } + + trim() { + + for ( let i = 0; i < this.tracks.length; i ++ ) { + + this.tracks[ i ].trim( 0, this.duration ); + + } + + return this; + + } + + validate() { + + let valid = true; + + for ( let i = 0; i < this.tracks.length; i ++ ) { + + valid = valid && this.tracks[ i ].validate(); + + } + + return valid; + + } + + optimize() { + + for ( let i = 0; i < this.tracks.length; i ++ ) { + + this.tracks[ i ].optimize(); + + } + + return this; + + } + + clone() { + + const tracks = []; + + for ( let i = 0; i < this.tracks.length; i ++ ) { + + tracks.push( this.tracks[ i ].clone() ); + + } + + return new this.constructor( this.name, this.duration, tracks, this.blendMode ); + + } + + toJSON() { + + return this.constructor.toJSON( this ); + + } + +} + +function getTrackTypeForValueTypeName( typeName ) { + + switch ( typeName.toLowerCase() ) { + + case 'scalar': + case 'double': + case 'float': + case 'number': + case 'integer': + + return NumberKeyframeTrack; + + case 'vector': + case 'vector2': + case 'vector3': + case 'vector4': + + return VectorKeyframeTrack; + + case 'color': + + return ColorKeyframeTrack; + + case 'quaternion': + + return QuaternionKeyframeTrack; + + case 'bool': + case 'boolean': + + return BooleanKeyframeTrack; + + case 'string': + + return StringKeyframeTrack; + + } + + throw new Error( 'THREE.KeyframeTrack: Unsupported typeName: ' + typeName ); + +} + +function parseKeyframeTrack( json ) { + + if ( json.type === undefined ) { + + throw new Error( 'THREE.KeyframeTrack: track type undefined, can not parse' ); + + } + + const trackType = getTrackTypeForValueTypeName( json.type ); + + if ( json.times === undefined ) { + + const times = [], values = []; + + flattenJSON( json.keys, times, values, 'value' ); + + json.times = times; + json.values = values; + + } + + // derived classes can define a static parse method + if ( trackType.parse !== undefined ) { + + return trackType.parse( json ); + + } else { + + // by default, we assume a constructor compatible with the base + return new trackType( json.name, json.times, json.values, json.interpolation ); + + } + +} + +const Cache = { + + enabled: false, + + files: {}, + + add: function ( key, file ) { + + if ( this.enabled === false ) return; + + // console.log( 'THREE.Cache', 'Adding key:', key ); + + this.files[ key ] = file; + + }, + + get: function ( key ) { + + if ( this.enabled === false ) return; + + // console.log( 'THREE.Cache', 'Checking key:', key ); + + return this.files[ key ]; + + }, + + remove: function ( key ) { + + delete this.files[ key ]; + + }, + + clear: function () { + + this.files = {}; + + } + +}; + +class LoadingManager { + + constructor( onLoad, onProgress, onError ) { + + const scope = this; + + let isLoading = false; + let itemsLoaded = 0; + let itemsTotal = 0; + let urlModifier = undefined; + const handlers = []; + + // Refer to #5689 for the reason why we don't set .onStart + // in the constructor + + this.onStart = undefined; + this.onLoad = onLoad; + this.onProgress = onProgress; + this.onError = onError; + + this.itemStart = function ( url ) { + + itemsTotal ++; + + if ( isLoading === false ) { + + if ( scope.onStart !== undefined ) { + + scope.onStart( url, itemsLoaded, itemsTotal ); + + } + + } + + isLoading = true; + + }; + + this.itemEnd = function ( url ) { + + itemsLoaded ++; + + if ( scope.onProgress !== undefined ) { + + scope.onProgress( url, itemsLoaded, itemsTotal ); + + } + + if ( itemsLoaded === itemsTotal ) { + + isLoading = false; + + if ( scope.onLoad !== undefined ) { + + scope.onLoad(); + + } + + } + + }; + + this.itemError = function ( url ) { + + if ( scope.onError !== undefined ) { + + scope.onError( url ); + + } + + }; + + this.resolveURL = function ( url ) { + + if ( urlModifier ) { + + return urlModifier( url ); + + } + + return url; + + }; + + this.setURLModifier = function ( transform ) { + + urlModifier = transform; + + return this; + + }; + + this.addHandler = function ( regex, loader ) { + + handlers.push( regex, loader ); + + return this; + + }; + + this.removeHandler = function ( regex ) { + + const index = handlers.indexOf( regex ); + + if ( index !== -1 ) { + + handlers.splice( index, 2 ); + + } + + return this; + + }; + + this.getHandler = function ( file ) { + + for ( let i = 0, l = handlers.length; i < l; i += 2 ) { + + const regex = handlers[ i ]; + const loader = handlers[ i + 1 ]; + + if ( regex.global ) regex.lastIndex = 0; // see #17920 + + if ( regex.test( file ) ) { + + return loader; + + } + + } + + return null; + + }; + + } + +} + +const DefaultLoadingManager = /*@__PURE__*/ new LoadingManager(); + +/** + * Abstract base class for loaders. + * + * @abstract + */ +class Loader { + + /** + * Constructs a new loader. + * + * @param {LoadingManager} [manager] - The loading manager. + */ + constructor( manager ) { + + /** + * The loading manager. + * + * @type {LoadingManager} + * @default DefaultLoadingManager + */ + this.manager = ( manager !== undefined ) ? manager : DefaultLoadingManager; + + /** + * The crossOrigin string to implement CORS for loading the url from a + * different domain that allows CORS. + * + * @type {string} + * @default 'anonymous' + */ + this.crossOrigin = 'anonymous'; + + /** + * Whether the XMLHttpRequest uses credentials. + * + * @type {boolean} + * @default false + */ + this.withCredentials = false; + + /** + * The base path from which the asset will be loaded. + * + * @type {string} + */ + this.path = ''; + + /** + * The base path from which additional resources like textures will be loaded. + * + * @type {string} + */ + this.resourcePath = ''; + + /** + * The [request header]{@link https://developer.mozilla.org/en-US/docs/Glossary/Request_header} + * used in HTTP request. + * + * @type {Object} + */ + this.requestHeader = {}; + + } + + /** + * This method needs to be implemented by all concrete loaders. It holds the + * logic for loading assets from the backend. + * + * @param {string} url - The path/URL of the file to be loaded. + * @param {Function} onLoad - Executed when the loading process has been finished. + * @param {onProgressCallback} onProgress - Executed while the loading is in progress. + * @param {onErrorCallback} onError - Executed when errors occur. + */ + load( /* url, onLoad, onProgress, onError */ ) {} + + /** + * A async version of {@link Loader#load}. + * + * @param {string} url - The path/URL of the file to be loaded. + * @param {onProgressCallback} onProgress - Executed while the loading is in progress. + * @return {Promise} A Promise that resolves when the asset has been loaded. + */ + loadAsync( url, onProgress ) { + + const scope = this; + + return new Promise( function ( resolve, reject ) { + + scope.load( url, resolve, onProgress, reject ); + + } ); + + } + + /** + * This method needs to be implemented by all concrete loaders. It holds the + * logic for parsing the asset into three.js entities. + * + * @param {any} data - The data to parse. + */ + parse( /* data */ ) {} + + /** + * Sets the `crossOrigin` String to implement CORS for loading the URL + * from a different domain that allows CORS. + * + * @param {string} crossOrigin - The `crossOrigin` value. + * @return {Loader} A reference to this instance. + */ + setCrossOrigin( crossOrigin ) { + + this.crossOrigin = crossOrigin; + return this; + + } + + /** + * Whether the XMLHttpRequest uses credentials such as cookies, authorization + * headers or TLS client certificates, see [XMLHttpRequest.withCredentials]{@link https://developer.mozilla.org/en-US/docs/Web/API/XMLHttpRequest/withCredentials}. + * + * Note: This setting has no effect if you are loading files locally or from the same domain. + * + * @param {boolean} value - The `withCredentials` value. + * @return {Loader} A reference to this instance. + */ + setWithCredentials( value ) { + + this.withCredentials = value; + return this; + + } + + /** + * Sets the base path for the asset. + * + * @param {string} path - The base path. + * @return {Loader} A reference to this instance. + */ + setPath( path ) { + + this.path = path; + return this; + + } + + /** + * Sets the base path for dependent resources like textures. + * + * @param {string} resourcePath - The resource path. + * @return {Loader} A reference to this instance. + */ + setResourcePath( resourcePath ) { + + this.resourcePath = resourcePath; + return this; + + } + + /** + * Sets the given request header. + * + * @param {Object} requestHeader - A [request header]{@link https://developer.mozilla.org/en-US/docs/Glossary/Request_header} + * for configuring the HTTP request. + * @return {Loader} A reference to this instance. + */ + setRequestHeader( requestHeader ) { + + this.requestHeader = requestHeader; + return this; + + } + +} + +/** + * Callback for onProgress in loaders. + * + * + * @callback onProgressCallback + * @param {ProgressEvent} event - An instance of `ProgressEvent` that represents the current loading status. + */ + +/** + * Callback for onError in loaders. + * + * + * @callback onErrorCallback + * @param {Error} error - The error which occurred during the loading process. + */ + +/** + * The default material name that is used by loaders + * when creating materials for loaded 3D objects. + * + * Note: Not all loaders might honor this setting. + * + * @static + * @type {string} + * @default '__DEFAULT' + */ +Loader.DEFAULT_MATERIAL_NAME = '__DEFAULT'; + +const loading = {}; + +class HttpError extends Error { + + constructor( message, response ) { + + super( message ); + this.response = response; + + } + +} + +class FileLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + if ( url === undefined ) url = ''; + + if ( this.path !== undefined ) url = this.path + url; + + url = this.manager.resolveURL( url ); + + const cached = Cache.get( url ); + + if ( cached !== undefined ) { + + this.manager.itemStart( url ); + + setTimeout( () => { + + if ( onLoad ) onLoad( cached ); + + this.manager.itemEnd( url ); + + }, 0 ); + + return cached; + + } + + // Check if request is duplicate + + if ( loading[ url ] !== undefined ) { + + loading[ url ].push( { + + onLoad: onLoad, + onProgress: onProgress, + onError: onError + + } ); + + return; + + } + + // Initialise array for duplicate requests + loading[ url ] = []; + + loading[ url ].push( { + onLoad: onLoad, + onProgress: onProgress, + onError: onError, + } ); + + // create request + const req = new Request( url, { + headers: new Headers( this.requestHeader ), + credentials: this.withCredentials ? 'include' : 'same-origin', + // An abort controller could be added within a future PR + } ); + + // record states ( avoid data race ) + const mimeType = this.mimeType; + const responseType = this.responseType; + + // start the fetch + fetch( req ) + .then( response => { + + if ( response.status === 200 || response.status === 0 ) { + + // Some browsers return HTTP Status 0 when using non-http protocol + // e.g. 'file://' or 'data://'. Handle as success. + + if ( response.status === 0 ) { + + console.warn( 'THREE.FileLoader: HTTP Status 0 received.' ); + + } + + // Workaround: Checking if response.body === undefined for Alipay browser #23548 + + if ( typeof ReadableStream === 'undefined' || response.body === undefined || response.body.getReader === undefined ) { + + return response; + + } + + const callbacks = loading[ url ]; + const reader = response.body.getReader(); + + // Nginx needs X-File-Size check + // https://serverfault.com/questions/482875/why-does-nginx-remove-content-length-header-for-chunked-content + const contentLength = response.headers.get( 'X-File-Size' ) || response.headers.get( 'Content-Length' ); + const total = contentLength ? parseInt( contentLength ) : 0; + const lengthComputable = total !== 0; + let loaded = 0; + + // periodically read data into the new stream tracking while download progress + const stream = new ReadableStream( { + start( controller ) { + + readData(); + + function readData() { + + reader.read().then( ( { done, value } ) => { + + if ( done ) { + + controller.close(); + + } else { + + loaded += value.byteLength; + + const event = new ProgressEvent( 'progress', { lengthComputable, loaded, total } ); + for ( let i = 0, il = callbacks.length; i < il; i ++ ) { + + const callback = callbacks[ i ]; + if ( callback.onProgress ) callback.onProgress( event ); + + } + + controller.enqueue( value ); + readData(); + + } + + }, ( e ) => { + + controller.error( e ); + + } ); + + } + + } + + } ); + + return new Response( stream ); + + } else { + + throw new HttpError( `fetch for "${response.url}" responded with ${response.status}: ${response.statusText}`, response ); + + } + + } ) + .then( response => { + + switch ( responseType ) { + + case 'arraybuffer': + + return response.arrayBuffer(); + + case 'blob': + + return response.blob(); + + case 'document': + + return response.text() + .then( text => { + + const parser = new DOMParser(); + return parser.parseFromString( text, mimeType ); + + } ); + + case 'json': + + return response.json(); + + default: + + if ( mimeType === undefined ) { + + return response.text(); + + } else { + + // sniff encoding + const re = /charset="?([^;"\s]*)"?/i; + const exec = re.exec( mimeType ); + const label = exec && exec[ 1 ] ? exec[ 1 ].toLowerCase() : undefined; + const decoder = new TextDecoder( label ); + return response.arrayBuffer().then( ab => decoder.decode( ab ) ); + + } + + } + + } ) + .then( data => { + + // Add to cache only on HTTP success, so that we do not cache + // error response bodies as proper responses to requests. + Cache.add( url, data ); + + const callbacks = loading[ url ]; + delete loading[ url ]; + + for ( let i = 0, il = callbacks.length; i < il; i ++ ) { + + const callback = callbacks[ i ]; + if ( callback.onLoad ) callback.onLoad( data ); + + } + + } ) + .catch( err => { + + // Abort errors and other errors are handled the same + + const callbacks = loading[ url ]; + + if ( callbacks === undefined ) { + + // When onLoad was called and url was deleted in `loading` + this.manager.itemError( url ); + throw err; + + } + + delete loading[ url ]; + + for ( let i = 0, il = callbacks.length; i < il; i ++ ) { + + const callback = callbacks[ i ]; + if ( callback.onError ) callback.onError( err ); + + } + + this.manager.itemError( url ); + + } ) + .finally( () => { + + this.manager.itemEnd( url ); + + } ); + + this.manager.itemStart( url ); + + } + + setResponseType( value ) { + + this.responseType = value; + return this; + + } + + setMimeType( value ) { + + this.mimeType = value; + return this; + + } + +} + +class ImageLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + if ( this.path !== undefined ) url = this.path + url; + + url = this.manager.resolveURL( url ); + + const scope = this; + + const cached = Cache.get( url ); + + if ( cached !== undefined ) { + + scope.manager.itemStart( url ); + + setTimeout( function () { + + if ( onLoad ) onLoad( cached ); + + scope.manager.itemEnd( url ); + + }, 0 ); + + return cached; + + } + + const image = createElementNS( 'img' ); + + function onImageLoad() { + + removeEventListeners(); + + Cache.add( url, this ); + + if ( onLoad ) onLoad( this ); + + scope.manager.itemEnd( url ); + + } + + function onImageError( event ) { + + removeEventListeners(); + + if ( onError ) onError( event ); + + scope.manager.itemError( url ); + scope.manager.itemEnd( url ); + + } + + function removeEventListeners() { + + image.removeEventListener( 'load', onImageLoad, false ); + image.removeEventListener( 'error', onImageError, false ); + + } + + image.addEventListener( 'load', onImageLoad, false ); + image.addEventListener( 'error', onImageError, false ); + + if ( url.slice( 0, 5 ) !== 'data:' ) { + + if ( this.crossOrigin !== undefined ) image.crossOrigin = this.crossOrigin; + + } + + scope.manager.itemStart( url ); + + image.src = url; + + return image; + + } + +} + +/** + * Abstract Base class to load generic binary textures formats (rgbe, hdr, ...) + * + * Sub classes have to implement the parse() method which will be used in load(). + */ + +class DataTextureLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + const scope = this; + + const texture = new DataTexture(); + + const loader = new FileLoader( this.manager ); + loader.setResponseType( 'arraybuffer' ); + loader.setRequestHeader( this.requestHeader ); + loader.setPath( this.path ); + loader.setWithCredentials( scope.withCredentials ); + loader.load( url, function ( buffer ) { + + let texData; + + try { + + texData = scope.parse( buffer ); + + } catch ( error ) { + + if ( onError !== undefined ) { + + onError( error ); + + } else { + + console.error( error ); + return; + + } + + } + + if ( texData.image !== undefined ) { + + texture.image = texData.image; + + } else if ( texData.data !== undefined ) { + + texture.image.width = texData.width; + texture.image.height = texData.height; + texture.image.data = texData.data; + + } + + texture.wrapS = texData.wrapS !== undefined ? texData.wrapS : ClampToEdgeWrapping; + texture.wrapT = texData.wrapT !== undefined ? texData.wrapT : ClampToEdgeWrapping; + + texture.magFilter = texData.magFilter !== undefined ? texData.magFilter : LinearFilter; + texture.minFilter = texData.minFilter !== undefined ? texData.minFilter : LinearFilter; + + texture.anisotropy = texData.anisotropy !== undefined ? texData.anisotropy : 1; + + if ( texData.colorSpace !== undefined ) { + + texture.colorSpace = texData.colorSpace; + + } + + if ( texData.flipY !== undefined ) { + + texture.flipY = texData.flipY; + + } + + if ( texData.format !== undefined ) { + + texture.format = texData.format; + + } + + if ( texData.type !== undefined ) { + + texture.type = texData.type; + + } + + if ( texData.mipmaps !== undefined ) { + + texture.mipmaps = texData.mipmaps; + texture.minFilter = LinearMipmapLinearFilter; // presumably... + + } + + if ( texData.mipmapCount === 1 ) { + + texture.minFilter = LinearFilter; + + } + + if ( texData.generateMipmaps !== undefined ) { + + texture.generateMipmaps = texData.generateMipmaps; + + } + + texture.needsUpdate = true; + + if ( onLoad ) onLoad( texture, texData ); + + }, onProgress, onError ); + + + return texture; + + } + +} + +class TextureLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + const texture = new Texture$1(); + + const loader = new ImageLoader( this.manager ); + loader.setCrossOrigin( this.crossOrigin ); + loader.setPath( this.path ); + + loader.load( url, function ( image ) { + + texture.image = image; + texture.needsUpdate = true; + + if ( onLoad !== undefined ) { + + onLoad( texture ); + + } + + }, onProgress, onError ); + + return texture; + + } + +} + +/** + * Abstract base class for lights - all other light types inherit the + * properties and methods described here. + * + * @abstract + * @augments Object3D + */ +class Light extends Object3D { + + /** + * Constructs a new light. + * + * @param {(number|Color|string)} [color=0xffffff] - The light's color. + * @param {number} [intensity=1] - The light's strength/intensity. + */ + constructor( color, intensity = 1 ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isLight = true; + + this.type = 'Light'; + + /** + * The light's color. + * + * @type {Color} + */ + this.color = new Color( color ); + + /** + * The light's intensity. + * + * @type {number} + * @default 1 + */ + this.intensity = intensity; + + } + + /** + * Frees the GPU-related resources allocated by this instance. Call this + * method whenever this instance is no longer used in your app. + */ + dispose() { + + // Empty here in base class; some subclasses override. + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.color.copy( source.color ); + this.intensity = source.intensity; + + return this; + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + data.object.color = this.color.getHex(); + data.object.intensity = this.intensity; + + if ( this.groundColor !== undefined ) data.object.groundColor = this.groundColor.getHex(); + + if ( this.distance !== undefined ) data.object.distance = this.distance; + if ( this.angle !== undefined ) data.object.angle = this.angle; + if ( this.decay !== undefined ) data.object.decay = this.decay; + if ( this.penumbra !== undefined ) data.object.penumbra = this.penumbra; + + if ( this.shadow !== undefined ) data.object.shadow = this.shadow.toJSON(); + if ( this.target !== undefined ) data.object.target = this.target.uuid; + + return data; + + } + +} + +const _projScreenMatrix$1 = /*@__PURE__*/ new Matrix4(); +const _lightPositionWorld$1 = /*@__PURE__*/ new Vector3(); +const _lookTarget$1 = /*@__PURE__*/ new Vector3(); + +/** + * Abstract base class for light shadow classes. These classes + * represent the shadow configuration for different ligth types. + * + * @abstract + */ +class LightShadow { + + /** + * Constructs a new light shadow. + * + * @param {Camera} camera - The light's view of the world. + */ + constructor( camera ) { + + /** + * The light's view of the world. + * + * @type {Camera} + */ + this.camera = camera; + + /** + * The intensity of the shadow. The default is `1`. + * Valid values are in the range `[0, 1]`. + * + * @type {number} + * @default 1 + */ + this.intensity = 1; + + /** + * Shadow map bias, how much to add or subtract from the normalized depth + * when deciding whether a surface is in shadow. + * + * The default is `0`. Very tiny adjustments here (in the order of `0.0001`) + * may help reduce artifacts in shadows. + * + * @type {number} + * @default 0 + */ + this.bias = 0; + + /** + * Defines how much the position used to query the shadow map is offset along + * the object normal. The default is `0`. Increasing this value can be used to + * reduce shadow acne especially in large scenes where light shines onto + * geometry at a shallow angle. The cost is that shadows may appear distorted. + * + * @type {number} + * @default 0 + */ + this.normalBias = 0; + + /** + * Setting this to values greater than 1 will blur the edges of the shadow. + * High values will cause unwanted banding effects in the shadows - a greater + * map size will allow for a higher value to be used here before these effects + * become visible. + * + * The property has no effect when the shadow map type is `PCFSoftShadowMap` and + * and it is recommended to increase softness by decreasing the shadow map size instead. + * + * The property has no effect when the shadow map type is `BasicShadowMap`. + * + * @type {number} + * @default 1 + */ + this.radius = 1; + + /** + * The amount of samples to use when blurring a VSM shadow map. + * + * @type {number} + * @default 8 + */ + this.blurSamples = 8; + + /** + * Defines the width and height of the shadow map. Higher values give better quality + * shadows at the cost of computation time. Values must be powers of two. + * + * @type {Vector2} + * @default (512,512) + */ + this.mapSize = new Vector2( 512, 512 ); + + /** + * The depth map generated using the internal camera; a location beyond a + * pixel's depth is in shadow. Computed internally during rendering. + * + * @type {?RenderTarget} + * @default null + */ + this.map = null; + + /** + * The distribution map generated using the internal camera; an occlusion is + * calculated based on the distribution of depths. Computed internally during + * rendering. + * + * @type {?RenderTarget} + * @default null + */ + this.mapPass = null; + + /** + * Model to shadow camera space, to compute location and depth in shadow map. + * This is computed internally during rendering. + * + * @type {Matrix4} + */ + this.matrix = new Matrix4(); + + /** + * Enables automatic updates of the light's shadow. If you do not require dynamic + * lighting / shadows, you may set this to `false`. + * + * @type {boolean} + * @default true + */ + this.autoUpdate = true; + + /** + * When set to `true`, shadow maps will be updated in the next `render` call. + * If you have set {@link LightShadow#autoUpdate} to `false`, you will need to + * set this property to `true` and then make a render call to update the light's shadow. + * + * @type {boolean} + * @default false + */ + this.needsUpdate = false; + + this._frustum = new Frustum(); + this._frameExtents = new Vector2( 1, 1 ); + + this._viewportCount = 1; + + this._viewports = [ + + new Vector4( 0, 0, 1, 1 ) + + ]; + + } + + /** + * Used internally by the renderer to get the number of viewports that need + * to be rendered for this shadow. + * + * @return {number} The viewport count. + */ + getViewportCount() { + + return this._viewportCount; + + } + + /** + * Gets the shadow cameras frustum. Used internally by the renderer to cull objects. + * + * @return {Frustum} The shadow camera frustum. + */ + getFrustum() { + + return this._frustum; + + } + + /** + * Update the matrices for the camera and shadow, used internally by the renderer. + * + * @param {Light} light - The light for which the shadow is being rendered. + */ + updateMatrices( light ) { + + const shadowCamera = this.camera; + const shadowMatrix = this.matrix; + + _lightPositionWorld$1.setFromMatrixPosition( light.matrixWorld ); + shadowCamera.position.copy( _lightPositionWorld$1 ); + + _lookTarget$1.setFromMatrixPosition( light.target.matrixWorld ); + shadowCamera.lookAt( _lookTarget$1 ); + shadowCamera.updateMatrixWorld(); + + _projScreenMatrix$1.multiplyMatrices( shadowCamera.projectionMatrix, shadowCamera.matrixWorldInverse ); + this._frustum.setFromProjectionMatrix( _projScreenMatrix$1 ); + + shadowMatrix.set( + 0.5, 0.0, 0.0, 0.5, + 0.0, 0.5, 0.0, 0.5, + 0.0, 0.0, 0.5, 0.5, + 0.0, 0.0, 0.0, 1.0 + ); + + shadowMatrix.multiply( _projScreenMatrix$1 ); + + } + + /** + * Returns a viewport definition for the given viewport index. + * + * @param {number} viewportIndex - The viewport index. + * @return {Vector4} The viewport. + */ + getViewport( viewportIndex ) { + + return this._viewports[ viewportIndex ]; + + } + + /** + * Returns the frame extends. + * + * @return {Vector2} The frame extends. + */ + getFrameExtents() { + + return this._frameExtents; + + } + + /** + * Frees the GPU-related resources allocated by this instance. Call this + * method whenever this instance is no longer used in your app. + */ + dispose() { + + if ( this.map ) { + + this.map.dispose(); + + } + + if ( this.mapPass ) { + + this.mapPass.dispose(); + + } + + } + + /** + * Copies the values of the given light shadow instance to this instance. + * + * @param {LightShadow} source - The light shadow to copy. + * @return {LightShadow} A reference to this light shadow instance. + */ + copy( source ) { + + this.camera = source.camera.clone(); + + this.intensity = source.intensity; + + this.bias = source.bias; + this.radius = source.radius; + + this.mapSize.copy( source.mapSize ); + + return this; + + } + + /** + * Returns a new light shadow instance with copied values from this instance. + * + * @return {LightShadow} A clone of this instance. + */ + clone() { + + return new this.constructor().copy( this ); + + } + + /** + * Serializes the light shadow into JSON. + * + * @return {Object} A JSON object representing the serialized light shadow. + * @see {@link ObjectLoader#parse} + */ + toJSON() { + + const object = {}; + + if ( this.intensity !== 1 ) object.intensity = this.intensity; + if ( this.bias !== 0 ) object.bias = this.bias; + if ( this.normalBias !== 0 ) object.normalBias = this.normalBias; + if ( this.radius !== 1 ) object.radius = this.radius; + if ( this.mapSize.x !== 512 || this.mapSize.y !== 512 ) object.mapSize = this.mapSize.toArray(); + + object.camera = this.camera.toJSON( false ).object; + delete object.camera.matrix; + + return object; + + } + +} + +/** + * Represents the shadow configuration of directional lights. + * + * @augments LightShadow + */ +class SpotLightShadow extends LightShadow { + + /** + * Constructs a new spot light shadow. + */ + constructor() { + + super( new PerspectiveCamera( 50, 1, 0.5, 500 ) ); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isSpotLightShadow = true; + + /** + * Used to focus the shadow camera. The camera's field of view is set as a + * percentage of the spotlight's field-of-view. Range is `[0, 1]`. + * + * @type {number} + * @default 1 + */ + this.focus = 1; + + } + + updateMatrices( light ) { + + const camera = this.camera; + + const fov = RAD2DEG * 2 * light.angle * this.focus; + const aspect = this.mapSize.width / this.mapSize.height; + const far = light.distance || camera.far; + + if ( fov !== camera.fov || aspect !== camera.aspect || far !== camera.far ) { + + camera.fov = fov; + camera.aspect = aspect; + camera.far = far; + camera.updateProjectionMatrix(); + + } + + super.updateMatrices( light ); + + } + + copy( source ) { + + super.copy( source ); + + this.focus = source.focus; + + return this; + + } + +} + +/** + * This light gets emitted from a single point in one direction, along a cone + * that increases in size the further from the light it gets. + * + * This light can cast shadows - see the {@link SpotLightShadow} for details. + * + * ```js + * // white spotlight shining from the side, modulated by a texture + * const spotLight = new THREE.SpotLight( 0xffffff ); + * spotLight.position.set( 100, 1000, 100 ); + * spotLight.map = new THREE.TextureLoader().load( url ); + * + * spotLight.castShadow = true; + * spotLight.shadow.mapSize.width = 1024; + * spotLight.shadow.mapSize.height = 1024; + * spotLight.shadow.camera.near = 500; + * spotLight.shadow.camera.far = 4000; + * spotLight.shadow.camera.fov = 30;s + * ``` + * + * @augments Light + */ +class SpotLight extends Light { + + /** + * Constructs a new spot light. + * + * @param {(number|Color|string)} [color=0xffffff] - The light's color. + * @param {number} [intensity=1] - The light's strength/intensity measured in candela (cd). + * @param {number} [distance=0] - Maximum range of the light. `0` means no limit. + * @param {number} [angle=Math.PI/3] - Maximum angle of light dispersion from its direction whose upper bound is `Math.PI/2`. + * @param {number} [penumbra=0] - Percent of the spotlight cone that is attenuated due to penumbra. Value range is `[0,1]`. + * @param {number} [decay=2] - The amount the light dims along the distance of the light. + */ + constructor( color, intensity, distance = 0, angle = Math.PI / 3, penumbra = 0, decay = 2 ) { + + super( color, intensity ); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isSpotLight = true; + + this.type = 'SpotLight'; + + this.position.copy( Object3D.DEFAULT_UP ); + this.updateMatrix(); + + /** + * The spot light points from its position to the + * target's position. + * + * For the target's position to be changed to anything other + * than the default, it must be added to the scene. + * + * It is also possible to set the target to be another 3D object + * in the scene. The light will now track the target object. + * + * @type {Object3D} + */ + this.target = new Object3D(); + + /** + * Maximum range of the light. `0` means no limit. + * + * @type {number} + * @default 0 + */ + this.distance = distance; + + /** + * Maximum angle of light dispersion from its direction whose upper bound is `Math.PI/2`. + * + * @type {number} + * @default Math.PI/3 + */ + this.angle = angle; + + /** + * Percent of the spotlight cone that is attenuated due to penumbra. + * Value range is `[0,1]`. + * + * @type {number} + * @default 0 + */ + this.penumbra = penumbra; + + /** + * The amount the light dims along the distance of the light. In context of + * physically-correct rendering the default value should not be changed. + * + * @type {number} + * @default 2 + */ + this.decay = decay; + + /** + * A texture used to modulate the color of the light. The spot light + * color is mixed with the RGB value of this texture, with a ratio + * corresponding to its alpha value. The cookie-like masking effect is + * reproduced using pixel values (0, 0, 0, 1-cookie_value). + * + * *Warning*: This property is disabled if {@link Object3D#castShadow} is set to `false`. + * + * @type {?Texture} + * @default null + */ + this.map = null; + + /** + * This property holds the light's shadow configuration. + * + * @type {SpotLightShadow} + */ + this.shadow = new SpotLightShadow(); + + } + + /** + * The light's power. Power is the luminous power of the light measured in lumens (lm). + * Changing the power will also change the light's intensity. + * + * @type {number} + */ + get power() { + + // compute the light's luminous power (in lumens) from its intensity (in candela) + // by convention for a spotlight, luminous power (lm) = π * luminous intensity (cd) + return this.intensity * Math.PI; + + } + + set power( power ) { + + // set the light's intensity (in candela) from the desired luminous power (in lumens) + this.intensity = power / Math.PI; + + } + + dispose() { + + this.shadow.dispose(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.distance = source.distance; + this.angle = source.angle; + this.penumbra = source.penumbra; + this.decay = source.decay; + + this.target = source.target.clone(); + + this.shadow = source.shadow.clone(); + + return this; + + } + +} + +const _projScreenMatrix = /*@__PURE__*/ new Matrix4(); +const _lightPositionWorld = /*@__PURE__*/ new Vector3(); +const _lookTarget = /*@__PURE__*/ new Vector3(); + +/** + * Represents the shadow configuration of point lights. + * + * @augments LightShadow + */ +class PointLightShadow extends LightShadow { + + /** + * Constructs a new point light shadow. + */ + constructor() { + + super( new PerspectiveCamera( 90, 1, 0.5, 500 ) ); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isPointLightShadow = true; + + this._frameExtents = new Vector2( 4, 2 ); + + this._viewportCount = 6; + + this._viewports = [ + // These viewports map a cube-map onto a 2D texture with the + // following orientation: + // + // xzXZ + // y Y + // + // X - Positive x direction + // x - Negative x direction + // Y - Positive y direction + // y - Negative y direction + // Z - Positive z direction + // z - Negative z direction + + // positive X + new Vector4( 2, 1, 1, 1 ), + // negative X + new Vector4( 0, 1, 1, 1 ), + // positive Z + new Vector4( 3, 1, 1, 1 ), + // negative Z + new Vector4( 1, 1, 1, 1 ), + // positive Y + new Vector4( 3, 0, 1, 1 ), + // negative Y + new Vector4( 1, 0, 1, 1 ) + ]; + + this._cubeDirections = [ + new Vector3( 1, 0, 0 ), new Vector3( -1, 0, 0 ), new Vector3( 0, 0, 1 ), + new Vector3( 0, 0, -1 ), new Vector3( 0, 1, 0 ), new Vector3( 0, -1, 0 ) + ]; + + this._cubeUps = [ + new Vector3( 0, 1, 0 ), new Vector3( 0, 1, 0 ), new Vector3( 0, 1, 0 ), + new Vector3( 0, 1, 0 ), new Vector3( 0, 0, 1 ), new Vector3( 0, 0, -1 ) + ]; + + } + + /** + * Update the matrices for the camera and shadow, used internally by the renderer. + * + * @param {Light} light - The light for which the shadow is being rendered. + * @param {number} [viewportIndex=0] - The viewport index. + */ + updateMatrices( light, viewportIndex = 0 ) { + + const camera = this.camera; + const shadowMatrix = this.matrix; + + const far = light.distance || camera.far; + + if ( far !== camera.far ) { + + camera.far = far; + camera.updateProjectionMatrix(); + + } + + _lightPositionWorld.setFromMatrixPosition( light.matrixWorld ); + camera.position.copy( _lightPositionWorld ); + + _lookTarget.copy( camera.position ); + _lookTarget.add( this._cubeDirections[ viewportIndex ] ); + camera.up.copy( this._cubeUps[ viewportIndex ] ); + camera.lookAt( _lookTarget ); + camera.updateMatrixWorld(); + + shadowMatrix.makeTranslation( - _lightPositionWorld.x, - _lightPositionWorld.y, - _lightPositionWorld.z ); + + _projScreenMatrix.multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse ); + this._frustum.setFromProjectionMatrix( _projScreenMatrix ); + + } + +} + +/** + * A light that gets emitted from a single point in all directions. A common + * use case for this is to replicate the light emitted from a bare + * lightbulb. + * + * This light can cast shadows - see the {@link PointLightShadow} for details. + * + * ```js + * const light = new THREE.PointLight( 0xff0000, 1, 100 ); + * light.position.set( 50, 50, 50 ); + * scene.add( light ); + * ``` + * + * @augments Light + */ +class PointLight extends Light { + + /** + * Constructs a new point light. + * + * @param {(number|Color|string)} [color=0xffffff] - The light's color. + * @param {number} [intensity=1] - The light's strength/intensity measured in candela (cd). + * @param {number} [distance=0] - Maximum range of the light. `0` means no limit. + * @param {number} [decay=2] - The amount the light dims along the distance of the light. + */ + constructor( color, intensity, distance = 0, decay = 2 ) { + + super( color, intensity ); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isPointLight = true; + + this.type = 'PointLight'; + + /** + * When distance is zero, light will attenuate according to inverse-square + * law to infinite distance. When distance is non-zero, light will attenuate + * according to inverse-square law until near the distance cutoff, where it + * will then attenuate quickly and smoothly to 0. Inherently, cutoffs are not + * physically correct. + * + * @type {number} + * @default 0 + */ + this.distance = distance; + + /** + * The amount the light dims along the distance of the light. In context of + * physically-correct rendering the default value should not be changed. + * + * @type {number} + * @default 2 + */ + this.decay = decay; + + /** + * This property holds the light's shadow configuration. + * + * @type {PointLightShadow} + */ + this.shadow = new PointLightShadow(); + + } + + /** + * The light's power. Power is the luminous power of the light measured in lumens (lm). + * Changing the power will also change the light's intensity. + * + * @type {number} + */ + get power() { + + // compute the light's luminous power (in lumens) from its intensity (in candela) + // for an isotropic light source, luminous power (lm) = 4 π luminous intensity (cd) + return this.intensity * 4 * Math.PI; + + } + + set power( power ) { + + // set the light's intensity (in candela) from the desired luminous power (in lumens) + this.intensity = power / ( 4 * Math.PI ); + + } + + dispose() { + + this.shadow.dispose(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.distance = source.distance; + this.decay = source.decay; + + this.shadow = source.shadow.clone(); + + return this; + + } + +} + +/** + * Camera that uses [orthographic projection]{@link https://en.wikipedia.org/wiki/Orthographic_projection}. + * + * In this projection mode, an object's size in the rendered image stays + * constant regardless of its distance from the camera. This can be useful + * for rendering 2D scenes and UI elements, amongst other things. + * + * ```js + * const camera = new THREE.OrthographicCamera( width / - 2, width / 2, height / 2, height / - 2, 1, 1000 ); + * scene.add( camera ); + * ``` + * + * @augments Camera + */ +class OrthographicCamera extends Camera { + + /** + * Constructs a new orthographic camera. + * + * @param {number} [left=-1] - The left plane of the camera's frustum. + * @param {number} [right=1] - The right plane of the camera's frustum. + * @param {number} [top=1] - The top plane of the camera's frustum. + * @param {number} [bottom=-1] - The bottom plane of the camera's frustum. + * @param {number} [near=0.1] - The camera's near plane. + * @param {number} [far=2000] - The camera's far plane. + */ + constructor( left = -1, right = 1, top = 1, bottom = -1, near = 0.1, far = 2000 ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isOrthographicCamera = true; + + this.type = 'OrthographicCamera'; + + /** + * The zoom factor of the camera. + * + * @type {number} + * @default 1 + */ + this.zoom = 1; + + /** + * Represents the frustum window specification. This property should not be edited + * directly but via {@link PerspectiveCamera#setViewOffset} and {@link PerspectiveCamera#clearViewOffset}. + * + * @type {?Object} + * @default null + */ + this.view = null; + + /** + * The left plane of the camera's frustum. + * + * @type {number} + * @default -1 + */ + this.left = left; + + /** + * The right plane of the camera's frustum. + * + * @type {number} + * @default 1 + */ + this.right = right; + + /** + * The top plane of the camera's frustum. + * + * @type {number} + * @default 1 + */ + this.top = top; + + /** + * The bottom plane of the camera's frustum. + * + * @type {number} + * @default -1 + */ + this.bottom = bottom; + + /** + * The camera's near plane. The valid range is greater than `0` + * and less than the current value of {@link OrthographicCamera#far}. + * + * Note that, unlike for the {@link PerspectiveCamera}, `0` is a + * valid value for an orthographic camera's near plane. + * + * @type {number} + * @default 0.1 + */ + this.near = near; + + /** + * The camera's far plane. Must be greater than the + * current value of {@link OrthographicCamera#near}. + * + * @type {number} + * @default 2000 + */ + this.far = far; + + this.updateProjectionMatrix(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.left = source.left; + this.right = source.right; + this.top = source.top; + this.bottom = source.bottom; + this.near = source.near; + this.far = source.far; + + this.zoom = source.zoom; + this.view = source.view === null ? null : Object.assign( {}, source.view ); + + return this; + + } + + /** + * Sets an offset in a larger frustum. This is useful for multi-window or + * multi-monitor/multi-machine setups. + * + * @param {number} fullWidth - The full width of multiview setup. + * @param {number} fullHeight - The full height of multiview setup. + * @param {number} x - The horizontal offset of the subcamera. + * @param {number} y - The vertical offset of the subcamera. + * @param {number} width - The width of subcamera. + * @param {number} height - The height of subcamera. + * @see {@link PerspectiveCamera#setViewOffset} + */ + setViewOffset( fullWidth, fullHeight, x, y, width, height ) { + + if ( this.view === null ) { + + this.view = { + enabled: true, + fullWidth: 1, + fullHeight: 1, + offsetX: 0, + offsetY: 0, + width: 1, + height: 1 + }; + + } + + this.view.enabled = true; + this.view.fullWidth = fullWidth; + this.view.fullHeight = fullHeight; + this.view.offsetX = x; + this.view.offsetY = y; + this.view.width = width; + this.view.height = height; + + this.updateProjectionMatrix(); + + } + + /** + * Removes the view offset from the projection matrix. + */ + clearViewOffset() { + + if ( this.view !== null ) { + + this.view.enabled = false; + + } + + this.updateProjectionMatrix(); + + } + + /** + * Updates the camera's projection matrix. Must be called after any change of + * camera properties. + */ + updateProjectionMatrix() { + + const dx = ( this.right - this.left ) / ( 2 * this.zoom ); + const dy = ( this.top - this.bottom ) / ( 2 * this.zoom ); + const cx = ( this.right + this.left ) / 2; + const cy = ( this.top + this.bottom ) / 2; + + let left = cx - dx; + let right = cx + dx; + let top = cy + dy; + let bottom = cy - dy; + + if ( this.view !== null && this.view.enabled ) { + + const scaleW = ( this.right - this.left ) / this.view.fullWidth / this.zoom; + const scaleH = ( this.top - this.bottom ) / this.view.fullHeight / this.zoom; + + left += scaleW * this.view.offsetX; + right = left + scaleW * this.view.width; + top -= scaleH * this.view.offsetY; + bottom = top - scaleH * this.view.height; + + } + + this.projectionMatrix.makeOrthographic( left, right, top, bottom, this.near, this.far, this.coordinateSystem ); + + this.projectionMatrixInverse.copy( this.projectionMatrix ).invert(); + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + data.object.zoom = this.zoom; + data.object.left = this.left; + data.object.right = this.right; + data.object.top = this.top; + data.object.bottom = this.bottom; + data.object.near = this.near; + data.object.far = this.far; + + if ( this.view !== null ) data.object.view = Object.assign( {}, this.view ); + + return data; + + } + +} + +/** + * Represents the shadow configuration of directional lights. + * + * @augments LightShadow + */ +class DirectionalLightShadow extends LightShadow { + + /** + * Constructs a new directional light shadow. + */ + constructor() { + + super( new OrthographicCamera( -5, 5, 5, -5, 0.5, 500 ) ); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isDirectionalLightShadow = true; + + } + +} + +/** + * A light that gets emitted in a specific direction. This light will behave + * as though it is infinitely far away and the rays produced from it are all + * parallel. The common use case for this is to simulate daylight; the sun is + * far enough away that its position can be considered to be infinite, and + * all light rays coming from it are parallel. + * + * A common point of confusion for directional lights is that setting the + * rotation has no effect. This is because three.js's DirectionalLight is the + * equivalent to what is often called a 'Target Direct Light' in other + * applications. + * + * This means that its direction is calculated as pointing from the light's + * {@link Object3D#position} to the {@link DirectionalLight#target} position + * (as opposed to a 'Free Direct Light' that just has a rotation + * component). + * + * This light can cast shadows - see the {@link DirectionalLightShadow} for details. + * + * ```js + * // White directional light at half intensity shining from the top. + * const directionalLight = new THREE.DirectionalLight( 0xffffff, 0.5 ); + * scene.add( directionalLight ); + * ``` + * + * @augments Light + */ +class DirectionalLight extends Light { + + /** + * Constructs a new directional light. + * + * @param {(number|Color|string)} [color=0xffffff] - The light's color. + * @param {number} [intensity=1] - The light's strength/intensity. + */ + constructor( color, intensity ) { + + super( color, intensity ); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isDirectionalLight = true; + + this.type = 'DirectionalLight'; + + this.position.copy( Object3D.DEFAULT_UP ); + this.updateMatrix(); + + /** + * The directional light points from its position to the + * target's position. + * + * For the target's position to be changed to anything other + * than the default, it must be added to the scene. + * + * It is also possible to set the target to be another 3D object + * in the scene. The light will now track the target object. + * + * @type {Object3D} + */ + this.target = new Object3D(); + + /** + * This property holds the light's shadow configuration. + * + * @type {DirectionalLightShadow} + */ + this.shadow = new DirectionalLightShadow(); + + } + + dispose() { + + this.shadow.dispose(); + + } + + copy( source ) { + + super.copy( source ); + + this.target = source.target.clone(); + this.shadow = source.shadow.clone(); + + return this; + + } + +} + +/** + * Represents a third-order spherical harmonics (SH). Light probes use this class + * to encode lighting information. + * + * - Primary reference: {@link https://graphics.stanford.edu/papers/envmap/envmap.pdf} + * - Secondary reference: {@link https://www.ppsloan.org/publications/StupidSH36.pdf} + */ +class SphericalHarmonics3 { + + /** + * Constructs a new spherical harmonics. + */ + constructor() { + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isSphericalHarmonics3 = true; + + /** + * An array holding the (9) SH coefficients. + * + * @type {Array} + */ + this.coefficients = []; + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients.push( new Vector3() ); + + } + + } + + /** + * Sets the given SH coefficients to this instance by copying + * the values. + * + * @param {Array} coefficients - The SH coefficients. + * @return {SphericalHarmonics3} A reference to this spherical harmonics. + */ + set( coefficients ) { + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients[ i ].copy( coefficients[ i ] ); + + } + + return this; + + } + + /** + * Sets all SH coefficients to `0`. + * + * @return {SphericalHarmonics3} A reference to this spherical harmonics. + */ + zero() { + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients[ i ].set( 0, 0, 0 ); + + } + + return this; + + } + + /** + * Returns the radiance in the direction of the given normal. + * + * @param {Vector3} normal - The normal vector (assumed to be unit length) + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The radiance. + */ + getAt( normal, target ) { + + // normal is assumed to be unit length + + const x = normal.x, y = normal.y, z = normal.z; + + const coeff = this.coefficients; + + // band 0 + target.copy( coeff[ 0 ] ).multiplyScalar( 0.282095 ); + + // band 1 + target.addScaledVector( coeff[ 1 ], 0.488603 * y ); + target.addScaledVector( coeff[ 2 ], 0.488603 * z ); + target.addScaledVector( coeff[ 3 ], 0.488603 * x ); + + // band 2 + target.addScaledVector( coeff[ 4 ], 1.092548 * ( x * y ) ); + target.addScaledVector( coeff[ 5 ], 1.092548 * ( y * z ) ); + target.addScaledVector( coeff[ 6 ], 0.315392 * ( 3.0 * z * z - 1.0 ) ); + target.addScaledVector( coeff[ 7 ], 1.092548 * ( x * z ) ); + target.addScaledVector( coeff[ 8 ], 0.546274 * ( x * x - y * y ) ); + + return target; + + } + + /** + * Returns the irradiance (radiance convolved with cosine lobe) in the + * direction of the given normal. + * + * @param {Vector3} normal - The normal vector (assumed to be unit length) + * @param {Vector3} target - The target vector that is used to store the method's result. + * @return {Vector3} The irradiance. + */ + getIrradianceAt( normal, target ) { + + // normal is assumed to be unit length + + const x = normal.x, y = normal.y, z = normal.z; + + const coeff = this.coefficients; + + // band 0 + target.copy( coeff[ 0 ] ).multiplyScalar( 0.886227 ); // π * 0.282095 + + // band 1 + target.addScaledVector( coeff[ 1 ], 2.0 * 0.511664 * y ); // ( 2 * π / 3 ) * 0.488603 + target.addScaledVector( coeff[ 2 ], 2.0 * 0.511664 * z ); + target.addScaledVector( coeff[ 3 ], 2.0 * 0.511664 * x ); + + // band 2 + target.addScaledVector( coeff[ 4 ], 2.0 * 0.429043 * x * y ); // ( π / 4 ) * 1.092548 + target.addScaledVector( coeff[ 5 ], 2.0 * 0.429043 * y * z ); + target.addScaledVector( coeff[ 6 ], 0.743125 * z * z - 0.247708 ); // ( π / 4 ) * 0.315392 * 3 + target.addScaledVector( coeff[ 7 ], 2.0 * 0.429043 * x * z ); + target.addScaledVector( coeff[ 8 ], 0.429043 * ( x * x - y * y ) ); // ( π / 4 ) * 0.546274 + + return target; + + } + + /** + * Adds the given SH to this instance. + * + * @param {SphericalHarmonics3} sh - The SH to add. + * @return {SphericalHarmonics3} A reference to this spherical harmonics. + */ + add( sh ) { + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients[ i ].add( sh.coefficients[ i ] ); + + } + + return this; + + } + + /** + * A convenience method for performing {@link SphericalHarmonics3#add} and + * {@link SphericalHarmonics3#scale} at once. + * + * @param {SphericalHarmonics3} sh - The SH to add. + * @param {number} s - The scale factor. + * @return {SphericalHarmonics3} A reference to this spherical harmonics. + */ + addScaledSH( sh, s ) { + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients[ i ].addScaledVector( sh.coefficients[ i ], s ); + + } + + return this; + + } + + /** + * Scales this SH by the given scale factor. + * + * @param {number} s - The scale factor. + * @return {SphericalHarmonics3} A reference to this spherical harmonics. + */ + scale( s ) { + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients[ i ].multiplyScalar( s ); + + } + + return this; + + } + + /** + * Linear interpolates between the given SH and this instance by the given + * alpha factor. + * + * @param {SphericalHarmonics3} sh - The SH to interpolate with. + * @param {number} alpha - The alpha factor. + * @return {SphericalHarmonics3} A reference to this spherical harmonics. + */ + lerp( sh, alpha ) { + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients[ i ].lerp( sh.coefficients[ i ], alpha ); + + } + + return this; + + } + + /** + * Returns `true` if this spherical harmonics is equal with the given one. + * + * @param {SphericalHarmonics3} sh - The spherical harmonics to test for equality. + * @return {boolean} Whether this spherical harmonics is equal with the given one. + */ + equals( sh ) { + + for ( let i = 0; i < 9; i ++ ) { + + if ( ! this.coefficients[ i ].equals( sh.coefficients[ i ] ) ) { + + return false; + + } + + } + + return true; + + } + + /** + * Copies the values of the given spherical harmonics to this instance. + * + * @param {SphericalHarmonics3} sh - The spherical harmonics to copy. + * @return {SphericalHarmonics3} A reference to this spherical harmonics. + */ + copy( sh ) { + + return this.set( sh.coefficients ); + + } + + /** + * Returns a new spherical harmonics with copied values from this instance. + * + * @return {SphericalHarmonics3} A clone of this instance. + */ + clone() { + + return new this.constructor().copy( this ); + + } + + /** + * Sets the SH coefficients of this instance from the given array. + * + * @param {Array} array - An array holding the SH coefficients. + * @param {number} [offset=0] - The array offset where to start copying. + * @return {SphericalHarmonics3} A clone of this instance. + */ + fromArray( array, offset = 0 ) { + + const coefficients = this.coefficients; + + for ( let i = 0; i < 9; i ++ ) { + + coefficients[ i ].fromArray( array, offset + ( i * 3 ) ); + + } + + return this; + + } + + /** + * Returns an array with the SH coefficients, or copies them into the provided + * array. The coefficients are represented as numbers. + * + * @param {Array} [array=[]] - The target array. + * @param {number} [offset=0] - The array offset where to start copying. + * @return {Array} An array with flat SH coefficients. + */ + toArray( array = [], offset = 0 ) { + + const coefficients = this.coefficients; + + for ( let i = 0; i < 9; i ++ ) { + + coefficients[ i ].toArray( array, offset + ( i * 3 ) ); + + } + + return array; + + } + + /** + * Computes the SH basis for the given normal vector. + * + * @param {Vector3} normal - The normal. + * @param {Array} shBasis - The target array holding the SH basis. + */ + static getBasisAt( normal, shBasis ) { + + // normal is assumed to be unit length + + const x = normal.x, y = normal.y, z = normal.z; + + // band 0 + shBasis[ 0 ] = 0.282095; + + // band 1 + shBasis[ 1 ] = 0.488603 * y; + shBasis[ 2 ] = 0.488603 * z; + shBasis[ 3 ] = 0.488603 * x; + + // band 2 + shBasis[ 4 ] = 1.092548 * x * y; + shBasis[ 5 ] = 1.092548 * y * z; + shBasis[ 6 ] = 0.315392 * ( 3 * z * z - 1 ); + shBasis[ 7 ] = 1.092548 * x * z; + shBasis[ 8 ] = 0.546274 * ( x * x - y * y ); + + } + +} + +/** + * Light probes are an alternative way of adding light to a 3D scene. Unlike + * classical light sources (e.g. directional, point or spot lights), light + * probes do not emit light. Instead they store information about light + * passing through 3D space. During rendering, the light that hits a 3D + * object is approximated by using the data from the light probe. + * + * Light probes are usually created from (radiance) environment maps. The + * class {@link LightProbeGenerator} can be used to create light probes from + * cube textures or render targets. However, light estimation data could also + * be provided in other forms e.g. by WebXR. This enables the rendering of + * augmented reality content that reacts to real world lighting. + * + * The current probe implementation in three.js supports so-called diffuse + * light probes. This type of light probe is functionally equivalent to an + * irradiance environment map. + * + * @augments Light + */ +class LightProbe extends Light { + + /** + * Constructs a new light probe. + * + * @param {SphericalHarmonics3} sh - The spherical harmonics which represents encoded lighting information. + * @param {number} [intensity=1] - The light's strength/intensity. + */ + constructor( sh = new SphericalHarmonics3(), intensity = 1 ) { + + super( undefined, intensity ); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isLightProbe = true; + + /** + * A light probe uses spherical harmonics to encode lighting information. + * + * @type {SphericalHarmonics3} + */ + this.sh = sh; + + } + + copy( source ) { + + super.copy( source ); + + this.sh.copy( source.sh ); + + return this; + + } + + /** + * Deserializes the light prove from the given JSON. + * + * @param {Object} json - The JSON holding the serialized light probe. + * @return {LightProbe} A reference to this light probe. + */ + fromJSON( json ) { + + this.intensity = json.intensity; // TODO: Move this bit to Light.fromJSON(); + this.sh.fromArray( json.sh ); + + return this; + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + data.object.sh = this.sh.toArray(); + + return data; + + } + +} + +class LoaderUtils { + + static decodeText( array ) { // @deprecated, r165 + + console.warn( 'THREE.LoaderUtils: decodeText() has been deprecated with r165 and will be removed with r175. Use TextDecoder instead.' ); + + if ( typeof TextDecoder !== 'undefined' ) { + + return new TextDecoder().decode( array ); + + } + + // Avoid the String.fromCharCode.apply(null, array) shortcut, which + // throws a "maximum call stack size exceeded" error for large arrays. + + let s = ''; + + for ( let i = 0, il = array.length; i < il; i ++ ) { + + // Implicitly assumes little-endian. + s += String.fromCharCode( array[ i ] ); + + } + + try { + + // merges multi-byte utf-8 characters. + + return decodeURIComponent( escape( s ) ); + + } catch ( e ) { // see #16358 + + return s; + + } + + } + + static extractUrlBase( url ) { + + const index = url.lastIndexOf( '/' ); + + if ( index === -1 ) return './'; + + return url.slice( 0, index + 1 ); + + } + + static resolveURL( url, path ) { + + // Invalid URL + if ( typeof url !== 'string' || url === '' ) return ''; + + // Host Relative URL + if ( /^https?:\/\//i.test( path ) && /^\//.test( url ) ) { + + path = path.replace( /(^https?:\/\/[^\/]+).*/i, '$1' ); + + } + + // Absolute URL http://,https://,// + if ( /^(https?:)?\/\//i.test( url ) ) return url; + + // Data URI + if ( /^data:.*,.*$/i.test( url ) ) return url; + + // Blob URL + if ( /^blob:.*$/i.test( url ) ) return url; + + // Relative URL + return path + url; + + } + +} + +class ImageBitmapLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + this.isImageBitmapLoader = true; + + if ( typeof createImageBitmap === 'undefined' ) { + + console.warn( 'THREE.ImageBitmapLoader: createImageBitmap() not supported.' ); + + } + + if ( typeof fetch === 'undefined' ) { + + console.warn( 'THREE.ImageBitmapLoader: fetch() not supported.' ); + + } + + this.options = { premultiplyAlpha: 'none' }; + + } + + setOptions( options ) { + + this.options = options; + + return this; + + } + + load( url, onLoad, onProgress, onError ) { + + if ( url === undefined ) url = ''; + + if ( this.path !== undefined ) url = this.path + url; + + url = this.manager.resolveURL( url ); + + const scope = this; + + const cached = Cache.get( url ); + + if ( cached !== undefined ) { + + scope.manager.itemStart( url ); + + // If cached is a promise, wait for it to resolve + if ( cached.then ) { + + cached.then( imageBitmap => { + + if ( onLoad ) onLoad( imageBitmap ); + + scope.manager.itemEnd( url ); + + } ).catch( e => { + + if ( onError ) onError( e ); + + } ); + return; + + } + + // If cached is not a promise (i.e., it's already an imageBitmap) + setTimeout( function () { + + if ( onLoad ) onLoad( cached ); + + scope.manager.itemEnd( url ); + + }, 0 ); + + return cached; + + } + + const fetchOptions = {}; + fetchOptions.credentials = ( this.crossOrigin === 'anonymous' ) ? 'same-origin' : 'include'; + fetchOptions.headers = this.requestHeader; + + const promise = fetch( url, fetchOptions ).then( function ( res ) { + + return res.blob(); + + } ).then( function ( blob ) { + + return createImageBitmap( blob, Object.assign( scope.options, { colorSpaceConversion: 'none' } ) ); + + } ).then( function ( imageBitmap ) { + + Cache.add( url, imageBitmap ); + + if ( onLoad ) onLoad( imageBitmap ); + + scope.manager.itemEnd( url ); + + return imageBitmap; + + } ).catch( function ( e ) { + + if ( onError ) onError( e ); + + Cache.remove( url ); + + scope.manager.itemError( url ); + scope.manager.itemEnd( url ); + + } ); + + Cache.add( url, promise ); + scope.manager.itemStart( url ); + + } + +} + +/** + * This type of camera can be used in order to efficiently render a scene with a + * predefined set of cameras. This is an important performance aspect for + * rendering VR scenes. + * + * An instance of `ArrayCamera` always has an array of sub cameras. It's mandatory + * to define for each sub camera the `viewport` property which determines the + * part of the viewport that is rendered with this camera. + * + * @augments PerspectiveCamera + */ +class ArrayCamera extends PerspectiveCamera { + + /** + * Constructs a new array camera. + * + * @param {Array} [array=[]] - An array of perspective sub cameras. + */ + constructor( array = [] ) { + + super(); + + /** + * This flag can be used for type testing. + * + * @type {boolean} + * @readonly + * @default true + */ + this.isArrayCamera = true; + + /** + * An array of perspective sub cameras. + * + * @type {Array} + */ + this.cameras = array; + this.index = 0; + + } + +} + +class PropertyMixer { + + constructor( binding, typeName, valueSize ) { + + this.binding = binding; + this.valueSize = valueSize; + + let mixFunction, + mixFunctionAdditive, + setIdentity; + + // buffer layout: [ incoming | accu0 | accu1 | orig | addAccu | (optional work) ] + // + // interpolators can use .buffer as their .result + // the data then goes to 'incoming' + // + // 'accu0' and 'accu1' are used frame-interleaved for + // the cumulative result and are compared to detect + // changes + // + // 'orig' stores the original state of the property + // + // 'add' is used for additive cumulative results + // + // 'work' is optional and is only present for quaternion types. It is used + // to store intermediate quaternion multiplication results + + switch ( typeName ) { + + case 'quaternion': + mixFunction = this._slerp; + mixFunctionAdditive = this._slerpAdditive; + setIdentity = this._setAdditiveIdentityQuaternion; + + this.buffer = new Float64Array( valueSize * 6 ); + this._workIndex = 5; + break; + + case 'string': + case 'bool': + mixFunction = this._select; + + // Use the regular mix function and for additive on these types, + // additive is not relevant for non-numeric types + mixFunctionAdditive = this._select; + + setIdentity = this._setAdditiveIdentityOther; + + this.buffer = new Array( valueSize * 5 ); + break; + + default: + mixFunction = this._lerp; + mixFunctionAdditive = this._lerpAdditive; + setIdentity = this._setAdditiveIdentityNumeric; + + this.buffer = new Float64Array( valueSize * 5 ); + + } + + this._mixBufferRegion = mixFunction; + this._mixBufferRegionAdditive = mixFunctionAdditive; + this._setIdentity = setIdentity; + this._origIndex = 3; + this._addIndex = 4; + + this.cumulativeWeight = 0; + this.cumulativeWeightAdditive = 0; + + this.useCount = 0; + this.referenceCount = 0; + + } + + // accumulate data in the 'incoming' region into 'accu' + accumulate( accuIndex, weight ) { + + // note: happily accumulating nothing when weight = 0, the caller knows + // the weight and shouldn't have made the call in the first place + + const buffer = this.buffer, + stride = this.valueSize, + offset = accuIndex * stride + stride; + + let currentWeight = this.cumulativeWeight; + + if ( currentWeight === 0 ) { + + // accuN := incoming * weight + + for ( let i = 0; i !== stride; ++ i ) { + + buffer[ offset + i ] = buffer[ i ]; + + } + + currentWeight = weight; + + } else { + + // accuN := accuN + incoming * weight + + currentWeight += weight; + const mix = weight / currentWeight; + this._mixBufferRegion( buffer, offset, 0, mix, stride ); + + } + + this.cumulativeWeight = currentWeight; + + } + + // accumulate data in the 'incoming' region into 'add' + accumulateAdditive( weight ) { + + const buffer = this.buffer, + stride = this.valueSize, + offset = stride * this._addIndex; + + if ( this.cumulativeWeightAdditive === 0 ) { + + // add = identity + + this._setIdentity(); + + } + + // add := add + incoming * weight + + this._mixBufferRegionAdditive( buffer, offset, 0, weight, stride ); + this.cumulativeWeightAdditive += weight; + + } + + // apply the state of 'accu' to the binding when accus differ + apply( accuIndex ) { + + const stride = this.valueSize, + buffer = this.buffer, + offset = accuIndex * stride + stride, + + weight = this.cumulativeWeight, + weightAdditive = this.cumulativeWeightAdditive, + + binding = this.binding; + + this.cumulativeWeight = 0; + this.cumulativeWeightAdditive = 0; + + if ( weight < 1 ) { + + // accuN := accuN + original * ( 1 - cumulativeWeight ) + + const originalValueOffset = stride * this._origIndex; + + this._mixBufferRegion( + buffer, offset, originalValueOffset, 1 - weight, stride ); + + } + + if ( weightAdditive > 0 ) { + + // accuN := accuN + additive accuN + + this._mixBufferRegionAdditive( buffer, offset, this._addIndex * stride, 1, stride ); + + } + + for ( let i = stride, e = stride + stride; i !== e; ++ i ) { + + if ( buffer[ i ] !== buffer[ i + stride ] ) { + + // value has changed -> update scene graph + + binding.setValue( buffer, offset ); + break; + + } + + } + + } + + // remember the state of the bound property and copy it to both accus + saveOriginalState() { + + const binding = this.binding; + + const buffer = this.buffer, + stride = this.valueSize, + + originalValueOffset = stride * this._origIndex; + + binding.getValue( buffer, originalValueOffset ); + + // accu[0..1] := orig -- initially detect changes against the original + for ( let i = stride, e = originalValueOffset; i !== e; ++ i ) { + + buffer[ i ] = buffer[ originalValueOffset + ( i % stride ) ]; + + } + + // Add to identity for additive + this._setIdentity(); + + this.cumulativeWeight = 0; + this.cumulativeWeightAdditive = 0; + + } + + // apply the state previously taken via 'saveOriginalState' to the binding + restoreOriginalState() { + + const originalValueOffset = this.valueSize * 3; + this.binding.setValue( this.buffer, originalValueOffset ); + + } + + _setAdditiveIdentityNumeric() { + + const startIndex = this._addIndex * this.valueSize; + const endIndex = startIndex + this.valueSize; + + for ( let i = startIndex; i < endIndex; i ++ ) { + + this.buffer[ i ] = 0; + + } + + } + + _setAdditiveIdentityQuaternion() { + + this._setAdditiveIdentityNumeric(); + this.buffer[ this._addIndex * this.valueSize + 3 ] = 1; + + } + + _setAdditiveIdentityOther() { + + const startIndex = this._origIndex * this.valueSize; + const targetIndex = this._addIndex * this.valueSize; + + for ( let i = 0; i < this.valueSize; i ++ ) { + + this.buffer[ targetIndex + i ] = this.buffer[ startIndex + i ]; + + } + + } + + + // mix functions + + _select( buffer, dstOffset, srcOffset, t, stride ) { + + if ( t >= 0.5 ) { + + for ( let i = 0; i !== stride; ++ i ) { + + buffer[ dstOffset + i ] = buffer[ srcOffset + i ]; + + } + + } + + } + + _slerp( buffer, dstOffset, srcOffset, t ) { + + Quaternion.slerpFlat( buffer, dstOffset, buffer, dstOffset, buffer, srcOffset, t ); + + } + + _slerpAdditive( buffer, dstOffset, srcOffset, t, stride ) { + + const workOffset = this._workIndex * stride; + + // Store result in intermediate buffer offset + Quaternion.multiplyQuaternionsFlat( buffer, workOffset, buffer, dstOffset, buffer, srcOffset ); + + // Slerp to the intermediate result + Quaternion.slerpFlat( buffer, dstOffset, buffer, dstOffset, buffer, workOffset, t ); + + } + + _lerp( buffer, dstOffset, srcOffset, t, stride ) { + + const s = 1 - t; + + for ( let i = 0; i !== stride; ++ i ) { + + const j = dstOffset + i; + + buffer[ j ] = buffer[ j ] * s + buffer[ srcOffset + i ] * t; + + } + + } + + _lerpAdditive( buffer, dstOffset, srcOffset, t, stride ) { + + for ( let i = 0; i !== stride; ++ i ) { + + const j = dstOffset + i; + + buffer[ j ] = buffer[ j ] + buffer[ srcOffset + i ] * t; + + } + + } + +} + +// Characters [].:/ are reserved for track binding syntax. +const _RESERVED_CHARS_RE = '\\[\\]\\.:\\/'; +const _reservedRe = new RegExp( '[' + _RESERVED_CHARS_RE + ']', 'g' ); + +// Attempts to allow node names from any language. ES5's `\w` regexp matches +// only latin characters, and the unicode \p{L} is not yet supported. So +// instead, we exclude reserved characters and match everything else. +const _wordChar = '[^' + _RESERVED_CHARS_RE + ']'; +const _wordCharOrDot = '[^' + _RESERVED_CHARS_RE.replace( '\\.', '' ) + ']'; + +// Parent directories, delimited by '/' or ':'. Currently unused, but must +// be matched to parse the rest of the track name. +const _directoryRe = /*@__PURE__*/ /((?:WC+[\/:])*)/.source.replace( 'WC', _wordChar ); + +// Target node. May contain word characters (a-zA-Z0-9_) and '.' or '-'. +const _nodeRe = /*@__PURE__*/ /(WCOD+)?/.source.replace( 'WCOD', _wordCharOrDot ); + +// Object on target node, and accessor. May not contain reserved +// characters. Accessor may contain any character except closing bracket. +const _objectRe = /*@__PURE__*/ /(?:\.(WC+)(?:\[(.+)\])?)?/.source.replace( 'WC', _wordChar ); + +// Property and accessor. May not contain reserved characters. Accessor may +// contain any non-bracket characters. +const _propertyRe = /*@__PURE__*/ /\.(WC+)(?:\[(.+)\])?/.source.replace( 'WC', _wordChar ); + +const _trackRe = new RegExp( '' + + '^' + + _directoryRe + + _nodeRe + + _objectRe + + _propertyRe + + '$' +); + +const _supportedObjectNames = [ 'material', 'materials', 'bones', 'map' ]; + +class Composite { + + constructor( targetGroup, path, optionalParsedPath ) { + + const parsedPath = optionalParsedPath || PropertyBinding.parseTrackName( path ); + + this._targetGroup = targetGroup; + this._bindings = targetGroup.subscribe_( path, parsedPath ); + + } + + getValue( array, offset ) { + + this.bind(); // bind all binding + + const firstValidIndex = this._targetGroup.nCachedObjects_, + binding = this._bindings[ firstValidIndex ]; + + // and only call .getValue on the first + if ( binding !== undefined ) binding.getValue( array, offset ); + + } + + setValue( array, offset ) { + + const bindings = this._bindings; + + for ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) { + + bindings[ i ].setValue( array, offset ); + + } + + } + + bind() { + + const bindings = this._bindings; + + for ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) { + + bindings[ i ].bind(); + + } + + } + + unbind() { + + const bindings = this._bindings; + + for ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) { + + bindings[ i ].unbind(); + + } + + } + +} + +// Note: This class uses a State pattern on a per-method basis: +// 'bind' sets 'this.getValue' / 'setValue' and shadows the +// prototype version of these methods with one that represents +// the bound state. When the property is not found, the methods +// become no-ops. +class PropertyBinding { + + constructor( rootNode, path, parsedPath ) { + + this.path = path; + this.parsedPath = parsedPath || PropertyBinding.parseTrackName( path ); + + this.node = PropertyBinding.findNode( rootNode, this.parsedPath.nodeName ); + + this.rootNode = rootNode; + + // initial state of these methods that calls 'bind' + this.getValue = this._getValue_unbound; + this.setValue = this._setValue_unbound; + + } + + + static create( root, path, parsedPath ) { + + if ( ! ( root && root.isAnimationObjectGroup ) ) { + + return new PropertyBinding( root, path, parsedPath ); + + } else { + + return new PropertyBinding.Composite( root, path, parsedPath ); + + } + + } + + /** + * Replaces spaces with underscores and removes unsupported characters from + * node names, to ensure compatibility with parseTrackName(). + * + * @param {string} name Node name to be sanitized. + * @return {string} + */ + static sanitizeNodeName( name ) { + + return name.replace( /\s/g, '_' ).replace( _reservedRe, '' ); + + } + + static parseTrackName( trackName ) { + + const matches = _trackRe.exec( trackName ); + + if ( matches === null ) { + + throw new Error( 'PropertyBinding: Cannot parse trackName: ' + trackName ); + + } + + const results = { + // directoryName: matches[ 1 ], // (tschw) currently unused + nodeName: matches[ 2 ], + objectName: matches[ 3 ], + objectIndex: matches[ 4 ], + propertyName: matches[ 5 ], // required + propertyIndex: matches[ 6 ] + }; + + const lastDot = results.nodeName && results.nodeName.lastIndexOf( '.' ); + + if ( lastDot !== undefined && lastDot !== -1 ) { + + const objectName = results.nodeName.substring( lastDot + 1 ); + + // Object names must be checked against an allowlist. Otherwise, there + // is no way to parse 'foo.bar.baz': 'baz' must be a property, but + // 'bar' could be the objectName, or part of a nodeName (which can + // include '.' characters). + if ( _supportedObjectNames.indexOf( objectName ) !== -1 ) { + + results.nodeName = results.nodeName.substring( 0, lastDot ); + results.objectName = objectName; + + } + + } + + if ( results.propertyName === null || results.propertyName.length === 0 ) { + + throw new Error( 'PropertyBinding: can not parse propertyName from trackName: ' + trackName ); + + } + + return results; + + } + + static findNode( root, nodeName ) { + + if ( nodeName === undefined || nodeName === '' || nodeName === '.' || nodeName === -1 || nodeName === root.name || nodeName === root.uuid ) { + + return root; + + } + + // search into skeleton bones. + if ( root.skeleton ) { + + const bone = root.skeleton.getBoneByName( nodeName ); + + if ( bone !== undefined ) { + + return bone; + + } + + } + + // search into node subtree. + if ( root.children ) { + + const searchNodeSubtree = function ( children ) { + + for ( let i = 0; i < children.length; i ++ ) { + + const childNode = children[ i ]; + + if ( childNode.name === nodeName || childNode.uuid === nodeName ) { + + return childNode; + + } + + const result = searchNodeSubtree( childNode.children ); + + if ( result ) return result; + + } + + return null; + + }; + + const subTreeNode = searchNodeSubtree( root.children ); + + if ( subTreeNode ) { + + return subTreeNode; + + } + + } + + return null; + + } + + // these are used to "bind" a nonexistent property + _getValue_unavailable() {} + _setValue_unavailable() {} + + // Getters + + _getValue_direct( buffer, offset ) { + + buffer[ offset ] = this.targetObject[ this.propertyName ]; + + } + + _getValue_array( buffer, offset ) { + + const source = this.resolvedProperty; + + for ( let i = 0, n = source.length; i !== n; ++ i ) { + + buffer[ offset ++ ] = source[ i ]; + + } + + } + + _getValue_arrayElement( buffer, offset ) { + + buffer[ offset ] = this.resolvedProperty[ this.propertyIndex ]; + + } + + _getValue_toArray( buffer, offset ) { + + this.resolvedProperty.toArray( buffer, offset ); + + } + + // Direct + + _setValue_direct( buffer, offset ) { + + this.targetObject[ this.propertyName ] = buffer[ offset ]; + + } + + _setValue_direct_setNeedsUpdate( buffer, offset ) { + + this.targetObject[ this.propertyName ] = buffer[ offset ]; + this.targetObject.needsUpdate = true; + + } + + _setValue_direct_setMatrixWorldNeedsUpdate( buffer, offset ) { + + this.targetObject[ this.propertyName ] = buffer[ offset ]; + this.targetObject.matrixWorldNeedsUpdate = true; + + } + + // EntireArray + + _setValue_array( buffer, offset ) { + + const dest = this.resolvedProperty; + + for ( let i = 0, n = dest.length; i !== n; ++ i ) { + + dest[ i ] = buffer[ offset ++ ]; + + } + + } + + _setValue_array_setNeedsUpdate( buffer, offset ) { + + const dest = this.resolvedProperty; + + for ( let i = 0, n = dest.length; i !== n; ++ i ) { + + dest[ i ] = buffer[ offset ++ ]; + + } + + this.targetObject.needsUpdate = true; + + } + + _setValue_array_setMatrixWorldNeedsUpdate( buffer, offset ) { + + const dest = this.resolvedProperty; + + for ( let i = 0, n = dest.length; i !== n; ++ i ) { + + dest[ i ] = buffer[ offset ++ ]; + + } + + this.targetObject.matrixWorldNeedsUpdate = true; + + } + + // ArrayElement + + _setValue_arrayElement( buffer, offset ) { + + this.resolvedProperty[ this.propertyIndex ] = buffer[ offset ]; + + } + + _setValue_arrayElement_setNeedsUpdate( buffer, offset ) { + + this.resolvedProperty[ this.propertyIndex ] = buffer[ offset ]; + this.targetObject.needsUpdate = true; + + } + + _setValue_arrayElement_setMatrixWorldNeedsUpdate( buffer, offset ) { + + this.resolvedProperty[ this.propertyIndex ] = buffer[ offset ]; + this.targetObject.matrixWorldNeedsUpdate = true; + + } + + // HasToFromArray + + _setValue_fromArray( buffer, offset ) { + + this.resolvedProperty.fromArray( buffer, offset ); + + } + + _setValue_fromArray_setNeedsUpdate( buffer, offset ) { + + this.resolvedProperty.fromArray( buffer, offset ); + this.targetObject.needsUpdate = true; + + } + + _setValue_fromArray_setMatrixWorldNeedsUpdate( buffer, offset ) { + + this.resolvedProperty.fromArray( buffer, offset ); + this.targetObject.matrixWorldNeedsUpdate = true; + + } + + _getValue_unbound( targetArray, offset ) { + + this.bind(); + this.getValue( targetArray, offset ); + + } + + _setValue_unbound( sourceArray, offset ) { + + this.bind(); + this.setValue( sourceArray, offset ); + + } + + // create getter / setter pair for a property in the scene graph + bind() { + + let targetObject = this.node; + const parsedPath = this.parsedPath; + + const objectName = parsedPath.objectName; + const propertyName = parsedPath.propertyName; + let propertyIndex = parsedPath.propertyIndex; + + if ( ! targetObject ) { + + targetObject = PropertyBinding.findNode( this.rootNode, parsedPath.nodeName ); + + this.node = targetObject; + + } + + // set fail state so we can just 'return' on error + this.getValue = this._getValue_unavailable; + this.setValue = this._setValue_unavailable; + + // ensure there is a value node + if ( ! targetObject ) { + + console.warn( 'THREE.PropertyBinding: No target node found for track: ' + this.path + '.' ); + return; + + } + + if ( objectName ) { + + let objectIndex = parsedPath.objectIndex; + + // special cases were we need to reach deeper into the hierarchy to get the face materials.... + switch ( objectName ) { + + case 'materials': + + if ( ! targetObject.material ) { + + console.error( 'THREE.PropertyBinding: Can not bind to material as node does not have a material.', this ); + return; + + } + + if ( ! targetObject.material.materials ) { + + console.error( 'THREE.PropertyBinding: Can not bind to material.materials as node.material does not have a materials array.', this ); + return; + + } + + targetObject = targetObject.material.materials; + + break; + + case 'bones': + + if ( ! targetObject.skeleton ) { + + console.error( 'THREE.PropertyBinding: Can not bind to bones as node does not have a skeleton.', this ); + return; + + } + + // potential future optimization: skip this if propertyIndex is already an integer + // and convert the integer string to a true integer. + + targetObject = targetObject.skeleton.bones; + + // support resolving morphTarget names into indices. + for ( let i = 0; i < targetObject.length; i ++ ) { + + if ( targetObject[ i ].name === objectIndex ) { + + objectIndex = i; + break; + + } + + } + + break; + + case 'map': + + if ( 'map' in targetObject ) { + + targetObject = targetObject.map; + break; + + } + + if ( ! targetObject.material ) { + + console.error( 'THREE.PropertyBinding: Can not bind to material as node does not have a material.', this ); + return; + + } + + if ( ! targetObject.material.map ) { + + console.error( 'THREE.PropertyBinding: Can not bind to material.map as node.material does not have a map.', this ); + return; + + } + + targetObject = targetObject.material.map; + break; + + default: + + if ( targetObject[ objectName ] === undefined ) { + + console.error( 'THREE.PropertyBinding: Can not bind to objectName of node undefined.', this ); + return; + + } + + targetObject = targetObject[ objectName ]; + + } + + + if ( objectIndex !== undefined ) { + + if ( targetObject[ objectIndex ] === undefined ) { + + console.error( 'THREE.PropertyBinding: Trying to bind to objectIndex of objectName, but is undefined.', this, targetObject ); + return; + + } + + targetObject = targetObject[ objectIndex ]; + + } + + } + + // resolve property + const nodeProperty = targetObject[ propertyName ]; + + if ( nodeProperty === undefined ) { + + const nodeName = parsedPath.nodeName; + + console.error( 'THREE.PropertyBinding: Trying to update property for track: ' + nodeName + + '.' + propertyName + ' but it wasn\'t found.', targetObject ); + return; + + } + + // determine versioning scheme + let versioning = this.Versioning.None; + + this.targetObject = targetObject; + + if ( targetObject.isMaterial === true ) { + + versioning = this.Versioning.NeedsUpdate; + + } else if ( targetObject.isObject3D === true ) { + + versioning = this.Versioning.MatrixWorldNeedsUpdate; + + } + + // determine how the property gets bound + let bindingType = this.BindingType.Direct; + + if ( propertyIndex !== undefined ) { + + // access a sub element of the property array (only primitives are supported right now) + + if ( propertyName === 'morphTargetInfluences' ) { + + // potential optimization, skip this if propertyIndex is already an integer, and convert the integer string to a true integer. + + // support resolving morphTarget names into indices. + if ( ! targetObject.geometry ) { + + console.error( 'THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.', this ); + return; + + } + + if ( ! targetObject.geometry.morphAttributes ) { + + console.error( 'THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.morphAttributes.', this ); + return; + + } + + if ( targetObject.morphTargetDictionary[ propertyIndex ] !== undefined ) { + + propertyIndex = targetObject.morphTargetDictionary[ propertyIndex ]; + + } + + } + + bindingType = this.BindingType.ArrayElement; + + this.resolvedProperty = nodeProperty; + this.propertyIndex = propertyIndex; + + } else if ( nodeProperty.fromArray !== undefined && nodeProperty.toArray !== undefined ) { + + // must use copy for Object3D.Euler/Quaternion + + bindingType = this.BindingType.HasFromToArray; + + this.resolvedProperty = nodeProperty; + + } else if ( Array.isArray( nodeProperty ) ) { + + bindingType = this.BindingType.EntireArray; + + this.resolvedProperty = nodeProperty; + + } else { + + this.propertyName = propertyName; + + } + + // select getter / setter + this.getValue = this.GetterByBindingType[ bindingType ]; + this.setValue = this.SetterByBindingTypeAndVersioning[ bindingType ][ versioning ]; + + } + + unbind() { + + this.node = null; + + // back to the prototype version of getValue / setValue + // note: avoiding to mutate the shape of 'this' via 'delete' + this.getValue = this._getValue_unbound; + this.setValue = this._setValue_unbound; + + } + +} + +PropertyBinding.Composite = Composite; + +PropertyBinding.prototype.BindingType = { + Direct: 0, + EntireArray: 1, + ArrayElement: 2, + HasFromToArray: 3 +}; + +PropertyBinding.prototype.Versioning = { + None: 0, + NeedsUpdate: 1, + MatrixWorldNeedsUpdate: 2 +}; + +PropertyBinding.prototype.GetterByBindingType = [ + + PropertyBinding.prototype._getValue_direct, + PropertyBinding.prototype._getValue_array, + PropertyBinding.prototype._getValue_arrayElement, + PropertyBinding.prototype._getValue_toArray, + +]; + +PropertyBinding.prototype.SetterByBindingTypeAndVersioning = [ + + [ + // Direct + PropertyBinding.prototype._setValue_direct, + PropertyBinding.prototype._setValue_direct_setNeedsUpdate, + PropertyBinding.prototype._setValue_direct_setMatrixWorldNeedsUpdate, + + ], [ + + // EntireArray + + PropertyBinding.prototype._setValue_array, + PropertyBinding.prototype._setValue_array_setNeedsUpdate, + PropertyBinding.prototype._setValue_array_setMatrixWorldNeedsUpdate, + + ], [ + + // ArrayElement + PropertyBinding.prototype._setValue_arrayElement, + PropertyBinding.prototype._setValue_arrayElement_setNeedsUpdate, + PropertyBinding.prototype._setValue_arrayElement_setMatrixWorldNeedsUpdate, + + ], [ + + // HasToFromArray + PropertyBinding.prototype._setValue_fromArray, + PropertyBinding.prototype._setValue_fromArray_setNeedsUpdate, + PropertyBinding.prototype._setValue_fromArray_setMatrixWorldNeedsUpdate, + + ] + +]; + +class AnimationAction { + + constructor( mixer, clip, localRoot = null, blendMode = clip.blendMode ) { + + this._mixer = mixer; + this._clip = clip; + this._localRoot = localRoot; + this.blendMode = blendMode; + + const tracks = clip.tracks, + nTracks = tracks.length, + interpolants = new Array( nTracks ); + + const interpolantSettings = { + endingStart: ZeroCurvatureEnding, + endingEnd: ZeroCurvatureEnding + }; + + for ( let i = 0; i !== nTracks; ++ i ) { + + const interpolant = tracks[ i ].createInterpolant( null ); + interpolants[ i ] = interpolant; + interpolant.settings = interpolantSettings; + + } + + this._interpolantSettings = interpolantSettings; + + this._interpolants = interpolants; // bound by the mixer + + // inside: PropertyMixer (managed by the mixer) + this._propertyBindings = new Array( nTracks ); + + this._cacheIndex = null; // for the memory manager + this._byClipCacheIndex = null; // for the memory manager + + this._timeScaleInterpolant = null; + this._weightInterpolant = null; + + this.loop = LoopRepeat; + this._loopCount = -1; + + // global mixer time when the action is to be started + // it's set back to 'null' upon start of the action + this._startTime = null; + + // scaled local time of the action + // gets clamped or wrapped to 0..clip.duration according to loop + this.time = 0; + + this.timeScale = 1; + this._effectiveTimeScale = 1; + + this.weight = 1; + this._effectiveWeight = 1; + + this.repetitions = Infinity; // no. of repetitions when looping + + this.paused = false; // true -> zero effective time scale + this.enabled = true; // false -> zero effective weight + + this.clampWhenFinished = false;// keep feeding the last frame? + + this.zeroSlopeAtStart = true;// for smooth interpolation w/o separate + this.zeroSlopeAtEnd = true;// clips for start, loop and end + + } + + // State & Scheduling + + play() { + + this._mixer._activateAction( this ); + + return this; + + } + + stop() { + + this._mixer._deactivateAction( this ); + + return this.reset(); + + } + + reset() { + + this.paused = false; + this.enabled = true; + + this.time = 0; // restart clip + this._loopCount = -1;// forget previous loops + this._startTime = null;// forget scheduling + + return this.stopFading().stopWarping(); + + } + + isRunning() { + + return this.enabled && ! this.paused && this.timeScale !== 0 && + this._startTime === null && this._mixer._isActiveAction( this ); + + } + + // return true when play has been called + isScheduled() { + + return this._mixer._isActiveAction( this ); + + } + + startAt( time ) { + + this._startTime = time; + + return this; + + } + + setLoop( mode, repetitions ) { + + this.loop = mode; + this.repetitions = repetitions; + + return this; + + } + + // Weight + + // set the weight stopping any scheduled fading + // although .enabled = false yields an effective weight of zero, this + // method does *not* change .enabled, because it would be confusing + setEffectiveWeight( weight ) { + + this.weight = weight; + + // note: same logic as when updated at runtime + this._effectiveWeight = this.enabled ? weight : 0; + + return this.stopFading(); + + } + + // return the weight considering fading and .enabled + getEffectiveWeight() { + + return this._effectiveWeight; + + } + + fadeIn( duration ) { + + return this._scheduleFading( duration, 0, 1 ); + + } + + fadeOut( duration ) { + + return this._scheduleFading( duration, 1, 0 ); + + } + + crossFadeFrom( fadeOutAction, duration, warp ) { + + fadeOutAction.fadeOut( duration ); + this.fadeIn( duration ); + + if ( warp ) { + + const fadeInDuration = this._clip.duration, + fadeOutDuration = fadeOutAction._clip.duration, + + startEndRatio = fadeOutDuration / fadeInDuration, + endStartRatio = fadeInDuration / fadeOutDuration; + + fadeOutAction.warp( 1.0, startEndRatio, duration ); + this.warp( endStartRatio, 1.0, duration ); + + } + + return this; + + } + + crossFadeTo( fadeInAction, duration, warp ) { + + return fadeInAction.crossFadeFrom( this, duration, warp ); + + } + + stopFading() { + + const weightInterpolant = this._weightInterpolant; + + if ( weightInterpolant !== null ) { + + this._weightInterpolant = null; + this._mixer._takeBackControlInterpolant( weightInterpolant ); + + } + + return this; + + } + + // Time Scale Control + + // set the time scale stopping any scheduled warping + // although .paused = true yields an effective time scale of zero, this + // method does *not* change .paused, because it would be confusing + setEffectiveTimeScale( timeScale ) { + + this.timeScale = timeScale; + this._effectiveTimeScale = this.paused ? 0 : timeScale; + + return this.stopWarping(); + + } + + // return the time scale considering warping and .paused + getEffectiveTimeScale() { + + return this._effectiveTimeScale; + + } + + setDuration( duration ) { + + this.timeScale = this._clip.duration / duration; + + return this.stopWarping(); + + } + + syncWith( action ) { + + this.time = action.time; + this.timeScale = action.timeScale; + + return this.stopWarping(); + + } + + halt( duration ) { + + return this.warp( this._effectiveTimeScale, 0, duration ); + + } + + warp( startTimeScale, endTimeScale, duration ) { + + const mixer = this._mixer, + now = mixer.time, + timeScale = this.timeScale; + + let interpolant = this._timeScaleInterpolant; + + if ( interpolant === null ) { + + interpolant = mixer._lendControlInterpolant(); + this._timeScaleInterpolant = interpolant; + + } + + const times = interpolant.parameterPositions, + values = interpolant.sampleValues; + + times[ 0 ] = now; + times[ 1 ] = now + duration; + + values[ 0 ] = startTimeScale / timeScale; + values[ 1 ] = endTimeScale / timeScale; + + return this; + + } + + stopWarping() { + + const timeScaleInterpolant = this._timeScaleInterpolant; + + if ( timeScaleInterpolant !== null ) { + + this._timeScaleInterpolant = null; + this._mixer._takeBackControlInterpolant( timeScaleInterpolant ); + + } + + return this; + + } + + // Object Accessors + + getMixer() { + + return this._mixer; + + } + + getClip() { + + return this._clip; + + } + + getRoot() { + + return this._localRoot || this._mixer._root; + + } + + // Interna + + _update( time, deltaTime, timeDirection, accuIndex ) { + + // called by the mixer + + if ( ! this.enabled ) { + + // call ._updateWeight() to update ._effectiveWeight + + this._updateWeight( time ); + return; + + } + + const startTime = this._startTime; + + if ( startTime !== null ) { + + // check for scheduled start of action + + const timeRunning = ( time - startTime ) * timeDirection; + if ( timeRunning < 0 || timeDirection === 0 ) { + + deltaTime = 0; + + } else { + + + this._startTime = null; // unschedule + deltaTime = timeDirection * timeRunning; + + } + + } + + // apply time scale and advance time + + deltaTime *= this._updateTimeScale( time ); + const clipTime = this._updateTime( deltaTime ); + + // note: _updateTime may disable the action resulting in + // an effective weight of 0 + + const weight = this._updateWeight( time ); + + if ( weight > 0 ) { + + const interpolants = this._interpolants; + const propertyMixers = this._propertyBindings; + + switch ( this.blendMode ) { + + case AdditiveAnimationBlendMode: + + for ( let j = 0, m = interpolants.length; j !== m; ++ j ) { + + interpolants[ j ].evaluate( clipTime ); + propertyMixers[ j ].accumulateAdditive( weight ); + + } + + break; + + case NormalAnimationBlendMode: + default: + + for ( let j = 0, m = interpolants.length; j !== m; ++ j ) { + + interpolants[ j ].evaluate( clipTime ); + propertyMixers[ j ].accumulate( accuIndex, weight ); + + } + + } + + } + + } + + _updateWeight( time ) { + + let weight = 0; + + if ( this.enabled ) { + + weight = this.weight; + const interpolant = this._weightInterpolant; + + if ( interpolant !== null ) { + + const interpolantValue = interpolant.evaluate( time )[ 0 ]; + + weight *= interpolantValue; + + if ( time > interpolant.parameterPositions[ 1 ] ) { + + this.stopFading(); + + if ( interpolantValue === 0 ) { + + // faded out, disable + this.enabled = false; + + } + + } + + } + + } + + this._effectiveWeight = weight; + return weight; + + } + + _updateTimeScale( time ) { + + let timeScale = 0; + + if ( ! this.paused ) { + + timeScale = this.timeScale; + + const interpolant = this._timeScaleInterpolant; + + if ( interpolant !== null ) { + + const interpolantValue = interpolant.evaluate( time )[ 0 ]; + + timeScale *= interpolantValue; + + if ( time > interpolant.parameterPositions[ 1 ] ) { + + this.stopWarping(); + + if ( timeScale === 0 ) { + + // motion has halted, pause + this.paused = true; + + } else { + + // warp done - apply final time scale + this.timeScale = timeScale; + + } + + } + + } + + } + + this._effectiveTimeScale = timeScale; + return timeScale; + + } + + _updateTime( deltaTime ) { + + const duration = this._clip.duration; + const loop = this.loop; + + let time = this.time + deltaTime; + let loopCount = this._loopCount; + + const pingPong = ( loop === LoopPingPong ); + + if ( deltaTime === 0 ) { + + if ( loopCount === -1 ) return time; + + return ( pingPong && ( loopCount & 1 ) === 1 ) ? duration - time : time; + + } + + if ( loop === LoopOnce ) { + + if ( loopCount === -1 ) { + + // just started + + this._loopCount = 0; + this._setEndings( true, true, false ); + + } + + handle_stop: { + + if ( time >= duration ) { + + time = duration; + + } else if ( time < 0 ) { + + time = 0; + + } else { + + this.time = time; + + break handle_stop; + + } + + if ( this.clampWhenFinished ) this.paused = true; + else this.enabled = false; + + this.time = time; + + this._mixer.dispatchEvent( { + type: 'finished', action: this, + direction: deltaTime < 0 ? -1 : 1 + } ); + + } + + } else { // repetitive Repeat or PingPong + + if ( loopCount === -1 ) { + + // just started + + if ( deltaTime >= 0 ) { + + loopCount = 0; + + this._setEndings( true, this.repetitions === 0, pingPong ); + + } else { + + // when looping in reverse direction, the initial + // transition through zero counts as a repetition, + // so leave loopCount at -1 + + this._setEndings( this.repetitions === 0, true, pingPong ); + + } + + } + + if ( time >= duration || time < 0 ) { + + // wrap around + + const loopDelta = Math.floor( time / duration ); // signed + time -= duration * loopDelta; + + loopCount += Math.abs( loopDelta ); + + const pending = this.repetitions - loopCount; + + if ( pending <= 0 ) { + + // have to stop (switch state, clamp time, fire event) + + if ( this.clampWhenFinished ) this.paused = true; + else this.enabled = false; + + time = deltaTime > 0 ? duration : 0; + + this.time = time; + + this._mixer.dispatchEvent( { + type: 'finished', action: this, + direction: deltaTime > 0 ? 1 : -1 + } ); + + } else { + + // keep running + + if ( pending === 1 ) { + + // entering the last round + + const atStart = deltaTime < 0; + this._setEndings( atStart, ! atStart, pingPong ); + + } else { + + this._setEndings( false, false, pingPong ); + + } + + this._loopCount = loopCount; + + this.time = time; + + this._mixer.dispatchEvent( { + type: 'loop', action: this, loopDelta: loopDelta + } ); + + } + + } else { + + this.time = time; + + } + + if ( pingPong && ( loopCount & 1 ) === 1 ) { + + // invert time for the "pong round" + + return duration - time; + + } + + } + + return time; + + } + + _setEndings( atStart, atEnd, pingPong ) { + + const settings = this._interpolantSettings; + + if ( pingPong ) { + + settings.endingStart = ZeroSlopeEnding; + settings.endingEnd = ZeroSlopeEnding; + + } else { + + // assuming for LoopOnce atStart == atEnd == true + + if ( atStart ) { + + settings.endingStart = this.zeroSlopeAtStart ? ZeroSlopeEnding : ZeroCurvatureEnding; + + } else { + + settings.endingStart = WrapAroundEnding; + + } + + if ( atEnd ) { + + settings.endingEnd = this.zeroSlopeAtEnd ? ZeroSlopeEnding : ZeroCurvatureEnding; + + } else { + + settings.endingEnd = WrapAroundEnding; + + } + + } + + } + + _scheduleFading( duration, weightNow, weightThen ) { + + const mixer = this._mixer, now = mixer.time; + let interpolant = this._weightInterpolant; + + if ( interpolant === null ) { + + interpolant = mixer._lendControlInterpolant(); + this._weightInterpolant = interpolant; + + } + + const times = interpolant.parameterPositions, + values = interpolant.sampleValues; + + times[ 0 ] = now; + values[ 0 ] = weightNow; + times[ 1 ] = now + duration; + values[ 1 ] = weightThen; + + return this; + + } + +} + +const _controlInterpolantsResultBuffer = new Float32Array( 1 ); + + +class AnimationMixer extends EventDispatcher { + + constructor( root ) { + + super(); + + this._root = root; + this._initMemoryManager(); + this._accuIndex = 0; + this.time = 0; + this.timeScale = 1.0; + + } + + _bindAction( action, prototypeAction ) { + + const root = action._localRoot || this._root, + tracks = action._clip.tracks, + nTracks = tracks.length, + bindings = action._propertyBindings, + interpolants = action._interpolants, + rootUuid = root.uuid, + bindingsByRoot = this._bindingsByRootAndName; + + let bindingsByName = bindingsByRoot[ rootUuid ]; + + if ( bindingsByName === undefined ) { + + bindingsByName = {}; + bindingsByRoot[ rootUuid ] = bindingsByName; + + } + + for ( let i = 0; i !== nTracks; ++ i ) { + + const track = tracks[ i ], + trackName = track.name; + + let binding = bindingsByName[ trackName ]; + + if ( binding !== undefined ) { + + ++ binding.referenceCount; + bindings[ i ] = binding; + + } else { + + binding = bindings[ i ]; + + if ( binding !== undefined ) { + + // existing binding, make sure the cache knows + + if ( binding._cacheIndex === null ) { + + ++ binding.referenceCount; + this._addInactiveBinding( binding, rootUuid, trackName ); + + } + + continue; + + } + + const path = prototypeAction && prototypeAction. + _propertyBindings[ i ].binding.parsedPath; + + binding = new PropertyMixer( + PropertyBinding.create( root, trackName, path ), + track.ValueTypeName, track.getValueSize() ); + + ++ binding.referenceCount; + this._addInactiveBinding( binding, rootUuid, trackName ); + + bindings[ i ] = binding; + + } + + interpolants[ i ].resultBuffer = binding.buffer; + + } + + } + + _activateAction( action ) { + + if ( ! this._isActiveAction( action ) ) { + + if ( action._cacheIndex === null ) { + + // this action has been forgotten by the cache, but the user + // appears to be still using it -> rebind + + const rootUuid = ( action._localRoot || this._root ).uuid, + clipUuid = action._clip.uuid, + actionsForClip = this._actionsByClip[ clipUuid ]; + + this._bindAction( action, + actionsForClip && actionsForClip.knownActions[ 0 ] ); + + this._addInactiveAction( action, clipUuid, rootUuid ); + + } + + const bindings = action._propertyBindings; + + // increment reference counts / sort out state + for ( let i = 0, n = bindings.length; i !== n; ++ i ) { + + const binding = bindings[ i ]; + + if ( binding.useCount ++ === 0 ) { + + this._lendBinding( binding ); + binding.saveOriginalState(); + + } + + } + + this._lendAction( action ); + + } + + } + + _deactivateAction( action ) { + + if ( this._isActiveAction( action ) ) { + + const bindings = action._propertyBindings; + + // decrement reference counts / sort out state + for ( let i = 0, n = bindings.length; i !== n; ++ i ) { + + const binding = bindings[ i ]; + + if ( -- binding.useCount === 0 ) { + + binding.restoreOriginalState(); + this._takeBackBinding( binding ); + + } + + } + + this._takeBackAction( action ); + + } + + } + + // Memory manager + + _initMemoryManager() { + + this._actions = []; // 'nActiveActions' followed by inactive ones + this._nActiveActions = 0; + + this._actionsByClip = {}; + // inside: + // { + // knownActions: Array< AnimationAction > - used as prototypes + // actionByRoot: AnimationAction - lookup + // } + + + this._bindings = []; // 'nActiveBindings' followed by inactive ones + this._nActiveBindings = 0; + + this._bindingsByRootAndName = {}; // inside: Map< name, PropertyMixer > + + + this._controlInterpolants = []; // same game as above + this._nActiveControlInterpolants = 0; + + const scope = this; + + this.stats = { + + actions: { + get total() { + + return scope._actions.length; + + }, + get inUse() { + + return scope._nActiveActions; + + } + }, + bindings: { + get total() { + + return scope._bindings.length; + + }, + get inUse() { + + return scope._nActiveBindings; + + } + }, + controlInterpolants: { + get total() { + + return scope._controlInterpolants.length; + + }, + get inUse() { + + return scope._nActiveControlInterpolants; + + } + } + + }; + + } + + // Memory management for AnimationAction objects + + _isActiveAction( action ) { + + const index = action._cacheIndex; + return index !== null && index < this._nActiveActions; + + } + + _addInactiveAction( action, clipUuid, rootUuid ) { + + const actions = this._actions, + actionsByClip = this._actionsByClip; + + let actionsForClip = actionsByClip[ clipUuid ]; + + if ( actionsForClip === undefined ) { + + actionsForClip = { + + knownActions: [ action ], + actionByRoot: {} + + }; + + action._byClipCacheIndex = 0; + + actionsByClip[ clipUuid ] = actionsForClip; + + } else { + + const knownActions = actionsForClip.knownActions; + + action._byClipCacheIndex = knownActions.length; + knownActions.push( action ); + + } + + action._cacheIndex = actions.length; + actions.push( action ); + + actionsForClip.actionByRoot[ rootUuid ] = action; + + } + + _removeInactiveAction( action ) { + + const actions = this._actions, + lastInactiveAction = actions[ actions.length - 1 ], + cacheIndex = action._cacheIndex; + + lastInactiveAction._cacheIndex = cacheIndex; + actions[ cacheIndex ] = lastInactiveAction; + actions.pop(); + + action._cacheIndex = null; + + + const clipUuid = action._clip.uuid, + actionsByClip = this._actionsByClip, + actionsForClip = actionsByClip[ clipUuid ], + knownActionsForClip = actionsForClip.knownActions, + + lastKnownAction = + knownActionsForClip[ knownActionsForClip.length - 1 ], + + byClipCacheIndex = action._byClipCacheIndex; + + lastKnownAction._byClipCacheIndex = byClipCacheIndex; + knownActionsForClip[ byClipCacheIndex ] = lastKnownAction; + knownActionsForClip.pop(); + + action._byClipCacheIndex = null; + + + const actionByRoot = actionsForClip.actionByRoot, + rootUuid = ( action._localRoot || this._root ).uuid; + + delete actionByRoot[ rootUuid ]; + + if ( knownActionsForClip.length === 0 ) { + + delete actionsByClip[ clipUuid ]; + + } + + this._removeInactiveBindingsForAction( action ); + + } + + _removeInactiveBindingsForAction( action ) { + + const bindings = action._propertyBindings; + + for ( let i = 0, n = bindings.length; i !== n; ++ i ) { + + const binding = bindings[ i ]; + + if ( -- binding.referenceCount === 0 ) { + + this._removeInactiveBinding( binding ); + + } + + } + + } + + _lendAction( action ) { + + // [ active actions | inactive actions ] + // [ active actions >| inactive actions ] + // s a + // <-swap-> + // a s + + const actions = this._actions, + prevIndex = action._cacheIndex, + + lastActiveIndex = this._nActiveActions ++, + + firstInactiveAction = actions[ lastActiveIndex ]; + + action._cacheIndex = lastActiveIndex; + actions[ lastActiveIndex ] = action; + + firstInactiveAction._cacheIndex = prevIndex; + actions[ prevIndex ] = firstInactiveAction; + + } + + _takeBackAction( action ) { + + // [ active actions | inactive actions ] + // [ active actions |< inactive actions ] + // a s + // <-swap-> + // s a + + const actions = this._actions, + prevIndex = action._cacheIndex, + + firstInactiveIndex = -- this._nActiveActions, + + lastActiveAction = actions[ firstInactiveIndex ]; + + action._cacheIndex = firstInactiveIndex; + actions[ firstInactiveIndex ] = action; + + lastActiveAction._cacheIndex = prevIndex; + actions[ prevIndex ] = lastActiveAction; + + } + + // Memory management for PropertyMixer objects + + _addInactiveBinding( binding, rootUuid, trackName ) { + + const bindingsByRoot = this._bindingsByRootAndName, + bindings = this._bindings; + + let bindingByName = bindingsByRoot[ rootUuid ]; + + if ( bindingByName === undefined ) { + + bindingByName = {}; + bindingsByRoot[ rootUuid ] = bindingByName; + + } + + bindingByName[ trackName ] = binding; + + binding._cacheIndex = bindings.length; + bindings.push( binding ); + + } + + _removeInactiveBinding( binding ) { + + const bindings = this._bindings, + propBinding = binding.binding, + rootUuid = propBinding.rootNode.uuid, + trackName = propBinding.path, + bindingsByRoot = this._bindingsByRootAndName, + bindingByName = bindingsByRoot[ rootUuid ], + + lastInactiveBinding = bindings[ bindings.length - 1 ], + cacheIndex = binding._cacheIndex; + + lastInactiveBinding._cacheIndex = cacheIndex; + bindings[ cacheIndex ] = lastInactiveBinding; + bindings.pop(); + + delete bindingByName[ trackName ]; + + if ( Object.keys( bindingByName ).length === 0 ) { + + delete bindingsByRoot[ rootUuid ]; + + } + + } + + _lendBinding( binding ) { + + const bindings = this._bindings, + prevIndex = binding._cacheIndex, + + lastActiveIndex = this._nActiveBindings ++, + + firstInactiveBinding = bindings[ lastActiveIndex ]; + + binding._cacheIndex = lastActiveIndex; + bindings[ lastActiveIndex ] = binding; + + firstInactiveBinding._cacheIndex = prevIndex; + bindings[ prevIndex ] = firstInactiveBinding; + + } + + _takeBackBinding( binding ) { + + const bindings = this._bindings, + prevIndex = binding._cacheIndex, + + firstInactiveIndex = -- this._nActiveBindings, + + lastActiveBinding = bindings[ firstInactiveIndex ]; + + binding._cacheIndex = firstInactiveIndex; + bindings[ firstInactiveIndex ] = binding; + + lastActiveBinding._cacheIndex = prevIndex; + bindings[ prevIndex ] = lastActiveBinding; + + } + + + // Memory management of Interpolants for weight and time scale + + _lendControlInterpolant() { + + const interpolants = this._controlInterpolants, + lastActiveIndex = this._nActiveControlInterpolants ++; + + let interpolant = interpolants[ lastActiveIndex ]; + + if ( interpolant === undefined ) { + + interpolant = new LinearInterpolant( + new Float32Array( 2 ), new Float32Array( 2 ), + 1, _controlInterpolantsResultBuffer ); + + interpolant.__cacheIndex = lastActiveIndex; + interpolants[ lastActiveIndex ] = interpolant; + + } + + return interpolant; + + } + + _takeBackControlInterpolant( interpolant ) { + + const interpolants = this._controlInterpolants, + prevIndex = interpolant.__cacheIndex, + + firstInactiveIndex = -- this._nActiveControlInterpolants, + + lastActiveInterpolant = interpolants[ firstInactiveIndex ]; + + interpolant.__cacheIndex = firstInactiveIndex; + interpolants[ firstInactiveIndex ] = interpolant; + + lastActiveInterpolant.__cacheIndex = prevIndex; + interpolants[ prevIndex ] = lastActiveInterpolant; + + } + + // return an action for a clip optionally using a custom root target + // object (this method allocates a lot of dynamic memory in case a + // previously unknown clip/root combination is specified) + clipAction( clip, optionalRoot, blendMode ) { + + const root = optionalRoot || this._root, + rootUuid = root.uuid; + + let clipObject = typeof clip === 'string' ? AnimationClip.findByName( root, clip ) : clip; + + const clipUuid = clipObject !== null ? clipObject.uuid : clip; + + const actionsForClip = this._actionsByClip[ clipUuid ]; + let prototypeAction = null; + + if ( blendMode === undefined ) { + + if ( clipObject !== null ) { + + blendMode = clipObject.blendMode; + + } else { + + blendMode = NormalAnimationBlendMode; + + } + + } + + if ( actionsForClip !== undefined ) { + + const existingAction = actionsForClip.actionByRoot[ rootUuid ]; + + if ( existingAction !== undefined && existingAction.blendMode === blendMode ) { + + return existingAction; + + } + + // we know the clip, so we don't have to parse all + // the bindings again but can just copy + prototypeAction = actionsForClip.knownActions[ 0 ]; + + // also, take the clip from the prototype action + if ( clipObject === null ) + clipObject = prototypeAction._clip; + + } + + // clip must be known when specified via string + if ( clipObject === null ) return null; + + // allocate all resources required to run it + const newAction = new AnimationAction( this, clipObject, optionalRoot, blendMode ); + + this._bindAction( newAction, prototypeAction ); + + // and make the action known to the memory manager + this._addInactiveAction( newAction, clipUuid, rootUuid ); + + return newAction; + + } + + // get an existing action + existingAction( clip, optionalRoot ) { + + const root = optionalRoot || this._root, + rootUuid = root.uuid, + + clipObject = typeof clip === 'string' ? + AnimationClip.findByName( root, clip ) : clip, + + clipUuid = clipObject ? clipObject.uuid : clip, + + actionsForClip = this._actionsByClip[ clipUuid ]; + + if ( actionsForClip !== undefined ) { + + return actionsForClip.actionByRoot[ rootUuid ] || null; + + } + + return null; + + } + + // deactivates all previously scheduled actions + stopAllAction() { + + const actions = this._actions, + nActions = this._nActiveActions; + + for ( let i = nActions - 1; i >= 0; -- i ) { + + actions[ i ].stop(); + + } + + return this; + + } + + // advance the time and update apply the animation + update( deltaTime ) { + + deltaTime *= this.timeScale; + + const actions = this._actions, + nActions = this._nActiveActions, + + time = this.time += deltaTime, + timeDirection = Math.sign( deltaTime ), + + accuIndex = this._accuIndex ^= 1; + + // run active actions + + for ( let i = 0; i !== nActions; ++ i ) { + + const action = actions[ i ]; + + action._update( time, deltaTime, timeDirection, accuIndex ); + + } + + // update scene graph + + const bindings = this._bindings, + nBindings = this._nActiveBindings; + + for ( let i = 0; i !== nBindings; ++ i ) { + + bindings[ i ].apply( accuIndex ); + + } + + return this; + + } + + // Allows you to seek to a specific time in an animation. + setTime( timeInSeconds ) { + + this.time = 0; // Zero out time attribute for AnimationMixer object; + for ( let i = 0; i < this._actions.length; i ++ ) { + + this._actions[ i ].time = 0; // Zero out time attribute for all associated AnimationAction objects. + + } + + return this.update( timeInSeconds ); // Update used to set exact time. Returns "this" AnimationMixer object. + + } + + // return this mixer's root target object + getRoot() { + + return this._root; + + } + + // free all resources specific to a particular clip + uncacheClip( clip ) { + + const actions = this._actions, + clipUuid = clip.uuid, + actionsByClip = this._actionsByClip, + actionsForClip = actionsByClip[ clipUuid ]; + + if ( actionsForClip !== undefined ) { + + // note: just calling _removeInactiveAction would mess up the + // iteration state and also require updating the state we can + // just throw away + + const actionsToRemove = actionsForClip.knownActions; + + for ( let i = 0, n = actionsToRemove.length; i !== n; ++ i ) { + + const action = actionsToRemove[ i ]; + + this._deactivateAction( action ); + + const cacheIndex = action._cacheIndex, + lastInactiveAction = actions[ actions.length - 1 ]; + + action._cacheIndex = null; + action._byClipCacheIndex = null; + + lastInactiveAction._cacheIndex = cacheIndex; + actions[ cacheIndex ] = lastInactiveAction; + actions.pop(); + + this._removeInactiveBindingsForAction( action ); + + } + + delete actionsByClip[ clipUuid ]; + + } + + } + + // free all resources specific to a particular root target object + uncacheRoot( root ) { + + const rootUuid = root.uuid, + actionsByClip = this._actionsByClip; + + for ( const clipUuid in actionsByClip ) { + + const actionByRoot = actionsByClip[ clipUuid ].actionByRoot, + action = actionByRoot[ rootUuid ]; + + if ( action !== undefined ) { + + this._deactivateAction( action ); + this._removeInactiveAction( action ); + + } + + } + + const bindingsByRoot = this._bindingsByRootAndName, + bindingByName = bindingsByRoot[ rootUuid ]; + + if ( bindingByName !== undefined ) { + + for ( const trackName in bindingByName ) { + + const binding = bindingByName[ trackName ]; + binding.restoreOriginalState(); + this._removeInactiveBinding( binding ); + + } + + } + + } + + // remove a targeted clip from the cache + uncacheAction( clip, optionalRoot ) { + + const action = this.existingAction( clip, optionalRoot ); + + if ( action !== null ) { + + this._deactivateAction( action ); + this._removeInactiveAction( action ); + + } + + } + +} + +const _matrix = /*@__PURE__*/ new Matrix4(); + +class Raycaster { + + constructor( origin, direction, near = 0, far = Infinity ) { + + this.ray = new Ray( origin, direction ); + // direction is assumed to be normalized (for accurate distance calculations) + + this.near = near; + this.far = far; + this.camera = null; + this.layers = new Layers(); + + this.params = { + Mesh: {}, + Line: { threshold: 1 }, + LOD: {}, + Points: { threshold: 1 }, + Sprite: {} + }; + + } + + set( origin, direction ) { + + // direction is assumed to be normalized (for accurate distance calculations) + + this.ray.set( origin, direction ); + + } + + setFromCamera( coords, camera ) { + + if ( camera.isPerspectiveCamera ) { + + this.ray.origin.setFromMatrixPosition( camera.matrixWorld ); + this.ray.direction.set( coords.x, coords.y, 0.5 ).unproject( camera ).sub( this.ray.origin ).normalize(); + this.camera = camera; + + } else if ( camera.isOrthographicCamera ) { + + this.ray.origin.set( coords.x, coords.y, ( camera.near + camera.far ) / ( camera.near - camera.far ) ).unproject( camera ); // set origin in plane of camera + this.ray.direction.set( 0, 0, -1 ).transformDirection( camera.matrixWorld ); + this.camera = camera; + + } else { + + console.error( 'THREE.Raycaster: Unsupported camera type: ' + camera.type ); + + } + + } + + setFromXRController( controller ) { + + _matrix.identity().extractRotation( controller.matrixWorld ); + + this.ray.origin.setFromMatrixPosition( controller.matrixWorld ); + this.ray.direction.set( 0, 0, -1 ).applyMatrix4( _matrix ); + + return this; + + } + + intersectObject( object, recursive = true, intersects = [] ) { + + intersect( object, this, intersects, recursive ); + + intersects.sort( ascSort ); + + return intersects; + + } + + intersectObjects( objects, recursive = true, intersects = [] ) { + + for ( let i = 0, l = objects.length; i < l; i ++ ) { + + intersect( objects[ i ], this, intersects, recursive ); + + } + + intersects.sort( ascSort ); + + return intersects; + + } + +} + +function ascSort( a, b ) { + + return a.distance - b.distance; + +} + +function intersect( object, raycaster, intersects, recursive ) { + + let propagate = true; + + if ( object.layers.test( raycaster.layers ) ) { + + const result = object.raycast( raycaster, intersects ); + + if ( result === false ) propagate = false; + + } + + if ( propagate === true && recursive === true ) { + + const children = object.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + intersect( children[ i ], raycaster, intersects, true ); + + } + + } + +} + +/** + * This class can be used to represent points in 3D space as + * [Spherical coordinates]{@link https://en.wikipedia.org/wiki/Spherical_coordinate_system}. + */ +class Spherical { + + /** + * Constructs a new spherical. + * + * @param {number} [radius=1] - The radius, or the Euclidean distance (straight-line distance) from the point to the origin. + * @param {number} [phi=0] - The polar angle in radians from the y (up) axis. + * @param {number} [theta=0] - The equator/azimuthal angle in radians around the y (up) axis. + */ + constructor( radius = 1, phi = 0, theta = 0 ) { + + /** + * The radius, or the Euclidean distance (straight-line distance) from the point to the origin. + * + * @type {number} + * @default 1 + */ + this.radius = radius; + + /** + * The polar angle in radians from the y (up) axis. + * + * @type {number} + * @default 0 + */ + this.phi = phi; + + /** + * The equator/azimuthal angle in radians around the y (up) axis. + * + * @type {number} + * @default 0 + */ + this.theta = theta; + + } + + /** + * Sets the spherical components by copying the given values. + * + * @param {number} radius - The radius. + * @param {number} phi - The polar angle. + * @param {number} theta - The azimuthal angle. + * @return {Spherical} A reference to this spherical. + */ + set( radius, phi, theta ) { + + this.radius = radius; + this.phi = phi; + this.theta = theta; + + return this; + + } + + /** + * Copies the values of the given spherical to this instance. + * + * @param {Spherical} other - The spherical to copy. + * @return {Spherical} A reference to this spherical. + */ + copy( other ) { + + this.radius = other.radius; + this.phi = other.phi; + this.theta = other.theta; + + return this; + + } + + /** + * Restricts the polar angle [page:.phi phi] to be between `0.000001` and pi - + * `0.000001`. + * + * @return {Spherical} A reference to this spherical. + */ + makeSafe() { + + const EPS = 0.000001; + this.phi = clamp$1( this.phi, EPS, Math.PI - EPS ); + + return this; + + } + + /** + * Sets the spherical components from the given vector which is assumed to hold + * Cartesian coordinates. + * + * @param {Vector3} v - The vector to set. + * @return {Spherical} A reference to this spherical. + */ + setFromVector3( v ) { + + return this.setFromCartesianCoords( v.x, v.y, v.z ); + + } + + /** + * Sets the spherical components from the given Cartesian coordinates. + * + * @param {number} x - The x value. + * @param {number} y - The x value. + * @param {number} z - The x value. + * @return {Spherical} A reference to this spherical. + */ + setFromCartesianCoords( x, y, z ) { + + this.radius = Math.sqrt( x * x + y * y + z * z ); + + if ( this.radius === 0 ) { + + this.theta = 0; + this.phi = 0; + + } else { + + this.theta = Math.atan2( x, z ); + this.phi = Math.acos( clamp$1( y / this.radius, -1, 1 ) ); + + } + + return this; + + } + + /** + * Returns a new spherical with copied values from this instance. + * + * @return {Spherical} A clone of this instance. + */ + clone() { + + return new this.constructor().copy( this ); + + } + +} + +/** + * Determines how many bytes must be used to represent the texture. + * + * @param {number} width - The width of the texture. + * @param {number} height - The height of the texture. + * @param {number} format - The texture's format. + * @param {number} type - The texture's type. + * @return {number} The byte length. + */ +function getByteLength( width, height, format, type ) { + + const typeByteLength = getTextureTypeByteLength( type ); + + switch ( format ) { + + // https://registry.khronos.org/OpenGL-Refpages/es3.0/html/glTexImage2D.xhtml + case AlphaFormat: + return width * height; + case LuminanceFormat: + return width * height; + case LuminanceAlphaFormat: + return width * height * 2; + case RedFormat: + return ( ( width * height ) / typeByteLength.components ) * typeByteLength.byteLength; + case RedIntegerFormat: + return ( ( width * height ) / typeByteLength.components ) * typeByteLength.byteLength; + case RGFormat: + return ( ( width * height * 2 ) / typeByteLength.components ) * typeByteLength.byteLength; + case RGIntegerFormat: + return ( ( width * height * 2 ) / typeByteLength.components ) * typeByteLength.byteLength; + case RGBFormat: + return ( ( width * height * 3 ) / typeByteLength.components ) * typeByteLength.byteLength; + case RGBAFormat: + return ( ( width * height * 4 ) / typeByteLength.components ) * typeByteLength.byteLength; + case RGBAIntegerFormat: + return ( ( width * height * 4 ) / typeByteLength.components ) * typeByteLength.byteLength; + + // https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_s3tc_srgb/ + case RGB_S3TC_DXT1_Format: + case RGBA_S3TC_DXT1_Format: + return Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 8; + case RGBA_S3TC_DXT3_Format: + case RGBA_S3TC_DXT5_Format: + return Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16; + + // https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_pvrtc/ + case RGB_PVRTC_2BPPV1_Format: + case RGBA_PVRTC_2BPPV1_Format: + return ( Math.max( width, 16 ) * Math.max( height, 8 ) ) / 4; + case RGB_PVRTC_4BPPV1_Format: + case RGBA_PVRTC_4BPPV1_Format: + return ( Math.max( width, 8 ) * Math.max( height, 8 ) ) / 2; + + // https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_etc/ + case RGB_ETC1_Format: + case RGB_ETC2_Format: + return Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 8; + case RGBA_ETC2_EAC_Format: + return Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16; + + // https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_astc/ + case RGBA_ASTC_4x4_Format: + return Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16; + case RGBA_ASTC_5x4_Format: + return Math.floor( ( width + 4 ) / 5 ) * Math.floor( ( height + 3 ) / 4 ) * 16; + case RGBA_ASTC_5x5_Format: + return Math.floor( ( width + 4 ) / 5 ) * Math.floor( ( height + 4 ) / 5 ) * 16; + case RGBA_ASTC_6x5_Format: + return Math.floor( ( width + 5 ) / 6 ) * Math.floor( ( height + 4 ) / 5 ) * 16; + case RGBA_ASTC_6x6_Format: + return Math.floor( ( width + 5 ) / 6 ) * Math.floor( ( height + 5 ) / 6 ) * 16; + case RGBA_ASTC_8x5_Format: + return Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 4 ) / 5 ) * 16; + case RGBA_ASTC_8x6_Format: + return Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 5 ) / 6 ) * 16; + case RGBA_ASTC_8x8_Format: + return Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 7 ) / 8 ) * 16; + case RGBA_ASTC_10x5_Format: + return Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 4 ) / 5 ) * 16; + case RGBA_ASTC_10x6_Format: + return Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 5 ) / 6 ) * 16; + case RGBA_ASTC_10x8_Format: + return Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 7 ) / 8 ) * 16; + case RGBA_ASTC_10x10_Format: + return Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 9 ) / 10 ) * 16; + case RGBA_ASTC_12x10_Format: + return Math.floor( ( width + 11 ) / 12 ) * Math.floor( ( height + 9 ) / 10 ) * 16; + case RGBA_ASTC_12x12_Format: + return Math.floor( ( width + 11 ) / 12 ) * Math.floor( ( height + 11 ) / 12 ) * 16; + + // https://registry.khronos.org/webgl/extensions/EXT_texture_compression_bptc/ + case RGBA_BPTC_Format: + case RGB_BPTC_SIGNED_Format: + case RGB_BPTC_UNSIGNED_Format: + return Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 16; + + // https://registry.khronos.org/webgl/extensions/EXT_texture_compression_rgtc/ + case RED_RGTC1_Format: + case SIGNED_RED_RGTC1_Format: + return Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 8; + case RED_GREEN_RGTC2_Format: + case SIGNED_RED_GREEN_RGTC2_Format: + return Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 16; + + } + + throw new Error( + `Unable to determine texture byte length for ${format} format.`, + ); + +} + +function getTextureTypeByteLength( type ) { + + switch ( type ) { + + case UnsignedByteType: + case ByteType: + return { byteLength: 1, components: 1 }; + case UnsignedShortType: + case ShortType: + case HalfFloatType: + return { byteLength: 2, components: 1 }; + case UnsignedShort4444Type: + case UnsignedShort5551Type: + return { byteLength: 2, components: 4 }; + case UnsignedIntType: + case IntType: + case FloatType: + return { byteLength: 4, components: 1 }; + case UnsignedInt5999Type: + return { byteLength: 4, components: 3 }; + + } + + throw new Error( `Unknown texture type ${type}.` ); + +} + +if ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) { + + __THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'register', { detail: { + revision: REVISION, + } } ) ); + +} + +if ( typeof window !== 'undefined' ) { + + if ( window.__THREE__ ) { + + console.warn( 'WARNING: Multiple instances of Three.js being imported.' ); + + } else { + + window.__THREE__ = REVISION; + + } + +} + +/** + * @license + * Copyright 2010-2025 Three.js Authors + * SPDX-License-Identifier: MIT + */ + +function WebGLAnimation() { + + let context = null; + let isAnimating = false; + let animationLoop = null; + let requestId = null; + + function onAnimationFrame( time, frame ) { + + animationLoop( time, frame ); + + requestId = context.requestAnimationFrame( onAnimationFrame ); + + } + + return { + + start: function () { + + if ( isAnimating === true ) return; + if ( animationLoop === null ) return; + + requestId = context.requestAnimationFrame( onAnimationFrame ); + + isAnimating = true; + + }, + + stop: function () { + + context.cancelAnimationFrame( requestId ); + + isAnimating = false; + + }, + + setAnimationLoop: function ( callback ) { + + animationLoop = callback; + + }, + + setContext: function ( value ) { + + context = value; + + } + + }; + +} + +function WebGLAttributes( gl ) { + + const buffers = new WeakMap(); + + function createBuffer( attribute, bufferType ) { + + const array = attribute.array; + const usage = attribute.usage; + const size = array.byteLength; + + const buffer = gl.createBuffer(); + + gl.bindBuffer( bufferType, buffer ); + gl.bufferData( bufferType, array, usage ); + + attribute.onUploadCallback(); + + let type; + + if ( array instanceof Float32Array ) { + + type = gl.FLOAT; + + } else if ( array instanceof Uint16Array ) { + + if ( attribute.isFloat16BufferAttribute ) { + + type = gl.HALF_FLOAT; + + } else { + + type = gl.UNSIGNED_SHORT; + + } + + } else if ( array instanceof Int16Array ) { + + type = gl.SHORT; + + } else if ( array instanceof Uint32Array ) { + + type = gl.UNSIGNED_INT; + + } else if ( array instanceof Int32Array ) { + + type = gl.INT; + + } else if ( array instanceof Int8Array ) { + + type = gl.BYTE; + + } else if ( array instanceof Uint8Array ) { + + type = gl.UNSIGNED_BYTE; + + } else if ( array instanceof Uint8ClampedArray ) { + + type = gl.UNSIGNED_BYTE; + + } else { + + throw new Error( 'THREE.WebGLAttributes: Unsupported buffer data format: ' + array ); + + } + + return { + buffer: buffer, + type: type, + bytesPerElement: array.BYTES_PER_ELEMENT, + version: attribute.version, + size: size + }; + + } + + function updateBuffer( buffer, attribute, bufferType ) { + + const array = attribute.array; + const updateRanges = attribute.updateRanges; + + gl.bindBuffer( bufferType, buffer ); + + if ( updateRanges.length === 0 ) { + + // Not using update ranges + gl.bufferSubData( bufferType, 0, array ); + + } else { + + // Before applying update ranges, we merge any adjacent / overlapping + // ranges to reduce load on `gl.bufferSubData`. Empirically, this has led + // to performance improvements for applications which make heavy use of + // update ranges. Likely due to GPU command overhead. + // + // Note that to reduce garbage collection between frames, we merge the + // update ranges in-place. This is safe because this method will clear the + // update ranges once updated. + + updateRanges.sort( ( a, b ) => a.start - b.start ); + + // To merge the update ranges in-place, we work from left to right in the + // existing updateRanges array, merging ranges. This may result in a final + // array which is smaller than the original. This index tracks the last + // index representing a merged range, any data after this index can be + // trimmed once the merge algorithm is completed. + let mergeIndex = 0; + + for ( let i = 1; i < updateRanges.length; i ++ ) { + + const previousRange = updateRanges[ mergeIndex ]; + const range = updateRanges[ i ]; + + // We add one here to merge adjacent ranges. This is safe because ranges + // operate over positive integers. + if ( range.start <= previousRange.start + previousRange.count + 1 ) { + + previousRange.count = Math.max( + previousRange.count, + range.start + range.count - previousRange.start + ); + + } else { + + ++ mergeIndex; + updateRanges[ mergeIndex ] = range; + + } + + } + + // Trim the array to only contain the merged ranges. + updateRanges.length = mergeIndex + 1; + + for ( let i = 0, l = updateRanges.length; i < l; i ++ ) { + + const range = updateRanges[ i ]; + + gl.bufferSubData( bufferType, range.start * array.BYTES_PER_ELEMENT, + array, range.start, range.count ); + + } + + attribute.clearUpdateRanges(); + + } + + attribute.onUploadCallback(); + + } + + // + + function get( attribute ) { + + if ( attribute.isInterleavedBufferAttribute ) attribute = attribute.data; + + return buffers.get( attribute ); + + } + + function remove( attribute ) { + + if ( attribute.isInterleavedBufferAttribute ) attribute = attribute.data; + + const data = buffers.get( attribute ); + + if ( data ) { + + gl.deleteBuffer( data.buffer ); + + buffers.delete( attribute ); + + } + + } + + function update( attribute, bufferType ) { + + if ( attribute.isInterleavedBufferAttribute ) attribute = attribute.data; + + if ( attribute.isGLBufferAttribute ) { + + const cached = buffers.get( attribute ); + + if ( ! cached || cached.version < attribute.version ) { + + buffers.set( attribute, { + buffer: attribute.buffer, + type: attribute.type, + bytesPerElement: attribute.elementSize, + version: attribute.version + } ); + + } + + return; + + } + + const data = buffers.get( attribute ); + + if ( data === undefined ) { + + buffers.set( attribute, createBuffer( attribute, bufferType ) ); + + } else if ( data.version < attribute.version ) { + + if ( data.size !== attribute.array.byteLength ) { + + throw new Error( 'THREE.WebGLAttributes: The size of the buffer attribute\'s array buffer does not match the original size. Resizing buffer attributes is not supported.' ); + + } + + updateBuffer( data.buffer, attribute, bufferType ); + + data.version = attribute.version; + + } + + } + + return { + + get: get, + remove: remove, + update: update + + }; + +} + +var alphahash_fragment = "#ifdef USE_ALPHAHASH\n\tif ( diffuseColor.a < getAlphaHashThreshold( vPosition ) ) discard;\n#endif"; + +var alphahash_pars_fragment = "#ifdef USE_ALPHAHASH\n\tconst float ALPHA_HASH_SCALE = 0.05;\n\tfloat hash2D( vec2 value ) {\n\t\treturn fract( 1.0e4 * sin( 17.0 * value.x + 0.1 * value.y ) * ( 0.1 + abs( sin( 13.0 * value.y + value.x ) ) ) );\n\t}\n\tfloat hash3D( vec3 value ) {\n\t\treturn hash2D( vec2( hash2D( value.xy ), value.z ) );\n\t}\n\tfloat getAlphaHashThreshold( vec3 position ) {\n\t\tfloat maxDeriv = max(\n\t\t\tlength( dFdx( position.xyz ) ),\n\t\t\tlength( dFdy( position.xyz ) )\n\t\t);\n\t\tfloat pixScale = 1.0 / ( ALPHA_HASH_SCALE * maxDeriv );\n\t\tvec2 pixScales = vec2(\n\t\t\texp2( floor( log2( pixScale ) ) ),\n\t\t\texp2( ceil( log2( pixScale ) ) )\n\t\t);\n\t\tvec2 alpha = vec2(\n\t\t\thash3D( floor( pixScales.x * position.xyz ) ),\n\t\t\thash3D( floor( pixScales.y * position.xyz ) )\n\t\t);\n\t\tfloat lerpFactor = fract( log2( pixScale ) );\n\t\tfloat x = ( 1.0 - lerpFactor ) * alpha.x + lerpFactor * alpha.y;\n\t\tfloat a = min( lerpFactor, 1.0 - lerpFactor );\n\t\tvec3 cases = vec3(\n\t\t\tx * x / ( 2.0 * a * ( 1.0 - a ) ),\n\t\t\t( x - 0.5 * a ) / ( 1.0 - a ),\n\t\t\t1.0 - ( ( 1.0 - x ) * ( 1.0 - x ) / ( 2.0 * a * ( 1.0 - a ) ) )\n\t\t);\n\t\tfloat threshold = ( x < ( 1.0 - a ) )\n\t\t\t? ( ( x < a ) ? cases.x : cases.y )\n\t\t\t: cases.z;\n\t\treturn clamp( threshold , 1.0e-6, 1.0 );\n\t}\n#endif"; + +var alphamap_fragment = "#ifdef USE_ALPHAMAP\n\tdiffuseColor.a *= texture2D( alphaMap, vAlphaMapUv ).g;\n#endif"; + +var alphamap_pars_fragment = "#ifdef USE_ALPHAMAP\n\tuniform sampler2D alphaMap;\n#endif"; + +var alphatest_fragment = "#ifdef USE_ALPHATEST\n\t#ifdef ALPHA_TO_COVERAGE\n\tdiffuseColor.a = smoothstep( alphaTest, alphaTest + fwidth( diffuseColor.a ), diffuseColor.a );\n\tif ( diffuseColor.a == 0.0 ) discard;\n\t#else\n\tif ( diffuseColor.a < alphaTest ) discard;\n\t#endif\n#endif"; + +var alphatest_pars_fragment = "#ifdef USE_ALPHATEST\n\tuniform float alphaTest;\n#endif"; + +var aomap_fragment = "#ifdef USE_AOMAP\n\tfloat ambientOcclusion = ( texture2D( aoMap, vAoMapUv ).r - 1.0 ) * aoMapIntensity + 1.0;\n\treflectedLight.indirectDiffuse *= ambientOcclusion;\n\t#if defined( USE_CLEARCOAT ) \n\t\tclearcoatSpecularIndirect *= ambientOcclusion;\n\t#endif\n\t#if defined( USE_SHEEN ) \n\t\tsheenSpecularIndirect *= ambientOcclusion;\n\t#endif\n\t#if defined( USE_ENVMAP ) && defined( STANDARD )\n\t\tfloat dotNV = saturate( dot( geometryNormal, geometryViewDir ) );\n\t\treflectedLight.indirectSpecular *= computeSpecularOcclusion( dotNV, ambientOcclusion, material.roughness );\n\t#endif\n#endif"; + +var aomap_pars_fragment = "#ifdef USE_AOMAP\n\tuniform sampler2D aoMap;\n\tuniform float aoMapIntensity;\n#endif"; + +var batching_pars_vertex = "#ifdef USE_BATCHING\n\t#if ! defined( GL_ANGLE_multi_draw )\n\t#define gl_DrawID _gl_DrawID\n\tuniform int _gl_DrawID;\n\t#endif\n\tuniform highp sampler2D batchingTexture;\n\tuniform highp usampler2D batchingIdTexture;\n\tmat4 getBatchingMatrix( const in float i ) {\n\t\tint size = textureSize( batchingTexture, 0 ).x;\n\t\tint j = int( i ) * 4;\n\t\tint x = j % size;\n\t\tint y = j / size;\n\t\tvec4 v1 = texelFetch( batchingTexture, ivec2( x, y ), 0 );\n\t\tvec4 v2 = texelFetch( batchingTexture, ivec2( x + 1, y ), 0 );\n\t\tvec4 v3 = texelFetch( batchingTexture, ivec2( x + 2, y ), 0 );\n\t\tvec4 v4 = texelFetch( batchingTexture, ivec2( x + 3, y ), 0 );\n\t\treturn mat4( v1, v2, v3, v4 );\n\t}\n\tfloat getIndirectIndex( const in int i ) {\n\t\tint size = textureSize( batchingIdTexture, 0 ).x;\n\t\tint x = i % size;\n\t\tint y = i / size;\n\t\treturn float( texelFetch( batchingIdTexture, ivec2( x, y ), 0 ).r );\n\t}\n#endif\n#ifdef USE_BATCHING_COLOR\n\tuniform sampler2D batchingColorTexture;\n\tvec3 getBatchingColor( const in float i ) {\n\t\tint size = textureSize( batchingColorTexture, 0 ).x;\n\t\tint j = int( i );\n\t\tint x = j % size;\n\t\tint y = j / size;\n\t\treturn texelFetch( batchingColorTexture, ivec2( x, y ), 0 ).rgb;\n\t}\n#endif"; + +var batching_vertex = "#ifdef USE_BATCHING\n\tmat4 batchingMatrix = getBatchingMatrix( getIndirectIndex( gl_DrawID ) );\n#endif"; + +var begin_vertex = "vec3 transformed = vec3( position );\n#ifdef USE_ALPHAHASH\n\tvPosition = vec3( position );\n#endif"; + +var beginnormal_vertex = "vec3 objectNormal = vec3( normal );\n#ifdef USE_TANGENT\n\tvec3 objectTangent = vec3( tangent.xyz );\n#endif"; + +var bsdfs = "float G_BlinnPhong_Implicit( ) {\n\treturn 0.25;\n}\nfloat D_BlinnPhong( const in float shininess, const in float dotNH ) {\n\treturn RECIPROCAL_PI * ( shininess * 0.5 + 1.0 ) * pow( dotNH, shininess );\n}\nvec3 BRDF_BlinnPhong( const in vec3 lightDir, const in vec3 viewDir, const in vec3 normal, const in vec3 specularColor, const in float shininess ) {\n\tvec3 halfDir = normalize( lightDir + viewDir );\n\tfloat dotNH = saturate( dot( normal, halfDir ) );\n\tfloat dotVH = saturate( dot( viewDir, halfDir ) );\n\tvec3 F = F_Schlick( specularColor, 1.0, dotVH );\n\tfloat G = G_BlinnPhong_Implicit( );\n\tfloat D = D_BlinnPhong( shininess, dotNH );\n\treturn F * ( G * D );\n} // validated"; + +var iridescence_fragment = "#ifdef USE_IRIDESCENCE\n\tconst mat3 XYZ_TO_REC709 = mat3(\n\t\t 3.2404542, -0.9692660, 0.0556434,\n\t\t-1.5371385, 1.8760108, -0.2040259,\n\t\t-0.4985314, 0.0415560, 1.0572252\n\t);\n\tvec3 Fresnel0ToIor( vec3 fresnel0 ) {\n\t\tvec3 sqrtF0 = sqrt( fresnel0 );\n\t\treturn ( vec3( 1.0 ) + sqrtF0 ) / ( vec3( 1.0 ) - sqrtF0 );\n\t}\n\tvec3 IorToFresnel0( vec3 transmittedIor, float incidentIor ) {\n\t\treturn pow2( ( transmittedIor - vec3( incidentIor ) ) / ( transmittedIor + vec3( incidentIor ) ) );\n\t}\n\tfloat IorToFresnel0( float transmittedIor, float incidentIor ) {\n\t\treturn pow2( ( transmittedIor - incidentIor ) / ( transmittedIor + incidentIor ));\n\t}\n\tvec3 evalSensitivity( float OPD, vec3 shift ) {\n\t\tfloat phase = 2.0 * PI * OPD * 1.0e-9;\n\t\tvec3 val = vec3( 5.4856e-13, 4.4201e-13, 5.2481e-13 );\n\t\tvec3 pos = vec3( 1.6810e+06, 1.7953e+06, 2.2084e+06 );\n\t\tvec3 var = vec3( 4.3278e+09, 9.3046e+09, 6.6121e+09 );\n\t\tvec3 xyz = val * sqrt( 2.0 * PI * var ) * cos( pos * phase + shift ) * exp( - pow2( phase ) * var );\n\t\txyz.x += 9.7470e-14 * sqrt( 2.0 * PI * 4.5282e+09 ) * cos( 2.2399e+06 * phase + shift[ 0 ] ) * exp( - 4.5282e+09 * pow2( phase ) );\n\t\txyz /= 1.0685e-7;\n\t\tvec3 rgb = XYZ_TO_REC709 * xyz;\n\t\treturn rgb;\n\t}\n\tvec3 evalIridescence( float outsideIOR, float eta2, float cosTheta1, float thinFilmThickness, vec3 baseF0 ) {\n\t\tvec3 I;\n\t\tfloat iridescenceIOR = mix( outsideIOR, eta2, smoothstep( 0.0, 0.03, thinFilmThickness ) );\n\t\tfloat sinTheta2Sq = pow2( outsideIOR / iridescenceIOR ) * ( 1.0 - pow2( cosTheta1 ) );\n\t\tfloat cosTheta2Sq = 1.0 - sinTheta2Sq;\n\t\tif ( cosTheta2Sq < 0.0 ) {\n\t\t\treturn vec3( 1.0 );\n\t\t}\n\t\tfloat cosTheta2 = sqrt( cosTheta2Sq );\n\t\tfloat R0 = IorToFresnel0( iridescenceIOR, outsideIOR );\n\t\tfloat R12 = F_Schlick( R0, 1.0, cosTheta1 );\n\t\tfloat T121 = 1.0 - R12;\n\t\tfloat phi12 = 0.0;\n\t\tif ( iridescenceIOR < outsideIOR ) phi12 = PI;\n\t\tfloat phi21 = PI - phi12;\n\t\tvec3 baseIOR = Fresnel0ToIor( clamp( baseF0, 0.0, 0.9999 ) );\t\tvec3 R1 = IorToFresnel0( baseIOR, iridescenceIOR );\n\t\tvec3 R23 = F_Schlick( R1, 1.0, cosTheta2 );\n\t\tvec3 phi23 = vec3( 0.0 );\n\t\tif ( baseIOR[ 0 ] < iridescenceIOR ) phi23[ 0 ] = PI;\n\t\tif ( baseIOR[ 1 ] < iridescenceIOR ) phi23[ 1 ] = PI;\n\t\tif ( baseIOR[ 2 ] < iridescenceIOR ) phi23[ 2 ] = PI;\n\t\tfloat OPD = 2.0 * iridescenceIOR * thinFilmThickness * cosTheta2;\n\t\tvec3 phi = vec3( phi21 ) + phi23;\n\t\tvec3 R123 = clamp( R12 * R23, 1e-5, 0.9999 );\n\t\tvec3 r123 = sqrt( R123 );\n\t\tvec3 Rs = pow2( T121 ) * R23 / ( vec3( 1.0 ) - R123 );\n\t\tvec3 C0 = R12 + Rs;\n\t\tI = C0;\n\t\tvec3 Cm = Rs - T121;\n\t\tfor ( int m = 1; m <= 2; ++ m ) {\n\t\t\tCm *= r123;\n\t\t\tvec3 Sm = 2.0 * evalSensitivity( float( m ) * OPD, float( m ) * phi );\n\t\t\tI += Cm * Sm;\n\t\t}\n\t\treturn max( I, vec3( 0.0 ) );\n\t}\n#endif"; + +var bumpmap_pars_fragment = "#ifdef USE_BUMPMAP\n\tuniform sampler2D bumpMap;\n\tuniform float bumpScale;\n\tvec2 dHdxy_fwd() {\n\t\tvec2 dSTdx = dFdx( vBumpMapUv );\n\t\tvec2 dSTdy = dFdy( vBumpMapUv );\n\t\tfloat Hll = bumpScale * texture2D( bumpMap, vBumpMapUv ).x;\n\t\tfloat dBx = bumpScale * texture2D( bumpMap, vBumpMapUv + dSTdx ).x - Hll;\n\t\tfloat dBy = bumpScale * texture2D( bumpMap, vBumpMapUv + dSTdy ).x - Hll;\n\t\treturn vec2( dBx, dBy );\n\t}\n\tvec3 perturbNormalArb( vec3 surf_pos, vec3 surf_norm, vec2 dHdxy, float faceDirection ) {\n\t\tvec3 vSigmaX = normalize( dFdx( surf_pos.xyz ) );\n\t\tvec3 vSigmaY = normalize( dFdy( surf_pos.xyz ) );\n\t\tvec3 vN = surf_norm;\n\t\tvec3 R1 = cross( vSigmaY, vN );\n\t\tvec3 R2 = cross( vN, vSigmaX );\n\t\tfloat fDet = dot( vSigmaX, R1 ) * faceDirection;\n\t\tvec3 vGrad = sign( fDet ) * ( dHdxy.x * R1 + dHdxy.y * R2 );\n\t\treturn normalize( abs( fDet ) * surf_norm - vGrad );\n\t}\n#endif"; + +var clipping_planes_fragment = "#if NUM_CLIPPING_PLANES > 0\n\tvec4 plane;\n\t#ifdef ALPHA_TO_COVERAGE\n\t\tfloat distanceToPlane, distanceGradient;\n\t\tfloat clipOpacity = 1.0;\n\t\t#pragma unroll_loop_start\n\t\tfor ( int i = 0; i < UNION_CLIPPING_PLANES; i ++ ) {\n\t\t\tplane = clippingPlanes[ i ];\n\t\t\tdistanceToPlane = - dot( vClipPosition, plane.xyz ) + plane.w;\n\t\t\tdistanceGradient = fwidth( distanceToPlane ) / 2.0;\n\t\t\tclipOpacity *= smoothstep( - distanceGradient, distanceGradient, distanceToPlane );\n\t\t\tif ( clipOpacity == 0.0 ) discard;\n\t\t}\n\t\t#pragma unroll_loop_end\n\t\t#if UNION_CLIPPING_PLANES < NUM_CLIPPING_PLANES\n\t\t\tfloat unionClipOpacity = 1.0;\n\t\t\t#pragma unroll_loop_start\n\t\t\tfor ( int i = UNION_CLIPPING_PLANES; i < NUM_CLIPPING_PLANES; i ++ ) {\n\t\t\t\tplane = clippingPlanes[ i ];\n\t\t\t\tdistanceToPlane = - dot( vClipPosition, plane.xyz ) + plane.w;\n\t\t\t\tdistanceGradient = fwidth( distanceToPlane ) / 2.0;\n\t\t\t\tunionClipOpacity *= 1.0 - smoothstep( - distanceGradient, distanceGradient, distanceToPlane );\n\t\t\t}\n\t\t\t#pragma unroll_loop_end\n\t\t\tclipOpacity *= 1.0 - unionClipOpacity;\n\t\t#endif\n\t\tdiffuseColor.a *= clipOpacity;\n\t\tif ( diffuseColor.a == 0.0 ) discard;\n\t#else\n\t\t#pragma unroll_loop_start\n\t\tfor ( int i = 0; i < UNION_CLIPPING_PLANES; i ++ ) {\n\t\t\tplane = clippingPlanes[ i ];\n\t\t\tif ( dot( vClipPosition, plane.xyz ) > plane.w ) discard;\n\t\t}\n\t\t#pragma unroll_loop_end\n\t\t#if UNION_CLIPPING_PLANES < NUM_CLIPPING_PLANES\n\t\t\tbool clipped = true;\n\t\t\t#pragma unroll_loop_start\n\t\t\tfor ( int i = UNION_CLIPPING_PLANES; i < NUM_CLIPPING_PLANES; i ++ ) {\n\t\t\t\tplane = clippingPlanes[ i ];\n\t\t\t\tclipped = ( dot( vClipPosition, plane.xyz ) > plane.w ) && clipped;\n\t\t\t}\n\t\t\t#pragma unroll_loop_end\n\t\t\tif ( clipped ) discard;\n\t\t#endif\n\t#endif\n#endif"; + +var clipping_planes_pars_fragment = "#if NUM_CLIPPING_PLANES > 0\n\tvarying vec3 vClipPosition;\n\tuniform vec4 clippingPlanes[ NUM_CLIPPING_PLANES ];\n#endif"; + +var clipping_planes_pars_vertex = "#if NUM_CLIPPING_PLANES > 0\n\tvarying vec3 vClipPosition;\n#endif"; + +var clipping_planes_vertex = "#if NUM_CLIPPING_PLANES > 0\n\tvClipPosition = - mvPosition.xyz;\n#endif"; + +var color_fragment = "#if defined( USE_COLOR_ALPHA )\n\tdiffuseColor *= vColor;\n#elif defined( USE_COLOR )\n\tdiffuseColor.rgb *= vColor;\n#endif"; + +var color_pars_fragment = "#if defined( USE_COLOR_ALPHA )\n\tvarying vec4 vColor;\n#elif defined( USE_COLOR )\n\tvarying vec3 vColor;\n#endif"; + +var color_pars_vertex = "#if defined( USE_COLOR_ALPHA )\n\tvarying vec4 vColor;\n#elif defined( USE_COLOR ) || defined( USE_INSTANCING_COLOR ) || defined( USE_BATCHING_COLOR )\n\tvarying vec3 vColor;\n#endif"; + +var color_vertex = "#if defined( USE_COLOR_ALPHA )\n\tvColor = vec4( 1.0 );\n#elif defined( USE_COLOR ) || defined( USE_INSTANCING_COLOR ) || defined( USE_BATCHING_COLOR )\n\tvColor = vec3( 1.0 );\n#endif\n#ifdef USE_COLOR\n\tvColor *= color;\n#endif\n#ifdef USE_INSTANCING_COLOR\n\tvColor.xyz *= instanceColor.xyz;\n#endif\n#ifdef USE_BATCHING_COLOR\n\tvec3 batchingColor = getBatchingColor( getIndirectIndex( gl_DrawID ) );\n\tvColor.xyz *= batchingColor.xyz;\n#endif"; + +var common = "#define PI 3.141592653589793\n#define PI2 6.283185307179586\n#define PI_HALF 1.5707963267948966\n#define RECIPROCAL_PI 0.3183098861837907\n#define RECIPROCAL_PI2 0.15915494309189535\n#define EPSILON 1e-6\n#ifndef saturate\n#define saturate( a ) clamp( a, 0.0, 1.0 )\n#endif\n#define whiteComplement( a ) ( 1.0 - saturate( a ) )\nfloat pow2( const in float x ) { return x*x; }\nvec3 pow2( const in vec3 x ) { return x*x; }\nfloat pow3( const in float x ) { return x*x*x; }\nfloat pow4( const in float x ) { float x2 = x*x; return x2*x2; }\nfloat max3( const in vec3 v ) { return max( max( v.x, v.y ), v.z ); }\nfloat average( const in vec3 v ) { return dot( v, vec3( 0.3333333 ) ); }\nhighp float rand( const in vec2 uv ) {\n\tconst highp float a = 12.9898, b = 78.233, c = 43758.5453;\n\thighp float dt = dot( uv.xy, vec2( a,b ) ), sn = mod( dt, PI );\n\treturn fract( sin( sn ) * c );\n}\n#ifdef HIGH_PRECISION\n\tfloat precisionSafeLength( vec3 v ) { return length( v ); }\n#else\n\tfloat precisionSafeLength( vec3 v ) {\n\t\tfloat maxComponent = max3( abs( v ) );\n\t\treturn length( v / maxComponent ) * maxComponent;\n\t}\n#endif\nstruct IncidentLight {\n\tvec3 color;\n\tvec3 direction;\n\tbool visible;\n};\nstruct ReflectedLight {\n\tvec3 directDiffuse;\n\tvec3 directSpecular;\n\tvec3 indirectDiffuse;\n\tvec3 indirectSpecular;\n};\n#ifdef USE_ALPHAHASH\n\tvarying vec3 vPosition;\n#endif\nvec3 transformDirection( in vec3 dir, in mat4 matrix ) {\n\treturn normalize( ( matrix * vec4( dir, 0.0 ) ).xyz );\n}\nvec3 inverseTransformDirection( in vec3 dir, in mat4 matrix ) {\n\treturn normalize( ( vec4( dir, 0.0 ) * matrix ).xyz );\n}\nmat3 transposeMat3( const in mat3 m ) {\n\tmat3 tmp;\n\ttmp[ 0 ] = vec3( m[ 0 ].x, m[ 1 ].x, m[ 2 ].x );\n\ttmp[ 1 ] = vec3( m[ 0 ].y, m[ 1 ].y, m[ 2 ].y );\n\ttmp[ 2 ] = vec3( m[ 0 ].z, m[ 1 ].z, m[ 2 ].z );\n\treturn tmp;\n}\nbool isPerspectiveMatrix( mat4 m ) {\n\treturn m[ 2 ][ 3 ] == - 1.0;\n}\nvec2 equirectUv( in vec3 dir ) {\n\tfloat u = atan( dir.z, dir.x ) * RECIPROCAL_PI2 + 0.5;\n\tfloat v = asin( clamp( dir.y, - 1.0, 1.0 ) ) * RECIPROCAL_PI + 0.5;\n\treturn vec2( u, v );\n}\nvec3 BRDF_Lambert( const in vec3 diffuseColor ) {\n\treturn RECIPROCAL_PI * diffuseColor;\n}\nvec3 F_Schlick( const in vec3 f0, const in float f90, const in float dotVH ) {\n\tfloat fresnel = exp2( ( - 5.55473 * dotVH - 6.98316 ) * dotVH );\n\treturn f0 * ( 1.0 - fresnel ) + ( f90 * fresnel );\n}\nfloat F_Schlick( const in float f0, const in float f90, const in float dotVH ) {\n\tfloat fresnel = exp2( ( - 5.55473 * dotVH - 6.98316 ) * dotVH );\n\treturn f0 * ( 1.0 - fresnel ) + ( f90 * fresnel );\n} // validated"; + +var cube_uv_reflection_fragment = "#ifdef ENVMAP_TYPE_CUBE_UV\n\t#define cubeUV_minMipLevel 4.0\n\t#define cubeUV_minTileSize 16.0\n\tfloat getFace( vec3 direction ) {\n\t\tvec3 absDirection = abs( direction );\n\t\tfloat face = - 1.0;\n\t\tif ( absDirection.x > absDirection.z ) {\n\t\t\tif ( absDirection.x > absDirection.y )\n\t\t\t\tface = direction.x > 0.0 ? 0.0 : 3.0;\n\t\t\telse\n\t\t\t\tface = direction.y > 0.0 ? 1.0 : 4.0;\n\t\t} else {\n\t\t\tif ( absDirection.z > absDirection.y )\n\t\t\t\tface = direction.z > 0.0 ? 2.0 : 5.0;\n\t\t\telse\n\t\t\t\tface = direction.y > 0.0 ? 1.0 : 4.0;\n\t\t}\n\t\treturn face;\n\t}\n\tvec2 getUV( vec3 direction, float face ) {\n\t\tvec2 uv;\n\t\tif ( face == 0.0 ) {\n\t\t\tuv = vec2( direction.z, direction.y ) / abs( direction.x );\n\t\t} else if ( face == 1.0 ) {\n\t\t\tuv = vec2( - direction.x, - direction.z ) / abs( direction.y );\n\t\t} else if ( face == 2.0 ) {\n\t\t\tuv = vec2( - direction.x, direction.y ) / abs( direction.z );\n\t\t} else if ( face == 3.0 ) {\n\t\t\tuv = vec2( - direction.z, direction.y ) / abs( direction.x );\n\t\t} else if ( face == 4.0 ) {\n\t\t\tuv = vec2( - direction.x, direction.z ) / abs( direction.y );\n\t\t} else {\n\t\t\tuv = vec2( direction.x, direction.y ) / abs( direction.z );\n\t\t}\n\t\treturn 0.5 * ( uv + 1.0 );\n\t}\n\tvec3 bilinearCubeUV( sampler2D envMap, vec3 direction, float mipInt ) {\n\t\tfloat face = getFace( direction );\n\t\tfloat filterInt = max( cubeUV_minMipLevel - mipInt, 0.0 );\n\t\tmipInt = max( mipInt, cubeUV_minMipLevel );\n\t\tfloat faceSize = exp2( mipInt );\n\t\thighp vec2 uv = getUV( direction, face ) * ( faceSize - 2.0 ) + 1.0;\n\t\tif ( face > 2.0 ) {\n\t\t\tuv.y += faceSize;\n\t\t\tface -= 3.0;\n\t\t}\n\t\tuv.x += face * faceSize;\n\t\tuv.x += filterInt * 3.0 * cubeUV_minTileSize;\n\t\tuv.y += 4.0 * ( exp2( CUBEUV_MAX_MIP ) - faceSize );\n\t\tuv.x *= CUBEUV_TEXEL_WIDTH;\n\t\tuv.y *= CUBEUV_TEXEL_HEIGHT;\n\t\t#ifdef texture2DGradEXT\n\t\t\treturn texture2DGradEXT( envMap, uv, vec2( 0.0 ), vec2( 0.0 ) ).rgb;\n\t\t#else\n\t\t\treturn texture2D( envMap, uv ).rgb;\n\t\t#endif\n\t}\n\t#define cubeUV_r0 1.0\n\t#define cubeUV_m0 - 2.0\n\t#define cubeUV_r1 0.8\n\t#define cubeUV_m1 - 1.0\n\t#define cubeUV_r4 0.4\n\t#define cubeUV_m4 2.0\n\t#define cubeUV_r5 0.305\n\t#define cubeUV_m5 3.0\n\t#define cubeUV_r6 0.21\n\t#define cubeUV_m6 4.0\n\tfloat roughnessToMip( float roughness ) {\n\t\tfloat mip = 0.0;\n\t\tif ( roughness >= cubeUV_r1 ) {\n\t\t\tmip = ( cubeUV_r0 - roughness ) * ( cubeUV_m1 - cubeUV_m0 ) / ( cubeUV_r0 - cubeUV_r1 ) + cubeUV_m0;\n\t\t} else if ( roughness >= cubeUV_r4 ) {\n\t\t\tmip = ( cubeUV_r1 - roughness ) * ( cubeUV_m4 - cubeUV_m1 ) / ( cubeUV_r1 - cubeUV_r4 ) + cubeUV_m1;\n\t\t} else if ( roughness >= cubeUV_r5 ) {\n\t\t\tmip = ( cubeUV_r4 - roughness ) * ( cubeUV_m5 - cubeUV_m4 ) / ( cubeUV_r4 - cubeUV_r5 ) + cubeUV_m4;\n\t\t} else if ( roughness >= cubeUV_r6 ) {\n\t\t\tmip = ( cubeUV_r5 - roughness ) * ( cubeUV_m6 - cubeUV_m5 ) / ( cubeUV_r5 - cubeUV_r6 ) + cubeUV_m5;\n\t\t} else {\n\t\t\tmip = - 2.0 * log2( 1.16 * roughness );\t\t}\n\t\treturn mip;\n\t}\n\tvec4 textureCubeUV( sampler2D envMap, vec3 sampleDir, float roughness ) {\n\t\tfloat mip = clamp( roughnessToMip( roughness ), cubeUV_m0, CUBEUV_MAX_MIP );\n\t\tfloat mipF = fract( mip );\n\t\tfloat mipInt = floor( mip );\n\t\tvec3 color0 = bilinearCubeUV( envMap, sampleDir, mipInt );\n\t\tif ( mipF == 0.0 ) {\n\t\t\treturn vec4( color0, 1.0 );\n\t\t} else {\n\t\t\tvec3 color1 = bilinearCubeUV( envMap, sampleDir, mipInt + 1.0 );\n\t\t\treturn vec4( mix( color0, color1, mipF ), 1.0 );\n\t\t}\n\t}\n#endif"; + +var defaultnormal_vertex = "vec3 transformedNormal = objectNormal;\n#ifdef USE_TANGENT\n\tvec3 transformedTangent = objectTangent;\n#endif\n#ifdef USE_BATCHING\n\tmat3 bm = mat3( batchingMatrix );\n\ttransformedNormal /= vec3( dot( bm[ 0 ], bm[ 0 ] ), dot( bm[ 1 ], bm[ 1 ] ), dot( bm[ 2 ], bm[ 2 ] ) );\n\ttransformedNormal = bm * transformedNormal;\n\t#ifdef USE_TANGENT\n\t\ttransformedTangent = bm * transformedTangent;\n\t#endif\n#endif\n#ifdef USE_INSTANCING\n\tmat3 im = mat3( instanceMatrix );\n\ttransformedNormal /= vec3( dot( im[ 0 ], im[ 0 ] ), dot( im[ 1 ], im[ 1 ] ), dot( im[ 2 ], im[ 2 ] ) );\n\ttransformedNormal = im * transformedNormal;\n\t#ifdef USE_TANGENT\n\t\ttransformedTangent = im * transformedTangent;\n\t#endif\n#endif\ntransformedNormal = normalMatrix * transformedNormal;\n#ifdef FLIP_SIDED\n\ttransformedNormal = - transformedNormal;\n#endif\n#ifdef USE_TANGENT\n\ttransformedTangent = ( modelViewMatrix * vec4( transformedTangent, 0.0 ) ).xyz;\n\t#ifdef FLIP_SIDED\n\t\ttransformedTangent = - transformedTangent;\n\t#endif\n#endif"; + +var displacementmap_pars_vertex = "#ifdef USE_DISPLACEMENTMAP\n\tuniform sampler2D displacementMap;\n\tuniform float displacementScale;\n\tuniform float displacementBias;\n#endif"; + +var displacementmap_vertex = "#ifdef USE_DISPLACEMENTMAP\n\ttransformed += normalize( objectNormal ) * ( texture2D( displacementMap, vDisplacementMapUv ).x * displacementScale + displacementBias );\n#endif"; + +var emissivemap_fragment = "#ifdef USE_EMISSIVEMAP\n\tvec4 emissiveColor = texture2D( emissiveMap, vEmissiveMapUv );\n\t#ifdef DECODE_VIDEO_TEXTURE_EMISSIVE\n\t\temissiveColor = sRGBTransferEOTF( emissiveColor );\n\t#endif\n\ttotalEmissiveRadiance *= emissiveColor.rgb;\n#endif"; + +var emissivemap_pars_fragment = "#ifdef USE_EMISSIVEMAP\n\tuniform sampler2D emissiveMap;\n#endif"; + +var colorspace_fragment = "gl_FragColor = linearToOutputTexel( gl_FragColor );"; + +var colorspace_pars_fragment = "vec4 LinearTransferOETF( in vec4 value ) {\n\treturn value;\n}\nvec4 sRGBTransferEOTF( in vec4 value ) {\n\treturn vec4( mix( pow( value.rgb * 0.9478672986 + vec3( 0.0521327014 ), vec3( 2.4 ) ), value.rgb * 0.0773993808, vec3( lessThanEqual( value.rgb, vec3( 0.04045 ) ) ) ), value.a );\n}\nvec4 sRGBTransferOETF( in vec4 value ) {\n\treturn vec4( mix( pow( value.rgb, vec3( 0.41666 ) ) * 1.055 - vec3( 0.055 ), value.rgb * 12.92, vec3( lessThanEqual( value.rgb, vec3( 0.0031308 ) ) ) ), value.a );\n}"; + +var envmap_fragment = "#ifdef USE_ENVMAP\n\t#ifdef ENV_WORLDPOS\n\t\tvec3 cameraToFrag;\n\t\tif ( isOrthographic ) {\n\t\t\tcameraToFrag = normalize( vec3( - viewMatrix[ 0 ][ 2 ], - viewMatrix[ 1 ][ 2 ], - viewMatrix[ 2 ][ 2 ] ) );\n\t\t} else {\n\t\t\tcameraToFrag = normalize( vWorldPosition - cameraPosition );\n\t\t}\n\t\tvec3 worldNormal = inverseTransformDirection( normal, viewMatrix );\n\t\t#ifdef ENVMAP_MODE_REFLECTION\n\t\t\tvec3 reflectVec = reflect( cameraToFrag, worldNormal );\n\t\t#else\n\t\t\tvec3 reflectVec = refract( cameraToFrag, worldNormal, refractionRatio );\n\t\t#endif\n\t#else\n\t\tvec3 reflectVec = vReflect;\n\t#endif\n\t#ifdef ENVMAP_TYPE_CUBE\n\t\tvec4 envColor = textureCube( envMap, envMapRotation * vec3( flipEnvMap * reflectVec.x, reflectVec.yz ) );\n\t#else\n\t\tvec4 envColor = vec4( 0.0 );\n\t#endif\n\t#ifdef ENVMAP_BLENDING_MULTIPLY\n\t\toutgoingLight = mix( outgoingLight, outgoingLight * envColor.xyz, specularStrength * reflectivity );\n\t#elif defined( ENVMAP_BLENDING_MIX )\n\t\toutgoingLight = mix( outgoingLight, envColor.xyz, specularStrength * reflectivity );\n\t#elif defined( ENVMAP_BLENDING_ADD )\n\t\toutgoingLight += envColor.xyz * specularStrength * reflectivity;\n\t#endif\n#endif"; + +var envmap_common_pars_fragment = "#ifdef USE_ENVMAP\n\tuniform float envMapIntensity;\n\tuniform float flipEnvMap;\n\tuniform mat3 envMapRotation;\n\t#ifdef ENVMAP_TYPE_CUBE\n\t\tuniform samplerCube envMap;\n\t#else\n\t\tuniform sampler2D envMap;\n\t#endif\n\t\n#endif"; + +var envmap_pars_fragment = "#ifdef USE_ENVMAP\n\tuniform float reflectivity;\n\t#if defined( USE_BUMPMAP ) || defined( USE_NORMALMAP ) || defined( PHONG ) || defined( LAMBERT )\n\t\t#define ENV_WORLDPOS\n\t#endif\n\t#ifdef ENV_WORLDPOS\n\t\tvarying vec3 vWorldPosition;\n\t\tuniform float refractionRatio;\n\t#else\n\t\tvarying vec3 vReflect;\n\t#endif\n#endif"; + +var envmap_pars_vertex = "#ifdef USE_ENVMAP\n\t#if defined( USE_BUMPMAP ) || defined( USE_NORMALMAP ) || defined( PHONG ) || defined( LAMBERT )\n\t\t#define ENV_WORLDPOS\n\t#endif\n\t#ifdef ENV_WORLDPOS\n\t\t\n\t\tvarying vec3 vWorldPosition;\n\t#else\n\t\tvarying vec3 vReflect;\n\t\tuniform float refractionRatio;\n\t#endif\n#endif"; + +var envmap_vertex = "#ifdef USE_ENVMAP\n\t#ifdef ENV_WORLDPOS\n\t\tvWorldPosition = worldPosition.xyz;\n\t#else\n\t\tvec3 cameraToVertex;\n\t\tif ( isOrthographic ) {\n\t\t\tcameraToVertex = normalize( vec3( - viewMatrix[ 0 ][ 2 ], - viewMatrix[ 1 ][ 2 ], - viewMatrix[ 2 ][ 2 ] ) );\n\t\t} else {\n\t\t\tcameraToVertex = normalize( worldPosition.xyz - cameraPosition );\n\t\t}\n\t\tvec3 worldNormal = inverseTransformDirection( transformedNormal, viewMatrix );\n\t\t#ifdef ENVMAP_MODE_REFLECTION\n\t\t\tvReflect = reflect( cameraToVertex, worldNormal );\n\t\t#else\n\t\t\tvReflect = refract( cameraToVertex, worldNormal, refractionRatio );\n\t\t#endif\n\t#endif\n#endif"; + +var fog_vertex = "#ifdef USE_FOG\n\tvFogDepth = - mvPosition.z;\n#endif"; + +var fog_pars_vertex = "#ifdef USE_FOG\n\tvarying float vFogDepth;\n#endif"; + +var fog_fragment = "#ifdef USE_FOG\n\t#ifdef FOG_EXP2\n\t\tfloat fogFactor = 1.0 - exp( - fogDensity * fogDensity * vFogDepth * vFogDepth );\n\t#else\n\t\tfloat fogFactor = smoothstep( fogNear, fogFar, vFogDepth );\n\t#endif\n\tgl_FragColor.rgb = mix( gl_FragColor.rgb, fogColor, fogFactor );\n#endif"; + +var fog_pars_fragment = "#ifdef USE_FOG\n\tuniform vec3 fogColor;\n\tvarying float vFogDepth;\n\t#ifdef FOG_EXP2\n\t\tuniform float fogDensity;\n\t#else\n\t\tuniform float fogNear;\n\t\tuniform float fogFar;\n\t#endif\n#endif"; + +var gradientmap_pars_fragment = "#ifdef USE_GRADIENTMAP\n\tuniform sampler2D gradientMap;\n#endif\nvec3 getGradientIrradiance( vec3 normal, vec3 lightDirection ) {\n\tfloat dotNL = dot( normal, lightDirection );\n\tvec2 coord = vec2( dotNL * 0.5 + 0.5, 0.0 );\n\t#ifdef USE_GRADIENTMAP\n\t\treturn vec3( texture2D( gradientMap, coord ).r );\n\t#else\n\t\tvec2 fw = fwidth( coord ) * 0.5;\n\t\treturn mix( vec3( 0.7 ), vec3( 1.0 ), smoothstep( 0.7 - fw.x, 0.7 + fw.x, coord.x ) );\n\t#endif\n}"; + +var lightmap_pars_fragment = "#ifdef USE_LIGHTMAP\n\tuniform sampler2D lightMap;\n\tuniform float lightMapIntensity;\n#endif"; + +var lights_lambert_fragment = "LambertMaterial material;\nmaterial.diffuseColor = diffuseColor.rgb;\nmaterial.specularStrength = specularStrength;"; + +var lights_lambert_pars_fragment = "varying vec3 vViewPosition;\nstruct LambertMaterial {\n\tvec3 diffuseColor;\n\tfloat specularStrength;\n};\nvoid RE_Direct_Lambert( const in IncidentLight directLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in LambertMaterial material, inout ReflectedLight reflectedLight ) {\n\tfloat dotNL = saturate( dot( geometryNormal, directLight.direction ) );\n\tvec3 irradiance = dotNL * directLight.color;\n\treflectedLight.directDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );\n}\nvoid RE_IndirectDiffuse_Lambert( const in vec3 irradiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in LambertMaterial material, inout ReflectedLight reflectedLight ) {\n\treflectedLight.indirectDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );\n}\n#define RE_Direct\t\t\t\tRE_Direct_Lambert\n#define RE_IndirectDiffuse\t\tRE_IndirectDiffuse_Lambert"; + +var lights_pars_begin = "uniform bool receiveShadow;\nuniform vec3 ambientLightColor;\n#if defined( USE_LIGHT_PROBES )\n\tuniform vec3 lightProbe[ 9 ];\n#endif\nvec3 shGetIrradianceAt( in vec3 normal, in vec3 shCoefficients[ 9 ] ) {\n\tfloat x = normal.x, y = normal.y, z = normal.z;\n\tvec3 result = shCoefficients[ 0 ] * 0.886227;\n\tresult += shCoefficients[ 1 ] * 2.0 * 0.511664 * y;\n\tresult += shCoefficients[ 2 ] * 2.0 * 0.511664 * z;\n\tresult += shCoefficients[ 3 ] * 2.0 * 0.511664 * x;\n\tresult += shCoefficients[ 4 ] * 2.0 * 0.429043 * x * y;\n\tresult += shCoefficients[ 5 ] * 2.0 * 0.429043 * y * z;\n\tresult += shCoefficients[ 6 ] * ( 0.743125 * z * z - 0.247708 );\n\tresult += shCoefficients[ 7 ] * 2.0 * 0.429043 * x * z;\n\tresult += shCoefficients[ 8 ] * 0.429043 * ( x * x - y * y );\n\treturn result;\n}\nvec3 getLightProbeIrradiance( const in vec3 lightProbe[ 9 ], const in vec3 normal ) {\n\tvec3 worldNormal = inverseTransformDirection( normal, viewMatrix );\n\tvec3 irradiance = shGetIrradianceAt( worldNormal, lightProbe );\n\treturn irradiance;\n}\nvec3 getAmbientLightIrradiance( const in vec3 ambientLightColor ) {\n\tvec3 irradiance = ambientLightColor;\n\treturn irradiance;\n}\nfloat getDistanceAttenuation( const in float lightDistance, const in float cutoffDistance, const in float decayExponent ) {\n\tfloat distanceFalloff = 1.0 / max( pow( lightDistance, decayExponent ), 0.01 );\n\tif ( cutoffDistance > 0.0 ) {\n\t\tdistanceFalloff *= pow2( saturate( 1.0 - pow4( lightDistance / cutoffDistance ) ) );\n\t}\n\treturn distanceFalloff;\n}\nfloat getSpotAttenuation( const in float coneCosine, const in float penumbraCosine, const in float angleCosine ) {\n\treturn smoothstep( coneCosine, penumbraCosine, angleCosine );\n}\n#if NUM_DIR_LIGHTS > 0\n\tstruct DirectionalLight {\n\t\tvec3 direction;\n\t\tvec3 color;\n\t};\n\tuniform DirectionalLight directionalLights[ NUM_DIR_LIGHTS ];\n\tvoid getDirectionalLightInfo( const in DirectionalLight directionalLight, out IncidentLight light ) {\n\t\tlight.color = directionalLight.color;\n\t\tlight.direction = directionalLight.direction;\n\t\tlight.visible = true;\n\t}\n#endif\n#if NUM_POINT_LIGHTS > 0\n\tstruct PointLight {\n\t\tvec3 position;\n\t\tvec3 color;\n\t\tfloat distance;\n\t\tfloat decay;\n\t};\n\tuniform PointLight pointLights[ NUM_POINT_LIGHTS ];\n\tvoid getPointLightInfo( const in PointLight pointLight, const in vec3 geometryPosition, out IncidentLight light ) {\n\t\tvec3 lVector = pointLight.position - geometryPosition;\n\t\tlight.direction = normalize( lVector );\n\t\tfloat lightDistance = length( lVector );\n\t\tlight.color = pointLight.color;\n\t\tlight.color *= getDistanceAttenuation( lightDistance, pointLight.distance, pointLight.decay );\n\t\tlight.visible = ( light.color != vec3( 0.0 ) );\n\t}\n#endif\n#if NUM_SPOT_LIGHTS > 0\n\tstruct SpotLight {\n\t\tvec3 position;\n\t\tvec3 direction;\n\t\tvec3 color;\n\t\tfloat distance;\n\t\tfloat decay;\n\t\tfloat coneCos;\n\t\tfloat penumbraCos;\n\t};\n\tuniform SpotLight spotLights[ NUM_SPOT_LIGHTS ];\n\tvoid getSpotLightInfo( const in SpotLight spotLight, const in vec3 geometryPosition, out IncidentLight light ) {\n\t\tvec3 lVector = spotLight.position - geometryPosition;\n\t\tlight.direction = normalize( lVector );\n\t\tfloat angleCos = dot( light.direction, spotLight.direction );\n\t\tfloat spotAttenuation = getSpotAttenuation( spotLight.coneCos, spotLight.penumbraCos, angleCos );\n\t\tif ( spotAttenuation > 0.0 ) {\n\t\t\tfloat lightDistance = length( lVector );\n\t\t\tlight.color = spotLight.color * spotAttenuation;\n\t\t\tlight.color *= getDistanceAttenuation( lightDistance, spotLight.distance, spotLight.decay );\n\t\t\tlight.visible = ( light.color != vec3( 0.0 ) );\n\t\t} else {\n\t\t\tlight.color = vec3( 0.0 );\n\t\t\tlight.visible = false;\n\t\t}\n\t}\n#endif\n#if NUM_RECT_AREA_LIGHTS > 0\n\tstruct RectAreaLight {\n\t\tvec3 color;\n\t\tvec3 position;\n\t\tvec3 halfWidth;\n\t\tvec3 halfHeight;\n\t};\n\tuniform sampler2D ltc_1;\tuniform sampler2D ltc_2;\n\tuniform RectAreaLight rectAreaLights[ NUM_RECT_AREA_LIGHTS ];\n#endif\n#if NUM_HEMI_LIGHTS > 0\n\tstruct HemisphereLight {\n\t\tvec3 direction;\n\t\tvec3 skyColor;\n\t\tvec3 groundColor;\n\t};\n\tuniform HemisphereLight hemisphereLights[ NUM_HEMI_LIGHTS ];\n\tvec3 getHemisphereLightIrradiance( const in HemisphereLight hemiLight, const in vec3 normal ) {\n\t\tfloat dotNL = dot( normal, hemiLight.direction );\n\t\tfloat hemiDiffuseWeight = 0.5 * dotNL + 0.5;\n\t\tvec3 irradiance = mix( hemiLight.groundColor, hemiLight.skyColor, hemiDiffuseWeight );\n\t\treturn irradiance;\n\t}\n#endif"; + +var envmap_physical_pars_fragment = "#ifdef USE_ENVMAP\n\tvec3 getIBLIrradiance( const in vec3 normal ) {\n\t\t#ifdef ENVMAP_TYPE_CUBE_UV\n\t\t\tvec3 worldNormal = inverseTransformDirection( normal, viewMatrix );\n\t\t\tvec4 envMapColor = textureCubeUV( envMap, envMapRotation * worldNormal, 1.0 );\n\t\t\treturn PI * envMapColor.rgb * envMapIntensity;\n\t\t#else\n\t\t\treturn vec3( 0.0 );\n\t\t#endif\n\t}\n\tvec3 getIBLRadiance( const in vec3 viewDir, const in vec3 normal, const in float roughness ) {\n\t\t#ifdef ENVMAP_TYPE_CUBE_UV\n\t\t\tvec3 reflectVec = reflect( - viewDir, normal );\n\t\t\treflectVec = normalize( mix( reflectVec, normal, roughness * roughness) );\n\t\t\treflectVec = inverseTransformDirection( reflectVec, viewMatrix );\n\t\t\tvec4 envMapColor = textureCubeUV( envMap, envMapRotation * reflectVec, roughness );\n\t\t\treturn envMapColor.rgb * envMapIntensity;\n\t\t#else\n\t\t\treturn vec3( 0.0 );\n\t\t#endif\n\t}\n\t#ifdef USE_ANISOTROPY\n\t\tvec3 getIBLAnisotropyRadiance( const in vec3 viewDir, const in vec3 normal, const in float roughness, const in vec3 bitangent, const in float anisotropy ) {\n\t\t\t#ifdef ENVMAP_TYPE_CUBE_UV\n\t\t\t\tvec3 bentNormal = cross( bitangent, viewDir );\n\t\t\t\tbentNormal = normalize( cross( bentNormal, bitangent ) );\n\t\t\t\tbentNormal = normalize( mix( bentNormal, normal, pow2( pow2( 1.0 - anisotropy * ( 1.0 - roughness ) ) ) ) );\n\t\t\t\treturn getIBLRadiance( viewDir, bentNormal, roughness );\n\t\t\t#else\n\t\t\t\treturn vec3( 0.0 );\n\t\t\t#endif\n\t\t}\n\t#endif\n#endif"; + +var lights_toon_fragment = "ToonMaterial material;\nmaterial.diffuseColor = diffuseColor.rgb;"; + +var lights_toon_pars_fragment = "varying vec3 vViewPosition;\nstruct ToonMaterial {\n\tvec3 diffuseColor;\n};\nvoid RE_Direct_Toon( const in IncidentLight directLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in ToonMaterial material, inout ReflectedLight reflectedLight ) {\n\tvec3 irradiance = getGradientIrradiance( geometryNormal, directLight.direction ) * directLight.color;\n\treflectedLight.directDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );\n}\nvoid RE_IndirectDiffuse_Toon( const in vec3 irradiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in ToonMaterial material, inout ReflectedLight reflectedLight ) {\n\treflectedLight.indirectDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );\n}\n#define RE_Direct\t\t\t\tRE_Direct_Toon\n#define RE_IndirectDiffuse\t\tRE_IndirectDiffuse_Toon"; + +var lights_phong_fragment = "BlinnPhongMaterial material;\nmaterial.diffuseColor = diffuseColor.rgb;\nmaterial.specularColor = specular;\nmaterial.specularShininess = shininess;\nmaterial.specularStrength = specularStrength;"; + +var lights_phong_pars_fragment = "varying vec3 vViewPosition;\nstruct BlinnPhongMaterial {\n\tvec3 diffuseColor;\n\tvec3 specularColor;\n\tfloat specularShininess;\n\tfloat specularStrength;\n};\nvoid RE_Direct_BlinnPhong( const in IncidentLight directLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in BlinnPhongMaterial material, inout ReflectedLight reflectedLight ) {\n\tfloat dotNL = saturate( dot( geometryNormal, directLight.direction ) );\n\tvec3 irradiance = dotNL * directLight.color;\n\treflectedLight.directDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );\n\treflectedLight.directSpecular += irradiance * BRDF_BlinnPhong( directLight.direction, geometryViewDir, geometryNormal, material.specularColor, material.specularShininess ) * material.specularStrength;\n}\nvoid RE_IndirectDiffuse_BlinnPhong( const in vec3 irradiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in BlinnPhongMaterial material, inout ReflectedLight reflectedLight ) {\n\treflectedLight.indirectDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );\n}\n#define RE_Direct\t\t\t\tRE_Direct_BlinnPhong\n#define RE_IndirectDiffuse\t\tRE_IndirectDiffuse_BlinnPhong"; + +var lights_physical_fragment = "PhysicalMaterial material;\nmaterial.diffuseColor = diffuseColor.rgb * ( 1.0 - metalnessFactor );\nvec3 dxy = max( abs( dFdx( nonPerturbedNormal ) ), abs( dFdy( nonPerturbedNormal ) ) );\nfloat geometryRoughness = max( max( dxy.x, dxy.y ), dxy.z );\nmaterial.roughness = max( roughnessFactor, 0.0525 );material.roughness += geometryRoughness;\nmaterial.roughness = min( material.roughness, 1.0 );\n#ifdef IOR\n\tmaterial.ior = ior;\n\t#ifdef USE_SPECULAR\n\t\tfloat specularIntensityFactor = specularIntensity;\n\t\tvec3 specularColorFactor = specularColor;\n\t\t#ifdef USE_SPECULAR_COLORMAP\n\t\t\tspecularColorFactor *= texture2D( specularColorMap, vSpecularColorMapUv ).rgb;\n\t\t#endif\n\t\t#ifdef USE_SPECULAR_INTENSITYMAP\n\t\t\tspecularIntensityFactor *= texture2D( specularIntensityMap, vSpecularIntensityMapUv ).a;\n\t\t#endif\n\t\tmaterial.specularF90 = mix( specularIntensityFactor, 1.0, metalnessFactor );\n\t#else\n\t\tfloat specularIntensityFactor = 1.0;\n\t\tvec3 specularColorFactor = vec3( 1.0 );\n\t\tmaterial.specularF90 = 1.0;\n\t#endif\n\tmaterial.specularColor = mix( min( pow2( ( material.ior - 1.0 ) / ( material.ior + 1.0 ) ) * specularColorFactor, vec3( 1.0 ) ) * specularIntensityFactor, diffuseColor.rgb, metalnessFactor );\n#else\n\tmaterial.specularColor = mix( vec3( 0.04 ), diffuseColor.rgb, metalnessFactor );\n\tmaterial.specularF90 = 1.0;\n#endif\n#ifdef USE_CLEARCOAT\n\tmaterial.clearcoat = clearcoat;\n\tmaterial.clearcoatRoughness = clearcoatRoughness;\n\tmaterial.clearcoatF0 = vec3( 0.04 );\n\tmaterial.clearcoatF90 = 1.0;\n\t#ifdef USE_CLEARCOATMAP\n\t\tmaterial.clearcoat *= texture2D( clearcoatMap, vClearcoatMapUv ).x;\n\t#endif\n\t#ifdef USE_CLEARCOAT_ROUGHNESSMAP\n\t\tmaterial.clearcoatRoughness *= texture2D( clearcoatRoughnessMap, vClearcoatRoughnessMapUv ).y;\n\t#endif\n\tmaterial.clearcoat = saturate( material.clearcoat );\tmaterial.clearcoatRoughness = max( material.clearcoatRoughness, 0.0525 );\n\tmaterial.clearcoatRoughness += geometryRoughness;\n\tmaterial.clearcoatRoughness = min( material.clearcoatRoughness, 1.0 );\n#endif\n#ifdef USE_DISPERSION\n\tmaterial.dispersion = dispersion;\n#endif\n#ifdef USE_IRIDESCENCE\n\tmaterial.iridescence = iridescence;\n\tmaterial.iridescenceIOR = iridescenceIOR;\n\t#ifdef USE_IRIDESCENCEMAP\n\t\tmaterial.iridescence *= texture2D( iridescenceMap, vIridescenceMapUv ).r;\n\t#endif\n\t#ifdef USE_IRIDESCENCE_THICKNESSMAP\n\t\tmaterial.iridescenceThickness = (iridescenceThicknessMaximum - iridescenceThicknessMinimum) * texture2D( iridescenceThicknessMap, vIridescenceThicknessMapUv ).g + iridescenceThicknessMinimum;\n\t#else\n\t\tmaterial.iridescenceThickness = iridescenceThicknessMaximum;\n\t#endif\n#endif\n#ifdef USE_SHEEN\n\tmaterial.sheenColor = sheenColor;\n\t#ifdef USE_SHEEN_COLORMAP\n\t\tmaterial.sheenColor *= texture2D( sheenColorMap, vSheenColorMapUv ).rgb;\n\t#endif\n\tmaterial.sheenRoughness = clamp( sheenRoughness, 0.07, 1.0 );\n\t#ifdef USE_SHEEN_ROUGHNESSMAP\n\t\tmaterial.sheenRoughness *= texture2D( sheenRoughnessMap, vSheenRoughnessMapUv ).a;\n\t#endif\n#endif\n#ifdef USE_ANISOTROPY\n\t#ifdef USE_ANISOTROPYMAP\n\t\tmat2 anisotropyMat = mat2( anisotropyVector.x, anisotropyVector.y, - anisotropyVector.y, anisotropyVector.x );\n\t\tvec3 anisotropyPolar = texture2D( anisotropyMap, vAnisotropyMapUv ).rgb;\n\t\tvec2 anisotropyV = anisotropyMat * normalize( 2.0 * anisotropyPolar.rg - vec2( 1.0 ) ) * anisotropyPolar.b;\n\t#else\n\t\tvec2 anisotropyV = anisotropyVector;\n\t#endif\n\tmaterial.anisotropy = length( anisotropyV );\n\tif( material.anisotropy == 0.0 ) {\n\t\tanisotropyV = vec2( 1.0, 0.0 );\n\t} else {\n\t\tanisotropyV /= material.anisotropy;\n\t\tmaterial.anisotropy = saturate( material.anisotropy );\n\t}\n\tmaterial.alphaT = mix( pow2( material.roughness ), 1.0, pow2( material.anisotropy ) );\n\tmaterial.anisotropyT = tbn[ 0 ] * anisotropyV.x + tbn[ 1 ] * anisotropyV.y;\n\tmaterial.anisotropyB = tbn[ 1 ] * anisotropyV.x - tbn[ 0 ] * anisotropyV.y;\n#endif"; + +var lights_physical_pars_fragment = "struct PhysicalMaterial {\n\tvec3 diffuseColor;\n\tfloat roughness;\n\tvec3 specularColor;\n\tfloat specularF90;\n\tfloat dispersion;\n\t#ifdef USE_CLEARCOAT\n\t\tfloat clearcoat;\n\t\tfloat clearcoatRoughness;\n\t\tvec3 clearcoatF0;\n\t\tfloat clearcoatF90;\n\t#endif\n\t#ifdef USE_IRIDESCENCE\n\t\tfloat iridescence;\n\t\tfloat iridescenceIOR;\n\t\tfloat iridescenceThickness;\n\t\tvec3 iridescenceFresnel;\n\t\tvec3 iridescenceF0;\n\t#endif\n\t#ifdef USE_SHEEN\n\t\tvec3 sheenColor;\n\t\tfloat sheenRoughness;\n\t#endif\n\t#ifdef IOR\n\t\tfloat ior;\n\t#endif\n\t#ifdef USE_TRANSMISSION\n\t\tfloat transmission;\n\t\tfloat transmissionAlpha;\n\t\tfloat thickness;\n\t\tfloat attenuationDistance;\n\t\tvec3 attenuationColor;\n\t#endif\n\t#ifdef USE_ANISOTROPY\n\t\tfloat anisotropy;\n\t\tfloat alphaT;\n\t\tvec3 anisotropyT;\n\t\tvec3 anisotropyB;\n\t#endif\n};\nvec3 clearcoatSpecularDirect = vec3( 0.0 );\nvec3 clearcoatSpecularIndirect = vec3( 0.0 );\nvec3 sheenSpecularDirect = vec3( 0.0 );\nvec3 sheenSpecularIndirect = vec3(0.0 );\nvec3 Schlick_to_F0( const in vec3 f, const in float f90, const in float dotVH ) {\n float x = clamp( 1.0 - dotVH, 0.0, 1.0 );\n float x2 = x * x;\n float x5 = clamp( x * x2 * x2, 0.0, 0.9999 );\n return ( f - vec3( f90 ) * x5 ) / ( 1.0 - x5 );\n}\nfloat V_GGX_SmithCorrelated( const in float alpha, const in float dotNL, const in float dotNV ) {\n\tfloat a2 = pow2( alpha );\n\tfloat gv = dotNL * sqrt( a2 + ( 1.0 - a2 ) * pow2( dotNV ) );\n\tfloat gl = dotNV * sqrt( a2 + ( 1.0 - a2 ) * pow2( dotNL ) );\n\treturn 0.5 / max( gv + gl, EPSILON );\n}\nfloat D_GGX( const in float alpha, const in float dotNH ) {\n\tfloat a2 = pow2( alpha );\n\tfloat denom = pow2( dotNH ) * ( a2 - 1.0 ) + 1.0;\n\treturn RECIPROCAL_PI * a2 / pow2( denom );\n}\n#ifdef USE_ANISOTROPY\n\tfloat V_GGX_SmithCorrelated_Anisotropic( const in float alphaT, const in float alphaB, const in float dotTV, const in float dotBV, const in float dotTL, const in float dotBL, const in float dotNV, const in float dotNL ) {\n\t\tfloat gv = dotNL * length( vec3( alphaT * dotTV, alphaB * dotBV, dotNV ) );\n\t\tfloat gl = dotNV * length( vec3( alphaT * dotTL, alphaB * dotBL, dotNL ) );\n\t\tfloat v = 0.5 / ( gv + gl );\n\t\treturn saturate(v);\n\t}\n\tfloat D_GGX_Anisotropic( const in float alphaT, const in float alphaB, const in float dotNH, const in float dotTH, const in float dotBH ) {\n\t\tfloat a2 = alphaT * alphaB;\n\t\thighp vec3 v = vec3( alphaB * dotTH, alphaT * dotBH, a2 * dotNH );\n\t\thighp float v2 = dot( v, v );\n\t\tfloat w2 = a2 / v2;\n\t\treturn RECIPROCAL_PI * a2 * pow2 ( w2 );\n\t}\n#endif\n#ifdef USE_CLEARCOAT\n\tvec3 BRDF_GGX_Clearcoat( const in vec3 lightDir, const in vec3 viewDir, const in vec3 normal, const in PhysicalMaterial material) {\n\t\tvec3 f0 = material.clearcoatF0;\n\t\tfloat f90 = material.clearcoatF90;\n\t\tfloat roughness = material.clearcoatRoughness;\n\t\tfloat alpha = pow2( roughness );\n\t\tvec3 halfDir = normalize( lightDir + viewDir );\n\t\tfloat dotNL = saturate( dot( normal, lightDir ) );\n\t\tfloat dotNV = saturate( dot( normal, viewDir ) );\n\t\tfloat dotNH = saturate( dot( normal, halfDir ) );\n\t\tfloat dotVH = saturate( dot( viewDir, halfDir ) );\n\t\tvec3 F = F_Schlick( f0, f90, dotVH );\n\t\tfloat V = V_GGX_SmithCorrelated( alpha, dotNL, dotNV );\n\t\tfloat D = D_GGX( alpha, dotNH );\n\t\treturn F * ( V * D );\n\t}\n#endif\nvec3 BRDF_GGX( const in vec3 lightDir, const in vec3 viewDir, const in vec3 normal, const in PhysicalMaterial material ) {\n\tvec3 f0 = material.specularColor;\n\tfloat f90 = material.specularF90;\n\tfloat roughness = material.roughness;\n\tfloat alpha = pow2( roughness );\n\tvec3 halfDir = normalize( lightDir + viewDir );\n\tfloat dotNL = saturate( dot( normal, lightDir ) );\n\tfloat dotNV = saturate( dot( normal, viewDir ) );\n\tfloat dotNH = saturate( dot( normal, halfDir ) );\n\tfloat dotVH = saturate( dot( viewDir, halfDir ) );\n\tvec3 F = F_Schlick( f0, f90, dotVH );\n\t#ifdef USE_IRIDESCENCE\n\t\tF = mix( F, material.iridescenceFresnel, material.iridescence );\n\t#endif\n\t#ifdef USE_ANISOTROPY\n\t\tfloat dotTL = dot( material.anisotropyT, lightDir );\n\t\tfloat dotTV = dot( material.anisotropyT, viewDir );\n\t\tfloat dotTH = dot( material.anisotropyT, halfDir );\n\t\tfloat dotBL = dot( material.anisotropyB, lightDir );\n\t\tfloat dotBV = dot( material.anisotropyB, viewDir );\n\t\tfloat dotBH = dot( material.anisotropyB, halfDir );\n\t\tfloat V = V_GGX_SmithCorrelated_Anisotropic( material.alphaT, alpha, dotTV, dotBV, dotTL, dotBL, dotNV, dotNL );\n\t\tfloat D = D_GGX_Anisotropic( material.alphaT, alpha, dotNH, dotTH, dotBH );\n\t#else\n\t\tfloat V = V_GGX_SmithCorrelated( alpha, dotNL, dotNV );\n\t\tfloat D = D_GGX( alpha, dotNH );\n\t#endif\n\treturn F * ( V * D );\n}\nvec2 LTC_Uv( const in vec3 N, const in vec3 V, const in float roughness ) {\n\tconst float LUT_SIZE = 64.0;\n\tconst float LUT_SCALE = ( LUT_SIZE - 1.0 ) / LUT_SIZE;\n\tconst float LUT_BIAS = 0.5 / LUT_SIZE;\n\tfloat dotNV = saturate( dot( N, V ) );\n\tvec2 uv = vec2( roughness, sqrt( 1.0 - dotNV ) );\n\tuv = uv * LUT_SCALE + LUT_BIAS;\n\treturn uv;\n}\nfloat LTC_ClippedSphereFormFactor( const in vec3 f ) {\n\tfloat l = length( f );\n\treturn max( ( l * l + f.z ) / ( l + 1.0 ), 0.0 );\n}\nvec3 LTC_EdgeVectorFormFactor( const in vec3 v1, const in vec3 v2 ) {\n\tfloat x = dot( v1, v2 );\n\tfloat y = abs( x );\n\tfloat a = 0.8543985 + ( 0.4965155 + 0.0145206 * y ) * y;\n\tfloat b = 3.4175940 + ( 4.1616724 + y ) * y;\n\tfloat v = a / b;\n\tfloat theta_sintheta = ( x > 0.0 ) ? v : 0.5 * inversesqrt( max( 1.0 - x * x, 1e-7 ) ) - v;\n\treturn cross( v1, v2 ) * theta_sintheta;\n}\nvec3 LTC_Evaluate( const in vec3 N, const in vec3 V, const in vec3 P, const in mat3 mInv, const in vec3 rectCoords[ 4 ] ) {\n\tvec3 v1 = rectCoords[ 1 ] - rectCoords[ 0 ];\n\tvec3 v2 = rectCoords[ 3 ] - rectCoords[ 0 ];\n\tvec3 lightNormal = cross( v1, v2 );\n\tif( dot( lightNormal, P - rectCoords[ 0 ] ) < 0.0 ) return vec3( 0.0 );\n\tvec3 T1, T2;\n\tT1 = normalize( V - N * dot( V, N ) );\n\tT2 = - cross( N, T1 );\n\tmat3 mat = mInv * transposeMat3( mat3( T1, T2, N ) );\n\tvec3 coords[ 4 ];\n\tcoords[ 0 ] = mat * ( rectCoords[ 0 ] - P );\n\tcoords[ 1 ] = mat * ( rectCoords[ 1 ] - P );\n\tcoords[ 2 ] = mat * ( rectCoords[ 2 ] - P );\n\tcoords[ 3 ] = mat * ( rectCoords[ 3 ] - P );\n\tcoords[ 0 ] = normalize( coords[ 0 ] );\n\tcoords[ 1 ] = normalize( coords[ 1 ] );\n\tcoords[ 2 ] = normalize( coords[ 2 ] );\n\tcoords[ 3 ] = normalize( coords[ 3 ] );\n\tvec3 vectorFormFactor = vec3( 0.0 );\n\tvectorFormFactor += LTC_EdgeVectorFormFactor( coords[ 0 ], coords[ 1 ] );\n\tvectorFormFactor += LTC_EdgeVectorFormFactor( coords[ 1 ], coords[ 2 ] );\n\tvectorFormFactor += LTC_EdgeVectorFormFactor( coords[ 2 ], coords[ 3 ] );\n\tvectorFormFactor += LTC_EdgeVectorFormFactor( coords[ 3 ], coords[ 0 ] );\n\tfloat result = LTC_ClippedSphereFormFactor( vectorFormFactor );\n\treturn vec3( result );\n}\n#if defined( USE_SHEEN )\nfloat D_Charlie( float roughness, float dotNH ) {\n\tfloat alpha = pow2( roughness );\n\tfloat invAlpha = 1.0 / alpha;\n\tfloat cos2h = dotNH * dotNH;\n\tfloat sin2h = max( 1.0 - cos2h, 0.0078125 );\n\treturn ( 2.0 + invAlpha ) * pow( sin2h, invAlpha * 0.5 ) / ( 2.0 * PI );\n}\nfloat V_Neubelt( float dotNV, float dotNL ) {\n\treturn saturate( 1.0 / ( 4.0 * ( dotNL + dotNV - dotNL * dotNV ) ) );\n}\nvec3 BRDF_Sheen( const in vec3 lightDir, const in vec3 viewDir, const in vec3 normal, vec3 sheenColor, const in float sheenRoughness ) {\n\tvec3 halfDir = normalize( lightDir + viewDir );\n\tfloat dotNL = saturate( dot( normal, lightDir ) );\n\tfloat dotNV = saturate( dot( normal, viewDir ) );\n\tfloat dotNH = saturate( dot( normal, halfDir ) );\n\tfloat D = D_Charlie( sheenRoughness, dotNH );\n\tfloat V = V_Neubelt( dotNV, dotNL );\n\treturn sheenColor * ( D * V );\n}\n#endif\nfloat IBLSheenBRDF( const in vec3 normal, const in vec3 viewDir, const in float roughness ) {\n\tfloat dotNV = saturate( dot( normal, viewDir ) );\n\tfloat r2 = roughness * roughness;\n\tfloat a = roughness < 0.25 ? -339.2 * r2 + 161.4 * roughness - 25.9 : -8.48 * r2 + 14.3 * roughness - 9.95;\n\tfloat b = roughness < 0.25 ? 44.0 * r2 - 23.7 * roughness + 3.26 : 1.97 * r2 - 3.27 * roughness + 0.72;\n\tfloat DG = exp( a * dotNV + b ) + ( roughness < 0.25 ? 0.0 : 0.1 * ( roughness - 0.25 ) );\n\treturn saturate( DG * RECIPROCAL_PI );\n}\nvec2 DFGApprox( const in vec3 normal, const in vec3 viewDir, const in float roughness ) {\n\tfloat dotNV = saturate( dot( normal, viewDir ) );\n\tconst vec4 c0 = vec4( - 1, - 0.0275, - 0.572, 0.022 );\n\tconst vec4 c1 = vec4( 1, 0.0425, 1.04, - 0.04 );\n\tvec4 r = roughness * c0 + c1;\n\tfloat a004 = min( r.x * r.x, exp2( - 9.28 * dotNV ) ) * r.x + r.y;\n\tvec2 fab = vec2( - 1.04, 1.04 ) * a004 + r.zw;\n\treturn fab;\n}\nvec3 EnvironmentBRDF( const in vec3 normal, const in vec3 viewDir, const in vec3 specularColor, const in float specularF90, const in float roughness ) {\n\tvec2 fab = DFGApprox( normal, viewDir, roughness );\n\treturn specularColor * fab.x + specularF90 * fab.y;\n}\n#ifdef USE_IRIDESCENCE\nvoid computeMultiscatteringIridescence( const in vec3 normal, const in vec3 viewDir, const in vec3 specularColor, const in float specularF90, const in float iridescence, const in vec3 iridescenceF0, const in float roughness, inout vec3 singleScatter, inout vec3 multiScatter ) {\n#else\nvoid computeMultiscattering( const in vec3 normal, const in vec3 viewDir, const in vec3 specularColor, const in float specularF90, const in float roughness, inout vec3 singleScatter, inout vec3 multiScatter ) {\n#endif\n\tvec2 fab = DFGApprox( normal, viewDir, roughness );\n\t#ifdef USE_IRIDESCENCE\n\t\tvec3 Fr = mix( specularColor, iridescenceF0, iridescence );\n\t#else\n\t\tvec3 Fr = specularColor;\n\t#endif\n\tvec3 FssEss = Fr * fab.x + specularF90 * fab.y;\n\tfloat Ess = fab.x + fab.y;\n\tfloat Ems = 1.0 - Ess;\n\tvec3 Favg = Fr + ( 1.0 - Fr ) * 0.047619;\tvec3 Fms = FssEss * Favg / ( 1.0 - Ems * Favg );\n\tsingleScatter += FssEss;\n\tmultiScatter += Fms * Ems;\n}\n#if NUM_RECT_AREA_LIGHTS > 0\n\tvoid RE_Direct_RectArea_Physical( const in RectAreaLight rectAreaLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in PhysicalMaterial material, inout ReflectedLight reflectedLight ) {\n\t\tvec3 normal = geometryNormal;\n\t\tvec3 viewDir = geometryViewDir;\n\t\tvec3 position = geometryPosition;\n\t\tvec3 lightPos = rectAreaLight.position;\n\t\tvec3 halfWidth = rectAreaLight.halfWidth;\n\t\tvec3 halfHeight = rectAreaLight.halfHeight;\n\t\tvec3 lightColor = rectAreaLight.color;\n\t\tfloat roughness = material.roughness;\n\t\tvec3 rectCoords[ 4 ];\n\t\trectCoords[ 0 ] = lightPos + halfWidth - halfHeight;\t\trectCoords[ 1 ] = lightPos - halfWidth - halfHeight;\n\t\trectCoords[ 2 ] = lightPos - halfWidth + halfHeight;\n\t\trectCoords[ 3 ] = lightPos + halfWidth + halfHeight;\n\t\tvec2 uv = LTC_Uv( normal, viewDir, roughness );\n\t\tvec4 t1 = texture2D( ltc_1, uv );\n\t\tvec4 t2 = texture2D( ltc_2, uv );\n\t\tmat3 mInv = mat3(\n\t\t\tvec3( t1.x, 0, t1.y ),\n\t\t\tvec3( 0, 1, 0 ),\n\t\t\tvec3( t1.z, 0, t1.w )\n\t\t);\n\t\tvec3 fresnel = ( material.specularColor * t2.x + ( vec3( 1.0 ) - material.specularColor ) * t2.y );\n\t\treflectedLight.directSpecular += lightColor * fresnel * LTC_Evaluate( normal, viewDir, position, mInv, rectCoords );\n\t\treflectedLight.directDiffuse += lightColor * material.diffuseColor * LTC_Evaluate( normal, viewDir, position, mat3( 1.0 ), rectCoords );\n\t}\n#endif\nvoid RE_Direct_Physical( const in IncidentLight directLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in PhysicalMaterial material, inout ReflectedLight reflectedLight ) {\n\tfloat dotNL = saturate( dot( geometryNormal, directLight.direction ) );\n\tvec3 irradiance = dotNL * directLight.color;\n\t#ifdef USE_CLEARCOAT\n\t\tfloat dotNLcc = saturate( dot( geometryClearcoatNormal, directLight.direction ) );\n\t\tvec3 ccIrradiance = dotNLcc * directLight.color;\n\t\tclearcoatSpecularDirect += ccIrradiance * BRDF_GGX_Clearcoat( directLight.direction, geometryViewDir, geometryClearcoatNormal, material );\n\t#endif\n\t#ifdef USE_SHEEN\n\t\tsheenSpecularDirect += irradiance * BRDF_Sheen( directLight.direction, geometryViewDir, geometryNormal, material.sheenColor, material.sheenRoughness );\n\t#endif\n\treflectedLight.directSpecular += irradiance * BRDF_GGX( directLight.direction, geometryViewDir, geometryNormal, material );\n\treflectedLight.directDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );\n}\nvoid RE_IndirectDiffuse_Physical( const in vec3 irradiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in PhysicalMaterial material, inout ReflectedLight reflectedLight ) {\n\treflectedLight.indirectDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );\n}\nvoid RE_IndirectSpecular_Physical( const in vec3 radiance, const in vec3 irradiance, const in vec3 clearcoatRadiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in PhysicalMaterial material, inout ReflectedLight reflectedLight) {\n\t#ifdef USE_CLEARCOAT\n\t\tclearcoatSpecularIndirect += clearcoatRadiance * EnvironmentBRDF( geometryClearcoatNormal, geometryViewDir, material.clearcoatF0, material.clearcoatF90, material.clearcoatRoughness );\n\t#endif\n\t#ifdef USE_SHEEN\n\t\tsheenSpecularIndirect += irradiance * material.sheenColor * IBLSheenBRDF( geometryNormal, geometryViewDir, material.sheenRoughness );\n\t#endif\n\tvec3 singleScattering = vec3( 0.0 );\n\tvec3 multiScattering = vec3( 0.0 );\n\tvec3 cosineWeightedIrradiance = irradiance * RECIPROCAL_PI;\n\t#ifdef USE_IRIDESCENCE\n\t\tcomputeMultiscatteringIridescence( geometryNormal, geometryViewDir, material.specularColor, material.specularF90, material.iridescence, material.iridescenceFresnel, material.roughness, singleScattering, multiScattering );\n\t#else\n\t\tcomputeMultiscattering( geometryNormal, geometryViewDir, material.specularColor, material.specularF90, material.roughness, singleScattering, multiScattering );\n\t#endif\n\tvec3 totalScattering = singleScattering + multiScattering;\n\tvec3 diffuse = material.diffuseColor * ( 1.0 - max( max( totalScattering.r, totalScattering.g ), totalScattering.b ) );\n\treflectedLight.indirectSpecular += radiance * singleScattering;\n\treflectedLight.indirectSpecular += multiScattering * cosineWeightedIrradiance;\n\treflectedLight.indirectDiffuse += diffuse * cosineWeightedIrradiance;\n}\n#define RE_Direct\t\t\t\tRE_Direct_Physical\n#define RE_Direct_RectArea\t\tRE_Direct_RectArea_Physical\n#define RE_IndirectDiffuse\t\tRE_IndirectDiffuse_Physical\n#define RE_IndirectSpecular\t\tRE_IndirectSpecular_Physical\nfloat computeSpecularOcclusion( const in float dotNV, const in float ambientOcclusion, const in float roughness ) {\n\treturn saturate( pow( dotNV + ambientOcclusion, exp2( - 16.0 * roughness - 1.0 ) ) - 1.0 + ambientOcclusion );\n}"; + +var lights_fragment_begin = "\nvec3 geometryPosition = - vViewPosition;\nvec3 geometryNormal = normal;\nvec3 geometryViewDir = ( isOrthographic ) ? vec3( 0, 0, 1 ) : normalize( vViewPosition );\nvec3 geometryClearcoatNormal = vec3( 0.0 );\n#ifdef USE_CLEARCOAT\n\tgeometryClearcoatNormal = clearcoatNormal;\n#endif\n#ifdef USE_IRIDESCENCE\n\tfloat dotNVi = saturate( dot( normal, geometryViewDir ) );\n\tif ( material.iridescenceThickness == 0.0 ) {\n\t\tmaterial.iridescence = 0.0;\n\t} else {\n\t\tmaterial.iridescence = saturate( material.iridescence );\n\t}\n\tif ( material.iridescence > 0.0 ) {\n\t\tmaterial.iridescenceFresnel = evalIridescence( 1.0, material.iridescenceIOR, dotNVi, material.iridescenceThickness, material.specularColor );\n\t\tmaterial.iridescenceF0 = Schlick_to_F0( material.iridescenceFresnel, 1.0, dotNVi );\n\t}\n#endif\nIncidentLight directLight;\n#if ( NUM_POINT_LIGHTS > 0 ) && defined( RE_Direct )\n\tPointLight pointLight;\n\t#if defined( USE_SHADOWMAP ) && NUM_POINT_LIGHT_SHADOWS > 0\n\tPointLightShadow pointLightShadow;\n\t#endif\n\t#pragma unroll_loop_start\n\tfor ( int i = 0; i < NUM_POINT_LIGHTS; i ++ ) {\n\t\tpointLight = pointLights[ i ];\n\t\tgetPointLightInfo( pointLight, geometryPosition, directLight );\n\t\t#if defined( USE_SHADOWMAP ) && ( UNROLLED_LOOP_INDEX < NUM_POINT_LIGHT_SHADOWS )\n\t\tpointLightShadow = pointLightShadows[ i ];\n\t\tdirectLight.color *= ( directLight.visible && receiveShadow ) ? getPointShadow( pointShadowMap[ i ], pointLightShadow.shadowMapSize, pointLightShadow.shadowIntensity, pointLightShadow.shadowBias, pointLightShadow.shadowRadius, vPointShadowCoord[ i ], pointLightShadow.shadowCameraNear, pointLightShadow.shadowCameraFar ) : 1.0;\n\t\t#endif\n\t\tRE_Direct( directLight, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );\n\t}\n\t#pragma unroll_loop_end\n#endif\n#if ( NUM_SPOT_LIGHTS > 0 ) && defined( RE_Direct )\n\tSpotLight spotLight;\n\tvec4 spotColor;\n\tvec3 spotLightCoord;\n\tbool inSpotLightMap;\n\t#if defined( USE_SHADOWMAP ) && NUM_SPOT_LIGHT_SHADOWS > 0\n\tSpotLightShadow spotLightShadow;\n\t#endif\n\t#pragma unroll_loop_start\n\tfor ( int i = 0; i < NUM_SPOT_LIGHTS; i ++ ) {\n\t\tspotLight = spotLights[ i ];\n\t\tgetSpotLightInfo( spotLight, geometryPosition, directLight );\n\t\t#if ( UNROLLED_LOOP_INDEX < NUM_SPOT_LIGHT_SHADOWS_WITH_MAPS )\n\t\t#define SPOT_LIGHT_MAP_INDEX UNROLLED_LOOP_INDEX\n\t\t#elif ( UNROLLED_LOOP_INDEX < NUM_SPOT_LIGHT_SHADOWS )\n\t\t#define SPOT_LIGHT_MAP_INDEX NUM_SPOT_LIGHT_MAPS\n\t\t#else\n\t\t#define SPOT_LIGHT_MAP_INDEX ( UNROLLED_LOOP_INDEX - NUM_SPOT_LIGHT_SHADOWS + NUM_SPOT_LIGHT_SHADOWS_WITH_MAPS )\n\t\t#endif\n\t\t#if ( SPOT_LIGHT_MAP_INDEX < NUM_SPOT_LIGHT_MAPS )\n\t\t\tspotLightCoord = vSpotLightCoord[ i ].xyz / vSpotLightCoord[ i ].w;\n\t\t\tinSpotLightMap = all( lessThan( abs( spotLightCoord * 2. - 1. ), vec3( 1.0 ) ) );\n\t\t\tspotColor = texture2D( spotLightMap[ SPOT_LIGHT_MAP_INDEX ], spotLightCoord.xy );\n\t\t\tdirectLight.color = inSpotLightMap ? directLight.color * spotColor.rgb : directLight.color;\n\t\t#endif\n\t\t#undef SPOT_LIGHT_MAP_INDEX\n\t\t#if defined( USE_SHADOWMAP ) && ( UNROLLED_LOOP_INDEX < NUM_SPOT_LIGHT_SHADOWS )\n\t\tspotLightShadow = spotLightShadows[ i ];\n\t\tdirectLight.color *= ( directLight.visible && receiveShadow ) ? getShadow( spotShadowMap[ i ], spotLightShadow.shadowMapSize, spotLightShadow.shadowIntensity, spotLightShadow.shadowBias, spotLightShadow.shadowRadius, vSpotLightCoord[ i ] ) : 1.0;\n\t\t#endif\n\t\tRE_Direct( directLight, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );\n\t}\n\t#pragma unroll_loop_end\n#endif\n#if ( NUM_DIR_LIGHTS > 0 ) && defined( RE_Direct )\n\tDirectionalLight directionalLight;\n\t#if defined( USE_SHADOWMAP ) && NUM_DIR_LIGHT_SHADOWS > 0\n\tDirectionalLightShadow directionalLightShadow;\n\t#endif\n\t#pragma unroll_loop_start\n\tfor ( int i = 0; i < NUM_DIR_LIGHTS; i ++ ) {\n\t\tdirectionalLight = directionalLights[ i ];\n\t\tgetDirectionalLightInfo( directionalLight, directLight );\n\t\t#if defined( USE_SHADOWMAP ) && ( UNROLLED_LOOP_INDEX < NUM_DIR_LIGHT_SHADOWS )\n\t\tdirectionalLightShadow = directionalLightShadows[ i ];\n\t\tdirectLight.color *= ( directLight.visible && receiveShadow ) ? getShadow( directionalShadowMap[ i ], directionalLightShadow.shadowMapSize, directionalLightShadow.shadowIntensity, directionalLightShadow.shadowBias, directionalLightShadow.shadowRadius, vDirectionalShadowCoord[ i ] ) : 1.0;\n\t\t#endif\n\t\tRE_Direct( directLight, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );\n\t}\n\t#pragma unroll_loop_end\n#endif\n#if ( NUM_RECT_AREA_LIGHTS > 0 ) && defined( RE_Direct_RectArea )\n\tRectAreaLight rectAreaLight;\n\t#pragma unroll_loop_start\n\tfor ( int i = 0; i < NUM_RECT_AREA_LIGHTS; i ++ ) {\n\t\trectAreaLight = rectAreaLights[ i ];\n\t\tRE_Direct_RectArea( rectAreaLight, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );\n\t}\n\t#pragma unroll_loop_end\n#endif\n#if defined( RE_IndirectDiffuse )\n\tvec3 iblIrradiance = vec3( 0.0 );\n\tvec3 irradiance = getAmbientLightIrradiance( ambientLightColor );\n\t#if defined( USE_LIGHT_PROBES )\n\t\tirradiance += getLightProbeIrradiance( lightProbe, geometryNormal );\n\t#endif\n\t#if ( NUM_HEMI_LIGHTS > 0 )\n\t\t#pragma unroll_loop_start\n\t\tfor ( int i = 0; i < NUM_HEMI_LIGHTS; i ++ ) {\n\t\t\tirradiance += getHemisphereLightIrradiance( hemisphereLights[ i ], geometryNormal );\n\t\t}\n\t\t#pragma unroll_loop_end\n\t#endif\n#endif\n#if defined( RE_IndirectSpecular )\n\tvec3 radiance = vec3( 0.0 );\n\tvec3 clearcoatRadiance = vec3( 0.0 );\n#endif"; + +var lights_fragment_maps = "#if defined( RE_IndirectDiffuse )\n\t#ifdef USE_LIGHTMAP\n\t\tvec4 lightMapTexel = texture2D( lightMap, vLightMapUv );\n\t\tvec3 lightMapIrradiance = lightMapTexel.rgb * lightMapIntensity;\n\t\tirradiance += lightMapIrradiance;\n\t#endif\n\t#if defined( USE_ENVMAP ) && defined( STANDARD ) && defined( ENVMAP_TYPE_CUBE_UV )\n\t\tiblIrradiance += getIBLIrradiance( geometryNormal );\n\t#endif\n#endif\n#if defined( USE_ENVMAP ) && defined( RE_IndirectSpecular )\n\t#ifdef USE_ANISOTROPY\n\t\tradiance += getIBLAnisotropyRadiance( geometryViewDir, geometryNormal, material.roughness, material.anisotropyB, material.anisotropy );\n\t#else\n\t\tradiance += getIBLRadiance( geometryViewDir, geometryNormal, material.roughness );\n\t#endif\n\t#ifdef USE_CLEARCOAT\n\t\tclearcoatRadiance += getIBLRadiance( geometryViewDir, geometryClearcoatNormal, material.clearcoatRoughness );\n\t#endif\n#endif"; + +var lights_fragment_end = "#if defined( RE_IndirectDiffuse )\n\tRE_IndirectDiffuse( irradiance, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );\n#endif\n#if defined( RE_IndirectSpecular )\n\tRE_IndirectSpecular( radiance, iblIrradiance, clearcoatRadiance, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );\n#endif"; + +var logdepthbuf_fragment = "#if defined( USE_LOGDEPTHBUF )\n\tgl_FragDepth = vIsPerspective == 0.0 ? gl_FragCoord.z : log2( vFragDepth ) * logDepthBufFC * 0.5;\n#endif"; + +var logdepthbuf_pars_fragment = "#if defined( USE_LOGDEPTHBUF )\n\tuniform float logDepthBufFC;\n\tvarying float vFragDepth;\n\tvarying float vIsPerspective;\n#endif"; + +var logdepthbuf_pars_vertex = "#ifdef USE_LOGDEPTHBUF\n\tvarying float vFragDepth;\n\tvarying float vIsPerspective;\n#endif"; + +var logdepthbuf_vertex = "#ifdef USE_LOGDEPTHBUF\n\tvFragDepth = 1.0 + gl_Position.w;\n\tvIsPerspective = float( isPerspectiveMatrix( projectionMatrix ) );\n#endif"; + +var map_fragment = "#ifdef USE_MAP\n\tvec4 sampledDiffuseColor = texture2D( map, vMapUv );\n\t#ifdef DECODE_VIDEO_TEXTURE\n\t\tsampledDiffuseColor = sRGBTransferEOTF( sampledDiffuseColor );\n\t#endif\n\tdiffuseColor *= sampledDiffuseColor;\n#endif"; + +var map_pars_fragment = "#ifdef USE_MAP\n\tuniform sampler2D map;\n#endif"; + +var map_particle_fragment = "#if defined( USE_MAP ) || defined( USE_ALPHAMAP )\n\t#if defined( USE_POINTS_UV )\n\t\tvec2 uv = vUv;\n\t#else\n\t\tvec2 uv = ( uvTransform * vec3( gl_PointCoord.x, 1.0 - gl_PointCoord.y, 1 ) ).xy;\n\t#endif\n#endif\n#ifdef USE_MAP\n\tdiffuseColor *= texture2D( map, uv );\n#endif\n#ifdef USE_ALPHAMAP\n\tdiffuseColor.a *= texture2D( alphaMap, uv ).g;\n#endif"; + +var map_particle_pars_fragment = "#if defined( USE_POINTS_UV )\n\tvarying vec2 vUv;\n#else\n\t#if defined( USE_MAP ) || defined( USE_ALPHAMAP )\n\t\tuniform mat3 uvTransform;\n\t#endif\n#endif\n#ifdef USE_MAP\n\tuniform sampler2D map;\n#endif\n#ifdef USE_ALPHAMAP\n\tuniform sampler2D alphaMap;\n#endif"; + +var metalnessmap_fragment = "float metalnessFactor = metalness;\n#ifdef USE_METALNESSMAP\n\tvec4 texelMetalness = texture2D( metalnessMap, vMetalnessMapUv );\n\tmetalnessFactor *= texelMetalness.b;\n#endif"; + +var metalnessmap_pars_fragment = "#ifdef USE_METALNESSMAP\n\tuniform sampler2D metalnessMap;\n#endif"; + +var morphinstance_vertex = "#ifdef USE_INSTANCING_MORPH\n\tfloat morphTargetInfluences[ MORPHTARGETS_COUNT ];\n\tfloat morphTargetBaseInfluence = texelFetch( morphTexture, ivec2( 0, gl_InstanceID ), 0 ).r;\n\tfor ( int i = 0; i < MORPHTARGETS_COUNT; i ++ ) {\n\t\tmorphTargetInfluences[i] = texelFetch( morphTexture, ivec2( i + 1, gl_InstanceID ), 0 ).r;\n\t}\n#endif"; + +var morphcolor_vertex = "#if defined( USE_MORPHCOLORS )\n\tvColor *= morphTargetBaseInfluence;\n\tfor ( int i = 0; i < MORPHTARGETS_COUNT; i ++ ) {\n\t\t#if defined( USE_COLOR_ALPHA )\n\t\t\tif ( morphTargetInfluences[ i ] != 0.0 ) vColor += getMorph( gl_VertexID, i, 2 ) * morphTargetInfluences[ i ];\n\t\t#elif defined( USE_COLOR )\n\t\t\tif ( morphTargetInfluences[ i ] != 0.0 ) vColor += getMorph( gl_VertexID, i, 2 ).rgb * morphTargetInfluences[ i ];\n\t\t#endif\n\t}\n#endif"; + +var morphnormal_vertex = "#ifdef USE_MORPHNORMALS\n\tobjectNormal *= morphTargetBaseInfluence;\n\tfor ( int i = 0; i < MORPHTARGETS_COUNT; i ++ ) {\n\t\tif ( morphTargetInfluences[ i ] != 0.0 ) objectNormal += getMorph( gl_VertexID, i, 1 ).xyz * morphTargetInfluences[ i ];\n\t}\n#endif"; + +var morphtarget_pars_vertex = "#ifdef USE_MORPHTARGETS\n\t#ifndef USE_INSTANCING_MORPH\n\t\tuniform float morphTargetBaseInfluence;\n\t\tuniform float morphTargetInfluences[ MORPHTARGETS_COUNT ];\n\t#endif\n\tuniform sampler2DArray morphTargetsTexture;\n\tuniform ivec2 morphTargetsTextureSize;\n\tvec4 getMorph( const in int vertexIndex, const in int morphTargetIndex, const in int offset ) {\n\t\tint texelIndex = vertexIndex * MORPHTARGETS_TEXTURE_STRIDE + offset;\n\t\tint y = texelIndex / morphTargetsTextureSize.x;\n\t\tint x = texelIndex - y * morphTargetsTextureSize.x;\n\t\tivec3 morphUV = ivec3( x, y, morphTargetIndex );\n\t\treturn texelFetch( morphTargetsTexture, morphUV, 0 );\n\t}\n#endif"; + +var morphtarget_vertex = "#ifdef USE_MORPHTARGETS\n\ttransformed *= morphTargetBaseInfluence;\n\tfor ( int i = 0; i < MORPHTARGETS_COUNT; i ++ ) {\n\t\tif ( morphTargetInfluences[ i ] != 0.0 ) transformed += getMorph( gl_VertexID, i, 0 ).xyz * morphTargetInfluences[ i ];\n\t}\n#endif"; + +var normal_fragment_begin = "float faceDirection = gl_FrontFacing ? 1.0 : - 1.0;\n#ifdef FLAT_SHADED\n\tvec3 fdx = dFdx( vViewPosition );\n\tvec3 fdy = dFdy( vViewPosition );\n\tvec3 normal = normalize( cross( fdx, fdy ) );\n#else\n\tvec3 normal = normalize( vNormal );\n\t#ifdef DOUBLE_SIDED\n\t\tnormal *= faceDirection;\n\t#endif\n#endif\n#if defined( USE_NORMALMAP_TANGENTSPACE ) || defined( USE_CLEARCOAT_NORMALMAP ) || defined( USE_ANISOTROPY )\n\t#ifdef USE_TANGENT\n\t\tmat3 tbn = mat3( normalize( vTangent ), normalize( vBitangent ), normal );\n\t#else\n\t\tmat3 tbn = getTangentFrame( - vViewPosition, normal,\n\t\t#if defined( USE_NORMALMAP )\n\t\t\tvNormalMapUv\n\t\t#elif defined( USE_CLEARCOAT_NORMALMAP )\n\t\t\tvClearcoatNormalMapUv\n\t\t#else\n\t\t\tvUv\n\t\t#endif\n\t\t);\n\t#endif\n\t#if defined( DOUBLE_SIDED ) && ! defined( FLAT_SHADED )\n\t\ttbn[0] *= faceDirection;\n\t\ttbn[1] *= faceDirection;\n\t#endif\n#endif\n#ifdef USE_CLEARCOAT_NORMALMAP\n\t#ifdef USE_TANGENT\n\t\tmat3 tbn2 = mat3( normalize( vTangent ), normalize( vBitangent ), normal );\n\t#else\n\t\tmat3 tbn2 = getTangentFrame( - vViewPosition, normal, vClearcoatNormalMapUv );\n\t#endif\n\t#if defined( DOUBLE_SIDED ) && ! defined( FLAT_SHADED )\n\t\ttbn2[0] *= faceDirection;\n\t\ttbn2[1] *= faceDirection;\n\t#endif\n#endif\nvec3 nonPerturbedNormal = normal;"; + +var normal_fragment_maps = "#ifdef USE_NORMALMAP_OBJECTSPACE\n\tnormal = texture2D( normalMap, vNormalMapUv ).xyz * 2.0 - 1.0;\n\t#ifdef FLIP_SIDED\n\t\tnormal = - normal;\n\t#endif\n\t#ifdef DOUBLE_SIDED\n\t\tnormal = normal * faceDirection;\n\t#endif\n\tnormal = normalize( normalMatrix * normal );\n#elif defined( USE_NORMALMAP_TANGENTSPACE )\n\tvec3 mapN = texture2D( normalMap, vNormalMapUv ).xyz * 2.0 - 1.0;\n\tmapN.xy *= normalScale;\n\tnormal = normalize( tbn * mapN );\n#elif defined( USE_BUMPMAP )\n\tnormal = perturbNormalArb( - vViewPosition, normal, dHdxy_fwd(), faceDirection );\n#endif"; + +var normal_pars_fragment = "#ifndef FLAT_SHADED\n\tvarying vec3 vNormal;\n\t#ifdef USE_TANGENT\n\t\tvarying vec3 vTangent;\n\t\tvarying vec3 vBitangent;\n\t#endif\n#endif"; + +var normal_pars_vertex = "#ifndef FLAT_SHADED\n\tvarying vec3 vNormal;\n\t#ifdef USE_TANGENT\n\t\tvarying vec3 vTangent;\n\t\tvarying vec3 vBitangent;\n\t#endif\n#endif"; + +var normal_vertex = "#ifndef FLAT_SHADED\n\tvNormal = normalize( transformedNormal );\n\t#ifdef USE_TANGENT\n\t\tvTangent = normalize( transformedTangent );\n\t\tvBitangent = normalize( cross( vNormal, vTangent ) * tangent.w );\n\t#endif\n#endif"; + +var normalmap_pars_fragment = "#ifdef USE_NORMALMAP\n\tuniform sampler2D normalMap;\n\tuniform vec2 normalScale;\n#endif\n#ifdef USE_NORMALMAP_OBJECTSPACE\n\tuniform mat3 normalMatrix;\n#endif\n#if ! defined ( USE_TANGENT ) && ( defined ( USE_NORMALMAP_TANGENTSPACE ) || defined ( USE_CLEARCOAT_NORMALMAP ) || defined( USE_ANISOTROPY ) )\n\tmat3 getTangentFrame( vec3 eye_pos, vec3 surf_norm, vec2 uv ) {\n\t\tvec3 q0 = dFdx( eye_pos.xyz );\n\t\tvec3 q1 = dFdy( eye_pos.xyz );\n\t\tvec2 st0 = dFdx( uv.st );\n\t\tvec2 st1 = dFdy( uv.st );\n\t\tvec3 N = surf_norm;\n\t\tvec3 q1perp = cross( q1, N );\n\t\tvec3 q0perp = cross( N, q0 );\n\t\tvec3 T = q1perp * st0.x + q0perp * st1.x;\n\t\tvec3 B = q1perp * st0.y + q0perp * st1.y;\n\t\tfloat det = max( dot( T, T ), dot( B, B ) );\n\t\tfloat scale = ( det == 0.0 ) ? 0.0 : inversesqrt( det );\n\t\treturn mat3( T * scale, B * scale, N );\n\t}\n#endif"; + +var clearcoat_normal_fragment_begin = "#ifdef USE_CLEARCOAT\n\tvec3 clearcoatNormal = nonPerturbedNormal;\n#endif"; + +var clearcoat_normal_fragment_maps = "#ifdef USE_CLEARCOAT_NORMALMAP\n\tvec3 clearcoatMapN = texture2D( clearcoatNormalMap, vClearcoatNormalMapUv ).xyz * 2.0 - 1.0;\n\tclearcoatMapN.xy *= clearcoatNormalScale;\n\tclearcoatNormal = normalize( tbn2 * clearcoatMapN );\n#endif"; + +var clearcoat_pars_fragment = "#ifdef USE_CLEARCOATMAP\n\tuniform sampler2D clearcoatMap;\n#endif\n#ifdef USE_CLEARCOAT_NORMALMAP\n\tuniform sampler2D clearcoatNormalMap;\n\tuniform vec2 clearcoatNormalScale;\n#endif\n#ifdef USE_CLEARCOAT_ROUGHNESSMAP\n\tuniform sampler2D clearcoatRoughnessMap;\n#endif"; + +var iridescence_pars_fragment = "#ifdef USE_IRIDESCENCEMAP\n\tuniform sampler2D iridescenceMap;\n#endif\n#ifdef USE_IRIDESCENCE_THICKNESSMAP\n\tuniform sampler2D iridescenceThicknessMap;\n#endif"; + +var opaque_fragment = "#ifdef OPAQUE\ndiffuseColor.a = 1.0;\n#endif\n#ifdef USE_TRANSMISSION\ndiffuseColor.a *= material.transmissionAlpha;\n#endif\ngl_FragColor = vec4( outgoingLight, diffuseColor.a );"; + +var packing = "vec3 packNormalToRGB( const in vec3 normal ) {\n\treturn normalize( normal ) * 0.5 + 0.5;\n}\nvec3 unpackRGBToNormal( const in vec3 rgb ) {\n\treturn 2.0 * rgb.xyz - 1.0;\n}\nconst float PackUpscale = 256. / 255.;const float UnpackDownscale = 255. / 256.;const float ShiftRight8 = 1. / 256.;\nconst float Inv255 = 1. / 255.;\nconst vec4 PackFactors = vec4( 1.0, 256.0, 256.0 * 256.0, 256.0 * 256.0 * 256.0 );\nconst vec2 UnpackFactors2 = vec2( UnpackDownscale, 1.0 / PackFactors.g );\nconst vec3 UnpackFactors3 = vec3( UnpackDownscale / PackFactors.rg, 1.0 / PackFactors.b );\nconst vec4 UnpackFactors4 = vec4( UnpackDownscale / PackFactors.rgb, 1.0 / PackFactors.a );\nvec4 packDepthToRGBA( const in float v ) {\n\tif( v <= 0.0 )\n\t\treturn vec4( 0., 0., 0., 0. );\n\tif( v >= 1.0 )\n\t\treturn vec4( 1., 1., 1., 1. );\n\tfloat vuf;\n\tfloat af = modf( v * PackFactors.a, vuf );\n\tfloat bf = modf( vuf * ShiftRight8, vuf );\n\tfloat gf = modf( vuf * ShiftRight8, vuf );\n\treturn vec4( vuf * Inv255, gf * PackUpscale, bf * PackUpscale, af );\n}\nvec3 packDepthToRGB( const in float v ) {\n\tif( v <= 0.0 )\n\t\treturn vec3( 0., 0., 0. );\n\tif( v >= 1.0 )\n\t\treturn vec3( 1., 1., 1. );\n\tfloat vuf;\n\tfloat bf = modf( v * PackFactors.b, vuf );\n\tfloat gf = modf( vuf * ShiftRight8, vuf );\n\treturn vec3( vuf * Inv255, gf * PackUpscale, bf );\n}\nvec2 packDepthToRG( const in float v ) {\n\tif( v <= 0.0 )\n\t\treturn vec2( 0., 0. );\n\tif( v >= 1.0 )\n\t\treturn vec2( 1., 1. );\n\tfloat vuf;\n\tfloat gf = modf( v * 256., vuf );\n\treturn vec2( vuf * Inv255, gf );\n}\nfloat unpackRGBAToDepth( const in vec4 v ) {\n\treturn dot( v, UnpackFactors4 );\n}\nfloat unpackRGBToDepth( const in vec3 v ) {\n\treturn dot( v, UnpackFactors3 );\n}\nfloat unpackRGToDepth( const in vec2 v ) {\n\treturn v.r * UnpackFactors2.r + v.g * UnpackFactors2.g;\n}\nvec4 pack2HalfToRGBA( const in vec2 v ) {\n\tvec4 r = vec4( v.x, fract( v.x * 255.0 ), v.y, fract( v.y * 255.0 ) );\n\treturn vec4( r.x - r.y / 255.0, r.y, r.z - r.w / 255.0, r.w );\n}\nvec2 unpackRGBATo2Half( const in vec4 v ) {\n\treturn vec2( v.x + ( v.y / 255.0 ), v.z + ( v.w / 255.0 ) );\n}\nfloat viewZToOrthographicDepth( const in float viewZ, const in float near, const in float far ) {\n\treturn ( viewZ + near ) / ( near - far );\n}\nfloat orthographicDepthToViewZ( const in float depth, const in float near, const in float far ) {\n\treturn depth * ( near - far ) - near;\n}\nfloat viewZToPerspectiveDepth( const in float viewZ, const in float near, const in float far ) {\n\treturn ( ( near + viewZ ) * far ) / ( ( far - near ) * viewZ );\n}\nfloat perspectiveDepthToViewZ( const in float depth, const in float near, const in float far ) {\n\treturn ( near * far ) / ( ( far - near ) * depth - far );\n}"; + +var premultiplied_alpha_fragment = "#ifdef PREMULTIPLIED_ALPHA\n\tgl_FragColor.rgb *= gl_FragColor.a;\n#endif"; + +var project_vertex = "vec4 mvPosition = vec4( transformed, 1.0 );\n#ifdef USE_BATCHING\n\tmvPosition = batchingMatrix * mvPosition;\n#endif\n#ifdef USE_INSTANCING\n\tmvPosition = instanceMatrix * mvPosition;\n#endif\nmvPosition = modelViewMatrix * mvPosition;\ngl_Position = projectionMatrix * mvPosition;"; + +var dithering_fragment = "#ifdef DITHERING\n\tgl_FragColor.rgb = dithering( gl_FragColor.rgb );\n#endif"; + +var dithering_pars_fragment = "#ifdef DITHERING\n\tvec3 dithering( vec3 color ) {\n\t\tfloat grid_position = rand( gl_FragCoord.xy );\n\t\tvec3 dither_shift_RGB = vec3( 0.25 / 255.0, -0.25 / 255.0, 0.25 / 255.0 );\n\t\tdither_shift_RGB = mix( 2.0 * dither_shift_RGB, -2.0 * dither_shift_RGB, grid_position );\n\t\treturn color + dither_shift_RGB;\n\t}\n#endif"; + +var roughnessmap_fragment = "float roughnessFactor = roughness;\n#ifdef USE_ROUGHNESSMAP\n\tvec4 texelRoughness = texture2D( roughnessMap, vRoughnessMapUv );\n\troughnessFactor *= texelRoughness.g;\n#endif"; + +var roughnessmap_pars_fragment = "#ifdef USE_ROUGHNESSMAP\n\tuniform sampler2D roughnessMap;\n#endif"; + +var shadowmap_pars_fragment = "#if NUM_SPOT_LIGHT_COORDS > 0\n\tvarying vec4 vSpotLightCoord[ NUM_SPOT_LIGHT_COORDS ];\n#endif\n#if NUM_SPOT_LIGHT_MAPS > 0\n\tuniform sampler2D spotLightMap[ NUM_SPOT_LIGHT_MAPS ];\n#endif\n#ifdef USE_SHADOWMAP\n\t#if NUM_DIR_LIGHT_SHADOWS > 0\n\t\tuniform sampler2D directionalShadowMap[ NUM_DIR_LIGHT_SHADOWS ];\n\t\tvarying vec4 vDirectionalShadowCoord[ NUM_DIR_LIGHT_SHADOWS ];\n\t\tstruct DirectionalLightShadow {\n\t\t\tfloat shadowIntensity;\n\t\t\tfloat shadowBias;\n\t\t\tfloat shadowNormalBias;\n\t\t\tfloat shadowRadius;\n\t\t\tvec2 shadowMapSize;\n\t\t};\n\t\tuniform DirectionalLightShadow directionalLightShadows[ NUM_DIR_LIGHT_SHADOWS ];\n\t#endif\n\t#if NUM_SPOT_LIGHT_SHADOWS > 0\n\t\tuniform sampler2D spotShadowMap[ NUM_SPOT_LIGHT_SHADOWS ];\n\t\tstruct SpotLightShadow {\n\t\t\tfloat shadowIntensity;\n\t\t\tfloat shadowBias;\n\t\t\tfloat shadowNormalBias;\n\t\t\tfloat shadowRadius;\n\t\t\tvec2 shadowMapSize;\n\t\t};\n\t\tuniform SpotLightShadow spotLightShadows[ NUM_SPOT_LIGHT_SHADOWS ];\n\t#endif\n\t#if NUM_POINT_LIGHT_SHADOWS > 0\n\t\tuniform sampler2D pointShadowMap[ NUM_POINT_LIGHT_SHADOWS ];\n\t\tvarying vec4 vPointShadowCoord[ NUM_POINT_LIGHT_SHADOWS ];\n\t\tstruct PointLightShadow {\n\t\t\tfloat shadowIntensity;\n\t\t\tfloat shadowBias;\n\t\t\tfloat shadowNormalBias;\n\t\t\tfloat shadowRadius;\n\t\t\tvec2 shadowMapSize;\n\t\t\tfloat shadowCameraNear;\n\t\t\tfloat shadowCameraFar;\n\t\t};\n\t\tuniform PointLightShadow pointLightShadows[ NUM_POINT_LIGHT_SHADOWS ];\n\t#endif\n\tfloat texture2DCompare( sampler2D depths, vec2 uv, float compare ) {\n\t\treturn step( compare, unpackRGBAToDepth( texture2D( depths, uv ) ) );\n\t}\n\tvec2 texture2DDistribution( sampler2D shadow, vec2 uv ) {\n\t\treturn unpackRGBATo2Half( texture2D( shadow, uv ) );\n\t}\n\tfloat VSMShadow (sampler2D shadow, vec2 uv, float compare ){\n\t\tfloat occlusion = 1.0;\n\t\tvec2 distribution = texture2DDistribution( shadow, uv );\n\t\tfloat hard_shadow = step( compare , distribution.x );\n\t\tif (hard_shadow != 1.0 ) {\n\t\t\tfloat distance = compare - distribution.x ;\n\t\t\tfloat variance = max( 0.00000, distribution.y * distribution.y );\n\t\t\tfloat softness_probability = variance / (variance + distance * distance );\t\t\tsoftness_probability = clamp( ( softness_probability - 0.3 ) / ( 0.95 - 0.3 ), 0.0, 1.0 );\t\t\tocclusion = clamp( max( hard_shadow, softness_probability ), 0.0, 1.0 );\n\t\t}\n\t\treturn occlusion;\n\t}\n\tfloat getShadow( sampler2D shadowMap, vec2 shadowMapSize, float shadowIntensity, float shadowBias, float shadowRadius, vec4 shadowCoord ) {\n\t\tfloat shadow = 1.0;\n\t\tshadowCoord.xyz /= shadowCoord.w;\n\t\tshadowCoord.z += shadowBias;\n\t\tbool inFrustum = shadowCoord.x >= 0.0 && shadowCoord.x <= 1.0 && shadowCoord.y >= 0.0 && shadowCoord.y <= 1.0;\n\t\tbool frustumTest = inFrustum && shadowCoord.z <= 1.0;\n\t\tif ( frustumTest ) {\n\t\t#if defined( SHADOWMAP_TYPE_PCF )\n\t\t\tvec2 texelSize = vec2( 1.0 ) / shadowMapSize;\n\t\t\tfloat dx0 = - texelSize.x * shadowRadius;\n\t\t\tfloat dy0 = - texelSize.y * shadowRadius;\n\t\t\tfloat dx1 = + texelSize.x * shadowRadius;\n\t\t\tfloat dy1 = + texelSize.y * shadowRadius;\n\t\t\tfloat dx2 = dx0 / 2.0;\n\t\t\tfloat dy2 = dy0 / 2.0;\n\t\t\tfloat dx3 = dx1 / 2.0;\n\t\t\tfloat dy3 = dy1 / 2.0;\n\t\t\tshadow = (\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( dx0, dy0 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( 0.0, dy0 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( dx1, dy0 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( dx2, dy2 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( 0.0, dy2 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( dx3, dy2 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( dx0, 0.0 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( dx2, 0.0 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy, shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( dx3, 0.0 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( dx1, 0.0 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( dx2, dy3 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( 0.0, dy3 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( dx3, dy3 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( dx0, dy1 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( 0.0, dy1 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, shadowCoord.xy + vec2( dx1, dy1 ), shadowCoord.z )\n\t\t\t) * ( 1.0 / 17.0 );\n\t\t#elif defined( SHADOWMAP_TYPE_PCF_SOFT )\n\t\t\tvec2 texelSize = vec2( 1.0 ) / shadowMapSize;\n\t\t\tfloat dx = texelSize.x;\n\t\t\tfloat dy = texelSize.y;\n\t\t\tvec2 uv = shadowCoord.xy;\n\t\t\tvec2 f = fract( uv * shadowMapSize + 0.5 );\n\t\t\tuv -= f * texelSize;\n\t\t\tshadow = (\n\t\t\t\ttexture2DCompare( shadowMap, uv, shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, uv + vec2( dx, 0.0 ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, uv + vec2( 0.0, dy ), shadowCoord.z ) +\n\t\t\t\ttexture2DCompare( shadowMap, uv + texelSize, shadowCoord.z ) +\n\t\t\t\tmix( texture2DCompare( shadowMap, uv + vec2( -dx, 0.0 ), shadowCoord.z ),\n\t\t\t\t\t texture2DCompare( shadowMap, uv + vec2( 2.0 * dx, 0.0 ), shadowCoord.z ),\n\t\t\t\t\t f.x ) +\n\t\t\t\tmix( texture2DCompare( shadowMap, uv + vec2( -dx, dy ), shadowCoord.z ),\n\t\t\t\t\t texture2DCompare( shadowMap, uv + vec2( 2.0 * dx, dy ), shadowCoord.z ),\n\t\t\t\t\t f.x ) +\n\t\t\t\tmix( texture2DCompare( shadowMap, uv + vec2( 0.0, -dy ), shadowCoord.z ),\n\t\t\t\t\t texture2DCompare( shadowMap, uv + vec2( 0.0, 2.0 * dy ), shadowCoord.z ),\n\t\t\t\t\t f.y ) +\n\t\t\t\tmix( texture2DCompare( shadowMap, uv + vec2( dx, -dy ), shadowCoord.z ),\n\t\t\t\t\t texture2DCompare( shadowMap, uv + vec2( dx, 2.0 * dy ), shadowCoord.z ),\n\t\t\t\t\t f.y ) +\n\t\t\t\tmix( mix( texture2DCompare( shadowMap, uv + vec2( -dx, -dy ), shadowCoord.z ),\n\t\t\t\t\t\t texture2DCompare( shadowMap, uv + vec2( 2.0 * dx, -dy ), shadowCoord.z ),\n\t\t\t\t\t\t f.x ),\n\t\t\t\t\t mix( texture2DCompare( shadowMap, uv + vec2( -dx, 2.0 * dy ), shadowCoord.z ),\n\t\t\t\t\t\t texture2DCompare( shadowMap, uv + vec2( 2.0 * dx, 2.0 * dy ), shadowCoord.z ),\n\t\t\t\t\t\t f.x ),\n\t\t\t\t\t f.y )\n\t\t\t) * ( 1.0 / 9.0 );\n\t\t#elif defined( SHADOWMAP_TYPE_VSM )\n\t\t\tshadow = VSMShadow( shadowMap, shadowCoord.xy, shadowCoord.z );\n\t\t#else\n\t\t\tshadow = texture2DCompare( shadowMap, shadowCoord.xy, shadowCoord.z );\n\t\t#endif\n\t\t}\n\t\treturn mix( 1.0, shadow, shadowIntensity );\n\t}\n\tvec2 cubeToUV( vec3 v, float texelSizeY ) {\n\t\tvec3 absV = abs( v );\n\t\tfloat scaleToCube = 1.0 / max( absV.x, max( absV.y, absV.z ) );\n\t\tabsV *= scaleToCube;\n\t\tv *= scaleToCube * ( 1.0 - 2.0 * texelSizeY );\n\t\tvec2 planar = v.xy;\n\t\tfloat almostATexel = 1.5 * texelSizeY;\n\t\tfloat almostOne = 1.0 - almostATexel;\n\t\tif ( absV.z >= almostOne ) {\n\t\t\tif ( v.z > 0.0 )\n\t\t\t\tplanar.x = 4.0 - v.x;\n\t\t} else if ( absV.x >= almostOne ) {\n\t\t\tfloat signX = sign( v.x );\n\t\t\tplanar.x = v.z * signX + 2.0 * signX;\n\t\t} else if ( absV.y >= almostOne ) {\n\t\t\tfloat signY = sign( v.y );\n\t\t\tplanar.x = v.x + 2.0 * signY + 2.0;\n\t\t\tplanar.y = v.z * signY - 2.0;\n\t\t}\n\t\treturn vec2( 0.125, 0.25 ) * planar + vec2( 0.375, 0.75 );\n\t}\n\tfloat getPointShadow( sampler2D shadowMap, vec2 shadowMapSize, float shadowIntensity, float shadowBias, float shadowRadius, vec4 shadowCoord, float shadowCameraNear, float shadowCameraFar ) {\n\t\tfloat shadow = 1.0;\n\t\tvec3 lightToPosition = shadowCoord.xyz;\n\t\t\n\t\tfloat lightToPositionLength = length( lightToPosition );\n\t\tif ( lightToPositionLength - shadowCameraFar <= 0.0 && lightToPositionLength - shadowCameraNear >= 0.0 ) {\n\t\t\tfloat dp = ( lightToPositionLength - shadowCameraNear ) / ( shadowCameraFar - shadowCameraNear );\t\t\tdp += shadowBias;\n\t\t\tvec3 bd3D = normalize( lightToPosition );\n\t\t\tvec2 texelSize = vec2( 1.0 ) / ( shadowMapSize * vec2( 4.0, 2.0 ) );\n\t\t\t#if defined( SHADOWMAP_TYPE_PCF ) || defined( SHADOWMAP_TYPE_PCF_SOFT ) || defined( SHADOWMAP_TYPE_VSM )\n\t\t\t\tvec2 offset = vec2( - 1, 1 ) * shadowRadius * texelSize.y;\n\t\t\t\tshadow = (\n\t\t\t\t\ttexture2DCompare( shadowMap, cubeToUV( bd3D + offset.xyy, texelSize.y ), dp ) +\n\t\t\t\t\ttexture2DCompare( shadowMap, cubeToUV( bd3D + offset.yyy, texelSize.y ), dp ) +\n\t\t\t\t\ttexture2DCompare( shadowMap, cubeToUV( bd3D + offset.xyx, texelSize.y ), dp ) +\n\t\t\t\t\ttexture2DCompare( shadowMap, cubeToUV( bd3D + offset.yyx, texelSize.y ), dp ) +\n\t\t\t\t\ttexture2DCompare( shadowMap, cubeToUV( bd3D, texelSize.y ), dp ) +\n\t\t\t\t\ttexture2DCompare( shadowMap, cubeToUV( bd3D + offset.xxy, texelSize.y ), dp ) +\n\t\t\t\t\ttexture2DCompare( shadowMap, cubeToUV( bd3D + offset.yxy, texelSize.y ), dp ) +\n\t\t\t\t\ttexture2DCompare( shadowMap, cubeToUV( bd3D + offset.xxx, texelSize.y ), dp ) +\n\t\t\t\t\ttexture2DCompare( shadowMap, cubeToUV( bd3D + offset.yxx, texelSize.y ), dp )\n\t\t\t\t) * ( 1.0 / 9.0 );\n\t\t\t#else\n\t\t\t\tshadow = texture2DCompare( shadowMap, cubeToUV( bd3D, texelSize.y ), dp );\n\t\t\t#endif\n\t\t}\n\t\treturn mix( 1.0, shadow, shadowIntensity );\n\t}\n#endif"; + +var shadowmap_pars_vertex = "#if NUM_SPOT_LIGHT_COORDS > 0\n\tuniform mat4 spotLightMatrix[ NUM_SPOT_LIGHT_COORDS ];\n\tvarying vec4 vSpotLightCoord[ NUM_SPOT_LIGHT_COORDS ];\n#endif\n#ifdef USE_SHADOWMAP\n\t#if NUM_DIR_LIGHT_SHADOWS > 0\n\t\tuniform mat4 directionalShadowMatrix[ NUM_DIR_LIGHT_SHADOWS ];\n\t\tvarying vec4 vDirectionalShadowCoord[ NUM_DIR_LIGHT_SHADOWS ];\n\t\tstruct DirectionalLightShadow {\n\t\t\tfloat shadowIntensity;\n\t\t\tfloat shadowBias;\n\t\t\tfloat shadowNormalBias;\n\t\t\tfloat shadowRadius;\n\t\t\tvec2 shadowMapSize;\n\t\t};\n\t\tuniform DirectionalLightShadow directionalLightShadows[ NUM_DIR_LIGHT_SHADOWS ];\n\t#endif\n\t#if NUM_SPOT_LIGHT_SHADOWS > 0\n\t\tstruct SpotLightShadow {\n\t\t\tfloat shadowIntensity;\n\t\t\tfloat shadowBias;\n\t\t\tfloat shadowNormalBias;\n\t\t\tfloat shadowRadius;\n\t\t\tvec2 shadowMapSize;\n\t\t};\n\t\tuniform SpotLightShadow spotLightShadows[ NUM_SPOT_LIGHT_SHADOWS ];\n\t#endif\n\t#if NUM_POINT_LIGHT_SHADOWS > 0\n\t\tuniform mat4 pointShadowMatrix[ NUM_POINT_LIGHT_SHADOWS ];\n\t\tvarying vec4 vPointShadowCoord[ NUM_POINT_LIGHT_SHADOWS ];\n\t\tstruct PointLightShadow {\n\t\t\tfloat shadowIntensity;\n\t\t\tfloat shadowBias;\n\t\t\tfloat shadowNormalBias;\n\t\t\tfloat shadowRadius;\n\t\t\tvec2 shadowMapSize;\n\t\t\tfloat shadowCameraNear;\n\t\t\tfloat shadowCameraFar;\n\t\t};\n\t\tuniform PointLightShadow pointLightShadows[ NUM_POINT_LIGHT_SHADOWS ];\n\t#endif\n#endif"; + +var shadowmap_vertex = "#if ( defined( USE_SHADOWMAP ) && ( NUM_DIR_LIGHT_SHADOWS > 0 || NUM_POINT_LIGHT_SHADOWS > 0 ) ) || ( NUM_SPOT_LIGHT_COORDS > 0 )\n\tvec3 shadowWorldNormal = inverseTransformDirection( transformedNormal, viewMatrix );\n\tvec4 shadowWorldPosition;\n#endif\n#if defined( USE_SHADOWMAP )\n\t#if NUM_DIR_LIGHT_SHADOWS > 0\n\t\t#pragma unroll_loop_start\n\t\tfor ( int i = 0; i < NUM_DIR_LIGHT_SHADOWS; i ++ ) {\n\t\t\tshadowWorldPosition = worldPosition + vec4( shadowWorldNormal * directionalLightShadows[ i ].shadowNormalBias, 0 );\n\t\t\tvDirectionalShadowCoord[ i ] = directionalShadowMatrix[ i ] * shadowWorldPosition;\n\t\t}\n\t\t#pragma unroll_loop_end\n\t#endif\n\t#if NUM_POINT_LIGHT_SHADOWS > 0\n\t\t#pragma unroll_loop_start\n\t\tfor ( int i = 0; i < NUM_POINT_LIGHT_SHADOWS; i ++ ) {\n\t\t\tshadowWorldPosition = worldPosition + vec4( shadowWorldNormal * pointLightShadows[ i ].shadowNormalBias, 0 );\n\t\t\tvPointShadowCoord[ i ] = pointShadowMatrix[ i ] * shadowWorldPosition;\n\t\t}\n\t\t#pragma unroll_loop_end\n\t#endif\n#endif\n#if NUM_SPOT_LIGHT_COORDS > 0\n\t#pragma unroll_loop_start\n\tfor ( int i = 0; i < NUM_SPOT_LIGHT_COORDS; i ++ ) {\n\t\tshadowWorldPosition = worldPosition;\n\t\t#if ( defined( USE_SHADOWMAP ) && UNROLLED_LOOP_INDEX < NUM_SPOT_LIGHT_SHADOWS )\n\t\t\tshadowWorldPosition.xyz += shadowWorldNormal * spotLightShadows[ i ].shadowNormalBias;\n\t\t#endif\n\t\tvSpotLightCoord[ i ] = spotLightMatrix[ i ] * shadowWorldPosition;\n\t}\n\t#pragma unroll_loop_end\n#endif"; + +var shadowmask_pars_fragment = "float getShadowMask() {\n\tfloat shadow = 1.0;\n\t#ifdef USE_SHADOWMAP\n\t#if NUM_DIR_LIGHT_SHADOWS > 0\n\tDirectionalLightShadow directionalLight;\n\t#pragma unroll_loop_start\n\tfor ( int i = 0; i < NUM_DIR_LIGHT_SHADOWS; i ++ ) {\n\t\tdirectionalLight = directionalLightShadows[ i ];\n\t\tshadow *= receiveShadow ? getShadow( directionalShadowMap[ i ], directionalLight.shadowMapSize, directionalLight.shadowIntensity, directionalLight.shadowBias, directionalLight.shadowRadius, vDirectionalShadowCoord[ i ] ) : 1.0;\n\t}\n\t#pragma unroll_loop_end\n\t#endif\n\t#if NUM_SPOT_LIGHT_SHADOWS > 0\n\tSpotLightShadow spotLight;\n\t#pragma unroll_loop_start\n\tfor ( int i = 0; i < NUM_SPOT_LIGHT_SHADOWS; i ++ ) {\n\t\tspotLight = spotLightShadows[ i ];\n\t\tshadow *= receiveShadow ? getShadow( spotShadowMap[ i ], spotLight.shadowMapSize, spotLight.shadowIntensity, spotLight.shadowBias, spotLight.shadowRadius, vSpotLightCoord[ i ] ) : 1.0;\n\t}\n\t#pragma unroll_loop_end\n\t#endif\n\t#if NUM_POINT_LIGHT_SHADOWS > 0\n\tPointLightShadow pointLight;\n\t#pragma unroll_loop_start\n\tfor ( int i = 0; i < NUM_POINT_LIGHT_SHADOWS; i ++ ) {\n\t\tpointLight = pointLightShadows[ i ];\n\t\tshadow *= receiveShadow ? getPointShadow( pointShadowMap[ i ], pointLight.shadowMapSize, pointLight.shadowIntensity, pointLight.shadowBias, pointLight.shadowRadius, vPointShadowCoord[ i ], pointLight.shadowCameraNear, pointLight.shadowCameraFar ) : 1.0;\n\t}\n\t#pragma unroll_loop_end\n\t#endif\n\t#endif\n\treturn shadow;\n}"; + +var skinbase_vertex = "#ifdef USE_SKINNING\n\tmat4 boneMatX = getBoneMatrix( skinIndex.x );\n\tmat4 boneMatY = getBoneMatrix( skinIndex.y );\n\tmat4 boneMatZ = getBoneMatrix( skinIndex.z );\n\tmat4 boneMatW = getBoneMatrix( skinIndex.w );\n#endif"; + +var skinning_pars_vertex = "#ifdef USE_SKINNING\n\tuniform mat4 bindMatrix;\n\tuniform mat4 bindMatrixInverse;\n\tuniform highp sampler2D boneTexture;\n\tmat4 getBoneMatrix( const in float i ) {\n\t\tint size = textureSize( boneTexture, 0 ).x;\n\t\tint j = int( i ) * 4;\n\t\tint x = j % size;\n\t\tint y = j / size;\n\t\tvec4 v1 = texelFetch( boneTexture, ivec2( x, y ), 0 );\n\t\tvec4 v2 = texelFetch( boneTexture, ivec2( x + 1, y ), 0 );\n\t\tvec4 v3 = texelFetch( boneTexture, ivec2( x + 2, y ), 0 );\n\t\tvec4 v4 = texelFetch( boneTexture, ivec2( x + 3, y ), 0 );\n\t\treturn mat4( v1, v2, v3, v4 );\n\t}\n#endif"; + +var skinning_vertex = "#ifdef USE_SKINNING\n\tvec4 skinVertex = bindMatrix * vec4( transformed, 1.0 );\n\tvec4 skinned = vec4( 0.0 );\n\tskinned += boneMatX * skinVertex * skinWeight.x;\n\tskinned += boneMatY * skinVertex * skinWeight.y;\n\tskinned += boneMatZ * skinVertex * skinWeight.z;\n\tskinned += boneMatW * skinVertex * skinWeight.w;\n\ttransformed = ( bindMatrixInverse * skinned ).xyz;\n#endif"; + +var skinnormal_vertex = "#ifdef USE_SKINNING\n\tmat4 skinMatrix = mat4( 0.0 );\n\tskinMatrix += skinWeight.x * boneMatX;\n\tskinMatrix += skinWeight.y * boneMatY;\n\tskinMatrix += skinWeight.z * boneMatZ;\n\tskinMatrix += skinWeight.w * boneMatW;\n\tskinMatrix = bindMatrixInverse * skinMatrix * bindMatrix;\n\tobjectNormal = vec4( skinMatrix * vec4( objectNormal, 0.0 ) ).xyz;\n\t#ifdef USE_TANGENT\n\t\tobjectTangent = vec4( skinMatrix * vec4( objectTangent, 0.0 ) ).xyz;\n\t#endif\n#endif"; + +var specularmap_fragment = "float specularStrength;\n#ifdef USE_SPECULARMAP\n\tvec4 texelSpecular = texture2D( specularMap, vSpecularMapUv );\n\tspecularStrength = texelSpecular.r;\n#else\n\tspecularStrength = 1.0;\n#endif"; + +var specularmap_pars_fragment = "#ifdef USE_SPECULARMAP\n\tuniform sampler2D specularMap;\n#endif"; + +var tonemapping_fragment = "#if defined( TONE_MAPPING )\n\tgl_FragColor.rgb = toneMapping( gl_FragColor.rgb );\n#endif"; + +var tonemapping_pars_fragment = "#ifndef saturate\n#define saturate( a ) clamp( a, 0.0, 1.0 )\n#endif\nuniform float toneMappingExposure;\nvec3 LinearToneMapping( vec3 color ) {\n\treturn saturate( toneMappingExposure * color );\n}\nvec3 ReinhardToneMapping( vec3 color ) {\n\tcolor *= toneMappingExposure;\n\treturn saturate( color / ( vec3( 1.0 ) + color ) );\n}\nvec3 CineonToneMapping( vec3 color ) {\n\tcolor *= toneMappingExposure;\n\tcolor = max( vec3( 0.0 ), color - 0.004 );\n\treturn pow( ( color * ( 6.2 * color + 0.5 ) ) / ( color * ( 6.2 * color + 1.7 ) + 0.06 ), vec3( 2.2 ) );\n}\nvec3 RRTAndODTFit( vec3 v ) {\n\tvec3 a = v * ( v + 0.0245786 ) - 0.000090537;\n\tvec3 b = v * ( 0.983729 * v + 0.4329510 ) + 0.238081;\n\treturn a / b;\n}\nvec3 ACESFilmicToneMapping( vec3 color ) {\n\tconst mat3 ACESInputMat = mat3(\n\t\tvec3( 0.59719, 0.07600, 0.02840 ),\t\tvec3( 0.35458, 0.90834, 0.13383 ),\n\t\tvec3( 0.04823, 0.01566, 0.83777 )\n\t);\n\tconst mat3 ACESOutputMat = mat3(\n\t\tvec3( 1.60475, -0.10208, -0.00327 ),\t\tvec3( -0.53108, 1.10813, -0.07276 ),\n\t\tvec3( -0.07367, -0.00605, 1.07602 )\n\t);\n\tcolor *= toneMappingExposure / 0.6;\n\tcolor = ACESInputMat * color;\n\tcolor = RRTAndODTFit( color );\n\tcolor = ACESOutputMat * color;\n\treturn saturate( color );\n}\nconst mat3 LINEAR_REC2020_TO_LINEAR_SRGB = mat3(\n\tvec3( 1.6605, - 0.1246, - 0.0182 ),\n\tvec3( - 0.5876, 1.1329, - 0.1006 ),\n\tvec3( - 0.0728, - 0.0083, 1.1187 )\n);\nconst mat3 LINEAR_SRGB_TO_LINEAR_REC2020 = mat3(\n\tvec3( 0.6274, 0.0691, 0.0164 ),\n\tvec3( 0.3293, 0.9195, 0.0880 ),\n\tvec3( 0.0433, 0.0113, 0.8956 )\n);\nvec3 agxDefaultContrastApprox( vec3 x ) {\n\tvec3 x2 = x * x;\n\tvec3 x4 = x2 * x2;\n\treturn + 15.5 * x4 * x2\n\t\t- 40.14 * x4 * x\n\t\t+ 31.96 * x4\n\t\t- 6.868 * x2 * x\n\t\t+ 0.4298 * x2\n\t\t+ 0.1191 * x\n\t\t- 0.00232;\n}\nvec3 AgXToneMapping( vec3 color ) {\n\tconst mat3 AgXInsetMatrix = mat3(\n\t\tvec3( 0.856627153315983, 0.137318972929847, 0.11189821299995 ),\n\t\tvec3( 0.0951212405381588, 0.761241990602591, 0.0767994186031903 ),\n\t\tvec3( 0.0482516061458583, 0.101439036467562, 0.811302368396859 )\n\t);\n\tconst mat3 AgXOutsetMatrix = mat3(\n\t\tvec3( 1.1271005818144368, - 0.1413297634984383, - 0.14132976349843826 ),\n\t\tvec3( - 0.11060664309660323, 1.157823702216272, - 0.11060664309660294 ),\n\t\tvec3( - 0.016493938717834573, - 0.016493938717834257, 1.2519364065950405 )\n\t);\n\tconst float AgxMinEv = - 12.47393;\tconst float AgxMaxEv = 4.026069;\n\tcolor *= toneMappingExposure;\n\tcolor = LINEAR_SRGB_TO_LINEAR_REC2020 * color;\n\tcolor = AgXInsetMatrix * color;\n\tcolor = max( color, 1e-10 );\tcolor = log2( color );\n\tcolor = ( color - AgxMinEv ) / ( AgxMaxEv - AgxMinEv );\n\tcolor = clamp( color, 0.0, 1.0 );\n\tcolor = agxDefaultContrastApprox( color );\n\tcolor = AgXOutsetMatrix * color;\n\tcolor = pow( max( vec3( 0.0 ), color ), vec3( 2.2 ) );\n\tcolor = LINEAR_REC2020_TO_LINEAR_SRGB * color;\n\tcolor = clamp( color, 0.0, 1.0 );\n\treturn color;\n}\nvec3 NeutralToneMapping( vec3 color ) {\n\tconst float StartCompression = 0.8 - 0.04;\n\tconst float Desaturation = 0.15;\n\tcolor *= toneMappingExposure;\n\tfloat x = min( color.r, min( color.g, color.b ) );\n\tfloat offset = x < 0.08 ? x - 6.25 * x * x : 0.04;\n\tcolor -= offset;\n\tfloat peak = max( color.r, max( color.g, color.b ) );\n\tif ( peak < StartCompression ) return color;\n\tfloat d = 1. - StartCompression;\n\tfloat newPeak = 1. - d * d / ( peak + d - StartCompression );\n\tcolor *= newPeak / peak;\n\tfloat g = 1. - 1. / ( Desaturation * ( peak - newPeak ) + 1. );\n\treturn mix( color, vec3( newPeak ), g );\n}\nvec3 CustomToneMapping( vec3 color ) { return color; }"; + +var transmission_fragment = "#ifdef USE_TRANSMISSION\n\tmaterial.transmission = transmission;\n\tmaterial.transmissionAlpha = 1.0;\n\tmaterial.thickness = thickness;\n\tmaterial.attenuationDistance = attenuationDistance;\n\tmaterial.attenuationColor = attenuationColor;\n\t#ifdef USE_TRANSMISSIONMAP\n\t\tmaterial.transmission *= texture2D( transmissionMap, vTransmissionMapUv ).r;\n\t#endif\n\t#ifdef USE_THICKNESSMAP\n\t\tmaterial.thickness *= texture2D( thicknessMap, vThicknessMapUv ).g;\n\t#endif\n\tvec3 pos = vWorldPosition;\n\tvec3 v = normalize( cameraPosition - pos );\n\tvec3 n = inverseTransformDirection( normal, viewMatrix );\n\tvec4 transmitted = getIBLVolumeRefraction(\n\t\tn, v, material.roughness, material.diffuseColor, material.specularColor, material.specularF90,\n\t\tpos, modelMatrix, viewMatrix, projectionMatrix, material.dispersion, material.ior, material.thickness,\n\t\tmaterial.attenuationColor, material.attenuationDistance );\n\tmaterial.transmissionAlpha = mix( material.transmissionAlpha, transmitted.a, material.transmission );\n\ttotalDiffuse = mix( totalDiffuse, transmitted.rgb, material.transmission );\n#endif"; + +var transmission_pars_fragment = "#ifdef USE_TRANSMISSION\n\tuniform float transmission;\n\tuniform float thickness;\n\tuniform float attenuationDistance;\n\tuniform vec3 attenuationColor;\n\t#ifdef USE_TRANSMISSIONMAP\n\t\tuniform sampler2D transmissionMap;\n\t#endif\n\t#ifdef USE_THICKNESSMAP\n\t\tuniform sampler2D thicknessMap;\n\t#endif\n\tuniform vec2 transmissionSamplerSize;\n\tuniform sampler2D transmissionSamplerMap;\n\tuniform mat4 modelMatrix;\n\tuniform mat4 projectionMatrix;\n\tvarying vec3 vWorldPosition;\n\tfloat w0( float a ) {\n\t\treturn ( 1.0 / 6.0 ) * ( a * ( a * ( - a + 3.0 ) - 3.0 ) + 1.0 );\n\t}\n\tfloat w1( float a ) {\n\t\treturn ( 1.0 / 6.0 ) * ( a * a * ( 3.0 * a - 6.0 ) + 4.0 );\n\t}\n\tfloat w2( float a ){\n\t\treturn ( 1.0 / 6.0 ) * ( a * ( a * ( - 3.0 * a + 3.0 ) + 3.0 ) + 1.0 );\n\t}\n\tfloat w3( float a ) {\n\t\treturn ( 1.0 / 6.0 ) * ( a * a * a );\n\t}\n\tfloat g0( float a ) {\n\t\treturn w0( a ) + w1( a );\n\t}\n\tfloat g1( float a ) {\n\t\treturn w2( a ) + w3( a );\n\t}\n\tfloat h0( float a ) {\n\t\treturn - 1.0 + w1( a ) / ( w0( a ) + w1( a ) );\n\t}\n\tfloat h1( float a ) {\n\t\treturn 1.0 + w3( a ) / ( w2( a ) + w3( a ) );\n\t}\n\tvec4 bicubic( sampler2D tex, vec2 uv, vec4 texelSize, float lod ) {\n\t\tuv = uv * texelSize.zw + 0.5;\n\t\tvec2 iuv = floor( uv );\n\t\tvec2 fuv = fract( uv );\n\t\tfloat g0x = g0( fuv.x );\n\t\tfloat g1x = g1( fuv.x );\n\t\tfloat h0x = h0( fuv.x );\n\t\tfloat h1x = h1( fuv.x );\n\t\tfloat h0y = h0( fuv.y );\n\t\tfloat h1y = h1( fuv.y );\n\t\tvec2 p0 = ( vec2( iuv.x + h0x, iuv.y + h0y ) - 0.5 ) * texelSize.xy;\n\t\tvec2 p1 = ( vec2( iuv.x + h1x, iuv.y + h0y ) - 0.5 ) * texelSize.xy;\n\t\tvec2 p2 = ( vec2( iuv.x + h0x, iuv.y + h1y ) - 0.5 ) * texelSize.xy;\n\t\tvec2 p3 = ( vec2( iuv.x + h1x, iuv.y + h1y ) - 0.5 ) * texelSize.xy;\n\t\treturn g0( fuv.y ) * ( g0x * textureLod( tex, p0, lod ) + g1x * textureLod( tex, p1, lod ) ) +\n\t\t\tg1( fuv.y ) * ( g0x * textureLod( tex, p2, lod ) + g1x * textureLod( tex, p3, lod ) );\n\t}\n\tvec4 textureBicubic( sampler2D sampler, vec2 uv, float lod ) {\n\t\tvec2 fLodSize = vec2( textureSize( sampler, int( lod ) ) );\n\t\tvec2 cLodSize = vec2( textureSize( sampler, int( lod + 1.0 ) ) );\n\t\tvec2 fLodSizeInv = 1.0 / fLodSize;\n\t\tvec2 cLodSizeInv = 1.0 / cLodSize;\n\t\tvec4 fSample = bicubic( sampler, uv, vec4( fLodSizeInv, fLodSize ), floor( lod ) );\n\t\tvec4 cSample = bicubic( sampler, uv, vec4( cLodSizeInv, cLodSize ), ceil( lod ) );\n\t\treturn mix( fSample, cSample, fract( lod ) );\n\t}\n\tvec3 getVolumeTransmissionRay( const in vec3 n, const in vec3 v, const in float thickness, const in float ior, const in mat4 modelMatrix ) {\n\t\tvec3 refractionVector = refract( - v, normalize( n ), 1.0 / ior );\n\t\tvec3 modelScale;\n\t\tmodelScale.x = length( vec3( modelMatrix[ 0 ].xyz ) );\n\t\tmodelScale.y = length( vec3( modelMatrix[ 1 ].xyz ) );\n\t\tmodelScale.z = length( vec3( modelMatrix[ 2 ].xyz ) );\n\t\treturn normalize( refractionVector ) * thickness * modelScale;\n\t}\n\tfloat applyIorToRoughness( const in float roughness, const in float ior ) {\n\t\treturn roughness * clamp( ior * 2.0 - 2.0, 0.0, 1.0 );\n\t}\n\tvec4 getTransmissionSample( const in vec2 fragCoord, const in float roughness, const in float ior ) {\n\t\tfloat lod = log2( transmissionSamplerSize.x ) * applyIorToRoughness( roughness, ior );\n\t\treturn textureBicubic( transmissionSamplerMap, fragCoord.xy, lod );\n\t}\n\tvec3 volumeAttenuation( const in float transmissionDistance, const in vec3 attenuationColor, const in float attenuationDistance ) {\n\t\tif ( isinf( attenuationDistance ) ) {\n\t\t\treturn vec3( 1.0 );\n\t\t} else {\n\t\t\tvec3 attenuationCoefficient = -log( attenuationColor ) / attenuationDistance;\n\t\t\tvec3 transmittance = exp( - attenuationCoefficient * transmissionDistance );\t\t\treturn transmittance;\n\t\t}\n\t}\n\tvec4 getIBLVolumeRefraction( const in vec3 n, const in vec3 v, const in float roughness, const in vec3 diffuseColor,\n\t\tconst in vec3 specularColor, const in float specularF90, const in vec3 position, const in mat4 modelMatrix,\n\t\tconst in mat4 viewMatrix, const in mat4 projMatrix, const in float dispersion, const in float ior, const in float thickness,\n\t\tconst in vec3 attenuationColor, const in float attenuationDistance ) {\n\t\tvec4 transmittedLight;\n\t\tvec3 transmittance;\n\t\t#ifdef USE_DISPERSION\n\t\t\tfloat halfSpread = ( ior - 1.0 ) * 0.025 * dispersion;\n\t\t\tvec3 iors = vec3( ior - halfSpread, ior, ior + halfSpread );\n\t\t\tfor ( int i = 0; i < 3; i ++ ) {\n\t\t\t\tvec3 transmissionRay = getVolumeTransmissionRay( n, v, thickness, iors[ i ], modelMatrix );\n\t\t\t\tvec3 refractedRayExit = position + transmissionRay;\n\t\t\t\tvec4 ndcPos = projMatrix * viewMatrix * vec4( refractedRayExit, 1.0 );\n\t\t\t\tvec2 refractionCoords = ndcPos.xy / ndcPos.w;\n\t\t\t\trefractionCoords += 1.0;\n\t\t\t\trefractionCoords /= 2.0;\n\t\t\t\tvec4 transmissionSample = getTransmissionSample( refractionCoords, roughness, iors[ i ] );\n\t\t\t\ttransmittedLight[ i ] = transmissionSample[ i ];\n\t\t\t\ttransmittedLight.a += transmissionSample.a;\n\t\t\t\ttransmittance[ i ] = diffuseColor[ i ] * volumeAttenuation( length( transmissionRay ), attenuationColor, attenuationDistance )[ i ];\n\t\t\t}\n\t\t\ttransmittedLight.a /= 3.0;\n\t\t#else\n\t\t\tvec3 transmissionRay = getVolumeTransmissionRay( n, v, thickness, ior, modelMatrix );\n\t\t\tvec3 refractedRayExit = position + transmissionRay;\n\t\t\tvec4 ndcPos = projMatrix * viewMatrix * vec4( refractedRayExit, 1.0 );\n\t\t\tvec2 refractionCoords = ndcPos.xy / ndcPos.w;\n\t\t\trefractionCoords += 1.0;\n\t\t\trefractionCoords /= 2.0;\n\t\t\ttransmittedLight = getTransmissionSample( refractionCoords, roughness, ior );\n\t\t\ttransmittance = diffuseColor * volumeAttenuation( length( transmissionRay ), attenuationColor, attenuationDistance );\n\t\t#endif\n\t\tvec3 attenuatedColor = transmittance * transmittedLight.rgb;\n\t\tvec3 F = EnvironmentBRDF( n, v, specularColor, specularF90, roughness );\n\t\tfloat transmittanceFactor = ( transmittance.r + transmittance.g + transmittance.b ) / 3.0;\n\t\treturn vec4( ( 1.0 - F ) * attenuatedColor, 1.0 - ( 1.0 - transmittedLight.a ) * transmittanceFactor );\n\t}\n#endif"; + +var uv_pars_fragment = "#if defined( USE_UV ) || defined( USE_ANISOTROPY )\n\tvarying vec2 vUv;\n#endif\n#ifdef USE_MAP\n\tvarying vec2 vMapUv;\n#endif\n#ifdef USE_ALPHAMAP\n\tvarying vec2 vAlphaMapUv;\n#endif\n#ifdef USE_LIGHTMAP\n\tvarying vec2 vLightMapUv;\n#endif\n#ifdef USE_AOMAP\n\tvarying vec2 vAoMapUv;\n#endif\n#ifdef USE_BUMPMAP\n\tvarying vec2 vBumpMapUv;\n#endif\n#ifdef USE_NORMALMAP\n\tvarying vec2 vNormalMapUv;\n#endif\n#ifdef USE_EMISSIVEMAP\n\tvarying vec2 vEmissiveMapUv;\n#endif\n#ifdef USE_METALNESSMAP\n\tvarying vec2 vMetalnessMapUv;\n#endif\n#ifdef USE_ROUGHNESSMAP\n\tvarying vec2 vRoughnessMapUv;\n#endif\n#ifdef USE_ANISOTROPYMAP\n\tvarying vec2 vAnisotropyMapUv;\n#endif\n#ifdef USE_CLEARCOATMAP\n\tvarying vec2 vClearcoatMapUv;\n#endif\n#ifdef USE_CLEARCOAT_NORMALMAP\n\tvarying vec2 vClearcoatNormalMapUv;\n#endif\n#ifdef USE_CLEARCOAT_ROUGHNESSMAP\n\tvarying vec2 vClearcoatRoughnessMapUv;\n#endif\n#ifdef USE_IRIDESCENCEMAP\n\tvarying vec2 vIridescenceMapUv;\n#endif\n#ifdef USE_IRIDESCENCE_THICKNESSMAP\n\tvarying vec2 vIridescenceThicknessMapUv;\n#endif\n#ifdef USE_SHEEN_COLORMAP\n\tvarying vec2 vSheenColorMapUv;\n#endif\n#ifdef USE_SHEEN_ROUGHNESSMAP\n\tvarying vec2 vSheenRoughnessMapUv;\n#endif\n#ifdef USE_SPECULARMAP\n\tvarying vec2 vSpecularMapUv;\n#endif\n#ifdef USE_SPECULAR_COLORMAP\n\tvarying vec2 vSpecularColorMapUv;\n#endif\n#ifdef USE_SPECULAR_INTENSITYMAP\n\tvarying vec2 vSpecularIntensityMapUv;\n#endif\n#ifdef USE_TRANSMISSIONMAP\n\tuniform mat3 transmissionMapTransform;\n\tvarying vec2 vTransmissionMapUv;\n#endif\n#ifdef USE_THICKNESSMAP\n\tuniform mat3 thicknessMapTransform;\n\tvarying vec2 vThicknessMapUv;\n#endif"; + +var uv_pars_vertex = "#if defined( USE_UV ) || defined( USE_ANISOTROPY )\n\tvarying vec2 vUv;\n#endif\n#ifdef USE_MAP\n\tuniform mat3 mapTransform;\n\tvarying vec2 vMapUv;\n#endif\n#ifdef USE_ALPHAMAP\n\tuniform mat3 alphaMapTransform;\n\tvarying vec2 vAlphaMapUv;\n#endif\n#ifdef USE_LIGHTMAP\n\tuniform mat3 lightMapTransform;\n\tvarying vec2 vLightMapUv;\n#endif\n#ifdef USE_AOMAP\n\tuniform mat3 aoMapTransform;\n\tvarying vec2 vAoMapUv;\n#endif\n#ifdef USE_BUMPMAP\n\tuniform mat3 bumpMapTransform;\n\tvarying vec2 vBumpMapUv;\n#endif\n#ifdef USE_NORMALMAP\n\tuniform mat3 normalMapTransform;\n\tvarying vec2 vNormalMapUv;\n#endif\n#ifdef USE_DISPLACEMENTMAP\n\tuniform mat3 displacementMapTransform;\n\tvarying vec2 vDisplacementMapUv;\n#endif\n#ifdef USE_EMISSIVEMAP\n\tuniform mat3 emissiveMapTransform;\n\tvarying vec2 vEmissiveMapUv;\n#endif\n#ifdef USE_METALNESSMAP\n\tuniform mat3 metalnessMapTransform;\n\tvarying vec2 vMetalnessMapUv;\n#endif\n#ifdef USE_ROUGHNESSMAP\n\tuniform mat3 roughnessMapTransform;\n\tvarying vec2 vRoughnessMapUv;\n#endif\n#ifdef USE_ANISOTROPYMAP\n\tuniform mat3 anisotropyMapTransform;\n\tvarying vec2 vAnisotropyMapUv;\n#endif\n#ifdef USE_CLEARCOATMAP\n\tuniform mat3 clearcoatMapTransform;\n\tvarying vec2 vClearcoatMapUv;\n#endif\n#ifdef USE_CLEARCOAT_NORMALMAP\n\tuniform mat3 clearcoatNormalMapTransform;\n\tvarying vec2 vClearcoatNormalMapUv;\n#endif\n#ifdef USE_CLEARCOAT_ROUGHNESSMAP\n\tuniform mat3 clearcoatRoughnessMapTransform;\n\tvarying vec2 vClearcoatRoughnessMapUv;\n#endif\n#ifdef USE_SHEEN_COLORMAP\n\tuniform mat3 sheenColorMapTransform;\n\tvarying vec2 vSheenColorMapUv;\n#endif\n#ifdef USE_SHEEN_ROUGHNESSMAP\n\tuniform mat3 sheenRoughnessMapTransform;\n\tvarying vec2 vSheenRoughnessMapUv;\n#endif\n#ifdef USE_IRIDESCENCEMAP\n\tuniform mat3 iridescenceMapTransform;\n\tvarying vec2 vIridescenceMapUv;\n#endif\n#ifdef USE_IRIDESCENCE_THICKNESSMAP\n\tuniform mat3 iridescenceThicknessMapTransform;\n\tvarying vec2 vIridescenceThicknessMapUv;\n#endif\n#ifdef USE_SPECULARMAP\n\tuniform mat3 specularMapTransform;\n\tvarying vec2 vSpecularMapUv;\n#endif\n#ifdef USE_SPECULAR_COLORMAP\n\tuniform mat3 specularColorMapTransform;\n\tvarying vec2 vSpecularColorMapUv;\n#endif\n#ifdef USE_SPECULAR_INTENSITYMAP\n\tuniform mat3 specularIntensityMapTransform;\n\tvarying vec2 vSpecularIntensityMapUv;\n#endif\n#ifdef USE_TRANSMISSIONMAP\n\tuniform mat3 transmissionMapTransform;\n\tvarying vec2 vTransmissionMapUv;\n#endif\n#ifdef USE_THICKNESSMAP\n\tuniform mat3 thicknessMapTransform;\n\tvarying vec2 vThicknessMapUv;\n#endif"; + +var uv_vertex = "#if defined( USE_UV ) || defined( USE_ANISOTROPY )\n\tvUv = vec3( uv, 1 ).xy;\n#endif\n#ifdef USE_MAP\n\tvMapUv = ( mapTransform * vec3( MAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_ALPHAMAP\n\tvAlphaMapUv = ( alphaMapTransform * vec3( ALPHAMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_LIGHTMAP\n\tvLightMapUv = ( lightMapTransform * vec3( LIGHTMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_AOMAP\n\tvAoMapUv = ( aoMapTransform * vec3( AOMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_BUMPMAP\n\tvBumpMapUv = ( bumpMapTransform * vec3( BUMPMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_NORMALMAP\n\tvNormalMapUv = ( normalMapTransform * vec3( NORMALMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_DISPLACEMENTMAP\n\tvDisplacementMapUv = ( displacementMapTransform * vec3( DISPLACEMENTMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_EMISSIVEMAP\n\tvEmissiveMapUv = ( emissiveMapTransform * vec3( EMISSIVEMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_METALNESSMAP\n\tvMetalnessMapUv = ( metalnessMapTransform * vec3( METALNESSMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_ROUGHNESSMAP\n\tvRoughnessMapUv = ( roughnessMapTransform * vec3( ROUGHNESSMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_ANISOTROPYMAP\n\tvAnisotropyMapUv = ( anisotropyMapTransform * vec3( ANISOTROPYMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_CLEARCOATMAP\n\tvClearcoatMapUv = ( clearcoatMapTransform * vec3( CLEARCOATMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_CLEARCOAT_NORMALMAP\n\tvClearcoatNormalMapUv = ( clearcoatNormalMapTransform * vec3( CLEARCOAT_NORMALMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_CLEARCOAT_ROUGHNESSMAP\n\tvClearcoatRoughnessMapUv = ( clearcoatRoughnessMapTransform * vec3( CLEARCOAT_ROUGHNESSMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_IRIDESCENCEMAP\n\tvIridescenceMapUv = ( iridescenceMapTransform * vec3( IRIDESCENCEMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_IRIDESCENCE_THICKNESSMAP\n\tvIridescenceThicknessMapUv = ( iridescenceThicknessMapTransform * vec3( IRIDESCENCE_THICKNESSMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_SHEEN_COLORMAP\n\tvSheenColorMapUv = ( sheenColorMapTransform * vec3( SHEEN_COLORMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_SHEEN_ROUGHNESSMAP\n\tvSheenRoughnessMapUv = ( sheenRoughnessMapTransform * vec3( SHEEN_ROUGHNESSMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_SPECULARMAP\n\tvSpecularMapUv = ( specularMapTransform * vec3( SPECULARMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_SPECULAR_COLORMAP\n\tvSpecularColorMapUv = ( specularColorMapTransform * vec3( SPECULAR_COLORMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_SPECULAR_INTENSITYMAP\n\tvSpecularIntensityMapUv = ( specularIntensityMapTransform * vec3( SPECULAR_INTENSITYMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_TRANSMISSIONMAP\n\tvTransmissionMapUv = ( transmissionMapTransform * vec3( TRANSMISSIONMAP_UV, 1 ) ).xy;\n#endif\n#ifdef USE_THICKNESSMAP\n\tvThicknessMapUv = ( thicknessMapTransform * vec3( THICKNESSMAP_UV, 1 ) ).xy;\n#endif"; + +var worldpos_vertex = "#if defined( USE_ENVMAP ) || defined( DISTANCE ) || defined ( USE_SHADOWMAP ) || defined ( USE_TRANSMISSION ) || NUM_SPOT_LIGHT_COORDS > 0\n\tvec4 worldPosition = vec4( transformed, 1.0 );\n\t#ifdef USE_BATCHING\n\t\tworldPosition = batchingMatrix * worldPosition;\n\t#endif\n\t#ifdef USE_INSTANCING\n\t\tworldPosition = instanceMatrix * worldPosition;\n\t#endif\n\tworldPosition = modelMatrix * worldPosition;\n#endif"; + +const vertex$h = "varying vec2 vUv;\nuniform mat3 uvTransform;\nvoid main() {\n\tvUv = ( uvTransform * vec3( uv, 1 ) ).xy;\n\tgl_Position = vec4( position.xy, 1.0, 1.0 );\n}"; + +const fragment$h = "uniform sampler2D t2D;\nuniform float backgroundIntensity;\nvarying vec2 vUv;\nvoid main() {\n\tvec4 texColor = texture2D( t2D, vUv );\n\t#ifdef DECODE_VIDEO_TEXTURE\n\t\ttexColor = vec4( mix( pow( texColor.rgb * 0.9478672986 + vec3( 0.0521327014 ), vec3( 2.4 ) ), texColor.rgb * 0.0773993808, vec3( lessThanEqual( texColor.rgb, vec3( 0.04045 ) ) ) ), texColor.w );\n\t#endif\n\ttexColor.rgb *= backgroundIntensity;\n\tgl_FragColor = texColor;\n\t#include \n\t#include \n}"; + +const vertex$g = "varying vec3 vWorldDirection;\n#include \nvoid main() {\n\tvWorldDirection = transformDirection( position, modelMatrix );\n\t#include \n\t#include \n\tgl_Position.z = gl_Position.w;\n}"; + +const fragment$g = "#ifdef ENVMAP_TYPE_CUBE\n\tuniform samplerCube envMap;\n#elif defined( ENVMAP_TYPE_CUBE_UV )\n\tuniform sampler2D envMap;\n#endif\nuniform float flipEnvMap;\nuniform float backgroundBlurriness;\nuniform float backgroundIntensity;\nuniform mat3 backgroundRotation;\nvarying vec3 vWorldDirection;\n#include \nvoid main() {\n\t#ifdef ENVMAP_TYPE_CUBE\n\t\tvec4 texColor = textureCube( envMap, backgroundRotation * vec3( flipEnvMap * vWorldDirection.x, vWorldDirection.yz ) );\n\t#elif defined( ENVMAP_TYPE_CUBE_UV )\n\t\tvec4 texColor = textureCubeUV( envMap, backgroundRotation * vWorldDirection, backgroundBlurriness );\n\t#else\n\t\tvec4 texColor = vec4( 0.0, 0.0, 0.0, 1.0 );\n\t#endif\n\ttexColor.rgb *= backgroundIntensity;\n\tgl_FragColor = texColor;\n\t#include \n\t#include \n}"; + +const vertex$f = "varying vec3 vWorldDirection;\n#include \nvoid main() {\n\tvWorldDirection = transformDirection( position, modelMatrix );\n\t#include \n\t#include \n\tgl_Position.z = gl_Position.w;\n}"; + +const fragment$f = "uniform samplerCube tCube;\nuniform float tFlip;\nuniform float opacity;\nvarying vec3 vWorldDirection;\nvoid main() {\n\tvec4 texColor = textureCube( tCube, vec3( tFlip * vWorldDirection.x, vWorldDirection.yz ) );\n\tgl_FragColor = texColor;\n\tgl_FragColor.a *= opacity;\n\t#include \n\t#include \n}"; + +const vertex$e = "#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvarying vec2 vHighPrecisionZW;\nvoid main() {\n\t#include \n\t#include \n\t#include \n\t#include \n\t#ifdef USE_DISPLACEMENTMAP\n\t\t#include \n\t\t#include \n\t\t#include \n\t#endif\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tvHighPrecisionZW = gl_Position.zw;\n}"; + +const fragment$e = "#if DEPTH_PACKING == 3200\n\tuniform float opacity;\n#endif\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvarying vec2 vHighPrecisionZW;\nvoid main() {\n\tvec4 diffuseColor = vec4( 1.0 );\n\t#include \n\t#if DEPTH_PACKING == 3200\n\t\tdiffuseColor.a = opacity;\n\t#endif\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tfloat fragCoordZ = 0.5 * vHighPrecisionZW[0] / vHighPrecisionZW[1] + 0.5;\n\t#if DEPTH_PACKING == 3200\n\t\tgl_FragColor = vec4( vec3( 1.0 - fragCoordZ ), opacity );\n\t#elif DEPTH_PACKING == 3201\n\t\tgl_FragColor = packDepthToRGBA( fragCoordZ );\n\t#elif DEPTH_PACKING == 3202\n\t\tgl_FragColor = vec4( packDepthToRGB( fragCoordZ ), 1.0 );\n\t#elif DEPTH_PACKING == 3203\n\t\tgl_FragColor = vec4( packDepthToRG( fragCoordZ ), 0.0, 1.0 );\n\t#endif\n}"; + +const vertex$d = "#define DISTANCE\nvarying vec3 vWorldPosition;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\t#include \n\t#include \n\t#include \n\t#include \n\t#ifdef USE_DISPLACEMENTMAP\n\t\t#include \n\t\t#include \n\t\t#include \n\t#endif\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tvWorldPosition = worldPosition.xyz;\n}"; + +const fragment$d = "#define DISTANCE\nuniform vec3 referencePosition;\nuniform float nearDistance;\nuniform float farDistance;\nvarying vec3 vWorldPosition;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main () {\n\tvec4 diffuseColor = vec4( 1.0 );\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tfloat dist = length( vWorldPosition - referencePosition );\n\tdist = ( dist - nearDistance ) / ( farDistance - nearDistance );\n\tdist = saturate( dist );\n\tgl_FragColor = packDepthToRGBA( dist );\n}"; + +const vertex$c = "varying vec3 vWorldDirection;\n#include \nvoid main() {\n\tvWorldDirection = transformDirection( position, modelMatrix );\n\t#include \n\t#include \n}"; + +const fragment$c = "uniform sampler2D tEquirect;\nvarying vec3 vWorldDirection;\n#include \nvoid main() {\n\tvec3 direction = normalize( vWorldDirection );\n\tvec2 sampleUV = equirectUv( direction );\n\tgl_FragColor = texture2D( tEquirect, sampleUV );\n\t#include \n\t#include \n}"; + +const vertex$b = "uniform float scale;\nattribute float lineDistance;\nvarying float vLineDistance;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\tvLineDistance = scale * lineDistance;\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const fragment$b = "uniform vec3 diffuse;\nuniform float opacity;\nuniform float dashSize;\nuniform float totalSize;\nvarying float vLineDistance;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\tvec4 diffuseColor = vec4( diffuse, opacity );\n\t#include \n\tif ( mod( vLineDistance, totalSize ) > dashSize ) {\n\t\tdiscard;\n\t}\n\tvec3 outgoingLight = vec3( 0.0 );\n\t#include \n\t#include \n\t#include \n\toutgoingLight = diffuseColor.rgb;\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const vertex$a = "#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#if defined ( USE_ENVMAP ) || defined ( USE_SKINNING )\n\t\t#include \n\t\t#include \n\t\t#include \n\t\t#include \n\t\t#include \n\t#endif\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const fragment$a = "uniform vec3 diffuse;\nuniform float opacity;\n#ifndef FLAT_SHADED\n\tvarying vec3 vNormal;\n#endif\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\tvec4 diffuseColor = vec4( diffuse, opacity );\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );\n\t#ifdef USE_LIGHTMAP\n\t\tvec4 lightMapTexel = texture2D( lightMap, vLightMapUv );\n\t\treflectedLight.indirectDiffuse += lightMapTexel.rgb * lightMapIntensity * RECIPROCAL_PI;\n\t#else\n\t\treflectedLight.indirectDiffuse += vec3( 1.0 );\n\t#endif\n\t#include \n\treflectedLight.indirectDiffuse *= diffuseColor.rgb;\n\tvec3 outgoingLight = reflectedLight.indirectDiffuse;\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const vertex$9 = "#define LAMBERT\nvarying vec3 vViewPosition;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tvViewPosition = - mvPosition.xyz;\n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const fragment$9 = "#define LAMBERT\nuniform vec3 diffuse;\nuniform vec3 emissive;\nuniform float opacity;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\tvec4 diffuseColor = vec4( diffuse, opacity );\n\t#include \n\tReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );\n\tvec3 totalEmissiveRadiance = emissive;\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tvec3 outgoingLight = reflectedLight.directDiffuse + reflectedLight.indirectDiffuse + totalEmissiveRadiance;\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const vertex$8 = "#define MATCAP\nvarying vec3 vViewPosition;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tvViewPosition = - mvPosition.xyz;\n}"; + +const fragment$8 = "#define MATCAP\nuniform vec3 diffuse;\nuniform float opacity;\nuniform sampler2D matcap;\nvarying vec3 vViewPosition;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\tvec4 diffuseColor = vec4( diffuse, opacity );\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tvec3 viewDir = normalize( vViewPosition );\n\tvec3 x = normalize( vec3( viewDir.z, 0.0, - viewDir.x ) );\n\tvec3 y = cross( viewDir, x );\n\tvec2 uv = vec2( dot( x, normal ), dot( y, normal ) ) * 0.495 + 0.5;\n\t#ifdef USE_MATCAP\n\t\tvec4 matcapColor = texture2D( matcap, uv );\n\t#else\n\t\tvec4 matcapColor = vec4( vec3( mix( 0.2, 0.8, uv.y ) ), 1.0 );\n\t#endif\n\tvec3 outgoingLight = diffuseColor.rgb * matcapColor.rgb;\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const vertex$7 = "#define NORMAL\n#if defined( FLAT_SHADED ) || defined( USE_BUMPMAP ) || defined( USE_NORMALMAP_TANGENTSPACE )\n\tvarying vec3 vViewPosition;\n#endif\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n#if defined( FLAT_SHADED ) || defined( USE_BUMPMAP ) || defined( USE_NORMALMAP_TANGENTSPACE )\n\tvViewPosition = - mvPosition.xyz;\n#endif\n}"; + +const fragment$7 = "#define NORMAL\nuniform float opacity;\n#if defined( FLAT_SHADED ) || defined( USE_BUMPMAP ) || defined( USE_NORMALMAP_TANGENTSPACE )\n\tvarying vec3 vViewPosition;\n#endif\n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\tvec4 diffuseColor = vec4( 0.0, 0.0, 0.0, opacity );\n\t#include \n\t#include \n\t#include \n\t#include \n\tgl_FragColor = vec4( packNormalToRGB( normal ), diffuseColor.a );\n\t#ifdef OPAQUE\n\t\tgl_FragColor.a = 1.0;\n\t#endif\n}"; + +const vertex$6 = "#define PHONG\nvarying vec3 vViewPosition;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tvViewPosition = - mvPosition.xyz;\n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const fragment$6 = "#define PHONG\nuniform vec3 diffuse;\nuniform vec3 emissive;\nuniform vec3 specular;\nuniform float shininess;\nuniform float opacity;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\tvec4 diffuseColor = vec4( diffuse, opacity );\n\t#include \n\tReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );\n\tvec3 totalEmissiveRadiance = emissive;\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tvec3 outgoingLight = reflectedLight.directDiffuse + reflectedLight.indirectDiffuse + reflectedLight.directSpecular + reflectedLight.indirectSpecular + totalEmissiveRadiance;\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const vertex$5 = "#define STANDARD\nvarying vec3 vViewPosition;\n#ifdef USE_TRANSMISSION\n\tvarying vec3 vWorldPosition;\n#endif\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tvViewPosition = - mvPosition.xyz;\n\t#include \n\t#include \n\t#include \n#ifdef USE_TRANSMISSION\n\tvWorldPosition = worldPosition.xyz;\n#endif\n}"; + +const fragment$5 = "#define STANDARD\n#ifdef PHYSICAL\n\t#define IOR\n\t#define USE_SPECULAR\n#endif\nuniform vec3 diffuse;\nuniform vec3 emissive;\nuniform float roughness;\nuniform float metalness;\nuniform float opacity;\n#ifdef IOR\n\tuniform float ior;\n#endif\n#ifdef USE_SPECULAR\n\tuniform float specularIntensity;\n\tuniform vec3 specularColor;\n\t#ifdef USE_SPECULAR_COLORMAP\n\t\tuniform sampler2D specularColorMap;\n\t#endif\n\t#ifdef USE_SPECULAR_INTENSITYMAP\n\t\tuniform sampler2D specularIntensityMap;\n\t#endif\n#endif\n#ifdef USE_CLEARCOAT\n\tuniform float clearcoat;\n\tuniform float clearcoatRoughness;\n#endif\n#ifdef USE_DISPERSION\n\tuniform float dispersion;\n#endif\n#ifdef USE_IRIDESCENCE\n\tuniform float iridescence;\n\tuniform float iridescenceIOR;\n\tuniform float iridescenceThicknessMinimum;\n\tuniform float iridescenceThicknessMaximum;\n#endif\n#ifdef USE_SHEEN\n\tuniform vec3 sheenColor;\n\tuniform float sheenRoughness;\n\t#ifdef USE_SHEEN_COLORMAP\n\t\tuniform sampler2D sheenColorMap;\n\t#endif\n\t#ifdef USE_SHEEN_ROUGHNESSMAP\n\t\tuniform sampler2D sheenRoughnessMap;\n\t#endif\n#endif\n#ifdef USE_ANISOTROPY\n\tuniform vec2 anisotropyVector;\n\t#ifdef USE_ANISOTROPYMAP\n\t\tuniform sampler2D anisotropyMap;\n\t#endif\n#endif\nvarying vec3 vViewPosition;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\tvec4 diffuseColor = vec4( diffuse, opacity );\n\t#include \n\tReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );\n\tvec3 totalEmissiveRadiance = emissive;\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tvec3 totalDiffuse = reflectedLight.directDiffuse + reflectedLight.indirectDiffuse;\n\tvec3 totalSpecular = reflectedLight.directSpecular + reflectedLight.indirectSpecular;\n\t#include \n\tvec3 outgoingLight = totalDiffuse + totalSpecular + totalEmissiveRadiance;\n\t#ifdef USE_SHEEN\n\t\tfloat sheenEnergyComp = 1.0 - 0.157 * max3( material.sheenColor );\n\t\toutgoingLight = outgoingLight * sheenEnergyComp + sheenSpecularDirect + sheenSpecularIndirect;\n\t#endif\n\t#ifdef USE_CLEARCOAT\n\t\tfloat dotNVcc = saturate( dot( geometryClearcoatNormal, geometryViewDir ) );\n\t\tvec3 Fcc = F_Schlick( material.clearcoatF0, material.clearcoatF90, dotNVcc );\n\t\toutgoingLight = outgoingLight * ( 1.0 - material.clearcoat * Fcc ) + ( clearcoatSpecularDirect + clearcoatSpecularIndirect ) * material.clearcoat;\n\t#endif\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const vertex$4 = "#define TOON\nvarying vec3 vViewPosition;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tvViewPosition = - mvPosition.xyz;\n\t#include \n\t#include \n\t#include \n}"; + +const fragment$4 = "#define TOON\nuniform vec3 diffuse;\nuniform vec3 emissive;\nuniform float opacity;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\tvec4 diffuseColor = vec4( diffuse, opacity );\n\t#include \n\tReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );\n\tvec3 totalEmissiveRadiance = emissive;\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tvec3 outgoingLight = reflectedLight.directDiffuse + reflectedLight.indirectDiffuse + totalEmissiveRadiance;\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const vertex$3 = "uniform float size;\nuniform float scale;\n#include \n#include \n#include \n#include \n#include \n#include \n#ifdef USE_POINTS_UV\n\tvarying vec2 vUv;\n\tuniform mat3 uvTransform;\n#endif\nvoid main() {\n\t#ifdef USE_POINTS_UV\n\t\tvUv = ( uvTransform * vec3( uv, 1 ) ).xy;\n\t#endif\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\tgl_PointSize = size;\n\t#ifdef USE_SIZEATTENUATION\n\t\tbool isPerspective = isPerspectiveMatrix( projectionMatrix );\n\t\tif ( isPerspective ) gl_PointSize *= ( scale / - mvPosition.z );\n\t#endif\n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const fragment$3 = "uniform vec3 diffuse;\nuniform float opacity;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\tvec4 diffuseColor = vec4( diffuse, opacity );\n\t#include \n\tvec3 outgoingLight = vec3( 0.0 );\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\toutgoingLight = diffuseColor.rgb;\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const vertex$2 = "#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const fragment$2 = "uniform vec3 color;\nuniform float opacity;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\t#include \n\tgl_FragColor = vec4( color, opacity * ( 1.0 - getShadowMask() ) );\n\t#include \n\t#include \n\t#include \n}"; + +const vertex$1 = "uniform float rotation;\nuniform vec2 center;\n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\t#include \n\tvec4 mvPosition = modelViewMatrix[ 3 ];\n\tvec2 scale = vec2( length( modelMatrix[ 0 ].xyz ), length( modelMatrix[ 1 ].xyz ) );\n\t#ifndef USE_SIZEATTENUATION\n\t\tbool isPerspective = isPerspectiveMatrix( projectionMatrix );\n\t\tif ( isPerspective ) scale *= - mvPosition.z;\n\t#endif\n\tvec2 alignedPosition = ( position.xy - ( center - vec2( 0.5 ) ) ) * scale;\n\tvec2 rotatedPosition;\n\trotatedPosition.x = cos( rotation ) * alignedPosition.x - sin( rotation ) * alignedPosition.y;\n\trotatedPosition.y = sin( rotation ) * alignedPosition.x + cos( rotation ) * alignedPosition.y;\n\tmvPosition.xy += rotatedPosition;\n\tgl_Position = projectionMatrix * mvPosition;\n\t#include \n\t#include \n\t#include \n}"; + +const fragment$1 = "uniform vec3 diffuse;\nuniform float opacity;\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \nvoid main() {\n\tvec4 diffuseColor = vec4( diffuse, opacity );\n\t#include \n\tvec3 outgoingLight = vec3( 0.0 );\n\t#include \n\t#include \n\t#include \n\t#include \n\t#include \n\toutgoingLight = diffuseColor.rgb;\n\t#include \n\t#include \n\t#include \n\t#include \n}"; + +const ShaderChunk = { + alphahash_fragment: alphahash_fragment, + alphahash_pars_fragment: alphahash_pars_fragment, + alphamap_fragment: alphamap_fragment, + alphamap_pars_fragment: alphamap_pars_fragment, + alphatest_fragment: alphatest_fragment, + alphatest_pars_fragment: alphatest_pars_fragment, + aomap_fragment: aomap_fragment, + aomap_pars_fragment: aomap_pars_fragment, + batching_pars_vertex: batching_pars_vertex, + batching_vertex: batching_vertex, + begin_vertex: begin_vertex, + beginnormal_vertex: beginnormal_vertex, + bsdfs: bsdfs, + iridescence_fragment: iridescence_fragment, + bumpmap_pars_fragment: bumpmap_pars_fragment, + clipping_planes_fragment: clipping_planes_fragment, + clipping_planes_pars_fragment: clipping_planes_pars_fragment, + clipping_planes_pars_vertex: clipping_planes_pars_vertex, + clipping_planes_vertex: clipping_planes_vertex, + color_fragment: color_fragment, + color_pars_fragment: color_pars_fragment, + color_pars_vertex: color_pars_vertex, + color_vertex: color_vertex, + common: common, + cube_uv_reflection_fragment: cube_uv_reflection_fragment, + defaultnormal_vertex: defaultnormal_vertex, + displacementmap_pars_vertex: displacementmap_pars_vertex, + displacementmap_vertex: displacementmap_vertex, + emissivemap_fragment: emissivemap_fragment, + emissivemap_pars_fragment: emissivemap_pars_fragment, + colorspace_fragment: colorspace_fragment, + colorspace_pars_fragment: colorspace_pars_fragment, + envmap_fragment: envmap_fragment, + envmap_common_pars_fragment: envmap_common_pars_fragment, + envmap_pars_fragment: envmap_pars_fragment, + envmap_pars_vertex: envmap_pars_vertex, + envmap_physical_pars_fragment: envmap_physical_pars_fragment, + envmap_vertex: envmap_vertex, + fog_vertex: fog_vertex, + fog_pars_vertex: fog_pars_vertex, + fog_fragment: fog_fragment, + fog_pars_fragment: fog_pars_fragment, + gradientmap_pars_fragment: gradientmap_pars_fragment, + lightmap_pars_fragment: lightmap_pars_fragment, + lights_lambert_fragment: lights_lambert_fragment, + lights_lambert_pars_fragment: lights_lambert_pars_fragment, + lights_pars_begin: lights_pars_begin, + lights_toon_fragment: lights_toon_fragment, + lights_toon_pars_fragment: lights_toon_pars_fragment, + lights_phong_fragment: lights_phong_fragment, + lights_phong_pars_fragment: lights_phong_pars_fragment, + lights_physical_fragment: lights_physical_fragment, + lights_physical_pars_fragment: lights_physical_pars_fragment, + lights_fragment_begin: lights_fragment_begin, + lights_fragment_maps: lights_fragment_maps, + lights_fragment_end: lights_fragment_end, + logdepthbuf_fragment: logdepthbuf_fragment, + logdepthbuf_pars_fragment: logdepthbuf_pars_fragment, + logdepthbuf_pars_vertex: logdepthbuf_pars_vertex, + logdepthbuf_vertex: logdepthbuf_vertex, + map_fragment: map_fragment, + map_pars_fragment: map_pars_fragment, + map_particle_fragment: map_particle_fragment, + map_particle_pars_fragment: map_particle_pars_fragment, + metalnessmap_fragment: metalnessmap_fragment, + metalnessmap_pars_fragment: metalnessmap_pars_fragment, + morphinstance_vertex: morphinstance_vertex, + morphcolor_vertex: morphcolor_vertex, + morphnormal_vertex: morphnormal_vertex, + morphtarget_pars_vertex: morphtarget_pars_vertex, + morphtarget_vertex: morphtarget_vertex, + normal_fragment_begin: normal_fragment_begin, + normal_fragment_maps: normal_fragment_maps, + normal_pars_fragment: normal_pars_fragment, + normal_pars_vertex: normal_pars_vertex, + normal_vertex: normal_vertex, + normalmap_pars_fragment: normalmap_pars_fragment, + clearcoat_normal_fragment_begin: clearcoat_normal_fragment_begin, + clearcoat_normal_fragment_maps: clearcoat_normal_fragment_maps, + clearcoat_pars_fragment: clearcoat_pars_fragment, + iridescence_pars_fragment: iridescence_pars_fragment, + opaque_fragment: opaque_fragment, + packing: packing, + premultiplied_alpha_fragment: premultiplied_alpha_fragment, + project_vertex: project_vertex, + dithering_fragment: dithering_fragment, + dithering_pars_fragment: dithering_pars_fragment, + roughnessmap_fragment: roughnessmap_fragment, + roughnessmap_pars_fragment: roughnessmap_pars_fragment, + shadowmap_pars_fragment: shadowmap_pars_fragment, + shadowmap_pars_vertex: shadowmap_pars_vertex, + shadowmap_vertex: shadowmap_vertex, + shadowmask_pars_fragment: shadowmask_pars_fragment, + skinbase_vertex: skinbase_vertex, + skinning_pars_vertex: skinning_pars_vertex, + skinning_vertex: skinning_vertex, + skinnormal_vertex: skinnormal_vertex, + specularmap_fragment: specularmap_fragment, + specularmap_pars_fragment: specularmap_pars_fragment, + tonemapping_fragment: tonemapping_fragment, + tonemapping_pars_fragment: tonemapping_pars_fragment, + transmission_fragment: transmission_fragment, + transmission_pars_fragment: transmission_pars_fragment, + uv_pars_fragment: uv_pars_fragment, + uv_pars_vertex: uv_pars_vertex, + uv_vertex: uv_vertex, + worldpos_vertex: worldpos_vertex, + + background_vert: vertex$h, + background_frag: fragment$h, + backgroundCube_vert: vertex$g, + backgroundCube_frag: fragment$g, + cube_vert: vertex$f, + cube_frag: fragment$f, + depth_vert: vertex$e, + depth_frag: fragment$e, + distanceRGBA_vert: vertex$d, + distanceRGBA_frag: fragment$d, + equirect_vert: vertex$c, + equirect_frag: fragment$c, + linedashed_vert: vertex$b, + linedashed_frag: fragment$b, + meshbasic_vert: vertex$a, + meshbasic_frag: fragment$a, + meshlambert_vert: vertex$9, + meshlambert_frag: fragment$9, + meshmatcap_vert: vertex$8, + meshmatcap_frag: fragment$8, + meshnormal_vert: vertex$7, + meshnormal_frag: fragment$7, + meshphong_vert: vertex$6, + meshphong_frag: fragment$6, + meshphysical_vert: vertex$5, + meshphysical_frag: fragment$5, + meshtoon_vert: vertex$4, + meshtoon_frag: fragment$4, + points_vert: vertex$3, + points_frag: fragment$3, + shadow_vert: vertex$2, + shadow_frag: fragment$2, + sprite_vert: vertex$1, + sprite_frag: fragment$1 +}; + +/** + * Uniforms library for shared webgl shaders + */ + +const UniformsLib = { + + common: { + + diffuse: { value: /*@__PURE__*/ new Color( 0xffffff ) }, + opacity: { value: 1.0 }, + + map: { value: null }, + mapTransform: { value: /*@__PURE__*/ new Matrix3() }, + + alphaMap: { value: null }, + alphaMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + + alphaTest: { value: 0 } + + }, + + specularmap: { + + specularMap: { value: null }, + specularMapTransform: { value: /*@__PURE__*/ new Matrix3() } + + }, + + envmap: { + + envMap: { value: null }, + envMapRotation: { value: /*@__PURE__*/ new Matrix3() }, + flipEnvMap: { value: -1 }, + reflectivity: { value: 1.0 }, // basic, lambert, phong + ior: { value: 1.5 }, // physical + refractionRatio: { value: 0.98 }, // basic, lambert, phong + + }, + + aomap: { + + aoMap: { value: null }, + aoMapIntensity: { value: 1 }, + aoMapTransform: { value: /*@__PURE__*/ new Matrix3() } + + }, + + lightmap: { + + lightMap: { value: null }, + lightMapIntensity: { value: 1 }, + lightMapTransform: { value: /*@__PURE__*/ new Matrix3() } + + }, + + bumpmap: { + + bumpMap: { value: null }, + bumpMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + bumpScale: { value: 1 } + + }, + + normalmap: { + + normalMap: { value: null }, + normalMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + normalScale: { value: /*@__PURE__*/ new Vector2( 1, 1 ) } + + }, + + displacementmap: { + + displacementMap: { value: null }, + displacementMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + displacementScale: { value: 1 }, + displacementBias: { value: 0 } + + }, + + emissivemap: { + + emissiveMap: { value: null }, + emissiveMapTransform: { value: /*@__PURE__*/ new Matrix3() } + + }, + + metalnessmap: { + + metalnessMap: { value: null }, + metalnessMapTransform: { value: /*@__PURE__*/ new Matrix3() } + + }, + + roughnessmap: { + + roughnessMap: { value: null }, + roughnessMapTransform: { value: /*@__PURE__*/ new Matrix3() } + + }, + + gradientmap: { + + gradientMap: { value: null } + + }, + + fog: { + + fogDensity: { value: 0.00025 }, + fogNear: { value: 1 }, + fogFar: { value: 2000 }, + fogColor: { value: /*@__PURE__*/ new Color( 0xffffff ) } + + }, + + lights: { + + ambientLightColor: { value: [] }, + + lightProbe: { value: [] }, + + directionalLights: { value: [], properties: { + direction: {}, + color: {} + } }, + + directionalLightShadows: { value: [], properties: { + shadowIntensity: 1, + shadowBias: {}, + shadowNormalBias: {}, + shadowRadius: {}, + shadowMapSize: {} + } }, + + directionalShadowMap: { value: [] }, + directionalShadowMatrix: { value: [] }, + + spotLights: { value: [], properties: { + color: {}, + position: {}, + direction: {}, + distance: {}, + coneCos: {}, + penumbraCos: {}, + decay: {} + } }, + + spotLightShadows: { value: [], properties: { + shadowIntensity: 1, + shadowBias: {}, + shadowNormalBias: {}, + shadowRadius: {}, + shadowMapSize: {} + } }, + + spotLightMap: { value: [] }, + spotShadowMap: { value: [] }, + spotLightMatrix: { value: [] }, + + pointLights: { value: [], properties: { + color: {}, + position: {}, + decay: {}, + distance: {} + } }, + + pointLightShadows: { value: [], properties: { + shadowIntensity: 1, + shadowBias: {}, + shadowNormalBias: {}, + shadowRadius: {}, + shadowMapSize: {}, + shadowCameraNear: {}, + shadowCameraFar: {} + } }, + + pointShadowMap: { value: [] }, + pointShadowMatrix: { value: [] }, + + hemisphereLights: { value: [], properties: { + direction: {}, + skyColor: {}, + groundColor: {} + } }, + + // TODO (abelnation): RectAreaLight BRDF data needs to be moved from example to main src + rectAreaLights: { value: [], properties: { + color: {}, + position: {}, + width: {}, + height: {} + } }, + + ltc_1: { value: null }, + ltc_2: { value: null } + + }, + + points: { + + diffuse: { value: /*@__PURE__*/ new Color( 0xffffff ) }, + opacity: { value: 1.0 }, + size: { value: 1.0 }, + scale: { value: 1.0 }, + map: { value: null }, + alphaMap: { value: null }, + alphaMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + alphaTest: { value: 0 }, + uvTransform: { value: /*@__PURE__*/ new Matrix3() } + + }, + + sprite: { + + diffuse: { value: /*@__PURE__*/ new Color( 0xffffff ) }, + opacity: { value: 1.0 }, + center: { value: /*@__PURE__*/ new Vector2( 0.5, 0.5 ) }, + rotation: { value: 0.0 }, + map: { value: null }, + mapTransform: { value: /*@__PURE__*/ new Matrix3() }, + alphaMap: { value: null }, + alphaMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + alphaTest: { value: 0 } + + } + +}; + +const ShaderLib = { + + basic: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.common, + UniformsLib.specularmap, + UniformsLib.envmap, + UniformsLib.aomap, + UniformsLib.lightmap, + UniformsLib.fog + ] ), + + vertexShader: ShaderChunk.meshbasic_vert, + fragmentShader: ShaderChunk.meshbasic_frag + + }, + + lambert: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.common, + UniformsLib.specularmap, + UniformsLib.envmap, + UniformsLib.aomap, + UniformsLib.lightmap, + UniformsLib.emissivemap, + UniformsLib.bumpmap, + UniformsLib.normalmap, + UniformsLib.displacementmap, + UniformsLib.fog, + UniformsLib.lights, + { + emissive: { value: /*@__PURE__*/ new Color( 0x000000 ) } + } + ] ), + + vertexShader: ShaderChunk.meshlambert_vert, + fragmentShader: ShaderChunk.meshlambert_frag + + }, + + phong: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.common, + UniformsLib.specularmap, + UniformsLib.envmap, + UniformsLib.aomap, + UniformsLib.lightmap, + UniformsLib.emissivemap, + UniformsLib.bumpmap, + UniformsLib.normalmap, + UniformsLib.displacementmap, + UniformsLib.fog, + UniformsLib.lights, + { + emissive: { value: /*@__PURE__*/ new Color( 0x000000 ) }, + specular: { value: /*@__PURE__*/ new Color( 0x111111 ) }, + shininess: { value: 30 } + } + ] ), + + vertexShader: ShaderChunk.meshphong_vert, + fragmentShader: ShaderChunk.meshphong_frag + + }, + + standard: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.common, + UniformsLib.envmap, + UniformsLib.aomap, + UniformsLib.lightmap, + UniformsLib.emissivemap, + UniformsLib.bumpmap, + UniformsLib.normalmap, + UniformsLib.displacementmap, + UniformsLib.roughnessmap, + UniformsLib.metalnessmap, + UniformsLib.fog, + UniformsLib.lights, + { + emissive: { value: /*@__PURE__*/ new Color( 0x000000 ) }, + roughness: { value: 1.0 }, + metalness: { value: 0.0 }, + envMapIntensity: { value: 1 } + } + ] ), + + vertexShader: ShaderChunk.meshphysical_vert, + fragmentShader: ShaderChunk.meshphysical_frag + + }, + + toon: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.common, + UniformsLib.aomap, + UniformsLib.lightmap, + UniformsLib.emissivemap, + UniformsLib.bumpmap, + UniformsLib.normalmap, + UniformsLib.displacementmap, + UniformsLib.gradientmap, + UniformsLib.fog, + UniformsLib.lights, + { + emissive: { value: /*@__PURE__*/ new Color( 0x000000 ) } + } + ] ), + + vertexShader: ShaderChunk.meshtoon_vert, + fragmentShader: ShaderChunk.meshtoon_frag + + }, + + matcap: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.common, + UniformsLib.bumpmap, + UniformsLib.normalmap, + UniformsLib.displacementmap, + UniformsLib.fog, + { + matcap: { value: null } + } + ] ), + + vertexShader: ShaderChunk.meshmatcap_vert, + fragmentShader: ShaderChunk.meshmatcap_frag + + }, + + points: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.points, + UniformsLib.fog + ] ), + + vertexShader: ShaderChunk.points_vert, + fragmentShader: ShaderChunk.points_frag + + }, + + dashed: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.common, + UniformsLib.fog, + { + scale: { value: 1 }, + dashSize: { value: 1 }, + totalSize: { value: 2 } + } + ] ), + + vertexShader: ShaderChunk.linedashed_vert, + fragmentShader: ShaderChunk.linedashed_frag + + }, + + depth: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.common, + UniformsLib.displacementmap + ] ), + + vertexShader: ShaderChunk.depth_vert, + fragmentShader: ShaderChunk.depth_frag + + }, + + normal: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.common, + UniformsLib.bumpmap, + UniformsLib.normalmap, + UniformsLib.displacementmap, + { + opacity: { value: 1.0 } + } + ] ), + + vertexShader: ShaderChunk.meshnormal_vert, + fragmentShader: ShaderChunk.meshnormal_frag + + }, + + sprite: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.sprite, + UniformsLib.fog + ] ), + + vertexShader: ShaderChunk.sprite_vert, + fragmentShader: ShaderChunk.sprite_frag + + }, + + background: { + + uniforms: { + uvTransform: { value: /*@__PURE__*/ new Matrix3() }, + t2D: { value: null }, + backgroundIntensity: { value: 1 } + }, + + vertexShader: ShaderChunk.background_vert, + fragmentShader: ShaderChunk.background_frag + + }, + + backgroundCube: { + + uniforms: { + envMap: { value: null }, + flipEnvMap: { value: -1 }, + backgroundBlurriness: { value: 0 }, + backgroundIntensity: { value: 1 }, + backgroundRotation: { value: /*@__PURE__*/ new Matrix3() } + }, + + vertexShader: ShaderChunk.backgroundCube_vert, + fragmentShader: ShaderChunk.backgroundCube_frag + + }, + + cube: { + + uniforms: { + tCube: { value: null }, + tFlip: { value: -1 }, + opacity: { value: 1.0 } + }, + + vertexShader: ShaderChunk.cube_vert, + fragmentShader: ShaderChunk.cube_frag + + }, + + equirect: { + + uniforms: { + tEquirect: { value: null }, + }, + + vertexShader: ShaderChunk.equirect_vert, + fragmentShader: ShaderChunk.equirect_frag + + }, + + distanceRGBA: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.common, + UniformsLib.displacementmap, + { + referencePosition: { value: /*@__PURE__*/ new Vector3() }, + nearDistance: { value: 1 }, + farDistance: { value: 1000 } + } + ] ), + + vertexShader: ShaderChunk.distanceRGBA_vert, + fragmentShader: ShaderChunk.distanceRGBA_frag + + }, + + shadow: { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + UniformsLib.lights, + UniformsLib.fog, + { + color: { value: /*@__PURE__*/ new Color( 0x00000 ) }, + opacity: { value: 1.0 } + }, + ] ), + + vertexShader: ShaderChunk.shadow_vert, + fragmentShader: ShaderChunk.shadow_frag + + } + +}; + +ShaderLib.physical = { + + uniforms: /*@__PURE__*/ mergeUniforms( [ + ShaderLib.standard.uniforms, + { + clearcoat: { value: 0 }, + clearcoatMap: { value: null }, + clearcoatMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + clearcoatNormalMap: { value: null }, + clearcoatNormalMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + clearcoatNormalScale: { value: /*@__PURE__*/ new Vector2( 1, 1 ) }, + clearcoatRoughness: { value: 0 }, + clearcoatRoughnessMap: { value: null }, + clearcoatRoughnessMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + dispersion: { value: 0 }, + iridescence: { value: 0 }, + iridescenceMap: { value: null }, + iridescenceMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + iridescenceIOR: { value: 1.3 }, + iridescenceThicknessMinimum: { value: 100 }, + iridescenceThicknessMaximum: { value: 400 }, + iridescenceThicknessMap: { value: null }, + iridescenceThicknessMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + sheen: { value: 0 }, + sheenColor: { value: /*@__PURE__*/ new Color( 0x000000 ) }, + sheenColorMap: { value: null }, + sheenColorMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + sheenRoughness: { value: 1 }, + sheenRoughnessMap: { value: null }, + sheenRoughnessMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + transmission: { value: 0 }, + transmissionMap: { value: null }, + transmissionMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + transmissionSamplerSize: { value: /*@__PURE__*/ new Vector2() }, + transmissionSamplerMap: { value: null }, + thickness: { value: 0 }, + thicknessMap: { value: null }, + thicknessMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + attenuationDistance: { value: 0 }, + attenuationColor: { value: /*@__PURE__*/ new Color( 0x000000 ) }, + specularColor: { value: /*@__PURE__*/ new Color( 1, 1, 1 ) }, + specularColorMap: { value: null }, + specularColorMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + specularIntensity: { value: 1 }, + specularIntensityMap: { value: null }, + specularIntensityMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + anisotropyVector: { value: /*@__PURE__*/ new Vector2() }, + anisotropyMap: { value: null }, + anisotropyMapTransform: { value: /*@__PURE__*/ new Matrix3() }, + } + ] ), + + vertexShader: ShaderChunk.meshphysical_vert, + fragmentShader: ShaderChunk.meshphysical_frag + +}; + +const _rgb = { r: 0, b: 0, g: 0 }; +const _e1$1 = /*@__PURE__*/ new Euler(); +const _m1$1 = /*@__PURE__*/ new Matrix4(); + +function WebGLBackground( renderer, cubemaps, cubeuvmaps, state, objects, alpha, premultipliedAlpha ) { + + const clearColor = new Color( 0x000000 ); + let clearAlpha = alpha === true ? 0 : 1; + + let planeMesh; + let boxMesh; + + let currentBackground = null; + let currentBackgroundVersion = 0; + let currentTonemapping = null; + + function getBackground( scene ) { + + let background = scene.isScene === true ? scene.background : null; + + if ( background && background.isTexture ) { + + const usePMREM = scene.backgroundBlurriness > 0; // use PMREM if the user wants to blur the background + background = ( usePMREM ? cubeuvmaps : cubemaps ).get( background ); + + } + + return background; + + } + + function render( scene ) { + + let forceClear = false; + const background = getBackground( scene ); + + if ( background === null ) { + + setClear( clearColor, clearAlpha ); + + } else if ( background && background.isColor ) { + + setClear( background, 1 ); + forceClear = true; + + } + + const environmentBlendMode = renderer.xr.getEnvironmentBlendMode(); + + if ( environmentBlendMode === 'additive' ) { + + state.buffers.color.setClear( 0, 0, 0, 1, premultipliedAlpha ); + + } else if ( environmentBlendMode === 'alpha-blend' ) { + + state.buffers.color.setClear( 0, 0, 0, 0, premultipliedAlpha ); + + } + + if ( renderer.autoClear || forceClear ) { + + // buffers might not be writable which is required to ensure a correct clear + + state.buffers.depth.setTest( true ); + state.buffers.depth.setMask( true ); + state.buffers.color.setMask( true ); + + renderer.clear( renderer.autoClearColor, renderer.autoClearDepth, renderer.autoClearStencil ); + + } + + } + + function addToRenderList( renderList, scene ) { + + const background = getBackground( scene ); + + if ( background && ( background.isCubeTexture || background.mapping === CubeUVReflectionMapping ) ) { + + if ( boxMesh === undefined ) { + + boxMesh = new Mesh( + new BoxGeometry( 1, 1, 1 ), + new ShaderMaterial( { + name: 'BackgroundCubeMaterial', + uniforms: cloneUniforms( ShaderLib.backgroundCube.uniforms ), + vertexShader: ShaderLib.backgroundCube.vertexShader, + fragmentShader: ShaderLib.backgroundCube.fragmentShader, + side: BackSide, + depthTest: false, + depthWrite: false, + fog: false + } ) + ); + + boxMesh.geometry.deleteAttribute( 'normal' ); + boxMesh.geometry.deleteAttribute( 'uv' ); + + boxMesh.onBeforeRender = function ( renderer, scene, camera ) { + + this.matrixWorld.copyPosition( camera.matrixWorld ); + + }; + + // add "envMap" material property so the renderer can evaluate it like for built-in materials + Object.defineProperty( boxMesh.material, 'envMap', { + + get: function () { + + return this.uniforms.envMap.value; + + } + + } ); + + objects.update( boxMesh ); + + } + + _e1$1.copy( scene.backgroundRotation ); + + // accommodate left-handed frame + _e1$1.x *= -1; _e1$1.y *= -1; _e1$1.z *= -1; + + if ( background.isCubeTexture && background.isRenderTargetTexture === false ) { + + // environment maps which are not cube render targets or PMREMs follow a different convention + _e1$1.y *= -1; + _e1$1.z *= -1; + + } + + boxMesh.material.uniforms.envMap.value = background; + boxMesh.material.uniforms.flipEnvMap.value = ( background.isCubeTexture && background.isRenderTargetTexture === false ) ? -1 : 1; + boxMesh.material.uniforms.backgroundBlurriness.value = scene.backgroundBlurriness; + boxMesh.material.uniforms.backgroundIntensity.value = scene.backgroundIntensity; + boxMesh.material.uniforms.backgroundRotation.value.setFromMatrix4( _m1$1.makeRotationFromEuler( _e1$1 ) ); + boxMesh.material.toneMapped = ColorManagement.getTransfer( background.colorSpace ) !== SRGBTransfer; + + if ( currentBackground !== background || + currentBackgroundVersion !== background.version || + currentTonemapping !== renderer.toneMapping ) { + + boxMesh.material.needsUpdate = true; + + currentBackground = background; + currentBackgroundVersion = background.version; + currentTonemapping = renderer.toneMapping; + + } + + boxMesh.layers.enableAll(); + + // push to the pre-sorted opaque render list + renderList.unshift( boxMesh, boxMesh.geometry, boxMesh.material, 0, 0, null ); + + } else if ( background && background.isTexture ) { + + if ( planeMesh === undefined ) { + + planeMesh = new Mesh( + new PlaneGeometry( 2, 2 ), + new ShaderMaterial( { + name: 'BackgroundMaterial', + uniforms: cloneUniforms( ShaderLib.background.uniforms ), + vertexShader: ShaderLib.background.vertexShader, + fragmentShader: ShaderLib.background.fragmentShader, + side: FrontSide, + depthTest: false, + depthWrite: false, + fog: false + } ) + ); + + planeMesh.geometry.deleteAttribute( 'normal' ); + + // add "map" material property so the renderer can evaluate it like for built-in materials + Object.defineProperty( planeMesh.material, 'map', { + + get: function () { + + return this.uniforms.t2D.value; + + } + + } ); + + objects.update( planeMesh ); + + } + + planeMesh.material.uniforms.t2D.value = background; + planeMesh.material.uniforms.backgroundIntensity.value = scene.backgroundIntensity; + planeMesh.material.toneMapped = ColorManagement.getTransfer( background.colorSpace ) !== SRGBTransfer; + + if ( background.matrixAutoUpdate === true ) { + + background.updateMatrix(); + + } + + planeMesh.material.uniforms.uvTransform.value.copy( background.matrix ); + + if ( currentBackground !== background || + currentBackgroundVersion !== background.version || + currentTonemapping !== renderer.toneMapping ) { + + planeMesh.material.needsUpdate = true; + + currentBackground = background; + currentBackgroundVersion = background.version; + currentTonemapping = renderer.toneMapping; + + } + + planeMesh.layers.enableAll(); + + // push to the pre-sorted opaque render list + renderList.unshift( planeMesh, planeMesh.geometry, planeMesh.material, 0, 0, null ); + + } + + } + + function setClear( color, alpha ) { + + color.getRGB( _rgb, getUnlitUniformColorSpace( renderer ) ); + + state.buffers.color.setClear( _rgb.r, _rgb.g, _rgb.b, alpha, premultipliedAlpha ); + + } + + function dispose() { + + if ( boxMesh !== undefined ) { + + boxMesh.geometry.dispose(); + boxMesh.material.dispose(); + + boxMesh = undefined; + + } + + if ( planeMesh !== undefined ) { + + planeMesh.geometry.dispose(); + planeMesh.material.dispose(); + + planeMesh = undefined; + + } + + } + + return { + + getClearColor: function () { + + return clearColor; + + }, + setClearColor: function ( color, alpha = 1 ) { + + clearColor.set( color ); + clearAlpha = alpha; + setClear( clearColor, clearAlpha ); + + }, + getClearAlpha: function () { + + return clearAlpha; + + }, + setClearAlpha: function ( alpha ) { + + clearAlpha = alpha; + setClear( clearColor, clearAlpha ); + + }, + render: render, + addToRenderList: addToRenderList, + dispose: dispose + + }; + +} + +function WebGLBindingStates( gl, attributes ) { + + const maxVertexAttributes = gl.getParameter( gl.MAX_VERTEX_ATTRIBS ); + + const bindingStates = {}; + + const defaultState = createBindingState( null ); + let currentState = defaultState; + let forceUpdate = false; + + function setup( object, material, program, geometry, index ) { + + let updateBuffers = false; + + const state = getBindingState( geometry, program, material ); + + if ( currentState !== state ) { + + currentState = state; + bindVertexArrayObject( currentState.object ); + + } + + updateBuffers = needsUpdate( object, geometry, program, index ); + + if ( updateBuffers ) saveCache( object, geometry, program, index ); + + if ( index !== null ) { + + attributes.update( index, gl.ELEMENT_ARRAY_BUFFER ); + + } + + if ( updateBuffers || forceUpdate ) { + + forceUpdate = false; + + setupVertexAttributes( object, material, program, geometry ); + + if ( index !== null ) { + + gl.bindBuffer( gl.ELEMENT_ARRAY_BUFFER, attributes.get( index ).buffer ); + + } + + } + + } + + function createVertexArrayObject() { + + return gl.createVertexArray(); + + } + + function bindVertexArrayObject( vao ) { + + return gl.bindVertexArray( vao ); + + } + + function deleteVertexArrayObject( vao ) { + + return gl.deleteVertexArray( vao ); + + } + + function getBindingState( geometry, program, material ) { + + const wireframe = ( material.wireframe === true ); + + let programMap = bindingStates[ geometry.id ]; + + if ( programMap === undefined ) { + + programMap = {}; + bindingStates[ geometry.id ] = programMap; + + } + + let stateMap = programMap[ program.id ]; + + if ( stateMap === undefined ) { + + stateMap = {}; + programMap[ program.id ] = stateMap; + + } + + let state = stateMap[ wireframe ]; + + if ( state === undefined ) { + + state = createBindingState( createVertexArrayObject() ); + stateMap[ wireframe ] = state; + + } + + return state; + + } + + function createBindingState( vao ) { + + const newAttributes = []; + const enabledAttributes = []; + const attributeDivisors = []; + + for ( let i = 0; i < maxVertexAttributes; i ++ ) { + + newAttributes[ i ] = 0; + enabledAttributes[ i ] = 0; + attributeDivisors[ i ] = 0; + + } + + return { + + // for backward compatibility on non-VAO support browser + geometry: null, + program: null, + wireframe: false, + + newAttributes: newAttributes, + enabledAttributes: enabledAttributes, + attributeDivisors: attributeDivisors, + object: vao, + attributes: {}, + index: null + + }; + + } + + function needsUpdate( object, geometry, program, index ) { + + const cachedAttributes = currentState.attributes; + const geometryAttributes = geometry.attributes; + + let attributesNum = 0; + + const programAttributes = program.getAttributes(); + + for ( const name in programAttributes ) { + + const programAttribute = programAttributes[ name ]; + + if ( programAttribute.location >= 0 ) { + + const cachedAttribute = cachedAttributes[ name ]; + let geometryAttribute = geometryAttributes[ name ]; + + if ( geometryAttribute === undefined ) { + + if ( name === 'instanceMatrix' && object.instanceMatrix ) geometryAttribute = object.instanceMatrix; + if ( name === 'instanceColor' && object.instanceColor ) geometryAttribute = object.instanceColor; + + } + + if ( cachedAttribute === undefined ) return true; + + if ( cachedAttribute.attribute !== geometryAttribute ) return true; + + if ( geometryAttribute && cachedAttribute.data !== geometryAttribute.data ) return true; + + attributesNum ++; + + } + + } + + if ( currentState.attributesNum !== attributesNum ) return true; + + if ( currentState.index !== index ) return true; + + return false; + + } + + function saveCache( object, geometry, program, index ) { + + const cache = {}; + const attributes = geometry.attributes; + let attributesNum = 0; + + const programAttributes = program.getAttributes(); + + for ( const name in programAttributes ) { + + const programAttribute = programAttributes[ name ]; + + if ( programAttribute.location >= 0 ) { + + let attribute = attributes[ name ]; + + if ( attribute === undefined ) { + + if ( name === 'instanceMatrix' && object.instanceMatrix ) attribute = object.instanceMatrix; + if ( name === 'instanceColor' && object.instanceColor ) attribute = object.instanceColor; + + } + + const data = {}; + data.attribute = attribute; + + if ( attribute && attribute.data ) { + + data.data = attribute.data; + + } + + cache[ name ] = data; + + attributesNum ++; + + } + + } + + currentState.attributes = cache; + currentState.attributesNum = attributesNum; + + currentState.index = index; + + } + + function initAttributes() { + + const newAttributes = currentState.newAttributes; + + for ( let i = 0, il = newAttributes.length; i < il; i ++ ) { + + newAttributes[ i ] = 0; + + } + + } + + function enableAttribute( attribute ) { + + enableAttributeAndDivisor( attribute, 0 ); + + } + + function enableAttributeAndDivisor( attribute, meshPerAttribute ) { + + const newAttributes = currentState.newAttributes; + const enabledAttributes = currentState.enabledAttributes; + const attributeDivisors = currentState.attributeDivisors; + + newAttributes[ attribute ] = 1; + + if ( enabledAttributes[ attribute ] === 0 ) { + + gl.enableVertexAttribArray( attribute ); + enabledAttributes[ attribute ] = 1; + + } + + if ( attributeDivisors[ attribute ] !== meshPerAttribute ) { + + gl.vertexAttribDivisor( attribute, meshPerAttribute ); + attributeDivisors[ attribute ] = meshPerAttribute; + + } + + } + + function disableUnusedAttributes() { + + const newAttributes = currentState.newAttributes; + const enabledAttributes = currentState.enabledAttributes; + + for ( let i = 0, il = enabledAttributes.length; i < il; i ++ ) { + + if ( enabledAttributes[ i ] !== newAttributes[ i ] ) { + + gl.disableVertexAttribArray( i ); + enabledAttributes[ i ] = 0; + + } + + } + + } + + function vertexAttribPointer( index, size, type, normalized, stride, offset, integer ) { + + if ( integer === true ) { + + gl.vertexAttribIPointer( index, size, type, stride, offset ); + + } else { + + gl.vertexAttribPointer( index, size, type, normalized, stride, offset ); + + } + + } + + function setupVertexAttributes( object, material, program, geometry ) { + + initAttributes(); + + const geometryAttributes = geometry.attributes; + + const programAttributes = program.getAttributes(); + + const materialDefaultAttributeValues = material.defaultAttributeValues; + + for ( const name in programAttributes ) { + + const programAttribute = programAttributes[ name ]; + + if ( programAttribute.location >= 0 ) { + + let geometryAttribute = geometryAttributes[ name ]; + + if ( geometryAttribute === undefined ) { + + if ( name === 'instanceMatrix' && object.instanceMatrix ) geometryAttribute = object.instanceMatrix; + if ( name === 'instanceColor' && object.instanceColor ) geometryAttribute = object.instanceColor; + + } + + if ( geometryAttribute !== undefined ) { + + const normalized = geometryAttribute.normalized; + const size = geometryAttribute.itemSize; + + const attribute = attributes.get( geometryAttribute ); + + // TODO Attribute may not be available on context restore + + if ( attribute === undefined ) continue; + + const buffer = attribute.buffer; + const type = attribute.type; + const bytesPerElement = attribute.bytesPerElement; + + // check for integer attributes + + const integer = ( type === gl.INT || type === gl.UNSIGNED_INT || geometryAttribute.gpuType === IntType ); + + if ( geometryAttribute.isInterleavedBufferAttribute ) { + + const data = geometryAttribute.data; + const stride = data.stride; + const offset = geometryAttribute.offset; + + if ( data.isInstancedInterleavedBuffer ) { + + for ( let i = 0; i < programAttribute.locationSize; i ++ ) { + + enableAttributeAndDivisor( programAttribute.location + i, data.meshPerAttribute ); + + } + + if ( object.isInstancedMesh !== true && geometry._maxInstanceCount === undefined ) { + + geometry._maxInstanceCount = data.meshPerAttribute * data.count; + + } + + } else { + + for ( let i = 0; i < programAttribute.locationSize; i ++ ) { + + enableAttribute( programAttribute.location + i ); + + } + + } + + gl.bindBuffer( gl.ARRAY_BUFFER, buffer ); + + for ( let i = 0; i < programAttribute.locationSize; i ++ ) { + + vertexAttribPointer( + programAttribute.location + i, + size / programAttribute.locationSize, + type, + normalized, + stride * bytesPerElement, + ( offset + ( size / programAttribute.locationSize ) * i ) * bytesPerElement, + integer + ); + + } + + } else { + + if ( geometryAttribute.isInstancedBufferAttribute ) { + + for ( let i = 0; i < programAttribute.locationSize; i ++ ) { + + enableAttributeAndDivisor( programAttribute.location + i, geometryAttribute.meshPerAttribute ); + + } + + if ( object.isInstancedMesh !== true && geometry._maxInstanceCount === undefined ) { + + geometry._maxInstanceCount = geometryAttribute.meshPerAttribute * geometryAttribute.count; + + } + + } else { + + for ( let i = 0; i < programAttribute.locationSize; i ++ ) { + + enableAttribute( programAttribute.location + i ); + + } + + } + + gl.bindBuffer( gl.ARRAY_BUFFER, buffer ); + + for ( let i = 0; i < programAttribute.locationSize; i ++ ) { + + vertexAttribPointer( + programAttribute.location + i, + size / programAttribute.locationSize, + type, + normalized, + size * bytesPerElement, + ( size / programAttribute.locationSize ) * i * bytesPerElement, + integer + ); + + } + + } + + } else if ( materialDefaultAttributeValues !== undefined ) { + + const value = materialDefaultAttributeValues[ name ]; + + if ( value !== undefined ) { + + switch ( value.length ) { + + case 2: + gl.vertexAttrib2fv( programAttribute.location, value ); + break; + + case 3: + gl.vertexAttrib3fv( programAttribute.location, value ); + break; + + case 4: + gl.vertexAttrib4fv( programAttribute.location, value ); + break; + + default: + gl.vertexAttrib1fv( programAttribute.location, value ); + + } + + } + + } + + } + + } + + disableUnusedAttributes(); + + } + + function dispose() { + + reset(); + + for ( const geometryId in bindingStates ) { + + const programMap = bindingStates[ geometryId ]; + + for ( const programId in programMap ) { + + const stateMap = programMap[ programId ]; + + for ( const wireframe in stateMap ) { + + deleteVertexArrayObject( stateMap[ wireframe ].object ); + + delete stateMap[ wireframe ]; + + } + + delete programMap[ programId ]; + + } + + delete bindingStates[ geometryId ]; + + } + + } + + function releaseStatesOfGeometry( geometry ) { + + if ( bindingStates[ geometry.id ] === undefined ) return; + + const programMap = bindingStates[ geometry.id ]; + + for ( const programId in programMap ) { + + const stateMap = programMap[ programId ]; + + for ( const wireframe in stateMap ) { + + deleteVertexArrayObject( stateMap[ wireframe ].object ); + + delete stateMap[ wireframe ]; + + } + + delete programMap[ programId ]; + + } + + delete bindingStates[ geometry.id ]; + + } + + function releaseStatesOfProgram( program ) { + + for ( const geometryId in bindingStates ) { + + const programMap = bindingStates[ geometryId ]; + + if ( programMap[ program.id ] === undefined ) continue; + + const stateMap = programMap[ program.id ]; + + for ( const wireframe in stateMap ) { + + deleteVertexArrayObject( stateMap[ wireframe ].object ); + + delete stateMap[ wireframe ]; + + } + + delete programMap[ program.id ]; + + } + + } + + function reset() { + + resetDefaultState(); + forceUpdate = true; + + if ( currentState === defaultState ) return; + + currentState = defaultState; + bindVertexArrayObject( currentState.object ); + + } + + // for backward-compatibility + + function resetDefaultState() { + + defaultState.geometry = null; + defaultState.program = null; + defaultState.wireframe = false; + + } + + return { + + setup: setup, + reset: reset, + resetDefaultState: resetDefaultState, + dispose: dispose, + releaseStatesOfGeometry: releaseStatesOfGeometry, + releaseStatesOfProgram: releaseStatesOfProgram, + + initAttributes: initAttributes, + enableAttribute: enableAttribute, + disableUnusedAttributes: disableUnusedAttributes + + }; + +} + +function WebGLBufferRenderer( gl, extensions, info ) { + + let mode; + + function setMode( value ) { + + mode = value; + + } + + function render( start, count ) { + + gl.drawArrays( mode, start, count ); + + info.update( count, mode, 1 ); + + } + + function renderInstances( start, count, primcount ) { + + if ( primcount === 0 ) return; + + gl.drawArraysInstanced( mode, start, count, primcount ); + + info.update( count, mode, primcount ); + + } + + function renderMultiDraw( starts, counts, drawCount ) { + + if ( drawCount === 0 ) return; + + const extension = extensions.get( 'WEBGL_multi_draw' ); + extension.multiDrawArraysWEBGL( mode, starts, 0, counts, 0, drawCount ); + + let elementCount = 0; + for ( let i = 0; i < drawCount; i ++ ) { + + elementCount += counts[ i ]; + + } + + info.update( elementCount, mode, 1 ); + + } + + function renderMultiDrawInstances( starts, counts, drawCount, primcount ) { + + if ( drawCount === 0 ) return; + + const extension = extensions.get( 'WEBGL_multi_draw' ); + + if ( extension === null ) { + + for ( let i = 0; i < starts.length; i ++ ) { + + renderInstances( starts[ i ], counts[ i ], primcount[ i ] ); + + } + + } else { + + extension.multiDrawArraysInstancedWEBGL( mode, starts, 0, counts, 0, primcount, 0, drawCount ); + + let elementCount = 0; + for ( let i = 0; i < drawCount; i ++ ) { + + elementCount += counts[ i ] * primcount[ i ]; + + } + + info.update( elementCount, mode, 1 ); + + } + + } + + // + + this.setMode = setMode; + this.render = render; + this.renderInstances = renderInstances; + this.renderMultiDraw = renderMultiDraw; + this.renderMultiDrawInstances = renderMultiDrawInstances; + +} + +function WebGLCapabilities( gl, extensions, parameters, utils ) { + + let maxAnisotropy; + + function getMaxAnisotropy() { + + if ( maxAnisotropy !== undefined ) return maxAnisotropy; + + if ( extensions.has( 'EXT_texture_filter_anisotropic' ) === true ) { + + const extension = extensions.get( 'EXT_texture_filter_anisotropic' ); + + maxAnisotropy = gl.getParameter( extension.MAX_TEXTURE_MAX_ANISOTROPY_EXT ); + + } else { + + maxAnisotropy = 0; + + } + + return maxAnisotropy; + + } + + function textureFormatReadable( textureFormat ) { + + if ( textureFormat !== RGBAFormat && utils.convert( textureFormat ) !== gl.getParameter( gl.IMPLEMENTATION_COLOR_READ_FORMAT ) ) { + + return false; + + } + + return true; + + } + + function textureTypeReadable( textureType ) { + + const halfFloatSupportedByExt = ( textureType === HalfFloatType ) && ( extensions.has( 'EXT_color_buffer_half_float' ) || extensions.has( 'EXT_color_buffer_float' ) ); + + if ( textureType !== UnsignedByteType && utils.convert( textureType ) !== gl.getParameter( gl.IMPLEMENTATION_COLOR_READ_TYPE ) && // Edge and Chrome Mac < 52 (#9513) + textureType !== FloatType && ! halfFloatSupportedByExt ) { + + return false; + + } + + return true; + + } + + function getMaxPrecision( precision ) { + + if ( precision === 'highp' ) { + + if ( gl.getShaderPrecisionFormat( gl.VERTEX_SHADER, gl.HIGH_FLOAT ).precision > 0 && + gl.getShaderPrecisionFormat( gl.FRAGMENT_SHADER, gl.HIGH_FLOAT ).precision > 0 ) { + + return 'highp'; + + } + + precision = 'mediump'; + + } + + if ( precision === 'mediump' ) { + + if ( gl.getShaderPrecisionFormat( gl.VERTEX_SHADER, gl.MEDIUM_FLOAT ).precision > 0 && + gl.getShaderPrecisionFormat( gl.FRAGMENT_SHADER, gl.MEDIUM_FLOAT ).precision > 0 ) { + + return 'mediump'; + + } + + } + + return 'lowp'; + + } + + let precision = parameters.precision !== undefined ? parameters.precision : 'highp'; + const maxPrecision = getMaxPrecision( precision ); + + if ( maxPrecision !== precision ) { + + console.warn( 'THREE.WebGLRenderer:', precision, 'not supported, using', maxPrecision, 'instead.' ); + precision = maxPrecision; + + } + + const logarithmicDepthBuffer = parameters.logarithmicDepthBuffer === true; + const reverseDepthBuffer = parameters.reverseDepthBuffer === true && extensions.has( 'EXT_clip_control' ); + + const maxTextures = gl.getParameter( gl.MAX_TEXTURE_IMAGE_UNITS ); + const maxVertexTextures = gl.getParameter( gl.MAX_VERTEX_TEXTURE_IMAGE_UNITS ); + const maxTextureSize = gl.getParameter( gl.MAX_TEXTURE_SIZE ); + const maxCubemapSize = gl.getParameter( gl.MAX_CUBE_MAP_TEXTURE_SIZE ); + + const maxAttributes = gl.getParameter( gl.MAX_VERTEX_ATTRIBS ); + const maxVertexUniforms = gl.getParameter( gl.MAX_VERTEX_UNIFORM_VECTORS ); + const maxVaryings = gl.getParameter( gl.MAX_VARYING_VECTORS ); + const maxFragmentUniforms = gl.getParameter( gl.MAX_FRAGMENT_UNIFORM_VECTORS ); + + const vertexTextures = maxVertexTextures > 0; + + const maxSamples = gl.getParameter( gl.MAX_SAMPLES ); + + return { + + isWebGL2: true, // keeping this for backwards compatibility + + getMaxAnisotropy: getMaxAnisotropy, + getMaxPrecision: getMaxPrecision, + + textureFormatReadable: textureFormatReadable, + textureTypeReadable: textureTypeReadable, + + precision: precision, + logarithmicDepthBuffer: logarithmicDepthBuffer, + reverseDepthBuffer: reverseDepthBuffer, + + maxTextures: maxTextures, + maxVertexTextures: maxVertexTextures, + maxTextureSize: maxTextureSize, + maxCubemapSize: maxCubemapSize, + + maxAttributes: maxAttributes, + maxVertexUniforms: maxVertexUniforms, + maxVaryings: maxVaryings, + maxFragmentUniforms: maxFragmentUniforms, + + vertexTextures: vertexTextures, + + maxSamples: maxSamples + + }; + +} + +function WebGLClipping( properties ) { + + const scope = this; + + let globalState = null, + numGlobalPlanes = 0, + localClippingEnabled = false, + renderingShadows = false; + + const plane = new Plane(), + viewNormalMatrix = new Matrix3(), + + uniform = { value: null, needsUpdate: false }; + + this.uniform = uniform; + this.numPlanes = 0; + this.numIntersection = 0; + + this.init = function ( planes, enableLocalClipping ) { + + const enabled = + planes.length !== 0 || + enableLocalClipping || + // enable state of previous frame - the clipping code has to + // run another frame in order to reset the state: + numGlobalPlanes !== 0 || + localClippingEnabled; + + localClippingEnabled = enableLocalClipping; + + numGlobalPlanes = planes.length; + + return enabled; + + }; + + this.beginShadows = function () { + + renderingShadows = true; + projectPlanes( null ); + + }; + + this.endShadows = function () { + + renderingShadows = false; + + }; + + this.setGlobalState = function ( planes, camera ) { + + globalState = projectPlanes( planes, camera, 0 ); + + }; + + this.setState = function ( material, camera, useCache ) { + + const planes = material.clippingPlanes, + clipIntersection = material.clipIntersection, + clipShadows = material.clipShadows; + + const materialProperties = properties.get( material ); + + if ( ! localClippingEnabled || planes === null || planes.length === 0 || renderingShadows && ! clipShadows ) { + + // there's no local clipping + + if ( renderingShadows ) { + + // there's no global clipping + + projectPlanes( null ); + + } else { + + resetGlobalState(); + + } + + } else { + + const nGlobal = renderingShadows ? 0 : numGlobalPlanes, + lGlobal = nGlobal * 4; + + let dstArray = materialProperties.clippingState || null; + + uniform.value = dstArray; // ensure unique state + + dstArray = projectPlanes( planes, camera, lGlobal, useCache ); + + for ( let i = 0; i !== lGlobal; ++ i ) { + + dstArray[ i ] = globalState[ i ]; + + } + + materialProperties.clippingState = dstArray; + this.numIntersection = clipIntersection ? this.numPlanes : 0; + this.numPlanes += nGlobal; + + } + + + }; + + function resetGlobalState() { + + if ( uniform.value !== globalState ) { + + uniform.value = globalState; + uniform.needsUpdate = numGlobalPlanes > 0; + + } + + scope.numPlanes = numGlobalPlanes; + scope.numIntersection = 0; + + } + + function projectPlanes( planes, camera, dstOffset, skipTransform ) { + + const nPlanes = planes !== null ? planes.length : 0; + let dstArray = null; + + if ( nPlanes !== 0 ) { + + dstArray = uniform.value; + + if ( skipTransform !== true || dstArray === null ) { + + const flatSize = dstOffset + nPlanes * 4, + viewMatrix = camera.matrixWorldInverse; + + viewNormalMatrix.getNormalMatrix( viewMatrix ); + + if ( dstArray === null || dstArray.length < flatSize ) { + + dstArray = new Float32Array( flatSize ); + + } + + for ( let i = 0, i4 = dstOffset; i !== nPlanes; ++ i, i4 += 4 ) { + + plane.copy( planes[ i ] ).applyMatrix4( viewMatrix, viewNormalMatrix ); + + plane.normal.toArray( dstArray, i4 ); + dstArray[ i4 + 3 ] = plane.constant; + + } + + } + + uniform.value = dstArray; + uniform.needsUpdate = true; + + } + + scope.numPlanes = nPlanes; + scope.numIntersection = 0; + + return dstArray; + + } + +} + +function WebGLCubeMaps( renderer ) { + + let cubemaps = new WeakMap(); + + function mapTextureMapping( texture, mapping ) { + + if ( mapping === EquirectangularReflectionMapping ) { + + texture.mapping = CubeReflectionMapping; + + } else if ( mapping === EquirectangularRefractionMapping ) { + + texture.mapping = CubeRefractionMapping; + + } + + return texture; + + } + + function get( texture ) { + + if ( texture && texture.isTexture ) { + + const mapping = texture.mapping; + + if ( mapping === EquirectangularReflectionMapping || mapping === EquirectangularRefractionMapping ) { + + if ( cubemaps.has( texture ) ) { + + const cubemap = cubemaps.get( texture ).texture; + return mapTextureMapping( cubemap, texture.mapping ); + + } else { + + const image = texture.image; + + if ( image && image.height > 0 ) { + + const renderTarget = new WebGLCubeRenderTarget( image.height ); + renderTarget.fromEquirectangularTexture( renderer, texture ); + cubemaps.set( texture, renderTarget ); + + texture.addEventListener( 'dispose', onTextureDispose ); + + return mapTextureMapping( renderTarget.texture, texture.mapping ); + + } else { + + // image not yet ready. try the conversion next frame + + return null; + + } + + } + + } + + } + + return texture; + + } + + function onTextureDispose( event ) { + + const texture = event.target; + + texture.removeEventListener( 'dispose', onTextureDispose ); + + const cubemap = cubemaps.get( texture ); + + if ( cubemap !== undefined ) { + + cubemaps.delete( texture ); + cubemap.dispose(); + + } + + } + + function dispose() { + + cubemaps = new WeakMap(); + + } + + return { + get: get, + dispose: dispose + }; + +} + +const LOD_MIN = 4; + +// The standard deviations (radians) associated with the extra mips. These are +// chosen to approximate a Trowbridge-Reitz distribution function times the +// geometric shadowing function. These sigma values squared must match the +// variance #defines in cube_uv_reflection_fragment.glsl.js. +const EXTRA_LOD_SIGMA = [ 0.125, 0.215, 0.35, 0.446, 0.526, 0.582 ]; + +// The maximum length of the blur for loop. Smaller sigmas will use fewer +// samples and exit early, but not recompile the shader. +const MAX_SAMPLES$1 = 20; + +const _flatCamera = /*@__PURE__*/ new OrthographicCamera(); +const _clearColor = /*@__PURE__*/ new Color(); +let _oldTarget = null; +let _oldActiveCubeFace = 0; +let _oldActiveMipmapLevel = 0; +let _oldXrEnabled = false; + +// Golden Ratio +const PHI = ( 1 + Math.sqrt( 5 ) ) / 2; +const INV_PHI = 1 / PHI; + +// Vertices of a dodecahedron (except the opposites, which represent the +// same axis), used as axis directions evenly spread on a sphere. +const _axisDirections = [ + /*@__PURE__*/ new Vector3( - PHI, INV_PHI, 0 ), + /*@__PURE__*/ new Vector3( PHI, INV_PHI, 0 ), + /*@__PURE__*/ new Vector3( - INV_PHI, 0, PHI ), + /*@__PURE__*/ new Vector3( INV_PHI, 0, PHI ), + /*@__PURE__*/ new Vector3( 0, PHI, - INV_PHI ), + /*@__PURE__*/ new Vector3( 0, PHI, INV_PHI ), + /*@__PURE__*/ new Vector3( -1, 1, -1 ), + /*@__PURE__*/ new Vector3( 1, 1, -1 ), + /*@__PURE__*/ new Vector3( -1, 1, 1 ), + /*@__PURE__*/ new Vector3( 1, 1, 1 ) ]; + +const _origin = /*@__PURE__*/ new Vector3(); + +/** + * This class generates a Prefiltered, Mipmapped Radiance Environment Map + * (PMREM) from a cubeMap environment texture. This allows different levels of + * blur to be quickly accessed based on material roughness. It is packed into a + * special CubeUV format that allows us to perform custom interpolation so that + * we can support nonlinear formats such as RGBE. Unlike a traditional mipmap + * chain, it only goes down to the LOD_MIN level (above), and then creates extra + * even more filtered 'mips' at the same LOD_MIN resolution, associated with + * higher roughness levels. In this way we maintain resolution to smoothly + * interpolate diffuse lighting while limiting sampling computation. + * + * Paper: Fast, Accurate Image-Based Lighting + * https://drive.google.com/file/d/15y8r_UpKlU9SvV4ILb0C3qCPecS8pvLz/view +*/ + +class PMREMGenerator { + + constructor( renderer ) { + + this._renderer = renderer; + this._pingPongRenderTarget = null; + + this._lodMax = 0; + this._cubeSize = 0; + this._lodPlanes = []; + this._sizeLods = []; + this._sigmas = []; + + this._blurMaterial = null; + this._cubemapMaterial = null; + this._equirectMaterial = null; + + this._compileMaterial( this._blurMaterial ); + + } + + /** + * Generates a PMREM from a supplied Scene, which can be faster than using an + * image if networking bandwidth is low. Optional sigma specifies a blur radius + * in radians to be applied to the scene before PMREM generation. Optional near + * and far planes ensure the scene is rendered in its entirety. + * + * @param {Scene} scene + * @param {number} sigma + * @param {number} near + * @param {number} far + * @param {Object} [options={}] + * @return {WebGLRenderTarget} + */ + fromScene( scene, sigma = 0, near = 0.1, far = 100, options = {} ) { + + const { + size = 256, + position = _origin, + } = options; + + _oldTarget = this._renderer.getRenderTarget(); + _oldActiveCubeFace = this._renderer.getActiveCubeFace(); + _oldActiveMipmapLevel = this._renderer.getActiveMipmapLevel(); + _oldXrEnabled = this._renderer.xr.enabled; + + this._renderer.xr.enabled = false; + + this._setSize( size ); + + const cubeUVRenderTarget = this._allocateTargets(); + cubeUVRenderTarget.depthBuffer = true; + + this._sceneToCubeUV( scene, near, far, cubeUVRenderTarget, position ); + + if ( sigma > 0 ) { + + this._blur( cubeUVRenderTarget, 0, 0, sigma ); + + } + + this._applyPMREM( cubeUVRenderTarget ); + this._cleanup( cubeUVRenderTarget ); + + return cubeUVRenderTarget; + + } + + /** + * Generates a PMREM from an equirectangular texture, which can be either LDR + * or HDR. The ideal input image size is 1k (1024 x 512), + * as this matches best with the 256 x 256 cubemap output. + * The smallest supported equirectangular image size is 64 x 32. + * + * @param {Texture} equirectangular + * @param {?WebGLRenderTarget} [renderTarget=null] - Optional render target. + * @return {WebGLRenderTarget} + */ + fromEquirectangular( equirectangular, renderTarget = null ) { + + return this._fromTexture( equirectangular, renderTarget ); + + } + + /** + * Generates a PMREM from an cubemap texture, which can be either LDR + * or HDR. The ideal input cube size is 256 x 256, + * as this matches best with the 256 x 256 cubemap output. + * The smallest supported cube size is 16 x 16. + * + * @param {Texture} cubemap + * @param {null} [renderTarget=null] - Optional render target. + * @return {WebGLRenderTarget} + */ + fromCubemap( cubemap, renderTarget = null ) { + + return this._fromTexture( cubemap, renderTarget ); + + } + + /** + * Pre-compiles the cubemap shader. You can get faster start-up by invoking this method during + * your texture's network fetch for increased concurrency. + */ + compileCubemapShader() { + + if ( this._cubemapMaterial === null ) { + + this._cubemapMaterial = _getCubemapMaterial(); + this._compileMaterial( this._cubemapMaterial ); + + } + + } + + /** + * Pre-compiles the equirectangular shader. You can get faster start-up by invoking this method during + * your texture's network fetch for increased concurrency. + */ + compileEquirectangularShader() { + + if ( this._equirectMaterial === null ) { + + this._equirectMaterial = _getEquirectMaterial(); + this._compileMaterial( this._equirectMaterial ); + + } + + } + + /** + * Disposes of the PMREMGenerator's internal memory. Note that PMREMGenerator is a static class, + * so you should not need more than one PMREMGenerator object. If you do, calling dispose() on + * one of them will cause any others to also become unusable. + */ + dispose() { + + this._dispose(); + + if ( this._cubemapMaterial !== null ) this._cubemapMaterial.dispose(); + if ( this._equirectMaterial !== null ) this._equirectMaterial.dispose(); + + } + + // private interface + + _setSize( cubeSize ) { + + this._lodMax = Math.floor( Math.log2( cubeSize ) ); + this._cubeSize = Math.pow( 2, this._lodMax ); + + } + + _dispose() { + + if ( this._blurMaterial !== null ) this._blurMaterial.dispose(); + + if ( this._pingPongRenderTarget !== null ) this._pingPongRenderTarget.dispose(); + + for ( let i = 0; i < this._lodPlanes.length; i ++ ) { + + this._lodPlanes[ i ].dispose(); + + } + + } + + _cleanup( outputTarget ) { + + this._renderer.setRenderTarget( _oldTarget, _oldActiveCubeFace, _oldActiveMipmapLevel ); + this._renderer.xr.enabled = _oldXrEnabled; + + outputTarget.scissorTest = false; + _setViewport( outputTarget, 0, 0, outputTarget.width, outputTarget.height ); + + } + + _fromTexture( texture, renderTarget ) { + + if ( texture.mapping === CubeReflectionMapping || texture.mapping === CubeRefractionMapping ) { + + this._setSize( texture.image.length === 0 ? 16 : ( texture.image[ 0 ].width || texture.image[ 0 ].image.width ) ); + + } else { // Equirectangular + + this._setSize( texture.image.width / 4 ); + + } + + _oldTarget = this._renderer.getRenderTarget(); + _oldActiveCubeFace = this._renderer.getActiveCubeFace(); + _oldActiveMipmapLevel = this._renderer.getActiveMipmapLevel(); + _oldXrEnabled = this._renderer.xr.enabled; + + this._renderer.xr.enabled = false; + + const cubeUVRenderTarget = renderTarget || this._allocateTargets(); + this._textureToCubeUV( texture, cubeUVRenderTarget ); + this._applyPMREM( cubeUVRenderTarget ); + this._cleanup( cubeUVRenderTarget ); + + return cubeUVRenderTarget; + + } + + _allocateTargets() { + + const width = 3 * Math.max( this._cubeSize, 16 * 7 ); + const height = 4 * this._cubeSize; + + const params = { + magFilter: LinearFilter, + minFilter: LinearFilter, + generateMipmaps: false, + type: HalfFloatType, + format: RGBAFormat, + colorSpace: LinearSRGBColorSpace, + depthBuffer: false + }; + + const cubeUVRenderTarget = _createRenderTarget( width, height, params ); + + if ( this._pingPongRenderTarget === null || this._pingPongRenderTarget.width !== width || this._pingPongRenderTarget.height !== height ) { + + if ( this._pingPongRenderTarget !== null ) { + + this._dispose(); + + } + + this._pingPongRenderTarget = _createRenderTarget( width, height, params ); + + const { _lodMax } = this; + ( { sizeLods: this._sizeLods, lodPlanes: this._lodPlanes, sigmas: this._sigmas } = _createPlanes( _lodMax ) ); + + this._blurMaterial = _getBlurShader( _lodMax, width, height ); + + } + + return cubeUVRenderTarget; + + } + + _compileMaterial( material ) { + + const tmpMesh = new Mesh( this._lodPlanes[ 0 ], material ); + this._renderer.compile( tmpMesh, _flatCamera ); + + } + + _sceneToCubeUV( scene, near, far, cubeUVRenderTarget, position ) { + + const fov = 90; + const aspect = 1; + const cubeCamera = new PerspectiveCamera( fov, aspect, near, far ); + const upSign = [ 1, -1, 1, 1, 1, 1 ]; + const forwardSign = [ 1, 1, 1, -1, -1, -1 ]; + const renderer = this._renderer; + + const originalAutoClear = renderer.autoClear; + const toneMapping = renderer.toneMapping; + renderer.getClearColor( _clearColor ); + + renderer.toneMapping = NoToneMapping; + renderer.autoClear = false; + + const backgroundMaterial = new MeshBasicMaterial( { + name: 'PMREM.Background', + side: BackSide, + depthWrite: false, + depthTest: false, + } ); + + const backgroundBox = new Mesh( new BoxGeometry(), backgroundMaterial ); + + let useSolidColor = false; + const background = scene.background; + + if ( background ) { + + if ( background.isColor ) { + + backgroundMaterial.color.copy( background ); + scene.background = null; + useSolidColor = true; + + } + + } else { + + backgroundMaterial.color.copy( _clearColor ); + useSolidColor = true; + + } + + for ( let i = 0; i < 6; i ++ ) { + + const col = i % 3; + + if ( col === 0 ) { + + cubeCamera.up.set( 0, upSign[ i ], 0 ); + cubeCamera.position.set( position.x, position.y, position.z ); + cubeCamera.lookAt( position.x + forwardSign[ i ], position.y, position.z ); + + } else if ( col === 1 ) { + + cubeCamera.up.set( 0, 0, upSign[ i ] ); + cubeCamera.position.set( position.x, position.y, position.z ); + cubeCamera.lookAt( position.x, position.y + forwardSign[ i ], position.z ); + + + } else { + + cubeCamera.up.set( 0, upSign[ i ], 0 ); + cubeCamera.position.set( position.x, position.y, position.z ); + cubeCamera.lookAt( position.x, position.y, position.z + forwardSign[ i ] ); + + } + + const size = this._cubeSize; + + _setViewport( cubeUVRenderTarget, col * size, i > 2 ? size : 0, size, size ); + + renderer.setRenderTarget( cubeUVRenderTarget ); + + if ( useSolidColor ) { + + renderer.render( backgroundBox, cubeCamera ); + + } + + renderer.render( scene, cubeCamera ); + + } + + backgroundBox.geometry.dispose(); + backgroundBox.material.dispose(); + + renderer.toneMapping = toneMapping; + renderer.autoClear = originalAutoClear; + scene.background = background; + + } + + _textureToCubeUV( texture, cubeUVRenderTarget ) { + + const renderer = this._renderer; + + const isCubeTexture = ( texture.mapping === CubeReflectionMapping || texture.mapping === CubeRefractionMapping ); + + if ( isCubeTexture ) { + + if ( this._cubemapMaterial === null ) { + + this._cubemapMaterial = _getCubemapMaterial(); + + } + + this._cubemapMaterial.uniforms.flipEnvMap.value = ( texture.isRenderTargetTexture === false ) ? -1 : 1; + + } else { + + if ( this._equirectMaterial === null ) { + + this._equirectMaterial = _getEquirectMaterial(); + + } + + } + + const material = isCubeTexture ? this._cubemapMaterial : this._equirectMaterial; + const mesh = new Mesh( this._lodPlanes[ 0 ], material ); + + const uniforms = material.uniforms; + + uniforms[ 'envMap' ].value = texture; + + const size = this._cubeSize; + + _setViewport( cubeUVRenderTarget, 0, 0, 3 * size, 2 * size ); + + renderer.setRenderTarget( cubeUVRenderTarget ); + renderer.render( mesh, _flatCamera ); + + } + + _applyPMREM( cubeUVRenderTarget ) { + + const renderer = this._renderer; + const autoClear = renderer.autoClear; + renderer.autoClear = false; + const n = this._lodPlanes.length; + + for ( let i = 1; i < n; i ++ ) { + + const sigma = Math.sqrt( this._sigmas[ i ] * this._sigmas[ i ] - this._sigmas[ i - 1 ] * this._sigmas[ i - 1 ] ); + + const poleAxis = _axisDirections[ ( n - i - 1 ) % _axisDirections.length ]; + + this._blur( cubeUVRenderTarget, i - 1, i, sigma, poleAxis ); + + } + + renderer.autoClear = autoClear; + + } + + /** + * This is a two-pass Gaussian blur for a cubemap. Normally this is done + * vertically and horizontally, but this breaks down on a cube. Here we apply + * the blur latitudinally (around the poles), and then longitudinally (towards + * the poles) to approximate the orthogonally-separable blur. It is least + * accurate at the poles, but still does a decent job. + * + * @param {WebGLRenderTarget} cubeUVRenderTarget + * @param {number} lodIn + * @param {number} lodOut + * @param {number} sigma + * @param {Vector3} [poleAxis] + */ + _blur( cubeUVRenderTarget, lodIn, lodOut, sigma, poleAxis ) { + + const pingPongRenderTarget = this._pingPongRenderTarget; + + this._halfBlur( + cubeUVRenderTarget, + pingPongRenderTarget, + lodIn, + lodOut, + sigma, + 'latitudinal', + poleAxis ); + + this._halfBlur( + pingPongRenderTarget, + cubeUVRenderTarget, + lodOut, + lodOut, + sigma, + 'longitudinal', + poleAxis ); + + } + + _halfBlur( targetIn, targetOut, lodIn, lodOut, sigmaRadians, direction, poleAxis ) { + + const renderer = this._renderer; + const blurMaterial = this._blurMaterial; + + if ( direction !== 'latitudinal' && direction !== 'longitudinal' ) { + + console.error( + 'blur direction must be either latitudinal or longitudinal!' ); + + } + + // Number of standard deviations at which to cut off the discrete approximation. + const STANDARD_DEVIATIONS = 3; + + const blurMesh = new Mesh( this._lodPlanes[ lodOut ], blurMaterial ); + const blurUniforms = blurMaterial.uniforms; + + const pixels = this._sizeLods[ lodIn ] - 1; + const radiansPerPixel = isFinite( sigmaRadians ) ? Math.PI / ( 2 * pixels ) : 2 * Math.PI / ( 2 * MAX_SAMPLES$1 - 1 ); + const sigmaPixels = sigmaRadians / radiansPerPixel; + const samples = isFinite( sigmaRadians ) ? 1 + Math.floor( STANDARD_DEVIATIONS * sigmaPixels ) : MAX_SAMPLES$1; + + if ( samples > MAX_SAMPLES$1 ) { + + console.warn( `sigmaRadians, ${ + sigmaRadians}, is too large and will clip, as it requested ${ + samples} samples when the maximum is set to ${MAX_SAMPLES$1}` ); + + } + + const weights = []; + let sum = 0; + + for ( let i = 0; i < MAX_SAMPLES$1; ++ i ) { + + const x = i / sigmaPixels; + const weight = Math.exp( - x * x / 2 ); + weights.push( weight ); + + if ( i === 0 ) { + + sum += weight; + + } else if ( i < samples ) { + + sum += 2 * weight; + + } + + } + + for ( let i = 0; i < weights.length; i ++ ) { + + weights[ i ] = weights[ i ] / sum; + + } + + blurUniforms[ 'envMap' ].value = targetIn.texture; + blurUniforms[ 'samples' ].value = samples; + blurUniforms[ 'weights' ].value = weights; + blurUniforms[ 'latitudinal' ].value = direction === 'latitudinal'; + + if ( poleAxis ) { + + blurUniforms[ 'poleAxis' ].value = poleAxis; + + } + + const { _lodMax } = this; + blurUniforms[ 'dTheta' ].value = radiansPerPixel; + blurUniforms[ 'mipInt' ].value = _lodMax - lodIn; + + const outputSize = this._sizeLods[ lodOut ]; + const x = 3 * outputSize * ( lodOut > _lodMax - LOD_MIN ? lodOut - _lodMax + LOD_MIN : 0 ); + const y = 4 * ( this._cubeSize - outputSize ); + + _setViewport( targetOut, x, y, 3 * outputSize, 2 * outputSize ); + renderer.setRenderTarget( targetOut ); + renderer.render( blurMesh, _flatCamera ); + + } + +} + + + +function _createPlanes( lodMax ) { + + const lodPlanes = []; + const sizeLods = []; + const sigmas = []; + + let lod = lodMax; + + const totalLods = lodMax - LOD_MIN + 1 + EXTRA_LOD_SIGMA.length; + + for ( let i = 0; i < totalLods; i ++ ) { + + const sizeLod = Math.pow( 2, lod ); + sizeLods.push( sizeLod ); + let sigma = 1.0 / sizeLod; + + if ( i > lodMax - LOD_MIN ) { + + sigma = EXTRA_LOD_SIGMA[ i - lodMax + LOD_MIN - 1 ]; + + } else if ( i === 0 ) { + + sigma = 0; + + } + + sigmas.push( sigma ); + + const texelSize = 1.0 / ( sizeLod - 2 ); + const min = - texelSize; + const max = 1 + texelSize; + const uv1 = [ min, min, max, min, max, max, min, min, max, max, min, max ]; + + const cubeFaces = 6; + const vertices = 6; + const positionSize = 3; + const uvSize = 2; + const faceIndexSize = 1; + + const position = new Float32Array( positionSize * vertices * cubeFaces ); + const uv = new Float32Array( uvSize * vertices * cubeFaces ); + const faceIndex = new Float32Array( faceIndexSize * vertices * cubeFaces ); + + for ( let face = 0; face < cubeFaces; face ++ ) { + + const x = ( face % 3 ) * 2 / 3 - 1; + const y = face > 2 ? 0 : -1; + const coordinates = [ + x, y, 0, + x + 2 / 3, y, 0, + x + 2 / 3, y + 1, 0, + x, y, 0, + x + 2 / 3, y + 1, 0, + x, y + 1, 0 + ]; + position.set( coordinates, positionSize * vertices * face ); + uv.set( uv1, uvSize * vertices * face ); + const fill = [ face, face, face, face, face, face ]; + faceIndex.set( fill, faceIndexSize * vertices * face ); + + } + + const planes = new BufferGeometry(); + planes.setAttribute( 'position', new BufferAttribute( position, positionSize ) ); + planes.setAttribute( 'uv', new BufferAttribute( uv, uvSize ) ); + planes.setAttribute( 'faceIndex', new BufferAttribute( faceIndex, faceIndexSize ) ); + lodPlanes.push( planes ); + + if ( lod > LOD_MIN ) { + + lod --; + + } + + } + + return { lodPlanes, sizeLods, sigmas }; + +} + +function _createRenderTarget( width, height, params ) { + + const cubeUVRenderTarget = new WebGLRenderTarget( width, height, params ); + cubeUVRenderTarget.texture.mapping = CubeUVReflectionMapping; + cubeUVRenderTarget.texture.name = 'PMREM.cubeUv'; + cubeUVRenderTarget.scissorTest = true; + return cubeUVRenderTarget; + +} + +function _setViewport( target, x, y, width, height ) { + + target.viewport.set( x, y, width, height ); + target.scissor.set( x, y, width, height ); + +} + +function _getBlurShader( lodMax, width, height ) { + + const weights = new Float32Array( MAX_SAMPLES$1 ); + const poleAxis = new Vector3( 0, 1, 0 ); + const shaderMaterial = new ShaderMaterial( { + + name: 'SphericalGaussianBlur', + + defines: { + 'n': MAX_SAMPLES$1, + 'CUBEUV_TEXEL_WIDTH': 1.0 / width, + 'CUBEUV_TEXEL_HEIGHT': 1.0 / height, + 'CUBEUV_MAX_MIP': `${lodMax}.0`, + }, + + uniforms: { + 'envMap': { value: null }, + 'samples': { value: 1 }, + 'weights': { value: weights }, + 'latitudinal': { value: false }, + 'dTheta': { value: 0 }, + 'mipInt': { value: 0 }, + 'poleAxis': { value: poleAxis } + }, + + vertexShader: _getCommonVertexShader(), + + fragmentShader: /* glsl */` + + precision mediump float; + precision mediump int; + + varying vec3 vOutputDirection; + + uniform sampler2D envMap; + uniform int samples; + uniform float weights[ n ]; + uniform bool latitudinal; + uniform float dTheta; + uniform float mipInt; + uniform vec3 poleAxis; + + #define ENVMAP_TYPE_CUBE_UV + #include + + vec3 getSample( float theta, vec3 axis ) { + + float cosTheta = cos( theta ); + // Rodrigues' axis-angle rotation + vec3 sampleDirection = vOutputDirection * cosTheta + + cross( axis, vOutputDirection ) * sin( theta ) + + axis * dot( axis, vOutputDirection ) * ( 1.0 - cosTheta ); + + return bilinearCubeUV( envMap, sampleDirection, mipInt ); + + } + + void main() { + + vec3 axis = latitudinal ? poleAxis : cross( poleAxis, vOutputDirection ); + + if ( all( equal( axis, vec3( 0.0 ) ) ) ) { + + axis = vec3( vOutputDirection.z, 0.0, - vOutputDirection.x ); + + } + + axis = normalize( axis ); + + gl_FragColor = vec4( 0.0, 0.0, 0.0, 1.0 ); + gl_FragColor.rgb += weights[ 0 ] * getSample( 0.0, axis ); + + for ( int i = 1; i < n; i++ ) { + + if ( i >= samples ) { + + break; + + } + + float theta = dTheta * float( i ); + gl_FragColor.rgb += weights[ i ] * getSample( -1.0 * theta, axis ); + gl_FragColor.rgb += weights[ i ] * getSample( theta, axis ); + + } + + } + `, + + blending: NoBlending, + depthTest: false, + depthWrite: false + + } ); + + return shaderMaterial; + +} + +function _getEquirectMaterial() { + + return new ShaderMaterial( { + + name: 'EquirectangularToCubeUV', + + uniforms: { + 'envMap': { value: null } + }, + + vertexShader: _getCommonVertexShader(), + + fragmentShader: /* glsl */` + + precision mediump float; + precision mediump int; + + varying vec3 vOutputDirection; + + uniform sampler2D envMap; + + #include + + void main() { + + vec3 outputDirection = normalize( vOutputDirection ); + vec2 uv = equirectUv( outputDirection ); + + gl_FragColor = vec4( texture2D ( envMap, uv ).rgb, 1.0 ); + + } + `, + + blending: NoBlending, + depthTest: false, + depthWrite: false + + } ); + +} + +function _getCubemapMaterial() { + + return new ShaderMaterial( { + + name: 'CubemapToCubeUV', + + uniforms: { + 'envMap': { value: null }, + 'flipEnvMap': { value: -1 } + }, + + vertexShader: _getCommonVertexShader(), + + fragmentShader: /* glsl */` + + precision mediump float; + precision mediump int; + + uniform float flipEnvMap; + + varying vec3 vOutputDirection; + + uniform samplerCube envMap; + + void main() { + + gl_FragColor = textureCube( envMap, vec3( flipEnvMap * vOutputDirection.x, vOutputDirection.yz ) ); + + } + `, + + blending: NoBlending, + depthTest: false, + depthWrite: false + + } ); + +} + +function _getCommonVertexShader() { + + return /* glsl */` + + precision mediump float; + precision mediump int; + + attribute float faceIndex; + + varying vec3 vOutputDirection; + + // RH coordinate system; PMREM face-indexing convention + vec3 getDirection( vec2 uv, float face ) { + + uv = 2.0 * uv - 1.0; + + vec3 direction = vec3( uv, 1.0 ); + + if ( face == 0.0 ) { + + direction = direction.zyx; // ( 1, v, u ) pos x + + } else if ( face == 1.0 ) { + + direction = direction.xzy; + direction.xz *= -1.0; // ( -u, 1, -v ) pos y + + } else if ( face == 2.0 ) { + + direction.x *= -1.0; // ( -u, v, 1 ) pos z + + } else if ( face == 3.0 ) { + + direction = direction.zyx; + direction.xz *= -1.0; // ( -1, v, -u ) neg x + + } else if ( face == 4.0 ) { + + direction = direction.xzy; + direction.xy *= -1.0; // ( -u, -1, v ) neg y + + } else if ( face == 5.0 ) { + + direction.z *= -1.0; // ( u, v, -1 ) neg z + + } + + return direction; + + } + + void main() { + + vOutputDirection = getDirection( uv, faceIndex ); + gl_Position = vec4( position, 1.0 ); + + } + `; + +} + +function WebGLCubeUVMaps( renderer ) { + + let cubeUVmaps = new WeakMap(); + + let pmremGenerator = null; + + function get( texture ) { + + if ( texture && texture.isTexture ) { + + const mapping = texture.mapping; + + const isEquirectMap = ( mapping === EquirectangularReflectionMapping || mapping === EquirectangularRefractionMapping ); + const isCubeMap = ( mapping === CubeReflectionMapping || mapping === CubeRefractionMapping ); + + // equirect/cube map to cubeUV conversion + + if ( isEquirectMap || isCubeMap ) { + + let renderTarget = cubeUVmaps.get( texture ); + + const currentPMREMVersion = renderTarget !== undefined ? renderTarget.texture.pmremVersion : 0; + + if ( texture.isRenderTargetTexture && texture.pmremVersion !== currentPMREMVersion ) { + + if ( pmremGenerator === null ) pmremGenerator = new PMREMGenerator( renderer ); + + renderTarget = isEquirectMap ? pmremGenerator.fromEquirectangular( texture, renderTarget ) : pmremGenerator.fromCubemap( texture, renderTarget ); + renderTarget.texture.pmremVersion = texture.pmremVersion; + + cubeUVmaps.set( texture, renderTarget ); + + return renderTarget.texture; + + } else { + + if ( renderTarget !== undefined ) { + + return renderTarget.texture; + + } else { + + const image = texture.image; + + if ( ( isEquirectMap && image && image.height > 0 ) || ( isCubeMap && image && isCubeTextureComplete( image ) ) ) { + + if ( pmremGenerator === null ) pmremGenerator = new PMREMGenerator( renderer ); + + renderTarget = isEquirectMap ? pmremGenerator.fromEquirectangular( texture ) : pmremGenerator.fromCubemap( texture ); + renderTarget.texture.pmremVersion = texture.pmremVersion; + + cubeUVmaps.set( texture, renderTarget ); + + texture.addEventListener( 'dispose', onTextureDispose ); + + return renderTarget.texture; + + } else { + + // image not yet ready. try the conversion next frame + + return null; + + } + + } + + } + + } + + } + + return texture; + + } + + function isCubeTextureComplete( image ) { + + let count = 0; + const length = 6; + + for ( let i = 0; i < length; i ++ ) { + + if ( image[ i ] !== undefined ) count ++; + + } + + return count === length; + + + } + + function onTextureDispose( event ) { + + const texture = event.target; + + texture.removeEventListener( 'dispose', onTextureDispose ); + + const cubemapUV = cubeUVmaps.get( texture ); + + if ( cubemapUV !== undefined ) { + + cubeUVmaps.delete( texture ); + cubemapUV.dispose(); + + } + + } + + function dispose() { + + cubeUVmaps = new WeakMap(); + + if ( pmremGenerator !== null ) { + + pmremGenerator.dispose(); + pmremGenerator = null; + + } + + } + + return { + get: get, + dispose: dispose + }; + +} + +function WebGLExtensions( gl ) { + + const extensions = {}; + + function getExtension( name ) { + + if ( extensions[ name ] !== undefined ) { + + return extensions[ name ]; + + } + + let extension; + + switch ( name ) { + + case 'WEBGL_depth_texture': + extension = gl.getExtension( 'WEBGL_depth_texture' ) || gl.getExtension( 'MOZ_WEBGL_depth_texture' ) || gl.getExtension( 'WEBKIT_WEBGL_depth_texture' ); + break; + + case 'EXT_texture_filter_anisotropic': + extension = gl.getExtension( 'EXT_texture_filter_anisotropic' ) || gl.getExtension( 'MOZ_EXT_texture_filter_anisotropic' ) || gl.getExtension( 'WEBKIT_EXT_texture_filter_anisotropic' ); + break; + + case 'WEBGL_compressed_texture_s3tc': + extension = gl.getExtension( 'WEBGL_compressed_texture_s3tc' ) || gl.getExtension( 'MOZ_WEBGL_compressed_texture_s3tc' ) || gl.getExtension( 'WEBKIT_WEBGL_compressed_texture_s3tc' ); + break; + + case 'WEBGL_compressed_texture_pvrtc': + extension = gl.getExtension( 'WEBGL_compressed_texture_pvrtc' ) || gl.getExtension( 'WEBKIT_WEBGL_compressed_texture_pvrtc' ); + break; + + default: + extension = gl.getExtension( name ); + + } + + extensions[ name ] = extension; + + return extension; + + } + + return { + + has: function ( name ) { + + return getExtension( name ) !== null; + + }, + + init: function () { + + getExtension( 'EXT_color_buffer_float' ); + getExtension( 'WEBGL_clip_cull_distance' ); + getExtension( 'OES_texture_float_linear' ); + getExtension( 'EXT_color_buffer_half_float' ); + getExtension( 'WEBGL_multisampled_render_to_texture' ); + getExtension( 'WEBGL_render_shared_exponent' ); + + }, + + get: function ( name ) { + + const extension = getExtension( name ); + + if ( extension === null ) { + + warnOnce( 'THREE.WebGLRenderer: ' + name + ' extension not supported.' ); + + } + + return extension; + + } + + }; + +} + +function WebGLGeometries( gl, attributes, info, bindingStates ) { + + const geometries = {}; + const wireframeAttributes = new WeakMap(); + + function onGeometryDispose( event ) { + + const geometry = event.target; + + if ( geometry.index !== null ) { + + attributes.remove( geometry.index ); + + } + + for ( const name in geometry.attributes ) { + + attributes.remove( geometry.attributes[ name ] ); + + } + + geometry.removeEventListener( 'dispose', onGeometryDispose ); + + delete geometries[ geometry.id ]; + + const attribute = wireframeAttributes.get( geometry ); + + if ( attribute ) { + + attributes.remove( attribute ); + wireframeAttributes.delete( geometry ); + + } + + bindingStates.releaseStatesOfGeometry( geometry ); + + if ( geometry.isInstancedBufferGeometry === true ) { + + delete geometry._maxInstanceCount; + + } + + // + + info.memory.geometries --; + + } + + function get( object, geometry ) { + + if ( geometries[ geometry.id ] === true ) return geometry; + + geometry.addEventListener( 'dispose', onGeometryDispose ); + + geometries[ geometry.id ] = true; + + info.memory.geometries ++; + + return geometry; + + } + + function update( geometry ) { + + const geometryAttributes = geometry.attributes; + + // Updating index buffer in VAO now. See WebGLBindingStates. + + for ( const name in geometryAttributes ) { + + attributes.update( geometryAttributes[ name ], gl.ARRAY_BUFFER ); + + } + + } + + function updateWireframeAttribute( geometry ) { + + const indices = []; + + const geometryIndex = geometry.index; + const geometryPosition = geometry.attributes.position; + let version = 0; + + if ( geometryIndex !== null ) { + + const array = geometryIndex.array; + version = geometryIndex.version; + + for ( let i = 0, l = array.length; i < l; i += 3 ) { + + const a = array[ i + 0 ]; + const b = array[ i + 1 ]; + const c = array[ i + 2 ]; + + indices.push( a, b, b, c, c, a ); + + } + + } else if ( geometryPosition !== undefined ) { + + const array = geometryPosition.array; + version = geometryPosition.version; + + for ( let i = 0, l = ( array.length / 3 ) - 1; i < l; i += 3 ) { + + const a = i + 0; + const b = i + 1; + const c = i + 2; + + indices.push( a, b, b, c, c, a ); + + } + + } else { + + return; + + } + + const attribute = new ( arrayNeedsUint32( indices ) ? Uint32BufferAttribute : Uint16BufferAttribute )( indices, 1 ); + attribute.version = version; + + // Updating index buffer in VAO now. See WebGLBindingStates + + // + + const previousAttribute = wireframeAttributes.get( geometry ); + + if ( previousAttribute ) attributes.remove( previousAttribute ); + + // + + wireframeAttributes.set( geometry, attribute ); + + } + + function getWireframeAttribute( geometry ) { + + const currentAttribute = wireframeAttributes.get( geometry ); + + if ( currentAttribute ) { + + const geometryIndex = geometry.index; + + if ( geometryIndex !== null ) { + + // if the attribute is obsolete, create a new one + + if ( currentAttribute.version < geometryIndex.version ) { + + updateWireframeAttribute( geometry ); + + } + + } + + } else { + + updateWireframeAttribute( geometry ); + + } + + return wireframeAttributes.get( geometry ); + + } + + return { + + get: get, + update: update, + + getWireframeAttribute: getWireframeAttribute + + }; + +} + +function WebGLIndexedBufferRenderer( gl, extensions, info ) { + + let mode; + + function setMode( value ) { + + mode = value; + + } + + let type, bytesPerElement; + + function setIndex( value ) { + + type = value.type; + bytesPerElement = value.bytesPerElement; + + } + + function render( start, count ) { + + gl.drawElements( mode, count, type, start * bytesPerElement ); + + info.update( count, mode, 1 ); + + } + + function renderInstances( start, count, primcount ) { + + if ( primcount === 0 ) return; + + gl.drawElementsInstanced( mode, count, type, start * bytesPerElement, primcount ); + + info.update( count, mode, primcount ); + + } + + function renderMultiDraw( starts, counts, drawCount ) { + + if ( drawCount === 0 ) return; + + const extension = extensions.get( 'WEBGL_multi_draw' ); + extension.multiDrawElementsWEBGL( mode, counts, 0, type, starts, 0, drawCount ); + + let elementCount = 0; + for ( let i = 0; i < drawCount; i ++ ) { + + elementCount += counts[ i ]; + + } + + info.update( elementCount, mode, 1 ); + + + } + + function renderMultiDrawInstances( starts, counts, drawCount, primcount ) { + + if ( drawCount === 0 ) return; + + const extension = extensions.get( 'WEBGL_multi_draw' ); + + if ( extension === null ) { + + for ( let i = 0; i < starts.length; i ++ ) { + + renderInstances( starts[ i ] / bytesPerElement, counts[ i ], primcount[ i ] ); + + } + + } else { + + extension.multiDrawElementsInstancedWEBGL( mode, counts, 0, type, starts, 0, primcount, 0, drawCount ); + + let elementCount = 0; + for ( let i = 0; i < drawCount; i ++ ) { + + elementCount += counts[ i ] * primcount[ i ]; + + } + + info.update( elementCount, mode, 1 ); + + } + + } + + // + + this.setMode = setMode; + this.setIndex = setIndex; + this.render = render; + this.renderInstances = renderInstances; + this.renderMultiDraw = renderMultiDraw; + this.renderMultiDrawInstances = renderMultiDrawInstances; + +} + +function WebGLInfo( gl ) { + + const memory = { + geometries: 0, + textures: 0 + }; + + const render = { + frame: 0, + calls: 0, + triangles: 0, + points: 0, + lines: 0 + }; + + function update( count, mode, instanceCount ) { + + render.calls ++; + + switch ( mode ) { + + case gl.TRIANGLES: + render.triangles += instanceCount * ( count / 3 ); + break; + + case gl.LINES: + render.lines += instanceCount * ( count / 2 ); + break; + + case gl.LINE_STRIP: + render.lines += instanceCount * ( count - 1 ); + break; + + case gl.LINE_LOOP: + render.lines += instanceCount * count; + break; + + case gl.POINTS: + render.points += instanceCount * count; + break; + + default: + console.error( 'THREE.WebGLInfo: Unknown draw mode:', mode ); + break; + + } + + } + + function reset() { + + render.calls = 0; + render.triangles = 0; + render.points = 0; + render.lines = 0; + + } + + return { + memory: memory, + render: render, + programs: null, + autoReset: true, + reset: reset, + update: update + }; + +} + +function WebGLMorphtargets( gl, capabilities, textures ) { + + const morphTextures = new WeakMap(); + const morph = new Vector4(); + + function update( object, geometry, program ) { + + const objectInfluences = object.morphTargetInfluences; + + // the following encodes morph targets into an array of data textures. Each layer represents a single morph target. + + const morphAttribute = geometry.morphAttributes.position || geometry.morphAttributes.normal || geometry.morphAttributes.color; + const morphTargetsCount = ( morphAttribute !== undefined ) ? morphAttribute.length : 0; + + let entry = morphTextures.get( geometry ); + + if ( entry === undefined || entry.count !== morphTargetsCount ) { + + if ( entry !== undefined ) entry.texture.dispose(); + + const hasMorphPosition = geometry.morphAttributes.position !== undefined; + const hasMorphNormals = geometry.morphAttributes.normal !== undefined; + const hasMorphColors = geometry.morphAttributes.color !== undefined; + + const morphTargets = geometry.morphAttributes.position || []; + const morphNormals = geometry.morphAttributes.normal || []; + const morphColors = geometry.morphAttributes.color || []; + + let vertexDataCount = 0; + + if ( hasMorphPosition === true ) vertexDataCount = 1; + if ( hasMorphNormals === true ) vertexDataCount = 2; + if ( hasMorphColors === true ) vertexDataCount = 3; + + let width = geometry.attributes.position.count * vertexDataCount; + let height = 1; + + if ( width > capabilities.maxTextureSize ) { + + height = Math.ceil( width / capabilities.maxTextureSize ); + width = capabilities.maxTextureSize; + + } + + const buffer = new Float32Array( width * height * 4 * morphTargetsCount ); + + const texture = new DataArrayTexture( buffer, width, height, morphTargetsCount ); + texture.type = FloatType; + texture.needsUpdate = true; + + // fill buffer + + const vertexDataStride = vertexDataCount * 4; + + for ( let i = 0; i < morphTargetsCount; i ++ ) { + + const morphTarget = morphTargets[ i ]; + const morphNormal = morphNormals[ i ]; + const morphColor = morphColors[ i ]; + + const offset = width * height * 4 * i; + + for ( let j = 0; j < morphTarget.count; j ++ ) { + + const stride = j * vertexDataStride; + + if ( hasMorphPosition === true ) { + + morph.fromBufferAttribute( morphTarget, j ); + + buffer[ offset + stride + 0 ] = morph.x; + buffer[ offset + stride + 1 ] = morph.y; + buffer[ offset + stride + 2 ] = morph.z; + buffer[ offset + stride + 3 ] = 0; + + } + + if ( hasMorphNormals === true ) { + + morph.fromBufferAttribute( morphNormal, j ); + + buffer[ offset + stride + 4 ] = morph.x; + buffer[ offset + stride + 5 ] = morph.y; + buffer[ offset + stride + 6 ] = morph.z; + buffer[ offset + stride + 7 ] = 0; + + } + + if ( hasMorphColors === true ) { + + morph.fromBufferAttribute( morphColor, j ); + + buffer[ offset + stride + 8 ] = morph.x; + buffer[ offset + stride + 9 ] = morph.y; + buffer[ offset + stride + 10 ] = morph.z; + buffer[ offset + stride + 11 ] = ( morphColor.itemSize === 4 ) ? morph.w : 1; + + } + + } + + } + + entry = { + count: morphTargetsCount, + texture: texture, + size: new Vector2( width, height ) + }; + + morphTextures.set( geometry, entry ); + + function disposeTexture() { + + texture.dispose(); + + morphTextures.delete( geometry ); + + geometry.removeEventListener( 'dispose', disposeTexture ); + + } + + geometry.addEventListener( 'dispose', disposeTexture ); + + } + + // + if ( object.isInstancedMesh === true && object.morphTexture !== null ) { + + program.getUniforms().setValue( gl, 'morphTexture', object.morphTexture, textures ); + + } else { + + let morphInfluencesSum = 0; + + for ( let i = 0; i < objectInfluences.length; i ++ ) { + + morphInfluencesSum += objectInfluences[ i ]; + + } + + const morphBaseInfluence = geometry.morphTargetsRelative ? 1 : 1 - morphInfluencesSum; + + + program.getUniforms().setValue( gl, 'morphTargetBaseInfluence', morphBaseInfluence ); + program.getUniforms().setValue( gl, 'morphTargetInfluences', objectInfluences ); + + } + + program.getUniforms().setValue( gl, 'morphTargetsTexture', entry.texture, textures ); + program.getUniforms().setValue( gl, 'morphTargetsTextureSize', entry.size ); + + } + + return { + + update: update + + }; + +} + +function WebGLObjects( gl, geometries, attributes, info ) { + + let updateMap = new WeakMap(); + + function update( object ) { + + const frame = info.render.frame; + + const geometry = object.geometry; + const buffergeometry = geometries.get( object, geometry ); + + // Update once per frame + + if ( updateMap.get( buffergeometry ) !== frame ) { + + geometries.update( buffergeometry ); + + updateMap.set( buffergeometry, frame ); + + } + + if ( object.isInstancedMesh ) { + + if ( object.hasEventListener( 'dispose', onInstancedMeshDispose ) === false ) { + + object.addEventListener( 'dispose', onInstancedMeshDispose ); + + } + + if ( updateMap.get( object ) !== frame ) { + + attributes.update( object.instanceMatrix, gl.ARRAY_BUFFER ); + + if ( object.instanceColor !== null ) { + + attributes.update( object.instanceColor, gl.ARRAY_BUFFER ); + + } + + updateMap.set( object, frame ); + + } + + } + + if ( object.isSkinnedMesh ) { + + const skeleton = object.skeleton; + + if ( updateMap.get( skeleton ) !== frame ) { + + skeleton.update(); + + updateMap.set( skeleton, frame ); + + } + + } + + return buffergeometry; + + } + + function dispose() { + + updateMap = new WeakMap(); + + } + + function onInstancedMeshDispose( event ) { + + const instancedMesh = event.target; + + instancedMesh.removeEventListener( 'dispose', onInstancedMeshDispose ); + + attributes.remove( instancedMesh.instanceMatrix ); + + if ( instancedMesh.instanceColor !== null ) attributes.remove( instancedMesh.instanceColor ); + + } + + return { + + update: update, + dispose: dispose + + }; + +} + +/** + * Uniforms of a program. + * Those form a tree structure with a special top-level container for the root, + * which you get by calling 'new WebGLUniforms( gl, program )'. + * + * + * Properties of inner nodes including the top-level container: + * + * .seq - array of nested uniforms + * .map - nested uniforms by name + * + * + * Methods of all nodes except the top-level container: + * + * .setValue( gl, value, [textures] ) + * + * uploads a uniform value(s) + * the 'textures' parameter is needed for sampler uniforms + * + * + * Static methods of the top-level container (textures factorizations): + * + * .upload( gl, seq, values, textures ) + * + * sets uniforms in 'seq' to 'values[id].value' + * + * .seqWithValue( seq, values ) : filteredSeq + * + * filters 'seq' entries with corresponding entry in values + * + * + * Methods of the top-level container (textures factorizations): + * + * .setValue( gl, name, value, textures ) + * + * sets uniform with name 'name' to 'value' + * + * .setOptional( gl, obj, prop ) + * + * like .set for an optional property of the object + * + */ + + +const emptyTexture = /*@__PURE__*/ new Texture$1(); + +const emptyShadowTexture = /*@__PURE__*/ new DepthTexture( 1, 1 ); + +const emptyArrayTexture = /*@__PURE__*/ new DataArrayTexture(); +const empty3dTexture = /*@__PURE__*/ new Data3DTexture(); +const emptyCubeTexture = /*@__PURE__*/ new CubeTexture(); + +// --- Utilities --- + +// Array Caches (provide typed arrays for temporary by size) + +const arrayCacheF32 = []; +const arrayCacheI32 = []; + +// Float32Array caches used for uploading Matrix uniforms + +const mat4array = new Float32Array( 16 ); +const mat3array = new Float32Array( 9 ); +const mat2array = new Float32Array( 4 ); + +// Flattening for arrays of vectors and matrices + +function flatten( array, nBlocks, blockSize ) { + + const firstElem = array[ 0 ]; + + if ( firstElem <= 0 || firstElem > 0 ) return array; + // unoptimized: ! isNaN( firstElem ) + // see http://jacksondunstan.com/articles/983 + + const n = nBlocks * blockSize; + let r = arrayCacheF32[ n ]; + + if ( r === undefined ) { + + r = new Float32Array( n ); + arrayCacheF32[ n ] = r; + + } + + if ( nBlocks !== 0 ) { + + firstElem.toArray( r, 0 ); + + for ( let i = 1, offset = 0; i !== nBlocks; ++ i ) { + + offset += blockSize; + array[ i ].toArray( r, offset ); + + } + + } + + return r; + +} + +function arraysEqual( a, b ) { + + if ( a.length !== b.length ) return false; + + for ( let i = 0, l = a.length; i < l; i ++ ) { + + if ( a[ i ] !== b[ i ] ) return false; + + } + + return true; + +} + +function copyArray( a, b ) { + + for ( let i = 0, l = b.length; i < l; i ++ ) { + + a[ i ] = b[ i ]; + + } + +} + +// Texture unit allocation + +function allocTexUnits( textures, n ) { + + let r = arrayCacheI32[ n ]; + + if ( r === undefined ) { + + r = new Int32Array( n ); + arrayCacheI32[ n ] = r; + + } + + for ( let i = 0; i !== n; ++ i ) { + + r[ i ] = textures.allocateTextureUnit(); + + } + + return r; + +} + +// --- Setters --- + +// Note: Defining these methods externally, because they come in a bunch +// and this way their names minify. + +// Single scalar + +function setValueV1f( gl, v ) { + + const cache = this.cache; + + if ( cache[ 0 ] === v ) return; + + gl.uniform1f( this.addr, v ); + + cache[ 0 ] = v; + +} + +// Single float vector (from flat array or THREE.VectorN) + +function setValueV2f( gl, v ) { + + const cache = this.cache; + + if ( v.x !== undefined ) { + + if ( cache[ 0 ] !== v.x || cache[ 1 ] !== v.y ) { + + gl.uniform2f( this.addr, v.x, v.y ); + + cache[ 0 ] = v.x; + cache[ 1 ] = v.y; + + } + + } else { + + if ( arraysEqual( cache, v ) ) return; + + gl.uniform2fv( this.addr, v ); + + copyArray( cache, v ); + + } + +} + +function setValueV3f( gl, v ) { + + const cache = this.cache; + + if ( v.x !== undefined ) { + + if ( cache[ 0 ] !== v.x || cache[ 1 ] !== v.y || cache[ 2 ] !== v.z ) { + + gl.uniform3f( this.addr, v.x, v.y, v.z ); + + cache[ 0 ] = v.x; + cache[ 1 ] = v.y; + cache[ 2 ] = v.z; + + } + + } else if ( v.r !== undefined ) { + + if ( cache[ 0 ] !== v.r || cache[ 1 ] !== v.g || cache[ 2 ] !== v.b ) { + + gl.uniform3f( this.addr, v.r, v.g, v.b ); + + cache[ 0 ] = v.r; + cache[ 1 ] = v.g; + cache[ 2 ] = v.b; + + } + + } else { + + if ( arraysEqual( cache, v ) ) return; + + gl.uniform3fv( this.addr, v ); + + copyArray( cache, v ); + + } + +} + +function setValueV4f( gl, v ) { + + const cache = this.cache; + + if ( v.x !== undefined ) { + + if ( cache[ 0 ] !== v.x || cache[ 1 ] !== v.y || cache[ 2 ] !== v.z || cache[ 3 ] !== v.w ) { + + gl.uniform4f( this.addr, v.x, v.y, v.z, v.w ); + + cache[ 0 ] = v.x; + cache[ 1 ] = v.y; + cache[ 2 ] = v.z; + cache[ 3 ] = v.w; + + } + + } else { + + if ( arraysEqual( cache, v ) ) return; + + gl.uniform4fv( this.addr, v ); + + copyArray( cache, v ); + + } + +} + +// Single matrix (from flat array or THREE.MatrixN) + +function setValueM2( gl, v ) { + + const cache = this.cache; + const elements = v.elements; + + if ( elements === undefined ) { + + if ( arraysEqual( cache, v ) ) return; + + gl.uniformMatrix2fv( this.addr, false, v ); + + copyArray( cache, v ); + + } else { + + if ( arraysEqual( cache, elements ) ) return; + + mat2array.set( elements ); + + gl.uniformMatrix2fv( this.addr, false, mat2array ); + + copyArray( cache, elements ); + + } + +} + +function setValueM3( gl, v ) { + + const cache = this.cache; + const elements = v.elements; + + if ( elements === undefined ) { + + if ( arraysEqual( cache, v ) ) return; + + gl.uniformMatrix3fv( this.addr, false, v ); + + copyArray( cache, v ); + + } else { + + if ( arraysEqual( cache, elements ) ) return; + + mat3array.set( elements ); + + gl.uniformMatrix3fv( this.addr, false, mat3array ); + + copyArray( cache, elements ); + + } + +} + +function setValueM4( gl, v ) { + + const cache = this.cache; + const elements = v.elements; + + if ( elements === undefined ) { + + if ( arraysEqual( cache, v ) ) return; + + gl.uniformMatrix4fv( this.addr, false, v ); + + copyArray( cache, v ); + + } else { + + if ( arraysEqual( cache, elements ) ) return; + + mat4array.set( elements ); + + gl.uniformMatrix4fv( this.addr, false, mat4array ); + + copyArray( cache, elements ); + + } + +} + +// Single integer / boolean + +function setValueV1i( gl, v ) { + + const cache = this.cache; + + if ( cache[ 0 ] === v ) return; + + gl.uniform1i( this.addr, v ); + + cache[ 0 ] = v; + +} + +// Single integer / boolean vector (from flat array or THREE.VectorN) + +function setValueV2i( gl, v ) { + + const cache = this.cache; + + if ( v.x !== undefined ) { + + if ( cache[ 0 ] !== v.x || cache[ 1 ] !== v.y ) { + + gl.uniform2i( this.addr, v.x, v.y ); + + cache[ 0 ] = v.x; + cache[ 1 ] = v.y; + + } + + } else { + + if ( arraysEqual( cache, v ) ) return; + + gl.uniform2iv( this.addr, v ); + + copyArray( cache, v ); + + } + +} + +function setValueV3i( gl, v ) { + + const cache = this.cache; + + if ( v.x !== undefined ) { + + if ( cache[ 0 ] !== v.x || cache[ 1 ] !== v.y || cache[ 2 ] !== v.z ) { + + gl.uniform3i( this.addr, v.x, v.y, v.z ); + + cache[ 0 ] = v.x; + cache[ 1 ] = v.y; + cache[ 2 ] = v.z; + + } + + } else { + + if ( arraysEqual( cache, v ) ) return; + + gl.uniform3iv( this.addr, v ); + + copyArray( cache, v ); + + } + +} + +function setValueV4i( gl, v ) { + + const cache = this.cache; + + if ( v.x !== undefined ) { + + if ( cache[ 0 ] !== v.x || cache[ 1 ] !== v.y || cache[ 2 ] !== v.z || cache[ 3 ] !== v.w ) { + + gl.uniform4i( this.addr, v.x, v.y, v.z, v.w ); + + cache[ 0 ] = v.x; + cache[ 1 ] = v.y; + cache[ 2 ] = v.z; + cache[ 3 ] = v.w; + + } + + } else { + + if ( arraysEqual( cache, v ) ) return; + + gl.uniform4iv( this.addr, v ); + + copyArray( cache, v ); + + } + +} + +// Single unsigned integer + +function setValueV1ui( gl, v ) { + + const cache = this.cache; + + if ( cache[ 0 ] === v ) return; + + gl.uniform1ui( this.addr, v ); + + cache[ 0 ] = v; + +} + +// Single unsigned integer vector (from flat array or THREE.VectorN) + +function setValueV2ui( gl, v ) { + + const cache = this.cache; + + if ( v.x !== undefined ) { + + if ( cache[ 0 ] !== v.x || cache[ 1 ] !== v.y ) { + + gl.uniform2ui( this.addr, v.x, v.y ); + + cache[ 0 ] = v.x; + cache[ 1 ] = v.y; + + } + + } else { + + if ( arraysEqual( cache, v ) ) return; + + gl.uniform2uiv( this.addr, v ); + + copyArray( cache, v ); + + } + +} + +function setValueV3ui( gl, v ) { + + const cache = this.cache; + + if ( v.x !== undefined ) { + + if ( cache[ 0 ] !== v.x || cache[ 1 ] !== v.y || cache[ 2 ] !== v.z ) { + + gl.uniform3ui( this.addr, v.x, v.y, v.z ); + + cache[ 0 ] = v.x; + cache[ 1 ] = v.y; + cache[ 2 ] = v.z; + + } + + } else { + + if ( arraysEqual( cache, v ) ) return; + + gl.uniform3uiv( this.addr, v ); + + copyArray( cache, v ); + + } + +} + +function setValueV4ui( gl, v ) { + + const cache = this.cache; + + if ( v.x !== undefined ) { + + if ( cache[ 0 ] !== v.x || cache[ 1 ] !== v.y || cache[ 2 ] !== v.z || cache[ 3 ] !== v.w ) { + + gl.uniform4ui( this.addr, v.x, v.y, v.z, v.w ); + + cache[ 0 ] = v.x; + cache[ 1 ] = v.y; + cache[ 2 ] = v.z; + cache[ 3 ] = v.w; + + } + + } else { + + if ( arraysEqual( cache, v ) ) return; + + gl.uniform4uiv( this.addr, v ); + + copyArray( cache, v ); + + } + +} + + +// Single texture (2D / Cube) + +function setValueT1( gl, v, textures ) { + + const cache = this.cache; + const unit = textures.allocateTextureUnit(); + + if ( cache[ 0 ] !== unit ) { + + gl.uniform1i( this.addr, unit ); + cache[ 0 ] = unit; + + } + + let emptyTexture2D; + + if ( this.type === gl.SAMPLER_2D_SHADOW ) { + + emptyShadowTexture.compareFunction = LessEqualCompare; // #28670 + emptyTexture2D = emptyShadowTexture; + + } else { + + emptyTexture2D = emptyTexture; + + } + + textures.setTexture2D( v || emptyTexture2D, unit ); + +} + +function setValueT3D1( gl, v, textures ) { + + const cache = this.cache; + const unit = textures.allocateTextureUnit(); + + if ( cache[ 0 ] !== unit ) { + + gl.uniform1i( this.addr, unit ); + cache[ 0 ] = unit; + + } + + textures.setTexture3D( v || empty3dTexture, unit ); + +} + +function setValueT6( gl, v, textures ) { + + const cache = this.cache; + const unit = textures.allocateTextureUnit(); + + if ( cache[ 0 ] !== unit ) { + + gl.uniform1i( this.addr, unit ); + cache[ 0 ] = unit; + + } + + textures.setTextureCube( v || emptyCubeTexture, unit ); + +} + +function setValueT2DArray1( gl, v, textures ) { + + const cache = this.cache; + const unit = textures.allocateTextureUnit(); + + if ( cache[ 0 ] !== unit ) { + + gl.uniform1i( this.addr, unit ); + cache[ 0 ] = unit; + + } + + textures.setTexture2DArray( v || emptyArrayTexture, unit ); + +} + +// Helper to pick the right setter for the singular case + +function getSingularSetter( type ) { + + switch ( type ) { + + case 0x1406: return setValueV1f; // FLOAT + case 0x8b50: return setValueV2f; // _VEC2 + case 0x8b51: return setValueV3f; // _VEC3 + case 0x8b52: return setValueV4f; // _VEC4 + + case 0x8b5a: return setValueM2; // _MAT2 + case 0x8b5b: return setValueM3; // _MAT3 + case 0x8b5c: return setValueM4; // _MAT4 + + case 0x1404: case 0x8b56: return setValueV1i; // INT, BOOL + case 0x8b53: case 0x8b57: return setValueV2i; // _VEC2 + case 0x8b54: case 0x8b58: return setValueV3i; // _VEC3 + case 0x8b55: case 0x8b59: return setValueV4i; // _VEC4 + + case 0x1405: return setValueV1ui; // UINT + case 0x8dc6: return setValueV2ui; // _VEC2 + case 0x8dc7: return setValueV3ui; // _VEC3 + case 0x8dc8: return setValueV4ui; // _VEC4 + + case 0x8b5e: // SAMPLER_2D + case 0x8d66: // SAMPLER_EXTERNAL_OES + case 0x8dca: // INT_SAMPLER_2D + case 0x8dd2: // UNSIGNED_INT_SAMPLER_2D + case 0x8b62: // SAMPLER_2D_SHADOW + return setValueT1; + + case 0x8b5f: // SAMPLER_3D + case 0x8dcb: // INT_SAMPLER_3D + case 0x8dd3: // UNSIGNED_INT_SAMPLER_3D + return setValueT3D1; + + case 0x8b60: // SAMPLER_CUBE + case 0x8dcc: // INT_SAMPLER_CUBE + case 0x8dd4: // UNSIGNED_INT_SAMPLER_CUBE + case 0x8dc5: // SAMPLER_CUBE_SHADOW + return setValueT6; + + case 0x8dc1: // SAMPLER_2D_ARRAY + case 0x8dcf: // INT_SAMPLER_2D_ARRAY + case 0x8dd7: // UNSIGNED_INT_SAMPLER_2D_ARRAY + case 0x8dc4: // SAMPLER_2D_ARRAY_SHADOW + return setValueT2DArray1; + + } + +} + + +// Array of scalars + +function setValueV1fArray( gl, v ) { + + gl.uniform1fv( this.addr, v ); + +} + +// Array of vectors (from flat array or array of THREE.VectorN) + +function setValueV2fArray( gl, v ) { + + const data = flatten( v, this.size, 2 ); + + gl.uniform2fv( this.addr, data ); + +} + +function setValueV3fArray( gl, v ) { + + const data = flatten( v, this.size, 3 ); + + gl.uniform3fv( this.addr, data ); + +} + +function setValueV4fArray( gl, v ) { + + const data = flatten( v, this.size, 4 ); + + gl.uniform4fv( this.addr, data ); + +} + +// Array of matrices (from flat array or array of THREE.MatrixN) + +function setValueM2Array( gl, v ) { + + const data = flatten( v, this.size, 4 ); + + gl.uniformMatrix2fv( this.addr, false, data ); + +} + +function setValueM3Array( gl, v ) { + + const data = flatten( v, this.size, 9 ); + + gl.uniformMatrix3fv( this.addr, false, data ); + +} + +function setValueM4Array( gl, v ) { + + const data = flatten( v, this.size, 16 ); + + gl.uniformMatrix4fv( this.addr, false, data ); + +} + +// Array of integer / boolean + +function setValueV1iArray( gl, v ) { + + gl.uniform1iv( this.addr, v ); + +} + +// Array of integer / boolean vectors (from flat array) + +function setValueV2iArray( gl, v ) { + + gl.uniform2iv( this.addr, v ); + +} + +function setValueV3iArray( gl, v ) { + + gl.uniform3iv( this.addr, v ); + +} + +function setValueV4iArray( gl, v ) { + + gl.uniform4iv( this.addr, v ); + +} + +// Array of unsigned integer + +function setValueV1uiArray( gl, v ) { + + gl.uniform1uiv( this.addr, v ); + +} + +// Array of unsigned integer vectors (from flat array) + +function setValueV2uiArray( gl, v ) { + + gl.uniform2uiv( this.addr, v ); + +} + +function setValueV3uiArray( gl, v ) { + + gl.uniform3uiv( this.addr, v ); + +} + +function setValueV4uiArray( gl, v ) { + + gl.uniform4uiv( this.addr, v ); + +} + + +// Array of textures (2D / 3D / Cube / 2DArray) + +function setValueT1Array( gl, v, textures ) { + + const cache = this.cache; + + const n = v.length; + + const units = allocTexUnits( textures, n ); + + if ( ! arraysEqual( cache, units ) ) { + + gl.uniform1iv( this.addr, units ); + + copyArray( cache, units ); + + } + + for ( let i = 0; i !== n; ++ i ) { + + textures.setTexture2D( v[ i ] || emptyTexture, units[ i ] ); + + } + +} + +function setValueT3DArray( gl, v, textures ) { + + const cache = this.cache; + + const n = v.length; + + const units = allocTexUnits( textures, n ); + + if ( ! arraysEqual( cache, units ) ) { + + gl.uniform1iv( this.addr, units ); + + copyArray( cache, units ); + + } + + for ( let i = 0; i !== n; ++ i ) { + + textures.setTexture3D( v[ i ] || empty3dTexture, units[ i ] ); + + } + +} + +function setValueT6Array( gl, v, textures ) { + + const cache = this.cache; + + const n = v.length; + + const units = allocTexUnits( textures, n ); + + if ( ! arraysEqual( cache, units ) ) { + + gl.uniform1iv( this.addr, units ); + + copyArray( cache, units ); + + } + + for ( let i = 0; i !== n; ++ i ) { + + textures.setTextureCube( v[ i ] || emptyCubeTexture, units[ i ] ); + + } + +} + +function setValueT2DArrayArray( gl, v, textures ) { + + const cache = this.cache; + + const n = v.length; + + const units = allocTexUnits( textures, n ); + + if ( ! arraysEqual( cache, units ) ) { + + gl.uniform1iv( this.addr, units ); + + copyArray( cache, units ); + + } + + for ( let i = 0; i !== n; ++ i ) { + + textures.setTexture2DArray( v[ i ] || emptyArrayTexture, units[ i ] ); + + } + +} + + +// Helper to pick the right setter for a pure (bottom-level) array + +function getPureArraySetter( type ) { + + switch ( type ) { + + case 0x1406: return setValueV1fArray; // FLOAT + case 0x8b50: return setValueV2fArray; // _VEC2 + case 0x8b51: return setValueV3fArray; // _VEC3 + case 0x8b52: return setValueV4fArray; // _VEC4 + + case 0x8b5a: return setValueM2Array; // _MAT2 + case 0x8b5b: return setValueM3Array; // _MAT3 + case 0x8b5c: return setValueM4Array; // _MAT4 + + case 0x1404: case 0x8b56: return setValueV1iArray; // INT, BOOL + case 0x8b53: case 0x8b57: return setValueV2iArray; // _VEC2 + case 0x8b54: case 0x8b58: return setValueV3iArray; // _VEC3 + case 0x8b55: case 0x8b59: return setValueV4iArray; // _VEC4 + + case 0x1405: return setValueV1uiArray; // UINT + case 0x8dc6: return setValueV2uiArray; // _VEC2 + case 0x8dc7: return setValueV3uiArray; // _VEC3 + case 0x8dc8: return setValueV4uiArray; // _VEC4 + + case 0x8b5e: // SAMPLER_2D + case 0x8d66: // SAMPLER_EXTERNAL_OES + case 0x8dca: // INT_SAMPLER_2D + case 0x8dd2: // UNSIGNED_INT_SAMPLER_2D + case 0x8b62: // SAMPLER_2D_SHADOW + return setValueT1Array; + + case 0x8b5f: // SAMPLER_3D + case 0x8dcb: // INT_SAMPLER_3D + case 0x8dd3: // UNSIGNED_INT_SAMPLER_3D + return setValueT3DArray; + + case 0x8b60: // SAMPLER_CUBE + case 0x8dcc: // INT_SAMPLER_CUBE + case 0x8dd4: // UNSIGNED_INT_SAMPLER_CUBE + case 0x8dc5: // SAMPLER_CUBE_SHADOW + return setValueT6Array; + + case 0x8dc1: // SAMPLER_2D_ARRAY + case 0x8dcf: // INT_SAMPLER_2D_ARRAY + case 0x8dd7: // UNSIGNED_INT_SAMPLER_2D_ARRAY + case 0x8dc4: // SAMPLER_2D_ARRAY_SHADOW + return setValueT2DArrayArray; + + } + +} + +// --- Uniform Classes --- + +class SingleUniform { + + constructor( id, activeInfo, addr ) { + + this.id = id; + this.addr = addr; + this.cache = []; + this.type = activeInfo.type; + this.setValue = getSingularSetter( activeInfo.type ); + + // this.path = activeInfo.name; // DEBUG + + } + +} + +class PureArrayUniform { + + constructor( id, activeInfo, addr ) { + + this.id = id; + this.addr = addr; + this.cache = []; + this.type = activeInfo.type; + this.size = activeInfo.size; + this.setValue = getPureArraySetter( activeInfo.type ); + + // this.path = activeInfo.name; // DEBUG + + } + +} + +class StructuredUniform { + + constructor( id ) { + + this.id = id; + + this.seq = []; + this.map = {}; + + } + + setValue( gl, value, textures ) { + + const seq = this.seq; + + for ( let i = 0, n = seq.length; i !== n; ++ i ) { + + const u = seq[ i ]; + u.setValue( gl, value[ u.id ], textures ); + + } + + } + +} + +// --- Top-level --- + +// Parser - builds up the property tree from the path strings + +const RePathPart = /(\w+)(\])?(\[|\.)?/g; + +// extracts +// - the identifier (member name or array index) +// - followed by an optional right bracket (found when array index) +// - followed by an optional left bracket or dot (type of subscript) +// +// Note: These portions can be read in a non-overlapping fashion and +// allow straightforward parsing of the hierarchy that WebGL encodes +// in the uniform names. + +function addUniform( container, uniformObject ) { + + container.seq.push( uniformObject ); + container.map[ uniformObject.id ] = uniformObject; + +} + +function parseUniform( activeInfo, addr, container ) { + + const path = activeInfo.name, + pathLength = path.length; + + // reset RegExp object, because of the early exit of a previous run + RePathPart.lastIndex = 0; + + while ( true ) { + + const match = RePathPart.exec( path ), + matchEnd = RePathPart.lastIndex; + + let id = match[ 1 ]; + const idIsIndex = match[ 2 ] === ']', + subscript = match[ 3 ]; + + if ( idIsIndex ) id = id | 0; // convert to integer + + if ( subscript === undefined || subscript === '[' && matchEnd + 2 === pathLength ) { + + // bare name or "pure" bottom-level array "[0]" suffix + + addUniform( container, subscript === undefined ? + new SingleUniform( id, activeInfo, addr ) : + new PureArrayUniform( id, activeInfo, addr ) ); + + break; + + } else { + + // step into inner node / create it in case it doesn't exist + + const map = container.map; + let next = map[ id ]; + + if ( next === undefined ) { + + next = new StructuredUniform( id ); + addUniform( container, next ); + + } + + container = next; + + } + + } + +} + +// Root Container + +class WebGLUniforms { + + constructor( gl, program ) { + + this.seq = []; + this.map = {}; + + const n = gl.getProgramParameter( program, gl.ACTIVE_UNIFORMS ); + + for ( let i = 0; i < n; ++ i ) { + + const info = gl.getActiveUniform( program, i ), + addr = gl.getUniformLocation( program, info.name ); + + parseUniform( info, addr, this ); + + } + + } + + setValue( gl, name, value, textures ) { + + const u = this.map[ name ]; + + if ( u !== undefined ) u.setValue( gl, value, textures ); + + } + + setOptional( gl, object, name ) { + + const v = object[ name ]; + + if ( v !== undefined ) this.setValue( gl, name, v ); + + } + + static upload( gl, seq, values, textures ) { + + for ( let i = 0, n = seq.length; i !== n; ++ i ) { + + const u = seq[ i ], + v = values[ u.id ]; + + if ( v.needsUpdate !== false ) { + + // note: always updating when .needsUpdate is undefined + u.setValue( gl, v.value, textures ); + + } + + } + + } + + static seqWithValue( seq, values ) { + + const r = []; + + for ( let i = 0, n = seq.length; i !== n; ++ i ) { + + const u = seq[ i ]; + if ( u.id in values ) r.push( u ); + + } + + return r; + + } + +} + +function WebGLShader( gl, type, string ) { + + const shader = gl.createShader( type ); + + gl.shaderSource( shader, string ); + gl.compileShader( shader ); + + return shader; + +} + +// From https://www.khronos.org/registry/webgl/extensions/KHR_parallel_shader_compile/ +const COMPLETION_STATUS_KHR = 0x91B1; + +let programIdCount = 0; + +function handleSource( string, errorLine ) { + + const lines = string.split( '\n' ); + const lines2 = []; + + const from = Math.max( errorLine - 6, 0 ); + const to = Math.min( errorLine + 6, lines.length ); + + for ( let i = from; i < to; i ++ ) { + + const line = i + 1; + lines2.push( `${line === errorLine ? '>' : ' '} ${line}: ${lines[ i ]}` ); + + } + + return lines2.join( '\n' ); + +} + +const _m0 = /*@__PURE__*/ new Matrix3(); + +function getEncodingComponents( colorSpace ) { + + ColorManagement._getMatrix( _m0, ColorManagement.workingColorSpace, colorSpace ); + + const encodingMatrix = `mat3( ${ _m0.elements.map( ( v ) => v.toFixed( 4 ) ) } )`; + + switch ( ColorManagement.getTransfer( colorSpace ) ) { + + case LinearTransfer: + return [ encodingMatrix, 'LinearTransferOETF' ]; + + case SRGBTransfer: + return [ encodingMatrix, 'sRGBTransferOETF' ]; + + default: + console.warn( 'THREE.WebGLProgram: Unsupported color space: ', colorSpace ); + return [ encodingMatrix, 'LinearTransferOETF' ]; + + } + +} + +function getShaderErrors( gl, shader, type ) { + + const status = gl.getShaderParameter( shader, gl.COMPILE_STATUS ); + const errors = gl.getShaderInfoLog( shader ).trim(); + + if ( status && errors === '' ) return ''; + + const errorMatches = /ERROR: 0:(\d+)/.exec( errors ); + if ( errorMatches ) { + + // --enable-privileged-webgl-extension + // console.log( '**' + type + '**', gl.getExtension( 'WEBGL_debug_shaders' ).getTranslatedShaderSource( shader ) ); + + const errorLine = parseInt( errorMatches[ 1 ] ); + return type.toUpperCase() + '\n\n' + errors + '\n\n' + handleSource( gl.getShaderSource( shader ), errorLine ); + + } else { + + return errors; + + } + +} + +function getTexelEncodingFunction( functionName, colorSpace ) { + + const components = getEncodingComponents( colorSpace ); + + return [ + + `vec4 ${functionName}( vec4 value ) {`, + + ` return ${components[ 1 ]}( vec4( value.rgb * ${components[ 0 ]}, value.a ) );`, + + '}', + + ].join( '\n' ); + +} + +function getToneMappingFunction( functionName, toneMapping ) { + + let toneMappingName; + + switch ( toneMapping ) { + + case LinearToneMapping: + toneMappingName = 'Linear'; + break; + + case ReinhardToneMapping: + toneMappingName = 'Reinhard'; + break; + + case CineonToneMapping: + toneMappingName = 'Cineon'; + break; + + case ACESFilmicToneMapping: + toneMappingName = 'ACESFilmic'; + break; + + case AgXToneMapping: + toneMappingName = 'AgX'; + break; + + case NeutralToneMapping: + toneMappingName = 'Neutral'; + break; + + case CustomToneMapping: + toneMappingName = 'Custom'; + break; + + default: + console.warn( 'THREE.WebGLProgram: Unsupported toneMapping:', toneMapping ); + toneMappingName = 'Linear'; + + } + + return 'vec3 ' + functionName + '( vec3 color ) { return ' + toneMappingName + 'ToneMapping( color ); }'; + +} + +const _v0 = /*@__PURE__*/ new Vector3(); + +function getLuminanceFunction() { + + ColorManagement.getLuminanceCoefficients( _v0 ); + + const r = _v0.x.toFixed( 4 ); + const g = _v0.y.toFixed( 4 ); + const b = _v0.z.toFixed( 4 ); + + return [ + + 'float luminance( const in vec3 rgb ) {', + + ` const vec3 weights = vec3( ${ r }, ${ g }, ${ b } );`, + + ' return dot( weights, rgb );', + + '}' + + ].join( '\n' ); + +} + +function generateVertexExtensions( parameters ) { + + const chunks = [ + parameters.extensionClipCullDistance ? '#extension GL_ANGLE_clip_cull_distance : require' : '', + parameters.extensionMultiDraw ? '#extension GL_ANGLE_multi_draw : require' : '', + ]; + + return chunks.filter( filterEmptyLine ).join( '\n' ); + +} + +function generateDefines( defines ) { + + const chunks = []; + + for ( const name in defines ) { + + const value = defines[ name ]; + + if ( value === false ) continue; + + chunks.push( '#define ' + name + ' ' + value ); + + } + + return chunks.join( '\n' ); + +} + +function fetchAttributeLocations( gl, program ) { + + const attributes = {}; + + const n = gl.getProgramParameter( program, gl.ACTIVE_ATTRIBUTES ); + + for ( let i = 0; i < n; i ++ ) { + + const info = gl.getActiveAttrib( program, i ); + const name = info.name; + + let locationSize = 1; + if ( info.type === gl.FLOAT_MAT2 ) locationSize = 2; + if ( info.type === gl.FLOAT_MAT3 ) locationSize = 3; + if ( info.type === gl.FLOAT_MAT4 ) locationSize = 4; + + // console.log( 'THREE.WebGLProgram: ACTIVE VERTEX ATTRIBUTE:', name, i ); + + attributes[ name ] = { + type: info.type, + location: gl.getAttribLocation( program, name ), + locationSize: locationSize + }; + + } + + return attributes; + +} + +function filterEmptyLine( string ) { + + return string !== ''; + +} + +function replaceLightNums( string, parameters ) { + + const numSpotLightCoords = parameters.numSpotLightShadows + parameters.numSpotLightMaps - parameters.numSpotLightShadowsWithMaps; + + return string + .replace( /NUM_DIR_LIGHTS/g, parameters.numDirLights ) + .replace( /NUM_SPOT_LIGHTS/g, parameters.numSpotLights ) + .replace( /NUM_SPOT_LIGHT_MAPS/g, parameters.numSpotLightMaps ) + .replace( /NUM_SPOT_LIGHT_COORDS/g, numSpotLightCoords ) + .replace( /NUM_RECT_AREA_LIGHTS/g, parameters.numRectAreaLights ) + .replace( /NUM_POINT_LIGHTS/g, parameters.numPointLights ) + .replace( /NUM_HEMI_LIGHTS/g, parameters.numHemiLights ) + .replace( /NUM_DIR_LIGHT_SHADOWS/g, parameters.numDirLightShadows ) + .replace( /NUM_SPOT_LIGHT_SHADOWS_WITH_MAPS/g, parameters.numSpotLightShadowsWithMaps ) + .replace( /NUM_SPOT_LIGHT_SHADOWS/g, parameters.numSpotLightShadows ) + .replace( /NUM_POINT_LIGHT_SHADOWS/g, parameters.numPointLightShadows ); + +} + +function replaceClippingPlaneNums( string, parameters ) { + + return string + .replace( /NUM_CLIPPING_PLANES/g, parameters.numClippingPlanes ) + .replace( /UNION_CLIPPING_PLANES/g, ( parameters.numClippingPlanes - parameters.numClipIntersection ) ); + +} + +// Resolve Includes + +const includePattern = /^[ \t]*#include +<([\w\d./]+)>/gm; + +function resolveIncludes( string ) { + + return string.replace( includePattern, includeReplacer ); + +} + +const shaderChunkMap = new Map(); + +function includeReplacer( match, include ) { + + let string = ShaderChunk[ include ]; + + if ( string === undefined ) { + + const newInclude = shaderChunkMap.get( include ); + + if ( newInclude !== undefined ) { + + string = ShaderChunk[ newInclude ]; + console.warn( 'THREE.WebGLRenderer: Shader chunk "%s" has been deprecated. Use "%s" instead.', include, newInclude ); + + } else { + + throw new Error( 'Can not resolve #include <' + include + '>' ); + + } + + } + + return resolveIncludes( string ); + +} + +// Unroll Loops + +const unrollLoopPattern = /#pragma unroll_loop_start\s+for\s*\(\s*int\s+i\s*=\s*(\d+)\s*;\s*i\s*<\s*(\d+)\s*;\s*i\s*\+\+\s*\)\s*{([\s\S]+?)}\s+#pragma unroll_loop_end/g; + +function unrollLoops( string ) { + + return string.replace( unrollLoopPattern, loopReplacer ); + +} + +function loopReplacer( match, start, end, snippet ) { + + let string = ''; + + for ( let i = parseInt( start ); i < parseInt( end ); i ++ ) { + + string += snippet + .replace( /\[\s*i\s*\]/g, '[ ' + i + ' ]' ) + .replace( /UNROLLED_LOOP_INDEX/g, i ); + + } + + return string; + +} + +// + +function generatePrecision( parameters ) { + + let precisionstring = `precision ${parameters.precision} float; + precision ${parameters.precision} int; + precision ${parameters.precision} sampler2D; + precision ${parameters.precision} samplerCube; + precision ${parameters.precision} sampler3D; + precision ${parameters.precision} sampler2DArray; + precision ${parameters.precision} sampler2DShadow; + precision ${parameters.precision} samplerCubeShadow; + precision ${parameters.precision} sampler2DArrayShadow; + precision ${parameters.precision} isampler2D; + precision ${parameters.precision} isampler3D; + precision ${parameters.precision} isamplerCube; + precision ${parameters.precision} isampler2DArray; + precision ${parameters.precision} usampler2D; + precision ${parameters.precision} usampler3D; + precision ${parameters.precision} usamplerCube; + precision ${parameters.precision} usampler2DArray; + `; + + if ( parameters.precision === 'highp' ) { + + precisionstring += '\n#define HIGH_PRECISION'; + + } else if ( parameters.precision === 'mediump' ) { + + precisionstring += '\n#define MEDIUM_PRECISION'; + + } else if ( parameters.precision === 'lowp' ) { + + precisionstring += '\n#define LOW_PRECISION'; + + } + + return precisionstring; + +} + +function generateShadowMapTypeDefine( parameters ) { + + let shadowMapTypeDefine = 'SHADOWMAP_TYPE_BASIC'; + + if ( parameters.shadowMapType === PCFShadowMap ) { + + shadowMapTypeDefine = 'SHADOWMAP_TYPE_PCF'; + + } else if ( parameters.shadowMapType === PCFSoftShadowMap ) { + + shadowMapTypeDefine = 'SHADOWMAP_TYPE_PCF_SOFT'; + + } else if ( parameters.shadowMapType === VSMShadowMap ) { + + shadowMapTypeDefine = 'SHADOWMAP_TYPE_VSM'; + + } + + return shadowMapTypeDefine; + +} + +function generateEnvMapTypeDefine( parameters ) { + + let envMapTypeDefine = 'ENVMAP_TYPE_CUBE'; + + if ( parameters.envMap ) { + + switch ( parameters.envMapMode ) { + + case CubeReflectionMapping: + case CubeRefractionMapping: + envMapTypeDefine = 'ENVMAP_TYPE_CUBE'; + break; + + case CubeUVReflectionMapping: + envMapTypeDefine = 'ENVMAP_TYPE_CUBE_UV'; + break; + + } + + } + + return envMapTypeDefine; + +} + +function generateEnvMapModeDefine( parameters ) { + + let envMapModeDefine = 'ENVMAP_MODE_REFLECTION'; + + if ( parameters.envMap ) { + + switch ( parameters.envMapMode ) { + + case CubeRefractionMapping: + + envMapModeDefine = 'ENVMAP_MODE_REFRACTION'; + break; + + } + + } + + return envMapModeDefine; + +} + +function generateEnvMapBlendingDefine( parameters ) { + + let envMapBlendingDefine = 'ENVMAP_BLENDING_NONE'; + + if ( parameters.envMap ) { + + switch ( parameters.combine ) { + + case MultiplyOperation: + envMapBlendingDefine = 'ENVMAP_BLENDING_MULTIPLY'; + break; + + case MixOperation: + envMapBlendingDefine = 'ENVMAP_BLENDING_MIX'; + break; + + case AddOperation: + envMapBlendingDefine = 'ENVMAP_BLENDING_ADD'; + break; + + } + + } + + return envMapBlendingDefine; + +} + +function generateCubeUVSize( parameters ) { + + const imageHeight = parameters.envMapCubeUVHeight; + + if ( imageHeight === null ) return null; + + const maxMip = Math.log2( imageHeight ) - 2; + + const texelHeight = 1.0 / imageHeight; + + const texelWidth = 1.0 / ( 3 * Math.max( Math.pow( 2, maxMip ), 7 * 16 ) ); + + return { texelWidth, texelHeight, maxMip }; + +} + +function WebGLProgram( renderer, cacheKey, parameters, bindingStates ) { + + // TODO Send this event to Three.js DevTools + // console.log( 'WebGLProgram', cacheKey ); + + const gl = renderer.getContext(); + + const defines = parameters.defines; + + let vertexShader = parameters.vertexShader; + let fragmentShader = parameters.fragmentShader; + + const shadowMapTypeDefine = generateShadowMapTypeDefine( parameters ); + const envMapTypeDefine = generateEnvMapTypeDefine( parameters ); + const envMapModeDefine = generateEnvMapModeDefine( parameters ); + const envMapBlendingDefine = generateEnvMapBlendingDefine( parameters ); + const envMapCubeUVSize = generateCubeUVSize( parameters ); + + const customVertexExtensions = generateVertexExtensions( parameters ); + + const customDefines = generateDefines( defines ); + + const program = gl.createProgram(); + + let prefixVertex, prefixFragment; + let versionString = parameters.glslVersion ? '#version ' + parameters.glslVersion + '\n' : ''; + + if ( parameters.isRawShaderMaterial ) { + + prefixVertex = [ + + '#define SHADER_TYPE ' + parameters.shaderType, + '#define SHADER_NAME ' + parameters.shaderName, + + customDefines + + ].filter( filterEmptyLine ).join( '\n' ); + + if ( prefixVertex.length > 0 ) { + + prefixVertex += '\n'; + + } + + prefixFragment = [ + + '#define SHADER_TYPE ' + parameters.shaderType, + '#define SHADER_NAME ' + parameters.shaderName, + + customDefines + + ].filter( filterEmptyLine ).join( '\n' ); + + if ( prefixFragment.length > 0 ) { + + prefixFragment += '\n'; + + } + + } else { + + prefixVertex = [ + + generatePrecision( parameters ), + + '#define SHADER_TYPE ' + parameters.shaderType, + '#define SHADER_NAME ' + parameters.shaderName, + + customDefines, + + parameters.extensionClipCullDistance ? '#define USE_CLIP_DISTANCE' : '', + parameters.batching ? '#define USE_BATCHING' : '', + parameters.batchingColor ? '#define USE_BATCHING_COLOR' : '', + parameters.instancing ? '#define USE_INSTANCING' : '', + parameters.instancingColor ? '#define USE_INSTANCING_COLOR' : '', + parameters.instancingMorph ? '#define USE_INSTANCING_MORPH' : '', + + parameters.useFog && parameters.fog ? '#define USE_FOG' : '', + parameters.useFog && parameters.fogExp2 ? '#define FOG_EXP2' : '', + + parameters.map ? '#define USE_MAP' : '', + parameters.envMap ? '#define USE_ENVMAP' : '', + parameters.envMap ? '#define ' + envMapModeDefine : '', + parameters.lightMap ? '#define USE_LIGHTMAP' : '', + parameters.aoMap ? '#define USE_AOMAP' : '', + parameters.bumpMap ? '#define USE_BUMPMAP' : '', + parameters.normalMap ? '#define USE_NORMALMAP' : '', + parameters.normalMapObjectSpace ? '#define USE_NORMALMAP_OBJECTSPACE' : '', + parameters.normalMapTangentSpace ? '#define USE_NORMALMAP_TANGENTSPACE' : '', + parameters.displacementMap ? '#define USE_DISPLACEMENTMAP' : '', + parameters.emissiveMap ? '#define USE_EMISSIVEMAP' : '', + + parameters.anisotropy ? '#define USE_ANISOTROPY' : '', + parameters.anisotropyMap ? '#define USE_ANISOTROPYMAP' : '', + + parameters.clearcoatMap ? '#define USE_CLEARCOATMAP' : '', + parameters.clearcoatRoughnessMap ? '#define USE_CLEARCOAT_ROUGHNESSMAP' : '', + parameters.clearcoatNormalMap ? '#define USE_CLEARCOAT_NORMALMAP' : '', + + parameters.iridescenceMap ? '#define USE_IRIDESCENCEMAP' : '', + parameters.iridescenceThicknessMap ? '#define USE_IRIDESCENCE_THICKNESSMAP' : '', + + parameters.specularMap ? '#define USE_SPECULARMAP' : '', + parameters.specularColorMap ? '#define USE_SPECULAR_COLORMAP' : '', + parameters.specularIntensityMap ? '#define USE_SPECULAR_INTENSITYMAP' : '', + + parameters.roughnessMap ? '#define USE_ROUGHNESSMAP' : '', + parameters.metalnessMap ? '#define USE_METALNESSMAP' : '', + parameters.alphaMap ? '#define USE_ALPHAMAP' : '', + parameters.alphaHash ? '#define USE_ALPHAHASH' : '', + + parameters.transmission ? '#define USE_TRANSMISSION' : '', + parameters.transmissionMap ? '#define USE_TRANSMISSIONMAP' : '', + parameters.thicknessMap ? '#define USE_THICKNESSMAP' : '', + + parameters.sheenColorMap ? '#define USE_SHEEN_COLORMAP' : '', + parameters.sheenRoughnessMap ? '#define USE_SHEEN_ROUGHNESSMAP' : '', + + // + + parameters.mapUv ? '#define MAP_UV ' + parameters.mapUv : '', + parameters.alphaMapUv ? '#define ALPHAMAP_UV ' + parameters.alphaMapUv : '', + parameters.lightMapUv ? '#define LIGHTMAP_UV ' + parameters.lightMapUv : '', + parameters.aoMapUv ? '#define AOMAP_UV ' + parameters.aoMapUv : '', + parameters.emissiveMapUv ? '#define EMISSIVEMAP_UV ' + parameters.emissiveMapUv : '', + parameters.bumpMapUv ? '#define BUMPMAP_UV ' + parameters.bumpMapUv : '', + parameters.normalMapUv ? '#define NORMALMAP_UV ' + parameters.normalMapUv : '', + parameters.displacementMapUv ? '#define DISPLACEMENTMAP_UV ' + parameters.displacementMapUv : '', + + parameters.metalnessMapUv ? '#define METALNESSMAP_UV ' + parameters.metalnessMapUv : '', + parameters.roughnessMapUv ? '#define ROUGHNESSMAP_UV ' + parameters.roughnessMapUv : '', + + parameters.anisotropyMapUv ? '#define ANISOTROPYMAP_UV ' + parameters.anisotropyMapUv : '', + + parameters.clearcoatMapUv ? '#define CLEARCOATMAP_UV ' + parameters.clearcoatMapUv : '', + parameters.clearcoatNormalMapUv ? '#define CLEARCOAT_NORMALMAP_UV ' + parameters.clearcoatNormalMapUv : '', + parameters.clearcoatRoughnessMapUv ? '#define CLEARCOAT_ROUGHNESSMAP_UV ' + parameters.clearcoatRoughnessMapUv : '', + + parameters.iridescenceMapUv ? '#define IRIDESCENCEMAP_UV ' + parameters.iridescenceMapUv : '', + parameters.iridescenceThicknessMapUv ? '#define IRIDESCENCE_THICKNESSMAP_UV ' + parameters.iridescenceThicknessMapUv : '', + + parameters.sheenColorMapUv ? '#define SHEEN_COLORMAP_UV ' + parameters.sheenColorMapUv : '', + parameters.sheenRoughnessMapUv ? '#define SHEEN_ROUGHNESSMAP_UV ' + parameters.sheenRoughnessMapUv : '', + + parameters.specularMapUv ? '#define SPECULARMAP_UV ' + parameters.specularMapUv : '', + parameters.specularColorMapUv ? '#define SPECULAR_COLORMAP_UV ' + parameters.specularColorMapUv : '', + parameters.specularIntensityMapUv ? '#define SPECULAR_INTENSITYMAP_UV ' + parameters.specularIntensityMapUv : '', + + parameters.transmissionMapUv ? '#define TRANSMISSIONMAP_UV ' + parameters.transmissionMapUv : '', + parameters.thicknessMapUv ? '#define THICKNESSMAP_UV ' + parameters.thicknessMapUv : '', + + // + + parameters.vertexTangents && parameters.flatShading === false ? '#define USE_TANGENT' : '', + parameters.vertexColors ? '#define USE_COLOR' : '', + parameters.vertexAlphas ? '#define USE_COLOR_ALPHA' : '', + parameters.vertexUv1s ? '#define USE_UV1' : '', + parameters.vertexUv2s ? '#define USE_UV2' : '', + parameters.vertexUv3s ? '#define USE_UV3' : '', + + parameters.pointsUvs ? '#define USE_POINTS_UV' : '', + + parameters.flatShading ? '#define FLAT_SHADED' : '', + + parameters.skinning ? '#define USE_SKINNING' : '', + + parameters.morphTargets ? '#define USE_MORPHTARGETS' : '', + parameters.morphNormals && parameters.flatShading === false ? '#define USE_MORPHNORMALS' : '', + ( parameters.morphColors ) ? '#define USE_MORPHCOLORS' : '', + ( parameters.morphTargetsCount > 0 ) ? '#define MORPHTARGETS_TEXTURE_STRIDE ' + parameters.morphTextureStride : '', + ( parameters.morphTargetsCount > 0 ) ? '#define MORPHTARGETS_COUNT ' + parameters.morphTargetsCount : '', + parameters.doubleSided ? '#define DOUBLE_SIDED' : '', + parameters.flipSided ? '#define FLIP_SIDED' : '', + + parameters.shadowMapEnabled ? '#define USE_SHADOWMAP' : '', + parameters.shadowMapEnabled ? '#define ' + shadowMapTypeDefine : '', + + parameters.sizeAttenuation ? '#define USE_SIZEATTENUATION' : '', + + parameters.numLightProbes > 0 ? '#define USE_LIGHT_PROBES' : '', + + parameters.logarithmicDepthBuffer ? '#define USE_LOGDEPTHBUF' : '', + parameters.reverseDepthBuffer ? '#define USE_REVERSEDEPTHBUF' : '', + + 'uniform mat4 modelMatrix;', + 'uniform mat4 modelViewMatrix;', + 'uniform mat4 projectionMatrix;', + 'uniform mat4 viewMatrix;', + 'uniform mat3 normalMatrix;', + 'uniform vec3 cameraPosition;', + 'uniform bool isOrthographic;', + + '#ifdef USE_INSTANCING', + + ' attribute mat4 instanceMatrix;', + + '#endif', + + '#ifdef USE_INSTANCING_COLOR', + + ' attribute vec3 instanceColor;', + + '#endif', + + '#ifdef USE_INSTANCING_MORPH', + + ' uniform sampler2D morphTexture;', + + '#endif', + + 'attribute vec3 position;', + 'attribute vec3 normal;', + 'attribute vec2 uv;', + + '#ifdef USE_UV1', + + ' attribute vec2 uv1;', + + '#endif', + + '#ifdef USE_UV2', + + ' attribute vec2 uv2;', + + '#endif', + + '#ifdef USE_UV3', + + ' attribute vec2 uv3;', + + '#endif', + + '#ifdef USE_TANGENT', + + ' attribute vec4 tangent;', + + '#endif', + + '#if defined( USE_COLOR_ALPHA )', + + ' attribute vec4 color;', + + '#elif defined( USE_COLOR )', + + ' attribute vec3 color;', + + '#endif', + + '#ifdef USE_SKINNING', + + ' attribute vec4 skinIndex;', + ' attribute vec4 skinWeight;', + + '#endif', + + '\n' + + ].filter( filterEmptyLine ).join( '\n' ); + + prefixFragment = [ + + generatePrecision( parameters ), + + '#define SHADER_TYPE ' + parameters.shaderType, + '#define SHADER_NAME ' + parameters.shaderName, + + customDefines, + + parameters.useFog && parameters.fog ? '#define USE_FOG' : '', + parameters.useFog && parameters.fogExp2 ? '#define FOG_EXP2' : '', + + parameters.alphaToCoverage ? '#define ALPHA_TO_COVERAGE' : '', + parameters.map ? '#define USE_MAP' : '', + parameters.matcap ? '#define USE_MATCAP' : '', + parameters.envMap ? '#define USE_ENVMAP' : '', + parameters.envMap ? '#define ' + envMapTypeDefine : '', + parameters.envMap ? '#define ' + envMapModeDefine : '', + parameters.envMap ? '#define ' + envMapBlendingDefine : '', + envMapCubeUVSize ? '#define CUBEUV_TEXEL_WIDTH ' + envMapCubeUVSize.texelWidth : '', + envMapCubeUVSize ? '#define CUBEUV_TEXEL_HEIGHT ' + envMapCubeUVSize.texelHeight : '', + envMapCubeUVSize ? '#define CUBEUV_MAX_MIP ' + envMapCubeUVSize.maxMip + '.0' : '', + parameters.lightMap ? '#define USE_LIGHTMAP' : '', + parameters.aoMap ? '#define USE_AOMAP' : '', + parameters.bumpMap ? '#define USE_BUMPMAP' : '', + parameters.normalMap ? '#define USE_NORMALMAP' : '', + parameters.normalMapObjectSpace ? '#define USE_NORMALMAP_OBJECTSPACE' : '', + parameters.normalMapTangentSpace ? '#define USE_NORMALMAP_TANGENTSPACE' : '', + parameters.emissiveMap ? '#define USE_EMISSIVEMAP' : '', + + parameters.anisotropy ? '#define USE_ANISOTROPY' : '', + parameters.anisotropyMap ? '#define USE_ANISOTROPYMAP' : '', + + parameters.clearcoat ? '#define USE_CLEARCOAT' : '', + parameters.clearcoatMap ? '#define USE_CLEARCOATMAP' : '', + parameters.clearcoatRoughnessMap ? '#define USE_CLEARCOAT_ROUGHNESSMAP' : '', + parameters.clearcoatNormalMap ? '#define USE_CLEARCOAT_NORMALMAP' : '', + + parameters.dispersion ? '#define USE_DISPERSION' : '', + + parameters.iridescence ? '#define USE_IRIDESCENCE' : '', + parameters.iridescenceMap ? '#define USE_IRIDESCENCEMAP' : '', + parameters.iridescenceThicknessMap ? '#define USE_IRIDESCENCE_THICKNESSMAP' : '', + + parameters.specularMap ? '#define USE_SPECULARMAP' : '', + parameters.specularColorMap ? '#define USE_SPECULAR_COLORMAP' : '', + parameters.specularIntensityMap ? '#define USE_SPECULAR_INTENSITYMAP' : '', + + parameters.roughnessMap ? '#define USE_ROUGHNESSMAP' : '', + parameters.metalnessMap ? '#define USE_METALNESSMAP' : '', + + parameters.alphaMap ? '#define USE_ALPHAMAP' : '', + parameters.alphaTest ? '#define USE_ALPHATEST' : '', + parameters.alphaHash ? '#define USE_ALPHAHASH' : '', + + parameters.sheen ? '#define USE_SHEEN' : '', + parameters.sheenColorMap ? '#define USE_SHEEN_COLORMAP' : '', + parameters.sheenRoughnessMap ? '#define USE_SHEEN_ROUGHNESSMAP' : '', + + parameters.transmission ? '#define USE_TRANSMISSION' : '', + parameters.transmissionMap ? '#define USE_TRANSMISSIONMAP' : '', + parameters.thicknessMap ? '#define USE_THICKNESSMAP' : '', + + parameters.vertexTangents && parameters.flatShading === false ? '#define USE_TANGENT' : '', + parameters.vertexColors || parameters.instancingColor || parameters.batchingColor ? '#define USE_COLOR' : '', + parameters.vertexAlphas ? '#define USE_COLOR_ALPHA' : '', + parameters.vertexUv1s ? '#define USE_UV1' : '', + parameters.vertexUv2s ? '#define USE_UV2' : '', + parameters.vertexUv3s ? '#define USE_UV3' : '', + + parameters.pointsUvs ? '#define USE_POINTS_UV' : '', + + parameters.gradientMap ? '#define USE_GRADIENTMAP' : '', + + parameters.flatShading ? '#define FLAT_SHADED' : '', + + parameters.doubleSided ? '#define DOUBLE_SIDED' : '', + parameters.flipSided ? '#define FLIP_SIDED' : '', + + parameters.shadowMapEnabled ? '#define USE_SHADOWMAP' : '', + parameters.shadowMapEnabled ? '#define ' + shadowMapTypeDefine : '', + + parameters.premultipliedAlpha ? '#define PREMULTIPLIED_ALPHA' : '', + + parameters.numLightProbes > 0 ? '#define USE_LIGHT_PROBES' : '', + + parameters.decodeVideoTexture ? '#define DECODE_VIDEO_TEXTURE' : '', + parameters.decodeVideoTextureEmissive ? '#define DECODE_VIDEO_TEXTURE_EMISSIVE' : '', + + parameters.logarithmicDepthBuffer ? '#define USE_LOGDEPTHBUF' : '', + parameters.reverseDepthBuffer ? '#define USE_REVERSEDEPTHBUF' : '', + + 'uniform mat4 viewMatrix;', + 'uniform vec3 cameraPosition;', + 'uniform bool isOrthographic;', + + ( parameters.toneMapping !== NoToneMapping ) ? '#define TONE_MAPPING' : '', + ( parameters.toneMapping !== NoToneMapping ) ? ShaderChunk[ 'tonemapping_pars_fragment' ] : '', // this code is required here because it is used by the toneMapping() function defined below + ( parameters.toneMapping !== NoToneMapping ) ? getToneMappingFunction( 'toneMapping', parameters.toneMapping ) : '', + + parameters.dithering ? '#define DITHERING' : '', + parameters.opaque ? '#define OPAQUE' : '', + + ShaderChunk[ 'colorspace_pars_fragment' ], // this code is required here because it is used by the various encoding/decoding function defined below + getTexelEncodingFunction( 'linearToOutputTexel', parameters.outputColorSpace ), + getLuminanceFunction(), + + parameters.useDepthPacking ? '#define DEPTH_PACKING ' + parameters.depthPacking : '', + + '\n' + + ].filter( filterEmptyLine ).join( '\n' ); + + } + + vertexShader = resolveIncludes( vertexShader ); + vertexShader = replaceLightNums( vertexShader, parameters ); + vertexShader = replaceClippingPlaneNums( vertexShader, parameters ); + + fragmentShader = resolveIncludes( fragmentShader ); + fragmentShader = replaceLightNums( fragmentShader, parameters ); + fragmentShader = replaceClippingPlaneNums( fragmentShader, parameters ); + + vertexShader = unrollLoops( vertexShader ); + fragmentShader = unrollLoops( fragmentShader ); + + if ( parameters.isRawShaderMaterial !== true ) { + + // GLSL 3.0 conversion for built-in materials and ShaderMaterial + + versionString = '#version 300 es\n'; + + prefixVertex = [ + customVertexExtensions, + '#define attribute in', + '#define varying out', + '#define texture2D texture' + ].join( '\n' ) + '\n' + prefixVertex; + + prefixFragment = [ + '#define varying in', + ( parameters.glslVersion === GLSL3 ) ? '' : 'layout(location = 0) out highp vec4 pc_fragColor;', + ( parameters.glslVersion === GLSL3 ) ? '' : '#define gl_FragColor pc_fragColor', + '#define gl_FragDepthEXT gl_FragDepth', + '#define texture2D texture', + '#define textureCube texture', + '#define texture2DProj textureProj', + '#define texture2DLodEXT textureLod', + '#define texture2DProjLodEXT textureProjLod', + '#define textureCubeLodEXT textureLod', + '#define texture2DGradEXT textureGrad', + '#define texture2DProjGradEXT textureProjGrad', + '#define textureCubeGradEXT textureGrad' + ].join( '\n' ) + '\n' + prefixFragment; + + } + + const vertexGlsl = versionString + prefixVertex + vertexShader; + const fragmentGlsl = versionString + prefixFragment + fragmentShader; + + // console.log( '*VERTEX*', vertexGlsl ); + // console.log( '*FRAGMENT*', fragmentGlsl ); + + const glVertexShader = WebGLShader( gl, gl.VERTEX_SHADER, vertexGlsl ); + const glFragmentShader = WebGLShader( gl, gl.FRAGMENT_SHADER, fragmentGlsl ); + + gl.attachShader( program, glVertexShader ); + gl.attachShader( program, glFragmentShader ); + + // Force a particular attribute to index 0. + + if ( parameters.index0AttributeName !== undefined ) { + + gl.bindAttribLocation( program, 0, parameters.index0AttributeName ); + + } else if ( parameters.morphTargets === true ) { + + // programs with morphTargets displace position out of attribute 0 + gl.bindAttribLocation( program, 0, 'position' ); + + } + + gl.linkProgram( program ); + + function onFirstUse( self ) { + + // check for link errors + if ( renderer.debug.checkShaderErrors ) { + + const programLog = gl.getProgramInfoLog( program ).trim(); + const vertexLog = gl.getShaderInfoLog( glVertexShader ).trim(); + const fragmentLog = gl.getShaderInfoLog( glFragmentShader ).trim(); + + let runnable = true; + let haveDiagnostics = true; + + if ( gl.getProgramParameter( program, gl.LINK_STATUS ) === false ) { + + runnable = false; + + if ( typeof renderer.debug.onShaderError === 'function' ) { + + renderer.debug.onShaderError( gl, program, glVertexShader, glFragmentShader ); + + } else { + + // default error reporting + + const vertexErrors = getShaderErrors( gl, glVertexShader, 'vertex' ); + const fragmentErrors = getShaderErrors( gl, glFragmentShader, 'fragment' ); + + console.error( + 'THREE.WebGLProgram: Shader Error ' + gl.getError() + ' - ' + + 'VALIDATE_STATUS ' + gl.getProgramParameter( program, gl.VALIDATE_STATUS ) + '\n\n' + + 'Material Name: ' + self.name + '\n' + + 'Material Type: ' + self.type + '\n\n' + + 'Program Info Log: ' + programLog + '\n' + + vertexErrors + '\n' + + fragmentErrors + ); + + } + + } else if ( programLog !== '' ) { + + console.warn( 'THREE.WebGLProgram: Program Info Log:', programLog ); + + } else if ( vertexLog === '' || fragmentLog === '' ) { + + haveDiagnostics = false; + + } + + if ( haveDiagnostics ) { + + self.diagnostics = { + + runnable: runnable, + + programLog: programLog, + + vertexShader: { + + log: vertexLog, + prefix: prefixVertex + + }, + + fragmentShader: { + + log: fragmentLog, + prefix: prefixFragment + + } + + }; + + } + + } + + // Clean up + + // Crashes in iOS9 and iOS10. #18402 + // gl.detachShader( program, glVertexShader ); + // gl.detachShader( program, glFragmentShader ); + + gl.deleteShader( glVertexShader ); + gl.deleteShader( glFragmentShader ); + + cachedUniforms = new WebGLUniforms( gl, program ); + cachedAttributes = fetchAttributeLocations( gl, program ); + + } + + // set up caching for uniform locations + + let cachedUniforms; + + this.getUniforms = function () { + + if ( cachedUniforms === undefined ) { + + // Populates cachedUniforms and cachedAttributes + onFirstUse( this ); + + } + + return cachedUniforms; + + }; + + // set up caching for attribute locations + + let cachedAttributes; + + this.getAttributes = function () { + + if ( cachedAttributes === undefined ) { + + // Populates cachedAttributes and cachedUniforms + onFirstUse( this ); + + } + + return cachedAttributes; + + }; + + // indicate when the program is ready to be used. if the KHR_parallel_shader_compile extension isn't supported, + // flag the program as ready immediately. It may cause a stall when it's first used. + + let programReady = ( parameters.rendererExtensionParallelShaderCompile === false ); + + this.isReady = function () { + + if ( programReady === false ) { + + programReady = gl.getProgramParameter( program, COMPLETION_STATUS_KHR ); + + } + + return programReady; + + }; + + // free resource + + this.destroy = function () { + + bindingStates.releaseStatesOfProgram( this ); + + gl.deleteProgram( program ); + this.program = undefined; + + }; + + // + + this.type = parameters.shaderType; + this.name = parameters.shaderName; + this.id = programIdCount ++; + this.cacheKey = cacheKey; + this.usedTimes = 1; + this.program = program; + this.vertexShader = glVertexShader; + this.fragmentShader = glFragmentShader; + + return this; + +} + +let _id = 0; + +class WebGLShaderCache { + + constructor() { + + this.shaderCache = new Map(); + this.materialCache = new Map(); + + } + + update( material ) { + + const vertexShader = material.vertexShader; + const fragmentShader = material.fragmentShader; + + const vertexShaderStage = this._getShaderStage( vertexShader ); + const fragmentShaderStage = this._getShaderStage( fragmentShader ); + + const materialShaders = this._getShaderCacheForMaterial( material ); + + if ( materialShaders.has( vertexShaderStage ) === false ) { + + materialShaders.add( vertexShaderStage ); + vertexShaderStage.usedTimes ++; + + } + + if ( materialShaders.has( fragmentShaderStage ) === false ) { + + materialShaders.add( fragmentShaderStage ); + fragmentShaderStage.usedTimes ++; + + } + + return this; + + } + + remove( material ) { + + const materialShaders = this.materialCache.get( material ); + + for ( const shaderStage of materialShaders ) { + + shaderStage.usedTimes --; + + if ( shaderStage.usedTimes === 0 ) this.shaderCache.delete( shaderStage.code ); + + } + + this.materialCache.delete( material ); + + return this; + + } + + getVertexShaderID( material ) { + + return this._getShaderStage( material.vertexShader ).id; + + } + + getFragmentShaderID( material ) { + + return this._getShaderStage( material.fragmentShader ).id; + + } + + dispose() { + + this.shaderCache.clear(); + this.materialCache.clear(); + + } + + _getShaderCacheForMaterial( material ) { + + const cache = this.materialCache; + let set = cache.get( material ); + + if ( set === undefined ) { + + set = new Set(); + cache.set( material, set ); + + } + + return set; + + } + + _getShaderStage( code ) { + + const cache = this.shaderCache; + let stage = cache.get( code ); + + if ( stage === undefined ) { + + stage = new WebGLShaderStage( code ); + cache.set( code, stage ); + + } + + return stage; + + } + +} + +class WebGLShaderStage { + + constructor( code ) { + + this.id = _id ++; + + this.code = code; + this.usedTimes = 0; + + } + +} + +function WebGLPrograms( renderer, cubemaps, cubeuvmaps, extensions, capabilities, bindingStates, clipping ) { + + const _programLayers = new Layers(); + const _customShaders = new WebGLShaderCache(); + const _activeChannels = new Set(); + const programs = []; + + const logarithmicDepthBuffer = capabilities.logarithmicDepthBuffer; + const SUPPORTS_VERTEX_TEXTURES = capabilities.vertexTextures; + + let precision = capabilities.precision; + + const shaderIDs = { + MeshDepthMaterial: 'depth', + MeshDistanceMaterial: 'distanceRGBA', + MeshNormalMaterial: 'normal', + MeshBasicMaterial: 'basic', + MeshLambertMaterial: 'lambert', + MeshPhongMaterial: 'phong', + MeshToonMaterial: 'toon', + MeshStandardMaterial: 'physical', + MeshPhysicalMaterial: 'physical', + MeshMatcapMaterial: 'matcap', + LineBasicMaterial: 'basic', + LineDashedMaterial: 'dashed', + PointsMaterial: 'points', + ShadowMaterial: 'shadow', + SpriteMaterial: 'sprite' + }; + + function getChannel( value ) { + + _activeChannels.add( value ); + + if ( value === 0 ) return 'uv'; + + return `uv${ value }`; + + } + + function getParameters( material, lights, shadows, scene, object ) { + + const fog = scene.fog; + const geometry = object.geometry; + const environment = material.isMeshStandardMaterial ? scene.environment : null; + + const envMap = ( material.isMeshStandardMaterial ? cubeuvmaps : cubemaps ).get( material.envMap || environment ); + const envMapCubeUVHeight = ( !! envMap ) && ( envMap.mapping === CubeUVReflectionMapping ) ? envMap.image.height : null; + + const shaderID = shaderIDs[ material.type ]; + + // heuristics to create shader parameters according to lights in the scene + // (not to blow over maxLights budget) + + if ( material.precision !== null ) { + + precision = capabilities.getMaxPrecision( material.precision ); + + if ( precision !== material.precision ) { + + console.warn( 'THREE.WebGLProgram.getParameters:', material.precision, 'not supported, using', precision, 'instead.' ); + + } + + } + + // + + const morphAttribute = geometry.morphAttributes.position || geometry.morphAttributes.normal || geometry.morphAttributes.color; + const morphTargetsCount = ( morphAttribute !== undefined ) ? morphAttribute.length : 0; + + let morphTextureStride = 0; + + if ( geometry.morphAttributes.position !== undefined ) morphTextureStride = 1; + if ( geometry.morphAttributes.normal !== undefined ) morphTextureStride = 2; + if ( geometry.morphAttributes.color !== undefined ) morphTextureStride = 3; + + // + + let vertexShader, fragmentShader; + let customVertexShaderID, customFragmentShaderID; + + if ( shaderID ) { + + const shader = ShaderLib[ shaderID ]; + + vertexShader = shader.vertexShader; + fragmentShader = shader.fragmentShader; + + } else { + + vertexShader = material.vertexShader; + fragmentShader = material.fragmentShader; + + _customShaders.update( material ); + + customVertexShaderID = _customShaders.getVertexShaderID( material ); + customFragmentShaderID = _customShaders.getFragmentShaderID( material ); + + } + + const currentRenderTarget = renderer.getRenderTarget(); + const reverseDepthBuffer = renderer.state.buffers.depth.getReversed(); + + const IS_INSTANCEDMESH = object.isInstancedMesh === true; + const IS_BATCHEDMESH = object.isBatchedMesh === true; + + const HAS_MAP = !! material.map; + const HAS_MATCAP = !! material.matcap; + const HAS_ENVMAP = !! envMap; + const HAS_AOMAP = !! material.aoMap; + const HAS_LIGHTMAP = !! material.lightMap; + const HAS_BUMPMAP = !! material.bumpMap; + const HAS_NORMALMAP = !! material.normalMap; + const HAS_DISPLACEMENTMAP = !! material.displacementMap; + const HAS_EMISSIVEMAP = !! material.emissiveMap; + + const HAS_METALNESSMAP = !! material.metalnessMap; + const HAS_ROUGHNESSMAP = !! material.roughnessMap; + + const HAS_ANISOTROPY = material.anisotropy > 0; + const HAS_CLEARCOAT = material.clearcoat > 0; + const HAS_DISPERSION = material.dispersion > 0; + const HAS_IRIDESCENCE = material.iridescence > 0; + const HAS_SHEEN = material.sheen > 0; + const HAS_TRANSMISSION = material.transmission > 0; + + const HAS_ANISOTROPYMAP = HAS_ANISOTROPY && !! material.anisotropyMap; + + const HAS_CLEARCOATMAP = HAS_CLEARCOAT && !! material.clearcoatMap; + const HAS_CLEARCOAT_NORMALMAP = HAS_CLEARCOAT && !! material.clearcoatNormalMap; + const HAS_CLEARCOAT_ROUGHNESSMAP = HAS_CLEARCOAT && !! material.clearcoatRoughnessMap; + + const HAS_IRIDESCENCEMAP = HAS_IRIDESCENCE && !! material.iridescenceMap; + const HAS_IRIDESCENCE_THICKNESSMAP = HAS_IRIDESCENCE && !! material.iridescenceThicknessMap; + + const HAS_SHEEN_COLORMAP = HAS_SHEEN && !! material.sheenColorMap; + const HAS_SHEEN_ROUGHNESSMAP = HAS_SHEEN && !! material.sheenRoughnessMap; + + const HAS_SPECULARMAP = !! material.specularMap; + const HAS_SPECULAR_COLORMAP = !! material.specularColorMap; + const HAS_SPECULAR_INTENSITYMAP = !! material.specularIntensityMap; + + const HAS_TRANSMISSIONMAP = HAS_TRANSMISSION && !! material.transmissionMap; + const HAS_THICKNESSMAP = HAS_TRANSMISSION && !! material.thicknessMap; + + const HAS_GRADIENTMAP = !! material.gradientMap; + + const HAS_ALPHAMAP = !! material.alphaMap; + + const HAS_ALPHATEST = material.alphaTest > 0; + + const HAS_ALPHAHASH = !! material.alphaHash; + + const HAS_EXTENSIONS = !! material.extensions; + + let toneMapping = NoToneMapping; + + if ( material.toneMapped ) { + + if ( currentRenderTarget === null || currentRenderTarget.isXRRenderTarget === true ) { + + toneMapping = renderer.toneMapping; + + } + + } + + const parameters = { + + shaderID: shaderID, + shaderType: material.type, + shaderName: material.name, + + vertexShader: vertexShader, + fragmentShader: fragmentShader, + defines: material.defines, + + customVertexShaderID: customVertexShaderID, + customFragmentShaderID: customFragmentShaderID, + + isRawShaderMaterial: material.isRawShaderMaterial === true, + glslVersion: material.glslVersion, + + precision: precision, + + batching: IS_BATCHEDMESH, + batchingColor: IS_BATCHEDMESH && object._colorsTexture !== null, + instancing: IS_INSTANCEDMESH, + instancingColor: IS_INSTANCEDMESH && object.instanceColor !== null, + instancingMorph: IS_INSTANCEDMESH && object.morphTexture !== null, + + supportsVertexTextures: SUPPORTS_VERTEX_TEXTURES, + outputColorSpace: ( currentRenderTarget === null ) ? renderer.outputColorSpace : ( currentRenderTarget.isXRRenderTarget === true ? currentRenderTarget.texture.colorSpace : LinearSRGBColorSpace ), + alphaToCoverage: !! material.alphaToCoverage, + + map: HAS_MAP, + matcap: HAS_MATCAP, + envMap: HAS_ENVMAP, + envMapMode: HAS_ENVMAP && envMap.mapping, + envMapCubeUVHeight: envMapCubeUVHeight, + aoMap: HAS_AOMAP, + lightMap: HAS_LIGHTMAP, + bumpMap: HAS_BUMPMAP, + normalMap: HAS_NORMALMAP, + displacementMap: SUPPORTS_VERTEX_TEXTURES && HAS_DISPLACEMENTMAP, + emissiveMap: HAS_EMISSIVEMAP, + + normalMapObjectSpace: HAS_NORMALMAP && material.normalMapType === ObjectSpaceNormalMap, + normalMapTangentSpace: HAS_NORMALMAP && material.normalMapType === TangentSpaceNormalMap, + + metalnessMap: HAS_METALNESSMAP, + roughnessMap: HAS_ROUGHNESSMAP, + + anisotropy: HAS_ANISOTROPY, + anisotropyMap: HAS_ANISOTROPYMAP, + + clearcoat: HAS_CLEARCOAT, + clearcoatMap: HAS_CLEARCOATMAP, + clearcoatNormalMap: HAS_CLEARCOAT_NORMALMAP, + clearcoatRoughnessMap: HAS_CLEARCOAT_ROUGHNESSMAP, + + dispersion: HAS_DISPERSION, + + iridescence: HAS_IRIDESCENCE, + iridescenceMap: HAS_IRIDESCENCEMAP, + iridescenceThicknessMap: HAS_IRIDESCENCE_THICKNESSMAP, + + sheen: HAS_SHEEN, + sheenColorMap: HAS_SHEEN_COLORMAP, + sheenRoughnessMap: HAS_SHEEN_ROUGHNESSMAP, + + specularMap: HAS_SPECULARMAP, + specularColorMap: HAS_SPECULAR_COLORMAP, + specularIntensityMap: HAS_SPECULAR_INTENSITYMAP, + + transmission: HAS_TRANSMISSION, + transmissionMap: HAS_TRANSMISSIONMAP, + thicknessMap: HAS_THICKNESSMAP, + + gradientMap: HAS_GRADIENTMAP, + + opaque: material.transparent === false && material.blending === NormalBlending && material.alphaToCoverage === false, + + alphaMap: HAS_ALPHAMAP, + alphaTest: HAS_ALPHATEST, + alphaHash: HAS_ALPHAHASH, + + combine: material.combine, + + // + + mapUv: HAS_MAP && getChannel( material.map.channel ), + aoMapUv: HAS_AOMAP && getChannel( material.aoMap.channel ), + lightMapUv: HAS_LIGHTMAP && getChannel( material.lightMap.channel ), + bumpMapUv: HAS_BUMPMAP && getChannel( material.bumpMap.channel ), + normalMapUv: HAS_NORMALMAP && getChannel( material.normalMap.channel ), + displacementMapUv: HAS_DISPLACEMENTMAP && getChannel( material.displacementMap.channel ), + emissiveMapUv: HAS_EMISSIVEMAP && getChannel( material.emissiveMap.channel ), + + metalnessMapUv: HAS_METALNESSMAP && getChannel( material.metalnessMap.channel ), + roughnessMapUv: HAS_ROUGHNESSMAP && getChannel( material.roughnessMap.channel ), + + anisotropyMapUv: HAS_ANISOTROPYMAP && getChannel( material.anisotropyMap.channel ), + + clearcoatMapUv: HAS_CLEARCOATMAP && getChannel( material.clearcoatMap.channel ), + clearcoatNormalMapUv: HAS_CLEARCOAT_NORMALMAP && getChannel( material.clearcoatNormalMap.channel ), + clearcoatRoughnessMapUv: HAS_CLEARCOAT_ROUGHNESSMAP && getChannel( material.clearcoatRoughnessMap.channel ), + + iridescenceMapUv: HAS_IRIDESCENCEMAP && getChannel( material.iridescenceMap.channel ), + iridescenceThicknessMapUv: HAS_IRIDESCENCE_THICKNESSMAP && getChannel( material.iridescenceThicknessMap.channel ), + + sheenColorMapUv: HAS_SHEEN_COLORMAP && getChannel( material.sheenColorMap.channel ), + sheenRoughnessMapUv: HAS_SHEEN_ROUGHNESSMAP && getChannel( material.sheenRoughnessMap.channel ), + + specularMapUv: HAS_SPECULARMAP && getChannel( material.specularMap.channel ), + specularColorMapUv: HAS_SPECULAR_COLORMAP && getChannel( material.specularColorMap.channel ), + specularIntensityMapUv: HAS_SPECULAR_INTENSITYMAP && getChannel( material.specularIntensityMap.channel ), + + transmissionMapUv: HAS_TRANSMISSIONMAP && getChannel( material.transmissionMap.channel ), + thicknessMapUv: HAS_THICKNESSMAP && getChannel( material.thicknessMap.channel ), + + alphaMapUv: HAS_ALPHAMAP && getChannel( material.alphaMap.channel ), + + // + + vertexTangents: !! geometry.attributes.tangent && ( HAS_NORMALMAP || HAS_ANISOTROPY ), + vertexColors: material.vertexColors, + vertexAlphas: material.vertexColors === true && !! geometry.attributes.color && geometry.attributes.color.itemSize === 4, + + pointsUvs: object.isPoints === true && !! geometry.attributes.uv && ( HAS_MAP || HAS_ALPHAMAP ), + + fog: !! fog, + useFog: material.fog === true, + fogExp2: ( !! fog && fog.isFogExp2 ), + + flatShading: material.flatShading === true, + + sizeAttenuation: material.sizeAttenuation === true, + logarithmicDepthBuffer: logarithmicDepthBuffer, + reverseDepthBuffer: reverseDepthBuffer, + + skinning: object.isSkinnedMesh === true, + + morphTargets: geometry.morphAttributes.position !== undefined, + morphNormals: geometry.morphAttributes.normal !== undefined, + morphColors: geometry.morphAttributes.color !== undefined, + morphTargetsCount: morphTargetsCount, + morphTextureStride: morphTextureStride, + + numDirLights: lights.directional.length, + numPointLights: lights.point.length, + numSpotLights: lights.spot.length, + numSpotLightMaps: lights.spotLightMap.length, + numRectAreaLights: lights.rectArea.length, + numHemiLights: lights.hemi.length, + + numDirLightShadows: lights.directionalShadowMap.length, + numPointLightShadows: lights.pointShadowMap.length, + numSpotLightShadows: lights.spotShadowMap.length, + numSpotLightShadowsWithMaps: lights.numSpotLightShadowsWithMaps, + + numLightProbes: lights.numLightProbes, + + numClippingPlanes: clipping.numPlanes, + numClipIntersection: clipping.numIntersection, + + dithering: material.dithering, + + shadowMapEnabled: renderer.shadowMap.enabled && shadows.length > 0, + shadowMapType: renderer.shadowMap.type, + + toneMapping: toneMapping, + + decodeVideoTexture: HAS_MAP && ( material.map.isVideoTexture === true ) && ( ColorManagement.getTransfer( material.map.colorSpace ) === SRGBTransfer ), + decodeVideoTextureEmissive: HAS_EMISSIVEMAP && ( material.emissiveMap.isVideoTexture === true ) && ( ColorManagement.getTransfer( material.emissiveMap.colorSpace ) === SRGBTransfer ), + + premultipliedAlpha: material.premultipliedAlpha, + + doubleSided: material.side === DoubleSide, + flipSided: material.side === BackSide, + + useDepthPacking: material.depthPacking >= 0, + depthPacking: material.depthPacking || 0, + + index0AttributeName: material.index0AttributeName, + + extensionClipCullDistance: HAS_EXTENSIONS && material.extensions.clipCullDistance === true && extensions.has( 'WEBGL_clip_cull_distance' ), + extensionMultiDraw: ( HAS_EXTENSIONS && material.extensions.multiDraw === true || IS_BATCHEDMESH ) && extensions.has( 'WEBGL_multi_draw' ), + + rendererExtensionParallelShaderCompile: extensions.has( 'KHR_parallel_shader_compile' ), + + customProgramCacheKey: material.customProgramCacheKey() + + }; + + // the usage of getChannel() determines the active texture channels for this shader + + parameters.vertexUv1s = _activeChannels.has( 1 ); + parameters.vertexUv2s = _activeChannels.has( 2 ); + parameters.vertexUv3s = _activeChannels.has( 3 ); + + _activeChannels.clear(); + + return parameters; + + } + + function getProgramCacheKey( parameters ) { + + const array = []; + + if ( parameters.shaderID ) { + + array.push( parameters.shaderID ); + + } else { + + array.push( parameters.customVertexShaderID ); + array.push( parameters.customFragmentShaderID ); + + } + + if ( parameters.defines !== undefined ) { + + for ( const name in parameters.defines ) { + + array.push( name ); + array.push( parameters.defines[ name ] ); + + } + + } + + if ( parameters.isRawShaderMaterial === false ) { + + getProgramCacheKeyParameters( array, parameters ); + getProgramCacheKeyBooleans( array, parameters ); + array.push( renderer.outputColorSpace ); + + } + + array.push( parameters.customProgramCacheKey ); + + return array.join(); + + } + + function getProgramCacheKeyParameters( array, parameters ) { + + array.push( parameters.precision ); + array.push( parameters.outputColorSpace ); + array.push( parameters.envMapMode ); + array.push( parameters.envMapCubeUVHeight ); + array.push( parameters.mapUv ); + array.push( parameters.alphaMapUv ); + array.push( parameters.lightMapUv ); + array.push( parameters.aoMapUv ); + array.push( parameters.bumpMapUv ); + array.push( parameters.normalMapUv ); + array.push( parameters.displacementMapUv ); + array.push( parameters.emissiveMapUv ); + array.push( parameters.metalnessMapUv ); + array.push( parameters.roughnessMapUv ); + array.push( parameters.anisotropyMapUv ); + array.push( parameters.clearcoatMapUv ); + array.push( parameters.clearcoatNormalMapUv ); + array.push( parameters.clearcoatRoughnessMapUv ); + array.push( parameters.iridescenceMapUv ); + array.push( parameters.iridescenceThicknessMapUv ); + array.push( parameters.sheenColorMapUv ); + array.push( parameters.sheenRoughnessMapUv ); + array.push( parameters.specularMapUv ); + array.push( parameters.specularColorMapUv ); + array.push( parameters.specularIntensityMapUv ); + array.push( parameters.transmissionMapUv ); + array.push( parameters.thicknessMapUv ); + array.push( parameters.combine ); + array.push( parameters.fogExp2 ); + array.push( parameters.sizeAttenuation ); + array.push( parameters.morphTargetsCount ); + array.push( parameters.morphAttributeCount ); + array.push( parameters.numDirLights ); + array.push( parameters.numPointLights ); + array.push( parameters.numSpotLights ); + array.push( parameters.numSpotLightMaps ); + array.push( parameters.numHemiLights ); + array.push( parameters.numRectAreaLights ); + array.push( parameters.numDirLightShadows ); + array.push( parameters.numPointLightShadows ); + array.push( parameters.numSpotLightShadows ); + array.push( parameters.numSpotLightShadowsWithMaps ); + array.push( parameters.numLightProbes ); + array.push( parameters.shadowMapType ); + array.push( parameters.toneMapping ); + array.push( parameters.numClippingPlanes ); + array.push( parameters.numClipIntersection ); + array.push( parameters.depthPacking ); + + } + + function getProgramCacheKeyBooleans( array, parameters ) { + + _programLayers.disableAll(); + + if ( parameters.supportsVertexTextures ) + _programLayers.enable( 0 ); + if ( parameters.instancing ) + _programLayers.enable( 1 ); + if ( parameters.instancingColor ) + _programLayers.enable( 2 ); + if ( parameters.instancingMorph ) + _programLayers.enable( 3 ); + if ( parameters.matcap ) + _programLayers.enable( 4 ); + if ( parameters.envMap ) + _programLayers.enable( 5 ); + if ( parameters.normalMapObjectSpace ) + _programLayers.enable( 6 ); + if ( parameters.normalMapTangentSpace ) + _programLayers.enable( 7 ); + if ( parameters.clearcoat ) + _programLayers.enable( 8 ); + if ( parameters.iridescence ) + _programLayers.enable( 9 ); + if ( parameters.alphaTest ) + _programLayers.enable( 10 ); + if ( parameters.vertexColors ) + _programLayers.enable( 11 ); + if ( parameters.vertexAlphas ) + _programLayers.enable( 12 ); + if ( parameters.vertexUv1s ) + _programLayers.enable( 13 ); + if ( parameters.vertexUv2s ) + _programLayers.enable( 14 ); + if ( parameters.vertexUv3s ) + _programLayers.enable( 15 ); + if ( parameters.vertexTangents ) + _programLayers.enable( 16 ); + if ( parameters.anisotropy ) + _programLayers.enable( 17 ); + if ( parameters.alphaHash ) + _programLayers.enable( 18 ); + if ( parameters.batching ) + _programLayers.enable( 19 ); + if ( parameters.dispersion ) + _programLayers.enable( 20 ); + if ( parameters.batchingColor ) + _programLayers.enable( 21 ); + + array.push( _programLayers.mask ); + _programLayers.disableAll(); + + if ( parameters.fog ) + _programLayers.enable( 0 ); + if ( parameters.useFog ) + _programLayers.enable( 1 ); + if ( parameters.flatShading ) + _programLayers.enable( 2 ); + if ( parameters.logarithmicDepthBuffer ) + _programLayers.enable( 3 ); + if ( parameters.reverseDepthBuffer ) + _programLayers.enable( 4 ); + if ( parameters.skinning ) + _programLayers.enable( 5 ); + if ( parameters.morphTargets ) + _programLayers.enable( 6 ); + if ( parameters.morphNormals ) + _programLayers.enable( 7 ); + if ( parameters.morphColors ) + _programLayers.enable( 8 ); + if ( parameters.premultipliedAlpha ) + _programLayers.enable( 9 ); + if ( parameters.shadowMapEnabled ) + _programLayers.enable( 10 ); + if ( parameters.doubleSided ) + _programLayers.enable( 11 ); + if ( parameters.flipSided ) + _programLayers.enable( 12 ); + if ( parameters.useDepthPacking ) + _programLayers.enable( 13 ); + if ( parameters.dithering ) + _programLayers.enable( 14 ); + if ( parameters.transmission ) + _programLayers.enable( 15 ); + if ( parameters.sheen ) + _programLayers.enable( 16 ); + if ( parameters.opaque ) + _programLayers.enable( 17 ); + if ( parameters.pointsUvs ) + _programLayers.enable( 18 ); + if ( parameters.decodeVideoTexture ) + _programLayers.enable( 19 ); + if ( parameters.decodeVideoTextureEmissive ) + _programLayers.enable( 20 ); + if ( parameters.alphaToCoverage ) + _programLayers.enable( 21 ); + + array.push( _programLayers.mask ); + + } + + function getUniforms( material ) { + + const shaderID = shaderIDs[ material.type ]; + let uniforms; + + if ( shaderID ) { + + const shader = ShaderLib[ shaderID ]; + uniforms = UniformsUtils.clone( shader.uniforms ); + + } else { + + uniforms = material.uniforms; + + } + + return uniforms; + + } + + function acquireProgram( parameters, cacheKey ) { + + let program; + + // Check if code has been already compiled + for ( let p = 0, pl = programs.length; p < pl; p ++ ) { + + const preexistingProgram = programs[ p ]; + + if ( preexistingProgram.cacheKey === cacheKey ) { + + program = preexistingProgram; + ++ program.usedTimes; + + break; + + } + + } + + if ( program === undefined ) { + + program = new WebGLProgram( renderer, cacheKey, parameters, bindingStates ); + programs.push( program ); + + } + + return program; + + } + + function releaseProgram( program ) { + + if ( -- program.usedTimes === 0 ) { + + // Remove from unordered set + const i = programs.indexOf( program ); + programs[ i ] = programs[ programs.length - 1 ]; + programs.pop(); + + // Free WebGL resources + program.destroy(); + + } + + } + + function releaseShaderCache( material ) { + + _customShaders.remove( material ); + + } + + function dispose() { + + _customShaders.dispose(); + + } + + return { + getParameters: getParameters, + getProgramCacheKey: getProgramCacheKey, + getUniforms: getUniforms, + acquireProgram: acquireProgram, + releaseProgram: releaseProgram, + releaseShaderCache: releaseShaderCache, + // Exposed for resource monitoring & error feedback via renderer.info: + programs: programs, + dispose: dispose + }; + +} + +function WebGLProperties() { + + let properties = new WeakMap(); + + function has( object ) { + + return properties.has( object ); + + } + + function get( object ) { + + let map = properties.get( object ); + + if ( map === undefined ) { + + map = {}; + properties.set( object, map ); + + } + + return map; + + } + + function remove( object ) { + + properties.delete( object ); + + } + + function update( object, key, value ) { + + properties.get( object )[ key ] = value; + + } + + function dispose() { + + properties = new WeakMap(); + + } + + return { + has: has, + get: get, + remove: remove, + update: update, + dispose: dispose + }; + +} + +function painterSortStable( a, b ) { + + if ( a.groupOrder !== b.groupOrder ) { + + return a.groupOrder - b.groupOrder; + + } else if ( a.renderOrder !== b.renderOrder ) { + + return a.renderOrder - b.renderOrder; + + } else if ( a.material.id !== b.material.id ) { + + return a.material.id - b.material.id; + + } else if ( a.z !== b.z ) { + + return a.z - b.z; + + } else { + + return a.id - b.id; + + } + +} + +function reversePainterSortStable( a, b ) { + + if ( a.groupOrder !== b.groupOrder ) { + + return a.groupOrder - b.groupOrder; + + } else if ( a.renderOrder !== b.renderOrder ) { + + return a.renderOrder - b.renderOrder; + + } else if ( a.z !== b.z ) { + + return b.z - a.z; + + } else { + + return a.id - b.id; + + } + +} + + +function WebGLRenderList() { + + const renderItems = []; + let renderItemsIndex = 0; + + const opaque = []; + const transmissive = []; + const transparent = []; + + function init() { + + renderItemsIndex = 0; + + opaque.length = 0; + transmissive.length = 0; + transparent.length = 0; + + } + + function getNextRenderItem( object, geometry, material, groupOrder, z, group ) { + + let renderItem = renderItems[ renderItemsIndex ]; + + if ( renderItem === undefined ) { + + renderItem = { + id: object.id, + object: object, + geometry: geometry, + material: material, + groupOrder: groupOrder, + renderOrder: object.renderOrder, + z: z, + group: group + }; + + renderItems[ renderItemsIndex ] = renderItem; + + } else { + + renderItem.id = object.id; + renderItem.object = object; + renderItem.geometry = geometry; + renderItem.material = material; + renderItem.groupOrder = groupOrder; + renderItem.renderOrder = object.renderOrder; + renderItem.z = z; + renderItem.group = group; + + } + + renderItemsIndex ++; + + return renderItem; + + } + + function push( object, geometry, material, groupOrder, z, group ) { + + const renderItem = getNextRenderItem( object, geometry, material, groupOrder, z, group ); + + if ( material.transmission > 0.0 ) { + + transmissive.push( renderItem ); + + } else if ( material.transparent === true ) { + + transparent.push( renderItem ); + + } else { + + opaque.push( renderItem ); + + } + + } + + function unshift( object, geometry, material, groupOrder, z, group ) { + + const renderItem = getNextRenderItem( object, geometry, material, groupOrder, z, group ); + + if ( material.transmission > 0.0 ) { + + transmissive.unshift( renderItem ); + + } else if ( material.transparent === true ) { + + transparent.unshift( renderItem ); + + } else { + + opaque.unshift( renderItem ); + + } + + } + + function sort( customOpaqueSort, customTransparentSort ) { + + if ( opaque.length > 1 ) opaque.sort( customOpaqueSort || painterSortStable ); + if ( transmissive.length > 1 ) transmissive.sort( customTransparentSort || reversePainterSortStable ); + if ( transparent.length > 1 ) transparent.sort( customTransparentSort || reversePainterSortStable ); + + } + + function finish() { + + // Clear references from inactive renderItems in the list + + for ( let i = renderItemsIndex, il = renderItems.length; i < il; i ++ ) { + + const renderItem = renderItems[ i ]; + + if ( renderItem.id === null ) break; + + renderItem.id = null; + renderItem.object = null; + renderItem.geometry = null; + renderItem.material = null; + renderItem.group = null; + + } + + } + + return { + + opaque: opaque, + transmissive: transmissive, + transparent: transparent, + + init: init, + push: push, + unshift: unshift, + finish: finish, + + sort: sort + }; + +} + +function WebGLRenderLists() { + + let lists = new WeakMap(); + + function get( scene, renderCallDepth ) { + + const listArray = lists.get( scene ); + let list; + + if ( listArray === undefined ) { + + list = new WebGLRenderList(); + lists.set( scene, [ list ] ); + + } else { + + if ( renderCallDepth >= listArray.length ) { + + list = new WebGLRenderList(); + listArray.push( list ); + + } else { + + list = listArray[ renderCallDepth ]; + + } + + } + + return list; + + } + + function dispose() { + + lists = new WeakMap(); + + } + + return { + get: get, + dispose: dispose + }; + +} + +function UniformsCache() { + + const lights = {}; + + return { + + get: function ( light ) { + + if ( lights[ light.id ] !== undefined ) { + + return lights[ light.id ]; + + } + + let uniforms; + + switch ( light.type ) { + + case 'DirectionalLight': + uniforms = { + direction: new Vector3(), + color: new Color() + }; + break; + + case 'SpotLight': + uniforms = { + position: new Vector3(), + direction: new Vector3(), + color: new Color(), + distance: 0, + coneCos: 0, + penumbraCos: 0, + decay: 0 + }; + break; + + case 'PointLight': + uniforms = { + position: new Vector3(), + color: new Color(), + distance: 0, + decay: 0 + }; + break; + + case 'HemisphereLight': + uniforms = { + direction: new Vector3(), + skyColor: new Color(), + groundColor: new Color() + }; + break; + + case 'RectAreaLight': + uniforms = { + color: new Color(), + position: new Vector3(), + halfWidth: new Vector3(), + halfHeight: new Vector3() + }; + break; + + } + + lights[ light.id ] = uniforms; + + return uniforms; + + } + + }; + +} + +function ShadowUniformsCache() { + + const lights = {}; + + return { + + get: function ( light ) { + + if ( lights[ light.id ] !== undefined ) { + + return lights[ light.id ]; + + } + + let uniforms; + + switch ( light.type ) { + + case 'DirectionalLight': + uniforms = { + shadowIntensity: 1, + shadowBias: 0, + shadowNormalBias: 0, + shadowRadius: 1, + shadowMapSize: new Vector2() + }; + break; + + case 'SpotLight': + uniforms = { + shadowIntensity: 1, + shadowBias: 0, + shadowNormalBias: 0, + shadowRadius: 1, + shadowMapSize: new Vector2() + }; + break; + + case 'PointLight': + uniforms = { + shadowIntensity: 1, + shadowBias: 0, + shadowNormalBias: 0, + shadowRadius: 1, + shadowMapSize: new Vector2(), + shadowCameraNear: 1, + shadowCameraFar: 1000 + }; + break; + + // TODO (abelnation): set RectAreaLight shadow uniforms + + } + + lights[ light.id ] = uniforms; + + return uniforms; + + } + + }; + +} + + + +let nextVersion = 0; + +function shadowCastingAndTexturingLightsFirst( lightA, lightB ) { + + return ( lightB.castShadow ? 2 : 0 ) - ( lightA.castShadow ? 2 : 0 ) + ( lightB.map ? 1 : 0 ) - ( lightA.map ? 1 : 0 ); + +} + +function WebGLLights( extensions ) { + + const cache = new UniformsCache(); + + const shadowCache = ShadowUniformsCache(); + + const state = { + + version: 0, + + hash: { + directionalLength: -1, + pointLength: -1, + spotLength: -1, + rectAreaLength: -1, + hemiLength: -1, + + numDirectionalShadows: -1, + numPointShadows: -1, + numSpotShadows: -1, + numSpotMaps: -1, + + numLightProbes: -1 + }, + + ambient: [ 0, 0, 0 ], + probe: [], + directional: [], + directionalShadow: [], + directionalShadowMap: [], + directionalShadowMatrix: [], + spot: [], + spotLightMap: [], + spotShadow: [], + spotShadowMap: [], + spotLightMatrix: [], + rectArea: [], + rectAreaLTC1: null, + rectAreaLTC2: null, + point: [], + pointShadow: [], + pointShadowMap: [], + pointShadowMatrix: [], + hemi: [], + numSpotLightShadowsWithMaps: 0, + numLightProbes: 0 + + }; + + for ( let i = 0; i < 9; i ++ ) state.probe.push( new Vector3() ); + + const vector3 = new Vector3(); + const matrix4 = new Matrix4(); + const matrix42 = new Matrix4(); + + function setup( lights ) { + + let r = 0, g = 0, b = 0; + + for ( let i = 0; i < 9; i ++ ) state.probe[ i ].set( 0, 0, 0 ); + + let directionalLength = 0; + let pointLength = 0; + let spotLength = 0; + let rectAreaLength = 0; + let hemiLength = 0; + + let numDirectionalShadows = 0; + let numPointShadows = 0; + let numSpotShadows = 0; + let numSpotMaps = 0; + let numSpotShadowsWithMaps = 0; + + let numLightProbes = 0; + + // ordering : [shadow casting + map texturing, map texturing, shadow casting, none ] + lights.sort( shadowCastingAndTexturingLightsFirst ); + + for ( let i = 0, l = lights.length; i < l; i ++ ) { + + const light = lights[ i ]; + + const color = light.color; + const intensity = light.intensity; + const distance = light.distance; + + const shadowMap = ( light.shadow && light.shadow.map ) ? light.shadow.map.texture : null; + + if ( light.isAmbientLight ) { + + r += color.r * intensity; + g += color.g * intensity; + b += color.b * intensity; + + } else if ( light.isLightProbe ) { + + for ( let j = 0; j < 9; j ++ ) { + + state.probe[ j ].addScaledVector( light.sh.coefficients[ j ], intensity ); + + } + + numLightProbes ++; + + } else if ( light.isDirectionalLight ) { + + const uniforms = cache.get( light ); + + uniforms.color.copy( light.color ).multiplyScalar( light.intensity ); + + if ( light.castShadow ) { + + const shadow = light.shadow; + + const shadowUniforms = shadowCache.get( light ); + + shadowUniforms.shadowIntensity = shadow.intensity; + shadowUniforms.shadowBias = shadow.bias; + shadowUniforms.shadowNormalBias = shadow.normalBias; + shadowUniforms.shadowRadius = shadow.radius; + shadowUniforms.shadowMapSize = shadow.mapSize; + + state.directionalShadow[ directionalLength ] = shadowUniforms; + state.directionalShadowMap[ directionalLength ] = shadowMap; + state.directionalShadowMatrix[ directionalLength ] = light.shadow.matrix; + + numDirectionalShadows ++; + + } + + state.directional[ directionalLength ] = uniforms; + + directionalLength ++; + + } else if ( light.isSpotLight ) { + + const uniforms = cache.get( light ); + + uniforms.position.setFromMatrixPosition( light.matrixWorld ); + + uniforms.color.copy( color ).multiplyScalar( intensity ); + uniforms.distance = distance; + + uniforms.coneCos = Math.cos( light.angle ); + uniforms.penumbraCos = Math.cos( light.angle * ( 1 - light.penumbra ) ); + uniforms.decay = light.decay; + + state.spot[ spotLength ] = uniforms; + + const shadow = light.shadow; + + if ( light.map ) { + + state.spotLightMap[ numSpotMaps ] = light.map; + numSpotMaps ++; + + // make sure the lightMatrix is up to date + // TODO : do it if required only + shadow.updateMatrices( light ); + + if ( light.castShadow ) numSpotShadowsWithMaps ++; + + } + + state.spotLightMatrix[ spotLength ] = shadow.matrix; + + if ( light.castShadow ) { + + const shadowUniforms = shadowCache.get( light ); + + shadowUniforms.shadowIntensity = shadow.intensity; + shadowUniforms.shadowBias = shadow.bias; + shadowUniforms.shadowNormalBias = shadow.normalBias; + shadowUniforms.shadowRadius = shadow.radius; + shadowUniforms.shadowMapSize = shadow.mapSize; + + state.spotShadow[ spotLength ] = shadowUniforms; + state.spotShadowMap[ spotLength ] = shadowMap; + + numSpotShadows ++; + + } + + spotLength ++; + + } else if ( light.isRectAreaLight ) { + + const uniforms = cache.get( light ); + + uniforms.color.copy( color ).multiplyScalar( intensity ); + + uniforms.halfWidth.set( light.width * 0.5, 0.0, 0.0 ); + uniforms.halfHeight.set( 0.0, light.height * 0.5, 0.0 ); + + state.rectArea[ rectAreaLength ] = uniforms; + + rectAreaLength ++; + + } else if ( light.isPointLight ) { + + const uniforms = cache.get( light ); + + uniforms.color.copy( light.color ).multiplyScalar( light.intensity ); + uniforms.distance = light.distance; + uniforms.decay = light.decay; + + if ( light.castShadow ) { + + const shadow = light.shadow; + + const shadowUniforms = shadowCache.get( light ); + + shadowUniforms.shadowIntensity = shadow.intensity; + shadowUniforms.shadowBias = shadow.bias; + shadowUniforms.shadowNormalBias = shadow.normalBias; + shadowUniforms.shadowRadius = shadow.radius; + shadowUniforms.shadowMapSize = shadow.mapSize; + shadowUniforms.shadowCameraNear = shadow.camera.near; + shadowUniforms.shadowCameraFar = shadow.camera.far; + + state.pointShadow[ pointLength ] = shadowUniforms; + state.pointShadowMap[ pointLength ] = shadowMap; + state.pointShadowMatrix[ pointLength ] = light.shadow.matrix; + + numPointShadows ++; + + } + + state.point[ pointLength ] = uniforms; + + pointLength ++; + + } else if ( light.isHemisphereLight ) { + + const uniforms = cache.get( light ); + + uniforms.skyColor.copy( light.color ).multiplyScalar( intensity ); + uniforms.groundColor.copy( light.groundColor ).multiplyScalar( intensity ); + + state.hemi[ hemiLength ] = uniforms; + + hemiLength ++; + + } + + } + + if ( rectAreaLength > 0 ) { + + if ( extensions.has( 'OES_texture_float_linear' ) === true ) { + + state.rectAreaLTC1 = UniformsLib.LTC_FLOAT_1; + state.rectAreaLTC2 = UniformsLib.LTC_FLOAT_2; + + } else { + + state.rectAreaLTC1 = UniformsLib.LTC_HALF_1; + state.rectAreaLTC2 = UniformsLib.LTC_HALF_2; + + } + + } + + state.ambient[ 0 ] = r; + state.ambient[ 1 ] = g; + state.ambient[ 2 ] = b; + + const hash = state.hash; + + if ( hash.directionalLength !== directionalLength || + hash.pointLength !== pointLength || + hash.spotLength !== spotLength || + hash.rectAreaLength !== rectAreaLength || + hash.hemiLength !== hemiLength || + hash.numDirectionalShadows !== numDirectionalShadows || + hash.numPointShadows !== numPointShadows || + hash.numSpotShadows !== numSpotShadows || + hash.numSpotMaps !== numSpotMaps || + hash.numLightProbes !== numLightProbes ) { + + state.directional.length = directionalLength; + state.spot.length = spotLength; + state.rectArea.length = rectAreaLength; + state.point.length = pointLength; + state.hemi.length = hemiLength; + + state.directionalShadow.length = numDirectionalShadows; + state.directionalShadowMap.length = numDirectionalShadows; + state.pointShadow.length = numPointShadows; + state.pointShadowMap.length = numPointShadows; + state.spotShadow.length = numSpotShadows; + state.spotShadowMap.length = numSpotShadows; + state.directionalShadowMatrix.length = numDirectionalShadows; + state.pointShadowMatrix.length = numPointShadows; + state.spotLightMatrix.length = numSpotShadows + numSpotMaps - numSpotShadowsWithMaps; + state.spotLightMap.length = numSpotMaps; + state.numSpotLightShadowsWithMaps = numSpotShadowsWithMaps; + state.numLightProbes = numLightProbes; + + hash.directionalLength = directionalLength; + hash.pointLength = pointLength; + hash.spotLength = spotLength; + hash.rectAreaLength = rectAreaLength; + hash.hemiLength = hemiLength; + + hash.numDirectionalShadows = numDirectionalShadows; + hash.numPointShadows = numPointShadows; + hash.numSpotShadows = numSpotShadows; + hash.numSpotMaps = numSpotMaps; + + hash.numLightProbes = numLightProbes; + + state.version = nextVersion ++; + + } + + } + + function setupView( lights, camera ) { + + let directionalLength = 0; + let pointLength = 0; + let spotLength = 0; + let rectAreaLength = 0; + let hemiLength = 0; + + const viewMatrix = camera.matrixWorldInverse; + + for ( let i = 0, l = lights.length; i < l; i ++ ) { + + const light = lights[ i ]; + + if ( light.isDirectionalLight ) { + + const uniforms = state.directional[ directionalLength ]; + + uniforms.direction.setFromMatrixPosition( light.matrixWorld ); + vector3.setFromMatrixPosition( light.target.matrixWorld ); + uniforms.direction.sub( vector3 ); + uniforms.direction.transformDirection( viewMatrix ); + + directionalLength ++; + + } else if ( light.isSpotLight ) { + + const uniforms = state.spot[ spotLength ]; + + uniforms.position.setFromMatrixPosition( light.matrixWorld ); + uniforms.position.applyMatrix4( viewMatrix ); + + uniforms.direction.setFromMatrixPosition( light.matrixWorld ); + vector3.setFromMatrixPosition( light.target.matrixWorld ); + uniforms.direction.sub( vector3 ); + uniforms.direction.transformDirection( viewMatrix ); + + spotLength ++; + + } else if ( light.isRectAreaLight ) { + + const uniforms = state.rectArea[ rectAreaLength ]; + + uniforms.position.setFromMatrixPosition( light.matrixWorld ); + uniforms.position.applyMatrix4( viewMatrix ); + + // extract local rotation of light to derive width/height half vectors + matrix42.identity(); + matrix4.copy( light.matrixWorld ); + matrix4.premultiply( viewMatrix ); + matrix42.extractRotation( matrix4 ); + + uniforms.halfWidth.set( light.width * 0.5, 0.0, 0.0 ); + uniforms.halfHeight.set( 0.0, light.height * 0.5, 0.0 ); + + uniforms.halfWidth.applyMatrix4( matrix42 ); + uniforms.halfHeight.applyMatrix4( matrix42 ); + + rectAreaLength ++; + + } else if ( light.isPointLight ) { + + const uniforms = state.point[ pointLength ]; + + uniforms.position.setFromMatrixPosition( light.matrixWorld ); + uniforms.position.applyMatrix4( viewMatrix ); + + pointLength ++; + + } else if ( light.isHemisphereLight ) { + + const uniforms = state.hemi[ hemiLength ]; + + uniforms.direction.setFromMatrixPosition( light.matrixWorld ); + uniforms.direction.transformDirection( viewMatrix ); + + hemiLength ++; + + } + + } + + } + + return { + setup: setup, + setupView: setupView, + state: state + }; + +} + +function WebGLRenderState( extensions ) { + + const lights = new WebGLLights( extensions ); + + const lightsArray = []; + const shadowsArray = []; + + function init( camera ) { + + state.camera = camera; + + lightsArray.length = 0; + shadowsArray.length = 0; + + } + + function pushLight( light ) { + + lightsArray.push( light ); + + } + + function pushShadow( shadowLight ) { + + shadowsArray.push( shadowLight ); + + } + + function setupLights() { + + lights.setup( lightsArray ); + + } + + function setupLightsView( camera ) { + + lights.setupView( lightsArray, camera ); + + } + + const state = { + lightsArray: lightsArray, + shadowsArray: shadowsArray, + + camera: null, + + lights: lights, + + transmissionRenderTarget: {} + }; + + return { + init: init, + state: state, + setupLights: setupLights, + setupLightsView: setupLightsView, + + pushLight: pushLight, + pushShadow: pushShadow + }; + +} + +function WebGLRenderStates( extensions ) { + + let renderStates = new WeakMap(); + + function get( scene, renderCallDepth = 0 ) { + + const renderStateArray = renderStates.get( scene ); + let renderState; + + if ( renderStateArray === undefined ) { + + renderState = new WebGLRenderState( extensions ); + renderStates.set( scene, [ renderState ] ); + + } else { + + if ( renderCallDepth >= renderStateArray.length ) { + + renderState = new WebGLRenderState( extensions ); + renderStateArray.push( renderState ); + + } else { + + renderState = renderStateArray[ renderCallDepth ]; + + } + + } + + return renderState; + + } + + function dispose() { + + renderStates = new WeakMap(); + + } + + return { + get: get, + dispose: dispose + }; + +} + +const vertex = "void main() {\n\tgl_Position = vec4( position, 1.0 );\n}"; + +const fragment = "uniform sampler2D shadow_pass;\nuniform vec2 resolution;\nuniform float radius;\n#include \nvoid main() {\n\tconst float samples = float( VSM_SAMPLES );\n\tfloat mean = 0.0;\n\tfloat squared_mean = 0.0;\n\tfloat uvStride = samples <= 1.0 ? 0.0 : 2.0 / ( samples - 1.0 );\n\tfloat uvStart = samples <= 1.0 ? 0.0 : - 1.0;\n\tfor ( float i = 0.0; i < samples; i ++ ) {\n\t\tfloat uvOffset = uvStart + i * uvStride;\n\t\t#ifdef HORIZONTAL_PASS\n\t\t\tvec2 distribution = unpackRGBATo2Half( texture2D( shadow_pass, ( gl_FragCoord.xy + vec2( uvOffset, 0.0 ) * radius ) / resolution ) );\n\t\t\tmean += distribution.x;\n\t\t\tsquared_mean += distribution.y * distribution.y + distribution.x * distribution.x;\n\t\t#else\n\t\t\tfloat depth = unpackRGBAToDepth( texture2D( shadow_pass, ( gl_FragCoord.xy + vec2( 0.0, uvOffset ) * radius ) / resolution ) );\n\t\t\tmean += depth;\n\t\t\tsquared_mean += depth * depth;\n\t\t#endif\n\t}\n\tmean = mean / samples;\n\tsquared_mean = squared_mean / samples;\n\tfloat std_dev = sqrt( squared_mean - mean * mean );\n\tgl_FragColor = pack2HalfToRGBA( vec2( mean, std_dev ) );\n}"; + +function WebGLShadowMap( renderer, objects, capabilities ) { + + let _frustum = new Frustum(); + + const _shadowMapSize = new Vector2(), + _viewportSize = new Vector2(), + + _viewport = new Vector4(), + + _depthMaterial = new MeshDepthMaterial( { depthPacking: RGBADepthPacking } ), + _distanceMaterial = new MeshDistanceMaterial(), + + _materialCache = {}, + + _maxTextureSize = capabilities.maxTextureSize; + + const shadowSide = { [ FrontSide ]: BackSide, [ BackSide ]: FrontSide, [ DoubleSide ]: DoubleSide }; + + const shadowMaterialVertical = new ShaderMaterial( { + defines: { + VSM_SAMPLES: 8 + }, + uniforms: { + shadow_pass: { value: null }, + resolution: { value: new Vector2() }, + radius: { value: 4.0 } + }, + + vertexShader: vertex, + fragmentShader: fragment + + } ); + + const shadowMaterialHorizontal = shadowMaterialVertical.clone(); + shadowMaterialHorizontal.defines.HORIZONTAL_PASS = 1; + + const fullScreenTri = new BufferGeometry(); + fullScreenTri.setAttribute( + 'position', + new BufferAttribute( + new Float32Array( [ -1, -1, 0.5, 3, -1, 0.5, -1, 3, 0.5 ] ), + 3 + ) + ); + + const fullScreenMesh = new Mesh( fullScreenTri, shadowMaterialVertical ); + + const scope = this; + + this.enabled = false; + + this.autoUpdate = true; + this.needsUpdate = false; + + this.type = PCFShadowMap; + let _previousType = this.type; + + this.render = function ( lights, scene, camera ) { + + if ( scope.enabled === false ) return; + if ( scope.autoUpdate === false && scope.needsUpdate === false ) return; + + if ( lights.length === 0 ) return; + + const currentRenderTarget = renderer.getRenderTarget(); + const activeCubeFace = renderer.getActiveCubeFace(); + const activeMipmapLevel = renderer.getActiveMipmapLevel(); + + const _state = renderer.state; + + // Set GL state for depth map. + _state.setBlending( NoBlending ); + _state.buffers.color.setClear( 1, 1, 1, 1 ); + _state.buffers.depth.setTest( true ); + _state.setScissorTest( false ); + + // check for shadow map type changes + + const toVSM = ( _previousType !== VSMShadowMap && this.type === VSMShadowMap ); + const fromVSM = ( _previousType === VSMShadowMap && this.type !== VSMShadowMap ); + + // render depth map + + for ( let i = 0, il = lights.length; i < il; i ++ ) { + + const light = lights[ i ]; + const shadow = light.shadow; + + if ( shadow === undefined ) { + + console.warn( 'THREE.WebGLShadowMap:', light, 'has no shadow.' ); + continue; + + } + + if ( shadow.autoUpdate === false && shadow.needsUpdate === false ) continue; + + _shadowMapSize.copy( shadow.mapSize ); + + const shadowFrameExtents = shadow.getFrameExtents(); + + _shadowMapSize.multiply( shadowFrameExtents ); + + _viewportSize.copy( shadow.mapSize ); + + if ( _shadowMapSize.x > _maxTextureSize || _shadowMapSize.y > _maxTextureSize ) { + + if ( _shadowMapSize.x > _maxTextureSize ) { + + _viewportSize.x = Math.floor( _maxTextureSize / shadowFrameExtents.x ); + _shadowMapSize.x = _viewportSize.x * shadowFrameExtents.x; + shadow.mapSize.x = _viewportSize.x; + + } + + if ( _shadowMapSize.y > _maxTextureSize ) { + + _viewportSize.y = Math.floor( _maxTextureSize / shadowFrameExtents.y ); + _shadowMapSize.y = _viewportSize.y * shadowFrameExtents.y; + shadow.mapSize.y = _viewportSize.y; + + } + + } + + if ( shadow.map === null || toVSM === true || fromVSM === true ) { + + const pars = ( this.type !== VSMShadowMap ) ? { minFilter: NearestFilter, magFilter: NearestFilter } : {}; + + if ( shadow.map !== null ) { + + shadow.map.dispose(); + + } + + shadow.map = new WebGLRenderTarget( _shadowMapSize.x, _shadowMapSize.y, pars ); + shadow.map.texture.name = light.name + '.shadowMap'; + + shadow.camera.updateProjectionMatrix(); + + } + + renderer.setRenderTarget( shadow.map ); + renderer.clear(); + + const viewportCount = shadow.getViewportCount(); + + for ( let vp = 0; vp < viewportCount; vp ++ ) { + + const viewport = shadow.getViewport( vp ); + + _viewport.set( + _viewportSize.x * viewport.x, + _viewportSize.y * viewport.y, + _viewportSize.x * viewport.z, + _viewportSize.y * viewport.w + ); + + _state.viewport( _viewport ); + + shadow.updateMatrices( light, vp ); + + _frustum = shadow.getFrustum(); + + renderObject( scene, camera, shadow.camera, light, this.type ); + + } + + // do blur pass for VSM + + if ( shadow.isPointLightShadow !== true && this.type === VSMShadowMap ) { + + VSMPass( shadow, camera ); + + } + + shadow.needsUpdate = false; + + } + + _previousType = this.type; + + scope.needsUpdate = false; + + renderer.setRenderTarget( currentRenderTarget, activeCubeFace, activeMipmapLevel ); + + }; + + function VSMPass( shadow, camera ) { + + const geometry = objects.update( fullScreenMesh ); + + if ( shadowMaterialVertical.defines.VSM_SAMPLES !== shadow.blurSamples ) { + + shadowMaterialVertical.defines.VSM_SAMPLES = shadow.blurSamples; + shadowMaterialHorizontal.defines.VSM_SAMPLES = shadow.blurSamples; + + shadowMaterialVertical.needsUpdate = true; + shadowMaterialHorizontal.needsUpdate = true; + + } + + if ( shadow.mapPass === null ) { + + shadow.mapPass = new WebGLRenderTarget( _shadowMapSize.x, _shadowMapSize.y ); + + } + + // vertical pass + + shadowMaterialVertical.uniforms.shadow_pass.value = shadow.map.texture; + shadowMaterialVertical.uniforms.resolution.value = shadow.mapSize; + shadowMaterialVertical.uniforms.radius.value = shadow.radius; + renderer.setRenderTarget( shadow.mapPass ); + renderer.clear(); + renderer.renderBufferDirect( camera, null, geometry, shadowMaterialVertical, fullScreenMesh, null ); + + // horizontal pass + + shadowMaterialHorizontal.uniforms.shadow_pass.value = shadow.mapPass.texture; + shadowMaterialHorizontal.uniforms.resolution.value = shadow.mapSize; + shadowMaterialHorizontal.uniforms.radius.value = shadow.radius; + renderer.setRenderTarget( shadow.map ); + renderer.clear(); + renderer.renderBufferDirect( camera, null, geometry, shadowMaterialHorizontal, fullScreenMesh, null ); + + } + + function getDepthMaterial( object, material, light, type ) { + + let result = null; + + const customMaterial = ( light.isPointLight === true ) ? object.customDistanceMaterial : object.customDepthMaterial; + + if ( customMaterial !== undefined ) { + + result = customMaterial; + + } else { + + result = ( light.isPointLight === true ) ? _distanceMaterial : _depthMaterial; + + if ( ( renderer.localClippingEnabled && material.clipShadows === true && Array.isArray( material.clippingPlanes ) && material.clippingPlanes.length !== 0 ) || + ( material.displacementMap && material.displacementScale !== 0 ) || + ( material.alphaMap && material.alphaTest > 0 ) || + ( material.map && material.alphaTest > 0 ) ) { + + // in this case we need a unique material instance reflecting the + // appropriate state + + const keyA = result.uuid, keyB = material.uuid; + + let materialsForVariant = _materialCache[ keyA ]; + + if ( materialsForVariant === undefined ) { + + materialsForVariant = {}; + _materialCache[ keyA ] = materialsForVariant; + + } + + let cachedMaterial = materialsForVariant[ keyB ]; + + if ( cachedMaterial === undefined ) { + + cachedMaterial = result.clone(); + materialsForVariant[ keyB ] = cachedMaterial; + material.addEventListener( 'dispose', onMaterialDispose ); + + } + + result = cachedMaterial; + + } + + } + + result.visible = material.visible; + result.wireframe = material.wireframe; + + if ( type === VSMShadowMap ) { + + result.side = ( material.shadowSide !== null ) ? material.shadowSide : material.side; + + } else { + + result.side = ( material.shadowSide !== null ) ? material.shadowSide : shadowSide[ material.side ]; + + } + + result.alphaMap = material.alphaMap; + result.alphaTest = material.alphaTest; + result.map = material.map; + + result.clipShadows = material.clipShadows; + result.clippingPlanes = material.clippingPlanes; + result.clipIntersection = material.clipIntersection; + + result.displacementMap = material.displacementMap; + result.displacementScale = material.displacementScale; + result.displacementBias = material.displacementBias; + + result.wireframeLinewidth = material.wireframeLinewidth; + result.linewidth = material.linewidth; + + if ( light.isPointLight === true && result.isMeshDistanceMaterial === true ) { + + const materialProperties = renderer.properties.get( result ); + materialProperties.light = light; + + } + + return result; + + } + + function renderObject( object, camera, shadowCamera, light, type ) { + + if ( object.visible === false ) return; + + const visible = object.layers.test( camera.layers ); + + if ( visible && ( object.isMesh || object.isLine || object.isPoints ) ) { + + if ( ( object.castShadow || ( object.receiveShadow && type === VSMShadowMap ) ) && ( ! object.frustumCulled || _frustum.intersectsObject( object ) ) ) { + + object.modelViewMatrix.multiplyMatrices( shadowCamera.matrixWorldInverse, object.matrixWorld ); + + const geometry = objects.update( object ); + const material = object.material; + + if ( Array.isArray( material ) ) { + + const groups = geometry.groups; + + for ( let k = 0, kl = groups.length; k < kl; k ++ ) { + + const group = groups[ k ]; + const groupMaterial = material[ group.materialIndex ]; + + if ( groupMaterial && groupMaterial.visible ) { + + const depthMaterial = getDepthMaterial( object, groupMaterial, light, type ); + + object.onBeforeShadow( renderer, object, camera, shadowCamera, geometry, depthMaterial, group ); + + renderer.renderBufferDirect( shadowCamera, null, geometry, depthMaterial, object, group ); + + object.onAfterShadow( renderer, object, camera, shadowCamera, geometry, depthMaterial, group ); + + } + + } + + } else if ( material.visible ) { + + const depthMaterial = getDepthMaterial( object, material, light, type ); + + object.onBeforeShadow( renderer, object, camera, shadowCamera, geometry, depthMaterial, null ); + + renderer.renderBufferDirect( shadowCamera, null, geometry, depthMaterial, object, null ); + + object.onAfterShadow( renderer, object, camera, shadowCamera, geometry, depthMaterial, null ); + + } + + } + + } + + const children = object.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + renderObject( children[ i ], camera, shadowCamera, light, type ); + + } + + } + + function onMaterialDispose( event ) { + + const material = event.target; + + material.removeEventListener( 'dispose', onMaterialDispose ); + + // make sure to remove the unique distance/depth materials used for shadow map rendering + + for ( const id in _materialCache ) { + + const cache = _materialCache[ id ]; + + const uuid = event.target.uuid; + + if ( uuid in cache ) { + + const shadowMaterial = cache[ uuid ]; + shadowMaterial.dispose(); + delete cache[ uuid ]; + + } + + } + + } + +} + +const reversedFuncs = { + [ NeverDepth ]: AlwaysDepth, + [ LessDepth ]: GreaterDepth, + [ EqualDepth ]: NotEqualDepth, + [ LessEqualDepth ]: GreaterEqualDepth, + + [ AlwaysDepth ]: NeverDepth, + [ GreaterDepth ]: LessDepth, + [ NotEqualDepth ]: EqualDepth, + [ GreaterEqualDepth ]: LessEqualDepth, +}; + +function WebGLState( gl, extensions ) { + + function ColorBuffer() { + + let locked = false; + + const color = new Vector4(); + let currentColorMask = null; + const currentColorClear = new Vector4( 0, 0, 0, 0 ); + + return { + + setMask: function ( colorMask ) { + + if ( currentColorMask !== colorMask && ! locked ) { + + gl.colorMask( colorMask, colorMask, colorMask, colorMask ); + currentColorMask = colorMask; + + } + + }, + + setLocked: function ( lock ) { + + locked = lock; + + }, + + setClear: function ( r, g, b, a, premultipliedAlpha ) { + + if ( premultipliedAlpha === true ) { + + r *= a; g *= a; b *= a; + + } + + color.set( r, g, b, a ); + + if ( currentColorClear.equals( color ) === false ) { + + gl.clearColor( r, g, b, a ); + currentColorClear.copy( color ); + + } + + }, + + reset: function () { + + locked = false; + + currentColorMask = null; + currentColorClear.set( -1, 0, 0, 0 ); // set to invalid state + + } + + }; + + } + + function DepthBuffer() { + + let locked = false; + let reversed = false; + + let currentDepthMask = null; + let currentDepthFunc = null; + let currentDepthClear = null; + + return { + + setReversed: function ( value ) { + + if ( reversed !== value ) { + + const ext = extensions.get( 'EXT_clip_control' ); + + if ( reversed ) { + + ext.clipControlEXT( ext.LOWER_LEFT_EXT, ext.ZERO_TO_ONE_EXT ); + + } else { + + ext.clipControlEXT( ext.LOWER_LEFT_EXT, ext.NEGATIVE_ONE_TO_ONE_EXT ); + + } + + const oldDepth = currentDepthClear; + currentDepthClear = null; + this.setClear( oldDepth ); + + } + + reversed = value; + + }, + + getReversed: function () { + + return reversed; + + }, + + setTest: function ( depthTest ) { + + if ( depthTest ) { + + enable( gl.DEPTH_TEST ); + + } else { + + disable( gl.DEPTH_TEST ); + + } + + }, + + setMask: function ( depthMask ) { + + if ( currentDepthMask !== depthMask && ! locked ) { + + gl.depthMask( depthMask ); + currentDepthMask = depthMask; + + } + + }, + + setFunc: function ( depthFunc ) { + + if ( reversed ) depthFunc = reversedFuncs[ depthFunc ]; + + if ( currentDepthFunc !== depthFunc ) { + + switch ( depthFunc ) { + + case NeverDepth: + + gl.depthFunc( gl.NEVER ); + break; + + case AlwaysDepth: + + gl.depthFunc( gl.ALWAYS ); + break; + + case LessDepth: + + gl.depthFunc( gl.LESS ); + break; + + case LessEqualDepth: + + gl.depthFunc( gl.LEQUAL ); + break; + + case EqualDepth: + + gl.depthFunc( gl.EQUAL ); + break; + + case GreaterEqualDepth: + + gl.depthFunc( gl.GEQUAL ); + break; + + case GreaterDepth: + + gl.depthFunc( gl.GREATER ); + break; + + case NotEqualDepth: + + gl.depthFunc( gl.NOTEQUAL ); + break; + + default: + + gl.depthFunc( gl.LEQUAL ); + + } + + currentDepthFunc = depthFunc; + + } + + }, + + setLocked: function ( lock ) { + + locked = lock; + + }, + + setClear: function ( depth ) { + + if ( currentDepthClear !== depth ) { + + if ( reversed ) { + + depth = 1 - depth; + + } + + gl.clearDepth( depth ); + currentDepthClear = depth; + + } + + }, + + reset: function () { + + locked = false; + + currentDepthMask = null; + currentDepthFunc = null; + currentDepthClear = null; + reversed = false; + + } + + }; + + } + + function StencilBuffer() { + + let locked = false; + + let currentStencilMask = null; + let currentStencilFunc = null; + let currentStencilRef = null; + let currentStencilFuncMask = null; + let currentStencilFail = null; + let currentStencilZFail = null; + let currentStencilZPass = null; + let currentStencilClear = null; + + return { + + setTest: function ( stencilTest ) { + + if ( ! locked ) { + + if ( stencilTest ) { + + enable( gl.STENCIL_TEST ); + + } else { + + disable( gl.STENCIL_TEST ); + + } + + } + + }, + + setMask: function ( stencilMask ) { + + if ( currentStencilMask !== stencilMask && ! locked ) { + + gl.stencilMask( stencilMask ); + currentStencilMask = stencilMask; + + } + + }, + + setFunc: function ( stencilFunc, stencilRef, stencilMask ) { + + if ( currentStencilFunc !== stencilFunc || + currentStencilRef !== stencilRef || + currentStencilFuncMask !== stencilMask ) { + + gl.stencilFunc( stencilFunc, stencilRef, stencilMask ); + + currentStencilFunc = stencilFunc; + currentStencilRef = stencilRef; + currentStencilFuncMask = stencilMask; + + } + + }, + + setOp: function ( stencilFail, stencilZFail, stencilZPass ) { + + if ( currentStencilFail !== stencilFail || + currentStencilZFail !== stencilZFail || + currentStencilZPass !== stencilZPass ) { + + gl.stencilOp( stencilFail, stencilZFail, stencilZPass ); + + currentStencilFail = stencilFail; + currentStencilZFail = stencilZFail; + currentStencilZPass = stencilZPass; + + } + + }, + + setLocked: function ( lock ) { + + locked = lock; + + }, + + setClear: function ( stencil ) { + + if ( currentStencilClear !== stencil ) { + + gl.clearStencil( stencil ); + currentStencilClear = stencil; + + } + + }, + + reset: function () { + + locked = false; + + currentStencilMask = null; + currentStencilFunc = null; + currentStencilRef = null; + currentStencilFuncMask = null; + currentStencilFail = null; + currentStencilZFail = null; + currentStencilZPass = null; + currentStencilClear = null; + + } + + }; + + } + + // + + const colorBuffer = new ColorBuffer(); + const depthBuffer = new DepthBuffer(); + const stencilBuffer = new StencilBuffer(); + + const uboBindings = new WeakMap(); + const uboProgramMap = new WeakMap(); + + let enabledCapabilities = {}; + + let currentBoundFramebuffers = {}; + let currentDrawbuffers = new WeakMap(); + let defaultDrawbuffers = []; + + let currentProgram = null; + + let currentBlendingEnabled = false; + let currentBlending = null; + let currentBlendEquation = null; + let currentBlendSrc = null; + let currentBlendDst = null; + let currentBlendEquationAlpha = null; + let currentBlendSrcAlpha = null; + let currentBlendDstAlpha = null; + let currentBlendColor = new Color( 0, 0, 0 ); + let currentBlendAlpha = 0; + let currentPremultipledAlpha = false; + + let currentFlipSided = null; + let currentCullFace = null; + + let currentLineWidth = null; + + let currentPolygonOffsetFactor = null; + let currentPolygonOffsetUnits = null; + + const maxTextures = gl.getParameter( gl.MAX_COMBINED_TEXTURE_IMAGE_UNITS ); + + let lineWidthAvailable = false; + let version = 0; + const glVersion = gl.getParameter( gl.VERSION ); + + if ( glVersion.indexOf( 'WebGL' ) !== -1 ) { + + version = parseFloat( /^WebGL (\d)/.exec( glVersion )[ 1 ] ); + lineWidthAvailable = ( version >= 1.0 ); + + } else if ( glVersion.indexOf( 'OpenGL ES' ) !== -1 ) { + + version = parseFloat( /^OpenGL ES (\d)/.exec( glVersion )[ 1 ] ); + lineWidthAvailable = ( version >= 2.0 ); + + } + + let currentTextureSlot = null; + let currentBoundTextures = {}; + + const scissorParam = gl.getParameter( gl.SCISSOR_BOX ); + const viewportParam = gl.getParameter( gl.VIEWPORT ); + + const currentScissor = new Vector4().fromArray( scissorParam ); + const currentViewport = new Vector4().fromArray( viewportParam ); + + function createTexture( type, target, count, dimensions ) { + + const data = new Uint8Array( 4 ); // 4 is required to match default unpack alignment of 4. + const texture = gl.createTexture(); + + gl.bindTexture( type, texture ); + gl.texParameteri( type, gl.TEXTURE_MIN_FILTER, gl.NEAREST ); + gl.texParameteri( type, gl.TEXTURE_MAG_FILTER, gl.NEAREST ); + + for ( let i = 0; i < count; i ++ ) { + + if ( type === gl.TEXTURE_3D || type === gl.TEXTURE_2D_ARRAY ) { + + gl.texImage3D( target, 0, gl.RGBA, 1, 1, dimensions, 0, gl.RGBA, gl.UNSIGNED_BYTE, data ); + + } else { + + gl.texImage2D( target + i, 0, gl.RGBA, 1, 1, 0, gl.RGBA, gl.UNSIGNED_BYTE, data ); + + } + + } + + return texture; + + } + + const emptyTextures = {}; + emptyTextures[ gl.TEXTURE_2D ] = createTexture( gl.TEXTURE_2D, gl.TEXTURE_2D, 1 ); + emptyTextures[ gl.TEXTURE_CUBE_MAP ] = createTexture( gl.TEXTURE_CUBE_MAP, gl.TEXTURE_CUBE_MAP_POSITIVE_X, 6 ); + emptyTextures[ gl.TEXTURE_2D_ARRAY ] = createTexture( gl.TEXTURE_2D_ARRAY, gl.TEXTURE_2D_ARRAY, 1, 1 ); + emptyTextures[ gl.TEXTURE_3D ] = createTexture( gl.TEXTURE_3D, gl.TEXTURE_3D, 1, 1 ); + + // init + + colorBuffer.setClear( 0, 0, 0, 1 ); + depthBuffer.setClear( 1 ); + stencilBuffer.setClear( 0 ); + + enable( gl.DEPTH_TEST ); + depthBuffer.setFunc( LessEqualDepth ); + + setFlipSided( false ); + setCullFace( CullFaceBack ); + enable( gl.CULL_FACE ); + + setBlending( NoBlending ); + + // + + function enable( id ) { + + if ( enabledCapabilities[ id ] !== true ) { + + gl.enable( id ); + enabledCapabilities[ id ] = true; + + } + + } + + function disable( id ) { + + if ( enabledCapabilities[ id ] !== false ) { + + gl.disable( id ); + enabledCapabilities[ id ] = false; + + } + + } + + function bindFramebuffer( target, framebuffer ) { + + if ( currentBoundFramebuffers[ target ] !== framebuffer ) { + + gl.bindFramebuffer( target, framebuffer ); + + currentBoundFramebuffers[ target ] = framebuffer; + + // gl.DRAW_FRAMEBUFFER is equivalent to gl.FRAMEBUFFER + + if ( target === gl.DRAW_FRAMEBUFFER ) { + + currentBoundFramebuffers[ gl.FRAMEBUFFER ] = framebuffer; + + } + + if ( target === gl.FRAMEBUFFER ) { + + currentBoundFramebuffers[ gl.DRAW_FRAMEBUFFER ] = framebuffer; + + } + + return true; + + } + + return false; + + } + + function drawBuffers( renderTarget, framebuffer ) { + + let drawBuffers = defaultDrawbuffers; + + let needsUpdate = false; + + if ( renderTarget ) { + + drawBuffers = currentDrawbuffers.get( framebuffer ); + + if ( drawBuffers === undefined ) { + + drawBuffers = []; + currentDrawbuffers.set( framebuffer, drawBuffers ); + + } + + const textures = renderTarget.textures; + + if ( drawBuffers.length !== textures.length || drawBuffers[ 0 ] !== gl.COLOR_ATTACHMENT0 ) { + + for ( let i = 0, il = textures.length; i < il; i ++ ) { + + drawBuffers[ i ] = gl.COLOR_ATTACHMENT0 + i; + + } + + drawBuffers.length = textures.length; + + needsUpdate = true; + + } + + } else { + + if ( drawBuffers[ 0 ] !== gl.BACK ) { + + drawBuffers[ 0 ] = gl.BACK; + + needsUpdate = true; + + } + + } + + if ( needsUpdate ) { + + gl.drawBuffers( drawBuffers ); + + } + + } + + function useProgram( program ) { + + if ( currentProgram !== program ) { + + gl.useProgram( program ); + + currentProgram = program; + + return true; + + } + + return false; + + } + + const equationToGL = { + [ AddEquation ]: gl.FUNC_ADD, + [ SubtractEquation ]: gl.FUNC_SUBTRACT, + [ ReverseSubtractEquation ]: gl.FUNC_REVERSE_SUBTRACT + }; + + equationToGL[ MinEquation ] = gl.MIN; + equationToGL[ MaxEquation ] = gl.MAX; + + const factorToGL = { + [ ZeroFactor ]: gl.ZERO, + [ OneFactor ]: gl.ONE, + [ SrcColorFactor ]: gl.SRC_COLOR, + [ SrcAlphaFactor ]: gl.SRC_ALPHA, + [ SrcAlphaSaturateFactor ]: gl.SRC_ALPHA_SATURATE, + [ DstColorFactor ]: gl.DST_COLOR, + [ DstAlphaFactor ]: gl.DST_ALPHA, + [ OneMinusSrcColorFactor ]: gl.ONE_MINUS_SRC_COLOR, + [ OneMinusSrcAlphaFactor ]: gl.ONE_MINUS_SRC_ALPHA, + [ OneMinusDstColorFactor ]: gl.ONE_MINUS_DST_COLOR, + [ OneMinusDstAlphaFactor ]: gl.ONE_MINUS_DST_ALPHA, + [ ConstantColorFactor ]: gl.CONSTANT_COLOR, + [ OneMinusConstantColorFactor ]: gl.ONE_MINUS_CONSTANT_COLOR, + [ ConstantAlphaFactor ]: gl.CONSTANT_ALPHA, + [ OneMinusConstantAlphaFactor ]: gl.ONE_MINUS_CONSTANT_ALPHA + }; + + function setBlending( blending, blendEquation, blendSrc, blendDst, blendEquationAlpha, blendSrcAlpha, blendDstAlpha, blendColor, blendAlpha, premultipliedAlpha ) { + + if ( blending === NoBlending ) { + + if ( currentBlendingEnabled === true ) { + + disable( gl.BLEND ); + currentBlendingEnabled = false; + + } + + return; + + } + + if ( currentBlendingEnabled === false ) { + + enable( gl.BLEND ); + currentBlendingEnabled = true; + + } + + if ( blending !== CustomBlending ) { + + if ( blending !== currentBlending || premultipliedAlpha !== currentPremultipledAlpha ) { + + if ( currentBlendEquation !== AddEquation || currentBlendEquationAlpha !== AddEquation ) { + + gl.blendEquation( gl.FUNC_ADD ); + + currentBlendEquation = AddEquation; + currentBlendEquationAlpha = AddEquation; + + } + + if ( premultipliedAlpha ) { + + switch ( blending ) { + + case NormalBlending: + gl.blendFuncSeparate( gl.ONE, gl.ONE_MINUS_SRC_ALPHA, gl.ONE, gl.ONE_MINUS_SRC_ALPHA ); + break; + + case AdditiveBlending: + gl.blendFunc( gl.ONE, gl.ONE ); + break; + + case SubtractiveBlending: + gl.blendFuncSeparate( gl.ZERO, gl.ONE_MINUS_SRC_COLOR, gl.ZERO, gl.ONE ); + break; + + case MultiplyBlending: + gl.blendFuncSeparate( gl.ZERO, gl.SRC_COLOR, gl.ZERO, gl.SRC_ALPHA ); + break; + + default: + console.error( 'THREE.WebGLState: Invalid blending: ', blending ); + break; + + } + + } else { + + switch ( blending ) { + + case NormalBlending: + gl.blendFuncSeparate( gl.SRC_ALPHA, gl.ONE_MINUS_SRC_ALPHA, gl.ONE, gl.ONE_MINUS_SRC_ALPHA ); + break; + + case AdditiveBlending: + gl.blendFunc( gl.SRC_ALPHA, gl.ONE ); + break; + + case SubtractiveBlending: + gl.blendFuncSeparate( gl.ZERO, gl.ONE_MINUS_SRC_COLOR, gl.ZERO, gl.ONE ); + break; + + case MultiplyBlending: + gl.blendFunc( gl.ZERO, gl.SRC_COLOR ); + break; + + default: + console.error( 'THREE.WebGLState: Invalid blending: ', blending ); + break; + + } + + } + + currentBlendSrc = null; + currentBlendDst = null; + currentBlendSrcAlpha = null; + currentBlendDstAlpha = null; + currentBlendColor.set( 0, 0, 0 ); + currentBlendAlpha = 0; + + currentBlending = blending; + currentPremultipledAlpha = premultipliedAlpha; + + } + + return; + + } + + // custom blending + + blendEquationAlpha = blendEquationAlpha || blendEquation; + blendSrcAlpha = blendSrcAlpha || blendSrc; + blendDstAlpha = blendDstAlpha || blendDst; + + if ( blendEquation !== currentBlendEquation || blendEquationAlpha !== currentBlendEquationAlpha ) { + + gl.blendEquationSeparate( equationToGL[ blendEquation ], equationToGL[ blendEquationAlpha ] ); + + currentBlendEquation = blendEquation; + currentBlendEquationAlpha = blendEquationAlpha; + + } + + if ( blendSrc !== currentBlendSrc || blendDst !== currentBlendDst || blendSrcAlpha !== currentBlendSrcAlpha || blendDstAlpha !== currentBlendDstAlpha ) { + + gl.blendFuncSeparate( factorToGL[ blendSrc ], factorToGL[ blendDst ], factorToGL[ blendSrcAlpha ], factorToGL[ blendDstAlpha ] ); + + currentBlendSrc = blendSrc; + currentBlendDst = blendDst; + currentBlendSrcAlpha = blendSrcAlpha; + currentBlendDstAlpha = blendDstAlpha; + + } + + if ( blendColor.equals( currentBlendColor ) === false || blendAlpha !== currentBlendAlpha ) { + + gl.blendColor( blendColor.r, blendColor.g, blendColor.b, blendAlpha ); + + currentBlendColor.copy( blendColor ); + currentBlendAlpha = blendAlpha; + + } + + currentBlending = blending; + currentPremultipledAlpha = false; + + } + + function setMaterial( material, frontFaceCW ) { + + material.side === DoubleSide + ? disable( gl.CULL_FACE ) + : enable( gl.CULL_FACE ); + + let flipSided = ( material.side === BackSide ); + if ( frontFaceCW ) flipSided = ! flipSided; + + setFlipSided( flipSided ); + + ( material.blending === NormalBlending && material.transparent === false ) + ? setBlending( NoBlending ) + : setBlending( material.blending, material.blendEquation, material.blendSrc, material.blendDst, material.blendEquationAlpha, material.blendSrcAlpha, material.blendDstAlpha, material.blendColor, material.blendAlpha, material.premultipliedAlpha ); + + depthBuffer.setFunc( material.depthFunc ); + depthBuffer.setTest( material.depthTest ); + depthBuffer.setMask( material.depthWrite ); + colorBuffer.setMask( material.colorWrite ); + + const stencilWrite = material.stencilWrite; + stencilBuffer.setTest( stencilWrite ); + if ( stencilWrite ) { + + stencilBuffer.setMask( material.stencilWriteMask ); + stencilBuffer.setFunc( material.stencilFunc, material.stencilRef, material.stencilFuncMask ); + stencilBuffer.setOp( material.stencilFail, material.stencilZFail, material.stencilZPass ); + + } + + setPolygonOffset( material.polygonOffset, material.polygonOffsetFactor, material.polygonOffsetUnits ); + + material.alphaToCoverage === true + ? enable( gl.SAMPLE_ALPHA_TO_COVERAGE ) + : disable( gl.SAMPLE_ALPHA_TO_COVERAGE ); + + } + + // + + function setFlipSided( flipSided ) { + + if ( currentFlipSided !== flipSided ) { + + if ( flipSided ) { + + gl.frontFace( gl.CW ); + + } else { + + gl.frontFace( gl.CCW ); + + } + + currentFlipSided = flipSided; + + } + + } + + function setCullFace( cullFace ) { + + if ( cullFace !== CullFaceNone ) { + + enable( gl.CULL_FACE ); + + if ( cullFace !== currentCullFace ) { + + if ( cullFace === CullFaceBack ) { + + gl.cullFace( gl.BACK ); + + } else if ( cullFace === CullFaceFront ) { + + gl.cullFace( gl.FRONT ); + + } else { + + gl.cullFace( gl.FRONT_AND_BACK ); + + } + + } + + } else { + + disable( gl.CULL_FACE ); + + } + + currentCullFace = cullFace; + + } + + function setLineWidth( width ) { + + if ( width !== currentLineWidth ) { + + if ( lineWidthAvailable ) gl.lineWidth( width ); + + currentLineWidth = width; + + } + + } + + function setPolygonOffset( polygonOffset, factor, units ) { + + if ( polygonOffset ) { + + enable( gl.POLYGON_OFFSET_FILL ); + + if ( currentPolygonOffsetFactor !== factor || currentPolygonOffsetUnits !== units ) { + + gl.polygonOffset( factor, units ); + + currentPolygonOffsetFactor = factor; + currentPolygonOffsetUnits = units; + + } + + } else { + + disable( gl.POLYGON_OFFSET_FILL ); + + } + + } + + function setScissorTest( scissorTest ) { + + if ( scissorTest ) { + + enable( gl.SCISSOR_TEST ); + + } else { + + disable( gl.SCISSOR_TEST ); + + } + + } + + // texture + + function activeTexture( webglSlot ) { + + if ( webglSlot === undefined ) webglSlot = gl.TEXTURE0 + maxTextures - 1; + + if ( currentTextureSlot !== webglSlot ) { + + gl.activeTexture( webglSlot ); + currentTextureSlot = webglSlot; + + } + + } + + function bindTexture( webglType, webglTexture, webglSlot ) { + + if ( webglSlot === undefined ) { + + if ( currentTextureSlot === null ) { + + webglSlot = gl.TEXTURE0 + maxTextures - 1; + + } else { + + webglSlot = currentTextureSlot; + + } + + } + + let boundTexture = currentBoundTextures[ webglSlot ]; + + if ( boundTexture === undefined ) { + + boundTexture = { type: undefined, texture: undefined }; + currentBoundTextures[ webglSlot ] = boundTexture; + + } + + if ( boundTexture.type !== webglType || boundTexture.texture !== webglTexture ) { + + if ( currentTextureSlot !== webglSlot ) { + + gl.activeTexture( webglSlot ); + currentTextureSlot = webglSlot; + + } + + gl.bindTexture( webglType, webglTexture || emptyTextures[ webglType ] ); + + boundTexture.type = webglType; + boundTexture.texture = webglTexture; + + } + + } + + function unbindTexture() { + + const boundTexture = currentBoundTextures[ currentTextureSlot ]; + + if ( boundTexture !== undefined && boundTexture.type !== undefined ) { + + gl.bindTexture( boundTexture.type, null ); + + boundTexture.type = undefined; + boundTexture.texture = undefined; + + } + + } + + function compressedTexImage2D() { + + try { + + gl.compressedTexImage2D( ...arguments ); + + } catch ( error ) { + + console.error( 'THREE.WebGLState:', error ); + + } + + } + + function compressedTexImage3D() { + + try { + + gl.compressedTexImage3D( ...arguments ); + + } catch ( error ) { + + console.error( 'THREE.WebGLState:', error ); + + } + + } + + function texSubImage2D() { + + try { + + gl.texSubImage2D( ...arguments ); + + } catch ( error ) { + + console.error( 'THREE.WebGLState:', error ); + + } + + } + + function texSubImage3D() { + + try { + + gl.texSubImage3D( ...arguments ); + + } catch ( error ) { + + console.error( 'THREE.WebGLState:', error ); + + } + + } + + function compressedTexSubImage2D() { + + try { + + gl.compressedTexSubImage2D( ...arguments ); + + } catch ( error ) { + + console.error( 'THREE.WebGLState:', error ); + + } + + } + + function compressedTexSubImage3D() { + + try { + + gl.compressedTexSubImage3D( ...arguments ); + + } catch ( error ) { + + console.error( 'THREE.WebGLState:', error ); + + } + + } + + function texStorage2D() { + + try { + + gl.texStorage2D( ...arguments ); + + } catch ( error ) { + + console.error( 'THREE.WebGLState:', error ); + + } + + } + + function texStorage3D() { + + try { + + gl.texStorage3D( ...arguments ); + + } catch ( error ) { + + console.error( 'THREE.WebGLState:', error ); + + } + + } + + function texImage2D() { + + try { + + gl.texImage2D( ...arguments ); + + } catch ( error ) { + + console.error( 'THREE.WebGLState:', error ); + + } + + } + + function texImage3D() { + + try { + + gl.texImage3D( ...arguments ); + + } catch ( error ) { + + console.error( 'THREE.WebGLState:', error ); + + } + + } + + // + + function scissor( scissor ) { + + if ( currentScissor.equals( scissor ) === false ) { + + gl.scissor( scissor.x, scissor.y, scissor.z, scissor.w ); + currentScissor.copy( scissor ); + + } + + } + + function viewport( viewport ) { + + if ( currentViewport.equals( viewport ) === false ) { + + gl.viewport( viewport.x, viewport.y, viewport.z, viewport.w ); + currentViewport.copy( viewport ); + + } + + } + + function updateUBOMapping( uniformsGroup, program ) { + + let mapping = uboProgramMap.get( program ); + + if ( mapping === undefined ) { + + mapping = new WeakMap(); + + uboProgramMap.set( program, mapping ); + + } + + let blockIndex = mapping.get( uniformsGroup ); + + if ( blockIndex === undefined ) { + + blockIndex = gl.getUniformBlockIndex( program, uniformsGroup.name ); + + mapping.set( uniformsGroup, blockIndex ); + + } + + } + + function uniformBlockBinding( uniformsGroup, program ) { + + const mapping = uboProgramMap.get( program ); + const blockIndex = mapping.get( uniformsGroup ); + + if ( uboBindings.get( program ) !== blockIndex ) { + + // bind shader specific block index to global block point + gl.uniformBlockBinding( program, blockIndex, uniformsGroup.__bindingPointIndex ); + + uboBindings.set( program, blockIndex ); + + } + + } + + // + + function reset() { + + // reset state + + gl.disable( gl.BLEND ); + gl.disable( gl.CULL_FACE ); + gl.disable( gl.DEPTH_TEST ); + gl.disable( gl.POLYGON_OFFSET_FILL ); + gl.disable( gl.SCISSOR_TEST ); + gl.disable( gl.STENCIL_TEST ); + gl.disable( gl.SAMPLE_ALPHA_TO_COVERAGE ); + + gl.blendEquation( gl.FUNC_ADD ); + gl.blendFunc( gl.ONE, gl.ZERO ); + gl.blendFuncSeparate( gl.ONE, gl.ZERO, gl.ONE, gl.ZERO ); + gl.blendColor( 0, 0, 0, 0 ); + + gl.colorMask( true, true, true, true ); + gl.clearColor( 0, 0, 0, 0 ); + + gl.depthMask( true ); + gl.depthFunc( gl.LESS ); + + depthBuffer.setReversed( false ); + + gl.clearDepth( 1 ); + + gl.stencilMask( 0xffffffff ); + gl.stencilFunc( gl.ALWAYS, 0, 0xffffffff ); + gl.stencilOp( gl.KEEP, gl.KEEP, gl.KEEP ); + gl.clearStencil( 0 ); + + gl.cullFace( gl.BACK ); + gl.frontFace( gl.CCW ); + + gl.polygonOffset( 0, 0 ); + + gl.activeTexture( gl.TEXTURE0 ); + + gl.bindFramebuffer( gl.FRAMEBUFFER, null ); + gl.bindFramebuffer( gl.DRAW_FRAMEBUFFER, null ); + gl.bindFramebuffer( gl.READ_FRAMEBUFFER, null ); + + gl.useProgram( null ); + + gl.lineWidth( 1 ); + + gl.scissor( 0, 0, gl.canvas.width, gl.canvas.height ); + gl.viewport( 0, 0, gl.canvas.width, gl.canvas.height ); + + // reset internals + + enabledCapabilities = {}; + + currentTextureSlot = null; + currentBoundTextures = {}; + + currentBoundFramebuffers = {}; + currentDrawbuffers = new WeakMap(); + defaultDrawbuffers = []; + + currentProgram = null; + + currentBlendingEnabled = false; + currentBlending = null; + currentBlendEquation = null; + currentBlendSrc = null; + currentBlendDst = null; + currentBlendEquationAlpha = null; + currentBlendSrcAlpha = null; + currentBlendDstAlpha = null; + currentBlendColor = new Color( 0, 0, 0 ); + currentBlendAlpha = 0; + currentPremultipledAlpha = false; + + currentFlipSided = null; + currentCullFace = null; + + currentLineWidth = null; + + currentPolygonOffsetFactor = null; + currentPolygonOffsetUnits = null; + + currentScissor.set( 0, 0, gl.canvas.width, gl.canvas.height ); + currentViewport.set( 0, 0, gl.canvas.width, gl.canvas.height ); + + colorBuffer.reset(); + depthBuffer.reset(); + stencilBuffer.reset(); + + } + + return { + + buffers: { + color: colorBuffer, + depth: depthBuffer, + stencil: stencilBuffer + }, + + enable: enable, + disable: disable, + + bindFramebuffer: bindFramebuffer, + drawBuffers: drawBuffers, + + useProgram: useProgram, + + setBlending: setBlending, + setMaterial: setMaterial, + + setFlipSided: setFlipSided, + setCullFace: setCullFace, + + setLineWidth: setLineWidth, + setPolygonOffset: setPolygonOffset, + + setScissorTest: setScissorTest, + + activeTexture: activeTexture, + bindTexture: bindTexture, + unbindTexture: unbindTexture, + compressedTexImage2D: compressedTexImage2D, + compressedTexImage3D: compressedTexImage3D, + texImage2D: texImage2D, + texImage3D: texImage3D, + + updateUBOMapping: updateUBOMapping, + uniformBlockBinding: uniformBlockBinding, + + texStorage2D: texStorage2D, + texStorage3D: texStorage3D, + texSubImage2D: texSubImage2D, + texSubImage3D: texSubImage3D, + compressedTexSubImage2D: compressedTexSubImage2D, + compressedTexSubImage3D: compressedTexSubImage3D, + + scissor: scissor, + viewport: viewport, + + reset: reset + + }; + +} + +function WebGLTextures( _gl, extensions, state, properties, capabilities, utils, info ) { + + const multisampledRTTExt = extensions.has( 'WEBGL_multisampled_render_to_texture' ) ? extensions.get( 'WEBGL_multisampled_render_to_texture' ) : null; + const supportsInvalidateFramebuffer = typeof navigator === 'undefined' ? false : /OculusBrowser/g.test( navigator.userAgent ); + + const _imageDimensions = new Vector2(); + const _videoTextures = new WeakMap(); + let _canvas; + + const _sources = new WeakMap(); // maps WebglTexture objects to instances of Source + + // cordova iOS (as of 5.0) still uses UIWebView, which provides OffscreenCanvas, + // also OffscreenCanvas.getContext("webgl"), but not OffscreenCanvas.getContext("2d")! + // Some implementations may only implement OffscreenCanvas partially (e.g. lacking 2d). + + let useOffscreenCanvas = false; + + try { + + useOffscreenCanvas = typeof OffscreenCanvas !== 'undefined' + // eslint-disable-next-line compat/compat + && ( new OffscreenCanvas( 1, 1 ).getContext( '2d' ) ) !== null; + + } catch ( err ) { + + // Ignore any errors + + } + + function createCanvas( width, height ) { + + // Use OffscreenCanvas when available. Specially needed in web workers + + return useOffscreenCanvas ? + // eslint-disable-next-line compat/compat + new OffscreenCanvas( width, height ) : createElementNS( 'canvas' ); + + } + + function resizeImage( image, needsNewCanvas, maxSize ) { + + let scale = 1; + + const dimensions = getDimensions( image ); + + // handle case if texture exceeds max size + + if ( dimensions.width > maxSize || dimensions.height > maxSize ) { + + scale = maxSize / Math.max( dimensions.width, dimensions.height ); + + } + + // only perform resize if necessary + + if ( scale < 1 ) { + + // only perform resize for certain image types + + if ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) || + ( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) || + ( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) || + ( typeof VideoFrame !== 'undefined' && image instanceof VideoFrame ) ) { + + const width = Math.floor( scale * dimensions.width ); + const height = Math.floor( scale * dimensions.height ); + + if ( _canvas === undefined ) _canvas = createCanvas( width, height ); + + // cube textures can't reuse the same canvas + + const canvas = needsNewCanvas ? createCanvas( width, height ) : _canvas; + + canvas.width = width; + canvas.height = height; + + const context = canvas.getContext( '2d' ); + context.drawImage( image, 0, 0, width, height ); + + console.warn( 'THREE.WebGLRenderer: Texture has been resized from (' + dimensions.width + 'x' + dimensions.height + ') to (' + width + 'x' + height + ').' ); + + return canvas; + + } else { + + if ( 'data' in image ) { + + console.warn( 'THREE.WebGLRenderer: Image in DataTexture is too big (' + dimensions.width + 'x' + dimensions.height + ').' ); + + } + + return image; + + } + + } + + return image; + + } + + function textureNeedsGenerateMipmaps( texture ) { + + return texture.generateMipmaps; + + } + + function generateMipmap( target ) { + + _gl.generateMipmap( target ); + + } + + function getTargetType( texture ) { + + if ( texture.isWebGLCubeRenderTarget ) return _gl.TEXTURE_CUBE_MAP; + if ( texture.isWebGL3DRenderTarget ) return _gl.TEXTURE_3D; + if ( texture.isWebGLArrayRenderTarget || texture.isCompressedArrayTexture ) return _gl.TEXTURE_2D_ARRAY; + return _gl.TEXTURE_2D; + + } + + function getInternalFormat( internalFormatName, glFormat, glType, colorSpace, forceLinearTransfer = false ) { + + if ( internalFormatName !== null ) { + + if ( _gl[ internalFormatName ] !== undefined ) return _gl[ internalFormatName ]; + + console.warn( 'THREE.WebGLRenderer: Attempt to use non-existing WebGL internal format \'' + internalFormatName + '\'' ); + + } + + let internalFormat = glFormat; + + if ( glFormat === _gl.RED ) { + + if ( glType === _gl.FLOAT ) internalFormat = _gl.R32F; + if ( glType === _gl.HALF_FLOAT ) internalFormat = _gl.R16F; + if ( glType === _gl.UNSIGNED_BYTE ) internalFormat = _gl.R8; + + } + + if ( glFormat === _gl.RED_INTEGER ) { + + if ( glType === _gl.UNSIGNED_BYTE ) internalFormat = _gl.R8UI; + if ( glType === _gl.UNSIGNED_SHORT ) internalFormat = _gl.R16UI; + if ( glType === _gl.UNSIGNED_INT ) internalFormat = _gl.R32UI; + if ( glType === _gl.BYTE ) internalFormat = _gl.R8I; + if ( glType === _gl.SHORT ) internalFormat = _gl.R16I; + if ( glType === _gl.INT ) internalFormat = _gl.R32I; + + } + + if ( glFormat === _gl.RG ) { + + if ( glType === _gl.FLOAT ) internalFormat = _gl.RG32F; + if ( glType === _gl.HALF_FLOAT ) internalFormat = _gl.RG16F; + if ( glType === _gl.UNSIGNED_BYTE ) internalFormat = _gl.RG8; + + } + + if ( glFormat === _gl.RG_INTEGER ) { + + if ( glType === _gl.UNSIGNED_BYTE ) internalFormat = _gl.RG8UI; + if ( glType === _gl.UNSIGNED_SHORT ) internalFormat = _gl.RG16UI; + if ( glType === _gl.UNSIGNED_INT ) internalFormat = _gl.RG32UI; + if ( glType === _gl.BYTE ) internalFormat = _gl.RG8I; + if ( glType === _gl.SHORT ) internalFormat = _gl.RG16I; + if ( glType === _gl.INT ) internalFormat = _gl.RG32I; + + } + + if ( glFormat === _gl.RGB_INTEGER ) { + + if ( glType === _gl.UNSIGNED_BYTE ) internalFormat = _gl.RGB8UI; + if ( glType === _gl.UNSIGNED_SHORT ) internalFormat = _gl.RGB16UI; + if ( glType === _gl.UNSIGNED_INT ) internalFormat = _gl.RGB32UI; + if ( glType === _gl.BYTE ) internalFormat = _gl.RGB8I; + if ( glType === _gl.SHORT ) internalFormat = _gl.RGB16I; + if ( glType === _gl.INT ) internalFormat = _gl.RGB32I; + + } + + if ( glFormat === _gl.RGBA_INTEGER ) { + + if ( glType === _gl.UNSIGNED_BYTE ) internalFormat = _gl.RGBA8UI; + if ( glType === _gl.UNSIGNED_SHORT ) internalFormat = _gl.RGBA16UI; + if ( glType === _gl.UNSIGNED_INT ) internalFormat = _gl.RGBA32UI; + if ( glType === _gl.BYTE ) internalFormat = _gl.RGBA8I; + if ( glType === _gl.SHORT ) internalFormat = _gl.RGBA16I; + if ( glType === _gl.INT ) internalFormat = _gl.RGBA32I; + + } + + if ( glFormat === _gl.RGB ) { + + if ( glType === _gl.UNSIGNED_INT_5_9_9_9_REV ) internalFormat = _gl.RGB9_E5; + + } + + if ( glFormat === _gl.RGBA ) { + + const transfer = forceLinearTransfer ? LinearTransfer : ColorManagement.getTransfer( colorSpace ); + + if ( glType === _gl.FLOAT ) internalFormat = _gl.RGBA32F; + if ( glType === _gl.HALF_FLOAT ) internalFormat = _gl.RGBA16F; + if ( glType === _gl.UNSIGNED_BYTE ) internalFormat = ( transfer === SRGBTransfer ) ? _gl.SRGB8_ALPHA8 : _gl.RGBA8; + if ( glType === _gl.UNSIGNED_SHORT_4_4_4_4 ) internalFormat = _gl.RGBA4; + if ( glType === _gl.UNSIGNED_SHORT_5_5_5_1 ) internalFormat = _gl.RGB5_A1; + + } + + if ( internalFormat === _gl.R16F || internalFormat === _gl.R32F || + internalFormat === _gl.RG16F || internalFormat === _gl.RG32F || + internalFormat === _gl.RGBA16F || internalFormat === _gl.RGBA32F ) { + + extensions.get( 'EXT_color_buffer_float' ); + + } + + return internalFormat; + + } + + function getInternalDepthFormat( useStencil, depthType ) { + + let glInternalFormat; + if ( useStencil ) { + + if ( depthType === null || depthType === UnsignedIntType || depthType === UnsignedInt248Type ) { + + glInternalFormat = _gl.DEPTH24_STENCIL8; + + } else if ( depthType === FloatType ) { + + glInternalFormat = _gl.DEPTH32F_STENCIL8; + + } else if ( depthType === UnsignedShortType ) { + + glInternalFormat = _gl.DEPTH24_STENCIL8; + console.warn( 'DepthTexture: 16 bit depth attachment is not supported with stencil. Using 24-bit attachment.' ); + + } + + } else { + + if ( depthType === null || depthType === UnsignedIntType || depthType === UnsignedInt248Type ) { + + glInternalFormat = _gl.DEPTH_COMPONENT24; + + } else if ( depthType === FloatType ) { + + glInternalFormat = _gl.DEPTH_COMPONENT32F; + + } else if ( depthType === UnsignedShortType ) { + + glInternalFormat = _gl.DEPTH_COMPONENT16; + + } + + } + + return glInternalFormat; + + } + + function getMipLevels( texture, image ) { + + if ( textureNeedsGenerateMipmaps( texture ) === true || ( texture.isFramebufferTexture && texture.minFilter !== NearestFilter && texture.minFilter !== LinearFilter ) ) { + + return Math.log2( Math.max( image.width, image.height ) ) + 1; + + } else if ( texture.mipmaps !== undefined && texture.mipmaps.length > 0 ) { + + // user-defined mipmaps + + return texture.mipmaps.length; + + } else if ( texture.isCompressedTexture && Array.isArray( texture.image ) ) { + + return image.mipmaps.length; + + } else { + + // texture without mipmaps (only base level) + + return 1; + + } + + } + + // + + function onTextureDispose( event ) { + + const texture = event.target; + + texture.removeEventListener( 'dispose', onTextureDispose ); + + deallocateTexture( texture ); + + if ( texture.isVideoTexture ) { + + _videoTextures.delete( texture ); + + } + + } + + function onRenderTargetDispose( event ) { + + const renderTarget = event.target; + + renderTarget.removeEventListener( 'dispose', onRenderTargetDispose ); + + deallocateRenderTarget( renderTarget ); + + } + + // + + function deallocateTexture( texture ) { + + const textureProperties = properties.get( texture ); + + if ( textureProperties.__webglInit === undefined ) return; + + // check if it's necessary to remove the WebGLTexture object + + const source = texture.source; + const webglTextures = _sources.get( source ); + + if ( webglTextures ) { + + const webglTexture = webglTextures[ textureProperties.__cacheKey ]; + webglTexture.usedTimes --; + + // the WebGLTexture object is not used anymore, remove it + + if ( webglTexture.usedTimes === 0 ) { + + deleteTexture( texture ); + + } + + // remove the weak map entry if no WebGLTexture uses the source anymore + + if ( Object.keys( webglTextures ).length === 0 ) { + + _sources.delete( source ); + + } + + } + + properties.remove( texture ); + + } + + function deleteTexture( texture ) { + + const textureProperties = properties.get( texture ); + _gl.deleteTexture( textureProperties.__webglTexture ); + + const source = texture.source; + const webglTextures = _sources.get( source ); + delete webglTextures[ textureProperties.__cacheKey ]; + + info.memory.textures --; + + } + + function deallocateRenderTarget( renderTarget ) { + + const renderTargetProperties = properties.get( renderTarget ); + + if ( renderTarget.depthTexture ) { + + renderTarget.depthTexture.dispose(); + + properties.remove( renderTarget.depthTexture ); + + } + + if ( renderTarget.isWebGLCubeRenderTarget ) { + + for ( let i = 0; i < 6; i ++ ) { + + if ( Array.isArray( renderTargetProperties.__webglFramebuffer[ i ] ) ) { + + for ( let level = 0; level < renderTargetProperties.__webglFramebuffer[ i ].length; level ++ ) _gl.deleteFramebuffer( renderTargetProperties.__webglFramebuffer[ i ][ level ] ); + + } else { + + _gl.deleteFramebuffer( renderTargetProperties.__webglFramebuffer[ i ] ); + + } + + if ( renderTargetProperties.__webglDepthbuffer ) _gl.deleteRenderbuffer( renderTargetProperties.__webglDepthbuffer[ i ] ); + + } + + } else { + + if ( Array.isArray( renderTargetProperties.__webglFramebuffer ) ) { + + for ( let level = 0; level < renderTargetProperties.__webglFramebuffer.length; level ++ ) _gl.deleteFramebuffer( renderTargetProperties.__webglFramebuffer[ level ] ); + + } else { + + _gl.deleteFramebuffer( renderTargetProperties.__webglFramebuffer ); + + } + + if ( renderTargetProperties.__webglDepthbuffer ) _gl.deleteRenderbuffer( renderTargetProperties.__webglDepthbuffer ); + if ( renderTargetProperties.__webglMultisampledFramebuffer ) _gl.deleteFramebuffer( renderTargetProperties.__webglMultisampledFramebuffer ); + + if ( renderTargetProperties.__webglColorRenderbuffer ) { + + for ( let i = 0; i < renderTargetProperties.__webglColorRenderbuffer.length; i ++ ) { + + if ( renderTargetProperties.__webglColorRenderbuffer[ i ] ) _gl.deleteRenderbuffer( renderTargetProperties.__webglColorRenderbuffer[ i ] ); + + } + + } + + if ( renderTargetProperties.__webglDepthRenderbuffer ) _gl.deleteRenderbuffer( renderTargetProperties.__webglDepthRenderbuffer ); + + } + + const textures = renderTarget.textures; + + for ( let i = 0, il = textures.length; i < il; i ++ ) { + + const attachmentProperties = properties.get( textures[ i ] ); + + if ( attachmentProperties.__webglTexture ) { + + _gl.deleteTexture( attachmentProperties.__webglTexture ); + + info.memory.textures --; + + } + + properties.remove( textures[ i ] ); + + } + + properties.remove( renderTarget ); + + } + + // + + let textureUnits = 0; + + function resetTextureUnits() { + + textureUnits = 0; + + } + + function allocateTextureUnit() { + + const textureUnit = textureUnits; + + if ( textureUnit >= capabilities.maxTextures ) { + + console.warn( 'THREE.WebGLTextures: Trying to use ' + textureUnit + ' texture units while this GPU supports only ' + capabilities.maxTextures ); + + } + + textureUnits += 1; + + return textureUnit; + + } + + function getTextureCacheKey( texture ) { + + const array = []; + + array.push( texture.wrapS ); + array.push( texture.wrapT ); + array.push( texture.wrapR || 0 ); + array.push( texture.magFilter ); + array.push( texture.minFilter ); + array.push( texture.anisotropy ); + array.push( texture.internalFormat ); + array.push( texture.format ); + array.push( texture.type ); + array.push( texture.generateMipmaps ); + array.push( texture.premultiplyAlpha ); + array.push( texture.flipY ); + array.push( texture.unpackAlignment ); + array.push( texture.colorSpace ); + + return array.join(); + + } + + // + + function setTexture2D( texture, slot ) { + + const textureProperties = properties.get( texture ); + + if ( texture.isVideoTexture ) updateVideoTexture( texture ); + + if ( texture.isRenderTargetTexture === false && texture.version > 0 && textureProperties.__version !== texture.version ) { + + const image = texture.image; + + if ( image === null ) { + + console.warn( 'THREE.WebGLRenderer: Texture marked for update but no image data found.' ); + + } else if ( image.complete === false ) { + + console.warn( 'THREE.WebGLRenderer: Texture marked for update but image is incomplete' ); + + } else { + + uploadTexture( textureProperties, texture, slot ); + return; + + } + + } + + state.bindTexture( _gl.TEXTURE_2D, textureProperties.__webglTexture, _gl.TEXTURE0 + slot ); + + } + + function setTexture2DArray( texture, slot ) { + + const textureProperties = properties.get( texture ); + + if ( texture.version > 0 && textureProperties.__version !== texture.version ) { + + uploadTexture( textureProperties, texture, slot ); + return; + + } + + state.bindTexture( _gl.TEXTURE_2D_ARRAY, textureProperties.__webglTexture, _gl.TEXTURE0 + slot ); + + } + + function setTexture3D( texture, slot ) { + + const textureProperties = properties.get( texture ); + + if ( texture.version > 0 && textureProperties.__version !== texture.version ) { + + uploadTexture( textureProperties, texture, slot ); + return; + + } + + state.bindTexture( _gl.TEXTURE_3D, textureProperties.__webglTexture, _gl.TEXTURE0 + slot ); + + } + + function setTextureCube( texture, slot ) { + + const textureProperties = properties.get( texture ); + + if ( texture.version > 0 && textureProperties.__version !== texture.version ) { + + uploadCubeTexture( textureProperties, texture, slot ); + return; + + } + + state.bindTexture( _gl.TEXTURE_CUBE_MAP, textureProperties.__webglTexture, _gl.TEXTURE0 + slot ); + + } + + const wrappingToGL = { + [ RepeatWrapping ]: _gl.REPEAT, + [ ClampToEdgeWrapping ]: _gl.CLAMP_TO_EDGE, + [ MirroredRepeatWrapping ]: _gl.MIRRORED_REPEAT + }; + + const filterToGL = { + [ NearestFilter ]: _gl.NEAREST, + [ NearestMipmapNearestFilter ]: _gl.NEAREST_MIPMAP_NEAREST, + [ NearestMipmapLinearFilter ]: _gl.NEAREST_MIPMAP_LINEAR, + + [ LinearFilter ]: _gl.LINEAR, + [ LinearMipmapNearestFilter ]: _gl.LINEAR_MIPMAP_NEAREST, + [ LinearMipmapLinearFilter ]: _gl.LINEAR_MIPMAP_LINEAR + }; + + const compareToGL = { + [ NeverCompare ]: _gl.NEVER, + [ AlwaysCompare ]: _gl.ALWAYS, + [ LessCompare ]: _gl.LESS, + [ LessEqualCompare ]: _gl.LEQUAL, + [ EqualCompare ]: _gl.EQUAL, + [ GreaterEqualCompare ]: _gl.GEQUAL, + [ GreaterCompare ]: _gl.GREATER, + [ NotEqualCompare ]: _gl.NOTEQUAL + }; + + function setTextureParameters( textureType, texture ) { + + if ( texture.type === FloatType && extensions.has( 'OES_texture_float_linear' ) === false && + ( texture.magFilter === LinearFilter || texture.magFilter === LinearMipmapNearestFilter || texture.magFilter === NearestMipmapLinearFilter || texture.magFilter === LinearMipmapLinearFilter || + texture.minFilter === LinearFilter || texture.minFilter === LinearMipmapNearestFilter || texture.minFilter === NearestMipmapLinearFilter || texture.minFilter === LinearMipmapLinearFilter ) ) { + + console.warn( 'THREE.WebGLRenderer: Unable to use linear filtering with floating point textures. OES_texture_float_linear not supported on this device.' ); + + } + + _gl.texParameteri( textureType, _gl.TEXTURE_WRAP_S, wrappingToGL[ texture.wrapS ] ); + _gl.texParameteri( textureType, _gl.TEXTURE_WRAP_T, wrappingToGL[ texture.wrapT ] ); + + if ( textureType === _gl.TEXTURE_3D || textureType === _gl.TEXTURE_2D_ARRAY ) { + + _gl.texParameteri( textureType, _gl.TEXTURE_WRAP_R, wrappingToGL[ texture.wrapR ] ); + + } + + _gl.texParameteri( textureType, _gl.TEXTURE_MAG_FILTER, filterToGL[ texture.magFilter ] ); + _gl.texParameteri( textureType, _gl.TEXTURE_MIN_FILTER, filterToGL[ texture.minFilter ] ); + + if ( texture.compareFunction ) { + + _gl.texParameteri( textureType, _gl.TEXTURE_COMPARE_MODE, _gl.COMPARE_REF_TO_TEXTURE ); + _gl.texParameteri( textureType, _gl.TEXTURE_COMPARE_FUNC, compareToGL[ texture.compareFunction ] ); + + } + + if ( extensions.has( 'EXT_texture_filter_anisotropic' ) === true ) { + + if ( texture.magFilter === NearestFilter ) return; + if ( texture.minFilter !== NearestMipmapLinearFilter && texture.minFilter !== LinearMipmapLinearFilter ) return; + if ( texture.type === FloatType && extensions.has( 'OES_texture_float_linear' ) === false ) return; // verify extension + + if ( texture.anisotropy > 1 || properties.get( texture ).__currentAnisotropy ) { + + const extension = extensions.get( 'EXT_texture_filter_anisotropic' ); + _gl.texParameterf( textureType, extension.TEXTURE_MAX_ANISOTROPY_EXT, Math.min( texture.anisotropy, capabilities.getMaxAnisotropy() ) ); + properties.get( texture ).__currentAnisotropy = texture.anisotropy; + + } + + } + + } + + function initTexture( textureProperties, texture ) { + + let forceUpload = false; + + if ( textureProperties.__webglInit === undefined ) { + + textureProperties.__webglInit = true; + + texture.addEventListener( 'dispose', onTextureDispose ); + + } + + // create Source <-> WebGLTextures mapping if necessary + + const source = texture.source; + let webglTextures = _sources.get( source ); + + if ( webglTextures === undefined ) { + + webglTextures = {}; + _sources.set( source, webglTextures ); + + } + + // check if there is already a WebGLTexture object for the given texture parameters + + const textureCacheKey = getTextureCacheKey( texture ); + + if ( textureCacheKey !== textureProperties.__cacheKey ) { + + // if not, create a new instance of WebGLTexture + + if ( webglTextures[ textureCacheKey ] === undefined ) { + + // create new entry + + webglTextures[ textureCacheKey ] = { + texture: _gl.createTexture(), + usedTimes: 0 + }; + + info.memory.textures ++; + + // when a new instance of WebGLTexture was created, a texture upload is required + // even if the image contents are identical + + forceUpload = true; + + } + + webglTextures[ textureCacheKey ].usedTimes ++; + + // every time the texture cache key changes, it's necessary to check if an instance of + // WebGLTexture can be deleted in order to avoid a memory leak. + + const webglTexture = webglTextures[ textureProperties.__cacheKey ]; + + if ( webglTexture !== undefined ) { + + webglTextures[ textureProperties.__cacheKey ].usedTimes --; + + if ( webglTexture.usedTimes === 0 ) { + + deleteTexture( texture ); + + } + + } + + // store references to cache key and WebGLTexture object + + textureProperties.__cacheKey = textureCacheKey; + textureProperties.__webglTexture = webglTextures[ textureCacheKey ].texture; + + } + + return forceUpload; + + } + + function uploadTexture( textureProperties, texture, slot ) { + + let textureType = _gl.TEXTURE_2D; + + if ( texture.isDataArrayTexture || texture.isCompressedArrayTexture ) textureType = _gl.TEXTURE_2D_ARRAY; + if ( texture.isData3DTexture ) textureType = _gl.TEXTURE_3D; + + const forceUpload = initTexture( textureProperties, texture ); + const source = texture.source; + + state.bindTexture( textureType, textureProperties.__webglTexture, _gl.TEXTURE0 + slot ); + + const sourceProperties = properties.get( source ); + + if ( source.version !== sourceProperties.__version || forceUpload === true ) { + + state.activeTexture( _gl.TEXTURE0 + slot ); + + const workingPrimaries = ColorManagement.getPrimaries( ColorManagement.workingColorSpace ); + const texturePrimaries = texture.colorSpace === NoColorSpace ? null : ColorManagement.getPrimaries( texture.colorSpace ); + const unpackConversion = texture.colorSpace === NoColorSpace || workingPrimaries === texturePrimaries ? _gl.NONE : _gl.BROWSER_DEFAULT_WEBGL; + + _gl.pixelStorei( _gl.UNPACK_FLIP_Y_WEBGL, texture.flipY ); + _gl.pixelStorei( _gl.UNPACK_PREMULTIPLY_ALPHA_WEBGL, texture.premultiplyAlpha ); + _gl.pixelStorei( _gl.UNPACK_ALIGNMENT, texture.unpackAlignment ); + _gl.pixelStorei( _gl.UNPACK_COLORSPACE_CONVERSION_WEBGL, unpackConversion ); + + let image = resizeImage( texture.image, false, capabilities.maxTextureSize ); + image = verifyColorSpace( texture, image ); + + const glFormat = utils.convert( texture.format, texture.colorSpace ); + + const glType = utils.convert( texture.type ); + let glInternalFormat = getInternalFormat( texture.internalFormat, glFormat, glType, texture.colorSpace, texture.isVideoTexture ); + + setTextureParameters( textureType, texture ); + + let mipmap; + const mipmaps = texture.mipmaps; + + const useTexStorage = ( texture.isVideoTexture !== true ); + const allocateMemory = ( sourceProperties.__version === undefined ) || ( forceUpload === true ); + const dataReady = source.dataReady; + const levels = getMipLevels( texture, image ); + + if ( texture.isDepthTexture ) { + + glInternalFormat = getInternalDepthFormat( texture.format === DepthStencilFormat, texture.type ); + + // + + if ( allocateMemory ) { + + if ( useTexStorage ) { + + state.texStorage2D( _gl.TEXTURE_2D, 1, glInternalFormat, image.width, image.height ); + + } else { + + state.texImage2D( _gl.TEXTURE_2D, 0, glInternalFormat, image.width, image.height, 0, glFormat, glType, null ); + + } + + } + + } else if ( texture.isDataTexture ) { + + // use manually created mipmaps if available + // if there are no manual mipmaps + // set 0 level mipmap and then use GL to generate other mipmap levels + + if ( mipmaps.length > 0 ) { + + if ( useTexStorage && allocateMemory ) { + + state.texStorage2D( _gl.TEXTURE_2D, levels, glInternalFormat, mipmaps[ 0 ].width, mipmaps[ 0 ].height ); + + } + + for ( let i = 0, il = mipmaps.length; i < il; i ++ ) { + + mipmap = mipmaps[ i ]; + + if ( useTexStorage ) { + + if ( dataReady ) { + + state.texSubImage2D( _gl.TEXTURE_2D, i, 0, 0, mipmap.width, mipmap.height, glFormat, glType, mipmap.data ); + + } + + } else { + + state.texImage2D( _gl.TEXTURE_2D, i, glInternalFormat, mipmap.width, mipmap.height, 0, glFormat, glType, mipmap.data ); + + } + + } + + texture.generateMipmaps = false; + + } else { + + if ( useTexStorage ) { + + if ( allocateMemory ) { + + state.texStorage2D( _gl.TEXTURE_2D, levels, glInternalFormat, image.width, image.height ); + + } + + if ( dataReady ) { + + state.texSubImage2D( _gl.TEXTURE_2D, 0, 0, 0, image.width, image.height, glFormat, glType, image.data ); + + } + + } else { + + state.texImage2D( _gl.TEXTURE_2D, 0, glInternalFormat, image.width, image.height, 0, glFormat, glType, image.data ); + + } + + } + + } else if ( texture.isCompressedTexture ) { + + if ( texture.isCompressedArrayTexture ) { + + if ( useTexStorage && allocateMemory ) { + + state.texStorage3D( _gl.TEXTURE_2D_ARRAY, levels, glInternalFormat, mipmaps[ 0 ].width, mipmaps[ 0 ].height, image.depth ); + + } + + for ( let i = 0, il = mipmaps.length; i < il; i ++ ) { + + mipmap = mipmaps[ i ]; + + if ( texture.format !== RGBAFormat ) { + + if ( glFormat !== null ) { + + if ( useTexStorage ) { + + if ( dataReady ) { + + if ( texture.layerUpdates.size > 0 ) { + + const layerByteLength = getByteLength( mipmap.width, mipmap.height, texture.format, texture.type ); + + for ( const layerIndex of texture.layerUpdates ) { + + const layerData = mipmap.data.subarray( + layerIndex * layerByteLength / mipmap.data.BYTES_PER_ELEMENT, + ( layerIndex + 1 ) * layerByteLength / mipmap.data.BYTES_PER_ELEMENT + ); + state.compressedTexSubImage3D( _gl.TEXTURE_2D_ARRAY, i, 0, 0, layerIndex, mipmap.width, mipmap.height, 1, glFormat, layerData ); + + } + + texture.clearLayerUpdates(); + + } else { + + state.compressedTexSubImage3D( _gl.TEXTURE_2D_ARRAY, i, 0, 0, 0, mipmap.width, mipmap.height, image.depth, glFormat, mipmap.data ); + + } + + } + + } else { + + state.compressedTexImage3D( _gl.TEXTURE_2D_ARRAY, i, glInternalFormat, mipmap.width, mipmap.height, image.depth, 0, mipmap.data, 0, 0 ); + + } + + } else { + + console.warn( 'THREE.WebGLRenderer: Attempt to load unsupported compressed texture format in .uploadTexture()' ); + + } + + } else { + + if ( useTexStorage ) { + + if ( dataReady ) { + + state.texSubImage3D( _gl.TEXTURE_2D_ARRAY, i, 0, 0, 0, mipmap.width, mipmap.height, image.depth, glFormat, glType, mipmap.data ); + + } + + } else { + + state.texImage3D( _gl.TEXTURE_2D_ARRAY, i, glInternalFormat, mipmap.width, mipmap.height, image.depth, 0, glFormat, glType, mipmap.data ); + + } + + } + + } + + } else { + + if ( useTexStorage && allocateMemory ) { + + state.texStorage2D( _gl.TEXTURE_2D, levels, glInternalFormat, mipmaps[ 0 ].width, mipmaps[ 0 ].height ); + + } + + for ( let i = 0, il = mipmaps.length; i < il; i ++ ) { + + mipmap = mipmaps[ i ]; + + if ( texture.format !== RGBAFormat ) { + + if ( glFormat !== null ) { + + if ( useTexStorage ) { + + if ( dataReady ) { + + state.compressedTexSubImage2D( _gl.TEXTURE_2D, i, 0, 0, mipmap.width, mipmap.height, glFormat, mipmap.data ); + + } + + } else { + + state.compressedTexImage2D( _gl.TEXTURE_2D, i, glInternalFormat, mipmap.width, mipmap.height, 0, mipmap.data ); + + } + + } else { + + console.warn( 'THREE.WebGLRenderer: Attempt to load unsupported compressed texture format in .uploadTexture()' ); + + } + + } else { + + if ( useTexStorage ) { + + if ( dataReady ) { + + state.texSubImage2D( _gl.TEXTURE_2D, i, 0, 0, mipmap.width, mipmap.height, glFormat, glType, mipmap.data ); + + } + + } else { + + state.texImage2D( _gl.TEXTURE_2D, i, glInternalFormat, mipmap.width, mipmap.height, 0, glFormat, glType, mipmap.data ); + + } + + } + + } + + } + + } else if ( texture.isDataArrayTexture ) { + + if ( useTexStorage ) { + + if ( allocateMemory ) { + + state.texStorage3D( _gl.TEXTURE_2D_ARRAY, levels, glInternalFormat, image.width, image.height, image.depth ); + + } + + if ( dataReady ) { + + if ( texture.layerUpdates.size > 0 ) { + + const layerByteLength = getByteLength( image.width, image.height, texture.format, texture.type ); + + for ( const layerIndex of texture.layerUpdates ) { + + const layerData = image.data.subarray( + layerIndex * layerByteLength / image.data.BYTES_PER_ELEMENT, + ( layerIndex + 1 ) * layerByteLength / image.data.BYTES_PER_ELEMENT + ); + state.texSubImage3D( _gl.TEXTURE_2D_ARRAY, 0, 0, 0, layerIndex, image.width, image.height, 1, glFormat, glType, layerData ); + + } + + texture.clearLayerUpdates(); + + } else { + + state.texSubImage3D( _gl.TEXTURE_2D_ARRAY, 0, 0, 0, 0, image.width, image.height, image.depth, glFormat, glType, image.data ); + + } + + } + + } else { + + state.texImage3D( _gl.TEXTURE_2D_ARRAY, 0, glInternalFormat, image.width, image.height, image.depth, 0, glFormat, glType, image.data ); + + } + + } else if ( texture.isData3DTexture ) { + + if ( useTexStorage ) { + + if ( allocateMemory ) { + + state.texStorage3D( _gl.TEXTURE_3D, levels, glInternalFormat, image.width, image.height, image.depth ); + + } + + if ( dataReady ) { + + state.texSubImage3D( _gl.TEXTURE_3D, 0, 0, 0, 0, image.width, image.height, image.depth, glFormat, glType, image.data ); + + } + + } else { + + state.texImage3D( _gl.TEXTURE_3D, 0, glInternalFormat, image.width, image.height, image.depth, 0, glFormat, glType, image.data ); + + } + + } else if ( texture.isFramebufferTexture ) { + + if ( allocateMemory ) { + + if ( useTexStorage ) { + + state.texStorage2D( _gl.TEXTURE_2D, levels, glInternalFormat, image.width, image.height ); + + } else { + + let width = image.width, height = image.height; + + for ( let i = 0; i < levels; i ++ ) { + + state.texImage2D( _gl.TEXTURE_2D, i, glInternalFormat, width, height, 0, glFormat, glType, null ); + + width >>= 1; + height >>= 1; + + } + + } + + } + + } else { + + // regular Texture (image, video, canvas) + + // use manually created mipmaps if available + // if there are no manual mipmaps + // set 0 level mipmap and then use GL to generate other mipmap levels + + if ( mipmaps.length > 0 ) { + + if ( useTexStorage && allocateMemory ) { + + const dimensions = getDimensions( mipmaps[ 0 ] ); + + state.texStorage2D( _gl.TEXTURE_2D, levels, glInternalFormat, dimensions.width, dimensions.height ); + + } + + for ( let i = 0, il = mipmaps.length; i < il; i ++ ) { + + mipmap = mipmaps[ i ]; + + if ( useTexStorage ) { + + if ( dataReady ) { + + state.texSubImage2D( _gl.TEXTURE_2D, i, 0, 0, glFormat, glType, mipmap ); + + } + + } else { + + state.texImage2D( _gl.TEXTURE_2D, i, glInternalFormat, glFormat, glType, mipmap ); + + } + + } + + texture.generateMipmaps = false; + + } else { + + if ( useTexStorage ) { + + if ( allocateMemory ) { + + const dimensions = getDimensions( image ); + + state.texStorage2D( _gl.TEXTURE_2D, levels, glInternalFormat, dimensions.width, dimensions.height ); + + } + + if ( dataReady ) { + + state.texSubImage2D( _gl.TEXTURE_2D, 0, 0, 0, glFormat, glType, image ); + + } + + } else { + + state.texImage2D( _gl.TEXTURE_2D, 0, glInternalFormat, glFormat, glType, image ); + + } + + } + + } + + if ( textureNeedsGenerateMipmaps( texture ) ) { + + generateMipmap( textureType ); + + } + + sourceProperties.__version = source.version; + + if ( texture.onUpdate ) texture.onUpdate( texture ); + + } + + textureProperties.__version = texture.version; + + } + + function uploadCubeTexture( textureProperties, texture, slot ) { + + if ( texture.image.length !== 6 ) return; + + const forceUpload = initTexture( textureProperties, texture ); + const source = texture.source; + + state.bindTexture( _gl.TEXTURE_CUBE_MAP, textureProperties.__webglTexture, _gl.TEXTURE0 + slot ); + + const sourceProperties = properties.get( source ); + + if ( source.version !== sourceProperties.__version || forceUpload === true ) { + + state.activeTexture( _gl.TEXTURE0 + slot ); + + const workingPrimaries = ColorManagement.getPrimaries( ColorManagement.workingColorSpace ); + const texturePrimaries = texture.colorSpace === NoColorSpace ? null : ColorManagement.getPrimaries( texture.colorSpace ); + const unpackConversion = texture.colorSpace === NoColorSpace || workingPrimaries === texturePrimaries ? _gl.NONE : _gl.BROWSER_DEFAULT_WEBGL; + + _gl.pixelStorei( _gl.UNPACK_FLIP_Y_WEBGL, texture.flipY ); + _gl.pixelStorei( _gl.UNPACK_PREMULTIPLY_ALPHA_WEBGL, texture.premultiplyAlpha ); + _gl.pixelStorei( _gl.UNPACK_ALIGNMENT, texture.unpackAlignment ); + _gl.pixelStorei( _gl.UNPACK_COLORSPACE_CONVERSION_WEBGL, unpackConversion ); + + const isCompressed = ( texture.isCompressedTexture || texture.image[ 0 ].isCompressedTexture ); + const isDataTexture = ( texture.image[ 0 ] && texture.image[ 0 ].isDataTexture ); + + const cubeImage = []; + + for ( let i = 0; i < 6; i ++ ) { + + if ( ! isCompressed && ! isDataTexture ) { + + cubeImage[ i ] = resizeImage( texture.image[ i ], true, capabilities.maxCubemapSize ); + + } else { + + cubeImage[ i ] = isDataTexture ? texture.image[ i ].image : texture.image[ i ]; + + } + + cubeImage[ i ] = verifyColorSpace( texture, cubeImage[ i ] ); + + } + + const image = cubeImage[ 0 ], + glFormat = utils.convert( texture.format, texture.colorSpace ), + glType = utils.convert( texture.type ), + glInternalFormat = getInternalFormat( texture.internalFormat, glFormat, glType, texture.colorSpace ); + + const useTexStorage = ( texture.isVideoTexture !== true ); + const allocateMemory = ( sourceProperties.__version === undefined ) || ( forceUpload === true ); + const dataReady = source.dataReady; + let levels = getMipLevels( texture, image ); + + setTextureParameters( _gl.TEXTURE_CUBE_MAP, texture ); + + let mipmaps; + + if ( isCompressed ) { + + if ( useTexStorage && allocateMemory ) { + + state.texStorage2D( _gl.TEXTURE_CUBE_MAP, levels, glInternalFormat, image.width, image.height ); + + } + + for ( let i = 0; i < 6; i ++ ) { + + mipmaps = cubeImage[ i ].mipmaps; + + for ( let j = 0; j < mipmaps.length; j ++ ) { + + const mipmap = mipmaps[ j ]; + + if ( texture.format !== RGBAFormat ) { + + if ( glFormat !== null ) { + + if ( useTexStorage ) { + + if ( dataReady ) { + + state.compressedTexSubImage2D( _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, j, 0, 0, mipmap.width, mipmap.height, glFormat, mipmap.data ); + + } + + } else { + + state.compressedTexImage2D( _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, j, glInternalFormat, mipmap.width, mipmap.height, 0, mipmap.data ); + + } + + } else { + + console.warn( 'THREE.WebGLRenderer: Attempt to load unsupported compressed texture format in .setTextureCube()' ); + + } + + } else { + + if ( useTexStorage ) { + + if ( dataReady ) { + + state.texSubImage2D( _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, j, 0, 0, mipmap.width, mipmap.height, glFormat, glType, mipmap.data ); + + } + + } else { + + state.texImage2D( _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, j, glInternalFormat, mipmap.width, mipmap.height, 0, glFormat, glType, mipmap.data ); + + } + + } + + } + + } + + } else { + + mipmaps = texture.mipmaps; + + if ( useTexStorage && allocateMemory ) { + + // TODO: Uniformly handle mipmap definitions + // Normal textures and compressed cube textures define base level + mips with their mipmap array + // Uncompressed cube textures use their mipmap array only for mips (no base level) + + if ( mipmaps.length > 0 ) levels ++; + + const dimensions = getDimensions( cubeImage[ 0 ] ); + + state.texStorage2D( _gl.TEXTURE_CUBE_MAP, levels, glInternalFormat, dimensions.width, dimensions.height ); + + } + + for ( let i = 0; i < 6; i ++ ) { + + if ( isDataTexture ) { + + if ( useTexStorage ) { + + if ( dataReady ) { + + state.texSubImage2D( _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, 0, 0, 0, cubeImage[ i ].width, cubeImage[ i ].height, glFormat, glType, cubeImage[ i ].data ); + + } + + } else { + + state.texImage2D( _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, 0, glInternalFormat, cubeImage[ i ].width, cubeImage[ i ].height, 0, glFormat, glType, cubeImage[ i ].data ); + + } + + for ( let j = 0; j < mipmaps.length; j ++ ) { + + const mipmap = mipmaps[ j ]; + const mipmapImage = mipmap.image[ i ].image; + + if ( useTexStorage ) { + + if ( dataReady ) { + + state.texSubImage2D( _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, j + 1, 0, 0, mipmapImage.width, mipmapImage.height, glFormat, glType, mipmapImage.data ); + + } + + } else { + + state.texImage2D( _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, j + 1, glInternalFormat, mipmapImage.width, mipmapImage.height, 0, glFormat, glType, mipmapImage.data ); + + } + + } + + } else { + + if ( useTexStorage ) { + + if ( dataReady ) { + + state.texSubImage2D( _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, 0, 0, 0, glFormat, glType, cubeImage[ i ] ); + + } + + } else { + + state.texImage2D( _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, 0, glInternalFormat, glFormat, glType, cubeImage[ i ] ); + + } + + for ( let j = 0; j < mipmaps.length; j ++ ) { + + const mipmap = mipmaps[ j ]; + + if ( useTexStorage ) { + + if ( dataReady ) { + + state.texSubImage2D( _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, j + 1, 0, 0, glFormat, glType, mipmap.image[ i ] ); + + } + + } else { + + state.texImage2D( _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, j + 1, glInternalFormat, glFormat, glType, mipmap.image[ i ] ); + + } + + } + + } + + } + + } + + if ( textureNeedsGenerateMipmaps( texture ) ) { + + // We assume images for cube map have the same size. + generateMipmap( _gl.TEXTURE_CUBE_MAP ); + + } + + sourceProperties.__version = source.version; + + if ( texture.onUpdate ) texture.onUpdate( texture ); + + } + + textureProperties.__version = texture.version; + + } + + // Render targets + + // Setup storage for target texture and bind it to correct framebuffer + function setupFrameBufferTexture( framebuffer, renderTarget, texture, attachment, textureTarget, level ) { + + const glFormat = utils.convert( texture.format, texture.colorSpace ); + const glType = utils.convert( texture.type ); + const glInternalFormat = getInternalFormat( texture.internalFormat, glFormat, glType, texture.colorSpace ); + const renderTargetProperties = properties.get( renderTarget ); + const textureProperties = properties.get( texture ); + + textureProperties.__renderTarget = renderTarget; + + if ( ! renderTargetProperties.__hasExternalTextures ) { + + const width = Math.max( 1, renderTarget.width >> level ); + const height = Math.max( 1, renderTarget.height >> level ); + + if ( textureTarget === _gl.TEXTURE_3D || textureTarget === _gl.TEXTURE_2D_ARRAY ) { + + state.texImage3D( textureTarget, level, glInternalFormat, width, height, renderTarget.depth, 0, glFormat, glType, null ); + + } else { + + state.texImage2D( textureTarget, level, glInternalFormat, width, height, 0, glFormat, glType, null ); + + } + + } + + state.bindFramebuffer( _gl.FRAMEBUFFER, framebuffer ); + + if ( useMultisampledRTT( renderTarget ) ) { + + multisampledRTTExt.framebufferTexture2DMultisampleEXT( _gl.FRAMEBUFFER, attachment, textureTarget, textureProperties.__webglTexture, 0, getRenderTargetSamples( renderTarget ) ); + + } else if ( textureTarget === _gl.TEXTURE_2D || ( textureTarget >= _gl.TEXTURE_CUBE_MAP_POSITIVE_X && textureTarget <= _gl.TEXTURE_CUBE_MAP_NEGATIVE_Z ) ) { // see #24753 + + _gl.framebufferTexture2D( _gl.FRAMEBUFFER, attachment, textureTarget, textureProperties.__webglTexture, level ); + + } + + state.bindFramebuffer( _gl.FRAMEBUFFER, null ); + + } + + // Setup storage for internal depth/stencil buffers and bind to correct framebuffer + function setupRenderBufferStorage( renderbuffer, renderTarget, isMultisample ) { + + _gl.bindRenderbuffer( _gl.RENDERBUFFER, renderbuffer ); + + if ( renderTarget.depthBuffer ) { + + // retrieve the depth attachment types + const depthTexture = renderTarget.depthTexture; + const depthType = depthTexture && depthTexture.isDepthTexture ? depthTexture.type : null; + const glInternalFormat = getInternalDepthFormat( renderTarget.stencilBuffer, depthType ); + const glAttachmentType = renderTarget.stencilBuffer ? _gl.DEPTH_STENCIL_ATTACHMENT : _gl.DEPTH_ATTACHMENT; + + // set up the attachment + const samples = getRenderTargetSamples( renderTarget ); + const isUseMultisampledRTT = useMultisampledRTT( renderTarget ); + if ( isUseMultisampledRTT ) { + + multisampledRTTExt.renderbufferStorageMultisampleEXT( _gl.RENDERBUFFER, samples, glInternalFormat, renderTarget.width, renderTarget.height ); + + } else if ( isMultisample ) { + + _gl.renderbufferStorageMultisample( _gl.RENDERBUFFER, samples, glInternalFormat, renderTarget.width, renderTarget.height ); + + } else { + + _gl.renderbufferStorage( _gl.RENDERBUFFER, glInternalFormat, renderTarget.width, renderTarget.height ); + + } + + _gl.framebufferRenderbuffer( _gl.FRAMEBUFFER, glAttachmentType, _gl.RENDERBUFFER, renderbuffer ); + + } else { + + const textures = renderTarget.textures; + + for ( let i = 0; i < textures.length; i ++ ) { + + const texture = textures[ i ]; + + const glFormat = utils.convert( texture.format, texture.colorSpace ); + const glType = utils.convert( texture.type ); + const glInternalFormat = getInternalFormat( texture.internalFormat, glFormat, glType, texture.colorSpace ); + const samples = getRenderTargetSamples( renderTarget ); + + if ( isMultisample && useMultisampledRTT( renderTarget ) === false ) { + + _gl.renderbufferStorageMultisample( _gl.RENDERBUFFER, samples, glInternalFormat, renderTarget.width, renderTarget.height ); + + } else if ( useMultisampledRTT( renderTarget ) ) { + + multisampledRTTExt.renderbufferStorageMultisampleEXT( _gl.RENDERBUFFER, samples, glInternalFormat, renderTarget.width, renderTarget.height ); + + } else { + + _gl.renderbufferStorage( _gl.RENDERBUFFER, glInternalFormat, renderTarget.width, renderTarget.height ); + + } + + } + + } + + _gl.bindRenderbuffer( _gl.RENDERBUFFER, null ); + + } + + // Setup resources for a Depth Texture for a FBO (needs an extension) + function setupDepthTexture( framebuffer, renderTarget ) { + + const isCube = ( renderTarget && renderTarget.isWebGLCubeRenderTarget ); + if ( isCube ) throw new Error( 'Depth Texture with cube render targets is not supported' ); + + state.bindFramebuffer( _gl.FRAMEBUFFER, framebuffer ); + + if ( ! ( renderTarget.depthTexture && renderTarget.depthTexture.isDepthTexture ) ) { + + throw new Error( 'renderTarget.depthTexture must be an instance of THREE.DepthTexture' ); + + } + + const textureProperties = properties.get( renderTarget.depthTexture ); + textureProperties.__renderTarget = renderTarget; + + // upload an empty depth texture with framebuffer size + if ( ! textureProperties.__webglTexture || + renderTarget.depthTexture.image.width !== renderTarget.width || + renderTarget.depthTexture.image.height !== renderTarget.height ) { + + renderTarget.depthTexture.image.width = renderTarget.width; + renderTarget.depthTexture.image.height = renderTarget.height; + renderTarget.depthTexture.needsUpdate = true; + + } + + setTexture2D( renderTarget.depthTexture, 0 ); + + const webglDepthTexture = textureProperties.__webglTexture; + const samples = getRenderTargetSamples( renderTarget ); + + if ( renderTarget.depthTexture.format === DepthFormat ) { + + if ( useMultisampledRTT( renderTarget ) ) { + + multisampledRTTExt.framebufferTexture2DMultisampleEXT( _gl.FRAMEBUFFER, _gl.DEPTH_ATTACHMENT, _gl.TEXTURE_2D, webglDepthTexture, 0, samples ); + + } else { + + _gl.framebufferTexture2D( _gl.FRAMEBUFFER, _gl.DEPTH_ATTACHMENT, _gl.TEXTURE_2D, webglDepthTexture, 0 ); + + } + + } else if ( renderTarget.depthTexture.format === DepthStencilFormat ) { + + if ( useMultisampledRTT( renderTarget ) ) { + + multisampledRTTExt.framebufferTexture2DMultisampleEXT( _gl.FRAMEBUFFER, _gl.DEPTH_STENCIL_ATTACHMENT, _gl.TEXTURE_2D, webglDepthTexture, 0, samples ); + + } else { + + _gl.framebufferTexture2D( _gl.FRAMEBUFFER, _gl.DEPTH_STENCIL_ATTACHMENT, _gl.TEXTURE_2D, webglDepthTexture, 0 ); + + } + + } else { + + throw new Error( 'Unknown depthTexture format' ); + + } + + } + + // Setup GL resources for a non-texture depth buffer + function setupDepthRenderbuffer( renderTarget ) { + + const renderTargetProperties = properties.get( renderTarget ); + const isCube = ( renderTarget.isWebGLCubeRenderTarget === true ); + + // if the bound depth texture has changed + if ( renderTargetProperties.__boundDepthTexture !== renderTarget.depthTexture ) { + + // fire the dispose event to get rid of stored state associated with the previously bound depth buffer + const depthTexture = renderTarget.depthTexture; + if ( renderTargetProperties.__depthDisposeCallback ) { + + renderTargetProperties.__depthDisposeCallback(); + + } + + // set up dispose listeners to track when the currently attached buffer is implicitly unbound + if ( depthTexture ) { + + const disposeEvent = () => { + + delete renderTargetProperties.__boundDepthTexture; + delete renderTargetProperties.__depthDisposeCallback; + depthTexture.removeEventListener( 'dispose', disposeEvent ); + + }; + + depthTexture.addEventListener( 'dispose', disposeEvent ); + renderTargetProperties.__depthDisposeCallback = disposeEvent; + + } + + renderTargetProperties.__boundDepthTexture = depthTexture; + + } + + if ( renderTarget.depthTexture && ! renderTargetProperties.__autoAllocateDepthBuffer ) { + + if ( isCube ) throw new Error( 'target.depthTexture not supported in Cube render targets' ); + + setupDepthTexture( renderTargetProperties.__webglFramebuffer, renderTarget ); + + } else { + + if ( isCube ) { + + renderTargetProperties.__webglDepthbuffer = []; + + for ( let i = 0; i < 6; i ++ ) { + + state.bindFramebuffer( _gl.FRAMEBUFFER, renderTargetProperties.__webglFramebuffer[ i ] ); + + if ( renderTargetProperties.__webglDepthbuffer[ i ] === undefined ) { + + renderTargetProperties.__webglDepthbuffer[ i ] = _gl.createRenderbuffer(); + setupRenderBufferStorage( renderTargetProperties.__webglDepthbuffer[ i ], renderTarget, false ); + + } else { + + // attach buffer if it's been created already + const glAttachmentType = renderTarget.stencilBuffer ? _gl.DEPTH_STENCIL_ATTACHMENT : _gl.DEPTH_ATTACHMENT; + const renderbuffer = renderTargetProperties.__webglDepthbuffer[ i ]; + _gl.bindRenderbuffer( _gl.RENDERBUFFER, renderbuffer ); + _gl.framebufferRenderbuffer( _gl.FRAMEBUFFER, glAttachmentType, _gl.RENDERBUFFER, renderbuffer ); + + } + + } + + } else { + + state.bindFramebuffer( _gl.FRAMEBUFFER, renderTargetProperties.__webglFramebuffer ); + + if ( renderTargetProperties.__webglDepthbuffer === undefined ) { + + renderTargetProperties.__webglDepthbuffer = _gl.createRenderbuffer(); + setupRenderBufferStorage( renderTargetProperties.__webglDepthbuffer, renderTarget, false ); + + } else { + + // attach buffer if it's been created already + const glAttachmentType = renderTarget.stencilBuffer ? _gl.DEPTH_STENCIL_ATTACHMENT : _gl.DEPTH_ATTACHMENT; + const renderbuffer = renderTargetProperties.__webglDepthbuffer; + _gl.bindRenderbuffer( _gl.RENDERBUFFER, renderbuffer ); + _gl.framebufferRenderbuffer( _gl.FRAMEBUFFER, glAttachmentType, _gl.RENDERBUFFER, renderbuffer ); + + } + + } + + } + + state.bindFramebuffer( _gl.FRAMEBUFFER, null ); + + } + + // rebind framebuffer with external textures + function rebindTextures( renderTarget, colorTexture, depthTexture ) { + + const renderTargetProperties = properties.get( renderTarget ); + + if ( colorTexture !== undefined ) { + + setupFrameBufferTexture( renderTargetProperties.__webglFramebuffer, renderTarget, renderTarget.texture, _gl.COLOR_ATTACHMENT0, _gl.TEXTURE_2D, 0 ); + + } + + if ( depthTexture !== undefined ) { + + setupDepthRenderbuffer( renderTarget ); + + } + + } + + // Set up GL resources for the render target + function setupRenderTarget( renderTarget ) { + + const texture = renderTarget.texture; + + const renderTargetProperties = properties.get( renderTarget ); + const textureProperties = properties.get( texture ); + + renderTarget.addEventListener( 'dispose', onRenderTargetDispose ); + + const textures = renderTarget.textures; + + const isCube = ( renderTarget.isWebGLCubeRenderTarget === true ); + const isMultipleRenderTargets = ( textures.length > 1 ); + + if ( ! isMultipleRenderTargets ) { + + if ( textureProperties.__webglTexture === undefined ) { + + textureProperties.__webglTexture = _gl.createTexture(); + + } + + textureProperties.__version = texture.version; + info.memory.textures ++; + + } + + // Setup framebuffer + + if ( isCube ) { + + renderTargetProperties.__webglFramebuffer = []; + + for ( let i = 0; i < 6; i ++ ) { + + if ( texture.mipmaps && texture.mipmaps.length > 0 ) { + + renderTargetProperties.__webglFramebuffer[ i ] = []; + + for ( let level = 0; level < texture.mipmaps.length; level ++ ) { + + renderTargetProperties.__webglFramebuffer[ i ][ level ] = _gl.createFramebuffer(); + + } + + } else { + + renderTargetProperties.__webglFramebuffer[ i ] = _gl.createFramebuffer(); + + } + + } + + } else { + + if ( texture.mipmaps && texture.mipmaps.length > 0 ) { + + renderTargetProperties.__webglFramebuffer = []; + + for ( let level = 0; level < texture.mipmaps.length; level ++ ) { + + renderTargetProperties.__webglFramebuffer[ level ] = _gl.createFramebuffer(); + + } + + } else { + + renderTargetProperties.__webglFramebuffer = _gl.createFramebuffer(); + + } + + if ( isMultipleRenderTargets ) { + + for ( let i = 0, il = textures.length; i < il; i ++ ) { + + const attachmentProperties = properties.get( textures[ i ] ); + + if ( attachmentProperties.__webglTexture === undefined ) { + + attachmentProperties.__webglTexture = _gl.createTexture(); + + info.memory.textures ++; + + } + + } + + } + + if ( ( renderTarget.samples > 0 ) && useMultisampledRTT( renderTarget ) === false ) { + + renderTargetProperties.__webglMultisampledFramebuffer = _gl.createFramebuffer(); + renderTargetProperties.__webglColorRenderbuffer = []; + + state.bindFramebuffer( _gl.FRAMEBUFFER, renderTargetProperties.__webglMultisampledFramebuffer ); + + for ( let i = 0; i < textures.length; i ++ ) { + + const texture = textures[ i ]; + renderTargetProperties.__webglColorRenderbuffer[ i ] = _gl.createRenderbuffer(); + + _gl.bindRenderbuffer( _gl.RENDERBUFFER, renderTargetProperties.__webglColorRenderbuffer[ i ] ); + + const glFormat = utils.convert( texture.format, texture.colorSpace ); + const glType = utils.convert( texture.type ); + const glInternalFormat = getInternalFormat( texture.internalFormat, glFormat, glType, texture.colorSpace, renderTarget.isXRRenderTarget === true ); + const samples = getRenderTargetSamples( renderTarget ); + _gl.renderbufferStorageMultisample( _gl.RENDERBUFFER, samples, glInternalFormat, renderTarget.width, renderTarget.height ); + + _gl.framebufferRenderbuffer( _gl.FRAMEBUFFER, _gl.COLOR_ATTACHMENT0 + i, _gl.RENDERBUFFER, renderTargetProperties.__webglColorRenderbuffer[ i ] ); + + } + + _gl.bindRenderbuffer( _gl.RENDERBUFFER, null ); + + if ( renderTarget.depthBuffer ) { + + renderTargetProperties.__webglDepthRenderbuffer = _gl.createRenderbuffer(); + setupRenderBufferStorage( renderTargetProperties.__webglDepthRenderbuffer, renderTarget, true ); + + } + + state.bindFramebuffer( _gl.FRAMEBUFFER, null ); + + } + + } + + // Setup color buffer + + if ( isCube ) { + + state.bindTexture( _gl.TEXTURE_CUBE_MAP, textureProperties.__webglTexture ); + setTextureParameters( _gl.TEXTURE_CUBE_MAP, texture ); + + for ( let i = 0; i < 6; i ++ ) { + + if ( texture.mipmaps && texture.mipmaps.length > 0 ) { + + for ( let level = 0; level < texture.mipmaps.length; level ++ ) { + + setupFrameBufferTexture( renderTargetProperties.__webglFramebuffer[ i ][ level ], renderTarget, texture, _gl.COLOR_ATTACHMENT0, _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, level ); + + } + + } else { + + setupFrameBufferTexture( renderTargetProperties.__webglFramebuffer[ i ], renderTarget, texture, _gl.COLOR_ATTACHMENT0, _gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, 0 ); + + } + + } + + if ( textureNeedsGenerateMipmaps( texture ) ) { + + generateMipmap( _gl.TEXTURE_CUBE_MAP ); + + } + + state.unbindTexture(); + + } else if ( isMultipleRenderTargets ) { + + for ( let i = 0, il = textures.length; i < il; i ++ ) { + + const attachment = textures[ i ]; + const attachmentProperties = properties.get( attachment ); + + state.bindTexture( _gl.TEXTURE_2D, attachmentProperties.__webglTexture ); + setTextureParameters( _gl.TEXTURE_2D, attachment ); + setupFrameBufferTexture( renderTargetProperties.__webglFramebuffer, renderTarget, attachment, _gl.COLOR_ATTACHMENT0 + i, _gl.TEXTURE_2D, 0 ); + + if ( textureNeedsGenerateMipmaps( attachment ) ) { + + generateMipmap( _gl.TEXTURE_2D ); + + } + + } + + state.unbindTexture(); + + } else { + + let glTextureType = _gl.TEXTURE_2D; + + if ( renderTarget.isWebGL3DRenderTarget || renderTarget.isWebGLArrayRenderTarget ) { + + glTextureType = renderTarget.isWebGL3DRenderTarget ? _gl.TEXTURE_3D : _gl.TEXTURE_2D_ARRAY; + + } + + state.bindTexture( glTextureType, textureProperties.__webglTexture ); + setTextureParameters( glTextureType, texture ); + + if ( texture.mipmaps && texture.mipmaps.length > 0 ) { + + for ( let level = 0; level < texture.mipmaps.length; level ++ ) { + + setupFrameBufferTexture( renderTargetProperties.__webglFramebuffer[ level ], renderTarget, texture, _gl.COLOR_ATTACHMENT0, glTextureType, level ); + + } + + } else { + + setupFrameBufferTexture( renderTargetProperties.__webglFramebuffer, renderTarget, texture, _gl.COLOR_ATTACHMENT0, glTextureType, 0 ); + + } + + if ( textureNeedsGenerateMipmaps( texture ) ) { + + generateMipmap( glTextureType ); + + } + + state.unbindTexture(); + + } + + // Setup depth and stencil buffers + + if ( renderTarget.depthBuffer ) { + + setupDepthRenderbuffer( renderTarget ); + + } + + } + + function updateRenderTargetMipmap( renderTarget ) { + + const textures = renderTarget.textures; + + for ( let i = 0, il = textures.length; i < il; i ++ ) { + + const texture = textures[ i ]; + + if ( textureNeedsGenerateMipmaps( texture ) ) { + + const targetType = getTargetType( renderTarget ); + const webglTexture = properties.get( texture ).__webglTexture; + + state.bindTexture( targetType, webglTexture ); + generateMipmap( targetType ); + state.unbindTexture(); + + } + + } + + } + + const invalidationArrayRead = []; + const invalidationArrayDraw = []; + + function updateMultisampleRenderTarget( renderTarget ) { + + if ( renderTarget.samples > 0 ) { + + if ( useMultisampledRTT( renderTarget ) === false ) { + + const textures = renderTarget.textures; + const width = renderTarget.width; + const height = renderTarget.height; + let mask = _gl.COLOR_BUFFER_BIT; + const depthStyle = renderTarget.stencilBuffer ? _gl.DEPTH_STENCIL_ATTACHMENT : _gl.DEPTH_ATTACHMENT; + const renderTargetProperties = properties.get( renderTarget ); + const isMultipleRenderTargets = ( textures.length > 1 ); + + // If MRT we need to remove FBO attachments + if ( isMultipleRenderTargets ) { + + for ( let i = 0; i < textures.length; i ++ ) { + + state.bindFramebuffer( _gl.FRAMEBUFFER, renderTargetProperties.__webglMultisampledFramebuffer ); + _gl.framebufferRenderbuffer( _gl.FRAMEBUFFER, _gl.COLOR_ATTACHMENT0 + i, _gl.RENDERBUFFER, null ); + + state.bindFramebuffer( _gl.FRAMEBUFFER, renderTargetProperties.__webglFramebuffer ); + _gl.framebufferTexture2D( _gl.DRAW_FRAMEBUFFER, _gl.COLOR_ATTACHMENT0 + i, _gl.TEXTURE_2D, null, 0 ); + + } + + } + + state.bindFramebuffer( _gl.READ_FRAMEBUFFER, renderTargetProperties.__webglMultisampledFramebuffer ); + state.bindFramebuffer( _gl.DRAW_FRAMEBUFFER, renderTargetProperties.__webglFramebuffer ); + + for ( let i = 0; i < textures.length; i ++ ) { + + if ( renderTarget.resolveDepthBuffer ) { + + if ( renderTarget.depthBuffer ) mask |= _gl.DEPTH_BUFFER_BIT; + + // resolving stencil is slow with a D3D backend. disable it for all transmission render targets (see #27799) + + if ( renderTarget.stencilBuffer && renderTarget.resolveStencilBuffer ) mask |= _gl.STENCIL_BUFFER_BIT; + + } + + if ( isMultipleRenderTargets ) { + + _gl.framebufferRenderbuffer( _gl.READ_FRAMEBUFFER, _gl.COLOR_ATTACHMENT0, _gl.RENDERBUFFER, renderTargetProperties.__webglColorRenderbuffer[ i ] ); + + const webglTexture = properties.get( textures[ i ] ).__webglTexture; + _gl.framebufferTexture2D( _gl.DRAW_FRAMEBUFFER, _gl.COLOR_ATTACHMENT0, _gl.TEXTURE_2D, webglTexture, 0 ); + + } + + _gl.blitFramebuffer( 0, 0, width, height, 0, 0, width, height, mask, _gl.NEAREST ); + + if ( supportsInvalidateFramebuffer === true ) { + + invalidationArrayRead.length = 0; + invalidationArrayDraw.length = 0; + + invalidationArrayRead.push( _gl.COLOR_ATTACHMENT0 + i ); + + if ( renderTarget.depthBuffer && renderTarget.resolveDepthBuffer === false ) { + + invalidationArrayRead.push( depthStyle ); + invalidationArrayDraw.push( depthStyle ); + + _gl.invalidateFramebuffer( _gl.DRAW_FRAMEBUFFER, invalidationArrayDraw ); + + } + + _gl.invalidateFramebuffer( _gl.READ_FRAMEBUFFER, invalidationArrayRead ); + + } + + } + + state.bindFramebuffer( _gl.READ_FRAMEBUFFER, null ); + state.bindFramebuffer( _gl.DRAW_FRAMEBUFFER, null ); + + // If MRT since pre-blit we removed the FBO we need to reconstruct the attachments + if ( isMultipleRenderTargets ) { + + for ( let i = 0; i < textures.length; i ++ ) { + + state.bindFramebuffer( _gl.FRAMEBUFFER, renderTargetProperties.__webglMultisampledFramebuffer ); + _gl.framebufferRenderbuffer( _gl.FRAMEBUFFER, _gl.COLOR_ATTACHMENT0 + i, _gl.RENDERBUFFER, renderTargetProperties.__webglColorRenderbuffer[ i ] ); + + const webglTexture = properties.get( textures[ i ] ).__webglTexture; + + state.bindFramebuffer( _gl.FRAMEBUFFER, renderTargetProperties.__webglFramebuffer ); + _gl.framebufferTexture2D( _gl.DRAW_FRAMEBUFFER, _gl.COLOR_ATTACHMENT0 + i, _gl.TEXTURE_2D, webglTexture, 0 ); + + } + + } + + state.bindFramebuffer( _gl.DRAW_FRAMEBUFFER, renderTargetProperties.__webglMultisampledFramebuffer ); + + } else { + + if ( renderTarget.depthBuffer && renderTarget.resolveDepthBuffer === false && supportsInvalidateFramebuffer ) { + + const depthStyle = renderTarget.stencilBuffer ? _gl.DEPTH_STENCIL_ATTACHMENT : _gl.DEPTH_ATTACHMENT; + + _gl.invalidateFramebuffer( _gl.DRAW_FRAMEBUFFER, [ depthStyle ] ); + + } + + } + + } + + } + + function getRenderTargetSamples( renderTarget ) { + + return Math.min( capabilities.maxSamples, renderTarget.samples ); + + } + + function useMultisampledRTT( renderTarget ) { + + const renderTargetProperties = properties.get( renderTarget ); + + return renderTarget.samples > 0 && extensions.has( 'WEBGL_multisampled_render_to_texture' ) === true && renderTargetProperties.__useRenderToTexture !== false; + + } + + function updateVideoTexture( texture ) { + + const frame = info.render.frame; + + // Check the last frame we updated the VideoTexture + + if ( _videoTextures.get( texture ) !== frame ) { + + _videoTextures.set( texture, frame ); + texture.update(); + + } + + } + + function verifyColorSpace( texture, image ) { + + const colorSpace = texture.colorSpace; + const format = texture.format; + const type = texture.type; + + if ( texture.isCompressedTexture === true || texture.isVideoTexture === true ) return image; + + if ( colorSpace !== LinearSRGBColorSpace && colorSpace !== NoColorSpace ) { + + // sRGB + + if ( ColorManagement.getTransfer( colorSpace ) === SRGBTransfer ) { + + // in WebGL 2 uncompressed textures can only be sRGB encoded if they have the RGBA8 format + + if ( format !== RGBAFormat || type !== UnsignedByteType ) { + + console.warn( 'THREE.WebGLTextures: sRGB encoded textures have to use RGBAFormat and UnsignedByteType.' ); + + } + + } else { + + console.error( 'THREE.WebGLTextures: Unsupported texture color space:', colorSpace ); + + } + + } + + return image; + + } + + function getDimensions( image ) { + + if ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) { + + // if intrinsic data are not available, fallback to width/height + + _imageDimensions.width = image.naturalWidth || image.width; + _imageDimensions.height = image.naturalHeight || image.height; + + } else if ( typeof VideoFrame !== 'undefined' && image instanceof VideoFrame ) { + + _imageDimensions.width = image.displayWidth; + _imageDimensions.height = image.displayHeight; + + } else { + + _imageDimensions.width = image.width; + _imageDimensions.height = image.height; + + } + + return _imageDimensions; + + } + + // + + this.allocateTextureUnit = allocateTextureUnit; + this.resetTextureUnits = resetTextureUnits; + + this.setTexture2D = setTexture2D; + this.setTexture2DArray = setTexture2DArray; + this.setTexture3D = setTexture3D; + this.setTextureCube = setTextureCube; + this.rebindTextures = rebindTextures; + this.setupRenderTarget = setupRenderTarget; + this.updateRenderTargetMipmap = updateRenderTargetMipmap; + this.updateMultisampleRenderTarget = updateMultisampleRenderTarget; + this.setupDepthRenderbuffer = setupDepthRenderbuffer; + this.setupFrameBufferTexture = setupFrameBufferTexture; + this.useMultisampledRTT = useMultisampledRTT; + +} + +function WebGLUtils( gl, extensions ) { + + function convert( p, colorSpace = NoColorSpace ) { + + let extension; + + const transfer = ColorManagement.getTransfer( colorSpace ); + + if ( p === UnsignedByteType ) return gl.UNSIGNED_BYTE; + if ( p === UnsignedShort4444Type ) return gl.UNSIGNED_SHORT_4_4_4_4; + if ( p === UnsignedShort5551Type ) return gl.UNSIGNED_SHORT_5_5_5_1; + if ( p === UnsignedInt5999Type ) return gl.UNSIGNED_INT_5_9_9_9_REV; + + if ( p === ByteType ) return gl.BYTE; + if ( p === ShortType ) return gl.SHORT; + if ( p === UnsignedShortType ) return gl.UNSIGNED_SHORT; + if ( p === IntType ) return gl.INT; + if ( p === UnsignedIntType ) return gl.UNSIGNED_INT; + if ( p === FloatType ) return gl.FLOAT; + if ( p === HalfFloatType ) return gl.HALF_FLOAT; + + if ( p === AlphaFormat ) return gl.ALPHA; + if ( p === RGBFormat ) return gl.RGB; + if ( p === RGBAFormat ) return gl.RGBA; + if ( p === LuminanceFormat ) return gl.LUMINANCE; + if ( p === LuminanceAlphaFormat ) return gl.LUMINANCE_ALPHA; + if ( p === DepthFormat ) return gl.DEPTH_COMPONENT; + if ( p === DepthStencilFormat ) return gl.DEPTH_STENCIL; + + // WebGL2 formats. + + if ( p === RedFormat ) return gl.RED; + if ( p === RedIntegerFormat ) return gl.RED_INTEGER; + if ( p === RGFormat ) return gl.RG; + if ( p === RGIntegerFormat ) return gl.RG_INTEGER; + if ( p === RGBAIntegerFormat ) return gl.RGBA_INTEGER; + + // S3TC + + if ( p === RGB_S3TC_DXT1_Format || p === RGBA_S3TC_DXT1_Format || p === RGBA_S3TC_DXT3_Format || p === RGBA_S3TC_DXT5_Format ) { + + if ( transfer === SRGBTransfer ) { + + extension = extensions.get( 'WEBGL_compressed_texture_s3tc_srgb' ); + + if ( extension !== null ) { + + if ( p === RGB_S3TC_DXT1_Format ) return extension.COMPRESSED_SRGB_S3TC_DXT1_EXT; + if ( p === RGBA_S3TC_DXT1_Format ) return extension.COMPRESSED_SRGB_ALPHA_S3TC_DXT1_EXT; + if ( p === RGBA_S3TC_DXT3_Format ) return extension.COMPRESSED_SRGB_ALPHA_S3TC_DXT3_EXT; + if ( p === RGBA_S3TC_DXT5_Format ) return extension.COMPRESSED_SRGB_ALPHA_S3TC_DXT5_EXT; + + } else { + + return null; + + } + + } else { + + extension = extensions.get( 'WEBGL_compressed_texture_s3tc' ); + + if ( extension !== null ) { + + if ( p === RGB_S3TC_DXT1_Format ) return extension.COMPRESSED_RGB_S3TC_DXT1_EXT; + if ( p === RGBA_S3TC_DXT1_Format ) return extension.COMPRESSED_RGBA_S3TC_DXT1_EXT; + if ( p === RGBA_S3TC_DXT3_Format ) return extension.COMPRESSED_RGBA_S3TC_DXT3_EXT; + if ( p === RGBA_S3TC_DXT5_Format ) return extension.COMPRESSED_RGBA_S3TC_DXT5_EXT; + + } else { + + return null; + + } + + } + + } + + // PVRTC + + if ( p === RGB_PVRTC_4BPPV1_Format || p === RGB_PVRTC_2BPPV1_Format || p === RGBA_PVRTC_4BPPV1_Format || p === RGBA_PVRTC_2BPPV1_Format ) { + + extension = extensions.get( 'WEBGL_compressed_texture_pvrtc' ); + + if ( extension !== null ) { + + if ( p === RGB_PVRTC_4BPPV1_Format ) return extension.COMPRESSED_RGB_PVRTC_4BPPV1_IMG; + if ( p === RGB_PVRTC_2BPPV1_Format ) return extension.COMPRESSED_RGB_PVRTC_2BPPV1_IMG; + if ( p === RGBA_PVRTC_4BPPV1_Format ) return extension.COMPRESSED_RGBA_PVRTC_4BPPV1_IMG; + if ( p === RGBA_PVRTC_2BPPV1_Format ) return extension.COMPRESSED_RGBA_PVRTC_2BPPV1_IMG; + + } else { + + return null; + + } + + } + + // ETC + + if ( p === RGB_ETC1_Format || p === RGB_ETC2_Format || p === RGBA_ETC2_EAC_Format ) { + + extension = extensions.get( 'WEBGL_compressed_texture_etc' ); + + if ( extension !== null ) { + + if ( p === RGB_ETC1_Format || p === RGB_ETC2_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ETC2 : extension.COMPRESSED_RGB8_ETC2; + if ( p === RGBA_ETC2_EAC_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ETC2_EAC : extension.COMPRESSED_RGBA8_ETC2_EAC; + + } else { + + return null; + + } + + } + + // ASTC + + if ( p === RGBA_ASTC_4x4_Format || p === RGBA_ASTC_5x4_Format || p === RGBA_ASTC_5x5_Format || + p === RGBA_ASTC_6x5_Format || p === RGBA_ASTC_6x6_Format || p === RGBA_ASTC_8x5_Format || + p === RGBA_ASTC_8x6_Format || p === RGBA_ASTC_8x8_Format || p === RGBA_ASTC_10x5_Format || + p === RGBA_ASTC_10x6_Format || p === RGBA_ASTC_10x8_Format || p === RGBA_ASTC_10x10_Format || + p === RGBA_ASTC_12x10_Format || p === RGBA_ASTC_12x12_Format ) { + + extension = extensions.get( 'WEBGL_compressed_texture_astc' ); + + if ( extension !== null ) { + + if ( p === RGBA_ASTC_4x4_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_4x4_KHR : extension.COMPRESSED_RGBA_ASTC_4x4_KHR; + if ( p === RGBA_ASTC_5x4_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_5x4_KHR : extension.COMPRESSED_RGBA_ASTC_5x4_KHR; + if ( p === RGBA_ASTC_5x5_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_5x5_KHR : extension.COMPRESSED_RGBA_ASTC_5x5_KHR; + if ( p === RGBA_ASTC_6x5_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_6x5_KHR : extension.COMPRESSED_RGBA_ASTC_6x5_KHR; + if ( p === RGBA_ASTC_6x6_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_6x6_KHR : extension.COMPRESSED_RGBA_ASTC_6x6_KHR; + if ( p === RGBA_ASTC_8x5_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_8x5_KHR : extension.COMPRESSED_RGBA_ASTC_8x5_KHR; + if ( p === RGBA_ASTC_8x6_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_8x6_KHR : extension.COMPRESSED_RGBA_ASTC_8x6_KHR; + if ( p === RGBA_ASTC_8x8_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_8x8_KHR : extension.COMPRESSED_RGBA_ASTC_8x8_KHR; + if ( p === RGBA_ASTC_10x5_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_10x5_KHR : extension.COMPRESSED_RGBA_ASTC_10x5_KHR; + if ( p === RGBA_ASTC_10x6_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_10x6_KHR : extension.COMPRESSED_RGBA_ASTC_10x6_KHR; + if ( p === RGBA_ASTC_10x8_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_10x8_KHR : extension.COMPRESSED_RGBA_ASTC_10x8_KHR; + if ( p === RGBA_ASTC_10x10_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_10x10_KHR : extension.COMPRESSED_RGBA_ASTC_10x10_KHR; + if ( p === RGBA_ASTC_12x10_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_12x10_KHR : extension.COMPRESSED_RGBA_ASTC_12x10_KHR; + if ( p === RGBA_ASTC_12x12_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_12x12_KHR : extension.COMPRESSED_RGBA_ASTC_12x12_KHR; + + } else { + + return null; + + } + + } + + // BPTC + + if ( p === RGBA_BPTC_Format || p === RGB_BPTC_SIGNED_Format || p === RGB_BPTC_UNSIGNED_Format ) { + + extension = extensions.get( 'EXT_texture_compression_bptc' ); + + if ( extension !== null ) { + + if ( p === RGBA_BPTC_Format ) return ( transfer === SRGBTransfer ) ? extension.COMPRESSED_SRGB_ALPHA_BPTC_UNORM_EXT : extension.COMPRESSED_RGBA_BPTC_UNORM_EXT; + if ( p === RGB_BPTC_SIGNED_Format ) return extension.COMPRESSED_RGB_BPTC_SIGNED_FLOAT_EXT; + if ( p === RGB_BPTC_UNSIGNED_Format ) return extension.COMPRESSED_RGB_BPTC_UNSIGNED_FLOAT_EXT; + + } else { + + return null; + + } + + } + + // RGTC + + if ( p === RED_RGTC1_Format || p === SIGNED_RED_RGTC1_Format || p === RED_GREEN_RGTC2_Format || p === SIGNED_RED_GREEN_RGTC2_Format ) { + + extension = extensions.get( 'EXT_texture_compression_rgtc' ); + + if ( extension !== null ) { + + if ( p === RGBA_BPTC_Format ) return extension.COMPRESSED_RED_RGTC1_EXT; + if ( p === SIGNED_RED_RGTC1_Format ) return extension.COMPRESSED_SIGNED_RED_RGTC1_EXT; + if ( p === RED_GREEN_RGTC2_Format ) return extension.COMPRESSED_RED_GREEN_RGTC2_EXT; + if ( p === SIGNED_RED_GREEN_RGTC2_Format ) return extension.COMPRESSED_SIGNED_RED_GREEN_RGTC2_EXT; + + } else { + + return null; + + } + + } + + // + + if ( p === UnsignedInt248Type ) return gl.UNSIGNED_INT_24_8; + + // if "p" can't be resolved, assume the user defines a WebGL constant as a string (fallback/workaround for packed RGB formats) + + return ( gl[ p ] !== undefined ) ? gl[ p ] : null; + + } + + return { convert: convert }; + +} + +const _occlusion_vertex = ` +void main() { + + gl_Position = vec4( position, 1.0 ); + +}`; + +const _occlusion_fragment = ` +uniform sampler2DArray depthColor; +uniform float depthWidth; +uniform float depthHeight; + +void main() { + + vec2 coord = vec2( gl_FragCoord.x / depthWidth, gl_FragCoord.y / depthHeight ); + + if ( coord.x >= 1.0 ) { + + gl_FragDepth = texture( depthColor, vec3( coord.x - 1.0, coord.y, 1 ) ).r; + + } else { + + gl_FragDepth = texture( depthColor, vec3( coord.x, coord.y, 0 ) ).r; + + } + +}`; + +class WebXRDepthSensing { + + constructor() { + + this.texture = null; + this.mesh = null; + + this.depthNear = 0; + this.depthFar = 0; + + } + + init( renderer, depthData, renderState ) { + + if ( this.texture === null ) { + + const texture = new Texture$1(); + + const texProps = renderer.properties.get( texture ); + texProps.__webglTexture = depthData.texture; + + if ( ( depthData.depthNear !== renderState.depthNear ) || ( depthData.depthFar !== renderState.depthFar ) ) { + + this.depthNear = depthData.depthNear; + this.depthFar = depthData.depthFar; + + } + + this.texture = texture; + + } + + } + + getMesh( cameraXR ) { + + if ( this.texture !== null ) { + + if ( this.mesh === null ) { + + const viewport = cameraXR.cameras[ 0 ].viewport; + const material = new ShaderMaterial( { + vertexShader: _occlusion_vertex, + fragmentShader: _occlusion_fragment, + uniforms: { + depthColor: { value: this.texture }, + depthWidth: { value: viewport.z }, + depthHeight: { value: viewport.w } + } + } ); + + this.mesh = new Mesh( new PlaneGeometry( 20, 20 ), material ); + + } + + } + + return this.mesh; + + } + + reset() { + + this.texture = null; + this.mesh = null; + + } + + getDepthTexture() { + + return this.texture; + + } + +} + +class WebXRManager extends EventDispatcher { + + constructor( renderer, gl ) { + + super(); + + const scope = this; + + let session = null; + + let framebufferScaleFactor = 1.0; + + let referenceSpace = null; + let referenceSpaceType = 'local-floor'; + // Set default foveation to maximum. + let foveation = 1.0; + let customReferenceSpace = null; + + let pose = null; + let glBinding = null; + let glProjLayer = null; + let glBaseLayer = null; + let xrFrame = null; + + const depthSensing = new WebXRDepthSensing(); + const attributes = gl.getContextAttributes(); + + let initialRenderTarget = null; + let newRenderTarget = null; + + const controllers = []; + const controllerInputSources = []; + + const currentSize = new Vector2(); + let currentPixelRatio = null; + + // + + const cameraL = new PerspectiveCamera(); + cameraL.viewport = new Vector4(); + + const cameraR = new PerspectiveCamera(); + cameraR.viewport = new Vector4(); + + const cameras = [ cameraL, cameraR ]; + + const cameraXR = new ArrayCamera(); + + let _currentDepthNear = null; + let _currentDepthFar = null; + + // + + this.cameraAutoUpdate = true; + this.enabled = false; + + this.isPresenting = false; + + this.getController = function ( index ) { + + let controller = controllers[ index ]; + + if ( controller === undefined ) { + + controller = new WebXRController(); + controllers[ index ] = controller; + + } + + return controller.getTargetRaySpace(); + + }; + + this.getControllerGrip = function ( index ) { + + let controller = controllers[ index ]; + + if ( controller === undefined ) { + + controller = new WebXRController(); + controllers[ index ] = controller; + + } + + return controller.getGripSpace(); + + }; + + this.getHand = function ( index ) { + + let controller = controllers[ index ]; + + if ( controller === undefined ) { + + controller = new WebXRController(); + controllers[ index ] = controller; + + } + + return controller.getHandSpace(); + + }; + + // + + function onSessionEvent( event ) { + + const controllerIndex = controllerInputSources.indexOf( event.inputSource ); + + if ( controllerIndex === -1 ) { + + return; + + } + + const controller = controllers[ controllerIndex ]; + + if ( controller !== undefined ) { + + controller.update( event.inputSource, event.frame, customReferenceSpace || referenceSpace ); + controller.dispatchEvent( { type: event.type, data: event.inputSource } ); + + } + + } + + function onSessionEnd() { + + session.removeEventListener( 'select', onSessionEvent ); + session.removeEventListener( 'selectstart', onSessionEvent ); + session.removeEventListener( 'selectend', onSessionEvent ); + session.removeEventListener( 'squeeze', onSessionEvent ); + session.removeEventListener( 'squeezestart', onSessionEvent ); + session.removeEventListener( 'squeezeend', onSessionEvent ); + session.removeEventListener( 'end', onSessionEnd ); + session.removeEventListener( 'inputsourceschange', onInputSourcesChange ); + + for ( let i = 0; i < controllers.length; i ++ ) { + + const inputSource = controllerInputSources[ i ]; + + if ( inputSource === null ) continue; + + controllerInputSources[ i ] = null; + + controllers[ i ].disconnect( inputSource ); + + } + + _currentDepthNear = null; + _currentDepthFar = null; + + depthSensing.reset(); + + // restore framebuffer/rendering state + + renderer.setRenderTarget( initialRenderTarget ); + + glBaseLayer = null; + glProjLayer = null; + glBinding = null; + session = null; + newRenderTarget = null; + + // + + animation.stop(); + + scope.isPresenting = false; + + renderer.setPixelRatio( currentPixelRatio ); + renderer.setSize( currentSize.width, currentSize.height, false ); + + scope.dispatchEvent( { type: 'sessionend' } ); + + } + + this.setFramebufferScaleFactor = function ( value ) { + + framebufferScaleFactor = value; + + if ( scope.isPresenting === true ) { + + console.warn( 'THREE.WebXRManager: Cannot change framebuffer scale while presenting.' ); + + } + + }; + + this.setReferenceSpaceType = function ( value ) { + + referenceSpaceType = value; + + if ( scope.isPresenting === true ) { + + console.warn( 'THREE.WebXRManager: Cannot change reference space type while presenting.' ); + + } + + }; + + this.getReferenceSpace = function () { + + return customReferenceSpace || referenceSpace; + + }; + + this.setReferenceSpace = function ( space ) { + + customReferenceSpace = space; + + }; + + this.getBaseLayer = function () { + + return glProjLayer !== null ? glProjLayer : glBaseLayer; + + }; + + this.getBinding = function () { + + return glBinding; + + }; + + this.getFrame = function () { + + return xrFrame; + + }; + + this.getSession = function () { + + return session; + + }; + + this.setSession = async function ( value ) { + + session = value; + + if ( session !== null ) { + + initialRenderTarget = renderer.getRenderTarget(); + + session.addEventListener( 'select', onSessionEvent ); + session.addEventListener( 'selectstart', onSessionEvent ); + session.addEventListener( 'selectend', onSessionEvent ); + session.addEventListener( 'squeeze', onSessionEvent ); + session.addEventListener( 'squeezestart', onSessionEvent ); + session.addEventListener( 'squeezeend', onSessionEvent ); + session.addEventListener( 'end', onSessionEnd ); + session.addEventListener( 'inputsourceschange', onInputSourcesChange ); + + if ( attributes.xrCompatible !== true ) { + + await gl.makeXRCompatible(); + + } + + currentPixelRatio = renderer.getPixelRatio(); + renderer.getSize( currentSize ); + + // Check that the browser implements the necessary APIs to use an + // XRProjectionLayer rather than an XRWebGLLayer + const useLayers = typeof XRWebGLBinding !== 'undefined' && 'createProjectionLayer' in XRWebGLBinding.prototype; + + if ( ! useLayers ) { + + const layerInit = { + antialias: attributes.antialias, + alpha: true, + depth: attributes.depth, + stencil: attributes.stencil, + framebufferScaleFactor: framebufferScaleFactor + }; + + glBaseLayer = new XRWebGLLayer( session, gl, layerInit ); + + session.updateRenderState( { baseLayer: glBaseLayer } ); + + renderer.setPixelRatio( 1 ); + renderer.setSize( glBaseLayer.framebufferWidth, glBaseLayer.framebufferHeight, false ); + + newRenderTarget = new WebGLRenderTarget( + glBaseLayer.framebufferWidth, + glBaseLayer.framebufferHeight, + { + format: RGBAFormat, + type: UnsignedByteType, + colorSpace: renderer.outputColorSpace, + stencilBuffer: attributes.stencil, + resolveDepthBuffer: ( glBaseLayer.ignoreDepthValues === false ), + resolveStencilBuffer: ( glBaseLayer.ignoreDepthValues === false ) + + } + ); + + } else { + + let depthFormat = null; + let depthType = null; + let glDepthFormat = null; + + if ( attributes.depth ) { + + glDepthFormat = attributes.stencil ? gl.DEPTH24_STENCIL8 : gl.DEPTH_COMPONENT24; + depthFormat = attributes.stencil ? DepthStencilFormat : DepthFormat; + depthType = attributes.stencil ? UnsignedInt248Type : UnsignedIntType; + + } + + const projectionlayerInit = { + colorFormat: gl.RGBA8, + depthFormat: glDepthFormat, + scaleFactor: framebufferScaleFactor + }; + + glBinding = new XRWebGLBinding( session, gl ); + + glProjLayer = glBinding.createProjectionLayer( projectionlayerInit ); + + session.updateRenderState( { layers: [ glProjLayer ] } ); + + renderer.setPixelRatio( 1 ); + renderer.setSize( glProjLayer.textureWidth, glProjLayer.textureHeight, false ); + + newRenderTarget = new WebGLRenderTarget( + glProjLayer.textureWidth, + glProjLayer.textureHeight, + { + format: RGBAFormat, + type: UnsignedByteType, + depthTexture: new DepthTexture( glProjLayer.textureWidth, glProjLayer.textureHeight, depthType, undefined, undefined, undefined, undefined, undefined, undefined, depthFormat ), + stencilBuffer: attributes.stencil, + colorSpace: renderer.outputColorSpace, + samples: attributes.antialias ? 4 : 0, + resolveDepthBuffer: ( glProjLayer.ignoreDepthValues === false ), + resolveStencilBuffer: ( glProjLayer.ignoreDepthValues === false ) + } ); + + } + + newRenderTarget.isXRRenderTarget = true; // TODO Remove this when possible, see #23278 + + this.setFoveation( foveation ); + + customReferenceSpace = null; + referenceSpace = await session.requestReferenceSpace( referenceSpaceType ); + + animation.setContext( session ); + animation.start(); + + scope.isPresenting = true; + + scope.dispatchEvent( { type: 'sessionstart' } ); + + } + + }; + + this.getEnvironmentBlendMode = function () { + + if ( session !== null ) { + + return session.environmentBlendMode; + + } + + }; + + this.getDepthTexture = function () { + + return depthSensing.getDepthTexture(); + + }; + + function onInputSourcesChange( event ) { + + // Notify disconnected + + for ( let i = 0; i < event.removed.length; i ++ ) { + + const inputSource = event.removed[ i ]; + const index = controllerInputSources.indexOf( inputSource ); + + if ( index >= 0 ) { + + controllerInputSources[ index ] = null; + controllers[ index ].disconnect( inputSource ); + + } + + } + + // Notify connected + + for ( let i = 0; i < event.added.length; i ++ ) { + + const inputSource = event.added[ i ]; + + let controllerIndex = controllerInputSources.indexOf( inputSource ); + + if ( controllerIndex === -1 ) { + + // Assign input source a controller that currently has no input source + + for ( let i = 0; i < controllers.length; i ++ ) { + + if ( i >= controllerInputSources.length ) { + + controllerInputSources.push( inputSource ); + controllerIndex = i; + break; + + } else if ( controllerInputSources[ i ] === null ) { + + controllerInputSources[ i ] = inputSource; + controllerIndex = i; + break; + + } + + } + + // If all controllers do currently receive input we ignore new ones + + if ( controllerIndex === -1 ) break; + + } + + const controller = controllers[ controllerIndex ]; + + if ( controller ) { + + controller.connect( inputSource ); + + } + + } + + } + + // + + const cameraLPos = new Vector3(); + const cameraRPos = new Vector3(); + + /** + * Assumes 2 cameras that are parallel and share an X-axis, and that + * the cameras' projection and world matrices have already been set. + * And that near and far planes are identical for both cameras. + * Visualization of this technique: https://computergraphics.stackexchange.com/a/4765 + * + * @param {ArrayCamera} camera - The camera to update. + * @param {PerspectiveCamera} cameraL - The left camera. + * @param {PerspectiveCamera} cameraR - The right camera. + */ + function setProjectionFromUnion( camera, cameraL, cameraR ) { + + cameraLPos.setFromMatrixPosition( cameraL.matrixWorld ); + cameraRPos.setFromMatrixPosition( cameraR.matrixWorld ); + + const ipd = cameraLPos.distanceTo( cameraRPos ); + + const projL = cameraL.projectionMatrix.elements; + const projR = cameraR.projectionMatrix.elements; + + // VR systems will have identical far and near planes, and + // most likely identical top and bottom frustum extents. + // Use the left camera for these values. + const near = projL[ 14 ] / ( projL[ 10 ] - 1 ); + const far = projL[ 14 ] / ( projL[ 10 ] + 1 ); + const topFov = ( projL[ 9 ] + 1 ) / projL[ 5 ]; + const bottomFov = ( projL[ 9 ] - 1 ) / projL[ 5 ]; + + const leftFov = ( projL[ 8 ] - 1 ) / projL[ 0 ]; + const rightFov = ( projR[ 8 ] + 1 ) / projR[ 0 ]; + const left = near * leftFov; + const right = near * rightFov; + + // Calculate the new camera's position offset from the + // left camera. xOffset should be roughly half `ipd`. + const zOffset = ipd / ( - leftFov + rightFov ); + const xOffset = zOffset * - leftFov; + + // TODO: Better way to apply this offset? + cameraL.matrixWorld.decompose( camera.position, camera.quaternion, camera.scale ); + camera.translateX( xOffset ); + camera.translateZ( zOffset ); + camera.matrixWorld.compose( camera.position, camera.quaternion, camera.scale ); + camera.matrixWorldInverse.copy( camera.matrixWorld ).invert(); + + // Check if the projection uses an infinite far plane. + if ( projL[ 10 ] === -1 ) { + + // Use the projection matrix from the left eye. + // The camera offset is sufficient to include the view volumes + // of both eyes (assuming symmetric projections). + camera.projectionMatrix.copy( cameraL.projectionMatrix ); + camera.projectionMatrixInverse.copy( cameraL.projectionMatrixInverse ); + + } else { + + // Find the union of the frustum values of the cameras and scale + // the values so that the near plane's position does not change in world space, + // although must now be relative to the new union camera. + const near2 = near + zOffset; + const far2 = far + zOffset; + const left2 = left - xOffset; + const right2 = right + ( ipd - xOffset ); + const top2 = topFov * far / far2 * near2; + const bottom2 = bottomFov * far / far2 * near2; + + camera.projectionMatrix.makePerspective( left2, right2, top2, bottom2, near2, far2 ); + camera.projectionMatrixInverse.copy( camera.projectionMatrix ).invert(); + + } + + } + + function updateCamera( camera, parent ) { + + if ( parent === null ) { + + camera.matrixWorld.copy( camera.matrix ); + + } else { + + camera.matrixWorld.multiplyMatrices( parent.matrixWorld, camera.matrix ); + + } + + camera.matrixWorldInverse.copy( camera.matrixWorld ).invert(); + + } + + this.updateCamera = function ( camera ) { + + if ( session === null ) return; + + let depthNear = camera.near; + let depthFar = camera.far; + + if ( depthSensing.texture !== null ) { + + if ( depthSensing.depthNear > 0 ) depthNear = depthSensing.depthNear; + if ( depthSensing.depthFar > 0 ) depthFar = depthSensing.depthFar; + + } + + cameraXR.near = cameraR.near = cameraL.near = depthNear; + cameraXR.far = cameraR.far = cameraL.far = depthFar; + + if ( _currentDepthNear !== cameraXR.near || _currentDepthFar !== cameraXR.far ) { + + // Note that the new renderState won't apply until the next frame. See #18320 + + session.updateRenderState( { + depthNear: cameraXR.near, + depthFar: cameraXR.far + } ); + + _currentDepthNear = cameraXR.near; + _currentDepthFar = cameraXR.far; + + } + + cameraL.layers.mask = camera.layers.mask | 0b010; + cameraR.layers.mask = camera.layers.mask | 0b100; + cameraXR.layers.mask = cameraL.layers.mask | cameraR.layers.mask; + + const parent = camera.parent; + const cameras = cameraXR.cameras; + + updateCamera( cameraXR, parent ); + + for ( let i = 0; i < cameras.length; i ++ ) { + + updateCamera( cameras[ i ], parent ); + + } + + // update projection matrix for proper view frustum culling + + if ( cameras.length === 2 ) { + + setProjectionFromUnion( cameraXR, cameraL, cameraR ); + + } else { + + // assume single camera setup (AR) + + cameraXR.projectionMatrix.copy( cameraL.projectionMatrix ); + + } + + // update user camera and its children + + updateUserCamera( camera, cameraXR, parent ); + + }; + + function updateUserCamera( camera, cameraXR, parent ) { + + if ( parent === null ) { + + camera.matrix.copy( cameraXR.matrixWorld ); + + } else { + + camera.matrix.copy( parent.matrixWorld ); + camera.matrix.invert(); + camera.matrix.multiply( cameraXR.matrixWorld ); + + } + + camera.matrix.decompose( camera.position, camera.quaternion, camera.scale ); + camera.updateMatrixWorld( true ); + + camera.projectionMatrix.copy( cameraXR.projectionMatrix ); + camera.projectionMatrixInverse.copy( cameraXR.projectionMatrixInverse ); + + if ( camera.isPerspectiveCamera ) { + + camera.fov = RAD2DEG * 2 * Math.atan( 1 / camera.projectionMatrix.elements[ 5 ] ); + camera.zoom = 1; + + } + + } + + this.getCamera = function () { + + return cameraXR; + + }; + + this.getFoveation = function () { + + if ( glProjLayer === null && glBaseLayer === null ) { + + return undefined; + + } + + return foveation; + + }; + + this.setFoveation = function ( value ) { + + // 0 = no foveation = full resolution + // 1 = maximum foveation = the edges render at lower resolution + + foveation = value; + + if ( glProjLayer !== null ) { + + glProjLayer.fixedFoveation = value; + + } + + if ( glBaseLayer !== null && glBaseLayer.fixedFoveation !== undefined ) { + + glBaseLayer.fixedFoveation = value; + + } + + }; + + this.hasDepthSensing = function () { + + return depthSensing.texture !== null; + + }; + + this.getDepthSensingMesh = function () { + + return depthSensing.getMesh( cameraXR ); + + }; + + // Animation Loop + + let onAnimationFrameCallback = null; + + function onAnimationFrame( time, frame ) { + + pose = frame.getViewerPose( customReferenceSpace || referenceSpace ); + xrFrame = frame; + + if ( pose !== null ) { + + const views = pose.views; + + if ( glBaseLayer !== null ) { + + renderer.setRenderTargetFramebuffer( newRenderTarget, glBaseLayer.framebuffer ); + renderer.setRenderTarget( newRenderTarget ); + + } + + let cameraXRNeedsUpdate = false; + + // check if it's necessary to rebuild cameraXR's camera list + + if ( views.length !== cameraXR.cameras.length ) { + + cameraXR.cameras.length = 0; + cameraXRNeedsUpdate = true; + + } + + for ( let i = 0; i < views.length; i ++ ) { + + const view = views[ i ]; + + let viewport = null; + + if ( glBaseLayer !== null ) { + + viewport = glBaseLayer.getViewport( view ); + + } else { + + const glSubImage = glBinding.getViewSubImage( glProjLayer, view ); + viewport = glSubImage.viewport; + + // For side-by-side projection, we only produce a single texture for both eyes. + if ( i === 0 ) { + + renderer.setRenderTargetTextures( + newRenderTarget, + glSubImage.colorTexture, + glProjLayer.ignoreDepthValues ? undefined : glSubImage.depthStencilTexture ); + + renderer.setRenderTarget( newRenderTarget ); + + } + + } + + let camera = cameras[ i ]; + + if ( camera === undefined ) { + + camera = new PerspectiveCamera(); + camera.layers.enable( i ); + camera.viewport = new Vector4(); + cameras[ i ] = camera; + + } + + camera.matrix.fromArray( view.transform.matrix ); + camera.matrix.decompose( camera.position, camera.quaternion, camera.scale ); + camera.projectionMatrix.fromArray( view.projectionMatrix ); + camera.projectionMatrixInverse.copy( camera.projectionMatrix ).invert(); + camera.viewport.set( viewport.x, viewport.y, viewport.width, viewport.height ); + + if ( i === 0 ) { + + cameraXR.matrix.copy( camera.matrix ); + cameraXR.matrix.decompose( cameraXR.position, cameraXR.quaternion, cameraXR.scale ); + + } + + if ( cameraXRNeedsUpdate === true ) { + + cameraXR.cameras.push( camera ); + + } + + } + + // + + const enabledFeatures = session.enabledFeatures; + const gpuDepthSensingEnabled = enabledFeatures && + enabledFeatures.includes( 'depth-sensing' ) && + session.depthUsage == 'gpu-optimized'; + + if ( gpuDepthSensingEnabled && glBinding ) { + + const depthData = glBinding.getDepthInformation( views[ 0 ] ); + + if ( depthData && depthData.isValid && depthData.texture ) { + + depthSensing.init( renderer, depthData, session.renderState ); + + } + + } + + } + + // + + for ( let i = 0; i < controllers.length; i ++ ) { + + const inputSource = controllerInputSources[ i ]; + const controller = controllers[ i ]; + + if ( inputSource !== null && controller !== undefined ) { + + controller.update( inputSource, frame, customReferenceSpace || referenceSpace ); + + } + + } + + if ( onAnimationFrameCallback ) onAnimationFrameCallback( time, frame ); + + if ( frame.detectedPlanes ) { + + scope.dispatchEvent( { type: 'planesdetected', data: frame } ); + + } + + xrFrame = null; + + } + + const animation = new WebGLAnimation(); + + animation.setAnimationLoop( onAnimationFrame ); + + this.setAnimationLoop = function ( callback ) { + + onAnimationFrameCallback = callback; + + }; + + this.dispose = function () {}; + + } + +} + +const _e1 = /*@__PURE__*/ new Euler(); +const _m1 = /*@__PURE__*/ new Matrix4(); + +function WebGLMaterials( renderer, properties ) { + + function refreshTransformUniform( map, uniform ) { + + if ( map.matrixAutoUpdate === true ) { + + map.updateMatrix(); + + } + + uniform.value.copy( map.matrix ); + + } + + function refreshFogUniforms( uniforms, fog ) { + + fog.color.getRGB( uniforms.fogColor.value, getUnlitUniformColorSpace( renderer ) ); + + if ( fog.isFog ) { + + uniforms.fogNear.value = fog.near; + uniforms.fogFar.value = fog.far; + + } else if ( fog.isFogExp2 ) { + + uniforms.fogDensity.value = fog.density; + + } + + } + + function refreshMaterialUniforms( uniforms, material, pixelRatio, height, transmissionRenderTarget ) { + + if ( material.isMeshBasicMaterial ) { + + refreshUniformsCommon( uniforms, material ); + + } else if ( material.isMeshLambertMaterial ) { + + refreshUniformsCommon( uniforms, material ); + + } else if ( material.isMeshToonMaterial ) { + + refreshUniformsCommon( uniforms, material ); + refreshUniformsToon( uniforms, material ); + + } else if ( material.isMeshPhongMaterial ) { + + refreshUniformsCommon( uniforms, material ); + refreshUniformsPhong( uniforms, material ); + + } else if ( material.isMeshStandardMaterial ) { + + refreshUniformsCommon( uniforms, material ); + refreshUniformsStandard( uniforms, material ); + + if ( material.isMeshPhysicalMaterial ) { + + refreshUniformsPhysical( uniforms, material, transmissionRenderTarget ); + + } + + } else if ( material.isMeshMatcapMaterial ) { + + refreshUniformsCommon( uniforms, material ); + refreshUniformsMatcap( uniforms, material ); + + } else if ( material.isMeshDepthMaterial ) { + + refreshUniformsCommon( uniforms, material ); + + } else if ( material.isMeshDistanceMaterial ) { + + refreshUniformsCommon( uniforms, material ); + refreshUniformsDistance( uniforms, material ); + + } else if ( material.isMeshNormalMaterial ) { + + refreshUniformsCommon( uniforms, material ); + + } else if ( material.isLineBasicMaterial ) { + + refreshUniformsLine( uniforms, material ); + + if ( material.isLineDashedMaterial ) { + + refreshUniformsDash( uniforms, material ); + + } + + } else if ( material.isPointsMaterial ) { + + refreshUniformsPoints( uniforms, material, pixelRatio, height ); + + } else if ( material.isSpriteMaterial ) { + + refreshUniformsSprites( uniforms, material ); + + } else if ( material.isShadowMaterial ) { + + uniforms.color.value.copy( material.color ); + uniforms.opacity.value = material.opacity; + + } else if ( material.isShaderMaterial ) { + + material.uniformsNeedUpdate = false; // #15581 + + } + + } + + function refreshUniformsCommon( uniforms, material ) { + + uniforms.opacity.value = material.opacity; + + if ( material.color ) { + + uniforms.diffuse.value.copy( material.color ); + + } + + if ( material.emissive ) { + + uniforms.emissive.value.copy( material.emissive ).multiplyScalar( material.emissiveIntensity ); + + } + + if ( material.map ) { + + uniforms.map.value = material.map; + + refreshTransformUniform( material.map, uniforms.mapTransform ); + + } + + if ( material.alphaMap ) { + + uniforms.alphaMap.value = material.alphaMap; + + refreshTransformUniform( material.alphaMap, uniforms.alphaMapTransform ); + + } + + if ( material.bumpMap ) { + + uniforms.bumpMap.value = material.bumpMap; + + refreshTransformUniform( material.bumpMap, uniforms.bumpMapTransform ); + + uniforms.bumpScale.value = material.bumpScale; + + if ( material.side === BackSide ) { + + uniforms.bumpScale.value *= -1; + + } + + } + + if ( material.normalMap ) { + + uniforms.normalMap.value = material.normalMap; + + refreshTransformUniform( material.normalMap, uniforms.normalMapTransform ); + + uniforms.normalScale.value.copy( material.normalScale ); + + if ( material.side === BackSide ) { + + uniforms.normalScale.value.negate(); + + } + + } + + if ( material.displacementMap ) { + + uniforms.displacementMap.value = material.displacementMap; + + refreshTransformUniform( material.displacementMap, uniforms.displacementMapTransform ); + + uniforms.displacementScale.value = material.displacementScale; + uniforms.displacementBias.value = material.displacementBias; + + } + + if ( material.emissiveMap ) { + + uniforms.emissiveMap.value = material.emissiveMap; + + refreshTransformUniform( material.emissiveMap, uniforms.emissiveMapTransform ); + + } + + if ( material.specularMap ) { + + uniforms.specularMap.value = material.specularMap; + + refreshTransformUniform( material.specularMap, uniforms.specularMapTransform ); + + } + + if ( material.alphaTest > 0 ) { + + uniforms.alphaTest.value = material.alphaTest; + + } + + const materialProperties = properties.get( material ); + + const envMap = materialProperties.envMap; + const envMapRotation = materialProperties.envMapRotation; + + if ( envMap ) { + + uniforms.envMap.value = envMap; + + _e1.copy( envMapRotation ); + + // accommodate left-handed frame + _e1.x *= -1; _e1.y *= -1; _e1.z *= -1; + + if ( envMap.isCubeTexture && envMap.isRenderTargetTexture === false ) { + + // environment maps which are not cube render targets or PMREMs follow a different convention + _e1.y *= -1; + _e1.z *= -1; + + } + + uniforms.envMapRotation.value.setFromMatrix4( _m1.makeRotationFromEuler( _e1 ) ); + + uniforms.flipEnvMap.value = ( envMap.isCubeTexture && envMap.isRenderTargetTexture === false ) ? -1 : 1; + + uniforms.reflectivity.value = material.reflectivity; + uniforms.ior.value = material.ior; + uniforms.refractionRatio.value = material.refractionRatio; + + } + + if ( material.lightMap ) { + + uniforms.lightMap.value = material.lightMap; + uniforms.lightMapIntensity.value = material.lightMapIntensity; + + refreshTransformUniform( material.lightMap, uniforms.lightMapTransform ); + + } + + if ( material.aoMap ) { + + uniforms.aoMap.value = material.aoMap; + uniforms.aoMapIntensity.value = material.aoMapIntensity; + + refreshTransformUniform( material.aoMap, uniforms.aoMapTransform ); + + } + + } + + function refreshUniformsLine( uniforms, material ) { + + uniforms.diffuse.value.copy( material.color ); + uniforms.opacity.value = material.opacity; + + if ( material.map ) { + + uniforms.map.value = material.map; + + refreshTransformUniform( material.map, uniforms.mapTransform ); + + } + + } + + function refreshUniformsDash( uniforms, material ) { + + uniforms.dashSize.value = material.dashSize; + uniforms.totalSize.value = material.dashSize + material.gapSize; + uniforms.scale.value = material.scale; + + } + + function refreshUniformsPoints( uniforms, material, pixelRatio, height ) { + + uniforms.diffuse.value.copy( material.color ); + uniforms.opacity.value = material.opacity; + uniforms.size.value = material.size * pixelRatio; + uniforms.scale.value = height * 0.5; + + if ( material.map ) { + + uniforms.map.value = material.map; + + refreshTransformUniform( material.map, uniforms.uvTransform ); + + } + + if ( material.alphaMap ) { + + uniforms.alphaMap.value = material.alphaMap; + + refreshTransformUniform( material.alphaMap, uniforms.alphaMapTransform ); + + } + + if ( material.alphaTest > 0 ) { + + uniforms.alphaTest.value = material.alphaTest; + + } + + } + + function refreshUniformsSprites( uniforms, material ) { + + uniforms.diffuse.value.copy( material.color ); + uniforms.opacity.value = material.opacity; + uniforms.rotation.value = material.rotation; + + if ( material.map ) { + + uniforms.map.value = material.map; + + refreshTransformUniform( material.map, uniforms.mapTransform ); + + } + + if ( material.alphaMap ) { + + uniforms.alphaMap.value = material.alphaMap; + + refreshTransformUniform( material.alphaMap, uniforms.alphaMapTransform ); + + } + + if ( material.alphaTest > 0 ) { + + uniforms.alphaTest.value = material.alphaTest; + + } + + } + + function refreshUniformsPhong( uniforms, material ) { + + uniforms.specular.value.copy( material.specular ); + uniforms.shininess.value = Math.max( material.shininess, 1e-4 ); // to prevent pow( 0.0, 0.0 ) + + } + + function refreshUniformsToon( uniforms, material ) { + + if ( material.gradientMap ) { + + uniforms.gradientMap.value = material.gradientMap; + + } + + } + + function refreshUniformsStandard( uniforms, material ) { + + uniforms.metalness.value = material.metalness; + + if ( material.metalnessMap ) { + + uniforms.metalnessMap.value = material.metalnessMap; + + refreshTransformUniform( material.metalnessMap, uniforms.metalnessMapTransform ); + + } + + uniforms.roughness.value = material.roughness; + + if ( material.roughnessMap ) { + + uniforms.roughnessMap.value = material.roughnessMap; + + refreshTransformUniform( material.roughnessMap, uniforms.roughnessMapTransform ); + + } + + if ( material.envMap ) { + + //uniforms.envMap.value = material.envMap; // part of uniforms common + + uniforms.envMapIntensity.value = material.envMapIntensity; + + } + + } + + function refreshUniformsPhysical( uniforms, material, transmissionRenderTarget ) { + + uniforms.ior.value = material.ior; // also part of uniforms common + + if ( material.sheen > 0 ) { + + uniforms.sheenColor.value.copy( material.sheenColor ).multiplyScalar( material.sheen ); + + uniforms.sheenRoughness.value = material.sheenRoughness; + + if ( material.sheenColorMap ) { + + uniforms.sheenColorMap.value = material.sheenColorMap; + + refreshTransformUniform( material.sheenColorMap, uniforms.sheenColorMapTransform ); + + } + + if ( material.sheenRoughnessMap ) { + + uniforms.sheenRoughnessMap.value = material.sheenRoughnessMap; + + refreshTransformUniform( material.sheenRoughnessMap, uniforms.sheenRoughnessMapTransform ); + + } + + } + + if ( material.clearcoat > 0 ) { + + uniforms.clearcoat.value = material.clearcoat; + uniforms.clearcoatRoughness.value = material.clearcoatRoughness; + + if ( material.clearcoatMap ) { + + uniforms.clearcoatMap.value = material.clearcoatMap; + + refreshTransformUniform( material.clearcoatMap, uniforms.clearcoatMapTransform ); + + } + + if ( material.clearcoatRoughnessMap ) { + + uniforms.clearcoatRoughnessMap.value = material.clearcoatRoughnessMap; + + refreshTransformUniform( material.clearcoatRoughnessMap, uniforms.clearcoatRoughnessMapTransform ); + + } + + if ( material.clearcoatNormalMap ) { + + uniforms.clearcoatNormalMap.value = material.clearcoatNormalMap; + + refreshTransformUniform( material.clearcoatNormalMap, uniforms.clearcoatNormalMapTransform ); + + uniforms.clearcoatNormalScale.value.copy( material.clearcoatNormalScale ); + + if ( material.side === BackSide ) { + + uniforms.clearcoatNormalScale.value.negate(); + + } + + } + + } + + if ( material.dispersion > 0 ) { + + uniforms.dispersion.value = material.dispersion; + + } + + if ( material.iridescence > 0 ) { + + uniforms.iridescence.value = material.iridescence; + uniforms.iridescenceIOR.value = material.iridescenceIOR; + uniforms.iridescenceThicknessMinimum.value = material.iridescenceThicknessRange[ 0 ]; + uniforms.iridescenceThicknessMaximum.value = material.iridescenceThicknessRange[ 1 ]; + + if ( material.iridescenceMap ) { + + uniforms.iridescenceMap.value = material.iridescenceMap; + + refreshTransformUniform( material.iridescenceMap, uniforms.iridescenceMapTransform ); + + } + + if ( material.iridescenceThicknessMap ) { + + uniforms.iridescenceThicknessMap.value = material.iridescenceThicknessMap; + + refreshTransformUniform( material.iridescenceThicknessMap, uniforms.iridescenceThicknessMapTransform ); + + } + + } + + if ( material.transmission > 0 ) { + + uniforms.transmission.value = material.transmission; + uniforms.transmissionSamplerMap.value = transmissionRenderTarget.texture; + uniforms.transmissionSamplerSize.value.set( transmissionRenderTarget.width, transmissionRenderTarget.height ); + + if ( material.transmissionMap ) { + + uniforms.transmissionMap.value = material.transmissionMap; + + refreshTransformUniform( material.transmissionMap, uniforms.transmissionMapTransform ); + + } + + uniforms.thickness.value = material.thickness; + + if ( material.thicknessMap ) { + + uniforms.thicknessMap.value = material.thicknessMap; + + refreshTransformUniform( material.thicknessMap, uniforms.thicknessMapTransform ); + + } + + uniforms.attenuationDistance.value = material.attenuationDistance; + uniforms.attenuationColor.value.copy( material.attenuationColor ); + + } + + if ( material.anisotropy > 0 ) { + + uniforms.anisotropyVector.value.set( material.anisotropy * Math.cos( material.anisotropyRotation ), material.anisotropy * Math.sin( material.anisotropyRotation ) ); + + if ( material.anisotropyMap ) { + + uniforms.anisotropyMap.value = material.anisotropyMap; + + refreshTransformUniform( material.anisotropyMap, uniforms.anisotropyMapTransform ); + + } + + } + + uniforms.specularIntensity.value = material.specularIntensity; + uniforms.specularColor.value.copy( material.specularColor ); + + if ( material.specularColorMap ) { + + uniforms.specularColorMap.value = material.specularColorMap; + + refreshTransformUniform( material.specularColorMap, uniforms.specularColorMapTransform ); + + } + + if ( material.specularIntensityMap ) { + + uniforms.specularIntensityMap.value = material.specularIntensityMap; + + refreshTransformUniform( material.specularIntensityMap, uniforms.specularIntensityMapTransform ); + + } + + } + + function refreshUniformsMatcap( uniforms, material ) { + + if ( material.matcap ) { + + uniforms.matcap.value = material.matcap; + + } + + } + + function refreshUniformsDistance( uniforms, material ) { + + const light = properties.get( material ).light; + + uniforms.referencePosition.value.setFromMatrixPosition( light.matrixWorld ); + uniforms.nearDistance.value = light.shadow.camera.near; + uniforms.farDistance.value = light.shadow.camera.far; + + } + + return { + refreshFogUniforms: refreshFogUniforms, + refreshMaterialUniforms: refreshMaterialUniforms + }; + +} + +function WebGLUniformsGroups( gl, info, capabilities, state ) { + + let buffers = {}; + let updateList = {}; + let allocatedBindingPoints = []; + + const maxBindingPoints = gl.getParameter( gl.MAX_UNIFORM_BUFFER_BINDINGS ); // binding points are global whereas block indices are per shader program + + function bind( uniformsGroup, program ) { + + const webglProgram = program.program; + state.uniformBlockBinding( uniformsGroup, webglProgram ); + + } + + function update( uniformsGroup, program ) { + + let buffer = buffers[ uniformsGroup.id ]; + + if ( buffer === undefined ) { + + prepareUniformsGroup( uniformsGroup ); + + buffer = createBuffer( uniformsGroup ); + buffers[ uniformsGroup.id ] = buffer; + + uniformsGroup.addEventListener( 'dispose', onUniformsGroupsDispose ); + + } + + // ensure to update the binding points/block indices mapping for this program + + const webglProgram = program.program; + state.updateUBOMapping( uniformsGroup, webglProgram ); + + // update UBO once per frame + + const frame = info.render.frame; + + if ( updateList[ uniformsGroup.id ] !== frame ) { + + updateBufferData( uniformsGroup ); + + updateList[ uniformsGroup.id ] = frame; + + } + + } + + function createBuffer( uniformsGroup ) { + + // the setup of an UBO is independent of a particular shader program but global + + const bindingPointIndex = allocateBindingPointIndex(); + uniformsGroup.__bindingPointIndex = bindingPointIndex; + + const buffer = gl.createBuffer(); + const size = uniformsGroup.__size; + const usage = uniformsGroup.usage; + + gl.bindBuffer( gl.UNIFORM_BUFFER, buffer ); + gl.bufferData( gl.UNIFORM_BUFFER, size, usage ); + gl.bindBuffer( gl.UNIFORM_BUFFER, null ); + gl.bindBufferBase( gl.UNIFORM_BUFFER, bindingPointIndex, buffer ); + + return buffer; + + } + + function allocateBindingPointIndex() { + + for ( let i = 0; i < maxBindingPoints; i ++ ) { + + if ( allocatedBindingPoints.indexOf( i ) === -1 ) { + + allocatedBindingPoints.push( i ); + return i; + + } + + } + + console.error( 'THREE.WebGLRenderer: Maximum number of simultaneously usable uniforms groups reached.' ); + + return 0; + + } + + function updateBufferData( uniformsGroup ) { + + const buffer = buffers[ uniformsGroup.id ]; + const uniforms = uniformsGroup.uniforms; + const cache = uniformsGroup.__cache; + + gl.bindBuffer( gl.UNIFORM_BUFFER, buffer ); + + for ( let i = 0, il = uniforms.length; i < il; i ++ ) { + + const uniformArray = Array.isArray( uniforms[ i ] ) ? uniforms[ i ] : [ uniforms[ i ] ]; + + for ( let j = 0, jl = uniformArray.length; j < jl; j ++ ) { + + const uniform = uniformArray[ j ]; + + if ( hasUniformChanged( uniform, i, j, cache ) === true ) { + + const offset = uniform.__offset; + + const values = Array.isArray( uniform.value ) ? uniform.value : [ uniform.value ]; + + let arrayOffset = 0; + + for ( let k = 0; k < values.length; k ++ ) { + + const value = values[ k ]; + + const info = getUniformSize( value ); + + // TODO add integer and struct support + if ( typeof value === 'number' || typeof value === 'boolean' ) { + + uniform.__data[ 0 ] = value; + gl.bufferSubData( gl.UNIFORM_BUFFER, offset + arrayOffset, uniform.__data ); + + } else if ( value.isMatrix3 ) { + + // manually converting 3x3 to 3x4 + + uniform.__data[ 0 ] = value.elements[ 0 ]; + uniform.__data[ 1 ] = value.elements[ 1 ]; + uniform.__data[ 2 ] = value.elements[ 2 ]; + uniform.__data[ 3 ] = 0; + uniform.__data[ 4 ] = value.elements[ 3 ]; + uniform.__data[ 5 ] = value.elements[ 4 ]; + uniform.__data[ 6 ] = value.elements[ 5 ]; + uniform.__data[ 7 ] = 0; + uniform.__data[ 8 ] = value.elements[ 6 ]; + uniform.__data[ 9 ] = value.elements[ 7 ]; + uniform.__data[ 10 ] = value.elements[ 8 ]; + uniform.__data[ 11 ] = 0; + + } else { + + value.toArray( uniform.__data, arrayOffset ); + + arrayOffset += info.storage / Float32Array.BYTES_PER_ELEMENT; + + } + + } + + gl.bufferSubData( gl.UNIFORM_BUFFER, offset, uniform.__data ); + + } + + } + + } + + gl.bindBuffer( gl.UNIFORM_BUFFER, null ); + + } + + function hasUniformChanged( uniform, index, indexArray, cache ) { + + const value = uniform.value; + const indexString = index + '_' + indexArray; + + if ( cache[ indexString ] === undefined ) { + + // cache entry does not exist so far + + if ( typeof value === 'number' || typeof value === 'boolean' ) { + + cache[ indexString ] = value; + + } else { + + cache[ indexString ] = value.clone(); + + } + + return true; + + } else { + + const cachedObject = cache[ indexString ]; + + // compare current value with cached entry + + if ( typeof value === 'number' || typeof value === 'boolean' ) { + + if ( cachedObject !== value ) { + + cache[ indexString ] = value; + return true; + + } + + } else { + + if ( cachedObject.equals( value ) === false ) { + + cachedObject.copy( value ); + return true; + + } + + } + + } + + return false; + + } + + function prepareUniformsGroup( uniformsGroup ) { + + // determine total buffer size according to the STD140 layout + // Hint: STD140 is the only supported layout in WebGL 2 + + const uniforms = uniformsGroup.uniforms; + + let offset = 0; // global buffer offset in bytes + const chunkSize = 16; // size of a chunk in bytes + + for ( let i = 0, l = uniforms.length; i < l; i ++ ) { + + const uniformArray = Array.isArray( uniforms[ i ] ) ? uniforms[ i ] : [ uniforms[ i ] ]; + + for ( let j = 0, jl = uniformArray.length; j < jl; j ++ ) { + + const uniform = uniformArray[ j ]; + + const values = Array.isArray( uniform.value ) ? uniform.value : [ uniform.value ]; + + for ( let k = 0, kl = values.length; k < kl; k ++ ) { + + const value = values[ k ]; + + const info = getUniformSize( value ); + + const chunkOffset = offset % chunkSize; // offset in the current chunk + const chunkPadding = chunkOffset % info.boundary; // required padding to match boundary + const chunkStart = chunkOffset + chunkPadding; // the start position in the current chunk for the data + + offset += chunkPadding; + + // Check for chunk overflow + if ( chunkStart !== 0 && ( chunkSize - chunkStart ) < info.storage ) { + + // Add padding and adjust offset + offset += ( chunkSize - chunkStart ); + + } + + // the following two properties will be used for partial buffer updates + uniform.__data = new Float32Array( info.storage / Float32Array.BYTES_PER_ELEMENT ); + uniform.__offset = offset; + + // Update the global offset + offset += info.storage; + + } + + } + + } + + // ensure correct final padding + + const chunkOffset = offset % chunkSize; + + if ( chunkOffset > 0 ) offset += ( chunkSize - chunkOffset ); + + // + + uniformsGroup.__size = offset; + uniformsGroup.__cache = {}; + + return this; + + } + + function getUniformSize( value ) { + + const info = { + boundary: 0, // bytes + storage: 0 // bytes + }; + + // determine sizes according to STD140 + + if ( typeof value === 'number' || typeof value === 'boolean' ) { + + // float/int/bool + + info.boundary = 4; + info.storage = 4; + + } else if ( value.isVector2 ) { + + // vec2 + + info.boundary = 8; + info.storage = 8; + + } else if ( value.isVector3 || value.isColor ) { + + // vec3 + + info.boundary = 16; + info.storage = 12; // evil: vec3 must start on a 16-byte boundary but it only consumes 12 bytes + + } else if ( value.isVector4 ) { + + // vec4 + + info.boundary = 16; + info.storage = 16; + + } else if ( value.isMatrix3 ) { + + // mat3 (in STD140 a 3x3 matrix is represented as 3x4) + + info.boundary = 48; + info.storage = 48; + + } else if ( value.isMatrix4 ) { + + // mat4 + + info.boundary = 64; + info.storage = 64; + + } else if ( value.isTexture ) { + + console.warn( 'THREE.WebGLRenderer: Texture samplers can not be part of an uniforms group.' ); + + } else { + + console.warn( 'THREE.WebGLRenderer: Unsupported uniform value type.', value ); + + } + + return info; + + } + + function onUniformsGroupsDispose( event ) { + + const uniformsGroup = event.target; + + uniformsGroup.removeEventListener( 'dispose', onUniformsGroupsDispose ); + + const index = allocatedBindingPoints.indexOf( uniformsGroup.__bindingPointIndex ); + allocatedBindingPoints.splice( index, 1 ); + + gl.deleteBuffer( buffers[ uniformsGroup.id ] ); + + delete buffers[ uniformsGroup.id ]; + delete updateList[ uniformsGroup.id ]; + + } + + function dispose() { + + for ( const id in buffers ) { + + gl.deleteBuffer( buffers[ id ] ); + + } + + allocatedBindingPoints = []; + buffers = {}; + updateList = {}; + + } + + return { + + bind: bind, + update: update, + + dispose: dispose + + }; + +} + +class WebGLRenderer { + + constructor( parameters = {} ) { + + const { + canvas = createCanvasElement(), + context = null, + depth = true, + stencil = false, + alpha = false, + antialias = false, + premultipliedAlpha = true, + preserveDrawingBuffer = false, + powerPreference = 'default', + failIfMajorPerformanceCaveat = false, + reverseDepthBuffer = false, + } = parameters; + + this.isWebGLRenderer = true; + + let _alpha; + + if ( context !== null ) { + + if ( typeof WebGLRenderingContext !== 'undefined' && context instanceof WebGLRenderingContext ) { + + throw new Error( 'THREE.WebGLRenderer: WebGL 1 is not supported since r163.' ); + + } + + _alpha = context.getContextAttributes().alpha; + + } else { + + _alpha = alpha; + + } + + const uintClearColor = new Uint32Array( 4 ); + const intClearColor = new Int32Array( 4 ); + + let currentRenderList = null; + let currentRenderState = null; + + // render() can be called from within a callback triggered by another render. + // We track this so that the nested render call gets its list and state isolated from the parent render call. + + const renderListStack = []; + const renderStateStack = []; + + // public properties + + this.domElement = canvas; + + // Debug configuration container + this.debug = { + + /** + * Enables error checking and reporting when shader programs are being compiled + * @type {boolean} + */ + checkShaderErrors: true, + /** + * Callback for custom error reporting. + * @type {?Function} + */ + onShaderError: null + }; + + // clearing + + this.autoClear = true; + this.autoClearColor = true; + this.autoClearDepth = true; + this.autoClearStencil = true; + + // scene graph + + this.sortObjects = true; + + // user-defined clipping + + this.clippingPlanes = []; + this.localClippingEnabled = false; + + // physically based shading + + this._outputColorSpace = SRGBColorSpace; + + // tone mapping + + this.toneMapping = NoToneMapping; + this.toneMappingExposure = 1.0; + + // internal properties + + const _this = this; + + let _isContextLost = false; + + // internal state cache + + let _currentActiveCubeFace = 0; + let _currentActiveMipmapLevel = 0; + let _currentRenderTarget = null; + let _currentMaterialId = -1; + + let _currentCamera = null; + + const _currentViewport = new Vector4(); + const _currentScissor = new Vector4(); + let _currentScissorTest = null; + + const _currentClearColor = new Color( 0x000000 ); + let _currentClearAlpha = 0; + + // + + let _width = canvas.width; + let _height = canvas.height; + + let _pixelRatio = 1; + let _opaqueSort = null; + let _transparentSort = null; + + const _viewport = new Vector4( 0, 0, _width, _height ); + const _scissor = new Vector4( 0, 0, _width, _height ); + let _scissorTest = false; + + // frustum + + const _frustum = new Frustum(); + + // clipping + + let _clippingEnabled = false; + let _localClippingEnabled = false; + + // transmission render target scale + this.transmissionResolutionScale = 1.0; + + // camera matrices cache + + const _currentProjectionMatrix = new Matrix4(); + const _projScreenMatrix = new Matrix4(); + + const _vector3 = new Vector3(); + + const _vector4 = new Vector4(); + + const _emptyScene = { background: null, fog: null, environment: null, overrideMaterial: null, isScene: true }; + + let _renderBackground = false; + + function getTargetPixelRatio() { + + return _currentRenderTarget === null ? _pixelRatio : 1; + + } + + // initialize + + let _gl = context; + + function getContext( contextName, contextAttributes ) { + + return canvas.getContext( contextName, contextAttributes ); + + } + + try { + + const contextAttributes = { + alpha: true, + depth, + stencil, + antialias, + premultipliedAlpha, + preserveDrawingBuffer, + powerPreference, + failIfMajorPerformanceCaveat, + }; + + // OffscreenCanvas does not have setAttribute, see #22811 + if ( 'setAttribute' in canvas ) canvas.setAttribute( 'data-engine', `three.js r${REVISION}` ); + + // event listeners must be registered before WebGL context is created, see #12753 + canvas.addEventListener( 'webglcontextlost', onContextLost, false ); + canvas.addEventListener( 'webglcontextrestored', onContextRestore, false ); + canvas.addEventListener( 'webglcontextcreationerror', onContextCreationError, false ); + + if ( _gl === null ) { + + const contextName = 'webgl2'; + + _gl = getContext( contextName, contextAttributes ); + + if ( _gl === null ) { + + if ( getContext( contextName ) ) { + + throw new Error( 'Error creating WebGL context with your selected attributes.' ); + + } else { + + throw new Error( 'Error creating WebGL context.' ); + + } + + } + + } + + } catch ( error ) { + + console.error( 'THREE.WebGLRenderer: ' + error.message ); + throw error; + + } + + let extensions, capabilities, state, info; + let properties, textures, cubemaps, cubeuvmaps, attributes, geometries, objects; + let programCache, materials, renderLists, renderStates, clipping, shadowMap; + + let background, morphtargets, bufferRenderer, indexedBufferRenderer; + + let utils, bindingStates, uniformsGroups; + + function initGLContext() { + + extensions = new WebGLExtensions( _gl ); + extensions.init(); + + utils = new WebGLUtils( _gl, extensions ); + + capabilities = new WebGLCapabilities( _gl, extensions, parameters, utils ); + + state = new WebGLState( _gl, extensions ); + + if ( capabilities.reverseDepthBuffer && reverseDepthBuffer ) { + + state.buffers.depth.setReversed( true ); + + } + + info = new WebGLInfo( _gl ); + properties = new WebGLProperties(); + textures = new WebGLTextures( _gl, extensions, state, properties, capabilities, utils, info ); + cubemaps = new WebGLCubeMaps( _this ); + cubeuvmaps = new WebGLCubeUVMaps( _this ); + attributes = new WebGLAttributes( _gl ); + bindingStates = new WebGLBindingStates( _gl, attributes ); + geometries = new WebGLGeometries( _gl, attributes, info, bindingStates ); + objects = new WebGLObjects( _gl, geometries, attributes, info ); + morphtargets = new WebGLMorphtargets( _gl, capabilities, textures ); + clipping = new WebGLClipping( properties ); + programCache = new WebGLPrograms( _this, cubemaps, cubeuvmaps, extensions, capabilities, bindingStates, clipping ); + materials = new WebGLMaterials( _this, properties ); + renderLists = new WebGLRenderLists(); + renderStates = new WebGLRenderStates( extensions ); + background = new WebGLBackground( _this, cubemaps, cubeuvmaps, state, objects, _alpha, premultipliedAlpha ); + shadowMap = new WebGLShadowMap( _this, objects, capabilities ); + uniformsGroups = new WebGLUniformsGroups( _gl, info, capabilities, state ); + + bufferRenderer = new WebGLBufferRenderer( _gl, extensions, info ); + indexedBufferRenderer = new WebGLIndexedBufferRenderer( _gl, extensions, info ); + + info.programs = programCache.programs; + + _this.capabilities = capabilities; + _this.extensions = extensions; + _this.properties = properties; + _this.renderLists = renderLists; + _this.shadowMap = shadowMap; + _this.state = state; + _this.info = info; + + } + + initGLContext(); + + // xr + + const xr = new WebXRManager( _this, _gl ); + + this.xr = xr; + + // API + + this.getContext = function () { + + return _gl; + + }; + + this.getContextAttributes = function () { + + return _gl.getContextAttributes(); + + }; + + this.forceContextLoss = function () { + + const extension = extensions.get( 'WEBGL_lose_context' ); + if ( extension ) extension.loseContext(); + + }; + + this.forceContextRestore = function () { + + const extension = extensions.get( 'WEBGL_lose_context' ); + if ( extension ) extension.restoreContext(); + + }; + + this.getPixelRatio = function () { + + return _pixelRatio; + + }; + + this.setPixelRatio = function ( value ) { + + if ( value === undefined ) return; + + _pixelRatio = value; + + this.setSize( _width, _height, false ); + + }; + + this.getSize = function ( target ) { + + return target.set( _width, _height ); + + }; + + this.setSize = function ( width, height, updateStyle = true ) { + + if ( xr.isPresenting ) { + + console.warn( 'THREE.WebGLRenderer: Can\'t change size while VR device is presenting.' ); + return; + + } + + _width = width; + _height = height; + + canvas.width = Math.floor( width * _pixelRatio ); + canvas.height = Math.floor( height * _pixelRatio ); + + if ( updateStyle === true ) { + + canvas.style.width = width + 'px'; + canvas.style.height = height + 'px'; + + } + + this.setViewport( 0, 0, width, height ); + + }; + + this.getDrawingBufferSize = function ( target ) { + + return target.set( _width * _pixelRatio, _height * _pixelRatio ).floor(); + + }; + + this.setDrawingBufferSize = function ( width, height, pixelRatio ) { + + _width = width; + _height = height; + + _pixelRatio = pixelRatio; + + canvas.width = Math.floor( width * pixelRatio ); + canvas.height = Math.floor( height * pixelRatio ); + + this.setViewport( 0, 0, width, height ); + + }; + + this.getCurrentViewport = function ( target ) { + + return target.copy( _currentViewport ); + + }; + + this.getViewport = function ( target ) { + + return target.copy( _viewport ); + + }; + + this.setViewport = function ( x, y, width, height ) { + + if ( x.isVector4 ) { + + _viewport.set( x.x, x.y, x.z, x.w ); + + } else { + + _viewport.set( x, y, width, height ); + + } + + state.viewport( _currentViewport.copy( _viewport ).multiplyScalar( _pixelRatio ).round() ); + + }; + + this.getScissor = function ( target ) { + + return target.copy( _scissor ); + + }; + + this.setScissor = function ( x, y, width, height ) { + + if ( x.isVector4 ) { + + _scissor.set( x.x, x.y, x.z, x.w ); + + } else { + + _scissor.set( x, y, width, height ); + + } + + state.scissor( _currentScissor.copy( _scissor ).multiplyScalar( _pixelRatio ).round() ); + + }; + + this.getScissorTest = function () { + + return _scissorTest; + + }; + + this.setScissorTest = function ( boolean ) { + + state.setScissorTest( _scissorTest = boolean ); + + }; + + this.setOpaqueSort = function ( method ) { + + _opaqueSort = method; + + }; + + this.setTransparentSort = function ( method ) { + + _transparentSort = method; + + }; + + // Clearing + + this.getClearColor = function ( target ) { + + return target.copy( background.getClearColor() ); + + }; + + this.setClearColor = function () { + + background.setClearColor( ...arguments ); + + }; + + this.getClearAlpha = function () { + + return background.getClearAlpha(); + + }; + + this.setClearAlpha = function () { + + background.setClearAlpha( ...arguments ); + + }; + + this.clear = function ( color = true, depth = true, stencil = true ) { + + let bits = 0; + + if ( color ) { + + // check if we're trying to clear an integer target + let isIntegerFormat = false; + if ( _currentRenderTarget !== null ) { + + const targetFormat = _currentRenderTarget.texture.format; + isIntegerFormat = targetFormat === RGBAIntegerFormat || + targetFormat === RGIntegerFormat || + targetFormat === RedIntegerFormat; + + } + + // use the appropriate clear functions to clear the target if it's a signed + // or unsigned integer target + if ( isIntegerFormat ) { + + const targetType = _currentRenderTarget.texture.type; + const isUnsignedType = targetType === UnsignedByteType || + targetType === UnsignedIntType || + targetType === UnsignedShortType || + targetType === UnsignedInt248Type || + targetType === UnsignedShort4444Type || + targetType === UnsignedShort5551Type; + + const clearColor = background.getClearColor(); + const a = background.getClearAlpha(); + const r = clearColor.r; + const g = clearColor.g; + const b = clearColor.b; + + if ( isUnsignedType ) { + + uintClearColor[ 0 ] = r; + uintClearColor[ 1 ] = g; + uintClearColor[ 2 ] = b; + uintClearColor[ 3 ] = a; + _gl.clearBufferuiv( _gl.COLOR, 0, uintClearColor ); + + } else { + + intClearColor[ 0 ] = r; + intClearColor[ 1 ] = g; + intClearColor[ 2 ] = b; + intClearColor[ 3 ] = a; + _gl.clearBufferiv( _gl.COLOR, 0, intClearColor ); + + } + + } else { + + bits |= _gl.COLOR_BUFFER_BIT; + + } + + } + + if ( depth ) { + + bits |= _gl.DEPTH_BUFFER_BIT; + + } + + if ( stencil ) { + + bits |= _gl.STENCIL_BUFFER_BIT; + this.state.buffers.stencil.setMask( 0xffffffff ); + + } + + _gl.clear( bits ); + + }; + + this.clearColor = function () { + + this.clear( true, false, false ); + + }; + + this.clearDepth = function () { + + this.clear( false, true, false ); + + }; + + this.clearStencil = function () { + + this.clear( false, false, true ); + + }; + + // + + this.dispose = function () { + + canvas.removeEventListener( 'webglcontextlost', onContextLost, false ); + canvas.removeEventListener( 'webglcontextrestored', onContextRestore, false ); + canvas.removeEventListener( 'webglcontextcreationerror', onContextCreationError, false ); + + background.dispose(); + renderLists.dispose(); + renderStates.dispose(); + properties.dispose(); + cubemaps.dispose(); + cubeuvmaps.dispose(); + objects.dispose(); + bindingStates.dispose(); + uniformsGroups.dispose(); + programCache.dispose(); + + xr.dispose(); + + xr.removeEventListener( 'sessionstart', onXRSessionStart ); + xr.removeEventListener( 'sessionend', onXRSessionEnd ); + + animation.stop(); + + }; + + // Events + + function onContextLost( event ) { + + event.preventDefault(); + + console.log( 'THREE.WebGLRenderer: Context Lost.' ); + + _isContextLost = true; + + } + + function onContextRestore( /* event */ ) { + + console.log( 'THREE.WebGLRenderer: Context Restored.' ); + + _isContextLost = false; + + const infoAutoReset = info.autoReset; + const shadowMapEnabled = shadowMap.enabled; + const shadowMapAutoUpdate = shadowMap.autoUpdate; + const shadowMapNeedsUpdate = shadowMap.needsUpdate; + const shadowMapType = shadowMap.type; + + initGLContext(); + + info.autoReset = infoAutoReset; + shadowMap.enabled = shadowMapEnabled; + shadowMap.autoUpdate = shadowMapAutoUpdate; + shadowMap.needsUpdate = shadowMapNeedsUpdate; + shadowMap.type = shadowMapType; + + } + + function onContextCreationError( event ) { + + console.error( 'THREE.WebGLRenderer: A WebGL context could not be created. Reason: ', event.statusMessage ); + + } + + function onMaterialDispose( event ) { + + const material = event.target; + + material.removeEventListener( 'dispose', onMaterialDispose ); + + deallocateMaterial( material ); + + } + + // Buffer deallocation + + function deallocateMaterial( material ) { + + releaseMaterialProgramReferences( material ); + + properties.remove( material ); + + } + + + function releaseMaterialProgramReferences( material ) { + + const programs = properties.get( material ).programs; + + if ( programs !== undefined ) { + + programs.forEach( function ( program ) { + + programCache.releaseProgram( program ); + + } ); + + if ( material.isShaderMaterial ) { + + programCache.releaseShaderCache( material ); + + } + + } + + } + + // Buffer rendering + + this.renderBufferDirect = function ( camera, scene, geometry, material, object, group ) { + + if ( scene === null ) scene = _emptyScene; // renderBufferDirect second parameter used to be fog (could be null) + + const frontFaceCW = ( object.isMesh && object.matrixWorld.determinant() < 0 ); + + const program = setProgram( camera, scene, geometry, material, object ); + + state.setMaterial( material, frontFaceCW ); + + // + + let index = geometry.index; + let rangeFactor = 1; + + if ( material.wireframe === true ) { + + index = geometries.getWireframeAttribute( geometry ); + + if ( index === undefined ) return; + + rangeFactor = 2; + + } + + // + + const drawRange = geometry.drawRange; + const position = geometry.attributes.position; + + let drawStart = drawRange.start * rangeFactor; + let drawEnd = ( drawRange.start + drawRange.count ) * rangeFactor; + + if ( group !== null ) { + + drawStart = Math.max( drawStart, group.start * rangeFactor ); + drawEnd = Math.min( drawEnd, ( group.start + group.count ) * rangeFactor ); + + } + + if ( index !== null ) { + + drawStart = Math.max( drawStart, 0 ); + drawEnd = Math.min( drawEnd, index.count ); + + } else if ( position !== undefined && position !== null ) { + + drawStart = Math.max( drawStart, 0 ); + drawEnd = Math.min( drawEnd, position.count ); + + } + + const drawCount = drawEnd - drawStart; + + if ( drawCount < 0 || drawCount === Infinity ) return; + + // + + bindingStates.setup( object, material, program, geometry, index ); + + let attribute; + let renderer = bufferRenderer; + + if ( index !== null ) { + + attribute = attributes.get( index ); + + renderer = indexedBufferRenderer; + renderer.setIndex( attribute ); + + } + + // + + if ( object.isMesh ) { + + if ( material.wireframe === true ) { + + state.setLineWidth( material.wireframeLinewidth * getTargetPixelRatio() ); + renderer.setMode( _gl.LINES ); + + } else { + + renderer.setMode( _gl.TRIANGLES ); + + } + + } else if ( object.isLine ) { + + let lineWidth = material.linewidth; + + if ( lineWidth === undefined ) lineWidth = 1; // Not using Line*Material + + state.setLineWidth( lineWidth * getTargetPixelRatio() ); + + if ( object.isLineSegments ) { + + renderer.setMode( _gl.LINES ); + + } else if ( object.isLineLoop ) { + + renderer.setMode( _gl.LINE_LOOP ); + + } else { + + renderer.setMode( _gl.LINE_STRIP ); + + } + + } else if ( object.isPoints ) { + + renderer.setMode( _gl.POINTS ); + + } else if ( object.isSprite ) { + + renderer.setMode( _gl.TRIANGLES ); + + } + + if ( object.isBatchedMesh ) { + + if ( object._multiDrawInstances !== null ) { + + // @deprecated, r174 + warnOnce( 'THREE.WebGLRenderer: renderMultiDrawInstances has been deprecated and will be removed in r184. Append to renderMultiDraw arguments and use indirection.' ); + renderer.renderMultiDrawInstances( object._multiDrawStarts, object._multiDrawCounts, object._multiDrawCount, object._multiDrawInstances ); + + } else { + + if ( ! extensions.get( 'WEBGL_multi_draw' ) ) { + + const starts = object._multiDrawStarts; + const counts = object._multiDrawCounts; + const drawCount = object._multiDrawCount; + const bytesPerElement = index ? attributes.get( index ).bytesPerElement : 1; + const uniforms = properties.get( material ).currentProgram.getUniforms(); + for ( let i = 0; i < drawCount; i ++ ) { + + uniforms.setValue( _gl, '_gl_DrawID', i ); + renderer.render( starts[ i ] / bytesPerElement, counts[ i ] ); + + } + + } else { + + renderer.renderMultiDraw( object._multiDrawStarts, object._multiDrawCounts, object._multiDrawCount ); + + } + + } + + } else if ( object.isInstancedMesh ) { + + renderer.renderInstances( drawStart, drawCount, object.count ); + + } else if ( geometry.isInstancedBufferGeometry ) { + + const maxInstanceCount = geometry._maxInstanceCount !== undefined ? geometry._maxInstanceCount : Infinity; + const instanceCount = Math.min( geometry.instanceCount, maxInstanceCount ); + + renderer.renderInstances( drawStart, drawCount, instanceCount ); + + } else { + + renderer.render( drawStart, drawCount ); + + } + + }; + + // Compile + + function prepareMaterial( material, scene, object ) { + + if ( material.transparent === true && material.side === DoubleSide && material.forceSinglePass === false ) { + + material.side = BackSide; + material.needsUpdate = true; + getProgram( material, scene, object ); + + material.side = FrontSide; + material.needsUpdate = true; + getProgram( material, scene, object ); + + material.side = DoubleSide; + + } else { + + getProgram( material, scene, object ); + + } + + } + + this.compile = function ( scene, camera, targetScene = null ) { + + if ( targetScene === null ) targetScene = scene; + + currentRenderState = renderStates.get( targetScene ); + currentRenderState.init( camera ); + + renderStateStack.push( currentRenderState ); + + // gather lights from both the target scene and the new object that will be added to the scene. + + targetScene.traverseVisible( function ( object ) { + + if ( object.isLight && object.layers.test( camera.layers ) ) { + + currentRenderState.pushLight( object ); + + if ( object.castShadow ) { + + currentRenderState.pushShadow( object ); + + } + + } + + } ); + + if ( scene !== targetScene ) { + + scene.traverseVisible( function ( object ) { + + if ( object.isLight && object.layers.test( camera.layers ) ) { + + currentRenderState.pushLight( object ); + + if ( object.castShadow ) { + + currentRenderState.pushShadow( object ); + + } + + } + + } ); + + } + + currentRenderState.setupLights(); + + // Only initialize materials in the new scene, not the targetScene. + + const materials = new Set(); + + scene.traverse( function ( object ) { + + if ( ! ( object.isMesh || object.isPoints || object.isLine || object.isSprite ) ) { + + return; + + } + + const material = object.material; + + if ( material ) { + + if ( Array.isArray( material ) ) { + + for ( let i = 0; i < material.length; i ++ ) { + + const material2 = material[ i ]; + + prepareMaterial( material2, targetScene, object ); + materials.add( material2 ); + + } + + } else { + + prepareMaterial( material, targetScene, object ); + materials.add( material ); + + } + + } + + } ); + + currentRenderState = renderStateStack.pop(); + + return materials; + + }; + + // compileAsync + + this.compileAsync = function ( scene, camera, targetScene = null ) { + + const materials = this.compile( scene, camera, targetScene ); + + // Wait for all the materials in the new object to indicate that they're + // ready to be used before resolving the promise. + + return new Promise( ( resolve ) => { + + function checkMaterialsReady() { + + materials.forEach( function ( material ) { + + const materialProperties = properties.get( material ); + const program = materialProperties.currentProgram; + + if ( program.isReady() ) { + + // remove any programs that report they're ready to use from the list + materials.delete( material ); + + } + + } ); + + // once the list of compiling materials is empty, call the callback + + if ( materials.size === 0 ) { + + resolve( scene ); + return; + + } + + // if some materials are still not ready, wait a bit and check again + + setTimeout( checkMaterialsReady, 10 ); + + } + + if ( extensions.get( 'KHR_parallel_shader_compile' ) !== null ) { + + // If we can check the compilation status of the materials without + // blocking then do so right away. + + checkMaterialsReady(); + + } else { + + // Otherwise start by waiting a bit to give the materials we just + // initialized a chance to finish. + + setTimeout( checkMaterialsReady, 10 ); + + } + + } ); + + }; + + // Animation Loop + + let onAnimationFrameCallback = null; + + function onAnimationFrame( time ) { + + if ( onAnimationFrameCallback ) onAnimationFrameCallback( time ); + + } + + function onXRSessionStart() { + + animation.stop(); + + } + + function onXRSessionEnd() { + + animation.start(); + + } + + const animation = new WebGLAnimation(); + animation.setAnimationLoop( onAnimationFrame ); + + if ( typeof self !== 'undefined' ) animation.setContext( self ); + + this.setAnimationLoop = function ( callback ) { + + onAnimationFrameCallback = callback; + xr.setAnimationLoop( callback ); + + ( callback === null ) ? animation.stop() : animation.start(); + + }; + + xr.addEventListener( 'sessionstart', onXRSessionStart ); + xr.addEventListener( 'sessionend', onXRSessionEnd ); + + // Rendering + + this.render = function ( scene, camera ) { + + if ( camera !== undefined && camera.isCamera !== true ) { + + console.error( 'THREE.WebGLRenderer.render: camera is not an instance of THREE.Camera.' ); + return; + + } + + if ( _isContextLost === true ) return; + + // update scene graph + + if ( scene.matrixWorldAutoUpdate === true ) scene.updateMatrixWorld(); + + // update camera matrices and frustum + + if ( camera.parent === null && camera.matrixWorldAutoUpdate === true ) camera.updateMatrixWorld(); + + if ( xr.enabled === true && xr.isPresenting === true ) { + + if ( xr.cameraAutoUpdate === true ) xr.updateCamera( camera ); + + camera = xr.getCamera(); // use XR camera for rendering + + } + + // + if ( scene.isScene === true ) scene.onBeforeRender( _this, scene, camera, _currentRenderTarget ); + + currentRenderState = renderStates.get( scene, renderStateStack.length ); + currentRenderState.init( camera ); + + renderStateStack.push( currentRenderState ); + + _projScreenMatrix.multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse ); + _frustum.setFromProjectionMatrix( _projScreenMatrix ); + + _localClippingEnabled = this.localClippingEnabled; + _clippingEnabled = clipping.init( this.clippingPlanes, _localClippingEnabled ); + + currentRenderList = renderLists.get( scene, renderListStack.length ); + currentRenderList.init(); + + renderListStack.push( currentRenderList ); + + if ( xr.enabled === true && xr.isPresenting === true ) { + + const depthSensingMesh = _this.xr.getDepthSensingMesh(); + + if ( depthSensingMesh !== null ) { + + projectObject( depthSensingMesh, camera, - Infinity, _this.sortObjects ); + + } + + } + + projectObject( scene, camera, 0, _this.sortObjects ); + + currentRenderList.finish(); + + if ( _this.sortObjects === true ) { + + currentRenderList.sort( _opaqueSort, _transparentSort ); + + } + + _renderBackground = xr.enabled === false || xr.isPresenting === false || xr.hasDepthSensing() === false; + if ( _renderBackground ) { + + background.addToRenderList( currentRenderList, scene ); + + } + + // + + this.info.render.frame ++; + + if ( _clippingEnabled === true ) clipping.beginShadows(); + + const shadowsArray = currentRenderState.state.shadowsArray; + + shadowMap.render( shadowsArray, scene, camera ); + + if ( _clippingEnabled === true ) clipping.endShadows(); + + // + + if ( this.info.autoReset === true ) this.info.reset(); + + // render scene + + const opaqueObjects = currentRenderList.opaque; + const transmissiveObjects = currentRenderList.transmissive; + + currentRenderState.setupLights(); + + if ( camera.isArrayCamera ) { + + const cameras = camera.cameras; + + if ( transmissiveObjects.length > 0 ) { + + for ( let i = 0, l = cameras.length; i < l; i ++ ) { + + const camera2 = cameras[ i ]; + + renderTransmissionPass( opaqueObjects, transmissiveObjects, scene, camera2 ); + + } + + } + + if ( _renderBackground ) background.render( scene ); + + for ( let i = 0, l = cameras.length; i < l; i ++ ) { + + const camera2 = cameras[ i ]; + + renderScene( currentRenderList, scene, camera2, camera2.viewport ); + + } + + } else { + + if ( transmissiveObjects.length > 0 ) renderTransmissionPass( opaqueObjects, transmissiveObjects, scene, camera ); + + if ( _renderBackground ) background.render( scene ); + + renderScene( currentRenderList, scene, camera ); + + } + + // + + if ( _currentRenderTarget !== null && _currentActiveMipmapLevel === 0 ) { + + // resolve multisample renderbuffers to a single-sample texture if necessary + + textures.updateMultisampleRenderTarget( _currentRenderTarget ); + + // Generate mipmap if we're using any kind of mipmap filtering + + textures.updateRenderTargetMipmap( _currentRenderTarget ); + + } + + // + + if ( scene.isScene === true ) scene.onAfterRender( _this, scene, camera ); + + // _gl.finish(); + + bindingStates.resetDefaultState(); + _currentMaterialId = -1; + _currentCamera = null; + + renderStateStack.pop(); + + if ( renderStateStack.length > 0 ) { + + currentRenderState = renderStateStack[ renderStateStack.length - 1 ]; + + if ( _clippingEnabled === true ) clipping.setGlobalState( _this.clippingPlanes, currentRenderState.state.camera ); + + } else { + + currentRenderState = null; + + } + + renderListStack.pop(); + + if ( renderListStack.length > 0 ) { + + currentRenderList = renderListStack[ renderListStack.length - 1 ]; + + } else { + + currentRenderList = null; + + } + + }; + + function projectObject( object, camera, groupOrder, sortObjects ) { + + if ( object.visible === false ) return; + + const visible = object.layers.test( camera.layers ); + + if ( visible ) { + + if ( object.isGroup ) { + + groupOrder = object.renderOrder; + + } else if ( object.isLOD ) { + + if ( object.autoUpdate === true ) object.update( camera ); + + } else if ( object.isLight ) { + + currentRenderState.pushLight( object ); + + if ( object.castShadow ) { + + currentRenderState.pushShadow( object ); + + } + + } else if ( object.isSprite ) { + + if ( ! object.frustumCulled || _frustum.intersectsSprite( object ) ) { + + if ( sortObjects ) { + + _vector4.setFromMatrixPosition( object.matrixWorld ) + .applyMatrix4( _projScreenMatrix ); + + } + + const geometry = objects.update( object ); + const material = object.material; + + if ( material.visible ) { + + currentRenderList.push( object, geometry, material, groupOrder, _vector4.z, null ); + + } + + } + + } else if ( object.isMesh || object.isLine || object.isPoints ) { + + if ( ! object.frustumCulled || _frustum.intersectsObject( object ) ) { + + const geometry = objects.update( object ); + const material = object.material; + + if ( sortObjects ) { + + if ( object.boundingSphere !== undefined ) { + + if ( object.boundingSphere === null ) object.computeBoundingSphere(); + _vector4.copy( object.boundingSphere.center ); + + } else { + + if ( geometry.boundingSphere === null ) geometry.computeBoundingSphere(); + _vector4.copy( geometry.boundingSphere.center ); + + } + + _vector4 + .applyMatrix4( object.matrixWorld ) + .applyMatrix4( _projScreenMatrix ); + + } + + if ( Array.isArray( material ) ) { + + const groups = geometry.groups; + + for ( let i = 0, l = groups.length; i < l; i ++ ) { + + const group = groups[ i ]; + const groupMaterial = material[ group.materialIndex ]; + + if ( groupMaterial && groupMaterial.visible ) { + + currentRenderList.push( object, geometry, groupMaterial, groupOrder, _vector4.z, group ); + + } + + } + + } else if ( material.visible ) { + + currentRenderList.push( object, geometry, material, groupOrder, _vector4.z, null ); + + } + + } + + } + + } + + const children = object.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + projectObject( children[ i ], camera, groupOrder, sortObjects ); + + } + + } + + function renderScene( currentRenderList, scene, camera, viewport ) { + + const opaqueObjects = currentRenderList.opaque; + const transmissiveObjects = currentRenderList.transmissive; + const transparentObjects = currentRenderList.transparent; + + currentRenderState.setupLightsView( camera ); + + if ( _clippingEnabled === true ) clipping.setGlobalState( _this.clippingPlanes, camera ); + + if ( viewport ) state.viewport( _currentViewport.copy( viewport ) ); + + if ( opaqueObjects.length > 0 ) renderObjects( opaqueObjects, scene, camera ); + if ( transmissiveObjects.length > 0 ) renderObjects( transmissiveObjects, scene, camera ); + if ( transparentObjects.length > 0 ) renderObjects( transparentObjects, scene, camera ); + + // Ensure depth buffer writing is enabled so it can be cleared on next render + + state.buffers.depth.setTest( true ); + state.buffers.depth.setMask( true ); + state.buffers.color.setMask( true ); + + state.setPolygonOffset( false ); + + } + + function renderTransmissionPass( opaqueObjects, transmissiveObjects, scene, camera ) { + + const overrideMaterial = scene.isScene === true ? scene.overrideMaterial : null; + + if ( overrideMaterial !== null ) { + + return; + + } + + if ( currentRenderState.state.transmissionRenderTarget[ camera.id ] === undefined ) { + + currentRenderState.state.transmissionRenderTarget[ camera.id ] = new WebGLRenderTarget( 1, 1, { + generateMipmaps: true, + type: ( extensions.has( 'EXT_color_buffer_half_float' ) || extensions.has( 'EXT_color_buffer_float' ) ) ? HalfFloatType : UnsignedByteType, + minFilter: LinearMipmapLinearFilter, + samples: 4, + stencilBuffer: stencil, + resolveDepthBuffer: false, + resolveStencilBuffer: false, + colorSpace: ColorManagement.workingColorSpace, + } ); + + // debug + + /* + const geometry = new PlaneGeometry(); + const material = new MeshBasicMaterial( { map: _transmissionRenderTarget.texture } ); + + const mesh = new Mesh( geometry, material ); + scene.add( mesh ); + */ + + } + + const transmissionRenderTarget = currentRenderState.state.transmissionRenderTarget[ camera.id ]; + + const activeViewport = camera.viewport || _currentViewport; + transmissionRenderTarget.setSize( activeViewport.z * _this.transmissionResolutionScale, activeViewport.w * _this.transmissionResolutionScale ); + + // + + const currentRenderTarget = _this.getRenderTarget(); + _this.setRenderTarget( transmissionRenderTarget ); + + _this.getClearColor( _currentClearColor ); + _currentClearAlpha = _this.getClearAlpha(); + if ( _currentClearAlpha < 1 ) _this.setClearColor( 0xffffff, 0.5 ); + + _this.clear(); + + if ( _renderBackground ) background.render( scene ); + + // Turn off the features which can affect the frag color for opaque objects pass. + // Otherwise they are applied twice in opaque objects pass and transmission objects pass. + const currentToneMapping = _this.toneMapping; + _this.toneMapping = NoToneMapping; + + // Remove viewport from camera to avoid nested render calls resetting viewport to it (e.g Reflector). + // Transmission render pass requires viewport to match the transmissionRenderTarget. + const currentCameraViewport = camera.viewport; + if ( camera.viewport !== undefined ) camera.viewport = undefined; + + currentRenderState.setupLightsView( camera ); + + if ( _clippingEnabled === true ) clipping.setGlobalState( _this.clippingPlanes, camera ); + + renderObjects( opaqueObjects, scene, camera ); + + textures.updateMultisampleRenderTarget( transmissionRenderTarget ); + textures.updateRenderTargetMipmap( transmissionRenderTarget ); + + if ( extensions.has( 'WEBGL_multisampled_render_to_texture' ) === false ) { // see #28131 + + let renderTargetNeedsUpdate = false; + + for ( let i = 0, l = transmissiveObjects.length; i < l; i ++ ) { + + const renderItem = transmissiveObjects[ i ]; + + const object = renderItem.object; + const geometry = renderItem.geometry; + const material = renderItem.material; + const group = renderItem.group; + + if ( material.side === DoubleSide && object.layers.test( camera.layers ) ) { + + const currentSide = material.side; + + material.side = BackSide; + material.needsUpdate = true; + + renderObject( object, scene, camera, geometry, material, group ); + + material.side = currentSide; + material.needsUpdate = true; + + renderTargetNeedsUpdate = true; + + } + + } + + if ( renderTargetNeedsUpdate === true ) { + + textures.updateMultisampleRenderTarget( transmissionRenderTarget ); + textures.updateRenderTargetMipmap( transmissionRenderTarget ); + + } + + } + + _this.setRenderTarget( currentRenderTarget ); + + _this.setClearColor( _currentClearColor, _currentClearAlpha ); + + if ( currentCameraViewport !== undefined ) camera.viewport = currentCameraViewport; + + _this.toneMapping = currentToneMapping; + + } + + function renderObjects( renderList, scene, camera ) { + + const overrideMaterial = scene.isScene === true ? scene.overrideMaterial : null; + + for ( let i = 0, l = renderList.length; i < l; i ++ ) { + + const renderItem = renderList[ i ]; + + const object = renderItem.object; + const geometry = renderItem.geometry; + const material = overrideMaterial === null ? renderItem.material : overrideMaterial; + const group = renderItem.group; + + if ( object.layers.test( camera.layers ) ) { + + renderObject( object, scene, camera, geometry, material, group ); + + } + + } + + } + + function renderObject( object, scene, camera, geometry, material, group ) { + + object.onBeforeRender( _this, scene, camera, geometry, material, group ); + + object.modelViewMatrix.multiplyMatrices( camera.matrixWorldInverse, object.matrixWorld ); + object.normalMatrix.getNormalMatrix( object.modelViewMatrix ); + + material.onBeforeRender( _this, scene, camera, geometry, object, group ); + + if ( material.transparent === true && material.side === DoubleSide && material.forceSinglePass === false ) { + + material.side = BackSide; + material.needsUpdate = true; + _this.renderBufferDirect( camera, scene, geometry, material, object, group ); + + material.side = FrontSide; + material.needsUpdate = true; + _this.renderBufferDirect( camera, scene, geometry, material, object, group ); + + material.side = DoubleSide; + + } else { + + _this.renderBufferDirect( camera, scene, geometry, material, object, group ); + + } + + object.onAfterRender( _this, scene, camera, geometry, material, group ); + + } + + function getProgram( material, scene, object ) { + + if ( scene.isScene !== true ) scene = _emptyScene; // scene could be a Mesh, Line, Points, ... + + const materialProperties = properties.get( material ); + + const lights = currentRenderState.state.lights; + const shadowsArray = currentRenderState.state.shadowsArray; + + const lightsStateVersion = lights.state.version; + + const parameters = programCache.getParameters( material, lights.state, shadowsArray, scene, object ); + const programCacheKey = programCache.getProgramCacheKey( parameters ); + + let programs = materialProperties.programs; + + // always update environment and fog - changing these trigger an getProgram call, but it's possible that the program doesn't change + + materialProperties.environment = material.isMeshStandardMaterial ? scene.environment : null; + materialProperties.fog = scene.fog; + materialProperties.envMap = ( material.isMeshStandardMaterial ? cubeuvmaps : cubemaps ).get( material.envMap || materialProperties.environment ); + materialProperties.envMapRotation = ( materialProperties.environment !== null && material.envMap === null ) ? scene.environmentRotation : material.envMapRotation; + + if ( programs === undefined ) { + + // new material + + material.addEventListener( 'dispose', onMaterialDispose ); + + programs = new Map(); + materialProperties.programs = programs; + + } + + let program = programs.get( programCacheKey ); + + if ( program !== undefined ) { + + // early out if program and light state is identical + + if ( materialProperties.currentProgram === program && materialProperties.lightsStateVersion === lightsStateVersion ) { + + updateCommonMaterialProperties( material, parameters ); + + return program; + + } + + } else { + + parameters.uniforms = programCache.getUniforms( material ); + + material.onBeforeCompile( parameters, _this ); + + program = programCache.acquireProgram( parameters, programCacheKey ); + programs.set( programCacheKey, program ); + + materialProperties.uniforms = parameters.uniforms; + + } + + const uniforms = materialProperties.uniforms; + + if ( ( ! material.isShaderMaterial && ! material.isRawShaderMaterial ) || material.clipping === true ) { + + uniforms.clippingPlanes = clipping.uniform; + + } + + updateCommonMaterialProperties( material, parameters ); + + // store the light setup it was created for + + materialProperties.needsLights = materialNeedsLights( material ); + materialProperties.lightsStateVersion = lightsStateVersion; + + if ( materialProperties.needsLights ) { + + // wire up the material to this renderer's lighting state + + uniforms.ambientLightColor.value = lights.state.ambient; + uniforms.lightProbe.value = lights.state.probe; + uniforms.directionalLights.value = lights.state.directional; + uniforms.directionalLightShadows.value = lights.state.directionalShadow; + uniforms.spotLights.value = lights.state.spot; + uniforms.spotLightShadows.value = lights.state.spotShadow; + uniforms.rectAreaLights.value = lights.state.rectArea; + uniforms.ltc_1.value = lights.state.rectAreaLTC1; + uniforms.ltc_2.value = lights.state.rectAreaLTC2; + uniforms.pointLights.value = lights.state.point; + uniforms.pointLightShadows.value = lights.state.pointShadow; + uniforms.hemisphereLights.value = lights.state.hemi; + + uniforms.directionalShadowMap.value = lights.state.directionalShadowMap; + uniforms.directionalShadowMatrix.value = lights.state.directionalShadowMatrix; + uniforms.spotShadowMap.value = lights.state.spotShadowMap; + uniforms.spotLightMatrix.value = lights.state.spotLightMatrix; + uniforms.spotLightMap.value = lights.state.spotLightMap; + uniforms.pointShadowMap.value = lights.state.pointShadowMap; + uniforms.pointShadowMatrix.value = lights.state.pointShadowMatrix; + // TODO (abelnation): add area lights shadow info to uniforms + + } + + materialProperties.currentProgram = program; + materialProperties.uniformsList = null; + + return program; + + } + + function getUniformList( materialProperties ) { + + if ( materialProperties.uniformsList === null ) { + + const progUniforms = materialProperties.currentProgram.getUniforms(); + materialProperties.uniformsList = WebGLUniforms.seqWithValue( progUniforms.seq, materialProperties.uniforms ); + + } + + return materialProperties.uniformsList; + + } + + function updateCommonMaterialProperties( material, parameters ) { + + const materialProperties = properties.get( material ); + + materialProperties.outputColorSpace = parameters.outputColorSpace; + materialProperties.batching = parameters.batching; + materialProperties.batchingColor = parameters.batchingColor; + materialProperties.instancing = parameters.instancing; + materialProperties.instancingColor = parameters.instancingColor; + materialProperties.instancingMorph = parameters.instancingMorph; + materialProperties.skinning = parameters.skinning; + materialProperties.morphTargets = parameters.morphTargets; + materialProperties.morphNormals = parameters.morphNormals; + materialProperties.morphColors = parameters.morphColors; + materialProperties.morphTargetsCount = parameters.morphTargetsCount; + materialProperties.numClippingPlanes = parameters.numClippingPlanes; + materialProperties.numIntersection = parameters.numClipIntersection; + materialProperties.vertexAlphas = parameters.vertexAlphas; + materialProperties.vertexTangents = parameters.vertexTangents; + materialProperties.toneMapping = parameters.toneMapping; + + } + + function setProgram( camera, scene, geometry, material, object ) { + + if ( scene.isScene !== true ) scene = _emptyScene; // scene could be a Mesh, Line, Points, ... + + textures.resetTextureUnits(); + + const fog = scene.fog; + const environment = material.isMeshStandardMaterial ? scene.environment : null; + const colorSpace = ( _currentRenderTarget === null ) ? _this.outputColorSpace : ( _currentRenderTarget.isXRRenderTarget === true ? _currentRenderTarget.texture.colorSpace : LinearSRGBColorSpace ); + const envMap = ( material.isMeshStandardMaterial ? cubeuvmaps : cubemaps ).get( material.envMap || environment ); + const vertexAlphas = material.vertexColors === true && !! geometry.attributes.color && geometry.attributes.color.itemSize === 4; + const vertexTangents = !! geometry.attributes.tangent && ( !! material.normalMap || material.anisotropy > 0 ); + const morphTargets = !! geometry.morphAttributes.position; + const morphNormals = !! geometry.morphAttributes.normal; + const morphColors = !! geometry.morphAttributes.color; + + let toneMapping = NoToneMapping; + + if ( material.toneMapped ) { + + if ( _currentRenderTarget === null || _currentRenderTarget.isXRRenderTarget === true ) { + + toneMapping = _this.toneMapping; + + } + + } + + const morphAttribute = geometry.morphAttributes.position || geometry.morphAttributes.normal || geometry.morphAttributes.color; + const morphTargetsCount = ( morphAttribute !== undefined ) ? morphAttribute.length : 0; + + const materialProperties = properties.get( material ); + const lights = currentRenderState.state.lights; + + if ( _clippingEnabled === true ) { + + if ( _localClippingEnabled === true || camera !== _currentCamera ) { + + const useCache = + camera === _currentCamera && + material.id === _currentMaterialId; + + // we might want to call this function with some ClippingGroup + // object instead of the material, once it becomes feasible + // (#8465, #8379) + clipping.setState( material, camera, useCache ); + + } + + } + + // + + let needsProgramChange = false; + + if ( material.version === materialProperties.__version ) { + + if ( materialProperties.needsLights && ( materialProperties.lightsStateVersion !== lights.state.version ) ) { + + needsProgramChange = true; + + } else if ( materialProperties.outputColorSpace !== colorSpace ) { + + needsProgramChange = true; + + } else if ( object.isBatchedMesh && materialProperties.batching === false ) { + + needsProgramChange = true; + + } else if ( ! object.isBatchedMesh && materialProperties.batching === true ) { + + needsProgramChange = true; + + } else if ( object.isBatchedMesh && materialProperties.batchingColor === true && object.colorTexture === null ) { + + needsProgramChange = true; + + } else if ( object.isBatchedMesh && materialProperties.batchingColor === false && object.colorTexture !== null ) { + + needsProgramChange = true; + + } else if ( object.isInstancedMesh && materialProperties.instancing === false ) { + + needsProgramChange = true; + + } else if ( ! object.isInstancedMesh && materialProperties.instancing === true ) { + + needsProgramChange = true; + + } else if ( object.isSkinnedMesh && materialProperties.skinning === false ) { + + needsProgramChange = true; + + } else if ( ! object.isSkinnedMesh && materialProperties.skinning === true ) { + + needsProgramChange = true; + + } else if ( object.isInstancedMesh && materialProperties.instancingColor === true && object.instanceColor === null ) { + + needsProgramChange = true; + + } else if ( object.isInstancedMesh && materialProperties.instancingColor === false && object.instanceColor !== null ) { + + needsProgramChange = true; + + } else if ( object.isInstancedMesh && materialProperties.instancingMorph === true && object.morphTexture === null ) { + + needsProgramChange = true; + + } else if ( object.isInstancedMesh && materialProperties.instancingMorph === false && object.morphTexture !== null ) { + + needsProgramChange = true; + + } else if ( materialProperties.envMap !== envMap ) { + + needsProgramChange = true; + + } else if ( material.fog === true && materialProperties.fog !== fog ) { + + needsProgramChange = true; + + } else if ( materialProperties.numClippingPlanes !== undefined && + ( materialProperties.numClippingPlanes !== clipping.numPlanes || + materialProperties.numIntersection !== clipping.numIntersection ) ) { + + needsProgramChange = true; + + } else if ( materialProperties.vertexAlphas !== vertexAlphas ) { + + needsProgramChange = true; + + } else if ( materialProperties.vertexTangents !== vertexTangents ) { + + needsProgramChange = true; + + } else if ( materialProperties.morphTargets !== morphTargets ) { + + needsProgramChange = true; + + } else if ( materialProperties.morphNormals !== morphNormals ) { + + needsProgramChange = true; + + } else if ( materialProperties.morphColors !== morphColors ) { + + needsProgramChange = true; + + } else if ( materialProperties.toneMapping !== toneMapping ) { + + needsProgramChange = true; + + } else if ( materialProperties.morphTargetsCount !== morphTargetsCount ) { + + needsProgramChange = true; + + } + + } else { + + needsProgramChange = true; + materialProperties.__version = material.version; + + } + + // + + let program = materialProperties.currentProgram; + + if ( needsProgramChange === true ) { + + program = getProgram( material, scene, object ); + + } + + let refreshProgram = false; + let refreshMaterial = false; + let refreshLights = false; + + const p_uniforms = program.getUniforms(), + m_uniforms = materialProperties.uniforms; + + if ( state.useProgram( program.program ) ) { + + refreshProgram = true; + refreshMaterial = true; + refreshLights = true; + + } + + if ( material.id !== _currentMaterialId ) { + + _currentMaterialId = material.id; + + refreshMaterial = true; + + } + + if ( refreshProgram || _currentCamera !== camera ) { + + // common camera uniforms + + const reverseDepthBuffer = state.buffers.depth.getReversed(); + + if ( reverseDepthBuffer ) { + + _currentProjectionMatrix.copy( camera.projectionMatrix ); + + toNormalizedProjectionMatrix( _currentProjectionMatrix ); + toReversedProjectionMatrix( _currentProjectionMatrix ); + + p_uniforms.setValue( _gl, 'projectionMatrix', _currentProjectionMatrix ); + + } else { + + p_uniforms.setValue( _gl, 'projectionMatrix', camera.projectionMatrix ); + + } + + p_uniforms.setValue( _gl, 'viewMatrix', camera.matrixWorldInverse ); + + const uCamPos = p_uniforms.map.cameraPosition; + + if ( uCamPos !== undefined ) { + + uCamPos.setValue( _gl, _vector3.setFromMatrixPosition( camera.matrixWorld ) ); + + } + + if ( capabilities.logarithmicDepthBuffer ) { + + p_uniforms.setValue( _gl, 'logDepthBufFC', + 2.0 / ( Math.log( camera.far + 1.0 ) / Math.LN2 ) ); + + } + + // consider moving isOrthographic to UniformLib and WebGLMaterials, see https://github.com/mrdoob/three.js/pull/26467#issuecomment-1645185067 + + if ( material.isMeshPhongMaterial || + material.isMeshToonMaterial || + material.isMeshLambertMaterial || + material.isMeshBasicMaterial || + material.isMeshStandardMaterial || + material.isShaderMaterial ) { + + p_uniforms.setValue( _gl, 'isOrthographic', camera.isOrthographicCamera === true ); + + } + + if ( _currentCamera !== camera ) { + + _currentCamera = camera; + + // lighting uniforms depend on the camera so enforce an update + // now, in case this material supports lights - or later, when + // the next material that does gets activated: + + refreshMaterial = true; // set to true on material change + refreshLights = true; // remains set until update done + + } + + } + + // skinning and morph target uniforms must be set even if material didn't change + // auto-setting of texture unit for bone and morph texture must go before other textures + // otherwise textures used for skinning and morphing can take over texture units reserved for other material textures + + if ( object.isSkinnedMesh ) { + + p_uniforms.setOptional( _gl, object, 'bindMatrix' ); + p_uniforms.setOptional( _gl, object, 'bindMatrixInverse' ); + + const skeleton = object.skeleton; + + if ( skeleton ) { + + if ( skeleton.boneTexture === null ) skeleton.computeBoneTexture(); + + p_uniforms.setValue( _gl, 'boneTexture', skeleton.boneTexture, textures ); + + } + + } + + if ( object.isBatchedMesh ) { + + p_uniforms.setOptional( _gl, object, 'batchingTexture' ); + p_uniforms.setValue( _gl, 'batchingTexture', object._matricesTexture, textures ); + + p_uniforms.setOptional( _gl, object, 'batchingIdTexture' ); + p_uniforms.setValue( _gl, 'batchingIdTexture', object._indirectTexture, textures ); + + p_uniforms.setOptional( _gl, object, 'batchingColorTexture' ); + if ( object._colorsTexture !== null ) { + + p_uniforms.setValue( _gl, 'batchingColorTexture', object._colorsTexture, textures ); + + } + + } + + const morphAttributes = geometry.morphAttributes; + + if ( morphAttributes.position !== undefined || morphAttributes.normal !== undefined || ( morphAttributes.color !== undefined ) ) { + + morphtargets.update( object, geometry, program ); + + } + + if ( refreshMaterial || materialProperties.receiveShadow !== object.receiveShadow ) { + + materialProperties.receiveShadow = object.receiveShadow; + p_uniforms.setValue( _gl, 'receiveShadow', object.receiveShadow ); + + } + + // https://github.com/mrdoob/three.js/pull/24467#issuecomment-1209031512 + + if ( material.isMeshGouraudMaterial && material.envMap !== null ) { + + m_uniforms.envMap.value = envMap; + + m_uniforms.flipEnvMap.value = ( envMap.isCubeTexture && envMap.isRenderTargetTexture === false ) ? -1 : 1; + + } + + if ( material.isMeshStandardMaterial && material.envMap === null && scene.environment !== null ) { + + m_uniforms.envMapIntensity.value = scene.environmentIntensity; + + } + + if ( refreshMaterial ) { + + p_uniforms.setValue( _gl, 'toneMappingExposure', _this.toneMappingExposure ); + + if ( materialProperties.needsLights ) { + + // the current material requires lighting info + + // note: all lighting uniforms are always set correctly + // they simply reference the renderer's state for their + // values + // + // use the current material's .needsUpdate flags to set + // the GL state when required + + markUniformsLightsNeedsUpdate( m_uniforms, refreshLights ); + + } + + // refresh uniforms common to several materials + + if ( fog && material.fog === true ) { + + materials.refreshFogUniforms( m_uniforms, fog ); + + } + + materials.refreshMaterialUniforms( m_uniforms, material, _pixelRatio, _height, currentRenderState.state.transmissionRenderTarget[ camera.id ] ); + + WebGLUniforms.upload( _gl, getUniformList( materialProperties ), m_uniforms, textures ); + + } + + if ( material.isShaderMaterial && material.uniformsNeedUpdate === true ) { + + WebGLUniforms.upload( _gl, getUniformList( materialProperties ), m_uniforms, textures ); + material.uniformsNeedUpdate = false; + + } + + if ( material.isSpriteMaterial ) { + + p_uniforms.setValue( _gl, 'center', object.center ); + + } + + // common matrices + + p_uniforms.setValue( _gl, 'modelViewMatrix', object.modelViewMatrix ); + p_uniforms.setValue( _gl, 'normalMatrix', object.normalMatrix ); + p_uniforms.setValue( _gl, 'modelMatrix', object.matrixWorld ); + + // UBOs + + if ( material.isShaderMaterial || material.isRawShaderMaterial ) { + + const groups = material.uniformsGroups; + + for ( let i = 0, l = groups.length; i < l; i ++ ) { + + const group = groups[ i ]; + + uniformsGroups.update( group, program ); + uniformsGroups.bind( group, program ); + + } + + } + + return program; + + } + + // If uniforms are marked as clean, they don't need to be loaded to the GPU. + + function markUniformsLightsNeedsUpdate( uniforms, value ) { + + uniforms.ambientLightColor.needsUpdate = value; + uniforms.lightProbe.needsUpdate = value; + + uniforms.directionalLights.needsUpdate = value; + uniforms.directionalLightShadows.needsUpdate = value; + uniforms.pointLights.needsUpdate = value; + uniforms.pointLightShadows.needsUpdate = value; + uniforms.spotLights.needsUpdate = value; + uniforms.spotLightShadows.needsUpdate = value; + uniforms.rectAreaLights.needsUpdate = value; + uniforms.hemisphereLights.needsUpdate = value; + + } + + function materialNeedsLights( material ) { + + return material.isMeshLambertMaterial || material.isMeshToonMaterial || material.isMeshPhongMaterial || + material.isMeshStandardMaterial || material.isShadowMaterial || + ( material.isShaderMaterial && material.lights === true ); + + } + + this.getActiveCubeFace = function () { + + return _currentActiveCubeFace; + + }; + + this.getActiveMipmapLevel = function () { + + return _currentActiveMipmapLevel; + + }; + + this.getRenderTarget = function () { + + return _currentRenderTarget; + + }; + + this.setRenderTargetTextures = function ( renderTarget, colorTexture, depthTexture ) { + + properties.get( renderTarget.texture ).__webglTexture = colorTexture; + properties.get( renderTarget.depthTexture ).__webglTexture = depthTexture; + + const renderTargetProperties = properties.get( renderTarget ); + renderTargetProperties.__hasExternalTextures = true; + + renderTargetProperties.__autoAllocateDepthBuffer = depthTexture === undefined; + + if ( ! renderTargetProperties.__autoAllocateDepthBuffer ) { + + // The multisample_render_to_texture extension doesn't work properly if there + // are midframe flushes and an external depth buffer. Disable use of the extension. + if ( extensions.has( 'WEBGL_multisampled_render_to_texture' ) === true ) { + + console.warn( 'THREE.WebGLRenderer: Render-to-texture extension was disabled because an external texture was provided' ); + renderTargetProperties.__useRenderToTexture = false; + + } + + } + + }; + + this.setRenderTargetFramebuffer = function ( renderTarget, defaultFramebuffer ) { + + const renderTargetProperties = properties.get( renderTarget ); + renderTargetProperties.__webglFramebuffer = defaultFramebuffer; + renderTargetProperties.__useDefaultFramebuffer = defaultFramebuffer === undefined; + + }; + + const _scratchFrameBuffer = _gl.createFramebuffer(); + this.setRenderTarget = function ( renderTarget, activeCubeFace = 0, activeMipmapLevel = 0 ) { + + _currentRenderTarget = renderTarget; + _currentActiveCubeFace = activeCubeFace; + _currentActiveMipmapLevel = activeMipmapLevel; + + let useDefaultFramebuffer = true; + let framebuffer = null; + let isCube = false; + let isRenderTarget3D = false; + + if ( renderTarget ) { + + const renderTargetProperties = properties.get( renderTarget ); + + if ( renderTargetProperties.__useDefaultFramebuffer !== undefined ) { + + // We need to make sure to rebind the framebuffer. + state.bindFramebuffer( _gl.FRAMEBUFFER, null ); + useDefaultFramebuffer = false; + + } else if ( renderTargetProperties.__webglFramebuffer === undefined ) { + + textures.setupRenderTarget( renderTarget ); + + } else if ( renderTargetProperties.__hasExternalTextures ) { + + // Color and depth texture must be rebound in order for the swapchain to update. + textures.rebindTextures( renderTarget, properties.get( renderTarget.texture ).__webglTexture, properties.get( renderTarget.depthTexture ).__webglTexture ); + + } else if ( renderTarget.depthBuffer ) { + + // check if the depth texture is already bound to the frame buffer and that it's been initialized + const depthTexture = renderTarget.depthTexture; + if ( renderTargetProperties.__boundDepthTexture !== depthTexture ) { + + // check if the depth texture is compatible + if ( + depthTexture !== null && + properties.has( depthTexture ) && + ( renderTarget.width !== depthTexture.image.width || renderTarget.height !== depthTexture.image.height ) + ) { + + throw new Error( 'WebGLRenderTarget: Attached DepthTexture is initialized to the incorrect size.' ); + + } + + // Swap the depth buffer to the currently attached one + textures.setupDepthRenderbuffer( renderTarget ); + + } + + } + + const texture = renderTarget.texture; + + if ( texture.isData3DTexture || texture.isDataArrayTexture || texture.isCompressedArrayTexture ) { + + isRenderTarget3D = true; + + } + + const __webglFramebuffer = properties.get( renderTarget ).__webglFramebuffer; + + if ( renderTarget.isWebGLCubeRenderTarget ) { + + if ( Array.isArray( __webglFramebuffer[ activeCubeFace ] ) ) { + + framebuffer = __webglFramebuffer[ activeCubeFace ][ activeMipmapLevel ]; + + } else { + + framebuffer = __webglFramebuffer[ activeCubeFace ]; + + } + + isCube = true; + + } else if ( ( renderTarget.samples > 0 ) && textures.useMultisampledRTT( renderTarget ) === false ) { + + framebuffer = properties.get( renderTarget ).__webglMultisampledFramebuffer; + + } else { + + if ( Array.isArray( __webglFramebuffer ) ) { + + framebuffer = __webglFramebuffer[ activeMipmapLevel ]; + + } else { + + framebuffer = __webglFramebuffer; + + } + + } + + _currentViewport.copy( renderTarget.viewport ); + _currentScissor.copy( renderTarget.scissor ); + _currentScissorTest = renderTarget.scissorTest; + + } else { + + _currentViewport.copy( _viewport ).multiplyScalar( _pixelRatio ).floor(); + _currentScissor.copy( _scissor ).multiplyScalar( _pixelRatio ).floor(); + _currentScissorTest = _scissorTest; + + } + + // Use a scratch frame buffer if rendering to a mip level to avoid depth buffers + // being bound that are different sizes. + if ( activeMipmapLevel !== 0 ) { + + framebuffer = _scratchFrameBuffer; + + } + + const framebufferBound = state.bindFramebuffer( _gl.FRAMEBUFFER, framebuffer ); + + if ( framebufferBound && useDefaultFramebuffer ) { + + state.drawBuffers( renderTarget, framebuffer ); + + } + + state.viewport( _currentViewport ); + state.scissor( _currentScissor ); + state.setScissorTest( _currentScissorTest ); + + if ( isCube ) { + + const textureProperties = properties.get( renderTarget.texture ); + _gl.framebufferTexture2D( _gl.FRAMEBUFFER, _gl.COLOR_ATTACHMENT0, _gl.TEXTURE_CUBE_MAP_POSITIVE_X + activeCubeFace, textureProperties.__webglTexture, activeMipmapLevel ); + + } else if ( isRenderTarget3D ) { + + const textureProperties = properties.get( renderTarget.texture ); + const layer = activeCubeFace; + _gl.framebufferTextureLayer( _gl.FRAMEBUFFER, _gl.COLOR_ATTACHMENT0, textureProperties.__webglTexture, activeMipmapLevel, layer ); + + } else if ( renderTarget !== null && activeMipmapLevel !== 0 ) { + + // Only bind the frame buffer if we are using a scratch frame buffer to render to a mipmap. + // If we rebind the texture when using a multi sample buffer then an error about inconsistent samples will be thrown. + const textureProperties = properties.get( renderTarget.texture ); + _gl.framebufferTexture2D( _gl.FRAMEBUFFER, _gl.COLOR_ATTACHMENT0, _gl.TEXTURE_2D, textureProperties.__webglTexture, activeMipmapLevel ); + + } + + _currentMaterialId = -1; // reset current material to ensure correct uniform bindings + + }; + + this.readRenderTargetPixels = function ( renderTarget, x, y, width, height, buffer, activeCubeFaceIndex ) { + + if ( ! ( renderTarget && renderTarget.isWebGLRenderTarget ) ) { + + console.error( 'THREE.WebGLRenderer.readRenderTargetPixels: renderTarget is not THREE.WebGLRenderTarget.' ); + return; + + } + + let framebuffer = properties.get( renderTarget ).__webglFramebuffer; + + if ( renderTarget.isWebGLCubeRenderTarget && activeCubeFaceIndex !== undefined ) { + + framebuffer = framebuffer[ activeCubeFaceIndex ]; + + } + + if ( framebuffer ) { + + state.bindFramebuffer( _gl.FRAMEBUFFER, framebuffer ); + + try { + + const texture = renderTarget.texture; + const textureFormat = texture.format; + const textureType = texture.type; + + if ( ! capabilities.textureFormatReadable( textureFormat ) ) { + + console.error( 'THREE.WebGLRenderer.readRenderTargetPixels: renderTarget is not in RGBA or implementation defined format.' ); + return; + + } + + if ( ! capabilities.textureTypeReadable( textureType ) ) { + + console.error( 'THREE.WebGLRenderer.readRenderTargetPixels: renderTarget is not in UnsignedByteType or implementation defined type.' ); + return; + + } + + // the following if statement ensures valid read requests (no out-of-bounds pixels, see #8604) + + if ( ( x >= 0 && x <= ( renderTarget.width - width ) ) && ( y >= 0 && y <= ( renderTarget.height - height ) ) ) { + + _gl.readPixels( x, y, width, height, utils.convert( textureFormat ), utils.convert( textureType ), buffer ); + + } + + } finally { + + // restore framebuffer of current render target if necessary + + const framebuffer = ( _currentRenderTarget !== null ) ? properties.get( _currentRenderTarget ).__webglFramebuffer : null; + state.bindFramebuffer( _gl.FRAMEBUFFER, framebuffer ); + + } + + } + + }; + + this.readRenderTargetPixelsAsync = async function ( renderTarget, x, y, width, height, buffer, activeCubeFaceIndex ) { + + if ( ! ( renderTarget && renderTarget.isWebGLRenderTarget ) ) { + + throw new Error( 'THREE.WebGLRenderer.readRenderTargetPixels: renderTarget is not THREE.WebGLRenderTarget.' ); + + } + + let framebuffer = properties.get( renderTarget ).__webglFramebuffer; + if ( renderTarget.isWebGLCubeRenderTarget && activeCubeFaceIndex !== undefined ) { + + framebuffer = framebuffer[ activeCubeFaceIndex ]; + + } + + if ( framebuffer ) { + + const texture = renderTarget.texture; + const textureFormat = texture.format; + const textureType = texture.type; + + if ( ! capabilities.textureFormatReadable( textureFormat ) ) { + + throw new Error( 'THREE.WebGLRenderer.readRenderTargetPixelsAsync: renderTarget is not in RGBA or implementation defined format.' ); + + } + + if ( ! capabilities.textureTypeReadable( textureType ) ) { + + throw new Error( 'THREE.WebGLRenderer.readRenderTargetPixelsAsync: renderTarget is not in UnsignedByteType or implementation defined type.' ); + + } + + // the following if statement ensures valid read requests (no out-of-bounds pixels, see #8604) + if ( ( x >= 0 && x <= ( renderTarget.width - width ) ) && ( y >= 0 && y <= ( renderTarget.height - height ) ) ) { + + // set the active frame buffer to the one we want to read + state.bindFramebuffer( _gl.FRAMEBUFFER, framebuffer ); + + const glBuffer = _gl.createBuffer(); + _gl.bindBuffer( _gl.PIXEL_PACK_BUFFER, glBuffer ); + _gl.bufferData( _gl.PIXEL_PACK_BUFFER, buffer.byteLength, _gl.STREAM_READ ); + _gl.readPixels( x, y, width, height, utils.convert( textureFormat ), utils.convert( textureType ), 0 ); + + // reset the frame buffer to the currently set buffer before waiting + const currFramebuffer = _currentRenderTarget !== null ? properties.get( _currentRenderTarget ).__webglFramebuffer : null; + state.bindFramebuffer( _gl.FRAMEBUFFER, currFramebuffer ); + + // check if the commands have finished every 8 ms + const sync = _gl.fenceSync( _gl.SYNC_GPU_COMMANDS_COMPLETE, 0 ); + + _gl.flush(); + + await probeAsync( _gl, sync, 4 ); + + // read the data and delete the buffer + _gl.bindBuffer( _gl.PIXEL_PACK_BUFFER, glBuffer ); + _gl.getBufferSubData( _gl.PIXEL_PACK_BUFFER, 0, buffer ); + _gl.deleteBuffer( glBuffer ); + _gl.deleteSync( sync ); + + return buffer; + + } else { + + throw new Error( 'THREE.WebGLRenderer.readRenderTargetPixelsAsync: requested read bounds are out of range.' ); + + } + + } + + }; + + this.copyFramebufferToTexture = function ( texture, position = null, level = 0 ) { + + // support previous signature with position first + if ( texture.isTexture !== true ) { + + // @deprecated, r165 + warnOnce( 'WebGLRenderer: copyFramebufferToTexture function signature has changed.' ); + + position = arguments[ 0 ] || null; + texture = arguments[ 1 ]; + + } + + const levelScale = Math.pow( 2, - level ); + const width = Math.floor( texture.image.width * levelScale ); + const height = Math.floor( texture.image.height * levelScale ); + + const x = position !== null ? position.x : 0; + const y = position !== null ? position.y : 0; + + textures.setTexture2D( texture, 0 ); + + _gl.copyTexSubImage2D( _gl.TEXTURE_2D, level, 0, 0, x, y, width, height ); + + state.unbindTexture(); + + }; + + const _srcFramebuffer = _gl.createFramebuffer(); + const _dstFramebuffer = _gl.createFramebuffer(); + this.copyTextureToTexture = function ( srcTexture, dstTexture, srcRegion = null, dstPosition = null, srcLevel = 0, dstLevel = null ) { + + // support previous signature with dstPosition first + if ( srcTexture.isTexture !== true ) { + + // @deprecated, r165 + warnOnce( 'WebGLRenderer: copyTextureToTexture function signature has changed.' ); + + dstPosition = arguments[ 0 ] || null; + srcTexture = arguments[ 1 ]; + dstTexture = arguments[ 2 ]; + dstLevel = arguments[ 3 ] || 0; + srcRegion = null; + + } + + // support the previous signature with just a single dst mipmap level + if ( dstLevel === null ) { + + if ( srcLevel !== 0 ) { + + // @deprecated, r171 + warnOnce( 'WebGLRenderer: copyTextureToTexture function signature has changed to support src and dst mipmap levels.' ); + dstLevel = srcLevel; + srcLevel = 0; + + } else { + + dstLevel = 0; + + } + + } + + // gather the necessary dimensions to copy + let width, height, depth, minX, minY, minZ; + let dstX, dstY, dstZ; + const image = srcTexture.isCompressedTexture ? srcTexture.mipmaps[ dstLevel ] : srcTexture.image; + if ( srcRegion !== null ) { + + width = srcRegion.max.x - srcRegion.min.x; + height = srcRegion.max.y - srcRegion.min.y; + depth = srcRegion.isBox3 ? srcRegion.max.z - srcRegion.min.z : 1; + minX = srcRegion.min.x; + minY = srcRegion.min.y; + minZ = srcRegion.isBox3 ? srcRegion.min.z : 0; + + } else { + + const levelScale = Math.pow( 2, - srcLevel ); + width = Math.floor( image.width * levelScale ); + height = Math.floor( image.height * levelScale ); + if ( srcTexture.isDataArrayTexture ) { + + depth = image.depth; + + } else if ( srcTexture.isData3DTexture ) { + + depth = Math.floor( image.depth * levelScale ); + + } else { + + depth = 1; + + } + + minX = 0; + minY = 0; + minZ = 0; + + } + + if ( dstPosition !== null ) { + + dstX = dstPosition.x; + dstY = dstPosition.y; + dstZ = dstPosition.z; + + } else { + + dstX = 0; + dstY = 0; + dstZ = 0; + + } + + // Set up the destination target + const glFormat = utils.convert( dstTexture.format ); + const glType = utils.convert( dstTexture.type ); + let glTarget; + + if ( dstTexture.isData3DTexture ) { + + textures.setTexture3D( dstTexture, 0 ); + glTarget = _gl.TEXTURE_3D; + + } else if ( dstTexture.isDataArrayTexture || dstTexture.isCompressedArrayTexture ) { + + textures.setTexture2DArray( dstTexture, 0 ); + glTarget = _gl.TEXTURE_2D_ARRAY; + + } else { + + textures.setTexture2D( dstTexture, 0 ); + glTarget = _gl.TEXTURE_2D; + + } + + _gl.pixelStorei( _gl.UNPACK_FLIP_Y_WEBGL, dstTexture.flipY ); + _gl.pixelStorei( _gl.UNPACK_PREMULTIPLY_ALPHA_WEBGL, dstTexture.premultiplyAlpha ); + _gl.pixelStorei( _gl.UNPACK_ALIGNMENT, dstTexture.unpackAlignment ); + + // used for copying data from cpu + const currentUnpackRowLen = _gl.getParameter( _gl.UNPACK_ROW_LENGTH ); + const currentUnpackImageHeight = _gl.getParameter( _gl.UNPACK_IMAGE_HEIGHT ); + const currentUnpackSkipPixels = _gl.getParameter( _gl.UNPACK_SKIP_PIXELS ); + const currentUnpackSkipRows = _gl.getParameter( _gl.UNPACK_SKIP_ROWS ); + const currentUnpackSkipImages = _gl.getParameter( _gl.UNPACK_SKIP_IMAGES ); + + _gl.pixelStorei( _gl.UNPACK_ROW_LENGTH, image.width ); + _gl.pixelStorei( _gl.UNPACK_IMAGE_HEIGHT, image.height ); + _gl.pixelStorei( _gl.UNPACK_SKIP_PIXELS, minX ); + _gl.pixelStorei( _gl.UNPACK_SKIP_ROWS, minY ); + _gl.pixelStorei( _gl.UNPACK_SKIP_IMAGES, minZ ); + + // set up the src texture + const isSrc3D = srcTexture.isDataArrayTexture || srcTexture.isData3DTexture; + const isDst3D = dstTexture.isDataArrayTexture || dstTexture.isData3DTexture; + if ( srcTexture.isDepthTexture ) { + + const srcTextureProperties = properties.get( srcTexture ); + const dstTextureProperties = properties.get( dstTexture ); + const srcRenderTargetProperties = properties.get( srcTextureProperties.__renderTarget ); + const dstRenderTargetProperties = properties.get( dstTextureProperties.__renderTarget ); + state.bindFramebuffer( _gl.READ_FRAMEBUFFER, srcRenderTargetProperties.__webglFramebuffer ); + state.bindFramebuffer( _gl.DRAW_FRAMEBUFFER, dstRenderTargetProperties.__webglFramebuffer ); + + for ( let i = 0; i < depth; i ++ ) { + + // if the source or destination are a 3d target then a layer needs to be bound + if ( isSrc3D ) { + + _gl.framebufferTextureLayer( _gl.READ_FRAMEBUFFER, _gl.COLOR_ATTACHMENT0, properties.get( srcTexture ).__webglTexture, srcLevel, minZ + i ); + _gl.framebufferTextureLayer( _gl.DRAW_FRAMEBUFFER, _gl.COLOR_ATTACHMENT0, properties.get( dstTexture ).__webglTexture, dstLevel, dstZ + i ); + + } + + _gl.blitFramebuffer( minX, minY, width, height, dstX, dstY, width, height, _gl.DEPTH_BUFFER_BIT, _gl.NEAREST ); + + } + + state.bindFramebuffer( _gl.READ_FRAMEBUFFER, null ); + state.bindFramebuffer( _gl.DRAW_FRAMEBUFFER, null ); + + } else if ( srcLevel !== 0 || srcTexture.isRenderTargetTexture || properties.has( srcTexture ) ) { + + // get the appropriate frame buffers + const srcTextureProperties = properties.get( srcTexture ); + const dstTextureProperties = properties.get( dstTexture ); + + // bind the frame buffer targets + state.bindFramebuffer( _gl.READ_FRAMEBUFFER, _srcFramebuffer ); + state.bindFramebuffer( _gl.DRAW_FRAMEBUFFER, _dstFramebuffer ); + + for ( let i = 0; i < depth; i ++ ) { + + // assign the correct layers and mip maps to the frame buffers + if ( isSrc3D ) { + + _gl.framebufferTextureLayer( _gl.READ_FRAMEBUFFER, _gl.COLOR_ATTACHMENT0, srcTextureProperties.__webglTexture, srcLevel, minZ + i ); + + } else { + + _gl.framebufferTexture2D( _gl.READ_FRAMEBUFFER, _gl.COLOR_ATTACHMENT0, _gl.TEXTURE_2D, srcTextureProperties.__webglTexture, srcLevel ); + + } + + if ( isDst3D ) { + + _gl.framebufferTextureLayer( _gl.DRAW_FRAMEBUFFER, _gl.COLOR_ATTACHMENT0, dstTextureProperties.__webglTexture, dstLevel, dstZ + i ); + + } else { + + _gl.framebufferTexture2D( _gl.DRAW_FRAMEBUFFER, _gl.COLOR_ATTACHMENT0, _gl.TEXTURE_2D, dstTextureProperties.__webglTexture, dstLevel ); + + } + + // copy the data using the fastest function that can achieve the copy + if ( srcLevel !== 0 ) { + + _gl.blitFramebuffer( minX, minY, width, height, dstX, dstY, width, height, _gl.COLOR_BUFFER_BIT, _gl.NEAREST ); + + } else if ( isDst3D ) { + + _gl.copyTexSubImage3D( glTarget, dstLevel, dstX, dstY, dstZ + i, minX, minY, width, height ); + + } else { + + _gl.copyTexSubImage2D( glTarget, dstLevel, dstX, dstY, minX, minY, width, height ); + + } + + } + + // unbind read, draw buffers + state.bindFramebuffer( _gl.READ_FRAMEBUFFER, null ); + state.bindFramebuffer( _gl.DRAW_FRAMEBUFFER, null ); + + } else { + + if ( isDst3D ) { + + // copy data into the 3d texture + if ( srcTexture.isDataTexture || srcTexture.isData3DTexture ) { + + _gl.texSubImage3D( glTarget, dstLevel, dstX, dstY, dstZ, width, height, depth, glFormat, glType, image.data ); + + } else if ( dstTexture.isCompressedArrayTexture ) { + + _gl.compressedTexSubImage3D( glTarget, dstLevel, dstX, dstY, dstZ, width, height, depth, glFormat, image.data ); + + } else { + + _gl.texSubImage3D( glTarget, dstLevel, dstX, dstY, dstZ, width, height, depth, glFormat, glType, image ); + + } + + } else { + + // copy data into the 2d texture + if ( srcTexture.isDataTexture ) { + + _gl.texSubImage2D( _gl.TEXTURE_2D, dstLevel, dstX, dstY, width, height, glFormat, glType, image.data ); + + } else if ( srcTexture.isCompressedTexture ) { + + _gl.compressedTexSubImage2D( _gl.TEXTURE_2D, dstLevel, dstX, dstY, image.width, image.height, glFormat, image.data ); + + } else { + + _gl.texSubImage2D( _gl.TEXTURE_2D, dstLevel, dstX, dstY, width, height, glFormat, glType, image ); + + } + + } + + } + + // reset values + _gl.pixelStorei( _gl.UNPACK_ROW_LENGTH, currentUnpackRowLen ); + _gl.pixelStorei( _gl.UNPACK_IMAGE_HEIGHT, currentUnpackImageHeight ); + _gl.pixelStorei( _gl.UNPACK_SKIP_PIXELS, currentUnpackSkipPixels ); + _gl.pixelStorei( _gl.UNPACK_SKIP_ROWS, currentUnpackSkipRows ); + _gl.pixelStorei( _gl.UNPACK_SKIP_IMAGES, currentUnpackSkipImages ); + + // Generate mipmaps only when copying level 0 + if ( dstLevel === 0 && dstTexture.generateMipmaps ) { + + _gl.generateMipmap( glTarget ); + + } + + state.unbindTexture(); + + }; + + this.copyTextureToTexture3D = function ( srcTexture, dstTexture, srcRegion = null, dstPosition = null, level = 0 ) { + + // support previous signature with source box first + if ( srcTexture.isTexture !== true ) { + + // @deprecated, r165 + warnOnce( 'WebGLRenderer: copyTextureToTexture3D function signature has changed.' ); + + srcRegion = arguments[ 0 ] || null; + dstPosition = arguments[ 1 ] || null; + srcTexture = arguments[ 2 ]; + dstTexture = arguments[ 3 ]; + level = arguments[ 4 ] || 0; + + } + + // @deprecated, r170 + warnOnce( 'WebGLRenderer: copyTextureToTexture3D function has been deprecated. Use "copyTextureToTexture" instead.' ); + + return this.copyTextureToTexture( srcTexture, dstTexture, srcRegion, dstPosition, level ); + + }; + + this.initRenderTarget = function ( target ) { + + if ( properties.get( target ).__webglFramebuffer === undefined ) { + + textures.setupRenderTarget( target ); + + } + + }; + + this.initTexture = function ( texture ) { + + if ( texture.isCubeTexture ) { + + textures.setTextureCube( texture, 0 ); + + } else if ( texture.isData3DTexture ) { + + textures.setTexture3D( texture, 0 ); + + } else if ( texture.isDataArrayTexture || texture.isCompressedArrayTexture ) { + + textures.setTexture2DArray( texture, 0 ); + + } else { + + textures.setTexture2D( texture, 0 ); + + } + + state.unbindTexture(); + + }; + + this.resetState = function () { + + _currentActiveCubeFace = 0; + _currentActiveMipmapLevel = 0; + _currentRenderTarget = null; + + state.reset(); + bindingStates.reset(); + + }; + + if ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) { + + __THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'observe', { detail: this } ) ); + + } + + } + + get coordinateSystem() { + + return WebGLCoordinateSystem; + + } + + get outputColorSpace() { + + return this._outputColorSpace; + + } + + set outputColorSpace( colorSpace ) { + + this._outputColorSpace = colorSpace; + + const gl = this.getContext(); + gl.drawingBufferColorspace = ColorManagement._getDrawingBufferColorSpace( colorSpace ); + gl.unpackColorSpace = ColorManagement._getUnpackColorSpace(); + + } + +} + +/** + * @license + * Copyright 2017 Google LLC + * SPDX-License-Identifier: BSD-3-Clause + */ +// Allows minifiers to rename references to globalThis +const global = globalThis; +/** + * Useful for visualizing and logging insights into what the Lit template system is doing. + * + * Compiled out of prod mode builds. + */ +const debugLogEvent = (event) => { + const shouldEmit = global + .emitLitDebugLogEvents; + if (!shouldEmit) { + return; + } + global.dispatchEvent(new CustomEvent('lit-debug', { + detail: event, + })); + } + ; +// Used for connecting beginRender and endRender events when there are nested +// renders when errors are thrown preventing an endRender event from being +// called. +let debugLogRenderId = 0; +let issueWarning$1; +{ + global.litIssuedWarnings ??= new Set(); + // Issue a warning, if we haven't already. + issueWarning$1 = (code, warning) => { + warning += code + ? ` See https://lit.dev/msg/${code} for more information.` + : ''; + if (!global.litIssuedWarnings.has(warning)) { + console.warn(warning); + global.litIssuedWarnings.add(warning); + } + }; + issueWarning$1('dev-mode', `Lit is in dev mode. Not recommended for production!`); +} +const wrap = global.ShadyDOM?.inUse && + global.ShadyDOM?.noPatch === true + ? global.ShadyDOM.wrap + : (node) => node; +const trustedTypes = global.trustedTypes; +/** + * Our TrustedTypePolicy for HTML which is declared using the html template + * tag function. + * + * That HTML is a developer-authored constant, and is parsed with innerHTML + * before any untrusted expressions have been mixed in. Therefor it is + * considered safe by construction. + */ +const policy = trustedTypes + ? trustedTypes.createPolicy('lit-html', { + createHTML: (s) => s, + }) + : undefined; +const identityFunction = (value) => value; +const noopSanitizer = (_node, _name, _type) => identityFunction; +/** Sets the global sanitizer factory. */ +const setSanitizer = (newSanitizer) => { + if (sanitizerFactoryInternal !== noopSanitizer) { + throw new Error(`Attempted to overwrite existing lit-html security policy.` + + ` setSanitizeDOMValueFactory should be called at most once.`); + } + sanitizerFactoryInternal = newSanitizer; +}; +/** + * Only used in internal tests, not a part of the public API. + */ +const _testOnlyClearSanitizerFactoryDoNotCallOrElse = () => { + sanitizerFactoryInternal = noopSanitizer; +}; +const createSanitizer = (node, name, type) => { + return sanitizerFactoryInternal(node, name, type); +}; +// Added to an attribute name to mark the attribute as bound so we can find +// it easily. +const boundAttributeSuffix = '$lit$'; +// This marker is used in many syntactic positions in HTML, so it must be +// a valid element name and attribute name. We don't support dynamic names (yet) +// but this at least ensures that the parse tree is closer to the template +// intention. +const marker = `lit$${Math.random().toFixed(9).slice(2)}$`; +// String used to tell if a comment is a marker comment +const markerMatch = '?' + marker; +// Text used to insert a comment marker node. We use processing instruction +// syntax because it's slightly smaller, but parses as a comment node. +const nodeMarker = `<${markerMatch}>`; +const d = document; +// Creates a dynamic marker. We never have to search for these in the DOM. +const createMarker = () => d.createComment(''); +const isPrimitive = (value) => value === null || (typeof value != 'object' && typeof value != 'function'); +const isArray = Array.isArray; +const isIterable = (value) => isArray(value) || + // eslint-disable-next-line @typescript-eslint/no-explicit-any + typeof value?.[Symbol.iterator] === 'function'; +const SPACE_CHAR = `[ \t\n\f\r]`; +const ATTR_VALUE_CHAR = `[^ \t\n\f\r"'\`<>=]`; +const NAME_CHAR = `[^\\s"'>=/]`; +// These regexes represent the five parsing states that we care about in the +// Template's HTML scanner. They match the *end* of the state they're named +// after. +// Depending on the match, we transition to a new state. If there's no match, +// we stay in the same state. +// Note that the regexes are stateful. We utilize lastIndex and sync it +// across the multiple regexes used. In addition to the five regexes below +// we also dynamically create a regex to find the matching end tags for raw +// text elements. +/** + * End of text is: `<` followed by: + * (comment start) or (tag) or (dynamic tag binding) + */ +const textEndRegex = /<(?:(!--|\/[^a-zA-Z])|(\/?[a-zA-Z][^>\s]*)|(\/?$))/g; +const COMMENT_START = 1; +const TAG_NAME = 2; +const DYNAMIC_TAG_NAME = 3; +const commentEndRegex = /-->/g; +/** + * Comments not started with + + + + + + + + + + + + + + +`; + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var ControlsPrompt = html ` + + + + + + + + + + + + + + + + + + +`; + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var ARGlyph = html ` + + + + + + + + + + + +`; + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const templateResult = html ` + +
+ + + +
+ + + +
+ +
+ + + ${ARGlyph} + + +
+ +
+ +
+
+ +
+ +
+
+ +
+
+ +
+ +
+
+ +
+ +
+ + +
+ + + +
+ +
+ + + +
+
+
+
+ +
`; +const makeTemplate = (shadowRoot) => { + render(templateResult, shadowRoot); +}; + +// This file is part of meshoptimizer library and is distributed under the terms of MIT License. +// Copyright (C) 2016-2022, by Arseny Kapoulkine (arseny.kapoulkine@gmail.com) +var MeshoptDecoder = (function() { + + // Built with clang version 14.0.4 + // Built from meshoptimizer 0.18 + var wasm_base = "b9H79Tebbbe8Fv9Gbb9Gvuuuuueu9Giuuub9Geueu9Giuuueuikqbeeedddillviebeoweuec:q;iekr;leDo9TW9T9VV95dbH9F9F939H79T9F9J9H229F9Jt9VV7bb8A9TW79O9V9Wt9F9KW9J9V9KW9wWVtW949c919M9MWVbeY9TW79O9V9Wt9F9KW9J9V9KW69U9KW949c919M9MWVbdE9TW79O9V9Wt9F9KW9J9V9KW69U9KW949tWG91W9U9JWbiL9TW79O9V9Wt9F9KW9J9V9KWS9P2tWV9p9JtblK9TW79O9V9Wt9F9KW9J9V9KWS9P2tWV9r919HtbvL9TW79O9V9Wt9F9KW9J9V9KWS9P2tWVT949Wbol79IV9Rbrq:P8Yqdbk;3sezu8Jjjjjbcj;eb9Rgv8Kjjjjbc9:hodnadcefal0mbcuhoaiRbbc:Ge9hmbavaialfgrad9Radz1jjjbhwcj;abad9UhoaicefhldnadTmbaoc;WFbGgocjdaocjd6EhDcbhqinaqae9pmeaDaeaq9RaqaDfae6Egkcsfgocl4cifcd4hxdndndndnaoc9WGgmTmbcbhPcehsawcjdfhzalhHinaraH9Rax6midnaraHaxfgl9RcK6mbczhoinawcj;cbfaogifgoc9WfhOdndndndndnaHaic9WfgAco4fRbbaAci4coG4ciGPlbedibkaO9cb83ibaOcwf9cb83ibxikaOalRblalRbbgAco4gCaCciSgCE86bbaocGfalclfaCfgORbbaAcl4ciGgCaCciSgCE86bbaocVfaOaCfgORbbaAcd4ciGgCaCciSgCE86bbaoc7faOaCfgORbbaAciGgAaAciSgAE86bbaoctfaOaAfgARbbalRbegOco4gCaCciSgCE86bbaoc91faAaCfgARbbaOcl4ciGgCaCciSgCE86bbaoc4faAaCfgARbbaOcd4ciGgCaCciSgCE86bbaoc93faAaCfgARbbaOciGgOaOciSgOE86bbaoc94faAaOfgARbbalRbdgOco4gCaCciSgCE86bbaoc95faAaCfgARbbaOcl4ciGgCaCciSgCE86bbaoc96faAaCfgARbbaOcd4ciGgCaCciSgCE86bbaoc97faAaCfgARbbaOciGgOaOciSgOE86bbaoc98faAaOfgORbbalRbiglco4gAaAciSgAE86bbaoc99faOaAfgORbbalcl4ciGgAaAciSgAE86bbaoc9: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:faOaAfgORbbalRbrglcl4gAaAcsSgAE86bbaocufaOaAfgoRbbalcsGglalcsSglE86bbaoalfhlxekaOal8Pbb83bbaOcwfalcwf8Pbb83bbalczfhlkdnaiam9pmbaiczfhoaral9RcL0mekkaiam6mialTmidnakTmbawaPfRbbhOcbhoazhiinaiawcj;cbfaofRbbgAce4cbaAceG9R7aOfgO86bbaiadfhiaocefgoak9hmbkkazcefhzaPcefgPad6hsalhHaPad9hmexvkkcbhlasceGmdxikalaxad2fhCdnakTmbcbhHcehsawcjdfhminaral9Rax6mialTmdalaxfhlawaHfRbbhOcbhoamhiinaiawcj;cbfaofRbbgAce4cbaAceG9R7aOfgO86bbaiadfhiaocefgoak9hmbkamcefhmaHcefgHad6hsaHad9hmbkaChlxikcbhocehsinaral9Rax6mdalTmealaxfhlaocefgoad6hsadao9hmbkaChlxdkcbhlasceGTmekc9:hoxikabaqad2fawcjdfakad2z1jjjb8Aawawcjdfakcufad2fadz1jjjb8Aakaqfhqalmbkc9:hoxekcbc99aral9Radcaadca0ESEhokavcj;ebf8Kjjjjbaok;yzeHu8Jjjjjbc;ae9Rgv8Kjjjjbc9:hodnaeci9UgrcHfal0mbcuhoaiRbbgwc;WeGc;Ge9hmbawcsGgDce0mbavc;abfcFecjez:jjjjb8AavcUf9cu83ibavc8Wf9cu83ibavcyf9cu83ibavcaf9cu83ibavcKf9cu83ibavczf9cu83ibav9cu83iwav9cu83ibaialfc9WfhqaicefgwarfhodnaeTmbcmcsaDceSEhkcbhxcbhmcbhDcbhicbhlindnaoaq9nmbc9:hoxikdndnawRbbgrc;Ve0mbavc;abfalarcl4cu7fcsGcitfgPydlhsaPydbhzdnarcsGgPak9pmbavaiarcu7fcsGcdtfydbaxaPEhraPThPdndnadcd9hmbabaDcetfgHaz87ebaHcdfas87ebaHclfar87ebxekabaDcdtfgHazBdbaHclfasBdbaHcwfarBdbkaxaPfhxavc;abfalcitfgHarBdbaHasBdlavaicdtfarBdbavc;abfalcefcsGglcitfgHazBdbaHarBdlaiaPfhialcefhlxdkdndnaPcsSmbamaPfaPc987fcefhmxekaocefhrao8SbbgPcFeGhHdndnaPcu9mmbarhoxekaocvfhoaHcFbGhHcrhPdninar8SbbgOcFbGaPtaHVhHaOcu9kmearcefhraPcrfgPc8J9hmbxdkkarcefhokaHce4cbaHceG9R7amfhmkdndnadcd9hmbabaDcetfgraz87ebarcdfas87ebarclfam87ebxekabaDcdtfgrazBdbarclfasBdbarcwfamBdbkavc;abfalcitfgramBdbarasBdlavaicdtfamBdbavc;abfalcefcsGglcitfgrazBdbaramBdlaicefhialcefhlxekdnarcpe0mbaxcefgOavaiaqarcsGfRbbgPcl49RcsGcdtfydbaPcz6gHEhravaiaP9RcsGcdtfydbaOaHfgsaPcsGgOEhPaOThOdndnadcd9hmbabaDcetfgzax87ebazcdfar87ebazclfaP87ebxekabaDcdtfgzaxBdbazclfarBdbazcwfaPBdbkavaicdtfaxBdbavc;abfalcitfgzarBdbazaxBdlavaicefgicsGcdtfarBdbavc;abfalcefcsGcitfgzaPBdbazarBdlavaiaHfcsGgicdtfaPBdbavc;abfalcdfcsGglcitfgraxBdbaraPBdlalcefhlaiaOfhiasaOfhxxekaxcbaoRbbgzEgAarc;: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;abfalcitfgrasBdbaraABdlavaicdtfaABdbavc;abfalcefcsGcitfgraOBdbarasBdlavaicefgicsGcdtfasBdbavc;abfalcdfcsGcitfgraABdbaraOBdlavaiazcz6aXcsSVfgicsGcdtfaOBdbaiaCTaCcsSVfhialcifhlkawcefhwalcsGhlaicsGhiaDcifgDae6mbkkcbc99aoaqSEhokavc;aef8Kjjjjbaok:llevu8Jjjjjbcz9Rhvc9:hodnaecvfal0mbcuhoaiRbbc;:eGc;qe9hmbav9cb83iwaicefhraialfc98fhwdnaeTmbdnadcdSmbcbhDindnaraw6mbc9:skarcefhoar8SbbglcFeGhidndnalcu9mmbaohrxekarcvfhraicFbGhicrhldninao8SbbgdcFbGaltaiVhiadcu9kmeaocefhoalcr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+ var wasm_simd = 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+ + var detector = new Uint8Array([0,97,115,109,1,0,0,0,1,4,1,96,0,0,3,3,2,0,0,5,3,1,0,1,12,1,0,10,22,2,12,0,65,0,65,0,65,0,252,10,0,0,11,7,0,65,0,253,15,26,11]); + var wasmpack = new Uint8Array([32,0,65,2,1,106,34,33,3,128,11,4,13,64,6,253,10,7,15,116,127,5,8,12,40,16,19,54,20,9,27,255,113,17,42,67,24,23,146,148,18,14,22,45,70,69,56,114,101,21,25,63,75,136,108,28,118,29,73,115]); + + if (typeof WebAssembly !== 'object') { + return { + supported: false, + }; + } + + var wasm = WebAssembly.validate(detector) ? wasm_simd : wasm_base; + + var instance; + + var ready = + WebAssembly.instantiate(unpack(wasm), {}) + .then(function(result) { + instance = result.instance; + instance.exports.__wasm_call_ctors(); + }); + + function unpack(data) { + var result = new Uint8Array(data.length); + for (var i = 0; i < data.length; ++i) { + var ch = data.charCodeAt(i); + result[i] = ch > 96 ? ch - 97 : ch > 64 ? ch - 39 : ch + 4; + } + var write = 0; + for (var i = 0; i < data.length; ++i) { + result[write++] = (result[i] < 60) ? wasmpack[result[i]] : (result[i] - 60) * 64 + result[++i]; + } + return result.buffer.slice(0, write); + } + + function decode(fun, target, count, size, source, filter) { + var sbrk = instance.exports.sbrk; + var count4 = (count + 3) & -4; + var tp = sbrk(count4 * size); + var sp = sbrk(source.length); + var heap = new Uint8Array(instance.exports.memory.buffer); + heap.set(source, sp); + var res = fun(tp, count, size, sp, source.length); + if (res == 0 && filter) { + filter(tp, count4, size); + } + target.set(heap.subarray(tp, tp + count * size)); + sbrk(tp - sbrk(0)); + if (res != 0) { + throw new Error("Malformed buffer data: " + res); + } + } + + var filters = { + NONE: "", + OCTAHEDRAL: "meshopt_decodeFilterOct", + QUATERNION: "meshopt_decodeFilterQuat", + EXPONENTIAL: "meshopt_decodeFilterExp", + }; + + var decoders = { + ATTRIBUTES: "meshopt_decodeVertexBuffer", + TRIANGLES: "meshopt_decodeIndexBuffer", + INDICES: "meshopt_decodeIndexSequence", + }; + + var workers = []; + var requestId = 0; + + function createWorker(url) { + var worker = { + object: new Worker(url), + pending: 0, + requests: {} + }; + + worker.object.onmessage = function(event) { + var data = event.data; + + worker.pending -= data.count; + worker.requests[data.id][data.action](data.value); + + delete worker.requests[data.id]; + }; + + return worker; + } + + function initWorkers(count) { + var source = + "var instance; var ready = WebAssembly.instantiate(new Uint8Array([" + new Uint8Array(unpack(wasm)) + "]), {})" + + ".then(function(result) { instance = result.instance; instance.exports.__wasm_call_ctors(); });" + + "self.onmessage = workerProcess;" + + decode.toString() + workerProcess.toString(); + + var blob = new Blob([source], {type: 'text/javascript'}); + var url = URL.createObjectURL(blob); + + for (var i = 0; i < count; ++i) { + workers[i] = createWorker(url); + } + + URL.revokeObjectURL(url); + } + + function decodeWorker(count, size, source, mode, filter) { + var worker = workers[0]; + + for (var i = 1; i < workers.length; ++i) { + if (workers[i].pending < worker.pending) { + worker = workers[i]; + } + } + + return new Promise(function (resolve, reject) { + var data = new Uint8Array(source); + var id = requestId++; + + worker.pending += count; + worker.requests[id] = { resolve: resolve, reject: reject }; + worker.object.postMessage({ id: id, count: count, size: size, source: data, mode: mode, filter: filter }, [ data.buffer ]); + }); + } + + function workerProcess(event) { + ready.then(function() { + var data = event.data; + try { + var target = new Uint8Array(data.count * data.size); + decode(instance.exports[data.mode], target, data.count, data.size, data.source, instance.exports[data.filter]); + self.postMessage({ id: data.id, count: data.count, action: "resolve", value: target }, [ target.buffer ]); + } catch (error) { + self.postMessage({ id: data.id, count: data.count, action: "reject", value: error }); + } + }); + } + + return { + ready: ready, + supported: true, + useWorkers: function(count) { + initWorkers(count); + }, + decodeVertexBuffer: function(target, count, size, source, filter) { + decode(instance.exports.meshopt_decodeVertexBuffer, target, count, size, source, instance.exports[filters[filter]]); + }, + decodeIndexBuffer: function(target, count, size, source) { + decode(instance.exports.meshopt_decodeIndexBuffer, target, count, size, source); + }, + decodeIndexSequence: function(target, count, size, source) { + decode(instance.exports.meshopt_decodeIndexSequence, target, count, size, source); + }, + decodeGltfBuffer: function(target, count, size, source, mode, filter) { + decode(instance.exports[decoders[mode]], target, count, size, source, instance.exports[filters[filter]]); + }, + decodeGltfBufferAsync: function(count, size, source, mode, filter) { + if (workers.length > 0) { + return decodeWorker(count, size, source, decoders[mode], filters[filter]); + } + + return ready.then(function() { + var target = new Uint8Array(count * size); + decode(instance.exports[decoders[mode]], target, count, size, source, instance.exports[filters[filter]]); + return target; + }); + } + }; +})(); + +const _taskCache$1 = new WeakMap(); + +class DRACOLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + this.decoderPath = ''; + this.decoderConfig = {}; + this.decoderBinary = null; + this.decoderPending = null; + + this.workerLimit = 4; + this.workerPool = []; + this.workerNextTaskID = 1; + this.workerSourceURL = ''; + + this.defaultAttributeIDs = { + position: 'POSITION', + normal: 'NORMAL', + color: 'COLOR', + uv: 'TEX_COORD' + }; + this.defaultAttributeTypes = { + position: 'Float32Array', + normal: 'Float32Array', + color: 'Float32Array', + uv: 'Float32Array' + }; + + } + + setDecoderPath( path ) { + + this.decoderPath = path; + + return this; + + } + + setDecoderConfig( config ) { + + this.decoderConfig = config; + + return this; + + } + + setWorkerLimit( workerLimit ) { + + this.workerLimit = workerLimit; + + return this; + + } + + load( url, onLoad, onProgress, onError ) { + + const loader = new FileLoader( this.manager ); + + loader.setPath( this.path ); + loader.setResponseType( 'arraybuffer' ); + loader.setRequestHeader( this.requestHeader ); + loader.setWithCredentials( this.withCredentials ); + + loader.load( url, ( buffer ) => { + + this.parse( buffer, onLoad, onError ); + + }, onProgress, onError ); + + } + + + parse( buffer, onLoad, onError = ()=>{} ) { + + this.decodeDracoFile( buffer, onLoad, null, null, SRGBColorSpace, onError ).catch( onError ); + + } + + decodeDracoFile( buffer, callback, attributeIDs, attributeTypes, vertexColorSpace = LinearSRGBColorSpace, onError = () => {} ) { + + const taskConfig = { + attributeIDs: attributeIDs || this.defaultAttributeIDs, + attributeTypes: attributeTypes || this.defaultAttributeTypes, + useUniqueIDs: !! attributeIDs, + vertexColorSpace: vertexColorSpace, + }; + + return this.decodeGeometry( buffer, taskConfig ).then( callback ).catch( onError ); + + } + + decodeGeometry( buffer, taskConfig ) { + + const taskKey = JSON.stringify( taskConfig ); + + // Check for an existing task using this buffer. A transferred buffer cannot be transferred + // again from this thread. + if ( _taskCache$1.has( buffer ) ) { + + const cachedTask = _taskCache$1.get( buffer ); + + if ( cachedTask.key === taskKey ) { + + return cachedTask.promise; + + } else if ( buffer.byteLength === 0 ) { + + // Technically, it would be possible to wait for the previous task to complete, + // transfer the buffer back, and decode again with the second configuration. That + // is complex, and I don't know of any reason to decode a Draco buffer twice in + // different ways, so this is left unimplemented. + throw new Error( + + 'THREE.DRACOLoader: Unable to re-decode a buffer with different ' + + 'settings. Buffer has already been transferred.' + + ); + + } + + } + + // + + let worker; + const taskID = this.workerNextTaskID ++; + const taskCost = buffer.byteLength; + + // Obtain a worker and assign a task, and construct a geometry instance + // when the task completes. + const geometryPending = this._getWorker( taskID, taskCost ) + .then( ( _worker ) => { + + worker = _worker; + + return new Promise( ( resolve, reject ) => { + + worker._callbacks[ taskID ] = { resolve, reject }; + + worker.postMessage( { type: 'decode', id: taskID, taskConfig, buffer }, [ buffer ] ); + + // this.debug(); + + } ); + + } ) + .then( ( message ) => this._createGeometry( message.geometry ) ); + + // Remove task from the task list. + // Note: replaced '.finally()' with '.catch().then()' block - iOS 11 support (#19416) + geometryPending + .catch( () => true ) + .then( () => { + + if ( worker && taskID ) { + + this._releaseTask( worker, taskID ); + + // this.debug(); + + } + + } ); + + // Cache the task result. + _taskCache$1.set( buffer, { + + key: taskKey, + promise: geometryPending + + } ); + + return geometryPending; + + } + + _createGeometry( geometryData ) { + + const geometry = new BufferGeometry(); + + if ( geometryData.index ) { + + geometry.setIndex( new BufferAttribute( geometryData.index.array, 1 ) ); + + } + + for ( let i = 0; i < geometryData.attributes.length; i ++ ) { + + const result = geometryData.attributes[ i ]; + const name = result.name; + const array = result.array; + const itemSize = result.itemSize; + + const attribute = new BufferAttribute( array, itemSize ); + + if ( name === 'color' ) { + + this._assignVertexColorSpace( attribute, result.vertexColorSpace ); + + attribute.normalized = ( array instanceof Float32Array ) === false; + + } + + geometry.setAttribute( name, attribute ); + + } + + return geometry; + + } + + _assignVertexColorSpace( attribute, inputColorSpace ) { + + // While .drc files do not specify colorspace, the only 'official' tooling + // is PLY and OBJ converters, which use sRGB. We'll assume sRGB when a .drc + // file is passed into .load() or .parse(). GLTFLoader uses internal APIs + // to decode geometry, and vertex colors are already Linear-sRGB in there. + + if ( inputColorSpace !== SRGBColorSpace ) return; + + const _color = new Color(); + + for ( let i = 0, il = attribute.count; i < il; i ++ ) { + + _color.fromBufferAttribute( attribute, i ); + ColorManagement.toWorkingColorSpace( _color, SRGBColorSpace ); + attribute.setXYZ( i, _color.r, _color.g, _color.b ); + + } + + } + + _loadLibrary( url, responseType ) { + + const loader = new FileLoader( this.manager ); + loader.setPath( this.decoderPath ); + loader.setResponseType( responseType ); + loader.setWithCredentials( this.withCredentials ); + + return new Promise( ( resolve, reject ) => { + + loader.load( url, resolve, undefined, reject ); + + } ); + + } + + preload() { + + this._initDecoder(); + + return this; + + } + + _initDecoder() { + + if ( this.decoderPending ) return this.decoderPending; + + const useJS = typeof WebAssembly !== 'object' || this.decoderConfig.type === 'js'; + const librariesPending = []; + + if ( useJS ) { + + librariesPending.push( this._loadLibrary( 'draco_decoder.js', 'text' ) ); + + } else { + + librariesPending.push( this._loadLibrary( 'draco_wasm_wrapper.js', 'text' ) ); + librariesPending.push( this._loadLibrary( 'draco_decoder.wasm', 'arraybuffer' ) ); + + } + + this.decoderPending = Promise.all( librariesPending ) + .then( ( libraries ) => { + + const jsContent = libraries[ 0 ]; + + if ( ! useJS ) { + + this.decoderConfig.wasmBinary = libraries[ 1 ]; + + } + + const fn = DRACOWorker.toString(); + + const body = [ + '/* draco decoder */', + jsContent, + '', + '/* worker */', + fn.substring( fn.indexOf( '{' ) + 1, fn.lastIndexOf( '}' ) ) + ].join( '\n' ); + + this.workerSourceURL = URL.createObjectURL( new Blob( [ body ] ) ); + + } ); + + return this.decoderPending; + + } + + _getWorker( taskID, taskCost ) { + + return this._initDecoder().then( () => { + + if ( this.workerPool.length < this.workerLimit ) { + + const worker = new Worker( this.workerSourceURL ); + + worker._callbacks = {}; + worker._taskCosts = {}; + worker._taskLoad = 0; + + worker.postMessage( { type: 'init', decoderConfig: this.decoderConfig } ); + + worker.onmessage = function ( e ) { + + const message = e.data; + + switch ( message.type ) { + + case 'decode': + worker._callbacks[ message.id ].resolve( message ); + break; + + case 'error': + worker._callbacks[ message.id ].reject( message ); + break; + + default: + console.error( 'THREE.DRACOLoader: Unexpected message, "' + message.type + '"' ); + + } + + }; + + this.workerPool.push( worker ); + + } else { + + this.workerPool.sort( function ( a, b ) { + + return a._taskLoad > b._taskLoad ? -1 : 1; + + } ); + + } + + const worker = this.workerPool[ this.workerPool.length - 1 ]; + worker._taskCosts[ taskID ] = taskCost; + worker._taskLoad += taskCost; + return worker; + + } ); + + } + + _releaseTask( worker, taskID ) { + + worker._taskLoad -= worker._taskCosts[ taskID ]; + delete worker._callbacks[ taskID ]; + delete worker._taskCosts[ taskID ]; + + } + + debug() { + + console.log( 'Task load: ', this.workerPool.map( ( worker ) => worker._taskLoad ) ); + + } + + dispose() { + + for ( let i = 0; i < this.workerPool.length; ++ i ) { + + this.workerPool[ i ].terminate(); + + } + + this.workerPool.length = 0; + + if ( this.workerSourceURL !== '' ) { + + URL.revokeObjectURL( this.workerSourceURL ); + + } + + return this; + + } + +} + +/* WEB WORKER */ + +function DRACOWorker() { + + let decoderConfig; + let decoderPending; + + onmessage = function ( e ) { + + const message = e.data; + + switch ( message.type ) { + + case 'init': + decoderConfig = message.decoderConfig; + decoderPending = new Promise( function ( resolve/*, reject*/ ) { + + decoderConfig.onModuleLoaded = function ( draco ) { + + // Module is Promise-like. Wrap before resolving to avoid loop. + resolve( { draco: draco } ); + + }; + + DracoDecoderModule( decoderConfig ); // eslint-disable-line no-undef + + } ); + break; + + case 'decode': + const buffer = message.buffer; + const taskConfig = message.taskConfig; + decoderPending.then( ( module ) => { + + const draco = module.draco; + const decoder = new draco.Decoder(); + + try { + + const geometry = decodeGeometry( draco, decoder, new Int8Array( buffer ), taskConfig ); + + const buffers = geometry.attributes.map( ( attr ) => attr.array.buffer ); + + if ( geometry.index ) buffers.push( geometry.index.array.buffer ); + + self.postMessage( { type: 'decode', id: message.id, geometry }, buffers ); + + } catch ( error ) { + + console.error( error ); + + self.postMessage( { type: 'error', id: message.id, error: error.message } ); + + } finally { + + draco.destroy( decoder ); + + } + + } ); + break; + + } + + }; + + function decodeGeometry( draco, decoder, array, taskConfig ) { + + const attributeIDs = taskConfig.attributeIDs; + const attributeTypes = taskConfig.attributeTypes; + + let dracoGeometry; + let decodingStatus; + + const geometryType = decoder.GetEncodedGeometryType( array ); + + if ( geometryType === draco.TRIANGULAR_MESH ) { + + dracoGeometry = new draco.Mesh(); + decodingStatus = decoder.DecodeArrayToMesh( array, array.byteLength, dracoGeometry ); + + } else if ( geometryType === draco.POINT_CLOUD ) { + + dracoGeometry = new draco.PointCloud(); + decodingStatus = decoder.DecodeArrayToPointCloud( array, array.byteLength, dracoGeometry ); + + } else { + + throw new Error( 'THREE.DRACOLoader: Unexpected geometry type.' ); + + } + + if ( ! decodingStatus.ok() || dracoGeometry.ptr === 0 ) { + + throw new Error( 'THREE.DRACOLoader: Decoding failed: ' + decodingStatus.error_msg() ); + + } + + const geometry = { index: null, attributes: [] }; + + // Gather all vertex attributes. + for ( const attributeName in attributeIDs ) { + + const attributeType = self[ attributeTypes[ attributeName ] ]; + + let attribute; + let attributeID; + + // A Draco file may be created with default vertex attributes, whose attribute IDs + // are mapped 1:1 from their semantic name (POSITION, NORMAL, ...). Alternatively, + // a Draco file may contain a custom set of attributes, identified by known unique + // IDs. glTF files always do the latter, and `.drc` files typically do the former. + if ( taskConfig.useUniqueIDs ) { + + attributeID = attributeIDs[ attributeName ]; + attribute = decoder.GetAttributeByUniqueId( dracoGeometry, attributeID ); + + } else { + + attributeID = decoder.GetAttributeId( dracoGeometry, draco[ attributeIDs[ attributeName ] ] ); + + if ( attributeID === -1 ) continue; + + attribute = decoder.GetAttribute( dracoGeometry, attributeID ); + + } + + const attributeResult = decodeAttribute( draco, decoder, dracoGeometry, attributeName, attributeType, attribute ); + + if ( attributeName === 'color' ) { + + attributeResult.vertexColorSpace = taskConfig.vertexColorSpace; + + } + + geometry.attributes.push( attributeResult ); + + } + + // Add index. + if ( geometryType === draco.TRIANGULAR_MESH ) { + + geometry.index = decodeIndex( draco, decoder, dracoGeometry ); + + } + + draco.destroy( dracoGeometry ); + + return geometry; + + } + + function decodeIndex( draco, decoder, dracoGeometry ) { + + const numFaces = dracoGeometry.num_faces(); + const numIndices = numFaces * 3; + const byteLength = numIndices * 4; + + const ptr = draco._malloc( byteLength ); + decoder.GetTrianglesUInt32Array( dracoGeometry, byteLength, ptr ); + const index = new Uint32Array( draco.HEAPF32.buffer, ptr, numIndices ).slice(); + draco._free( ptr ); + + return { array: index, itemSize: 1 }; + + } + + function decodeAttribute( draco, decoder, dracoGeometry, attributeName, attributeType, attribute ) { + + const numComponents = attribute.num_components(); + const numPoints = dracoGeometry.num_points(); + const numValues = numPoints * numComponents; + const byteLength = numValues * attributeType.BYTES_PER_ELEMENT; + const dataType = getDracoDataType( draco, attributeType ); + + const ptr = draco._malloc( byteLength ); + decoder.GetAttributeDataArrayForAllPoints( dracoGeometry, attribute, dataType, byteLength, ptr ); + const array = new attributeType( draco.HEAPF32.buffer, ptr, numValues ).slice(); + draco._free( ptr ); + + return { + name: attributeName, + array: array, + itemSize: numComponents + }; + + } + + function getDracoDataType( draco, attributeType ) { + + switch ( attributeType ) { + + case Float32Array: return draco.DT_FLOAT32; + case Int8Array: return draco.DT_INT8; + case Int16Array: return draco.DT_INT16; + case Int32Array: return draco.DT_INT32; + case Uint8Array: return draco.DT_UINT8; + case Uint16Array: return draco.DT_UINT16; + case Uint32Array: return draco.DT_UINT32; + + } + + } + +} + +/** + * @param {BufferGeometry} geometry + * @param {number} drawMode + * @return {BufferGeometry} + */ +function toTrianglesDrawMode( geometry, drawMode ) { + + if ( drawMode === TrianglesDrawMode ) { + + console.warn( 'THREE.BufferGeometryUtils.toTrianglesDrawMode(): Geometry already defined as triangles.' ); + return geometry; + + } + + if ( drawMode === TriangleFanDrawMode || drawMode === TriangleStripDrawMode ) { + + let index = geometry.getIndex(); + + // generate index if not present + + if ( index === null ) { + + const indices = []; + + const position = geometry.getAttribute( 'position' ); + + if ( position !== undefined ) { + + for ( let i = 0; i < position.count; i ++ ) { + + indices.push( i ); + + } + + geometry.setIndex( indices ); + index = geometry.getIndex(); + + } else { + + console.error( 'THREE.BufferGeometryUtils.toTrianglesDrawMode(): Undefined position attribute. Processing not possible.' ); + return geometry; + + } + + } + + // + + const numberOfTriangles = index.count - 2; + const newIndices = []; + + if ( drawMode === TriangleFanDrawMode ) { + + // gl.TRIANGLE_FAN + + for ( let i = 1; i <= numberOfTriangles; i ++ ) { + + newIndices.push( index.getX( 0 ) ); + newIndices.push( index.getX( i ) ); + newIndices.push( index.getX( i + 1 ) ); + + } + + } else { + + // gl.TRIANGLE_STRIP + + for ( let i = 0; i < numberOfTriangles; i ++ ) { + + if ( i % 2 === 0 ) { + + newIndices.push( index.getX( i ) ); + newIndices.push( index.getX( i + 1 ) ); + newIndices.push( index.getX( i + 2 ) ); + + } else { + + newIndices.push( index.getX( i + 2 ) ); + newIndices.push( index.getX( i + 1 ) ); + newIndices.push( index.getX( i ) ); + + } + + } + + } + + if ( ( newIndices.length / 3 ) !== numberOfTriangles ) { + + console.error( 'THREE.BufferGeometryUtils.toTrianglesDrawMode(): Unable to generate correct amount of triangles.' ); + + } + + // build final geometry + + const newGeometry = geometry.clone(); + newGeometry.setIndex( newIndices ); + newGeometry.clearGroups(); + + return newGeometry; + + } else { + + console.error( 'THREE.BufferGeometryUtils.toTrianglesDrawMode(): Unknown draw mode:', drawMode ); + return geometry; + + } + +} + +class GLTFLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + this.dracoLoader = null; + this.ktx2Loader = null; + this.meshoptDecoder = null; + + this.pluginCallbacks = []; + + this.register( function ( parser ) { + + return new GLTFMaterialsClearcoatExtension$1( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFMaterialsDispersionExtension$1( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFTextureBasisUExtension( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFTextureWebPExtension( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFTextureAVIFExtension( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFMaterialsSheenExtension$1( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFMaterialsTransmissionExtension$1( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFMaterialsVolumeExtension$1( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFMaterialsIorExtension$1( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFMaterialsEmissiveStrengthExtension$1( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFMaterialsSpecularExtension$1( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFMaterialsIridescenceExtension$1( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFMaterialsAnisotropyExtension$1( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFMaterialsBumpExtension$1( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFLightsExtension( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFMeshoptCompression( parser ); + + } ); + + this.register( function ( parser ) { + + return new GLTFMeshGpuInstancing$1( parser ); + + } ); + + } + + load( url, onLoad, onProgress, onError ) { + + const scope = this; + + let resourcePath; + + if ( this.resourcePath !== '' ) { + + resourcePath = this.resourcePath; + + } else if ( this.path !== '' ) { + + // If a base path is set, resources will be relative paths from that plus the relative path of the gltf file + // Example path = 'https://my-cnd-server.com/', url = 'assets/models/model.gltf' + // resourcePath = 'https://my-cnd-server.com/assets/models/' + // referenced resource 'model.bin' will be loaded from 'https://my-cnd-server.com/assets/models/model.bin' + // referenced resource '../textures/texture.png' will be loaded from 'https://my-cnd-server.com/assets/textures/texture.png' + const relativeUrl = LoaderUtils.extractUrlBase( url ); + resourcePath = LoaderUtils.resolveURL( relativeUrl, this.path ); + + } else { + + resourcePath = LoaderUtils.extractUrlBase( url ); + + } + + // Tells the LoadingManager to track an extra item, which resolves after + // the model is fully loaded. This means the count of items loaded will + // be incorrect, but ensures manager.onLoad() does not fire early. + this.manager.itemStart( url ); + + const _onError = function ( e ) { + + if ( onError ) { + + onError( e ); + + } else { + + console.error( e ); + + } + + scope.manager.itemError( url ); + scope.manager.itemEnd( url ); + + }; + + const loader = new FileLoader( this.manager ); + + loader.setPath( this.path ); + loader.setResponseType( 'arraybuffer' ); + loader.setRequestHeader( this.requestHeader ); + loader.setWithCredentials( this.withCredentials ); + + loader.load( url, function ( data ) { + + try { + + scope.parse( data, resourcePath, function ( gltf ) { + + onLoad( gltf ); + + scope.manager.itemEnd( url ); + + }, _onError ); + + } catch ( e ) { + + _onError( e ); + + } + + }, onProgress, _onError ); + + } + + setDRACOLoader( dracoLoader ) { + + this.dracoLoader = dracoLoader; + return this; + + } + + setKTX2Loader( ktx2Loader ) { + + this.ktx2Loader = ktx2Loader; + return this; + + } + + setMeshoptDecoder( meshoptDecoder ) { + + this.meshoptDecoder = meshoptDecoder; + return this; + + } + + register( callback ) { + + if ( this.pluginCallbacks.indexOf( callback ) === -1 ) { + + this.pluginCallbacks.push( callback ); + + } + + return this; + + } + + unregister( callback ) { + + if ( this.pluginCallbacks.indexOf( callback ) !== -1 ) { + + this.pluginCallbacks.splice( this.pluginCallbacks.indexOf( callback ), 1 ); + + } + + return this; + + } + + parse( data, path, onLoad, onError ) { + + let json; + const extensions = {}; + const plugins = {}; + const textDecoder = new TextDecoder(); + + if ( typeof data === 'string' ) { + + json = JSON.parse( data ); + + } else if ( data instanceof ArrayBuffer ) { + + const magic = textDecoder.decode( new Uint8Array( data, 0, 4 ) ); + + if ( magic === BINARY_EXTENSION_HEADER_MAGIC ) { + + try { + + extensions[ EXTENSIONS.KHR_BINARY_GLTF ] = new GLTFBinaryExtension( data ); + + } catch ( error ) { + + if ( onError ) onError( error ); + return; + + } + + json = JSON.parse( extensions[ EXTENSIONS.KHR_BINARY_GLTF ].content ); + + } else { + + json = JSON.parse( textDecoder.decode( data ) ); + + } + + } else { + + json = data; + + } + + if ( json.asset === undefined || json.asset.version[ 0 ] < 2 ) { + + if ( onError ) onError( new Error( 'THREE.GLTFLoader: Unsupported asset. glTF versions >=2.0 are supported.' ) ); + return; + + } + + const parser = new GLTFParser( json, { + + path: path || this.resourcePath || '', + crossOrigin: this.crossOrigin, + requestHeader: this.requestHeader, + manager: this.manager, + ktx2Loader: this.ktx2Loader, + meshoptDecoder: this.meshoptDecoder + + } ); + + parser.fileLoader.setRequestHeader( this.requestHeader ); + + for ( let i = 0; i < this.pluginCallbacks.length; i ++ ) { + + const plugin = this.pluginCallbacks[ i ]( parser ); + + if ( ! plugin.name ) console.error( 'THREE.GLTFLoader: Invalid plugin found: missing name' ); + + plugins[ plugin.name ] = plugin; + + // Workaround to avoid determining as unknown extension + // in addUnknownExtensionsToUserData(). + // Remove this workaround if we move all the existing + // extension handlers to plugin system + extensions[ plugin.name ] = true; + + } + + if ( json.extensionsUsed ) { + + for ( let i = 0; i < json.extensionsUsed.length; ++ i ) { + + const extensionName = json.extensionsUsed[ i ]; + const extensionsRequired = json.extensionsRequired || []; + + switch ( extensionName ) { + + case EXTENSIONS.KHR_MATERIALS_UNLIT: + extensions[ extensionName ] = new GLTFMaterialsUnlitExtension$1(); + break; + + case EXTENSIONS.KHR_DRACO_MESH_COMPRESSION: + extensions[ extensionName ] = new GLTFDracoMeshCompressionExtension( json, this.dracoLoader ); + break; + + case EXTENSIONS.KHR_TEXTURE_TRANSFORM: + extensions[ extensionName ] = new GLTFTextureTransformExtension(); + break; + + case EXTENSIONS.KHR_MESH_QUANTIZATION: + extensions[ extensionName ] = new GLTFMeshQuantizationExtension(); + break; + + default: + + if ( extensionsRequired.indexOf( extensionName ) >= 0 && plugins[ extensionName ] === undefined ) { + + console.warn( 'THREE.GLTFLoader: Unknown extension "' + extensionName + '".' ); + + } + + } + + } + + } + + parser.setExtensions( extensions ); + parser.setPlugins( plugins ); + parser.parse( onLoad, onError ); + + } + + parseAsync( data, path ) { + + const scope = this; + + return new Promise( function ( resolve, reject ) { + + scope.parse( data, path, resolve, reject ); + + } ); + + } + +} + +/* GLTFREGISTRY */ + +function GLTFRegistry() { + + let objects = {}; + + return { + + get: function ( key ) { + + return objects[ key ]; + + }, + + add: function ( key, object ) { + + objects[ key ] = object; + + }, + + remove: function ( key ) { + + delete objects[ key ]; + + }, + + removeAll: function () { + + objects = {}; + + } + + }; + +} + +/*********************************/ +/********** EXTENSIONS ***********/ +/*********************************/ + +const EXTENSIONS = { + KHR_BINARY_GLTF: 'KHR_binary_glTF', + KHR_DRACO_MESH_COMPRESSION: 'KHR_draco_mesh_compression', + KHR_LIGHTS_PUNCTUAL: 'KHR_lights_punctual', + KHR_MATERIALS_CLEARCOAT: 'KHR_materials_clearcoat', + KHR_MATERIALS_DISPERSION: 'KHR_materials_dispersion', + KHR_MATERIALS_IOR: 'KHR_materials_ior', + KHR_MATERIALS_SHEEN: 'KHR_materials_sheen', + KHR_MATERIALS_SPECULAR: 'KHR_materials_specular', + KHR_MATERIALS_TRANSMISSION: 'KHR_materials_transmission', + KHR_MATERIALS_IRIDESCENCE: 'KHR_materials_iridescence', + KHR_MATERIALS_ANISOTROPY: 'KHR_materials_anisotropy', + KHR_MATERIALS_UNLIT: 'KHR_materials_unlit', + KHR_MATERIALS_VOLUME: 'KHR_materials_volume', + KHR_TEXTURE_BASISU: 'KHR_texture_basisu', + KHR_TEXTURE_TRANSFORM: 'KHR_texture_transform', + KHR_MESH_QUANTIZATION: 'KHR_mesh_quantization', + KHR_MATERIALS_EMISSIVE_STRENGTH: 'KHR_materials_emissive_strength', + EXT_MATERIALS_BUMP: 'EXT_materials_bump', + EXT_TEXTURE_WEBP: 'EXT_texture_webp', + EXT_TEXTURE_AVIF: 'EXT_texture_avif', + EXT_MESHOPT_COMPRESSION: 'EXT_meshopt_compression', + EXT_MESH_GPU_INSTANCING: 'EXT_mesh_gpu_instancing' +}; + +/** + * Punctual Lights Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_lights_punctual + */ +class GLTFLightsExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.KHR_LIGHTS_PUNCTUAL; + + // Object3D instance caches + this.cache = { refs: {}, uses: {} }; + + } + + _markDefs() { + + const parser = this.parser; + const nodeDefs = this.parser.json.nodes || []; + + for ( let nodeIndex = 0, nodeLength = nodeDefs.length; nodeIndex < nodeLength; nodeIndex ++ ) { + + const nodeDef = nodeDefs[ nodeIndex ]; + + if ( nodeDef.extensions + && nodeDef.extensions[ this.name ] + && nodeDef.extensions[ this.name ].light !== undefined ) { + + parser._addNodeRef( this.cache, nodeDef.extensions[ this.name ].light ); + + } + + } + + } + + _loadLight( lightIndex ) { + + const parser = this.parser; + const cacheKey = 'light:' + lightIndex; + let dependency = parser.cache.get( cacheKey ); + + if ( dependency ) return dependency; + + const json = parser.json; + const extensions = ( json.extensions && json.extensions[ this.name ] ) || {}; + const lightDefs = extensions.lights || []; + const lightDef = lightDefs[ lightIndex ]; + let lightNode; + + const color = new Color( 0xffffff ); + + if ( lightDef.color !== undefined ) color.setRGB( lightDef.color[ 0 ], lightDef.color[ 1 ], lightDef.color[ 2 ], LinearSRGBColorSpace ); + + const range = lightDef.range !== undefined ? lightDef.range : 0; + + switch ( lightDef.type ) { + + case 'directional': + lightNode = new DirectionalLight( color ); + lightNode.target.position.set( 0, 0, -1 ); + lightNode.add( lightNode.target ); + break; + + case 'point': + lightNode = new PointLight( color ); + lightNode.distance = range; + break; + + case 'spot': + lightNode = new SpotLight( color ); + lightNode.distance = range; + // Handle spotlight properties. + lightDef.spot = lightDef.spot || {}; + lightDef.spot.innerConeAngle = lightDef.spot.innerConeAngle !== undefined ? lightDef.spot.innerConeAngle : 0; + lightDef.spot.outerConeAngle = lightDef.spot.outerConeAngle !== undefined ? lightDef.spot.outerConeAngle : Math.PI / 4.0; + lightNode.angle = lightDef.spot.outerConeAngle; + lightNode.penumbra = 1.0 - lightDef.spot.innerConeAngle / lightDef.spot.outerConeAngle; + lightNode.target.position.set( 0, 0, -1 ); + lightNode.add( lightNode.target ); + break; + + default: + throw new Error( 'THREE.GLTFLoader: Unexpected light type: ' + lightDef.type ); + + } + + // Some lights (e.g. spot) default to a position other than the origin. Reset the position + // here, because node-level parsing will only override position if explicitly specified. + lightNode.position.set( 0, 0, 0 ); + + assignExtrasToUserData( lightNode, lightDef ); + + if ( lightDef.intensity !== undefined ) lightNode.intensity = lightDef.intensity; + + lightNode.name = parser.createUniqueName( lightDef.name || ( 'light_' + lightIndex ) ); + + dependency = Promise.resolve( lightNode ); + + parser.cache.add( cacheKey, dependency ); + + return dependency; + + } + + getDependency( type, index ) { + + if ( type !== 'light' ) return; + + return this._loadLight( index ); + + } + + createNodeAttachment( nodeIndex ) { + + const self = this; + const parser = this.parser; + const json = parser.json; + const nodeDef = json.nodes[ nodeIndex ]; + const lightDef = ( nodeDef.extensions && nodeDef.extensions[ this.name ] ) || {}; + const lightIndex = lightDef.light; + + if ( lightIndex === undefined ) return null; + + return this._loadLight( lightIndex ).then( function ( light ) { + + return parser._getNodeRef( self.cache, lightIndex, light ); + + } ); + + } + +} + +/** + * Unlit Materials Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_unlit + */ +let GLTFMaterialsUnlitExtension$1 = class GLTFMaterialsUnlitExtension { + + constructor() { + + this.name = EXTENSIONS.KHR_MATERIALS_UNLIT; + + } + + getMaterialType() { + + return MeshBasicMaterial; + + } + + extendParams( materialParams, materialDef, parser ) { + + const pending = []; + + materialParams.color = new Color( 1.0, 1.0, 1.0 ); + materialParams.opacity = 1.0; + + const metallicRoughness = materialDef.pbrMetallicRoughness; + + if ( metallicRoughness ) { + + if ( Array.isArray( metallicRoughness.baseColorFactor ) ) { + + const array = metallicRoughness.baseColorFactor; + + materialParams.color.setRGB( array[ 0 ], array[ 1 ], array[ 2 ], LinearSRGBColorSpace ); + materialParams.opacity = array[ 3 ]; + + } + + if ( metallicRoughness.baseColorTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'map', metallicRoughness.baseColorTexture, SRGBColorSpace ) ); + + } + + } + + return Promise.all( pending ); + + } + +}; + +/** + * Materials Emissive Strength Extension + * + * Specification: https://github.com/KhronosGroup/glTF/blob/5768b3ce0ef32bc39cdf1bef10b948586635ead3/extensions/2.0/Khronos/KHR_materials_emissive_strength/README.md + */ +let GLTFMaterialsEmissiveStrengthExtension$1 = class GLTFMaterialsEmissiveStrengthExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.KHR_MATERIALS_EMISSIVE_STRENGTH; + + } + + extendMaterialParams( materialIndex, materialParams ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { + + return Promise.resolve(); + + } + + const emissiveStrength = materialDef.extensions[ this.name ].emissiveStrength; + + if ( emissiveStrength !== undefined ) { + + materialParams.emissiveIntensity = emissiveStrength; + + } + + return Promise.resolve(); + + } + +}; + +/** + * Clearcoat Materials Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_clearcoat + */ +let GLTFMaterialsClearcoatExtension$1 = class GLTFMaterialsClearcoatExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.KHR_MATERIALS_CLEARCOAT; + + } + + getMaterialType( materialIndex ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; + + return MeshPhysicalMaterial; + + } + + extendMaterialParams( materialIndex, materialParams ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { + + return Promise.resolve(); + + } + + const pending = []; + + const extension = materialDef.extensions[ this.name ]; + + if ( extension.clearcoatFactor !== undefined ) { + + materialParams.clearcoat = extension.clearcoatFactor; + + } + + if ( extension.clearcoatTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'clearcoatMap', extension.clearcoatTexture ) ); + + } + + if ( extension.clearcoatRoughnessFactor !== undefined ) { + + materialParams.clearcoatRoughness = extension.clearcoatRoughnessFactor; + + } + + if ( extension.clearcoatRoughnessTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'clearcoatRoughnessMap', extension.clearcoatRoughnessTexture ) ); + + } + + if ( extension.clearcoatNormalTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'clearcoatNormalMap', extension.clearcoatNormalTexture ) ); + + if ( extension.clearcoatNormalTexture.scale !== undefined ) { + + const scale = extension.clearcoatNormalTexture.scale; + + materialParams.clearcoatNormalScale = new Vector2( scale, scale ); + + } + + } + + return Promise.all( pending ); + + } + +}; + +/** + * Materials dispersion Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/main/extensions/2.0/Khronos/KHR_materials_dispersion + */ +let GLTFMaterialsDispersionExtension$1 = class GLTFMaterialsDispersionExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.KHR_MATERIALS_DISPERSION; + + } + + getMaterialType( materialIndex ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; + + return MeshPhysicalMaterial; + + } + + extendMaterialParams( materialIndex, materialParams ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { + + return Promise.resolve(); + + } + + const extension = materialDef.extensions[ this.name ]; + + materialParams.dispersion = extension.dispersion !== undefined ? extension.dispersion : 0; + + return Promise.resolve(); + + } + +}; + +/** + * Iridescence Materials Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_iridescence + */ +let GLTFMaterialsIridescenceExtension$1 = class GLTFMaterialsIridescenceExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.KHR_MATERIALS_IRIDESCENCE; + + } + + getMaterialType( materialIndex ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; + + return MeshPhysicalMaterial; + + } + + extendMaterialParams( materialIndex, materialParams ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { + + return Promise.resolve(); + + } + + const pending = []; + + const extension = materialDef.extensions[ this.name ]; + + if ( extension.iridescenceFactor !== undefined ) { + + materialParams.iridescence = extension.iridescenceFactor; + + } + + if ( extension.iridescenceTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'iridescenceMap', extension.iridescenceTexture ) ); + + } + + if ( extension.iridescenceIor !== undefined ) { + + materialParams.iridescenceIOR = extension.iridescenceIor; + + } + + if ( materialParams.iridescenceThicknessRange === undefined ) { + + materialParams.iridescenceThicknessRange = [ 100, 400 ]; + + } + + if ( extension.iridescenceThicknessMinimum !== undefined ) { + + materialParams.iridescenceThicknessRange[ 0 ] = extension.iridescenceThicknessMinimum; + + } + + if ( extension.iridescenceThicknessMaximum !== undefined ) { + + materialParams.iridescenceThicknessRange[ 1 ] = extension.iridescenceThicknessMaximum; + + } + + if ( extension.iridescenceThicknessTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'iridescenceThicknessMap', extension.iridescenceThicknessTexture ) ); + + } + + return Promise.all( pending ); + + } + +}; + +/** + * Sheen Materials Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/main/extensions/2.0/Khronos/KHR_materials_sheen + */ +let GLTFMaterialsSheenExtension$1 = class GLTFMaterialsSheenExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.KHR_MATERIALS_SHEEN; + + } + + getMaterialType( materialIndex ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; + + return MeshPhysicalMaterial; + + } + + extendMaterialParams( materialIndex, materialParams ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { + + return Promise.resolve(); + + } + + const pending = []; + + materialParams.sheenColor = new Color( 0, 0, 0 ); + materialParams.sheenRoughness = 0; + materialParams.sheen = 1; + + const extension = materialDef.extensions[ this.name ]; + + if ( extension.sheenColorFactor !== undefined ) { + + const colorFactor = extension.sheenColorFactor; + materialParams.sheenColor.setRGB( colorFactor[ 0 ], colorFactor[ 1 ], colorFactor[ 2 ], LinearSRGBColorSpace ); + + } + + if ( extension.sheenRoughnessFactor !== undefined ) { + + materialParams.sheenRoughness = extension.sheenRoughnessFactor; + + } + + if ( extension.sheenColorTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'sheenColorMap', extension.sheenColorTexture, SRGBColorSpace ) ); + + } + + if ( extension.sheenRoughnessTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'sheenRoughnessMap', extension.sheenRoughnessTexture ) ); + + } + + return Promise.all( pending ); + + } + +}; + +/** + * Transmission Materials Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_transmission + * Draft: https://github.com/KhronosGroup/glTF/pull/1698 + */ +let GLTFMaterialsTransmissionExtension$1 = class GLTFMaterialsTransmissionExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.KHR_MATERIALS_TRANSMISSION; + + } + + getMaterialType( materialIndex ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; + + return MeshPhysicalMaterial; + + } + + extendMaterialParams( materialIndex, materialParams ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { + + return Promise.resolve(); + + } + + const pending = []; + + const extension = materialDef.extensions[ this.name ]; + + if ( extension.transmissionFactor !== undefined ) { + + materialParams.transmission = extension.transmissionFactor; + + } + + if ( extension.transmissionTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'transmissionMap', extension.transmissionTexture ) ); + + } + + return Promise.all( pending ); + + } + +}; + +/** + * Materials Volume Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_volume + */ +let GLTFMaterialsVolumeExtension$1 = class GLTFMaterialsVolumeExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.KHR_MATERIALS_VOLUME; + + } + + getMaterialType( materialIndex ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; + + return MeshPhysicalMaterial; + + } + + extendMaterialParams( materialIndex, materialParams ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { + + return Promise.resolve(); + + } + + const pending = []; + + const extension = materialDef.extensions[ this.name ]; + + materialParams.thickness = extension.thicknessFactor !== undefined ? extension.thicknessFactor : 0; + + if ( extension.thicknessTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'thicknessMap', extension.thicknessTexture ) ); + + } + + materialParams.attenuationDistance = extension.attenuationDistance || Infinity; + + const colorArray = extension.attenuationColor || [ 1, 1, 1 ]; + materialParams.attenuationColor = new Color().setRGB( colorArray[ 0 ], colorArray[ 1 ], colorArray[ 2 ], LinearSRGBColorSpace ); + + return Promise.all( pending ); + + } + +}; + +/** + * Materials ior Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_ior + */ +let GLTFMaterialsIorExtension$1 = class GLTFMaterialsIorExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.KHR_MATERIALS_IOR; + + } + + getMaterialType( materialIndex ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; + + return MeshPhysicalMaterial; + + } + + extendMaterialParams( materialIndex, materialParams ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { + + return Promise.resolve(); + + } + + const extension = materialDef.extensions[ this.name ]; + + materialParams.ior = extension.ior !== undefined ? extension.ior : 1.5; + + return Promise.resolve(); + + } + +}; + +/** + * Materials specular Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_specular + */ +let GLTFMaterialsSpecularExtension$1 = class GLTFMaterialsSpecularExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.KHR_MATERIALS_SPECULAR; + + } + + getMaterialType( materialIndex ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; + + return MeshPhysicalMaterial; + + } + + extendMaterialParams( materialIndex, materialParams ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { + + return Promise.resolve(); + + } + + const pending = []; + + const extension = materialDef.extensions[ this.name ]; + + materialParams.specularIntensity = extension.specularFactor !== undefined ? extension.specularFactor : 1.0; + + if ( extension.specularTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'specularIntensityMap', extension.specularTexture ) ); + + } + + const colorArray = extension.specularColorFactor || [ 1, 1, 1 ]; + materialParams.specularColor = new Color().setRGB( colorArray[ 0 ], colorArray[ 1 ], colorArray[ 2 ], LinearSRGBColorSpace ); + + if ( extension.specularColorTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'specularColorMap', extension.specularColorTexture, SRGBColorSpace ) ); + + } + + return Promise.all( pending ); + + } + +}; + + +/** + * Materials bump Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/EXT_materials_bump + */ +let GLTFMaterialsBumpExtension$1 = class GLTFMaterialsBumpExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.EXT_MATERIALS_BUMP; + + } + + getMaterialType( materialIndex ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; + + return MeshPhysicalMaterial; + + } + + extendMaterialParams( materialIndex, materialParams ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { + + return Promise.resolve(); + + } + + const pending = []; + + const extension = materialDef.extensions[ this.name ]; + + materialParams.bumpScale = extension.bumpFactor !== undefined ? extension.bumpFactor : 1.0; + + if ( extension.bumpTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'bumpMap', extension.bumpTexture ) ); + + } + + return Promise.all( pending ); + + } + +}; + +/** + * Materials anisotropy Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_anisotropy + */ +let GLTFMaterialsAnisotropyExtension$1 = class GLTFMaterialsAnisotropyExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.KHR_MATERIALS_ANISOTROPY; + + } + + getMaterialType( materialIndex ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; + + return MeshPhysicalMaterial; + + } + + extendMaterialParams( materialIndex, materialParams ) { + + const parser = this.parser; + const materialDef = parser.json.materials[ materialIndex ]; + + if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { + + return Promise.resolve(); + + } + + const pending = []; + + const extension = materialDef.extensions[ this.name ]; + + if ( extension.anisotropyStrength !== undefined ) { + + materialParams.anisotropy = extension.anisotropyStrength; + + } + + if ( extension.anisotropyRotation !== undefined ) { + + materialParams.anisotropyRotation = extension.anisotropyRotation; + + } + + if ( extension.anisotropyTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'anisotropyMap', extension.anisotropyTexture ) ); + + } + + return Promise.all( pending ); + + } + +}; + +/** + * BasisU Texture Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_texture_basisu + */ +class GLTFTextureBasisUExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.KHR_TEXTURE_BASISU; + + } + + loadTexture( textureIndex ) { + + const parser = this.parser; + const json = parser.json; + + const textureDef = json.textures[ textureIndex ]; + + if ( ! textureDef.extensions || ! textureDef.extensions[ this.name ] ) { + + return null; + + } + + const extension = textureDef.extensions[ this.name ]; + const loader = parser.options.ktx2Loader; + + if ( ! loader ) { + + if ( json.extensionsRequired && json.extensionsRequired.indexOf( this.name ) >= 0 ) { + + throw new Error( 'THREE.GLTFLoader: setKTX2Loader must be called before loading KTX2 textures' ); + + } else { + + // Assumes that the extension is optional and that a fallback texture is present + return null; + + } + + } + + return parser.loadTextureImage( textureIndex, extension.source, loader ); + + } + +} + +/** + * WebP Texture Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Vendor/EXT_texture_webp + */ +class GLTFTextureWebPExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.EXT_TEXTURE_WEBP; + this.isSupported = null; + + } + + loadTexture( textureIndex ) { + + const name = this.name; + const parser = this.parser; + const json = parser.json; + + const textureDef = json.textures[ textureIndex ]; + + if ( ! textureDef.extensions || ! textureDef.extensions[ name ] ) { + + return null; + + } + + const extension = textureDef.extensions[ name ]; + const source = json.images[ extension.source ]; + + let loader = parser.textureLoader; + if ( source.uri ) { + + const handler = parser.options.manager.getHandler( source.uri ); + if ( handler !== null ) loader = handler; + + } + + return this.detectSupport().then( function ( isSupported ) { + + if ( isSupported ) return parser.loadTextureImage( textureIndex, extension.source, loader ); + + if ( json.extensionsRequired && json.extensionsRequired.indexOf( name ) >= 0 ) { + + throw new Error( 'THREE.GLTFLoader: WebP required by asset but unsupported.' ); + + } + + // Fall back to PNG or JPEG. + return parser.loadTexture( textureIndex ); + + } ); + + } + + detectSupport() { + + if ( ! this.isSupported ) { + + this.isSupported = new Promise( function ( resolve ) { + + const image = new Image(); + + // Lossy test image. Support for lossy images doesn't guarantee support for all + // WebP images, unfortunately. + image.src = 'data:image/webp;base64,UklGRiIAAABXRUJQVlA4IBYAAAAwAQCdASoBAAEADsD+JaQAA3AAAAAA'; + + image.onload = image.onerror = function () { + + resolve( image.height === 1 ); + + }; + + } ); + + } + + return this.isSupported; + + } + +} + +/** + * AVIF Texture Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Vendor/EXT_texture_avif + */ +class GLTFTextureAVIFExtension { + + constructor( parser ) { + + this.parser = parser; + this.name = EXTENSIONS.EXT_TEXTURE_AVIF; + this.isSupported = null; + + } + + loadTexture( textureIndex ) { + + const name = this.name; + const parser = this.parser; + const json = parser.json; + + const textureDef = json.textures[ textureIndex ]; + + if ( ! textureDef.extensions || ! textureDef.extensions[ name ] ) { + + return null; + + } + + const extension = textureDef.extensions[ name ]; + const source = json.images[ extension.source ]; + + let loader = parser.textureLoader; + if ( source.uri ) { + + const handler = parser.options.manager.getHandler( source.uri ); + if ( handler !== null ) loader = handler; + + } + + return this.detectSupport().then( function ( isSupported ) { + + if ( isSupported ) return parser.loadTextureImage( textureIndex, extension.source, loader ); + + if ( json.extensionsRequired && json.extensionsRequired.indexOf( name ) >= 0 ) { + + throw new Error( 'THREE.GLTFLoader: AVIF required by asset but unsupported.' ); + + } + + // Fall back to PNG or JPEG. + return parser.loadTexture( textureIndex ); + + } ); + + } + + detectSupport() { + + if ( ! this.isSupported ) { + + this.isSupported = new Promise( function ( resolve ) { + + const image = new Image(); + + // Lossy test image. + image.src = 'data:image/avif;base64,AAAAIGZ0eXBhdmlmAAAAAGF2aWZtaWYxbWlhZk1BMUIAAADybWV0YQAAAAAAAAAoaGRscgAAAAAAAAAAcGljdAAAAAAAAAAAAAAAAGxpYmF2aWYAAAAADnBpdG0AAAAAAAEAAAAeaWxvYwAAAABEAAABAAEAAAABAAABGgAAABcAAAAoaWluZgAAAAAAAQAAABppbmZlAgAAAAABAABhdjAxQ29sb3IAAAAAamlwcnAAAABLaXBjbwAAABRpc3BlAAAAAAAAAAEAAAABAAAAEHBpeGkAAAAAAwgICAAAAAxhdjFDgQAMAAAAABNjb2xybmNseAACAAIABoAAAAAXaXBtYQAAAAAAAAABAAEEAQKDBAAAAB9tZGF0EgAKCBgABogQEDQgMgkQAAAAB8dSLfI='; + image.onload = image.onerror = function () { + + resolve( image.height === 1 ); + + }; + + } ); + + } + + return this.isSupported; + + } + +} + +/** + * meshopt BufferView Compression Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Vendor/EXT_meshopt_compression + */ +class GLTFMeshoptCompression { + + constructor( parser ) { + + this.name = EXTENSIONS.EXT_MESHOPT_COMPRESSION; + this.parser = parser; + + } + + loadBufferView( index ) { + + const json = this.parser.json; + const bufferView = json.bufferViews[ index ]; + + if ( bufferView.extensions && bufferView.extensions[ this.name ] ) { + + const extensionDef = bufferView.extensions[ this.name ]; + + const buffer = this.parser.getDependency( 'buffer', extensionDef.buffer ); + const decoder = this.parser.options.meshoptDecoder; + + if ( ! decoder || ! decoder.supported ) { + + if ( json.extensionsRequired && json.extensionsRequired.indexOf( this.name ) >= 0 ) { + + throw new Error( 'THREE.GLTFLoader: setMeshoptDecoder must be called before loading compressed files' ); + + } else { + + // Assumes that the extension is optional and that fallback buffer data is present + return null; + + } + + } + + return buffer.then( function ( res ) { + + const byteOffset = extensionDef.byteOffset || 0; + const byteLength = extensionDef.byteLength || 0; + + const count = extensionDef.count; + const stride = extensionDef.byteStride; + + const source = new Uint8Array( res, byteOffset, byteLength ); + + if ( decoder.decodeGltfBufferAsync ) { + + return decoder.decodeGltfBufferAsync( count, stride, source, extensionDef.mode, extensionDef.filter ).then( function ( res ) { + + return res.buffer; + + } ); + + } else { + + // Support for MeshoptDecoder 0.18 or earlier, without decodeGltfBufferAsync + return decoder.ready.then( function () { + + const result = new ArrayBuffer( count * stride ); + decoder.decodeGltfBuffer( new Uint8Array( result ), count, stride, source, extensionDef.mode, extensionDef.filter ); + return result; + + } ); + + } + + } ); + + } else { + + return null; + + } + + } + +} + +/** + * GPU Instancing Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Vendor/EXT_mesh_gpu_instancing + * + */ +let GLTFMeshGpuInstancing$1 = class GLTFMeshGpuInstancing { + + constructor( parser ) { + + this.name = EXTENSIONS.EXT_MESH_GPU_INSTANCING; + this.parser = parser; + + } + + createNodeMesh( nodeIndex ) { + + const json = this.parser.json; + const nodeDef = json.nodes[ nodeIndex ]; + + if ( ! nodeDef.extensions || ! nodeDef.extensions[ this.name ] || + nodeDef.mesh === undefined ) { + + return null; + + } + + const meshDef = json.meshes[ nodeDef.mesh ]; + + // No Points or Lines + Instancing support yet + + for ( const primitive of meshDef.primitives ) { + + if ( primitive.mode !== WEBGL_CONSTANTS$1.TRIANGLES && + primitive.mode !== WEBGL_CONSTANTS$1.TRIANGLE_STRIP && + primitive.mode !== WEBGL_CONSTANTS$1.TRIANGLE_FAN && + primitive.mode !== undefined ) { + + return null; + + } + + } + + const extensionDef = nodeDef.extensions[ this.name ]; + const attributesDef = extensionDef.attributes; + + // @TODO: Can we support InstancedMesh + SkinnedMesh? + + const pending = []; + const attributes = {}; + + for ( const key in attributesDef ) { + + pending.push( this.parser.getDependency( 'accessor', attributesDef[ key ] ).then( accessor => { + + attributes[ key ] = accessor; + return attributes[ key ]; + + } ) ); + + } + + if ( pending.length < 1 ) { + + return null; + + } + + pending.push( this.parser.createNodeMesh( nodeIndex ) ); + + return Promise.all( pending ).then( results => { + + const nodeObject = results.pop(); + const meshes = nodeObject.isGroup ? nodeObject.children : [ nodeObject ]; + const count = results[ 0 ].count; // All attribute counts should be same + const instancedMeshes = []; + + for ( const mesh of meshes ) { + + // Temporal variables + const m = new Matrix4(); + const p = new Vector3(); + const q = new Quaternion(); + const s = new Vector3( 1, 1, 1 ); + + const instancedMesh = new InstancedMesh( mesh.geometry, mesh.material, count ); + + for ( let i = 0; i < count; i ++ ) { + + if ( attributes.TRANSLATION ) { + + p.fromBufferAttribute( attributes.TRANSLATION, i ); + + } + + if ( attributes.ROTATION ) { + + q.fromBufferAttribute( attributes.ROTATION, i ); + + } + + if ( attributes.SCALE ) { + + s.fromBufferAttribute( attributes.SCALE, i ); + + } + + instancedMesh.setMatrixAt( i, m.compose( p, q, s ) ); + + } + + // Add instance attributes to the geometry, excluding TRS. + for ( const attributeName in attributes ) { + + if ( attributeName === '_COLOR_0' ) { + + const attr = attributes[ attributeName ]; + instancedMesh.instanceColor = new InstancedBufferAttribute( attr.array, attr.itemSize, attr.normalized ); + + } else if ( attributeName !== 'TRANSLATION' && + attributeName !== 'ROTATION' && + attributeName !== 'SCALE' ) { + + mesh.geometry.setAttribute( attributeName, attributes[ attributeName ] ); + + } + + } + + // Just in case + Object3D.prototype.copy.call( instancedMesh, mesh ); + + this.parser.assignFinalMaterial( instancedMesh ); + + instancedMeshes.push( instancedMesh ); + + } + + if ( nodeObject.isGroup ) { + + nodeObject.clear(); + + nodeObject.add( ... instancedMeshes ); + + return nodeObject; + + } + + return instancedMeshes[ 0 ]; + + } ); + + } + +}; + +/* BINARY EXTENSION */ +const BINARY_EXTENSION_HEADER_MAGIC = 'glTF'; +const BINARY_EXTENSION_HEADER_LENGTH = 12; +const BINARY_EXTENSION_CHUNK_TYPES = { JSON: 0x4E4F534A, BIN: 0x004E4942 }; + +class GLTFBinaryExtension { + + constructor( data ) { + + this.name = EXTENSIONS.KHR_BINARY_GLTF; + this.content = null; + this.body = null; + + const headerView = new DataView( data, 0, BINARY_EXTENSION_HEADER_LENGTH ); + const textDecoder = new TextDecoder(); + + this.header = { + magic: textDecoder.decode( new Uint8Array( data.slice( 0, 4 ) ) ), + version: headerView.getUint32( 4, true ), + length: headerView.getUint32( 8, true ) + }; + + if ( this.header.magic !== BINARY_EXTENSION_HEADER_MAGIC ) { + + throw new Error( 'THREE.GLTFLoader: Unsupported glTF-Binary header.' ); + + } else if ( this.header.version < 2.0 ) { + + throw new Error( 'THREE.GLTFLoader: Legacy binary file detected.' ); + + } + + const chunkContentsLength = this.header.length - BINARY_EXTENSION_HEADER_LENGTH; + const chunkView = new DataView( data, BINARY_EXTENSION_HEADER_LENGTH ); + let chunkIndex = 0; + + while ( chunkIndex < chunkContentsLength ) { + + const chunkLength = chunkView.getUint32( chunkIndex, true ); + chunkIndex += 4; + + const chunkType = chunkView.getUint32( chunkIndex, true ); + chunkIndex += 4; + + if ( chunkType === BINARY_EXTENSION_CHUNK_TYPES.JSON ) { + + const contentArray = new Uint8Array( data, BINARY_EXTENSION_HEADER_LENGTH + chunkIndex, chunkLength ); + this.content = textDecoder.decode( contentArray ); + + } else if ( chunkType === BINARY_EXTENSION_CHUNK_TYPES.BIN ) { + + const byteOffset = BINARY_EXTENSION_HEADER_LENGTH + chunkIndex; + this.body = data.slice( byteOffset, byteOffset + chunkLength ); + + } + + // Clients must ignore chunks with unknown types. + + chunkIndex += chunkLength; + + } + + if ( this.content === null ) { + + throw new Error( 'THREE.GLTFLoader: JSON content not found.' ); + + } + + } + +} + +/** + * DRACO Mesh Compression Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_draco_mesh_compression + */ +class GLTFDracoMeshCompressionExtension { + + constructor( json, dracoLoader ) { + + if ( ! dracoLoader ) { + + throw new Error( 'THREE.GLTFLoader: No DRACOLoader instance provided.' ); + + } + + this.name = EXTENSIONS.KHR_DRACO_MESH_COMPRESSION; + this.json = json; + this.dracoLoader = dracoLoader; + this.dracoLoader.preload(); + + } + + decodePrimitive( primitive, parser ) { + + const json = this.json; + const dracoLoader = this.dracoLoader; + const bufferViewIndex = primitive.extensions[ this.name ].bufferView; + const gltfAttributeMap = primitive.extensions[ this.name ].attributes; + const threeAttributeMap = {}; + const attributeNormalizedMap = {}; + const attributeTypeMap = {}; + + for ( const attributeName in gltfAttributeMap ) { + + const threeAttributeName = ATTRIBUTES[ attributeName ] || attributeName.toLowerCase(); + + threeAttributeMap[ threeAttributeName ] = gltfAttributeMap[ attributeName ]; + + } + + for ( const attributeName in primitive.attributes ) { + + const threeAttributeName = ATTRIBUTES[ attributeName ] || attributeName.toLowerCase(); + + if ( gltfAttributeMap[ attributeName ] !== undefined ) { + + const accessorDef = json.accessors[ primitive.attributes[ attributeName ] ]; + const componentType = WEBGL_COMPONENT_TYPES[ accessorDef.componentType ]; + + attributeTypeMap[ threeAttributeName ] = componentType.name; + attributeNormalizedMap[ threeAttributeName ] = accessorDef.normalized === true; + + } + + } + + return parser.getDependency( 'bufferView', bufferViewIndex ).then( function ( bufferView ) { + + return new Promise( function ( resolve, reject ) { + + dracoLoader.decodeDracoFile( bufferView, function ( geometry ) { + + for ( const attributeName in geometry.attributes ) { + + const attribute = geometry.attributes[ attributeName ]; + const normalized = attributeNormalizedMap[ attributeName ]; + + if ( normalized !== undefined ) attribute.normalized = normalized; + + } + + resolve( geometry ); + + }, threeAttributeMap, attributeTypeMap, LinearSRGBColorSpace, reject ); + + } ); + + } ); + + } + +} + +/** + * Texture Transform Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_texture_transform + */ +class GLTFTextureTransformExtension { + + constructor() { + + this.name = EXTENSIONS.KHR_TEXTURE_TRANSFORM; + + } + + extendTexture( texture, transform ) { + + if ( ( transform.texCoord === undefined || transform.texCoord === texture.channel ) + && transform.offset === undefined + && transform.rotation === undefined + && transform.scale === undefined ) { + + // See https://github.com/mrdoob/three.js/issues/21819. + return texture; + + } + + texture = texture.clone(); + + if ( transform.texCoord !== undefined ) { + + texture.channel = transform.texCoord; + + } + + if ( transform.offset !== undefined ) { + + texture.offset.fromArray( transform.offset ); + + } + + if ( transform.rotation !== undefined ) { + + texture.rotation = transform.rotation; + + } + + if ( transform.scale !== undefined ) { + + texture.repeat.fromArray( transform.scale ); + + } + + texture.needsUpdate = true; + + return texture; + + } + +} + +/** + * Mesh Quantization Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_mesh_quantization + */ +class GLTFMeshQuantizationExtension { + + constructor() { + + this.name = EXTENSIONS.KHR_MESH_QUANTIZATION; + + } + +} + +/*********************************/ +/********** INTERPOLATION ********/ +/*********************************/ + +// Spline Interpolation +// Specification: https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#appendix-c-spline-interpolation +class GLTFCubicSplineInterpolant extends Interpolant { + + constructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) { + + super( parameterPositions, sampleValues, sampleSize, resultBuffer ); + + } + + copySampleValue_( index ) { + + // Copies a sample value to the result buffer. See description of glTF + // CUBICSPLINE values layout in interpolate_() function below. + + const result = this.resultBuffer, + values = this.sampleValues, + valueSize = this.valueSize, + offset = index * valueSize * 3 + valueSize; + + for ( let i = 0; i !== valueSize; i ++ ) { + + result[ i ] = values[ offset + i ]; + + } + + return result; + + } + + interpolate_( i1, t0, t, t1 ) { + + const result = this.resultBuffer; + const values = this.sampleValues; + const stride = this.valueSize; + + const stride2 = stride * 2; + const stride3 = stride * 3; + + const td = t1 - t0; + + const p = ( t - t0 ) / td; + const pp = p * p; + const ppp = pp * p; + + const offset1 = i1 * stride3; + const offset0 = offset1 - stride3; + + const s2 = -2 * ppp + 3 * pp; + const s3 = ppp - pp; + const s0 = 1 - s2; + const s1 = s3 - pp + p; + + // Layout of keyframe output values for CUBICSPLINE animations: + // [ inTangent_1, splineVertex_1, outTangent_1, inTangent_2, splineVertex_2, ... ] + for ( let i = 0; i !== stride; i ++ ) { + + const p0 = values[ offset0 + i + stride ]; // splineVertex_k + const m0 = values[ offset0 + i + stride2 ] * td; // outTangent_k * (t_k+1 - t_k) + const p1 = values[ offset1 + i + stride ]; // splineVertex_k+1 + const m1 = values[ offset1 + i ] * td; // inTangent_k+1 * (t_k+1 - t_k) + + result[ i ] = s0 * p0 + s1 * m0 + s2 * p1 + s3 * m1; + + } + + return result; + + } + +} + +const _q = new Quaternion(); + +class GLTFCubicSplineQuaternionInterpolant extends GLTFCubicSplineInterpolant { + + interpolate_( i1, t0, t, t1 ) { + + const result = super.interpolate_( i1, t0, t, t1 ); + + _q.fromArray( result ).normalize().toArray( result ); + + return result; + + } + +} + + +/*********************************/ +/********** INTERNALS ************/ +/*********************************/ + +/* CONSTANTS */ + +const WEBGL_CONSTANTS$1 = { + POINTS: 0, + LINES: 1, + LINE_LOOP: 2, + LINE_STRIP: 3, + TRIANGLES: 4, + TRIANGLE_STRIP: 5, + TRIANGLE_FAN: 6}; + +const WEBGL_COMPONENT_TYPES = { + 5120: Int8Array, + 5121: Uint8Array, + 5122: Int16Array, + 5123: Uint16Array, + 5125: Uint32Array, + 5126: Float32Array +}; + +const WEBGL_FILTERS = { + 9728: NearestFilter, + 9729: LinearFilter, + 9984: NearestMipmapNearestFilter, + 9985: LinearMipmapNearestFilter, + 9986: NearestMipmapLinearFilter, + 9987: LinearMipmapLinearFilter +}; + +const WEBGL_WRAPPINGS = { + 33071: ClampToEdgeWrapping, + 33648: MirroredRepeatWrapping, + 10497: RepeatWrapping +}; + +const WEBGL_TYPE_SIZES = { + 'SCALAR': 1, + 'VEC2': 2, + 'VEC3': 3, + 'VEC4': 4, + 'MAT2': 4, + 'MAT3': 9, + 'MAT4': 16 +}; + +const ATTRIBUTES = { + POSITION: 'position', + NORMAL: 'normal', + TANGENT: 'tangent', + TEXCOORD_0: 'uv', + TEXCOORD_1: 'uv1', + TEXCOORD_2: 'uv2', + TEXCOORD_3: 'uv3', + COLOR_0: 'color', + WEIGHTS_0: 'skinWeight', + JOINTS_0: 'skinIndex', +}; + +const PATH_PROPERTIES$1 = { + scale: 'scale', + translation: 'position', + rotation: 'quaternion', + weights: 'morphTargetInfluences' +}; + +const INTERPOLATION = { + CUBICSPLINE: undefined, // We use a custom interpolant (GLTFCubicSplineInterpolation) for CUBICSPLINE tracks. Each + // keyframe track will be initialized with a default interpolation type, then modified. + LINEAR: InterpolateLinear, + STEP: InterpolateDiscrete +}; + +const ALPHA_MODES = { + OPAQUE: 'OPAQUE', + MASK: 'MASK', + BLEND: 'BLEND' +}; + +/** + * Specification: https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#default-material + * + * @param {Object} cache + * @return {Material} + */ +function createDefaultMaterial( cache ) { + + if ( cache[ 'DefaultMaterial' ] === undefined ) { + + cache[ 'DefaultMaterial' ] = new MeshStandardMaterial( { + color: 0xFFFFFF, + emissive: 0x000000, + metalness: 1, + roughness: 1, + transparent: false, + depthTest: true, + side: FrontSide + } ); + + } + + return cache[ 'DefaultMaterial' ]; + +} + +function addUnknownExtensionsToUserData( knownExtensions, object, objectDef ) { + + // Add unknown glTF extensions to an object's userData. + + for ( const name in objectDef.extensions ) { + + if ( knownExtensions[ name ] === undefined ) { + + object.userData.gltfExtensions = object.userData.gltfExtensions || {}; + object.userData.gltfExtensions[ name ] = objectDef.extensions[ name ]; + + } + + } + +} + +/** + * @param {Object3D|Material|BufferGeometry} object + * @param {GLTF.definition} gltfDef + */ +function assignExtrasToUserData( object, gltfDef ) { + + if ( gltfDef.extras !== undefined ) { + + if ( typeof gltfDef.extras === 'object' ) { + + Object.assign( object.userData, gltfDef.extras ); + + } else { + + console.warn( 'THREE.GLTFLoader: Ignoring primitive type .extras, ' + gltfDef.extras ); + + } + + } + +} + +/** + * Specification: https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#morph-targets + * + * @param {BufferGeometry} geometry + * @param {Array} targets + * @param {GLTFParser} parser + * @return {Promise} + */ +function addMorphTargets( geometry, targets, parser ) { + + let hasMorphPosition = false; + let hasMorphNormal = false; + let hasMorphColor = false; + + for ( let i = 0, il = targets.length; i < il; i ++ ) { + + const target = targets[ i ]; + + if ( target.POSITION !== undefined ) hasMorphPosition = true; + if ( target.NORMAL !== undefined ) hasMorphNormal = true; + if ( target.COLOR_0 !== undefined ) hasMorphColor = true; + + if ( hasMorphPosition && hasMorphNormal && hasMorphColor ) break; + + } + + if ( ! hasMorphPosition && ! hasMorphNormal && ! hasMorphColor ) return Promise.resolve( geometry ); + + const pendingPositionAccessors = []; + const pendingNormalAccessors = []; + const pendingColorAccessors = []; + + for ( let i = 0, il = targets.length; i < il; i ++ ) { + + const target = targets[ i ]; + + if ( hasMorphPosition ) { + + const pendingAccessor = target.POSITION !== undefined + ? parser.getDependency( 'accessor', target.POSITION ) + : geometry.attributes.position; + + pendingPositionAccessors.push( pendingAccessor ); + + } + + if ( hasMorphNormal ) { + + const pendingAccessor = target.NORMAL !== undefined + ? parser.getDependency( 'accessor', target.NORMAL ) + : geometry.attributes.normal; + + pendingNormalAccessors.push( pendingAccessor ); + + } + + if ( hasMorphColor ) { + + const pendingAccessor = target.COLOR_0 !== undefined + ? parser.getDependency( 'accessor', target.COLOR_0 ) + : geometry.attributes.color; + + pendingColorAccessors.push( pendingAccessor ); + + } + + } + + return Promise.all( [ + Promise.all( pendingPositionAccessors ), + Promise.all( pendingNormalAccessors ), + Promise.all( pendingColorAccessors ) + ] ).then( function ( accessors ) { + + const morphPositions = accessors[ 0 ]; + const morphNormals = accessors[ 1 ]; + const morphColors = accessors[ 2 ]; + + if ( hasMorphPosition ) geometry.morphAttributes.position = morphPositions; + if ( hasMorphNormal ) geometry.morphAttributes.normal = morphNormals; + if ( hasMorphColor ) geometry.morphAttributes.color = morphColors; + geometry.morphTargetsRelative = true; + + return geometry; + + } ); + +} + +/** + * @param {Mesh} mesh + * @param {GLTF.Mesh} meshDef + */ +function updateMorphTargets( mesh, meshDef ) { + + mesh.updateMorphTargets(); + + if ( meshDef.weights !== undefined ) { + + for ( let i = 0, il = meshDef.weights.length; i < il; i ++ ) { + + mesh.morphTargetInfluences[ i ] = meshDef.weights[ i ]; + + } + + } + + // .extras has user-defined data, so check that .extras.targetNames is an array. + if ( meshDef.extras && Array.isArray( meshDef.extras.targetNames ) ) { + + const targetNames = meshDef.extras.targetNames; + + if ( mesh.morphTargetInfluences.length === targetNames.length ) { + + mesh.morphTargetDictionary = {}; + + for ( let i = 0, il = targetNames.length; i < il; i ++ ) { + + mesh.morphTargetDictionary[ targetNames[ i ] ] = i; + + } + + } else { + + console.warn( 'THREE.GLTFLoader: Invalid extras.targetNames length. Ignoring names.' ); + + } + + } + +} + +function createPrimitiveKey( primitiveDef ) { + + let geometryKey; + + const dracoExtension = primitiveDef.extensions && primitiveDef.extensions[ EXTENSIONS.KHR_DRACO_MESH_COMPRESSION ]; + + if ( dracoExtension ) { + + geometryKey = 'draco:' + dracoExtension.bufferView + + ':' + dracoExtension.indices + + ':' + createAttributesKey( dracoExtension.attributes ); + + } else { + + geometryKey = primitiveDef.indices + ':' + createAttributesKey( primitiveDef.attributes ) + ':' + primitiveDef.mode; + + } + + if ( primitiveDef.targets !== undefined ) { + + for ( let i = 0, il = primitiveDef.targets.length; i < il; i ++ ) { + + geometryKey += ':' + createAttributesKey( primitiveDef.targets[ i ] ); + + } + + } + + return geometryKey; + +} + +function createAttributesKey( attributes ) { + + let attributesKey = ''; + + const keys = Object.keys( attributes ).sort(); + + for ( let i = 0, il = keys.length; i < il; i ++ ) { + + attributesKey += keys[ i ] + ':' + attributes[ keys[ i ] ] + ';'; + + } + + return attributesKey; + +} + +function getNormalizedComponentScale( constructor ) { + + // Reference: + // https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_mesh_quantization#encoding-quantized-data + + switch ( constructor ) { + + case Int8Array: + return 1 / 127; + + case Uint8Array: + return 1 / 255; + + case Int16Array: + return 1 / 32767; + + case Uint16Array: + return 1 / 65535; + + default: + throw new Error( 'THREE.GLTFLoader: Unsupported normalized accessor component type.' ); + + } + +} + +function getImageURIMimeType( uri ) { + + if ( uri.search( /\.jpe?g($|\?)/i ) > 0 || uri.search( /^data\:image\/jpeg/ ) === 0 ) return 'image/jpeg'; + if ( uri.search( /\.webp($|\?)/i ) > 0 || uri.search( /^data\:image\/webp/ ) === 0 ) return 'image/webp'; + if ( uri.search( /\.ktx2($|\?)/i ) > 0 || uri.search( /^data\:image\/ktx2/ ) === 0 ) return 'image/ktx2'; + + return 'image/png'; + +} + +const _identityMatrix = new Matrix4(); + +/* GLTF PARSER */ + +class GLTFParser { + + constructor( json = {}, options = {} ) { + + this.json = json; + this.extensions = {}; + this.plugins = {}; + this.options = options; + + // loader object cache + this.cache = new GLTFRegistry(); + + // associations between Three.js objects and glTF elements + this.associations = new Map(); + + // BufferGeometry caching + this.primitiveCache = {}; + + // Node cache + this.nodeCache = {}; + + // Object3D instance caches + this.meshCache = { refs: {}, uses: {} }; + this.cameraCache = { refs: {}, uses: {} }; + this.lightCache = { refs: {}, uses: {} }; + + this.sourceCache = {}; + this.textureCache = {}; + + // Track node names, to ensure no duplicates + this.nodeNamesUsed = {}; + + // Use an ImageBitmapLoader if imageBitmaps are supported. Moves much of the + // expensive work of uploading a texture to the GPU off the main thread. + + let isSafari = false; + let safariVersion = -1; + let isFirefox = false; + let firefoxVersion = -1; + + if ( typeof navigator !== 'undefined' ) { + + const userAgent = navigator.userAgent; + + isSafari = /^((?!chrome|android).)*safari/i.test( userAgent ) === true; + const safariMatch = userAgent.match( /Version\/(\d+)/ ); + safariVersion = isSafari && safariMatch ? parseInt( safariMatch[ 1 ], 10 ) : -1; + + isFirefox = userAgent.indexOf( 'Firefox' ) > -1; + firefoxVersion = isFirefox ? userAgent.match( /Firefox\/([0-9]+)\./ )[ 1 ] : -1; + + } + + if ( typeof createImageBitmap === 'undefined' || ( isSafari && safariVersion < 17 ) || ( isFirefox && firefoxVersion < 98 ) ) { + + this.textureLoader = new TextureLoader( this.options.manager ); + + } else { + + this.textureLoader = new ImageBitmapLoader( this.options.manager ); + + } + + this.textureLoader.setCrossOrigin( this.options.crossOrigin ); + this.textureLoader.setRequestHeader( this.options.requestHeader ); + + this.fileLoader = new FileLoader( this.options.manager ); + this.fileLoader.setResponseType( 'arraybuffer' ); + + if ( this.options.crossOrigin === 'use-credentials' ) { + + this.fileLoader.setWithCredentials( true ); + + } + + } + + setExtensions( extensions ) { + + this.extensions = extensions; + + } + + setPlugins( plugins ) { + + this.plugins = plugins; + + } + + parse( onLoad, onError ) { + + const parser = this; + const json = this.json; + const extensions = this.extensions; + + // Clear the loader cache + this.cache.removeAll(); + this.nodeCache = {}; + + // Mark the special nodes/meshes in json for efficient parse + this._invokeAll( function ( ext ) { + + return ext._markDefs && ext._markDefs(); + + } ); + + Promise.all( this._invokeAll( function ( ext ) { + + return ext.beforeRoot && ext.beforeRoot(); + + } ) ).then( function () { + + return Promise.all( [ + + parser.getDependencies( 'scene' ), + parser.getDependencies( 'animation' ), + parser.getDependencies( 'camera' ), + + ] ); + + } ).then( function ( dependencies ) { + + const result = { + scene: dependencies[ 0 ][ json.scene || 0 ], + scenes: dependencies[ 0 ], + animations: dependencies[ 1 ], + cameras: dependencies[ 2 ], + asset: json.asset, + parser: parser, + userData: {} + }; + + addUnknownExtensionsToUserData( extensions, result, json ); + + assignExtrasToUserData( result, json ); + + return Promise.all( parser._invokeAll( function ( ext ) { + + return ext.afterRoot && ext.afterRoot( result ); + + } ) ).then( function () { + + for ( const scene of result.scenes ) { + + scene.updateMatrixWorld(); + + } + + onLoad( result ); + + } ); + + } ).catch( onError ); + + } + + /** + * Marks the special nodes/meshes in json for efficient parse. + */ + _markDefs() { + + const nodeDefs = this.json.nodes || []; + const skinDefs = this.json.skins || []; + const meshDefs = this.json.meshes || []; + + // Nothing in the node definition indicates whether it is a Bone or an + // Object3D. Use the skins' joint references to mark bones. + for ( let skinIndex = 0, skinLength = skinDefs.length; skinIndex < skinLength; skinIndex ++ ) { + + const joints = skinDefs[ skinIndex ].joints; + + for ( let i = 0, il = joints.length; i < il; i ++ ) { + + nodeDefs[ joints[ i ] ].isBone = true; + + } + + } + + // Iterate over all nodes, marking references to shared resources, + // as well as skeleton joints. + for ( let nodeIndex = 0, nodeLength = nodeDefs.length; nodeIndex < nodeLength; nodeIndex ++ ) { + + const nodeDef = nodeDefs[ nodeIndex ]; + + if ( nodeDef.mesh !== undefined ) { + + this._addNodeRef( this.meshCache, nodeDef.mesh ); + + // Nothing in the mesh definition indicates whether it is + // a SkinnedMesh or Mesh. Use the node's mesh reference + // to mark SkinnedMesh if node has skin. + if ( nodeDef.skin !== undefined ) { + + meshDefs[ nodeDef.mesh ].isSkinnedMesh = true; + + } + + } + + if ( nodeDef.camera !== undefined ) { + + this._addNodeRef( this.cameraCache, nodeDef.camera ); + + } + + } + + } + + /** + * Counts references to shared node / Object3D resources. These resources + * can be reused, or "instantiated", at multiple nodes in the scene + * hierarchy. Mesh, Camera, and Light instances are instantiated and must + * be marked. Non-scenegraph resources (like Materials, Geometries, and + * Textures) can be reused directly and are not marked here. + * + * Example: CesiumMilkTruck sample model reuses "Wheel" meshes. + * + * @param {Object} cache + * @param {Object3D} index + */ + _addNodeRef( cache, index ) { + + if ( index === undefined ) return; + + if ( cache.refs[ index ] === undefined ) { + + cache.refs[ index ] = cache.uses[ index ] = 0; + + } + + cache.refs[ index ] ++; + + } + + /** + * Returns a reference to a shared resource, cloning it if necessary. + * + * @param {Object} cache + * @param {number} index + * @param {Object} object + * @return {Object} + */ + _getNodeRef( cache, index, object ) { + + if ( cache.refs[ index ] <= 1 ) return object; + + const ref = object.clone(); + + // Propagates mappings to the cloned object, prevents mappings on the + // original object from being lost. + const updateMappings = ( original, clone ) => { + + const mappings = this.associations.get( original ); + if ( mappings != null ) { + + this.associations.set( clone, mappings ); + + } + + for ( const [ i, child ] of original.children.entries() ) { + + updateMappings( child, clone.children[ i ] ); + + } + + }; + + updateMappings( object, ref ); + + ref.name += '_instance_' + ( cache.uses[ index ] ++ ); + + return ref; + + } + + _invokeOne( func ) { + + const extensions = Object.values( this.plugins ); + extensions.push( this ); + + for ( let i = 0; i < extensions.length; i ++ ) { + + const result = func( extensions[ i ] ); + + if ( result ) return result; + + } + + return null; + + } + + _invokeAll( func ) { + + const extensions = Object.values( this.plugins ); + extensions.unshift( this ); + + const pending = []; + + for ( let i = 0; i < extensions.length; i ++ ) { + + const result = func( extensions[ i ] ); + + if ( result ) pending.push( result ); + + } + + return pending; + + } + + /** + * Requests the specified dependency asynchronously, with caching. + * @param {string} type + * @param {number} index + * @return {Promise} + */ + getDependency( type, index ) { + + const cacheKey = type + ':' + index; + let dependency = this.cache.get( cacheKey ); + + if ( ! dependency ) { + + switch ( type ) { + + case 'scene': + dependency = this.loadScene( index ); + break; + + case 'node': + dependency = this._invokeOne( function ( ext ) { + + return ext.loadNode && ext.loadNode( index ); + + } ); + break; + + case 'mesh': + dependency = this._invokeOne( function ( ext ) { + + return ext.loadMesh && ext.loadMesh( index ); + + } ); + break; + + case 'accessor': + dependency = this.loadAccessor( index ); + break; + + case 'bufferView': + dependency = this._invokeOne( function ( ext ) { + + return ext.loadBufferView && ext.loadBufferView( index ); + + } ); + break; + + case 'buffer': + dependency = this.loadBuffer( index ); + break; + + case 'material': + dependency = this._invokeOne( function ( ext ) { + + return ext.loadMaterial && ext.loadMaterial( index ); + + } ); + break; + + case 'texture': + dependency = this._invokeOne( function ( ext ) { + + return ext.loadTexture && ext.loadTexture( index ); + + } ); + break; + + case 'skin': + dependency = this.loadSkin( index ); + break; + + case 'animation': + dependency = this._invokeOne( function ( ext ) { + + return ext.loadAnimation && ext.loadAnimation( index ); + + } ); + break; + + case 'camera': + dependency = this.loadCamera( index ); + break; + + default: + dependency = this._invokeOne( function ( ext ) { + + return ext != this && ext.getDependency && ext.getDependency( type, index ); + + } ); + + if ( ! dependency ) { + + throw new Error( 'Unknown type: ' + type ); + + } + + break; + + } + + this.cache.add( cacheKey, dependency ); + + } + + return dependency; + + } + + /** + * Requests all dependencies of the specified type asynchronously, with caching. + * @param {string} type + * @return {Promise>} + */ + getDependencies( type ) { + + let dependencies = this.cache.get( type ); + + if ( ! dependencies ) { + + const parser = this; + const defs = this.json[ type + ( type === 'mesh' ? 'es' : 's' ) ] || []; + + dependencies = Promise.all( defs.map( function ( def, index ) { + + return parser.getDependency( type, index ); + + } ) ); + + this.cache.add( type, dependencies ); + + } + + return dependencies; + + } + + /** + * Specification: https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#buffers-and-buffer-views + * @param {number} bufferIndex + * @return {Promise} + */ + loadBuffer( bufferIndex ) { + + const bufferDef = this.json.buffers[ bufferIndex ]; + const loader = this.fileLoader; + + if ( bufferDef.type && bufferDef.type !== 'arraybuffer' ) { + + throw new Error( 'THREE.GLTFLoader: ' + bufferDef.type + ' buffer type is not supported.' ); + + } + + // If present, GLB container is required to be the first buffer. + if ( bufferDef.uri === undefined && bufferIndex === 0 ) { + + return Promise.resolve( this.extensions[ EXTENSIONS.KHR_BINARY_GLTF ].body ); + + } + + const options = this.options; + + return new Promise( function ( resolve, reject ) { + + loader.load( LoaderUtils.resolveURL( bufferDef.uri, options.path ), resolve, undefined, function () { + + reject( new Error( 'THREE.GLTFLoader: Failed to load buffer "' + bufferDef.uri + '".' ) ); + + } ); + + } ); + + } + + /** + * Specification: https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#buffers-and-buffer-views + * @param {number} bufferViewIndex + * @return {Promise} + */ + loadBufferView( bufferViewIndex ) { + + const bufferViewDef = this.json.bufferViews[ bufferViewIndex ]; + + return this.getDependency( 'buffer', bufferViewDef.buffer ).then( function ( buffer ) { + + const byteLength = bufferViewDef.byteLength || 0; + const byteOffset = bufferViewDef.byteOffset || 0; + return buffer.slice( byteOffset, byteOffset + byteLength ); + + } ); + + } + + /** + * Specification: https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#accessors + * @param {number} accessorIndex + * @return {Promise} + */ + loadAccessor( accessorIndex ) { + + const parser = this; + const json = this.json; + + const accessorDef = this.json.accessors[ accessorIndex ]; + + if ( accessorDef.bufferView === undefined && accessorDef.sparse === undefined ) { + + const itemSize = WEBGL_TYPE_SIZES[ accessorDef.type ]; + const TypedArray = WEBGL_COMPONENT_TYPES[ accessorDef.componentType ]; + const normalized = accessorDef.normalized === true; + + const array = new TypedArray( accessorDef.count * itemSize ); + return Promise.resolve( new BufferAttribute( array, itemSize, normalized ) ); + + } + + const pendingBufferViews = []; + + if ( accessorDef.bufferView !== undefined ) { + + pendingBufferViews.push( this.getDependency( 'bufferView', accessorDef.bufferView ) ); + + } else { + + pendingBufferViews.push( null ); + + } + + if ( accessorDef.sparse !== undefined ) { + + pendingBufferViews.push( this.getDependency( 'bufferView', accessorDef.sparse.indices.bufferView ) ); + pendingBufferViews.push( this.getDependency( 'bufferView', accessorDef.sparse.values.bufferView ) ); + + } + + return Promise.all( pendingBufferViews ).then( function ( bufferViews ) { + + const bufferView = bufferViews[ 0 ]; + + const itemSize = WEBGL_TYPE_SIZES[ accessorDef.type ]; + const TypedArray = WEBGL_COMPONENT_TYPES[ accessorDef.componentType ]; + + // For VEC3: itemSize is 3, elementBytes is 4, itemBytes is 12. + const elementBytes = TypedArray.BYTES_PER_ELEMENT; + const itemBytes = elementBytes * itemSize; + const byteOffset = accessorDef.byteOffset || 0; + const byteStride = accessorDef.bufferView !== undefined ? json.bufferViews[ accessorDef.bufferView ].byteStride : undefined; + const normalized = accessorDef.normalized === true; + let array, bufferAttribute; + + // The buffer is not interleaved if the stride is the item size in bytes. + if ( byteStride && byteStride !== itemBytes ) { + + // Each "slice" of the buffer, as defined by 'count' elements of 'byteStride' bytes, gets its own InterleavedBuffer + // This makes sure that IBA.count reflects accessor.count properly + const ibSlice = Math.floor( byteOffset / byteStride ); + const ibCacheKey = 'InterleavedBuffer:' + accessorDef.bufferView + ':' + accessorDef.componentType + ':' + ibSlice + ':' + accessorDef.count; + let ib = parser.cache.get( ibCacheKey ); + + if ( ! ib ) { + + array = new TypedArray( bufferView, ibSlice * byteStride, accessorDef.count * byteStride / elementBytes ); + + // Integer parameters to IB/IBA are in array elements, not bytes. + ib = new InterleavedBuffer( array, byteStride / elementBytes ); + + parser.cache.add( ibCacheKey, ib ); + + } + + bufferAttribute = new InterleavedBufferAttribute( ib, itemSize, ( byteOffset % byteStride ) / elementBytes, normalized ); + + } else { + + if ( bufferView === null ) { + + array = new TypedArray( accessorDef.count * itemSize ); + + } else { + + array = new TypedArray( bufferView, byteOffset, accessorDef.count * itemSize ); + + } + + bufferAttribute = new BufferAttribute( array, itemSize, normalized ); + + } + + // https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#sparse-accessors + if ( accessorDef.sparse !== undefined ) { + + const itemSizeIndices = WEBGL_TYPE_SIZES.SCALAR; + const TypedArrayIndices = WEBGL_COMPONENT_TYPES[ accessorDef.sparse.indices.componentType ]; + + const byteOffsetIndices = accessorDef.sparse.indices.byteOffset || 0; + const byteOffsetValues = accessorDef.sparse.values.byteOffset || 0; + + const sparseIndices = new TypedArrayIndices( bufferViews[ 1 ], byteOffsetIndices, accessorDef.sparse.count * itemSizeIndices ); + const sparseValues = new TypedArray( bufferViews[ 2 ], byteOffsetValues, accessorDef.sparse.count * itemSize ); + + if ( bufferView !== null ) { + + // Avoid modifying the original ArrayBuffer, if the bufferView wasn't initialized with zeroes. + bufferAttribute = new BufferAttribute( bufferAttribute.array.slice(), bufferAttribute.itemSize, bufferAttribute.normalized ); + + } + + // Ignore normalized since we copy from sparse + bufferAttribute.normalized = false; + + for ( let i = 0, il = sparseIndices.length; i < il; i ++ ) { + + const index = sparseIndices[ i ]; + + bufferAttribute.setX( index, sparseValues[ i * itemSize ] ); + if ( itemSize >= 2 ) bufferAttribute.setY( index, sparseValues[ i * itemSize + 1 ] ); + if ( itemSize >= 3 ) bufferAttribute.setZ( index, sparseValues[ i * itemSize + 2 ] ); + if ( itemSize >= 4 ) bufferAttribute.setW( index, sparseValues[ i * itemSize + 3 ] ); + if ( itemSize >= 5 ) throw new Error( 'THREE.GLTFLoader: Unsupported itemSize in sparse BufferAttribute.' ); + + } + + bufferAttribute.normalized = normalized; + + } + + return bufferAttribute; + + } ); + + } + + /** + * Specification: https://github.com/KhronosGroup/glTF/tree/master/specification/2.0#textures + * @param {number} textureIndex + * @return {Promise} + */ + loadTexture( textureIndex ) { + + const json = this.json; + const options = this.options; + const textureDef = json.textures[ textureIndex ]; + const sourceIndex = textureDef.source; + const sourceDef = json.images[ sourceIndex ]; + + let loader = this.textureLoader; + + if ( sourceDef.uri ) { + + const handler = options.manager.getHandler( sourceDef.uri ); + if ( handler !== null ) loader = handler; + + } + + return this.loadTextureImage( textureIndex, sourceIndex, loader ); + + } + + loadTextureImage( textureIndex, sourceIndex, loader ) { + + const parser = this; + const json = this.json; + + const textureDef = json.textures[ textureIndex ]; + const sourceDef = json.images[ sourceIndex ]; + + const cacheKey = ( sourceDef.uri || sourceDef.bufferView ) + ':' + textureDef.sampler; + + if ( this.textureCache[ cacheKey ] ) { + + // See https://github.com/mrdoob/three.js/issues/21559. + return this.textureCache[ cacheKey ]; + + } + + const promise = this.loadImageSource( sourceIndex, loader ).then( function ( texture ) { + + texture.flipY = false; + + texture.name = textureDef.name || sourceDef.name || ''; + + if ( texture.name === '' && typeof sourceDef.uri === 'string' && sourceDef.uri.startsWith( 'data:image/' ) === false ) { + + texture.name = sourceDef.uri; + + } + + const samplers = json.samplers || {}; + const sampler = samplers[ textureDef.sampler ] || {}; + + texture.magFilter = WEBGL_FILTERS[ sampler.magFilter ] || LinearFilter; + texture.minFilter = WEBGL_FILTERS[ sampler.minFilter ] || LinearMipmapLinearFilter; + texture.wrapS = WEBGL_WRAPPINGS[ sampler.wrapS ] || RepeatWrapping; + texture.wrapT = WEBGL_WRAPPINGS[ sampler.wrapT ] || RepeatWrapping; + texture.generateMipmaps = ! texture.isCompressedTexture && texture.minFilter !== NearestFilter && texture.minFilter !== LinearFilter; + + parser.associations.set( texture, { textures: textureIndex } ); + + return texture; + + } ).catch( function () { + + return null; + + } ); + + this.textureCache[ cacheKey ] = promise; + + return promise; + + } + + loadImageSource( sourceIndex, loader ) { + + const parser = this; + const json = this.json; + const options = this.options; + + if ( this.sourceCache[ sourceIndex ] !== undefined ) { + + return this.sourceCache[ sourceIndex ].then( ( texture ) => texture.clone() ); + + } + + const sourceDef = json.images[ sourceIndex ]; + + const URL = self.URL || self.webkitURL; + + let sourceURI = sourceDef.uri || ''; + let isObjectURL = false; + + if ( sourceDef.bufferView !== undefined ) { + + // Load binary image data from bufferView, if provided. + + sourceURI = parser.getDependency( 'bufferView', sourceDef.bufferView ).then( function ( bufferView ) { + + isObjectURL = true; + const blob = new Blob( [ bufferView ], { type: sourceDef.mimeType } ); + sourceURI = URL.createObjectURL( blob ); + return sourceURI; + + } ); + + } else if ( sourceDef.uri === undefined ) { + + throw new Error( 'THREE.GLTFLoader: Image ' + sourceIndex + ' is missing URI and bufferView' ); + + } + + const promise = Promise.resolve( sourceURI ).then( function ( sourceURI ) { + + return new Promise( function ( resolve, reject ) { + + let onLoad = resolve; + + if ( loader.isImageBitmapLoader === true ) { + + onLoad = function ( imageBitmap ) { + + const texture = new Texture$1( imageBitmap ); + texture.needsUpdate = true; + + resolve( texture ); + + }; + + } + + loader.load( LoaderUtils.resolveURL( sourceURI, options.path ), onLoad, undefined, reject ); + + } ); + + } ).then( function ( texture ) { + + // Clean up resources and configure Texture. + + if ( isObjectURL === true ) { + + URL.revokeObjectURL( sourceURI ); + + } + + assignExtrasToUserData( texture, sourceDef ); + + texture.userData.mimeType = sourceDef.mimeType || getImageURIMimeType( sourceDef.uri ); + + return texture; + + } ).catch( function ( error ) { + + console.error( 'THREE.GLTFLoader: Couldn\'t load texture', sourceURI ); + throw error; + + } ); + + this.sourceCache[ sourceIndex ] = promise; + return promise; + + } + + /** + * Asynchronously assigns a texture to the given material parameters. + * + * @param {Object} materialParams + * @param {string} mapName + * @param {Object} mapDef + * @param {string} colorSpace + * @return {Promise} + */ + assignTexture( materialParams, mapName, mapDef, colorSpace ) { + + const parser = this; + + return this.getDependency( 'texture', mapDef.index ).then( function ( texture ) { + + if ( ! texture ) return null; + + if ( mapDef.texCoord !== undefined && mapDef.texCoord > 0 ) { + + texture = texture.clone(); + texture.channel = mapDef.texCoord; + + } + + if ( parser.extensions[ EXTENSIONS.KHR_TEXTURE_TRANSFORM ] ) { + + const transform = mapDef.extensions !== undefined ? mapDef.extensions[ EXTENSIONS.KHR_TEXTURE_TRANSFORM ] : undefined; + + if ( transform ) { + + const gltfReference = parser.associations.get( texture ); + texture = parser.extensions[ EXTENSIONS.KHR_TEXTURE_TRANSFORM ].extendTexture( texture, transform ); + parser.associations.set( texture, gltfReference ); + + } + + } + + if ( colorSpace !== undefined ) { + + texture.colorSpace = colorSpace; + + } + + materialParams[ mapName ] = texture; + + return texture; + + } ); + + } + + /** + * Assigns final material to a Mesh, Line, or Points instance. The instance + * already has a material (generated from the glTF material options alone) + * but reuse of the same glTF material may require multiple threejs materials + * to accommodate different primitive types, defines, etc. New materials will + * be created if necessary, and reused from a cache. + * @param {Object3D} mesh Mesh, Line, or Points instance. + */ + assignFinalMaterial( mesh ) { + + const geometry = mesh.geometry; + let material = mesh.material; + + const useDerivativeTangents = geometry.attributes.tangent === undefined; + const useVertexColors = geometry.attributes.color !== undefined; + const useFlatShading = geometry.attributes.normal === undefined; + + if ( mesh.isPoints ) { + + const cacheKey = 'PointsMaterial:' + material.uuid; + + let pointsMaterial = this.cache.get( cacheKey ); + + if ( ! pointsMaterial ) { + + pointsMaterial = new PointsMaterial(); + Material$1.prototype.copy.call( pointsMaterial, material ); + pointsMaterial.color.copy( material.color ); + pointsMaterial.map = material.map; + pointsMaterial.sizeAttenuation = false; // glTF spec says points should be 1px + + this.cache.add( cacheKey, pointsMaterial ); + + } + + material = pointsMaterial; + + } else if ( mesh.isLine ) { + + const cacheKey = 'LineBasicMaterial:' + material.uuid; + + let lineMaterial = this.cache.get( cacheKey ); + + if ( ! lineMaterial ) { + + lineMaterial = new LineBasicMaterial(); + Material$1.prototype.copy.call( lineMaterial, material ); + lineMaterial.color.copy( material.color ); + lineMaterial.map = material.map; + + this.cache.add( cacheKey, lineMaterial ); + + } + + material = lineMaterial; + + } + + // Clone the material if it will be modified + if ( useDerivativeTangents || useVertexColors || useFlatShading ) { + + let cacheKey = 'ClonedMaterial:' + material.uuid + ':'; + + if ( useDerivativeTangents ) cacheKey += 'derivative-tangents:'; + if ( useVertexColors ) cacheKey += 'vertex-colors:'; + if ( useFlatShading ) cacheKey += 'flat-shading:'; + + let cachedMaterial = this.cache.get( cacheKey ); + + if ( ! cachedMaterial ) { + + cachedMaterial = material.clone(); + + if ( useVertexColors ) cachedMaterial.vertexColors = true; + if ( useFlatShading ) cachedMaterial.flatShading = true; + + if ( useDerivativeTangents ) { + + // https://github.com/mrdoob/three.js/issues/11438#issuecomment-507003995 + if ( cachedMaterial.normalScale ) cachedMaterial.normalScale.y *= -1; + if ( cachedMaterial.clearcoatNormalScale ) cachedMaterial.clearcoatNormalScale.y *= -1; + + } + + this.cache.add( cacheKey, cachedMaterial ); + + this.associations.set( cachedMaterial, this.associations.get( material ) ); + + } + + material = cachedMaterial; + + } + + mesh.material = material; + + } + + getMaterialType( /* materialIndex */ ) { + + return MeshStandardMaterial; + + } + + /** + * Specification: https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#materials + * @param {number} materialIndex + * @return {Promise} + */ + loadMaterial( materialIndex ) { + + const parser = this; + const json = this.json; + const extensions = this.extensions; + const materialDef = json.materials[ materialIndex ]; + + let materialType; + const materialParams = {}; + const materialExtensions = materialDef.extensions || {}; + + const pending = []; + + if ( materialExtensions[ EXTENSIONS.KHR_MATERIALS_UNLIT ] ) { + + const kmuExtension = extensions[ EXTENSIONS.KHR_MATERIALS_UNLIT ]; + materialType = kmuExtension.getMaterialType(); + pending.push( kmuExtension.extendParams( materialParams, materialDef, parser ) ); + + } else { + + // Specification: + // https://github.com/KhronosGroup/glTF/tree/master/specification/2.0#metallic-roughness-material + + const metallicRoughness = materialDef.pbrMetallicRoughness || {}; + + materialParams.color = new Color( 1.0, 1.0, 1.0 ); + materialParams.opacity = 1.0; + + if ( Array.isArray( metallicRoughness.baseColorFactor ) ) { + + const array = metallicRoughness.baseColorFactor; + + materialParams.color.setRGB( array[ 0 ], array[ 1 ], array[ 2 ], LinearSRGBColorSpace ); + materialParams.opacity = array[ 3 ]; + + } + + if ( metallicRoughness.baseColorTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'map', metallicRoughness.baseColorTexture, SRGBColorSpace ) ); + + } + + materialParams.metalness = metallicRoughness.metallicFactor !== undefined ? metallicRoughness.metallicFactor : 1.0; + materialParams.roughness = metallicRoughness.roughnessFactor !== undefined ? metallicRoughness.roughnessFactor : 1.0; + + if ( metallicRoughness.metallicRoughnessTexture !== undefined ) { + + pending.push( parser.assignTexture( materialParams, 'metalnessMap', metallicRoughness.metallicRoughnessTexture ) ); + pending.push( parser.assignTexture( materialParams, 'roughnessMap', metallicRoughness.metallicRoughnessTexture ) ); + + } + + materialType = this._invokeOne( function ( ext ) { + + return ext.getMaterialType && ext.getMaterialType( materialIndex ); + + } ); + + pending.push( Promise.all( this._invokeAll( function ( ext ) { + + return ext.extendMaterialParams && ext.extendMaterialParams( materialIndex, materialParams ); + + } ) ) ); + + } + + if ( materialDef.doubleSided === true ) { + + materialParams.side = DoubleSide; + + } + + const alphaMode = materialDef.alphaMode || ALPHA_MODES.OPAQUE; + + if ( alphaMode === ALPHA_MODES.BLEND ) { + + materialParams.transparent = true; + + // See: https://github.com/mrdoob/three.js/issues/17706 + materialParams.depthWrite = false; + + } else { + + materialParams.transparent = false; + + if ( alphaMode === ALPHA_MODES.MASK ) { + + materialParams.alphaTest = materialDef.alphaCutoff !== undefined ? materialDef.alphaCutoff : 0.5; + + } + + } + + if ( materialDef.normalTexture !== undefined && materialType !== MeshBasicMaterial ) { + + pending.push( parser.assignTexture( materialParams, 'normalMap', materialDef.normalTexture ) ); + + materialParams.normalScale = new Vector2( 1, 1 ); + + if ( materialDef.normalTexture.scale !== undefined ) { + + const scale = materialDef.normalTexture.scale; + + materialParams.normalScale.set( scale, scale ); + + } + + } + + if ( materialDef.occlusionTexture !== undefined && materialType !== MeshBasicMaterial ) { + + pending.push( parser.assignTexture( materialParams, 'aoMap', materialDef.occlusionTexture ) ); + + if ( materialDef.occlusionTexture.strength !== undefined ) { + + materialParams.aoMapIntensity = materialDef.occlusionTexture.strength; + + } + + } + + if ( materialDef.emissiveFactor !== undefined && materialType !== MeshBasicMaterial ) { + + const emissiveFactor = materialDef.emissiveFactor; + materialParams.emissive = new Color().setRGB( emissiveFactor[ 0 ], emissiveFactor[ 1 ], emissiveFactor[ 2 ], LinearSRGBColorSpace ); + + } + + if ( materialDef.emissiveTexture !== undefined && materialType !== MeshBasicMaterial ) { + + pending.push( parser.assignTexture( materialParams, 'emissiveMap', materialDef.emissiveTexture, SRGBColorSpace ) ); + + } + + return Promise.all( pending ).then( function () { + + const material = new materialType( materialParams ); + + if ( materialDef.name ) material.name = materialDef.name; + + assignExtrasToUserData( material, materialDef ); + + parser.associations.set( material, { materials: materialIndex } ); + + if ( materialDef.extensions ) addUnknownExtensionsToUserData( extensions, material, materialDef ); + + return material; + + } ); + + } + + /** + * When Object3D instances are targeted by animation, they need unique names. + * + * @param {string} originalName + * @return {string} + */ + createUniqueName( originalName ) { + + const sanitizedName = PropertyBinding.sanitizeNodeName( originalName || '' ); + + if ( sanitizedName in this.nodeNamesUsed ) { + + return sanitizedName + '_' + ( ++ this.nodeNamesUsed[ sanitizedName ] ); + + } else { + + this.nodeNamesUsed[ sanitizedName ] = 0; + + return sanitizedName; + + } + + } + + /** + * Specification: https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#geometry + * + * Creates BufferGeometries from primitives. + * + * @param {Array} primitives + * @return {Promise>} + */ + loadGeometries( primitives ) { + + const parser = this; + const extensions = this.extensions; + const cache = this.primitiveCache; + + function createDracoPrimitive( primitive ) { + + return extensions[ EXTENSIONS.KHR_DRACO_MESH_COMPRESSION ] + .decodePrimitive( primitive, parser ) + .then( function ( geometry ) { + + return addPrimitiveAttributes( geometry, primitive, parser ); + + } ); + + } + + const pending = []; + + for ( let i = 0, il = primitives.length; i < il; i ++ ) { + + const primitive = primitives[ i ]; + const cacheKey = createPrimitiveKey( primitive ); + + // See if we've already created this geometry + const cached = cache[ cacheKey ]; + + if ( cached ) { + + // Use the cached geometry if it exists + pending.push( cached.promise ); + + } else { + + let geometryPromise; + + if ( primitive.extensions && primitive.extensions[ EXTENSIONS.KHR_DRACO_MESH_COMPRESSION ] ) { + + // Use DRACO geometry if available + geometryPromise = createDracoPrimitive( primitive ); + + } else { + + // Otherwise create a new geometry + geometryPromise = addPrimitiveAttributes( new BufferGeometry(), primitive, parser ); + + } + + // Cache this geometry + cache[ cacheKey ] = { primitive: primitive, promise: geometryPromise }; + + pending.push( geometryPromise ); + + } + + } + + return Promise.all( pending ); + + } + + /** + * Specification: https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#meshes + * @param {number} meshIndex + * @return {Promise} + */ + loadMesh( meshIndex ) { + + const parser = this; + const json = this.json; + const extensions = this.extensions; + + const meshDef = json.meshes[ meshIndex ]; + const primitives = meshDef.primitives; + + const pending = []; + + for ( let i = 0, il = primitives.length; i < il; i ++ ) { + + const material = primitives[ i ].material === undefined + ? createDefaultMaterial( this.cache ) + : this.getDependency( 'material', primitives[ i ].material ); + + pending.push( material ); + + } + + pending.push( parser.loadGeometries( primitives ) ); + + return Promise.all( pending ).then( function ( results ) { + + const materials = results.slice( 0, results.length - 1 ); + const geometries = results[ results.length - 1 ]; + + const meshes = []; + + for ( let i = 0, il = geometries.length; i < il; i ++ ) { + + const geometry = geometries[ i ]; + const primitive = primitives[ i ]; + + // 1. create Mesh + + let mesh; + + const material = materials[ i ]; + + if ( primitive.mode === WEBGL_CONSTANTS$1.TRIANGLES || + primitive.mode === WEBGL_CONSTANTS$1.TRIANGLE_STRIP || + primitive.mode === WEBGL_CONSTANTS$1.TRIANGLE_FAN || + primitive.mode === undefined ) { + + // .isSkinnedMesh isn't in glTF spec. See ._markDefs() + mesh = meshDef.isSkinnedMesh === true + ? new SkinnedMesh( geometry, material ) + : new Mesh( geometry, material ); + + if ( mesh.isSkinnedMesh === true ) { + + // normalize skin weights to fix malformed assets (see #15319) + mesh.normalizeSkinWeights(); + + } + + if ( primitive.mode === WEBGL_CONSTANTS$1.TRIANGLE_STRIP ) { + + mesh.geometry = toTrianglesDrawMode( mesh.geometry, TriangleStripDrawMode ); + + } else if ( primitive.mode === WEBGL_CONSTANTS$1.TRIANGLE_FAN ) { + + mesh.geometry = toTrianglesDrawMode( mesh.geometry, TriangleFanDrawMode ); + + } + + } else if ( primitive.mode === WEBGL_CONSTANTS$1.LINES ) { + + mesh = new LineSegments( geometry, material ); + + } else if ( primitive.mode === WEBGL_CONSTANTS$1.LINE_STRIP ) { + + mesh = new Line( geometry, material ); + + } else if ( primitive.mode === WEBGL_CONSTANTS$1.LINE_LOOP ) { + + mesh = new LineLoop( geometry, material ); + + } else if ( primitive.mode === WEBGL_CONSTANTS$1.POINTS ) { + + mesh = new Points( geometry, material ); + + } else { + + throw new Error( 'THREE.GLTFLoader: Primitive mode unsupported: ' + primitive.mode ); + + } + + if ( Object.keys( mesh.geometry.morphAttributes ).length > 0 ) { + + updateMorphTargets( mesh, meshDef ); + + } + + mesh.name = parser.createUniqueName( meshDef.name || ( 'mesh_' + meshIndex ) ); + + assignExtrasToUserData( mesh, meshDef ); + + if ( primitive.extensions ) addUnknownExtensionsToUserData( extensions, mesh, primitive ); + + parser.assignFinalMaterial( mesh ); + + meshes.push( mesh ); + + } + + for ( let i = 0, il = meshes.length; i < il; i ++ ) { + + parser.associations.set( meshes[ i ], { + meshes: meshIndex, + primitives: i + } ); + + } + + if ( meshes.length === 1 ) { + + if ( meshDef.extensions ) addUnknownExtensionsToUserData( extensions, meshes[ 0 ], meshDef ); + + return meshes[ 0 ]; + + } + + const group = new Group(); + + if ( meshDef.extensions ) addUnknownExtensionsToUserData( extensions, group, meshDef ); + + parser.associations.set( group, { meshes: meshIndex } ); + + for ( let i = 0, il = meshes.length; i < il; i ++ ) { + + group.add( meshes[ i ] ); + + } + + return group; + + } ); + + } + + /** + * Specification: https://github.com/KhronosGroup/glTF/tree/master/specification/2.0#cameras + * @param {number} cameraIndex + * @return {Promise} + */ + loadCamera( cameraIndex ) { + + let camera; + const cameraDef = this.json.cameras[ cameraIndex ]; + const params = cameraDef[ cameraDef.type ]; + + if ( ! params ) { + + console.warn( 'THREE.GLTFLoader: Missing camera parameters.' ); + return; + + } + + if ( cameraDef.type === 'perspective' ) { + + camera = new PerspectiveCamera( MathUtils.radToDeg( params.yfov ), params.aspectRatio || 1, params.znear || 1, params.zfar || 2e6 ); + + } else if ( cameraDef.type === 'orthographic' ) { + + camera = new OrthographicCamera( - params.xmag, params.xmag, params.ymag, - params.ymag, params.znear, params.zfar ); + + } + + if ( cameraDef.name ) camera.name = this.createUniqueName( cameraDef.name ); + + assignExtrasToUserData( camera, cameraDef ); + + return Promise.resolve( camera ); + + } + + /** + * Specification: https://github.com/KhronosGroup/glTF/tree/master/specification/2.0#skins + * @param {number} skinIndex + * @return {Promise} + */ + loadSkin( skinIndex ) { + + const skinDef = this.json.skins[ skinIndex ]; + + const pending = []; + + for ( let i = 0, il = skinDef.joints.length; i < il; i ++ ) { + + pending.push( this._loadNodeShallow( skinDef.joints[ i ] ) ); + + } + + if ( skinDef.inverseBindMatrices !== undefined ) { + + pending.push( this.getDependency( 'accessor', skinDef.inverseBindMatrices ) ); + + } else { + + pending.push( null ); + + } + + return Promise.all( pending ).then( function ( results ) { + + const inverseBindMatrices = results.pop(); + const jointNodes = results; + + // Note that bones (joint nodes) may or may not be in the + // scene graph at this time. + + const bones = []; + const boneInverses = []; + + for ( let i = 0, il = jointNodes.length; i < il; i ++ ) { + + const jointNode = jointNodes[ i ]; + + if ( jointNode ) { + + bones.push( jointNode ); + + const mat = new Matrix4(); + + if ( inverseBindMatrices !== null ) { + + mat.fromArray( inverseBindMatrices.array, i * 16 ); + + } + + boneInverses.push( mat ); + + } else { + + console.warn( 'THREE.GLTFLoader: Joint "%s" could not be found.', skinDef.joints[ i ] ); + + } + + } + + return new Skeleton( bones, boneInverses ); + + } ); + + } + + /** + * Specification: https://github.com/KhronosGroup/glTF/tree/master/specification/2.0#animations + * @param {number} animationIndex + * @return {Promise} + */ + loadAnimation( animationIndex ) { + + const json = this.json; + const parser = this; + + const animationDef = json.animations[ animationIndex ]; + const animationName = animationDef.name ? animationDef.name : 'animation_' + animationIndex; + + const pendingNodes = []; + const pendingInputAccessors = []; + const pendingOutputAccessors = []; + const pendingSamplers = []; + const pendingTargets = []; + + for ( let i = 0, il = animationDef.channels.length; i < il; i ++ ) { + + const channel = animationDef.channels[ i ]; + const sampler = animationDef.samplers[ channel.sampler ]; + const target = channel.target; + const name = target.node; + const input = animationDef.parameters !== undefined ? animationDef.parameters[ sampler.input ] : sampler.input; + const output = animationDef.parameters !== undefined ? animationDef.parameters[ sampler.output ] : sampler.output; + + if ( target.node === undefined ) continue; + + pendingNodes.push( this.getDependency( 'node', name ) ); + pendingInputAccessors.push( this.getDependency( 'accessor', input ) ); + pendingOutputAccessors.push( this.getDependency( 'accessor', output ) ); + pendingSamplers.push( sampler ); + pendingTargets.push( target ); + + } + + return Promise.all( [ + + Promise.all( pendingNodes ), + Promise.all( pendingInputAccessors ), + Promise.all( pendingOutputAccessors ), + Promise.all( pendingSamplers ), + Promise.all( pendingTargets ) + + ] ).then( function ( dependencies ) { + + const nodes = dependencies[ 0 ]; + const inputAccessors = dependencies[ 1 ]; + const outputAccessors = dependencies[ 2 ]; + const samplers = dependencies[ 3 ]; + const targets = dependencies[ 4 ]; + + const tracks = []; + + for ( let i = 0, il = nodes.length; i < il; i ++ ) { + + const node = nodes[ i ]; + const inputAccessor = inputAccessors[ i ]; + const outputAccessor = outputAccessors[ i ]; + const sampler = samplers[ i ]; + const target = targets[ i ]; + + if ( node === undefined ) continue; + + if ( node.updateMatrix ) { + + node.updateMatrix(); + + } + + const createdTracks = parser._createAnimationTracks( node, inputAccessor, outputAccessor, sampler, target ); + + if ( createdTracks ) { + + for ( let k = 0; k < createdTracks.length; k ++ ) { + + tracks.push( createdTracks[ k ] ); + + } + + } + + } + + return new AnimationClip( animationName, undefined, tracks ); + + } ); + + } + + createNodeMesh( nodeIndex ) { + + const json = this.json; + const parser = this; + const nodeDef = json.nodes[ nodeIndex ]; + + if ( nodeDef.mesh === undefined ) return null; + + return parser.getDependency( 'mesh', nodeDef.mesh ).then( function ( mesh ) { + + const node = parser._getNodeRef( parser.meshCache, nodeDef.mesh, mesh ); + + // if weights are provided on the node, override weights on the mesh. + if ( nodeDef.weights !== undefined ) { + + node.traverse( function ( o ) { + + if ( ! o.isMesh ) return; + + for ( let i = 0, il = nodeDef.weights.length; i < il; i ++ ) { + + o.morphTargetInfluences[ i ] = nodeDef.weights[ i ]; + + } + + } ); + + } + + return node; + + } ); + + } + + /** + * Specification: https://github.com/KhronosGroup/glTF/tree/master/specification/2.0#nodes-and-hierarchy + * @param {number} nodeIndex + * @return {Promise} + */ + loadNode( nodeIndex ) { + + const json = this.json; + const parser = this; + + const nodeDef = json.nodes[ nodeIndex ]; + + const nodePending = parser._loadNodeShallow( nodeIndex ); + + const childPending = []; + const childrenDef = nodeDef.children || []; + + for ( let i = 0, il = childrenDef.length; i < il; i ++ ) { + + childPending.push( parser.getDependency( 'node', childrenDef[ i ] ) ); + + } + + const skeletonPending = nodeDef.skin === undefined + ? Promise.resolve( null ) + : parser.getDependency( 'skin', nodeDef.skin ); + + return Promise.all( [ + nodePending, + Promise.all( childPending ), + skeletonPending + ] ).then( function ( results ) { + + const node = results[ 0 ]; + const children = results[ 1 ]; + const skeleton = results[ 2 ]; + + if ( skeleton !== null ) { + + // This full traverse should be fine because + // child glTF nodes have not been added to this node yet. + node.traverse( function ( mesh ) { + + if ( ! mesh.isSkinnedMesh ) return; + + mesh.bind( skeleton, _identityMatrix ); + + } ); + + } + + for ( let i = 0, il = children.length; i < il; i ++ ) { + + node.add( children[ i ] ); + + } + + return node; + + } ); + + } + + // ._loadNodeShallow() parses a single node. + // skin and child nodes are created and added in .loadNode() (no '_' prefix). + _loadNodeShallow( nodeIndex ) { + + const json = this.json; + const extensions = this.extensions; + const parser = this; + + // This method is called from .loadNode() and .loadSkin(). + // Cache a node to avoid duplication. + + if ( this.nodeCache[ nodeIndex ] !== undefined ) { + + return this.nodeCache[ nodeIndex ]; + + } + + const nodeDef = json.nodes[ nodeIndex ]; + + // reserve node's name before its dependencies, so the root has the intended name. + const nodeName = nodeDef.name ? parser.createUniqueName( nodeDef.name ) : ''; + + const pending = []; + + const meshPromise = parser._invokeOne( function ( ext ) { + + return ext.createNodeMesh && ext.createNodeMesh( nodeIndex ); + + } ); + + if ( meshPromise ) { + + pending.push( meshPromise ); + + } + + if ( nodeDef.camera !== undefined ) { + + pending.push( parser.getDependency( 'camera', nodeDef.camera ).then( function ( camera ) { + + return parser._getNodeRef( parser.cameraCache, nodeDef.camera, camera ); + + } ) ); + + } + + parser._invokeAll( function ( ext ) { + + return ext.createNodeAttachment && ext.createNodeAttachment( nodeIndex ); + + } ).forEach( function ( promise ) { + + pending.push( promise ); + + } ); + + this.nodeCache[ nodeIndex ] = Promise.all( pending ).then( function ( objects ) { + + let node; + + // .isBone isn't in glTF spec. See ._markDefs + if ( nodeDef.isBone === true ) { + + node = new Bone(); + + } else if ( objects.length > 1 ) { + + node = new Group(); + + } else if ( objects.length === 1 ) { + + node = objects[ 0 ]; + + } else { + + node = new Object3D(); + + } + + if ( node !== objects[ 0 ] ) { + + for ( let i = 0, il = objects.length; i < il; i ++ ) { + + node.add( objects[ i ] ); + + } + + } + + if ( nodeDef.name ) { + + node.userData.name = nodeDef.name; + node.name = nodeName; + + } + + assignExtrasToUserData( node, nodeDef ); + + if ( nodeDef.extensions ) addUnknownExtensionsToUserData( extensions, node, nodeDef ); + + if ( nodeDef.matrix !== undefined ) { + + const matrix = new Matrix4(); + matrix.fromArray( nodeDef.matrix ); + node.applyMatrix4( matrix ); + + } else { + + if ( nodeDef.translation !== undefined ) { + + node.position.fromArray( nodeDef.translation ); + + } + + if ( nodeDef.rotation !== undefined ) { + + node.quaternion.fromArray( nodeDef.rotation ); + + } + + if ( nodeDef.scale !== undefined ) { + + node.scale.fromArray( nodeDef.scale ); + + } + + } + + if ( ! parser.associations.has( node ) ) { + + parser.associations.set( node, {} ); + + } + + parser.associations.get( node ).nodes = nodeIndex; + + return node; + + } ); + + return this.nodeCache[ nodeIndex ]; + + } + + /** + * Specification: https://github.com/KhronosGroup/glTF/tree/master/specification/2.0#scenes + * @param {number} sceneIndex + * @return {Promise} + */ + loadScene( sceneIndex ) { + + const extensions = this.extensions; + const sceneDef = this.json.scenes[ sceneIndex ]; + const parser = this; + + // Loader returns Group, not Scene. + // See: https://github.com/mrdoob/three.js/issues/18342#issuecomment-578981172 + const scene = new Group(); + if ( sceneDef.name ) scene.name = parser.createUniqueName( sceneDef.name ); + + assignExtrasToUserData( scene, sceneDef ); + + if ( sceneDef.extensions ) addUnknownExtensionsToUserData( extensions, scene, sceneDef ); + + const nodeIds = sceneDef.nodes || []; + + const pending = []; + + for ( let i = 0, il = nodeIds.length; i < il; i ++ ) { + + pending.push( parser.getDependency( 'node', nodeIds[ i ] ) ); + + } + + return Promise.all( pending ).then( function ( nodes ) { + + for ( let i = 0, il = nodes.length; i < il; i ++ ) { + + scene.add( nodes[ i ] ); + + } + + // Removes dangling associations, associations that reference a node that + // didn't make it into the scene. + const reduceAssociations = ( node ) => { + + const reducedAssociations = new Map(); + + for ( const [ key, value ] of parser.associations ) { + + if ( key instanceof Material$1 || key instanceof Texture$1 ) { + + reducedAssociations.set( key, value ); + + } + + } + + node.traverse( ( node ) => { + + const mappings = parser.associations.get( node ); + + if ( mappings != null ) { + + reducedAssociations.set( node, mappings ); + + } + + } ); + + return reducedAssociations; + + }; + + parser.associations = reduceAssociations( scene ); + + return scene; + + } ); + + } + + _createAnimationTracks( node, inputAccessor, outputAccessor, sampler, target ) { + + const tracks = []; + + const targetName = node.name ? node.name : node.uuid; + const targetNames = []; + + if ( PATH_PROPERTIES$1[ target.path ] === PATH_PROPERTIES$1.weights ) { + + node.traverse( function ( object ) { + + if ( object.morphTargetInfluences ) { + + targetNames.push( object.name ? object.name : object.uuid ); + + } + + } ); + + } else { + + targetNames.push( targetName ); + + } + + let TypedKeyframeTrack; + + switch ( PATH_PROPERTIES$1[ target.path ] ) { + + case PATH_PROPERTIES$1.weights: + + TypedKeyframeTrack = NumberKeyframeTrack; + break; + + case PATH_PROPERTIES$1.rotation: + + TypedKeyframeTrack = QuaternionKeyframeTrack; + break; + + case PATH_PROPERTIES$1.position: + case PATH_PROPERTIES$1.scale: + + TypedKeyframeTrack = VectorKeyframeTrack; + break; + + default: + + switch ( outputAccessor.itemSize ) { + + case 1: + TypedKeyframeTrack = NumberKeyframeTrack; + break; + case 2: + case 3: + default: + TypedKeyframeTrack = VectorKeyframeTrack; + break; + + } + + break; + + } + + const interpolation = sampler.interpolation !== undefined ? INTERPOLATION[ sampler.interpolation ] : InterpolateLinear; + + + const outputArray = this._getArrayFromAccessor( outputAccessor ); + + for ( let j = 0, jl = targetNames.length; j < jl; j ++ ) { + + const track = new TypedKeyframeTrack( + targetNames[ j ] + '.' + PATH_PROPERTIES$1[ target.path ], + inputAccessor.array, + outputArray, + interpolation + ); + + // Override interpolation with custom factory method. + if ( sampler.interpolation === 'CUBICSPLINE' ) { + + this._createCubicSplineTrackInterpolant( track ); + + } + + tracks.push( track ); + + } + + return tracks; + + } + + _getArrayFromAccessor( accessor ) { + + let outputArray = accessor.array; + + if ( accessor.normalized ) { + + const scale = getNormalizedComponentScale( outputArray.constructor ); + const scaled = new Float32Array( outputArray.length ); + + for ( let j = 0, jl = outputArray.length; j < jl; j ++ ) { + + scaled[ j ] = outputArray[ j ] * scale; + + } + + outputArray = scaled; + + } + + return outputArray; + + } + + _createCubicSplineTrackInterpolant( track ) { + + track.createInterpolant = function InterpolantFactoryMethodGLTFCubicSpline( result ) { + + // A CUBICSPLINE keyframe in glTF has three output values for each input value, + // representing inTangent, splineVertex, and outTangent. As a result, track.getValueSize() + // must be divided by three to get the interpolant's sampleSize argument. + + const interpolantType = ( this instanceof QuaternionKeyframeTrack ) ? GLTFCubicSplineQuaternionInterpolant : GLTFCubicSplineInterpolant; + + return new interpolantType( this.times, this.values, this.getValueSize() / 3, result ); + + }; + + // Mark as CUBICSPLINE. `track.getInterpolation()` doesn't support custom interpolants. + track.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline = true; + + } + +} + +/** + * @param {BufferGeometry} geometry + * @param {GLTF.Primitive} primitiveDef + * @param {GLTFParser} parser + */ +function computeBounds( geometry, primitiveDef, parser ) { + + const attributes = primitiveDef.attributes; + + const box = new Box3(); + + if ( attributes.POSITION !== undefined ) { + + const accessor = parser.json.accessors[ attributes.POSITION ]; + + const min = accessor.min; + const max = accessor.max; + + // glTF requires 'min' and 'max', but VRM (which extends glTF) currently ignores that requirement. + + if ( min !== undefined && max !== undefined ) { + + box.set( + new Vector3( min[ 0 ], min[ 1 ], min[ 2 ] ), + new Vector3( max[ 0 ], max[ 1 ], max[ 2 ] ) + ); + + if ( accessor.normalized ) { + + const boxScale = getNormalizedComponentScale( WEBGL_COMPONENT_TYPES[ accessor.componentType ] ); + box.min.multiplyScalar( boxScale ); + box.max.multiplyScalar( boxScale ); + + } + + } else { + + console.warn( 'THREE.GLTFLoader: Missing min/max properties for accessor POSITION.' ); + + return; + + } + + } else { + + return; + + } + + const targets = primitiveDef.targets; + + if ( targets !== undefined ) { + + const maxDisplacement = new Vector3(); + const vector = new Vector3(); + + for ( let i = 0, il = targets.length; i < il; i ++ ) { + + const target = targets[ i ]; + + if ( target.POSITION !== undefined ) { + + const accessor = parser.json.accessors[ target.POSITION ]; + const min = accessor.min; + const max = accessor.max; + + // glTF requires 'min' and 'max', but VRM (which extends glTF) currently ignores that requirement. + + if ( min !== undefined && max !== undefined ) { + + // we need to get max of absolute components because target weight is [-1,1] + vector.setX( Math.max( Math.abs( min[ 0 ] ), Math.abs( max[ 0 ] ) ) ); + vector.setY( Math.max( Math.abs( min[ 1 ] ), Math.abs( max[ 1 ] ) ) ); + vector.setZ( Math.max( Math.abs( min[ 2 ] ), Math.abs( max[ 2 ] ) ) ); + + + if ( accessor.normalized ) { + + const boxScale = getNormalizedComponentScale( WEBGL_COMPONENT_TYPES[ accessor.componentType ] ); + vector.multiplyScalar( boxScale ); + + } + + // Note: this assumes that the sum of all weights is at most 1. This isn't quite correct - it's more conservative + // to assume that each target can have a max weight of 1. However, for some use cases - notably, when morph targets + // are used to implement key-frame animations and as such only two are active at a time - this results in very large + // boxes. So for now we make a box that's sometimes a touch too small but is hopefully mostly of reasonable size. + maxDisplacement.max( vector ); + + } else { + + console.warn( 'THREE.GLTFLoader: Missing min/max properties for accessor POSITION.' ); + + } + + } + + } + + // As per comment above this box isn't conservative, but has a reasonable size for a very large number of morph targets. + box.expandByVector( maxDisplacement ); + + } + + geometry.boundingBox = box; + + const sphere = new Sphere(); + + box.getCenter( sphere.center ); + sphere.radius = box.min.distanceTo( box.max ) / 2; + + geometry.boundingSphere = sphere; + +} + +/** + * @param {BufferGeometry} geometry + * @param {GLTF.Primitive} primitiveDef + * @param {GLTFParser} parser + * @return {Promise} + */ +function addPrimitiveAttributes( geometry, primitiveDef, parser ) { + + const attributes = primitiveDef.attributes; + + const pending = []; + + function assignAttributeAccessor( accessorIndex, attributeName ) { + + return parser.getDependency( 'accessor', accessorIndex ) + .then( function ( accessor ) { + + geometry.setAttribute( attributeName, accessor ); + + } ); + + } + + for ( const gltfAttributeName in attributes ) { + + const threeAttributeName = ATTRIBUTES[ gltfAttributeName ] || gltfAttributeName.toLowerCase(); + + // Skip attributes already provided by e.g. Draco extension. + if ( threeAttributeName in geometry.attributes ) continue; + + pending.push( assignAttributeAccessor( attributes[ gltfAttributeName ], threeAttributeName ) ); + + } + + if ( primitiveDef.indices !== undefined && ! geometry.index ) { + + const accessor = parser.getDependency( 'accessor', primitiveDef.indices ).then( function ( accessor ) { + + geometry.setIndex( accessor ); + + } ); + + pending.push( accessor ); + + } + + if ( ColorManagement.workingColorSpace !== LinearSRGBColorSpace && 'COLOR_0' in attributes ) { + + console.warn( `THREE.GLTFLoader: Converting vertex colors from "srgb-linear" to "${ColorManagement.workingColorSpace}" not supported.` ); + + } + + assignExtrasToUserData( geometry, primitiveDef ); + + computeBounds( geometry, primitiveDef, parser ); + + return Promise.all( pending ).then( function () { + + return primitiveDef.targets !== undefined + ? addMorphTargets( geometry, primitiveDef.targets, parser ) + : geometry; + + } ); + +} + +/** + * @author Deepkolos / https://github.com/deepkolos + */ + +class WorkerPool { + + constructor( pool = 4 ) { + + this.pool = pool; + this.queue = []; + this.workers = []; + this.workersResolve = []; + this.workerStatus = 0; + + } + + _initWorker( workerId ) { + + if ( ! this.workers[ workerId ] ) { + + const worker = this.workerCreator(); + worker.addEventListener( 'message', this._onMessage.bind( this, workerId ) ); + this.workers[ workerId ] = worker; + + } + + } + + _getIdleWorker() { + + for ( let i = 0; i < this.pool; i ++ ) + if ( ! 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+ +const DisplayP3ColorSpace = 'display-p3'; +const LinearDisplayP3ColorSpace = 'display-p3-linear'; + +/** + * Loader for KTX 2.0 GPU Texture containers. + * + * KTX 2.0 is a container format for various GPU texture formats. The loader + * supports Basis Universal GPU textures, which can be quickly transcoded to + * a wide variety of GPU texture compression formats, as well as some + * uncompressed DataTexture and Data3DTexture formats. + * + * References: + * - KTX: http://github.khronos.org/KTX-Specification/ + * - DFD: https://www.khronos.org/registry/DataFormat/specs/1.3/dataformat.1.3.html#basicdescriptor + * - BasisU HDR: https://github.com/BinomialLLC/basis_universal/wiki/UASTC-HDR-Texture-Specification-v1.0 + */ + + +const _taskCache = new WeakMap(); + +let _activeLoaders = 0; + +let _zstd; + +class KTX2Loader extends Loader { + + constructor( manager ) { + + super( manager ); + + this.transcoderPath = ''; + this.transcoderBinary = null; + this.transcoderPending = null; + + this.workerPool = new WorkerPool(); + this.workerSourceURL = ''; + this.workerConfig = null; + + if ( typeof MSC_TRANSCODER !== 'undefined' ) { + + console.warn( + + 'THREE.KTX2Loader: Please update to latest "basis_transcoder".' + + ' "msc_basis_transcoder" is no longer supported in three.js r125+.' + + ); + + } + + } + + setTranscoderPath( path ) { + + this.transcoderPath = path; + + return this; + + } + + setWorkerLimit( num ) { + + this.workerPool.setWorkerLimit( num ); + + return this; + + } + + async detectSupportAsync( renderer ) { + + this.workerConfig = { + astcSupported: await renderer.hasFeatureAsync( 'texture-compression-astc' ), + astcHDRSupported: false, // https://github.com/gpuweb/gpuweb/issues/3856 + etc1Supported: await renderer.hasFeatureAsync( 'texture-compression-etc1' ), + etc2Supported: await renderer.hasFeatureAsync( 'texture-compression-etc2' ), + dxtSupported: await renderer.hasFeatureAsync( 'texture-compression-bc' ), + bptcSupported: await renderer.hasFeatureAsync( 'texture-compression-bptc' ), + pvrtcSupported: await renderer.hasFeatureAsync( 'texture-compression-pvrtc' ) + }; + + return this; + + } + + detectSupport( renderer ) { + + if ( renderer.isWebGPURenderer === true ) { + + this.workerConfig = { + astcSupported: renderer.hasFeature( 'texture-compression-astc' ), + astcHDRSupported: false, // https://github.com/gpuweb/gpuweb/issues/3856 + etc1Supported: renderer.hasFeature( 'texture-compression-etc1' ), + etc2Supported: renderer.hasFeature( 'texture-compression-etc2' ), + dxtSupported: renderer.hasFeature( 'texture-compression-bc' ), + bptcSupported: renderer.hasFeature( 'texture-compression-bptc' ), + pvrtcSupported: renderer.hasFeature( 'texture-compression-pvrtc' ) + }; + + } else { + + this.workerConfig = { + astcSupported: renderer.extensions.has( 'WEBGL_compressed_texture_astc' ), + astcHDRSupported: renderer.extensions.has( 'WEBGL_compressed_texture_astc' ) + && renderer.extensions.get( 'WEBGL_compressed_texture_astc' ).getSupportedProfiles().includes( 'hdr' ), + etc1Supported: renderer.extensions.has( 'WEBGL_compressed_texture_etc1' ), + etc2Supported: renderer.extensions.has( 'WEBGL_compressed_texture_etc' ), + dxtSupported: renderer.extensions.has( 'WEBGL_compressed_texture_s3tc' ), + bptcSupported: renderer.extensions.has( 'EXT_texture_compression_bptc' ), + pvrtcSupported: renderer.extensions.has( 'WEBGL_compressed_texture_pvrtc' ) + || renderer.extensions.has( 'WEBKIT_WEBGL_compressed_texture_pvrtc' ) + }; + + } + + return this; + + } + + init() { + + if ( ! this.transcoderPending ) { + + // Load transcoder wrapper. + const jsLoader = new FileLoader( this.manager ); + jsLoader.setPath( this.transcoderPath ); + jsLoader.setWithCredentials( this.withCredentials ); + const jsContent = jsLoader.loadAsync( 'basis_transcoder.js' ); + + // Load transcoder WASM binary. + const binaryLoader = new FileLoader( this.manager ); + binaryLoader.setPath( this.transcoderPath ); + binaryLoader.setResponseType( 'arraybuffer' ); + binaryLoader.setWithCredentials( this.withCredentials ); + const binaryContent = binaryLoader.loadAsync( 'basis_transcoder.wasm' ); + + this.transcoderPending = Promise.all( [ jsContent, binaryContent ] ) + .then( ( [ jsContent, binaryContent ] ) => { + + const fn = KTX2Loader.BasisWorker.toString(); + + const body = [ + '/* constants */', + 'let _EngineFormat = ' + JSON.stringify( KTX2Loader.EngineFormat ), + 'let _EngineType = ' + JSON.stringify( KTX2Loader.EngineType ), + 'let _TranscoderFormat = ' + JSON.stringify( KTX2Loader.TranscoderFormat ), + 'let _BasisFormat = ' + JSON.stringify( KTX2Loader.BasisFormat ), + '/* basis_transcoder.js */', + jsContent, + '/* worker */', + fn.substring( fn.indexOf( '{' ) + 1, fn.lastIndexOf( '}' ) ) + ].join( '\n' ); + + this.workerSourceURL = URL.createObjectURL( new Blob( [ body ] ) ); + this.transcoderBinary = binaryContent; + + this.workerPool.setWorkerCreator( () => { + + const worker = new Worker( this.workerSourceURL ); + const transcoderBinary = this.transcoderBinary.slice( 0 ); + + worker.postMessage( { type: 'init', config: this.workerConfig, transcoderBinary }, [ transcoderBinary ] ); + + return worker; + + } ); + + } ); + + if ( _activeLoaders > 0 ) { + + // Each instance loads a transcoder and allocates workers, increasing network and memory cost. + + console.warn( + + 'THREE.KTX2Loader: Multiple active KTX2 loaders may cause performance issues.' + + ' Use a single KTX2Loader instance, or call .dispose() on old instances.' + + ); + + } + + _activeLoaders ++; + + } + + return this.transcoderPending; + + } + + load( url, onLoad, onProgress, onError ) { + + if ( this.workerConfig === null ) { + + throw new Error( 'THREE.KTX2Loader: Missing initialization with `.detectSupport( renderer )`.' ); + + } + + const loader = new FileLoader( this.manager ); + + loader.setResponseType( 'arraybuffer' ); + loader.setWithCredentials( this.withCredentials ); + + loader.load( url, ( buffer ) => { + + this.parse( buffer, onLoad, onError ); + + }, onProgress, onError ); + + } + + parse( buffer, onLoad, onError ) { + + if ( this.workerConfig === null ) { + + throw new Error( 'THREE.KTX2Loader: Missing initialization with `.detectSupport( renderer )`.' ); + + } + + // Check for an existing task using this buffer. A transferred buffer cannot be transferred + // again from this thread. + if ( _taskCache.has( buffer ) ) { + + const cachedTask = _taskCache.get( buffer ); + + return cachedTask.promise.then( onLoad ).catch( onError ); + + } + + this._createTexture( buffer ) + .then( ( texture ) => onLoad ? onLoad( texture ) : null ) + .catch( onError ); + + } + + _createTextureFrom( transcodeResult, container ) { + + const { type: messageType, error, data: { faces, width, height, format, type, dfdFlags } } = transcodeResult; + + if ( messageType === 'error' ) return Promise.reject( error ); + + let texture; + + if ( container.faceCount === 6 ) { + + texture = new CompressedCubeTexture( faces, format, type ); + + } else { + + const mipmaps = faces[ 0 ].mipmaps; + + texture = container.layerCount > 1 + ? new CompressedArrayTexture( mipmaps, width, height, container.layerCount, format, type ) + : new CompressedTexture( mipmaps, width, height, format, type ); + + } + + texture.minFilter = faces[ 0 ].mipmaps.length === 1 ? LinearFilter : LinearMipmapLinearFilter; + texture.magFilter = LinearFilter; + texture.generateMipmaps = false; + + texture.needsUpdate = true; + texture.colorSpace = parseColorSpace( container ); + texture.premultiplyAlpha = !! ( dfdFlags & g$1 ); + + return texture; + + } + + /** + * @param {ArrayBuffer} buffer + * @param {?Object} config + * @return {Promise} + */ + async _createTexture( buffer, config = {} ) { + + const container = Pi( new Uint8Array( buffer ) ); + + // Basis UASTC HDR is a subset of ASTC, which can be transcoded efficiently + // to BC6H. To detect whether a KTX2 file uses Basis UASTC HDR, or default + // ASTC, inspect the DFD color model. + // + // Source: https://github.com/BinomialLLC/basis_universal/issues/381 + const isBasisHDR = container.vkFormat === pi + && container.dataFormatDescriptor[ 0 ].colorModel === 0xA7; + + // If the device supports ASTC, Basis UASTC HDR requires no transcoder. + const needsTranscoder = container.vkFormat === it + || isBasisHDR && ! this.workerConfig.astcHDRSupported; + + if ( ! needsTranscoder ) { + + return createRawTexture( container ); + + } + + // + const taskConfig = config; + const texturePending = this.init().then( () => { + + return this.workerPool.postMessage( { type: 'transcode', buffer, taskConfig: taskConfig }, [ buffer ] ); + + } ).then( ( e ) => this._createTextureFrom( e.data, container ) ); + + // Cache the task result. + _taskCache.set( buffer, { promise: texturePending } ); + + return texturePending; + + } + + dispose() { + + this.workerPool.dispose(); + if ( this.workerSourceURL ) URL.revokeObjectURL( this.workerSourceURL ); + + _activeLoaders --; + + return this; + + } + +} + + +/* CONSTANTS */ + +KTX2Loader.BasisFormat = { + ETC1S: 0, + UASTC: 1, + UASTC_HDR: 2, +}; + +// Source: https://github.com/BinomialLLC/basis_universal/blob/master/webgl/texture_test/index.html +KTX2Loader.TranscoderFormat = { + ETC1: 0, + ETC2: 1, + BC1: 2, + BC3: 3, + BC4: 4, + BC5: 5, + BC7_M6_OPAQUE_ONLY: 6, + BC7_M5: 7, + PVRTC1_4_RGB: 8, + PVRTC1_4_RGBA: 9, + ASTC_4x4: 10, + ATC_RGB: 11, + ATC_RGBA_INTERPOLATED_ALPHA: 12, + RGBA32: 13, + RGB565: 14, + BGR565: 15, + RGBA4444: 16, + BC6H: 22, + RGB_HALF: 24, + RGBA_HALF: 25, +}; + +KTX2Loader.EngineFormat = { + RGBAFormat: RGBAFormat, + RGBA_ASTC_4x4_Format: RGBA_ASTC_4x4_Format, + RGB_BPTC_UNSIGNED_Format: RGB_BPTC_UNSIGNED_Format, + RGBA_BPTC_Format: RGBA_BPTC_Format, + RGBA_ETC2_EAC_Format: RGBA_ETC2_EAC_Format, + RGBA_PVRTC_4BPPV1_Format: RGBA_PVRTC_4BPPV1_Format, + RGBA_S3TC_DXT5_Format: RGBA_S3TC_DXT5_Format, + RGB_ETC1_Format: RGB_ETC1_Format, + RGB_ETC2_Format: RGB_ETC2_Format, + RGB_PVRTC_4BPPV1_Format: RGB_PVRTC_4BPPV1_Format, + RGBA_S3TC_DXT1_Format: RGBA_S3TC_DXT1_Format, +}; + +KTX2Loader.EngineType = { + UnsignedByteType: UnsignedByteType, + HalfFloatType: HalfFloatType, + FloatType: FloatType, +}; + +/* WEB WORKER */ + +KTX2Loader.BasisWorker = function () { + + let config; + let transcoderPending; + let BasisModule; + + const EngineFormat = _EngineFormat; // eslint-disable-line no-undef + const EngineType = _EngineType; // eslint-disable-line no-undef + const TranscoderFormat = _TranscoderFormat; // eslint-disable-line no-undef + const BasisFormat = _BasisFormat; // eslint-disable-line no-undef + + self.addEventListener( 'message', function ( e ) { + + const message = e.data; + + switch ( message.type ) { + + case 'init': + config = message.config; + init( message.transcoderBinary ); + break; + + case 'transcode': + transcoderPending.then( () => { + + try { + + const { faces, buffers, width, height, hasAlpha, format, type, dfdFlags } = transcode( message.buffer ); + + self.postMessage( { type: 'transcode', id: message.id, data: { faces, width, height, hasAlpha, format, type, dfdFlags } }, buffers ); + + } catch ( error ) { + + console.error( error ); + + self.postMessage( { type: 'error', id: message.id, error: error.message } ); + + } + + } ); + break; + + } + + } ); + + function init( wasmBinary ) { + + transcoderPending = new Promise( ( resolve ) => { + + BasisModule = { wasmBinary, onRuntimeInitialized: resolve }; + BASIS( BasisModule ); // eslint-disable-line no-undef + + } ).then( () => { + + BasisModule.initializeBasis(); + + if ( BasisModule.KTX2File === undefined ) { + + console.warn( 'THREE.KTX2Loader: Please update Basis Universal transcoder.' ); + + } + + } ); + + } + + function transcode( buffer ) { + + const ktx2File = new BasisModule.KTX2File( new Uint8Array( buffer ) ); + + function cleanup() { + + ktx2File.close(); + ktx2File.delete(); + + } + + if ( ! ktx2File.isValid() ) { + + cleanup(); + throw new Error( 'THREE.KTX2Loader: Invalid or unsupported .ktx2 file' ); + + } + + let basisFormat; + + if ( ktx2File.isUASTC() ) { + + basisFormat = BasisFormat.UASTC; + + } else if ( ktx2File.isETC1S() ) { + + basisFormat = BasisFormat.ETC1S; + + } else if ( ktx2File.isHDR() ) { + + basisFormat = BasisFormat.UASTC_HDR; + + } else { + + throw new Error( 'THREE.KTX2Loader: Unknown Basis encoding' ); + + } + + const width = ktx2File.getWidth(); + const height = ktx2File.getHeight(); + const layerCount = ktx2File.getLayers() || 1; + const levelCount = ktx2File.getLevels(); + const faceCount = ktx2File.getFaces(); + const hasAlpha = ktx2File.getHasAlpha(); + const dfdFlags = ktx2File.getDFDFlags(); + + const { transcoderFormat, engineFormat, engineType } = getTranscoderFormat( basisFormat, width, height, hasAlpha ); + + if ( ! width || ! height || ! levelCount ) { + + cleanup(); + throw new Error( 'THREE.KTX2Loader: Invalid texture' ); + + } + + if ( ! ktx2File.startTranscoding() ) { + + cleanup(); + throw new Error( 'THREE.KTX2Loader: .startTranscoding failed' ); + + } + + const faces = []; + const buffers = []; + + for ( let face = 0; face < faceCount; face ++ ) { + + const mipmaps = []; + + for ( let mip = 0; mip < levelCount; mip ++ ) { + + const layerMips = []; + + let mipWidth, mipHeight; + + for ( let layer = 0; layer < layerCount; layer ++ ) { + + const levelInfo = ktx2File.getImageLevelInfo( mip, layer, face ); + + if ( face === 0 && mip === 0 && layer === 0 && ( levelInfo.origWidth % 4 !== 0 || levelInfo.origHeight % 4 !== 0 ) ) { + + console.warn( 'THREE.KTX2Loader: ETC1S and UASTC textures should use multiple-of-four dimensions.' ); + + } + + if ( levelCount > 1 ) { + + mipWidth = levelInfo.origWidth; + mipHeight = levelInfo.origHeight; + + } else { + + // Handles non-multiple-of-four dimensions in textures without mipmaps. Textures with + // mipmaps must use multiple-of-four dimensions, for some texture formats and APIs. + // See mrdoob/three.js#25908. + mipWidth = levelInfo.width; + mipHeight = levelInfo.height; + + } + + let dst = new Uint8Array( ktx2File.getImageTranscodedSizeInBytes( mip, layer, 0, transcoderFormat ) ); + const status = ktx2File.transcodeImage( dst, mip, layer, face, transcoderFormat, 0, -1, -1 ); + + if ( engineType === EngineType.HalfFloatType ) { + + dst = new Uint16Array( dst.buffer, dst.byteOffset, dst.byteLength / Uint16Array.BYTES_PER_ELEMENT ); + + } + + if ( ! status ) { + + cleanup(); + throw new Error( 'THREE.KTX2Loader: .transcodeImage failed.' ); + + } + + layerMips.push( dst ); + + } + + const mipData = concat( layerMips ); + + mipmaps.push( { data: mipData, width: mipWidth, height: mipHeight } ); + buffers.push( mipData.buffer ); + + } + + faces.push( { mipmaps, width, height, format: engineFormat, type: engineType } ); + + } + + cleanup(); + + return { faces, buffers, width, height, hasAlpha, dfdFlags, format: engineFormat, type: engineType }; + + } + + // + + // Optimal choice of a transcoder target format depends on the Basis format (ETC1S, UASTC, or + // UASTC HDR), device capabilities, and texture dimensions. The list below ranks the formats + // separately for each format. Currently, priority is assigned based on: + // + // high quality > low quality > uncompressed + // + // Prioritization may be revisited, or exposed for configuration, in the future. + // + // Reference: https://github.com/KhronosGroup/3D-Formats-Guidelines/blob/main/KTXDeveloperGuide.md + const FORMAT_OPTIONS = [ + { + if: 'astcSupported', + basisFormat: [ BasisFormat.UASTC ], + transcoderFormat: [ TranscoderFormat.ASTC_4x4, TranscoderFormat.ASTC_4x4 ], + engineFormat: [ EngineFormat.RGBA_ASTC_4x4_Format, EngineFormat.RGBA_ASTC_4x4_Format ], + engineType: [ EngineType.UnsignedByteType ], + priorityETC1S: Infinity, + priorityUASTC: 1, + needsPowerOfTwo: false, + }, + { + if: 'bptcSupported', + basisFormat: [ BasisFormat.ETC1S, BasisFormat.UASTC ], + transcoderFormat: [ TranscoderFormat.BC7_M5, TranscoderFormat.BC7_M5 ], + engineFormat: [ EngineFormat.RGBA_BPTC_Format, EngineFormat.RGBA_BPTC_Format ], + engineType: [ EngineType.UnsignedByteType ], + priorityETC1S: 3, + priorityUASTC: 2, + needsPowerOfTwo: false, + }, + { + if: 'dxtSupported', + basisFormat: [ BasisFormat.ETC1S, BasisFormat.UASTC ], + transcoderFormat: [ TranscoderFormat.BC1, TranscoderFormat.BC3 ], + engineFormat: [ EngineFormat.RGBA_S3TC_DXT1_Format, EngineFormat.RGBA_S3TC_DXT5_Format ], + engineType: [ EngineType.UnsignedByteType ], + priorityETC1S: 4, + priorityUASTC: 5, + needsPowerOfTwo: false, + }, + { + if: 'etc2Supported', + basisFormat: [ BasisFormat.ETC1S, BasisFormat.UASTC ], + transcoderFormat: [ TranscoderFormat.ETC1, TranscoderFormat.ETC2 ], + engineFormat: [ EngineFormat.RGB_ETC2_Format, EngineFormat.RGBA_ETC2_EAC_Format ], + engineType: [ EngineType.UnsignedByteType ], + priorityETC1S: 1, + priorityUASTC: 3, + needsPowerOfTwo: false, + }, + { + if: 'etc1Supported', + basisFormat: [ BasisFormat.ETC1S, BasisFormat.UASTC ], + transcoderFormat: [ TranscoderFormat.ETC1 ], + engineFormat: [ EngineFormat.RGB_ETC1_Format ], + engineType: [ EngineType.UnsignedByteType ], + priorityETC1S: 2, + priorityUASTC: 4, + needsPowerOfTwo: false, + }, + { + if: 'pvrtcSupported', + basisFormat: [ BasisFormat.ETC1S, BasisFormat.UASTC ], + transcoderFormat: [ TranscoderFormat.PVRTC1_4_RGB, TranscoderFormat.PVRTC1_4_RGBA ], + engineFormat: [ EngineFormat.RGB_PVRTC_4BPPV1_Format, EngineFormat.RGBA_PVRTC_4BPPV1_Format ], + engineType: [ EngineType.UnsignedByteType ], + priorityETC1S: 5, + priorityUASTC: 6, + needsPowerOfTwo: true, + }, + { + if: 'bptcSupported', + basisFormat: [ BasisFormat.UASTC_HDR ], + transcoderFormat: [ TranscoderFormat.BC6H ], + engineFormat: [ EngineFormat.RGB_BPTC_UNSIGNED_Format ], + engineType: [ EngineType.HalfFloatType ], + priorityHDR: 1, + needsPowerOfTwo: false, + }, + + // Uncompressed fallbacks. + + { + basisFormat: [ BasisFormat.ETC1S, BasisFormat.UASTC ], + transcoderFormat: [ TranscoderFormat.RGBA32, TranscoderFormat.RGBA32 ], + engineFormat: [ EngineFormat.RGBAFormat, EngineFormat.RGBAFormat ], + engineType: [ EngineType.UnsignedByteType, EngineType.UnsignedByteType ], + priorityETC1S: 100, + priorityUASTC: 100, + needsPowerOfTwo: false, + }, + { + basisFormat: [ BasisFormat.UASTC_HDR ], + transcoderFormat: [ TranscoderFormat.RGBA_HALF ], + engineFormat: [ EngineFormat.RGBAFormat ], + engineType: [ EngineType.HalfFloatType ], + priorityHDR: 100, + needsPowerOfTwo: false, + } + ]; + + const OPTIONS = { + // TODO: For ETC1S we intentionally sort by _UASTC_ priority, preserving + // a historical accident shown to avoid performance pitfalls for Linux with + // Firefox & AMD GPU (RadeonSI). Further work needed. + // See https://github.com/mrdoob/three.js/pull/29730. + [ BasisFormat.ETC1S ]: FORMAT_OPTIONS + .filter( ( opt ) => opt.basisFormat.includes( BasisFormat.ETC1S ) ) + .sort( ( a, b ) => a.priorityUASTC - b.priorityUASTC ), + + [ BasisFormat.UASTC ]: FORMAT_OPTIONS + .filter( ( opt ) => opt.basisFormat.includes( BasisFormat.UASTC ) ) + .sort( ( a, b ) => a.priorityUASTC - b.priorityUASTC ), + + [ BasisFormat.UASTC_HDR ]: FORMAT_OPTIONS + .filter( ( opt ) => opt.basisFormat.includes( BasisFormat.UASTC_HDR ) ) + .sort( ( a, b ) => a.priorityHDR - b.priorityHDR ), + }; + + function getTranscoderFormat( basisFormat, width, height, hasAlpha ) { + + const options = OPTIONS[ basisFormat ]; + + for ( let i = 0; i < options.length; i ++ ) { + + const opt = options[ i ]; + + if ( opt.if && ! config[ opt.if ] ) continue; + if ( ! opt.basisFormat.includes( basisFormat ) ) continue; + if ( hasAlpha && opt.transcoderFormat.length < 2 ) continue; + if ( opt.needsPowerOfTwo && ! ( isPowerOfTwo( width ) && isPowerOfTwo( height ) ) ) continue; + + const transcoderFormat = opt.transcoderFormat[ hasAlpha ? 1 : 0 ]; + const engineFormat = opt.engineFormat[ hasAlpha ? 1 : 0 ]; + const engineType = opt.engineType[ 0 ]; + + return { transcoderFormat, engineFormat, engineType }; + + } + + throw new Error( 'THREE.KTX2Loader: Failed to identify transcoding target.' ); + + } + + function isPowerOfTwo( value ) { + + if ( value <= 2 ) return true; + + return ( value & ( value - 1 ) ) === 0 && value !== 0; + + } + + /** + * Concatenates N byte arrays. + * + * @param {Uint8Array[]} arrays + * @return {Uint8Array} + */ + function concat( arrays ) { + + if ( arrays.length === 1 ) return arrays[ 0 ]; + + let totalByteLength = 0; + + for ( let i = 0; i < arrays.length; i ++ ) { + + const array = arrays[ i ]; + totalByteLength += array.byteLength; + + } + + const result = new Uint8Array( totalByteLength ); + + let byteOffset = 0; + + for ( let i = 0; i < arrays.length; i ++ ) { + + const array = arrays[ i ]; + result.set( array, byteOffset ); + + byteOffset += array.byteLength; + + } + + return result; + + } + +}; + +// Parsing for non-Basis textures. These textures may have supercompression +// like Zstd, but they do not require transcoding. + +const UNCOMPRESSED_FORMATS = new Set( [ RGBAFormat, RGFormat, RedFormat ] ); + +const FORMAT_MAP = { + + [ Ae ]: RGBAFormat, + [ ge ]: RGBAFormat, + [ Ft ]: RGBAFormat, + [ Ct ]: RGBAFormat, + + [ we ]: RGFormat, + [ ae ]: RGFormat, + [ xt ]: RGFormat, + [ wt ]: RGFormat, + + [ ue ]: RedFormat, + [ te$1 ]: RedFormat, + [ yt ]: RedFormat, + [ ct ]: RedFormat, + + [ pi ]: RGBA_ASTC_4x4_Format, + [ Sn ]: RGBA_ASTC_6x6_Format, + [ In ]: RGBA_ASTC_6x6_Format, + +}; + +const TYPE_MAP = { + + [ Ae ]: FloatType, + [ ge ]: HalfFloatType, + [ Ft ]: UnsignedByteType, + [ Ct ]: UnsignedByteType, + + [ we ]: FloatType, + [ ae ]: HalfFloatType, + [ xt ]: UnsignedByteType, + [ wt ]: UnsignedByteType, + + [ ue ]: FloatType, + [ te$1 ]: HalfFloatType, + [ yt ]: UnsignedByteType, + [ ct ]: UnsignedByteType, + + [ pi ]: HalfFloatType, + [ Sn ]: UnsignedByteType, + [ In ]: UnsignedByteType, + +}; + +async function createRawTexture( container ) { + + const { vkFormat } = container; + + if ( FORMAT_MAP[ vkFormat ] === undefined ) { + + throw new Error( 'THREE.KTX2Loader: Unsupported vkFormat.' ); + + } + + // + + let zstd; + + if ( container.supercompressionScheme === n ) { + + if ( ! _zstd ) { + + _zstd = new Promise( async ( resolve ) => { + + const zstd = new Q(); + await zstd.init(); + resolve( zstd ); + + } ); + + } + + zstd = await _zstd; + + } + + // + + const mipmaps = []; + + + for ( let levelIndex = 0; levelIndex < container.levels.length; levelIndex ++ ) { + + const levelWidth = Math.max( 1, container.pixelWidth >> levelIndex ); + const levelHeight = Math.max( 1, container.pixelHeight >> levelIndex ); + const levelDepth = container.pixelDepth ? Math.max( 1, container.pixelDepth >> levelIndex ) : 0; + + const level = container.levels[ levelIndex ]; + + let levelData; + + if ( container.supercompressionScheme === t ) { + + levelData = level.levelData; + + } else if ( container.supercompressionScheme === n ) { + + levelData = zstd.decode( level.levelData, level.uncompressedByteLength ); + + } else { + + throw new Error( 'THREE.KTX2Loader: Unsupported supercompressionScheme.' ); + + } + + let data; + + if ( TYPE_MAP[ vkFormat ] === FloatType ) { + + data = new Float32Array( + + levelData.buffer, + levelData.byteOffset, + levelData.byteLength / Float32Array.BYTES_PER_ELEMENT + + ); + + } else if ( TYPE_MAP[ vkFormat ] === HalfFloatType ) { + + data = new Uint16Array( + + levelData.buffer, + levelData.byteOffset, + levelData.byteLength / Uint16Array.BYTES_PER_ELEMENT + + ); + + } else { + + data = levelData; + + } + + mipmaps.push( { + + data: data, + width: levelWidth, + height: levelHeight, + depth: levelDepth, + + } ); + + } + + let texture; + + if ( UNCOMPRESSED_FORMATS.has( FORMAT_MAP[ vkFormat ] ) ) { + + texture = container.pixelDepth === 0 + ? new DataTexture( mipmaps[ 0 ].data, container.pixelWidth, container.pixelHeight ) + : new Data3DTexture( mipmaps[ 0 ].data, container.pixelWidth, container.pixelHeight, container.pixelDepth ); + + } else { + + if ( container.pixelDepth > 0 ) throw new Error( 'THREE.KTX2Loader: Unsupported pixelDepth.' ); + + texture = new CompressedTexture( mipmaps, container.pixelWidth, container.pixelHeight ); + + texture.minFilter = mipmaps.length === 1 ? LinearFilter : LinearMipmapLinearFilter; + texture.magFilter = LinearFilter; + + } + + texture.mipmaps = mipmaps; + + texture.type = TYPE_MAP[ vkFormat ]; + texture.format = FORMAT_MAP[ vkFormat ]; + texture.colorSpace = parseColorSpace( container ); + texture.needsUpdate = true; + + // + + return Promise.resolve( texture ); + +} + +function parseColorSpace( container ) { + + const dfd = container.dataFormatDescriptor[ 0 ]; + + if ( dfd.colorPrimaries === C$1 ) { + + return dfd.transferFunction === u ? SRGBColorSpace : LinearSRGBColorSpace; + + } else if ( dfd.colorPrimaries === R ) { + + return dfd.transferFunction === u ? DisplayP3ColorSpace : LinearDisplayP3ColorSpace; + + } else if ( dfd.colorPrimaries === T ) { + + return NoColorSpace; + + } else { + + console.warn( `THREE.KTX2Loader: Unsupported color primaries, "${ dfd.colorPrimaries }"` ); + return NoColorSpace; + + } + +} + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var _a$9, _b$9; +const $retainerCount = Symbol('retainerCount'); +const $recentlyUsed = Symbol('recentlyUsed'); +const $evict = Symbol('evict'); +const $evictionThreshold = Symbol('evictionThreshold'); +const $cache = Symbol('cache'); +/** + * The CacheEvictionPolicy manages the lifecycle for items in a cache, + * evicting any items outside some threshold bounds in "recently used" order, + * if they are evictable. + * + * Items are considered cached as they are retained. When all retainers + * of an item release it, that item is considered evictable. + */ +class CacheEvictionPolicy { + constructor(cache, evictionThreshold = 5) { + this[_a$9] = new Map(); + this[_b$9] = []; + this[$cache] = cache; + this[$evictionThreshold] = evictionThreshold; + } + /** + * The eviction threshold is the maximum number of items to hold + * in cache indefinitely. Items within the threshold (in recently + * used order) will continue to be cached even if they have zero + * retainers. + */ + set evictionThreshold(value) { + this[$evictionThreshold] = value; + this[$evict](); + } + get evictionThreshold() { + return this[$evictionThreshold]; + } + /** + * A reference to the cache that operates under this policy + */ + get cache() { + return this[$cache]; + } + /** + * Given an item key, returns the number of retainers of that item + */ + retainerCount(key) { + return this[$retainerCount].get(key) || 0; + } + /** + * Resets the internal tracking of cache item retainers. Use only in cases + * where it is certain that all retained cache items have been accounted for! + */ + reset() { + this[$retainerCount].clear(); + this[$recentlyUsed] = []; + } + /** + * Mark a given cache item as retained, where the item is represented + * by its key. An item can have any number of retainers. + */ + retain(key) { + if (!this[$retainerCount].has(key)) { + this[$retainerCount].set(key, 0); + } + this[$retainerCount].set(key, this[$retainerCount].get(key) + 1); + const recentlyUsedIndex = this[$recentlyUsed].indexOf(key); + if (recentlyUsedIndex !== -1) { + this[$recentlyUsed].splice(recentlyUsedIndex, 1); + } + this[$recentlyUsed].unshift(key); + // Evict, in case retaining a new item pushed an evictable item beyond the + // eviction threshold + this[$evict](); + } + /** + * Mark a given cache item as released by one of its retainers, where the item + * is represented by its key. When all retainers of an item have released it, + * the item is considered evictable. + */ + release(key) { + if (this[$retainerCount].has(key)) { + this[$retainerCount].set(key, Math.max(this[$retainerCount].get(key) - 1, 0)); + } + this[$evict](); + } + [(_a$9 = $retainerCount, _b$9 = $recentlyUsed, $evict)]() { + if (this[$recentlyUsed].length < this[$evictionThreshold]) { + return; + } + for (let i = this[$recentlyUsed].length - 1; i >= this[$evictionThreshold]; --i) { + const key = this[$recentlyUsed][i]; + const retainerCount = this[$retainerCount].get(key); + if (retainerCount === 0) { + this[$cache].delete(key); + this[$recentlyUsed].splice(i, 1); + } + } + } +} + +/* @license + * Copyright 2021 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +/** + * KHR_materials_variants specification allows duplicated variant names + * but it makes handling the extension complex. + * We ensure tha names and make it easier. + * If you want to export the extension with the original names + * you are recommended to write GLTFExporter plugin to restore the names. + * + * @param variantNames {Array} + * @return {Array} + */ +const ensureUniqueNames = (variantNames) => { + const uniqueNames = []; + const knownNames = new Set(); + for (const name of variantNames) { + let uniqueName = name; + let suffix = 0; + // @TODO: An easy solution. + // O(N^2) in the worst scenario where N is variantNames.length. + // Fix me if needed. + while (knownNames.has(uniqueName)) { + uniqueName = name + '.' + (++suffix); + } + knownNames.add(uniqueName); + uniqueNames.push(uniqueName); + } + return uniqueNames; +}; +/** + * Convert mappings array to table object to make handling the extension easier. + * + * @param + * extensionDef {glTF.meshes[n].primitive.extensions.KHR_materials_variants} + * @param variantNames {Array} Required to be unique names + * @return {Map} + */ +const mappingsArrayToTable = (extensionDef) => { + const table = new Map(); + for (const mapping of extensionDef.mappings) { + for (const variant of mapping.variants) { + table.set(variant, { material: null, gltfMaterialIndex: mapping.material }); + } + } + return table; +}; +class GLTFMaterialsVariantsExtension { + constructor(parser) { + this.parser = parser; + this.name = 'KHR_materials_variants'; + } + // Note that the following properties will be overridden even if they are + // pre-defined + // - gltf.userData.variants + // - mesh.userData.variantMaterials + afterRoot(gltf) { + const parser = this.parser; + const json = parser.json; + if (json.extensions === undefined || + json.extensions[this.name] === undefined) { + return null; + } + const extensionDef = json.extensions[this.name]; + const variantsDef = extensionDef.variants || []; + const variants = ensureUniqueNames(variantsDef.map((v) => v.name)); + for (const scene of gltf.scenes) { + // Save the variants data under associated mesh.userData + scene.traverse(object => { + const mesh = object; + if (!mesh.material) { + return; + } + const association = parser.associations.get(mesh); + if (association == null || association.meshes == null || + association.primitives == null) { + return; + } + const meshDef = json.meshes[association.meshes]; + const primitivesDef = meshDef.primitives; + const primitiveDef = primitivesDef[association.primitives]; + const extensionsDef = primitiveDef.extensions; + if (!extensionsDef || !extensionsDef[this.name]) { + return; + } + mesh.userData.variantMaterials = + mappingsArrayToTable(extensionsDef[this.name]); + }); + } + gltf.userData.variants = variants; + return Promise.resolve(); + } +} + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var _a$8, _b$8; +Texture$1.DEFAULT_ANISOTROPY = 4; +/** + * A helper to Promise-ify a Three.js GLTFLoader + */ +const loadWithLoader = (url, loader, progressCallback = () => { }) => { + const onProgress = (event) => { + const fraction = event.loaded / event.total; + progressCallback(Math.max(0, Math.min(1, isFinite(fraction) ? fraction : 1))); + }; + return new Promise((resolve, reject) => { + loader.load(url, resolve, onProgress, reject); + }); +}; +/** Helper to load a script tag. */ +const fetchScript = (src) => { + return new Promise((resolve, reject) => { + const script = document.createElement('script'); + document.body.appendChild(script); + script.onload = resolve; + script.onerror = reject; + script.async = true; + script.src = src; + }); +}; +const cache = new Map(); +const preloaded = new Map(); +let dracoDecoderLocation; +const dracoLoader = new DRACOLoader(); +let ktx2TranscoderLocation; +const ktx2Loader = new KTX2Loader(); +let meshoptDecoderLocation; +let meshoptDecoder; +const $loader = Symbol('loader'); +const $evictionPolicy = Symbol('evictionPolicy'); +const $GLTFInstance = Symbol('GLTFInstance'); +class CachingGLTFLoader extends EventDispatcher { + static setDRACODecoderLocation(url) { + dracoDecoderLocation = url; + dracoLoader.setDecoderPath(url); + } + static getDRACODecoderLocation() { + return dracoDecoderLocation; + } + static setKTX2TranscoderLocation(url) { + ktx2TranscoderLocation = url; + ktx2Loader.setTranscoderPath(url); + } + static getKTX2TranscoderLocation() { + return ktx2TranscoderLocation; + } + static setMeshoptDecoderLocation(url) { + if (meshoptDecoderLocation !== url) { + meshoptDecoderLocation = url; + meshoptDecoder = fetchScript(url) + .then(() => MeshoptDecoder.ready) + .then(() => MeshoptDecoder); + } + } + static getMeshoptDecoderLocation() { + return meshoptDecoderLocation; + } + static initializeKTX2Loader(renderer) { + ktx2Loader.detectSupport(renderer); + } + static get cache() { + return cache; + } + /** @nocollapse */ + static clearCache() { + cache.forEach((_value, url) => { + this.delete(url); + }); + this[$evictionPolicy].reset(); + } + static has(url) { + return cache.has(url); + } + /** @nocollapse */ + static async delete(url) { + if (!this.has(url)) { + return; + } + const gltfLoads = cache.get(url); + preloaded.delete(url); + cache.delete(url); + const gltf = await gltfLoads; + // Dispose of the cached glTF's materials and geometries: + gltf.dispose(); + } + /** + * Returns true if the model that corresponds to the specified url is + * available in our local cache. + */ + static hasFinishedLoading(url) { + return !!preloaded.get(url); + } + constructor(GLTFInstance) { + super(); + this[_b$8] = new GLTFLoader().register(parser => new GLTFMaterialsVariantsExtension(parser)); + this[$GLTFInstance] = GLTFInstance; + this[$loader].setDRACOLoader(dracoLoader); + this[$loader].setKTX2Loader(ktx2Loader); + } + get [(_a$8 = $evictionPolicy, _b$8 = $loader, $evictionPolicy)]() { + return this.constructor[$evictionPolicy]; + } + /** + * Preloads a glTF, populating the cache. Returns a promise that resolves + * when the cache is populated. + */ + async preload(url, element, progressCallback = () => { }) { + this[$loader].setWithCredentials(element.withCredentials); + this.dispatchEvent({ type: 'preload', element: element, src: url }); + if (!cache.has(url)) { + if (meshoptDecoder != null) { + this[$loader].setMeshoptDecoder(await meshoptDecoder); + } + const rawGLTFLoads = loadWithLoader(url, this[$loader], (progress) => { + progressCallback(progress * 0.8); + }); + const GLTFInstance = this[$GLTFInstance]; + const gltfInstanceLoads = rawGLTFLoads + .then((rawGLTF) => { + return GLTFInstance.prepare(rawGLTF); + }) + .then((preparedGLTF) => { + progressCallback(0.9); + return new GLTFInstance(preparedGLTF); + }) + .catch((reason => { + console.error(reason); + return new GLTFInstance(); + })); + cache.set(url, gltfInstanceLoads); + } + await cache.get(url); + preloaded.set(url, true); + if (progressCallback) { + progressCallback(1.0); + } + } + /** + * Loads a glTF from the specified url and resolves a unique clone of the + * glTF. If the glTF has already been loaded, makes a clone of the cached + * copy. + */ + async load(url, element, progressCallback = () => { }) { + await this.preload(url, element, progressCallback); + const gltf = await cache.get(url); + const clone = await gltf.clone(); + this[$evictionPolicy].retain(url); + // Patch dispose so that we can properly account for instance use + // in the caching layer: + clone.dispose = () => { + this[$evictionPolicy].release(url); + }; + return clone; + } +} +CachingGLTFLoader[_a$8] = new CacheEvictionPolicy(CachingGLTFLoader); + +class CSS2DObject extends Object3D { + + constructor( element = document.createElement( 'div' ) ) { + + super(); + + this.isCSS2DObject = true; + + this.element = element; + + this.element.style.position = 'absolute'; + this.element.style.userSelect = 'none'; + + this.element.setAttribute( 'draggable', false ); + + this.center = new Vector2( 0.5, 0.5 ); // ( 0, 0 ) is the lower left; ( 1, 1 ) is the top right + + this.addEventListener( 'removed', function () { + + this.traverse( function ( object ) { + + if ( + object.element instanceof object.element.ownerDocument.defaultView.Element && + object.element.parentNode !== null + ) { + + object.element.remove(); + + } + + } ); + + } ); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.element = source.element.cloneNode( true ); + + this.center = source.center; + + return this; + + } + +} + +// + +const _vector = new Vector3(); +const _viewMatrix = new Matrix4(); +const _viewProjectionMatrix = new Matrix4(); +const _a$7 = new Vector3(); +const _b$7 = new Vector3(); + +class CSS2DRenderer { + + constructor( parameters = {} ) { + + const _this = this; + + let _width, _height; + let _widthHalf, _heightHalf; + + const cache = { + objects: new WeakMap() + }; + + const domElement = parameters.element !== undefined ? parameters.element : document.createElement( 'div' ); + + domElement.style.overflow = 'hidden'; + + this.domElement = domElement; + + this.getSize = function () { + + return { + width: _width, + height: _height + }; + + }; + + this.render = function ( scene, camera ) { + + if ( scene.matrixWorldAutoUpdate === true ) scene.updateMatrixWorld(); + if ( camera.parent === null && camera.matrixWorldAutoUpdate === true ) camera.updateMatrixWorld(); + + _viewMatrix.copy( camera.matrixWorldInverse ); + _viewProjectionMatrix.multiplyMatrices( camera.projectionMatrix, _viewMatrix ); + + renderObject( scene, scene, camera ); + zOrder( scene ); + + }; + + this.setSize = function ( width, height ) { + + _width = width; + _height = height; + + _widthHalf = _width / 2; + _heightHalf = _height / 2; + + domElement.style.width = width + 'px'; + domElement.style.height = height + 'px'; + + }; + + function hideObject( object ) { + + if ( object.isCSS2DObject ) object.element.style.display = 'none'; + + for ( let i = 0, l = object.children.length; i < l; i ++ ) { + + hideObject( object.children[ i ] ); + + } + + } + + function renderObject( object, scene, camera ) { + + if ( object.visible === false ) { + + hideObject( object ); + + return; + + } + + if ( object.isCSS2DObject ) { + + _vector.setFromMatrixPosition( object.matrixWorld ); + _vector.applyMatrix4( _viewProjectionMatrix ); + + const visible = ( _vector.z >= -1 && _vector.z <= 1 ) && ( object.layers.test( camera.layers ) === true ); + + const element = object.element; + element.style.display = visible === true ? '' : 'none'; + + if ( visible === true ) { + + object.onBeforeRender( _this, scene, camera ); + + element.style.transform = 'translate(' + ( -100 * object.center.x ) + '%,' + ( -100 * object.center.y ) + '%)' + 'translate(' + ( _vector.x * _widthHalf + _widthHalf ) + 'px,' + ( - _vector.y * _heightHalf + _heightHalf ) + 'px)'; + + if ( element.parentNode !== domElement ) { + + domElement.appendChild( element ); + + } + + object.onAfterRender( _this, scene, camera ); + + } + + const objectData = { + distanceToCameraSquared: getDistanceToSquared( camera, object ) + }; + + cache.objects.set( object, objectData ); + + } + + for ( let i = 0, l = object.children.length; i < l; i ++ ) { + + renderObject( object.children[ i ], scene, camera ); + + } + + } + + function getDistanceToSquared( object1, object2 ) { + + _a$7.setFromMatrixPosition( object1.matrixWorld ); + _b$7.setFromMatrixPosition( object2.matrixWorld ); + + return _a$7.distanceToSquared( _b$7 ); + + } + + function filterAndFlatten( scene ) { + + const result = []; + + scene.traverseVisible( function ( object ) { + + if ( object.isCSS2DObject ) result.push( object ); + + } ); + + return result; + + } + + function zOrder( scene ) { + + const sorted = filterAndFlatten( scene ).sort( function ( a, b ) { + + if ( a.renderOrder !== b.renderOrder ) { + + return b.renderOrder - a.renderOrder; + + } + + const distanceA = cache.objects.get( a ).distanceToCameraSquared; + const distanceB = cache.objects.get( b ).distanceToCameraSquared; + + return distanceA - distanceB; + + } ); + + const zMax = sorted.length; + + for ( let i = 0, l = sorted.length; i < l; i ++ ) { + + sorted[ i ].element.style.zIndex = zMax - i; + + } + + } + + } + +} + +function reduceVertices( object, func, initialValue ) { + + let value = initialValue; + const vertex = new Vector3(); + + object.updateWorldMatrix( true, true ); + + object.traverseVisible( ( child ) => { + + const { geometry } = child; + + if ( geometry !== undefined ) { + + const { position } = geometry.attributes; + + if ( position !== undefined ) { + + for ( let i = 0, l = position.count; i < l; i ++ ) { + + if ( child.isMesh ) { + + child.getVertexPosition( i, vertex ); + + } else { + + vertex.fromBufferAttribute( position, i ); + + } + + if ( ! child.isSkinnedMesh ) { + + vertex.applyMatrix4( child.matrixWorld ); + + } + + value = func( value, vertex ); + + } + + } + + } + + } ); + + return value; + +} + +/** + * The KHR_mesh_quantization extension allows these extra attribute component types + * + * @see https://github.com/KhronosGroup/glTF/blob/main/extensions/2.0/Khronos/KHR_mesh_quantization/README.md#extending-mesh-attributes + */ +const KHR_mesh_quantization_ExtraAttrTypes = { + POSITION: [ + 'byte', + 'byte normalized', + 'unsigned byte', + 'unsigned byte normalized', + 'short', + 'short normalized', + 'unsigned short', + 'unsigned short normalized', + ], + NORMAL: [ + 'byte normalized', + 'short normalized', + ], + TANGENT: [ + 'byte normalized', + 'short normalized', + ], + TEXCOORD: [ + 'byte', + 'byte normalized', + 'unsigned byte', + 'short', + 'short normalized', + 'unsigned short', + ], +}; + + +class GLTFExporter { + + constructor() { + + this.textureUtils = null; + + this.pluginCallbacks = []; + + this.register( function ( writer ) { + + return new GLTFLightExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMaterialsUnlitExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMaterialsTransmissionExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMaterialsVolumeExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMaterialsIorExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMaterialsSpecularExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMaterialsClearcoatExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMaterialsDispersionExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMaterialsIridescenceExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMaterialsSheenExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMaterialsAnisotropyExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMaterialsEmissiveStrengthExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMaterialsBumpExtension( writer ); + + } ); + + this.register( function ( writer ) { + + return new GLTFMeshGpuInstancing( writer ); + + } ); + + } + + register( callback ) { + + if ( this.pluginCallbacks.indexOf( callback ) === -1 ) { + + this.pluginCallbacks.push( callback ); + + } + + return this; + + } + + unregister( callback ) { + + if ( this.pluginCallbacks.indexOf( callback ) !== -1 ) { + + this.pluginCallbacks.splice( this.pluginCallbacks.indexOf( callback ), 1 ); + + } + + return this; + + } + + setTextureUtils( utils ) { + + this.textureUtils = utils; + + return this; + + } + + /** + * Parse scenes and generate GLTF output + * + * @param {Scene|Array} input Scene or Array of THREE.Scenes + * @param {Function} onDone Callback on completed + * @param {Function} onError Callback on errors + * @param {Object} options options + */ + parse( input, onDone, onError, options ) { + + const writer = new GLTFWriter(); + const plugins = []; + + for ( let i = 0, il = this.pluginCallbacks.length; i < il; i ++ ) { + + plugins.push( this.pluginCallbacks[ i ]( writer ) ); + + } + + writer.setPlugins( plugins ); + writer.setTextureUtils( this.textureUtils ); + writer.writeAsync( input, onDone, options ).catch( onError ); + + } + + parseAsync( input, options ) { + + const scope = this; + + return new Promise( function ( resolve, reject ) { + + scope.parse( input, resolve, reject, options ); + + } ); + + } + +} + +//------------------------------------------------------------------------------ +// Constants +//------------------------------------------------------------------------------ + +const WEBGL_CONSTANTS = { + POINTS: 0x0000, + LINES: 0x0001, + LINE_LOOP: 0x0002, + LINE_STRIP: 0x0003, + TRIANGLES: 0x0004, + BYTE: 0x1400, + UNSIGNED_BYTE: 0x1401, + SHORT: 0x1402, + UNSIGNED_SHORT: 0x1403, + INT: 0x1404, + UNSIGNED_INT: 0x1405, + FLOAT: 0x1406, + + ARRAY_BUFFER: 0x8892, + ELEMENT_ARRAY_BUFFER: 0x8893, + + NEAREST: 0x2600, + LINEAR: 0x2601, + NEAREST_MIPMAP_NEAREST: 0x2700, + LINEAR_MIPMAP_NEAREST: 0x2701, + NEAREST_MIPMAP_LINEAR: 0x2702, + LINEAR_MIPMAP_LINEAR: 0x2703, + + CLAMP_TO_EDGE: 33071, + MIRRORED_REPEAT: 33648, + REPEAT: 10497 +}; + +const KHR_MESH_QUANTIZATION = 'KHR_mesh_quantization'; + +const THREE_TO_WEBGL = {}; + +THREE_TO_WEBGL[ NearestFilter ] = WEBGL_CONSTANTS.NEAREST; +THREE_TO_WEBGL[ NearestMipmapNearestFilter ] = WEBGL_CONSTANTS.NEAREST_MIPMAP_NEAREST; +THREE_TO_WEBGL[ NearestMipmapLinearFilter ] = WEBGL_CONSTANTS.NEAREST_MIPMAP_LINEAR; +THREE_TO_WEBGL[ LinearFilter ] = WEBGL_CONSTANTS.LINEAR; +THREE_TO_WEBGL[ LinearMipmapNearestFilter ] = WEBGL_CONSTANTS.LINEAR_MIPMAP_NEAREST; +THREE_TO_WEBGL[ LinearMipmapLinearFilter ] = WEBGL_CONSTANTS.LINEAR_MIPMAP_LINEAR; + +THREE_TO_WEBGL[ ClampToEdgeWrapping ] = WEBGL_CONSTANTS.CLAMP_TO_EDGE; +THREE_TO_WEBGL[ RepeatWrapping ] = WEBGL_CONSTANTS.REPEAT; +THREE_TO_WEBGL[ MirroredRepeatWrapping ] = WEBGL_CONSTANTS.MIRRORED_REPEAT; + +const PATH_PROPERTIES = { + scale: 'scale', + position: 'translation', + quaternion: 'rotation', + morphTargetInfluences: 'weights' +}; + +const DEFAULT_SPECULAR_COLOR = new Color(); + +// GLB constants +// https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#glb-file-format-specification + +const GLB_HEADER_BYTES = 12; +const GLB_HEADER_MAGIC = 0x46546C67; +const GLB_VERSION = 2; + +const GLB_CHUNK_PREFIX_BYTES = 8; +const GLB_CHUNK_TYPE_JSON = 0x4E4F534A; +const GLB_CHUNK_TYPE_BIN = 0x004E4942; + +//------------------------------------------------------------------------------ +// Utility functions +//------------------------------------------------------------------------------ + +/** + * Compare two arrays + * @param {Array} array1 Array 1 to compare + * @param {Array} array2 Array 2 to compare + * @return {boolean} Returns true if both arrays are equal + */ +function equalArray( array1, array2 ) { + + return ( array1.length === array2.length ) && array1.every( function ( element, index ) { + + return element === array2[ index ]; + + } ); + +} + +/** + * Converts a string to an ArrayBuffer. + * @param {string} text + * @return {ArrayBuffer} + */ +function stringToArrayBuffer( text ) { + + return new TextEncoder().encode( text ).buffer; + +} + +/** + * Is identity matrix + * + * @param {Matrix4} matrix + * @returns {boolean} Returns true, if parameter is identity matrix + */ +function isIdentityMatrix( matrix ) { + + return equalArray( matrix.elements, [ 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1 ] ); + +} + +/** + * Get the min and max vectors from the given attribute + * + * @param {BufferAttribute} attribute Attribute to find the min/max in range from start to start + count + * @param {number} start Start index + * @param {number} count Range to cover + * @return {Object} Object containing the `min` and `max` values (As an array of attribute.itemSize components) + */ +function getMinMax( attribute, start, count ) { + + const output = { + + min: new Array( attribute.itemSize ).fill( Number.POSITIVE_INFINITY ), + max: new Array( attribute.itemSize ).fill( Number.NEGATIVE_INFINITY ) + + }; + + for ( let i = start; i < start + count; i ++ ) { + + for ( let a = 0; a < attribute.itemSize; a ++ ) { + + let value; + + if ( attribute.itemSize > 4 ) { + + // no support for interleaved data for itemSize > 4 + + value = attribute.array[ i * attribute.itemSize + a ]; + + } else { + + if ( a === 0 ) value = attribute.getX( i ); + else if ( a === 1 ) value = attribute.getY( i ); + else if ( a === 2 ) value = attribute.getZ( i ); + else if ( a === 3 ) value = attribute.getW( i ); + + if ( attribute.normalized === true ) { + + value = MathUtils.normalize( value, attribute.array ); + + } + + } + + output.min[ a ] = Math.min( output.min[ a ], value ); + output.max[ a ] = Math.max( output.max[ a ], value ); + + } + + } + + return output; + +} + +/** + * Get the required size + padding for a buffer, rounded to the next 4-byte boundary. + * https://github.com/KhronosGroup/glTF/tree/master/specification/2.0#data-alignment + * + * @param {number} bufferSize The size the original buffer. Should be an integer. + * @returns {number} new buffer size with required padding as an integer. + * + */ +function getPaddedBufferSize( bufferSize ) { + + return Math.ceil( bufferSize / 4 ) * 4; + +} + +/** + * Returns a buffer aligned to 4-byte boundary. + * + * @param {ArrayBuffer} arrayBuffer Buffer to pad + * @param {number} [paddingByte=0] Should be an integer + * @returns {ArrayBuffer} The same buffer if it's already aligned to 4-byte boundary or a new buffer + */ +function getPaddedArrayBuffer( arrayBuffer, paddingByte = 0 ) { + + const paddedLength = getPaddedBufferSize( arrayBuffer.byteLength ); + + if ( paddedLength !== arrayBuffer.byteLength ) { + + const array = new Uint8Array( paddedLength ); + array.set( new Uint8Array( arrayBuffer ) ); + + if ( paddingByte !== 0 ) { + + for ( let i = arrayBuffer.byteLength; i < paddedLength; i ++ ) { + + array[ i ] = paddingByte; + + } + + } + + return array.buffer; + + } + + return arrayBuffer; + +} + +function getCanvas() { + + if ( typeof document === 'undefined' && typeof OffscreenCanvas !== 'undefined' ) { + + return new OffscreenCanvas( 1, 1 ); + + } + + return document.createElement( 'canvas' ); + +} + +function getToBlobPromise( canvas, mimeType ) { + + if ( canvas.toBlob !== undefined ) { + + return new Promise( ( resolve ) => canvas.toBlob( resolve, mimeType ) ); + + } + + let quality; + + // Blink's implementation of convertToBlob seems to default to a quality level of 100% + // Use the Blink default quality levels of toBlob instead so that file sizes are comparable. + if ( mimeType === 'image/jpeg' ) { + + quality = 0.92; + + } else if ( mimeType === 'image/webp' ) { + + quality = 0.8; + + } + + return canvas.convertToBlob( { + + type: mimeType, + quality: quality + + } ); + +} + +/** + * Writer + */ +class GLTFWriter { + + constructor() { + + this.plugins = []; + + this.options = {}; + this.pending = []; + this.buffers = []; + + this.byteOffset = 0; + this.buffers = []; + this.nodeMap = new Map(); + this.skins = []; + + this.extensionsUsed = {}; + this.extensionsRequired = {}; + + this.uids = new Map(); + this.uid = 0; + + this.json = { + asset: { + version: '2.0', + generator: 'THREE.GLTFExporter r' + REVISION + } + }; + + this.cache = { + meshes: new Map(), + attributes: new Map(), + attributesNormalized: new Map(), + materials: new Map(), + textures: new Map(), + images: new Map() + }; + + this.textureUtils = null; + + } + + setPlugins( plugins ) { + + this.plugins = plugins; + + } + + setTextureUtils( utils ) { + + this.textureUtils = utils; + + } + + /** + * Parse scenes and generate GLTF output + * + * @param {Scene|Array} input Scene or Array of THREE.Scenes + * @param {Function} onDone Callback on completed + * @param {Object} options options + */ + async writeAsync( input, onDone, options = {} ) { + + this.options = Object.assign( { + // default options + binary: false, + trs: false, + onlyVisible: true, + maxTextureSize: Infinity, + animations: [], + includeCustomExtensions: false + }, options ); + + if ( this.options.animations.length > 0 ) { + + // Only TRS properties, and not matrices, may be targeted by animation. + this.options.trs = true; + + } + + await this.processInputAsync( input ); + + await Promise.all( this.pending ); + + const writer = this; + const buffers = writer.buffers; + const json = writer.json; + options = writer.options; + + const extensionsUsed = writer.extensionsUsed; + const extensionsRequired = writer.extensionsRequired; + + // Merge buffers. + const blob = new Blob( buffers, { type: 'application/octet-stream' } ); + + // Declare extensions. + const extensionsUsedList = Object.keys( extensionsUsed ); + const extensionsRequiredList = Object.keys( extensionsRequired ); + + if ( extensionsUsedList.length > 0 ) json.extensionsUsed = extensionsUsedList; + if ( extensionsRequiredList.length > 0 ) json.extensionsRequired = extensionsRequiredList; + + // Update bytelength of the single buffer. + if ( json.buffers && json.buffers.length > 0 ) json.buffers[ 0 ].byteLength = blob.size; + + if ( options.binary === true ) { + + // https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#glb-file-format-specification + + const reader = new FileReader(); + reader.readAsArrayBuffer( blob ); + reader.onloadend = function () { + + // Binary chunk. + const binaryChunk = getPaddedArrayBuffer( reader.result ); + const binaryChunkPrefix = new DataView( new ArrayBuffer( GLB_CHUNK_PREFIX_BYTES ) ); + binaryChunkPrefix.setUint32( 0, binaryChunk.byteLength, true ); + binaryChunkPrefix.setUint32( 4, GLB_CHUNK_TYPE_BIN, true ); + + // JSON chunk. + const jsonChunk = getPaddedArrayBuffer( stringToArrayBuffer( JSON.stringify( json ) ), 0x20 ); + const jsonChunkPrefix = new DataView( new ArrayBuffer( GLB_CHUNK_PREFIX_BYTES ) ); + jsonChunkPrefix.setUint32( 0, jsonChunk.byteLength, true ); + jsonChunkPrefix.setUint32( 4, GLB_CHUNK_TYPE_JSON, true ); + + // GLB header. + const header = new ArrayBuffer( GLB_HEADER_BYTES ); + const headerView = new DataView( header ); + headerView.setUint32( 0, GLB_HEADER_MAGIC, true ); + headerView.setUint32( 4, GLB_VERSION, true ); + const totalByteLength = GLB_HEADER_BYTES + + jsonChunkPrefix.byteLength + jsonChunk.byteLength + + binaryChunkPrefix.byteLength + binaryChunk.byteLength; + headerView.setUint32( 8, totalByteLength, true ); + + const glbBlob = new Blob( [ + header, + jsonChunkPrefix, + jsonChunk, + binaryChunkPrefix, + binaryChunk + ], { type: 'application/octet-stream' } ); + + const glbReader = new FileReader(); + glbReader.readAsArrayBuffer( glbBlob ); + glbReader.onloadend = function () { + + onDone( glbReader.result ); + + }; + + }; + + } else { + + if ( json.buffers && json.buffers.length > 0 ) { + + const reader = new FileReader(); + reader.readAsDataURL( blob ); + reader.onloadend = function () { + + const base64data = reader.result; + json.buffers[ 0 ].uri = base64data; + onDone( json ); + + }; + + } else { + + onDone( json ); + + } + + } + + + } + + /** + * Serializes a userData. + * + * @param {THREE.Object3D|THREE.Material} object + * @param {Object} objectDef + */ + serializeUserData( object, objectDef ) { + + if ( Object.keys( object.userData ).length === 0 ) return; + + const options = this.options; + const extensionsUsed = this.extensionsUsed; + + try { + + const json = JSON.parse( JSON.stringify( object.userData ) ); + + if ( options.includeCustomExtensions && json.gltfExtensions ) { + + if ( objectDef.extensions === undefined ) objectDef.extensions = {}; + + for ( const extensionName in json.gltfExtensions ) { + + objectDef.extensions[ extensionName ] = json.gltfExtensions[ extensionName ]; + extensionsUsed[ extensionName ] = true; + + } + + delete json.gltfExtensions; + + } + + if ( Object.keys( json ).length > 0 ) objectDef.extras = json; + + } catch ( error ) { + + console.warn( 'THREE.GLTFExporter: userData of \'' + object.name + '\' ' + + 'won\'t be serialized because of JSON.stringify error - ' + error.message ); + + } + + } + + /** + * Returns ids for buffer attributes. + * + * @param {Object} attribute + * @param {boolean} [isRelativeCopy=false] + * @return {number} An integer + */ + getUID( attribute, isRelativeCopy = false ) { + + if ( this.uids.has( attribute ) === false ) { + + const uids = new Map(); + + uids.set( true, this.uid ++ ); + uids.set( false, this.uid ++ ); + + this.uids.set( attribute, uids ); + + } + + const uids = this.uids.get( attribute ); + + return uids.get( isRelativeCopy ); + + } + + /** + * Checks if normal attribute values are normalized. + * + * @param {BufferAttribute} normal + * @returns {boolean} + */ + isNormalizedNormalAttribute( normal ) { + + const cache = this.cache; + + if ( cache.attributesNormalized.has( normal ) ) return false; + + const v = new Vector3(); + + for ( let i = 0, il = normal.count; i < il; i ++ ) { + + // 0.0005 is from glTF-validator + if ( Math.abs( v.fromBufferAttribute( normal, i ).length() - 1.0 ) > 0.0005 ) return false; + + } + + return true; + + } + + /** + * Creates normalized normal buffer attribute. + * + * @param {BufferAttribute} normal + * @returns {BufferAttribute} + * + */ + createNormalizedNormalAttribute( normal ) { + + const cache = this.cache; + + if ( cache.attributesNormalized.has( normal ) ) return cache.attributesNormalized.get( normal ); + + const attribute = normal.clone(); + const v = new Vector3(); + + for ( let i = 0, il = attribute.count; i < il; i ++ ) { + + v.fromBufferAttribute( attribute, i ); + + if ( v.x === 0 && v.y === 0 && v.z === 0 ) { + + // if values can't be normalized set (1, 0, 0) + v.setX( 1.0 ); + + } else { + + v.normalize(); + + } + + attribute.setXYZ( i, v.x, v.y, v.z ); + + } + + cache.attributesNormalized.set( normal, attribute ); + + return attribute; + + } + + /** + * Applies a texture transform, if present, to the map definition. Requires + * the KHR_texture_transform extension. + * + * @param {Object} mapDef + * @param {THREE.Texture} texture + */ + applyTextureTransform( mapDef, texture ) { + + let didTransform = false; + const transformDef = {}; + + if ( texture.offset.x !== 0 || texture.offset.y !== 0 ) { + + transformDef.offset = texture.offset.toArray(); + didTransform = true; + + } + + if ( texture.rotation !== 0 ) { + + transformDef.rotation = texture.rotation; + didTransform = true; + + } + + if ( texture.repeat.x !== 1 || texture.repeat.y !== 1 ) { + + transformDef.scale = texture.repeat.toArray(); + didTransform = true; + + } + + if ( didTransform ) { + + mapDef.extensions = mapDef.extensions || {}; + mapDef.extensions[ 'KHR_texture_transform' ] = transformDef; + this.extensionsUsed[ 'KHR_texture_transform' ] = true; + + } + + } + + async buildMetalRoughTextureAsync( metalnessMap, roughnessMap ) { + + if ( metalnessMap === roughnessMap ) return metalnessMap; + + function getEncodingConversion( map ) { + + if ( map.colorSpace === SRGBColorSpace ) { + + return function SRGBToLinear( c ) { + + return ( c < 0.04045 ) ? c * 0.0773993808 : Math.pow( c * 0.9478672986 + 0.0521327014, 2.4 ); + + }; + + } + + return function LinearToLinear( c ) { + + return c; + + }; + + } + + if ( metalnessMap instanceof CompressedTexture ) { + + metalnessMap = await this.decompressTextureAsync( metalnessMap ); + + } + + if ( roughnessMap instanceof CompressedTexture ) { + + roughnessMap = await this.decompressTextureAsync( roughnessMap ); + + } + + const metalness = metalnessMap ? metalnessMap.image : null; + const roughness = roughnessMap ? roughnessMap.image : null; + + const width = Math.max( metalness ? metalness.width : 0, roughness ? roughness.width : 0 ); + const height = Math.max( metalness ? metalness.height : 0, roughness ? roughness.height : 0 ); + + const canvas = getCanvas(); + canvas.width = width; + canvas.height = height; + + const context = canvas.getContext( '2d', { + willReadFrequently: true, + } ); + context.fillStyle = '#00ffff'; + context.fillRect( 0, 0, width, height ); + + const composite = context.getImageData( 0, 0, width, height ); + + if ( metalness ) { + + context.drawImage( metalness, 0, 0, width, height ); + + const convert = getEncodingConversion( metalnessMap ); + const data = context.getImageData( 0, 0, width, height ).data; + + for ( let i = 2; i < data.length; i += 4 ) { + + composite.data[ i ] = convert( data[ i ] / 256 ) * 256; + + } + + } + + if ( roughness ) { + + context.drawImage( roughness, 0, 0, width, height ); + + const convert = getEncodingConversion( roughnessMap ); + const data = context.getImageData( 0, 0, width, height ).data; + + for ( let i = 1; i < data.length; i += 4 ) { + + composite.data[ i ] = convert( data[ i ] / 256 ) * 256; + + } + + } + + context.putImageData( composite, 0, 0 ); + + // + + const reference = metalnessMap || roughnessMap; + + const texture = reference.clone(); + + texture.source = new Source( canvas ); + texture.colorSpace = NoColorSpace; + texture.channel = ( metalnessMap || roughnessMap ).channel; + + if ( metalnessMap && roughnessMap && metalnessMap.channel !== roughnessMap.channel ) { + + console.warn( 'THREE.GLTFExporter: UV channels for metalnessMap and roughnessMap textures must match.' ); + + } + + console.warn( 'THREE.GLTFExporter: Merged metalnessMap and roughnessMap textures.' ); + + return texture; + + } + + + async decompressTextureAsync( texture, maxTextureSize = Infinity ) { + + if ( this.textureUtils === null ) { + + throw new Error( 'THREE.GLTFExporter: setTextureUtils() must be called to process compressed textures.' ); + + } + + return await this.textureUtils.decompress( texture, maxTextureSize ); + + } + + /** + * Process a buffer to append to the default one. + * @param {ArrayBuffer} buffer + * @return {0} + */ + processBuffer( buffer ) { + + const json = this.json; + const buffers = this.buffers; + + if ( ! json.buffers ) json.buffers = [ { byteLength: 0 } ]; + + // All buffers are merged before export. + buffers.push( buffer ); + + return 0; + + } + + /** + * Process and generate a BufferView + * @param {BufferAttribute} attribute + * @param {number} componentType + * @param {number} start + * @param {number} count + * @param {?number} target Target usage of the BufferView + * @return {Object} + */ + processBufferView( attribute, componentType, start, count, target ) { + + const json = this.json; + + if ( ! json.bufferViews ) json.bufferViews = []; + + // Create a new dataview and dump the attribute's array into it + + let componentSize; + + switch ( componentType ) { + + case WEBGL_CONSTANTS.BYTE: + case WEBGL_CONSTANTS.UNSIGNED_BYTE: + + componentSize = 1; + + break; + + case WEBGL_CONSTANTS.SHORT: + case WEBGL_CONSTANTS.UNSIGNED_SHORT: + + componentSize = 2; + + break; + + default: + + componentSize = 4; + + } + + let byteStride = attribute.itemSize * componentSize; + + if ( target === WEBGL_CONSTANTS.ARRAY_BUFFER ) { + + // Each element of a vertex attribute MUST be aligned to 4-byte boundaries + // inside a bufferView + byteStride = Math.ceil( byteStride / 4 ) * 4; + + } + + const byteLength = getPaddedBufferSize( count * byteStride ); + const dataView = new DataView( new ArrayBuffer( byteLength ) ); + let offset = 0; + + for ( let i = start; i < start + count; i ++ ) { + + for ( let a = 0; a < attribute.itemSize; a ++ ) { + + let value; + + if ( attribute.itemSize > 4 ) { + + // no support for interleaved data for itemSize > 4 + + value = attribute.array[ i * attribute.itemSize + a ]; + + } else { + + if ( a === 0 ) value = attribute.getX( i ); + else if ( a === 1 ) value = attribute.getY( i ); + else if ( a === 2 ) value = attribute.getZ( i ); + else if ( a === 3 ) value = attribute.getW( i ); + + if ( attribute.normalized === true ) { + + value = MathUtils.normalize( value, attribute.array ); + + } + + } + + if ( componentType === WEBGL_CONSTANTS.FLOAT ) { + + dataView.setFloat32( offset, value, true ); + + } else if ( componentType === WEBGL_CONSTANTS.INT ) { + + dataView.setInt32( offset, value, true ); + + } else if ( componentType === WEBGL_CONSTANTS.UNSIGNED_INT ) { + + dataView.setUint32( offset, value, true ); + + } else if ( componentType === WEBGL_CONSTANTS.SHORT ) { + + dataView.setInt16( offset, value, true ); + + } else if ( componentType === WEBGL_CONSTANTS.UNSIGNED_SHORT ) { + + dataView.setUint16( offset, value, true ); + + } else if ( componentType === WEBGL_CONSTANTS.BYTE ) { + + dataView.setInt8( offset, value ); + + } else if ( componentType === WEBGL_CONSTANTS.UNSIGNED_BYTE ) { + + dataView.setUint8( offset, value ); + + } + + offset += componentSize; + + } + + if ( ( offset % byteStride ) !== 0 ) { + + offset += byteStride - ( offset % byteStride ); + + } + + } + + const bufferViewDef = { + + buffer: this.processBuffer( dataView.buffer ), + byteOffset: this.byteOffset, + byteLength: byteLength + + }; + + if ( target !== undefined ) bufferViewDef.target = target; + + if ( target === WEBGL_CONSTANTS.ARRAY_BUFFER ) { + + // Only define byteStride for vertex attributes. + bufferViewDef.byteStride = byteStride; + + } + + this.byteOffset += byteLength; + + json.bufferViews.push( bufferViewDef ); + + // @TODO Merge bufferViews where possible. + const output = { + + id: json.bufferViews.length - 1, + byteLength: 0 + + }; + + return output; + + } + + /** + * Process and generate a BufferView from an image Blob. + * @param {Blob} blob + * @return {Promise} An integer + */ + processBufferViewImage( blob ) { + + const writer = this; + const json = writer.json; + + if ( ! json.bufferViews ) json.bufferViews = []; + + return new Promise( function ( resolve ) { + + const reader = new FileReader(); + reader.readAsArrayBuffer( blob ); + reader.onloadend = function () { + + const buffer = getPaddedArrayBuffer( reader.result ); + + const bufferViewDef = { + buffer: writer.processBuffer( buffer ), + byteOffset: writer.byteOffset, + byteLength: buffer.byteLength + }; + + writer.byteOffset += buffer.byteLength; + resolve( json.bufferViews.push( bufferViewDef ) - 1 ); + + }; + + } ); + + } + + /** + * Process attribute to generate an accessor + * @param {BufferAttribute} attribute Attribute to process + * @param {?BufferGeometry} geometry Geometry used for truncated draw range + * @param {number} [start=0] + * @param {number} [count=Infinity] + * @return {?number} Index of the processed accessor on the "accessors" array + */ + processAccessor( attribute, geometry, start, count ) { + + const json = this.json; + + const types = { + + 1: 'SCALAR', + 2: 'VEC2', + 3: 'VEC3', + 4: 'VEC4', + 9: 'MAT3', + 16: 'MAT4' + + }; + + let componentType; + + // Detect the component type of the attribute array + if ( attribute.array.constructor === Float32Array ) { + + componentType = WEBGL_CONSTANTS.FLOAT; + + } else if ( attribute.array.constructor === Int32Array ) { + + componentType = WEBGL_CONSTANTS.INT; + + } else if ( attribute.array.constructor === Uint32Array ) { + + componentType = WEBGL_CONSTANTS.UNSIGNED_INT; + + } else if ( attribute.array.constructor === Int16Array ) { + + componentType = WEBGL_CONSTANTS.SHORT; + + } else if ( attribute.array.constructor === Uint16Array ) { + + componentType = WEBGL_CONSTANTS.UNSIGNED_SHORT; + + } else if ( attribute.array.constructor === Int8Array ) { + + componentType = WEBGL_CONSTANTS.BYTE; + + } else if ( attribute.array.constructor === Uint8Array ) { + + componentType = WEBGL_CONSTANTS.UNSIGNED_BYTE; + + } else { + + throw new Error( 'THREE.GLTFExporter: Unsupported bufferAttribute component type: ' + attribute.array.constructor.name ); + + } + + if ( start === undefined ) start = 0; + if ( count === undefined || count === Infinity ) count = attribute.count; + + // Skip creating an accessor if the attribute doesn't have data to export + if ( count === 0 ) return null; + + const minMax = getMinMax( attribute, start, count ); + let bufferViewTarget; + + // If geometry isn't provided, don't infer the target usage of the bufferView. For + // animation samplers, target must not be set. + if ( geometry !== undefined ) { + + bufferViewTarget = attribute === geometry.index ? WEBGL_CONSTANTS.ELEMENT_ARRAY_BUFFER : WEBGL_CONSTANTS.ARRAY_BUFFER; + + } + + const bufferView = this.processBufferView( attribute, componentType, start, count, bufferViewTarget ); + + const accessorDef = { + + bufferView: bufferView.id, + byteOffset: bufferView.byteOffset, + componentType: componentType, + count: count, + max: minMax.max, + min: minMax.min, + type: types[ attribute.itemSize ] + + }; + + if ( attribute.normalized === true ) accessorDef.normalized = true; + if ( ! json.accessors ) json.accessors = []; + + return json.accessors.push( accessorDef ) - 1; + + } + + /** + * Process image + * @param {Image} image to process + * @param {number} format Identifier of the format (RGBAFormat) + * @param {boolean} flipY before writing out the image + * @param {string} mimeType export format + * @return {number} Index of the processed texture in the "images" array + */ + processImage( image, format, flipY, mimeType = 'image/png' ) { + + if ( image !== null ) { + + const writer = this; + const cache = writer.cache; + const json = writer.json; + const options = writer.options; + const pending = writer.pending; + + if ( ! cache.images.has( image ) ) cache.images.set( image, {} ); + + const cachedImages = cache.images.get( image ); + + const key = mimeType + ':flipY/' + flipY.toString(); + + if ( cachedImages[ key ] !== undefined ) return cachedImages[ key ]; + + if ( ! json.images ) json.images = []; + + const imageDef = { mimeType: mimeType }; + + const canvas = getCanvas(); + + canvas.width = Math.min( image.width, options.maxTextureSize ); + canvas.height = Math.min( image.height, options.maxTextureSize ); + + const ctx = canvas.getContext( '2d', { + willReadFrequently: true, + } ); + + if ( flipY === true ) { + + ctx.translate( 0, canvas.height ); + ctx.scale( 1, -1 ); + + } + + if ( image.data !== undefined ) { // THREE.DataTexture + + if ( format !== RGBAFormat ) { + + console.error( 'GLTFExporter: Only RGBAFormat is supported.', format ); + + } + + if ( image.width > options.maxTextureSize || image.height > options.maxTextureSize ) { + + console.warn( 'GLTFExporter: Image size is bigger than maxTextureSize', image ); + + } + + const data = new Uint8ClampedArray( image.height * image.width * 4 ); + + for ( let i = 0; i < data.length; i += 4 ) { + + data[ i + 0 ] = image.data[ i + 0 ]; + data[ i + 1 ] = image.data[ i + 1 ]; + data[ i + 2 ] = image.data[ i + 2 ]; + data[ i + 3 ] = image.data[ i + 3 ]; + + } + + ctx.putImageData( new ImageData( data, image.width, image.height ), 0, 0 ); + + } else { + + if ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) || + ( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) || + ( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) || + ( typeof OffscreenCanvas !== 'undefined' && image instanceof OffscreenCanvas ) ) { + + ctx.drawImage( image, 0, 0, canvas.width, canvas.height ); + + } else { + + throw new Error( 'THREE.GLTFExporter: Invalid image type. Use HTMLImageElement, HTMLCanvasElement, ImageBitmap or OffscreenCanvas.' ); + + } + + } + + if ( options.binary === true ) { + + pending.push( + + getToBlobPromise( canvas, mimeType ) + .then( blob => writer.processBufferViewImage( blob ) ) + .then( bufferViewIndex => { + + imageDef.bufferView = bufferViewIndex; + + } ) + + ); + + } else { + + if ( canvas.toDataURL !== undefined ) { + + imageDef.uri = canvas.toDataURL( mimeType ); + + } else { + + pending.push( + + getToBlobPromise( canvas, mimeType ) + .then( blob => new FileReader().readAsDataURL( blob ) ) + .then( dataURL => { + + imageDef.uri = dataURL; + + } ) + + ); + + } + + } + + const index = json.images.push( imageDef ) - 1; + cachedImages[ key ] = index; + return index; + + } else { + + throw new Error( 'THREE.GLTFExporter: No valid image data found. Unable to process texture.' ); + + } + + } + + /** + * Process sampler + * @param {Texture} map Texture to process + * @return {number} Index of the processed texture in the "samplers" array + */ + processSampler( map ) { + + const json = this.json; + + if ( ! json.samplers ) json.samplers = []; + + const samplerDef = { + magFilter: THREE_TO_WEBGL[ map.magFilter ], + minFilter: THREE_TO_WEBGL[ map.minFilter ], + wrapS: THREE_TO_WEBGL[ map.wrapS ], + wrapT: THREE_TO_WEBGL[ map.wrapT ] + }; + + return json.samplers.push( samplerDef ) - 1; + + } + + /** + * Process texture + * @param {Texture} map Map to process + * @return {Promise} Index of the processed texture in the "textures" array + */ + async processTextureAsync( map ) { + + const writer = this; + const options = writer.options; + const cache = this.cache; + const json = this.json; + + if ( cache.textures.has( map ) ) return cache.textures.get( map ); + + if ( ! json.textures ) json.textures = []; + + // make non-readable textures (e.g. CompressedTexture) readable by blitting them into a new texture + if ( map instanceof CompressedTexture ) { + + map = await this.decompressTextureAsync( map, options.maxTextureSize ); + + } + + let mimeType = map.userData.mimeType; + + if ( mimeType === 'image/webp' ) mimeType = 'image/png'; + + const textureDef = { + sampler: this.processSampler( map ), + source: this.processImage( map.image, map.format, map.flipY, mimeType ) + }; + + if ( map.name ) textureDef.name = map.name; + + await this._invokeAllAsync( async function ( ext ) { + + ext.writeTexture && await ext.writeTexture( map, textureDef ); + + } ); + + const index = json.textures.push( textureDef ) - 1; + cache.textures.set( map, index ); + return index; + + } + + /** + * Process material + * @param {THREE.Material} material Material to process + * @return {Promise} Index of the processed material in the "materials" array + */ + async processMaterialAsync( material ) { + + const cache = this.cache; + const json = this.json; + + if ( cache.materials.has( material ) ) return cache.materials.get( material ); + + if ( material.isShaderMaterial ) { + + console.warn( 'GLTFExporter: THREE.ShaderMaterial not supported.' ); + return null; + + } + + if ( ! json.materials ) json.materials = []; + + // @QUESTION Should we avoid including any attribute that has the default value? + const materialDef = { pbrMetallicRoughness: {} }; + + if ( material.isMeshStandardMaterial !== true && material.isMeshBasicMaterial !== true ) { + + console.warn( 'GLTFExporter: Use MeshStandardMaterial or MeshBasicMaterial for best results.' ); + + } + + // pbrMetallicRoughness.baseColorFactor + const color = material.color.toArray().concat( [ material.opacity ] ); + + if ( ! equalArray( color, [ 1, 1, 1, 1 ] ) ) { + + materialDef.pbrMetallicRoughness.baseColorFactor = color; + + } + + if ( material.isMeshStandardMaterial ) { + + materialDef.pbrMetallicRoughness.metallicFactor = material.metalness; + materialDef.pbrMetallicRoughness.roughnessFactor = material.roughness; + + } else { + + materialDef.pbrMetallicRoughness.metallicFactor = 0; + materialDef.pbrMetallicRoughness.roughnessFactor = 1; + + } + + // pbrMetallicRoughness.metallicRoughnessTexture + if ( material.metalnessMap || material.roughnessMap ) { + + const metalRoughTexture = await this.buildMetalRoughTextureAsync( material.metalnessMap, material.roughnessMap ); + + const metalRoughMapDef = { + index: await this.processTextureAsync( metalRoughTexture ), + texCoord: metalRoughTexture.channel + }; + this.applyTextureTransform( metalRoughMapDef, metalRoughTexture ); + materialDef.pbrMetallicRoughness.metallicRoughnessTexture = metalRoughMapDef; + + } + + // pbrMetallicRoughness.baseColorTexture + if ( material.map ) { + + const baseColorMapDef = { + index: await this.processTextureAsync( material.map ), + texCoord: material.map.channel + }; + this.applyTextureTransform( baseColorMapDef, material.map ); + materialDef.pbrMetallicRoughness.baseColorTexture = baseColorMapDef; + + } + + if ( material.emissive ) { + + const emissive = material.emissive; + const maxEmissiveComponent = Math.max( emissive.r, emissive.g, emissive.b ); + + if ( maxEmissiveComponent > 0 ) { + + materialDef.emissiveFactor = material.emissive.toArray(); + + } + + // emissiveTexture + if ( material.emissiveMap ) { + + const emissiveMapDef = { + index: await this.processTextureAsync( material.emissiveMap ), + texCoord: material.emissiveMap.channel + }; + this.applyTextureTransform( emissiveMapDef, material.emissiveMap ); + materialDef.emissiveTexture = emissiveMapDef; + + } + + } + + // normalTexture + if ( material.normalMap ) { + + const normalMapDef = { + index: await this.processTextureAsync( material.normalMap ), + texCoord: material.normalMap.channel + }; + + if ( material.normalScale && material.normalScale.x !== 1 ) { + + // glTF normal scale is univariate. Ignore `y`, which may be flipped. + // Context: https://github.com/mrdoob/three.js/issues/11438#issuecomment-507003995 + normalMapDef.scale = material.normalScale.x; + + } + + this.applyTextureTransform( normalMapDef, material.normalMap ); + materialDef.normalTexture = normalMapDef; + + } + + // occlusionTexture + if ( material.aoMap ) { + + const occlusionMapDef = { + index: await this.processTextureAsync( material.aoMap ), + texCoord: material.aoMap.channel + }; + + if ( material.aoMapIntensity !== 1.0 ) { + + occlusionMapDef.strength = material.aoMapIntensity; + + } + + this.applyTextureTransform( occlusionMapDef, material.aoMap ); + materialDef.occlusionTexture = occlusionMapDef; + + } + + // alphaMode + if ( material.transparent ) { + + materialDef.alphaMode = 'BLEND'; + + } else { + + if ( material.alphaTest > 0.0 ) { + + materialDef.alphaMode = 'MASK'; + materialDef.alphaCutoff = material.alphaTest; + + } + + } + + // doubleSided + if ( material.side === DoubleSide ) materialDef.doubleSided = true; + if ( material.name !== '' ) materialDef.name = material.name; + + this.serializeUserData( material, materialDef ); + + await this._invokeAllAsync( async function ( ext ) { + + ext.writeMaterialAsync && await ext.writeMaterialAsync( material, materialDef ); + + } ); + + const index = json.materials.push( materialDef ) - 1; + cache.materials.set( material, index ); + return index; + + } + + /** + * Process mesh + * @param {THREE.Mesh} mesh Mesh to process + * @return {Promise} Index of the processed mesh in the "meshes" array + */ + async processMeshAsync( mesh ) { + + const cache = this.cache; + const json = this.json; + + const meshCacheKeyParts = [ mesh.geometry.uuid ]; + + if ( Array.isArray( mesh.material ) ) { + + for ( let i = 0, l = mesh.material.length; i < l; i ++ ) { + + meshCacheKeyParts.push( mesh.material[ i ].uuid ); + + } + + } else { + + meshCacheKeyParts.push( mesh.material.uuid ); + + } + + const meshCacheKey = meshCacheKeyParts.join( ':' ); + + if ( cache.meshes.has( meshCacheKey ) ) return cache.meshes.get( meshCacheKey ); + + const geometry = mesh.geometry; + + let mode; + + // Use the correct mode + if ( mesh.isLineSegments ) { + + mode = WEBGL_CONSTANTS.LINES; + + } else if ( mesh.isLineLoop ) { + + mode = WEBGL_CONSTANTS.LINE_LOOP; + + } else if ( mesh.isLine ) { + + mode = WEBGL_CONSTANTS.LINE_STRIP; + + } else if ( mesh.isPoints ) { + + mode = WEBGL_CONSTANTS.POINTS; + + } else { + + mode = mesh.material.wireframe ? WEBGL_CONSTANTS.LINES : WEBGL_CONSTANTS.TRIANGLES; + + } + + const meshDef = {}; + const attributes = {}; + const primitives = []; + const targets = []; + + // Conversion between attributes names in threejs and gltf spec + const nameConversion = { + uv: 'TEXCOORD_0', + uv1: 'TEXCOORD_1', + uv2: 'TEXCOORD_2', + uv3: 'TEXCOORD_3', + color: 'COLOR_0', + skinWeight: 'WEIGHTS_0', + skinIndex: 'JOINTS_0' + }; + + const originalNormal = geometry.getAttribute( 'normal' ); + + if ( originalNormal !== undefined && ! this.isNormalizedNormalAttribute( originalNormal ) ) { + + console.warn( 'THREE.GLTFExporter: Creating normalized normal attribute from the non-normalized one.' ); + + geometry.setAttribute( 'normal', this.createNormalizedNormalAttribute( originalNormal ) ); + + } + + // @QUESTION Detect if .vertexColors = true? + // For every attribute create an accessor + let modifiedAttribute = null; + + for ( let attributeName in geometry.attributes ) { + + // Ignore morph target attributes, which are exported later. + if ( attributeName.slice( 0, 5 ) === 'morph' ) continue; + + const attribute = geometry.attributes[ attributeName ]; + attributeName = nameConversion[ attributeName ] || attributeName.toUpperCase(); + + // Prefix all geometry attributes except the ones specifically + // listed in the spec; non-spec attributes are considered custom. + const validVertexAttributes = + /^(POSITION|NORMAL|TANGENT|TEXCOORD_\d+|COLOR_\d+|JOINTS_\d+|WEIGHTS_\d+)$/; + + if ( ! validVertexAttributes.test( attributeName ) ) attributeName = '_' + attributeName; + + if ( cache.attributes.has( this.getUID( attribute ) ) ) { + + attributes[ attributeName ] = cache.attributes.get( this.getUID( attribute ) ); + continue; + + } + + // Enforce glTF vertex attribute requirements: + // - JOINTS_0 must be UNSIGNED_BYTE or UNSIGNED_SHORT + // - Only custom attributes may be INT or UNSIGNED_INT + modifiedAttribute = null; + const array = attribute.array; + + if ( attributeName === 'JOINTS_0' && + ! ( array instanceof Uint16Array ) && + ! ( array instanceof Uint8Array ) ) { + + console.warn( 'GLTFExporter: Attribute "skinIndex" converted to type UNSIGNED_SHORT.' ); + modifiedAttribute = new BufferAttribute( new Uint16Array( array ), attribute.itemSize, attribute.normalized ); + + } else if ( ( array instanceof Uint32Array || array instanceof Int32Array ) && ! attributeName.startsWith( '_' ) ) { + + console.warn( `GLTFExporter: Attribute "${ attributeName }" converted to type FLOAT.` ); + modifiedAttribute = GLTFExporter.Utils.toFloat32BufferAttribute( attribute ); + + } + + const accessor = this.processAccessor( modifiedAttribute || attribute, geometry ); + + if ( accessor !== null ) { + + if ( ! attributeName.startsWith( '_' ) ) { + + this.detectMeshQuantization( attributeName, attribute ); + + } + + attributes[ attributeName ] = accessor; + cache.attributes.set( this.getUID( attribute ), accessor ); + + } + + } + + if ( originalNormal !== undefined ) geometry.setAttribute( 'normal', originalNormal ); + + // Skip if no exportable attributes found + if ( Object.keys( attributes ).length === 0 ) return null; + + // Morph targets + if ( mesh.morphTargetInfluences !== undefined && mesh.morphTargetInfluences.length > 0 ) { + + const weights = []; + const targetNames = []; + const reverseDictionary = {}; + + if ( mesh.morphTargetDictionary !== undefined ) { + + for ( const key in mesh.morphTargetDictionary ) { + + reverseDictionary[ mesh.morphTargetDictionary[ key ] ] = key; + + } + + } + + for ( let i = 0; i < mesh.morphTargetInfluences.length; ++ i ) { + + const target = {}; + let warned = false; + + for ( const attributeName in geometry.morphAttributes ) { + + // glTF 2.0 morph supports only POSITION/NORMAL/TANGENT. + // Three.js doesn't support TANGENT yet. + + if ( attributeName !== 'position' && attributeName !== 'normal' ) { + + if ( ! warned ) { + + console.warn( 'GLTFExporter: Only POSITION and NORMAL morph are supported.' ); + warned = true; + + } + + continue; + + } + + const attribute = geometry.morphAttributes[ attributeName ][ i ]; + const gltfAttributeName = attributeName.toUpperCase(); + + // Three.js morph attribute has absolute values while the one of glTF has relative values. + // + // glTF 2.0 Specification: + // https://github.com/KhronosGroup/glTF/tree/master/specification/2.0#morph-targets + + const baseAttribute = geometry.attributes[ attributeName ]; + + if ( cache.attributes.has( this.getUID( attribute, true ) ) ) { + + target[ gltfAttributeName ] = cache.attributes.get( this.getUID( attribute, true ) ); + continue; + + } + + // Clones attribute not to override + const relativeAttribute = attribute.clone(); + + if ( ! geometry.morphTargetsRelative ) { + + for ( let j = 0, jl = attribute.count; j < jl; j ++ ) { + + for ( let a = 0; a < attribute.itemSize; a ++ ) { + + if ( a === 0 ) relativeAttribute.setX( j, attribute.getX( j ) - baseAttribute.getX( j ) ); + if ( a === 1 ) relativeAttribute.setY( j, attribute.getY( j ) - baseAttribute.getY( j ) ); + if ( a === 2 ) relativeAttribute.setZ( j, attribute.getZ( j ) - baseAttribute.getZ( j ) ); + if ( a === 3 ) relativeAttribute.setW( j, attribute.getW( j ) - baseAttribute.getW( j ) ); + + } + + } + + } + + target[ gltfAttributeName ] = this.processAccessor( relativeAttribute, geometry ); + cache.attributes.set( this.getUID( baseAttribute, true ), target[ gltfAttributeName ] ); + + } + + targets.push( target ); + + weights.push( mesh.morphTargetInfluences[ i ] ); + + if ( mesh.morphTargetDictionary !== undefined ) targetNames.push( reverseDictionary[ i ] ); + + } + + meshDef.weights = weights; + + if ( targetNames.length > 0 ) { + + meshDef.extras = {}; + meshDef.extras.targetNames = targetNames; + + } + + } + + const isMultiMaterial = Array.isArray( mesh.material ); + + if ( isMultiMaterial && geometry.groups.length === 0 ) return null; + + let didForceIndices = false; + + if ( isMultiMaterial && geometry.index === null ) { + + const indices = []; + + for ( let i = 0, il = geometry.attributes.position.count; i < il; i ++ ) { + + indices[ i ] = i; + + } + + geometry.setIndex( indices ); + + didForceIndices = true; + + } + + const materials = isMultiMaterial ? mesh.material : [ mesh.material ]; + const groups = isMultiMaterial ? geometry.groups : [ { materialIndex: 0, start: undefined, count: undefined } ]; + + for ( let i = 0, il = groups.length; i < il; i ++ ) { + + const primitive = { + mode: mode, + attributes: attributes, + }; + + this.serializeUserData( geometry, primitive ); + + if ( targets.length > 0 ) primitive.targets = targets; + + if ( geometry.index !== null ) { + + let cacheKey = this.getUID( geometry.index ); + + if ( groups[ i ].start !== undefined || groups[ i ].count !== undefined ) { + + cacheKey += ':' + groups[ i ].start + ':' + groups[ i ].count; + + } + + if ( cache.attributes.has( cacheKey ) ) { + + primitive.indices = cache.attributes.get( cacheKey ); + + } else { + + primitive.indices = this.processAccessor( geometry.index, geometry, groups[ i ].start, groups[ i ].count ); + cache.attributes.set( cacheKey, primitive.indices ); + + } + + if ( primitive.indices === null ) delete primitive.indices; + + } + + const material = await this.processMaterialAsync( materials[ groups[ i ].materialIndex ] ); + + if ( material !== null ) primitive.material = material; + + primitives.push( primitive ); + + } + + if ( didForceIndices === true ) { + + geometry.setIndex( null ); + + } + + meshDef.primitives = primitives; + + if ( ! json.meshes ) json.meshes = []; + + await this._invokeAllAsync( function ( ext ) { + + ext.writeMesh && ext.writeMesh( mesh, meshDef ); + + } ); + + const index = json.meshes.push( meshDef ) - 1; + cache.meshes.set( meshCacheKey, index ); + return index; + + } + + /** + * If a vertex attribute with a + * [non-standard data type](https://registry.khronos.org/glTF/specs/2.0/glTF-2.0.html#meshes-overview) + * is used, it is checked whether it is a valid data type according to the + * [KHR_mesh_quantization](https://github.com/KhronosGroup/glTF/blob/main/extensions/2.0/Khronos/KHR_mesh_quantization/README.md) + * extension. + * In this case the extension is automatically added to the list of used extensions. + * + * @param {string} attributeName + * @param {THREE.BufferAttribute} attribute + */ + detectMeshQuantization( attributeName, attribute ) { + + if ( this.extensionsUsed[ KHR_MESH_QUANTIZATION ] ) return; + + let attrType = undefined; + + switch ( attribute.array.constructor ) { + + case Int8Array: + + attrType = 'byte'; + + break; + + case Uint8Array: + + attrType = 'unsigned byte'; + + break; + + case Int16Array: + + attrType = 'short'; + + break; + + case Uint16Array: + + attrType = 'unsigned short'; + + break; + + default: + + return; + + } + + if ( attribute.normalized ) attrType += ' normalized'; + + const attrNamePrefix = attributeName.split( '_', 1 )[ 0 ]; + + if ( KHR_mesh_quantization_ExtraAttrTypes[ attrNamePrefix ] && KHR_mesh_quantization_ExtraAttrTypes[ attrNamePrefix ].includes( attrType ) ) { + + this.extensionsUsed[ KHR_MESH_QUANTIZATION ] = true; + this.extensionsRequired[ KHR_MESH_QUANTIZATION ] = true; + + } + + } + + /** + * Process camera + * @param {THREE.Camera} camera Camera to process + * @return {number} Index of the processed mesh in the "camera" array + */ + processCamera( camera ) { + + const json = this.json; + + if ( ! json.cameras ) json.cameras = []; + + const isOrtho = camera.isOrthographicCamera; + + const cameraDef = { + type: isOrtho ? 'orthographic' : 'perspective' + }; + + if ( isOrtho ) { + + cameraDef.orthographic = { + xmag: camera.right * 2, + ymag: camera.top * 2, + zfar: camera.far <= 0 ? 0.001 : camera.far, + znear: camera.near < 0 ? 0 : camera.near + }; + + } else { + + cameraDef.perspective = { + aspectRatio: camera.aspect, + yfov: MathUtils.degToRad( camera.fov ), + zfar: camera.far <= 0 ? 0.001 : camera.far, + znear: camera.near < 0 ? 0 : camera.near + }; + + } + + // Question: Is saving "type" as name intentional? + if ( camera.name !== '' ) cameraDef.name = camera.type; + + return json.cameras.push( cameraDef ) - 1; + + } + + /** + * Creates glTF animation entry from AnimationClip object. + * + * Status: + * - Only properties listed in PATH_PROPERTIES may be animated. + * + * @param {THREE.AnimationClip} clip + * @param {THREE.Object3D} root + * @return {number|null} + */ + processAnimation( clip, root ) { + + const json = this.json; + const nodeMap = this.nodeMap; + + if ( ! json.animations ) json.animations = []; + + clip = GLTFExporter.Utils.mergeMorphTargetTracks( clip.clone(), root ); + + const tracks = clip.tracks; + const channels = []; + const samplers = []; + + for ( let i = 0; i < tracks.length; ++ i ) { + + const track = tracks[ i ]; + const trackBinding = PropertyBinding.parseTrackName( track.name ); + let trackNode = PropertyBinding.findNode( root, trackBinding.nodeName ); + const trackProperty = PATH_PROPERTIES[ trackBinding.propertyName ]; + + if ( trackBinding.objectName === 'bones' ) { + + if ( trackNode.isSkinnedMesh === true ) { + + trackNode = trackNode.skeleton.getBoneByName( trackBinding.objectIndex ); + + } else { + + trackNode = undefined; + + } + + } + + if ( ! trackNode || ! trackProperty ) { + + console.warn( 'THREE.GLTFExporter: Could not export animation track "%s".', track.name ); + continue; + + } + + const inputItemSize = 1; + let outputItemSize = track.values.length / track.times.length; + + if ( trackProperty === PATH_PROPERTIES.morphTargetInfluences ) { + + outputItemSize /= trackNode.morphTargetInfluences.length; + + } + + let interpolation; + + // @TODO export CubicInterpolant(InterpolateSmooth) as CUBICSPLINE + + // Detecting glTF cubic spline interpolant by checking factory method's special property + // GLTFCubicSplineInterpolant is a custom interpolant and track doesn't return + // valid value from .getInterpolation(). + if ( track.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline === true ) { + + interpolation = 'CUBICSPLINE'; + + // itemSize of CUBICSPLINE keyframe is 9 + // (VEC3 * 3: inTangent, splineVertex, and outTangent) + // but needs to be stored as VEC3 so dividing by 3 here. + outputItemSize /= 3; + + } else if ( track.getInterpolation() === InterpolateDiscrete ) { + + interpolation = 'STEP'; + + } else { + + interpolation = 'LINEAR'; + + } + + samplers.push( { + input: this.processAccessor( new BufferAttribute( track.times, inputItemSize ) ), + output: this.processAccessor( new BufferAttribute( track.values, outputItemSize ) ), + interpolation: interpolation + } ); + + channels.push( { + sampler: samplers.length - 1, + target: { + node: nodeMap.get( trackNode ), + path: trackProperty + } + } ); + + } + + json.animations.push( { + name: clip.name || 'clip_' + json.animations.length, + samplers: samplers, + channels: channels + } ); + + return json.animations.length - 1; + + } + + /** + * @param {THREE.Object3D} object + * @return {number|null} + */ + processSkin( object ) { + + const json = this.json; + const nodeMap = this.nodeMap; + + const node = json.nodes[ nodeMap.get( object ) ]; + + const skeleton = object.skeleton; + + if ( skeleton === undefined ) return null; + + const rootJoint = object.skeleton.bones[ 0 ]; + + if ( rootJoint === undefined ) return null; + + const joints = []; + const inverseBindMatrices = new Float32Array( skeleton.bones.length * 16 ); + const temporaryBoneInverse = new Matrix4(); + + for ( let i = 0; i < skeleton.bones.length; ++ i ) { + + joints.push( nodeMap.get( skeleton.bones[ i ] ) ); + temporaryBoneInverse.copy( skeleton.boneInverses[ i ] ); + temporaryBoneInverse.multiply( object.bindMatrix ).toArray( inverseBindMatrices, i * 16 ); + + } + + if ( json.skins === undefined ) json.skins = []; + + json.skins.push( { + inverseBindMatrices: this.processAccessor( new BufferAttribute( inverseBindMatrices, 16 ) ), + joints: joints, + skeleton: nodeMap.get( rootJoint ) + } ); + + const skinIndex = node.skin = json.skins.length - 1; + + return skinIndex; + + } + + /** + * Process Object3D node + * @param {THREE.Object3D} object Object3D to processNodeAsync + * @return {Promise} Index of the node in the nodes list + */ + async processNodeAsync( object ) { + + const json = this.json; + const options = this.options; + const nodeMap = this.nodeMap; + + if ( ! json.nodes ) json.nodes = []; + + const nodeDef = {}; + + if ( options.trs ) { + + const rotation = object.quaternion.toArray(); + const position = object.position.toArray(); + const scale = object.scale.toArray(); + + if ( ! equalArray( rotation, [ 0, 0, 0, 1 ] ) ) { + + nodeDef.rotation = rotation; + + } + + if ( ! equalArray( position, [ 0, 0, 0 ] ) ) { + + nodeDef.translation = position; + + } + + if ( ! equalArray( scale, [ 1, 1, 1 ] ) ) { + + nodeDef.scale = scale; + + } + + } else { + + if ( object.matrixAutoUpdate ) { + + object.updateMatrix(); + + } + + if ( isIdentityMatrix( object.matrix ) === false ) { + + nodeDef.matrix = object.matrix.elements; + + } + + } + + // We don't export empty strings name because it represents no-name in Three.js. + if ( object.name !== '' ) nodeDef.name = String( object.name ); + + this.serializeUserData( object, nodeDef ); + + if ( object.isMesh || object.isLine || object.isPoints ) { + + const meshIndex = await this.processMeshAsync( object ); + + if ( meshIndex !== null ) nodeDef.mesh = meshIndex; + + } else if ( object.isCamera ) { + + nodeDef.camera = this.processCamera( object ); + + } + + if ( object.isSkinnedMesh ) this.skins.push( object ); + + if ( object.children.length > 0 ) { + + const children = []; + + for ( let i = 0, l = object.children.length; i < l; i ++ ) { + + const child = object.children[ i ]; + + if ( child.visible || options.onlyVisible === false ) { + + const nodeIndex = await this.processNodeAsync( child ); + + if ( nodeIndex !== null ) children.push( nodeIndex ); + + } + + } + + if ( children.length > 0 ) nodeDef.children = children; + + } + + await this._invokeAllAsync( function ( ext ) { + + ext.writeNode && ext.writeNode( object, nodeDef ); + + } ); + + const nodeIndex = json.nodes.push( nodeDef ) - 1; + nodeMap.set( object, nodeIndex ); + return nodeIndex; + + } + + /** + * Process Scene + * @param {Scene} scene Scene to process + */ + async processSceneAsync( scene ) { + + const json = this.json; + const options = this.options; + + if ( ! json.scenes ) { + + json.scenes = []; + json.scene = 0; + + } + + const sceneDef = {}; + + if ( scene.name !== '' ) sceneDef.name = scene.name; + + json.scenes.push( sceneDef ); + + const nodes = []; + + for ( let i = 0, l = scene.children.length; i < l; i ++ ) { + + const child = scene.children[ i ]; + + if ( child.visible || options.onlyVisible === false ) { + + const nodeIndex = await this.processNodeAsync( child ); + + if ( nodeIndex !== null ) nodes.push( nodeIndex ); + + } + + } + + if ( nodes.length > 0 ) sceneDef.nodes = nodes; + + this.serializeUserData( scene, sceneDef ); + + } + + /** + * Creates a Scene to hold a list of objects and parse it + * @param {Array} objects List of objects to process + */ + async processObjectsAsync( objects ) { + + const scene = new Scene(); + scene.name = 'AuxScene'; + + for ( let i = 0; i < objects.length; i ++ ) { + + // We push directly to children instead of calling `add` to prevent + // modify the .parent and break its original scene and hierarchy + scene.children.push( objects[ i ] ); + + } + + await this.processSceneAsync( scene ); + + } + + /** + * @param {THREE.Object3D|Array} input + */ + async processInputAsync( input ) { + + const options = this.options; + + input = input instanceof Array ? input : [ input ]; + + await this._invokeAllAsync( function ( ext ) { + + ext.beforeParse && ext.beforeParse( input ); + + } ); + + const objectsWithoutScene = []; + + for ( let i = 0; i < input.length; i ++ ) { + + if ( input[ i ] instanceof Scene ) { + + await this.processSceneAsync( input[ i ] ); + + } else { + + objectsWithoutScene.push( input[ i ] ); + + } + + } + + if ( objectsWithoutScene.length > 0 ) { + + await this.processObjectsAsync( objectsWithoutScene ); + + } + + for ( let i = 0; i < this.skins.length; ++ i ) { + + this.processSkin( this.skins[ i ] ); + + } + + for ( let i = 0; i < options.animations.length; ++ i ) { + + this.processAnimation( options.animations[ i ], input[ 0 ] ); + + } + + await this._invokeAllAsync( function ( ext ) { + + ext.afterParse && ext.afterParse( input ); + + } ); + + } + + async _invokeAllAsync( func ) { + + for ( let i = 0, il = this.plugins.length; i < il; i ++ ) { + + await func( this.plugins[ i ] ); + + } + + } + +} + +/** + * Punctual Lights Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_lights_punctual + */ +class GLTFLightExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'KHR_lights_punctual'; + + } + + writeNode( light, nodeDef ) { + + if ( ! light.isLight ) return; + + if ( ! light.isDirectionalLight && ! light.isPointLight && ! light.isSpotLight ) { + + console.warn( 'THREE.GLTFExporter: Only directional, point, and spot lights are supported.', light ); + return; + + } + + const writer = this.writer; + const json = writer.json; + const extensionsUsed = writer.extensionsUsed; + + const lightDef = {}; + + if ( light.name ) lightDef.name = light.name; + + lightDef.color = light.color.toArray(); + + lightDef.intensity = light.intensity; + + if ( light.isDirectionalLight ) { + + lightDef.type = 'directional'; + + } else if ( light.isPointLight ) { + + lightDef.type = 'point'; + + if ( light.distance > 0 ) lightDef.range = light.distance; + + } else if ( light.isSpotLight ) { + + lightDef.type = 'spot'; + + if ( light.distance > 0 ) lightDef.range = light.distance; + + lightDef.spot = {}; + lightDef.spot.innerConeAngle = ( 1.0 - light.penumbra ) * light.angle; + lightDef.spot.outerConeAngle = light.angle; + + } + + if ( light.decay !== undefined && light.decay !== 2 ) { + + console.warn( 'THREE.GLTFExporter: Light decay may be lost. glTF is physically-based, ' + + 'and expects light.decay=2.' ); + + } + + if ( light.target + && ( light.target.parent !== light + || light.target.position.x !== 0 + || light.target.position.y !== 0 + || light.target.position.z !== -1 ) ) { + + console.warn( 'THREE.GLTFExporter: Light direction may be lost. For best results, ' + + 'make light.target a child of the light with position 0,0,-1.' ); + + } + + if ( ! extensionsUsed[ this.name ] ) { + + json.extensions = json.extensions || {}; + json.extensions[ this.name ] = { lights: [] }; + extensionsUsed[ this.name ] = true; + + } + + const lights = json.extensions[ this.name ].lights; + lights.push( lightDef ); + + nodeDef.extensions = nodeDef.extensions || {}; + nodeDef.extensions[ this.name ] = { light: lights.length - 1 }; + + } + +} + +/** + * Unlit Materials Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_unlit + */ +class GLTFMaterialsUnlitExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'KHR_materials_unlit'; + + } + + async writeMaterialAsync( material, materialDef ) { + + if ( ! material.isMeshBasicMaterial ) return; + + const writer = this.writer; + const extensionsUsed = writer.extensionsUsed; + + materialDef.extensions = materialDef.extensions || {}; + materialDef.extensions[ this.name ] = {}; + + extensionsUsed[ this.name ] = true; + + materialDef.pbrMetallicRoughness.metallicFactor = 0.0; + materialDef.pbrMetallicRoughness.roughnessFactor = 0.9; + + } + +} + +/** + * Clearcoat Materials Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_clearcoat + */ +class GLTFMaterialsClearcoatExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'KHR_materials_clearcoat'; + + } + + async writeMaterialAsync( material, materialDef ) { + + if ( ! material.isMeshPhysicalMaterial || material.clearcoat === 0 ) return; + + const writer = this.writer; + const extensionsUsed = writer.extensionsUsed; + + const extensionDef = {}; + + extensionDef.clearcoatFactor = material.clearcoat; + + if ( material.clearcoatMap ) { + + const clearcoatMapDef = { + index: await writer.processTextureAsync( material.clearcoatMap ), + texCoord: material.clearcoatMap.channel + }; + writer.applyTextureTransform( clearcoatMapDef, material.clearcoatMap ); + extensionDef.clearcoatTexture = clearcoatMapDef; + + } + + extensionDef.clearcoatRoughnessFactor = material.clearcoatRoughness; + + if ( material.clearcoatRoughnessMap ) { + + const clearcoatRoughnessMapDef = { + index: await writer.processTextureAsync( material.clearcoatRoughnessMap ), + texCoord: material.clearcoatRoughnessMap.channel + }; + writer.applyTextureTransform( clearcoatRoughnessMapDef, material.clearcoatRoughnessMap ); + extensionDef.clearcoatRoughnessTexture = clearcoatRoughnessMapDef; + + } + + if ( material.clearcoatNormalMap ) { + + const clearcoatNormalMapDef = { + index: await writer.processTextureAsync( material.clearcoatNormalMap ), + texCoord: material.clearcoatNormalMap.channel + }; + + if ( material.clearcoatNormalScale.x !== 1 ) clearcoatNormalMapDef.scale = material.clearcoatNormalScale.x; + + writer.applyTextureTransform( clearcoatNormalMapDef, material.clearcoatNormalMap ); + extensionDef.clearcoatNormalTexture = clearcoatNormalMapDef; + + } + + materialDef.extensions = materialDef.extensions || {}; + materialDef.extensions[ this.name ] = extensionDef; + + extensionsUsed[ this.name ] = true; + + + } + +} + +/** + * Materials dispersion Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_dispersion + */ +class GLTFMaterialsDispersionExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'KHR_materials_dispersion'; + + } + + async writeMaterialAsync( material, materialDef ) { + + if ( ! material.isMeshPhysicalMaterial || material.dispersion === 0 ) return; + + const writer = this.writer; + const extensionsUsed = writer.extensionsUsed; + + const extensionDef = {}; + + extensionDef.dispersion = material.dispersion; + + materialDef.extensions = materialDef.extensions || {}; + materialDef.extensions[ this.name ] = extensionDef; + + extensionsUsed[ this.name ] = true; + + } + +} + +/** + * Iridescence Materials Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_iridescence + */ +class GLTFMaterialsIridescenceExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'KHR_materials_iridescence'; + + } + + async writeMaterialAsync( material, materialDef ) { + + if ( ! material.isMeshPhysicalMaterial || material.iridescence === 0 ) return; + + const writer = this.writer; + const extensionsUsed = writer.extensionsUsed; + + const extensionDef = {}; + + extensionDef.iridescenceFactor = material.iridescence; + + if ( material.iridescenceMap ) { + + const iridescenceMapDef = { + index: await writer.processTextureAsync( material.iridescenceMap ), + texCoord: material.iridescenceMap.channel + }; + writer.applyTextureTransform( iridescenceMapDef, material.iridescenceMap ); + extensionDef.iridescenceTexture = iridescenceMapDef; + + } + + extensionDef.iridescenceIor = material.iridescenceIOR; + extensionDef.iridescenceThicknessMinimum = material.iridescenceThicknessRange[ 0 ]; + extensionDef.iridescenceThicknessMaximum = material.iridescenceThicknessRange[ 1 ]; + + if ( material.iridescenceThicknessMap ) { + + const iridescenceThicknessMapDef = { + index: await writer.processTextureAsync( material.iridescenceThicknessMap ), + texCoord: material.iridescenceThicknessMap.channel + }; + writer.applyTextureTransform( iridescenceThicknessMapDef, material.iridescenceThicknessMap ); + extensionDef.iridescenceThicknessTexture = iridescenceThicknessMapDef; + + } + + materialDef.extensions = materialDef.extensions || {}; + materialDef.extensions[ this.name ] = extensionDef; + + extensionsUsed[ this.name ] = true; + + } + +} + +/** + * Transmission Materials Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_transmission + */ +class GLTFMaterialsTransmissionExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'KHR_materials_transmission'; + + } + + async writeMaterialAsync( material, materialDef ) { + + if ( ! material.isMeshPhysicalMaterial || material.transmission === 0 ) return; + + const writer = this.writer; + const extensionsUsed = writer.extensionsUsed; + + const extensionDef = {}; + + extensionDef.transmissionFactor = material.transmission; + + if ( material.transmissionMap ) { + + const transmissionMapDef = { + index: await writer.processTextureAsync( material.transmissionMap ), + texCoord: material.transmissionMap.channel + }; + writer.applyTextureTransform( transmissionMapDef, material.transmissionMap ); + extensionDef.transmissionTexture = transmissionMapDef; + + } + + materialDef.extensions = materialDef.extensions || {}; + materialDef.extensions[ this.name ] = extensionDef; + + extensionsUsed[ this.name ] = true; + + } + +} + +/** + * Materials Volume Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_volume + */ +class GLTFMaterialsVolumeExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'KHR_materials_volume'; + + } + + async writeMaterialAsync( material, materialDef ) { + + if ( ! material.isMeshPhysicalMaterial || material.transmission === 0 ) return; + + const writer = this.writer; + const extensionsUsed = writer.extensionsUsed; + + const extensionDef = {}; + + extensionDef.thicknessFactor = material.thickness; + + if ( material.thicknessMap ) { + + const thicknessMapDef = { + index: await writer.processTextureAsync( material.thicknessMap ), + texCoord: material.thicknessMap.channel + }; + writer.applyTextureTransform( thicknessMapDef, material.thicknessMap ); + extensionDef.thicknessTexture = thicknessMapDef; + + } + + if ( material.attenuationDistance !== Infinity ) { + + extensionDef.attenuationDistance = material.attenuationDistance; + + } + + extensionDef.attenuationColor = material.attenuationColor.toArray(); + + materialDef.extensions = materialDef.extensions || {}; + materialDef.extensions[ this.name ] = extensionDef; + + extensionsUsed[ this.name ] = true; + + } + +} + +/** + * Materials ior Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_ior + */ +class GLTFMaterialsIorExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'KHR_materials_ior'; + + } + + async writeMaterialAsync( material, materialDef ) { + + if ( ! material.isMeshPhysicalMaterial || material.ior === 1.5 ) return; + + const writer = this.writer; + const extensionsUsed = writer.extensionsUsed; + + const extensionDef = {}; + + extensionDef.ior = material.ior; + + materialDef.extensions = materialDef.extensions || {}; + materialDef.extensions[ this.name ] = extensionDef; + + extensionsUsed[ this.name ] = true; + + } + +} + +/** + * Materials specular Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_specular + */ +class GLTFMaterialsSpecularExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'KHR_materials_specular'; + + } + + async writeMaterialAsync( material, materialDef ) { + + if ( ! material.isMeshPhysicalMaterial || ( material.specularIntensity === 1.0 && + material.specularColor.equals( DEFAULT_SPECULAR_COLOR ) && + ! material.specularIntensityMap && ! material.specularColorMap ) ) return; + + const writer = this.writer; + const extensionsUsed = writer.extensionsUsed; + + const extensionDef = {}; + + if ( material.specularIntensityMap ) { + + const specularIntensityMapDef = { + index: await writer.processTextureAsync( material.specularIntensityMap ), + texCoord: material.specularIntensityMap.channel + }; + writer.applyTextureTransform( specularIntensityMapDef, material.specularIntensityMap ); + extensionDef.specularTexture = specularIntensityMapDef; + + } + + if ( material.specularColorMap ) { + + const specularColorMapDef = { + index: await writer.processTextureAsync( material.specularColorMap ), + texCoord: material.specularColorMap.channel + }; + writer.applyTextureTransform( specularColorMapDef, material.specularColorMap ); + extensionDef.specularColorTexture = specularColorMapDef; + + } + + extensionDef.specularFactor = material.specularIntensity; + extensionDef.specularColorFactor = material.specularColor.toArray(); + + materialDef.extensions = materialDef.extensions || {}; + materialDef.extensions[ this.name ] = extensionDef; + + extensionsUsed[ this.name ] = true; + + } + +} + +/** + * Sheen Materials Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/main/extensions/2.0/Khronos/KHR_materials_sheen + */ +class GLTFMaterialsSheenExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'KHR_materials_sheen'; + + } + + async writeMaterialAsync( material, materialDef ) { + + if ( ! material.isMeshPhysicalMaterial || material.sheen == 0.0 ) return; + + const writer = this.writer; + const extensionsUsed = writer.extensionsUsed; + + const extensionDef = {}; + + if ( material.sheenRoughnessMap ) { + + const sheenRoughnessMapDef = { + index: await writer.processTextureAsync( material.sheenRoughnessMap ), + texCoord: material.sheenRoughnessMap.channel + }; + writer.applyTextureTransform( sheenRoughnessMapDef, material.sheenRoughnessMap ); + extensionDef.sheenRoughnessTexture = sheenRoughnessMapDef; + + } + + if ( material.sheenColorMap ) { + + const sheenColorMapDef = { + index: await writer.processTextureAsync( material.sheenColorMap ), + texCoord: material.sheenColorMap.channel + }; + writer.applyTextureTransform( sheenColorMapDef, material.sheenColorMap ); + extensionDef.sheenColorTexture = sheenColorMapDef; + + } + + extensionDef.sheenRoughnessFactor = material.sheenRoughness; + extensionDef.sheenColorFactor = material.sheenColor.toArray(); + + materialDef.extensions = materialDef.extensions || {}; + materialDef.extensions[ this.name ] = extensionDef; + + extensionsUsed[ this.name ] = true; + + } + +} + +/** + * Anisotropy Materials Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/main/extensions/2.0/Khronos/KHR_materials_anisotropy + */ +class GLTFMaterialsAnisotropyExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'KHR_materials_anisotropy'; + + } + + async writeMaterialAsync( material, materialDef ) { + + if ( ! material.isMeshPhysicalMaterial || material.anisotropy == 0.0 ) return; + + const writer = this.writer; + const extensionsUsed = writer.extensionsUsed; + + const extensionDef = {}; + + if ( material.anisotropyMap ) { + + const anisotropyMapDef = { index: await writer.processTextureAsync( material.anisotropyMap ) }; + writer.applyTextureTransform( anisotropyMapDef, material.anisotropyMap ); + extensionDef.anisotropyTexture = anisotropyMapDef; + + } + + extensionDef.anisotropyStrength = material.anisotropy; + extensionDef.anisotropyRotation = material.anisotropyRotation; + + materialDef.extensions = materialDef.extensions || {}; + materialDef.extensions[ this.name ] = extensionDef; + + extensionsUsed[ this.name ] = true; + + } + +} + +/** + * Materials Emissive Strength Extension + * + * Specification: https://github.com/KhronosGroup/glTF/blob/5768b3ce0ef32bc39cdf1bef10b948586635ead3/extensions/2.0/Khronos/KHR_materials_emissive_strength/README.md + */ +class GLTFMaterialsEmissiveStrengthExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'KHR_materials_emissive_strength'; + + } + + async writeMaterialAsync( material, materialDef ) { + + if ( ! material.isMeshStandardMaterial || material.emissiveIntensity === 1.0 ) return; + + const writer = this.writer; + const extensionsUsed = writer.extensionsUsed; + + const extensionDef = {}; + + extensionDef.emissiveStrength = material.emissiveIntensity; + + materialDef.extensions = materialDef.extensions || {}; + materialDef.extensions[ this.name ] = extensionDef; + + extensionsUsed[ this.name ] = true; + + } + +} + + +/** + * Materials bump Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/EXT_materials_bump + */ +class GLTFMaterialsBumpExtension { + + constructor( writer ) { + + this.writer = writer; + this.name = 'EXT_materials_bump'; + + } + + async writeMaterialAsync( material, materialDef ) { + + if ( ! material.isMeshStandardMaterial || ( + material.bumpScale === 1 && + ! material.bumpMap ) ) return; + + const writer = this.writer; + const extensionsUsed = writer.extensionsUsed; + + const extensionDef = {}; + + if ( material.bumpMap ) { + + const bumpMapDef = { + index: await writer.processTextureAsync( material.bumpMap ), + texCoord: material.bumpMap.channel + }; + writer.applyTextureTransform( bumpMapDef, material.bumpMap ); + extensionDef.bumpTexture = bumpMapDef; + + } + + extensionDef.bumpFactor = material.bumpScale; + + materialDef.extensions = materialDef.extensions || {}; + materialDef.extensions[ this.name ] = extensionDef; + + extensionsUsed[ this.name ] = true; + + } + +} + +/** + * GPU Instancing Extension + * + * Specification: https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Vendor/EXT_mesh_gpu_instancing + */ +class GLTFMeshGpuInstancing { + + constructor( writer ) { + + this.writer = writer; + this.name = 'EXT_mesh_gpu_instancing'; + + } + + writeNode( object, nodeDef ) { + + if ( ! object.isInstancedMesh ) return; + + const writer = this.writer; + + const mesh = object; + + const translationAttr = new Float32Array( mesh.count * 3 ); + const rotationAttr = new Float32Array( mesh.count * 4 ); + const scaleAttr = new Float32Array( mesh.count * 3 ); + + const matrix = new Matrix4(); + const position = new Vector3(); + const quaternion = new Quaternion(); + const scale = new Vector3(); + + for ( let i = 0; i < mesh.count; i ++ ) { + + mesh.getMatrixAt( i, matrix ); + matrix.decompose( position, quaternion, scale ); + + position.toArray( translationAttr, i * 3 ); + quaternion.toArray( rotationAttr, i * 4 ); + scale.toArray( scaleAttr, i * 3 ); + + } + + const attributes = { + TRANSLATION: writer.processAccessor( new BufferAttribute( translationAttr, 3 ) ), + ROTATION: writer.processAccessor( new BufferAttribute( rotationAttr, 4 ) ), + SCALE: writer.processAccessor( new BufferAttribute( scaleAttr, 3 ) ), + }; + + if ( mesh.instanceColor ) + attributes._COLOR_0 = writer.processAccessor( mesh.instanceColor ); + + nodeDef.extensions = nodeDef.extensions || {}; + nodeDef.extensions[ this.name ] = { attributes }; + + writer.extensionsUsed[ this.name ] = true; + writer.extensionsRequired[ this.name ] = true; + + } + +} + +/** + * Static utility functions + */ +GLTFExporter.Utils = { + + insertKeyframe: function ( track, time ) { + + const tolerance = 0.001; // 1ms + const valueSize = track.getValueSize(); + + const times = new track.TimeBufferType( track.times.length + 1 ); + const values = new track.ValueBufferType( track.values.length + valueSize ); + const interpolant = track.createInterpolant( new track.ValueBufferType( valueSize ) ); + + let index; + + if ( track.times.length === 0 ) { + + times[ 0 ] = time; + + for ( let i = 0; i < valueSize; i ++ ) { + + values[ i ] = 0; + + } + + index = 0; + + } else if ( time < track.times[ 0 ] ) { + + if ( Math.abs( track.times[ 0 ] - time ) < tolerance ) return 0; + + times[ 0 ] = time; + times.set( track.times, 1 ); + + values.set( interpolant.evaluate( time ), 0 ); + values.set( track.values, valueSize ); + + index = 0; + + } else if ( time > track.times[ track.times.length - 1 ] ) { + + if ( Math.abs( track.times[ track.times.length - 1 ] - time ) < tolerance ) { + + return track.times.length - 1; + + } + + times[ times.length - 1 ] = time; + times.set( track.times, 0 ); + + values.set( track.values, 0 ); + values.set( interpolant.evaluate( time ), track.values.length ); + + index = times.length - 1; + + } else { + + for ( let i = 0; i < track.times.length; i ++ ) { + + if ( Math.abs( track.times[ i ] - time ) < tolerance ) return i; + + if ( track.times[ i ] < time && track.times[ i + 1 ] > time ) { + + times.set( track.times.slice( 0, i + 1 ), 0 ); + times[ i + 1 ] = time; + times.set( track.times.slice( i + 1 ), i + 2 ); + + values.set( track.values.slice( 0, ( i + 1 ) * valueSize ), 0 ); + values.set( interpolant.evaluate( time ), ( i + 1 ) * valueSize ); + values.set( track.values.slice( ( i + 1 ) * valueSize ), ( i + 2 ) * valueSize ); + + index = i + 1; + + break; + + } + + } + + } + + track.times = times; + track.values = values; + + return index; + + }, + + mergeMorphTargetTracks: function ( clip, root ) { + + const tracks = []; + const mergedTracks = {}; + const sourceTracks = clip.tracks; + + for ( let i = 0; i < sourceTracks.length; ++ i ) { + + let sourceTrack = sourceTracks[ i ]; + const sourceTrackBinding = PropertyBinding.parseTrackName( sourceTrack.name ); + const sourceTrackNode = PropertyBinding.findNode( root, sourceTrackBinding.nodeName ); + + if ( sourceTrackBinding.propertyName !== 'morphTargetInfluences' || sourceTrackBinding.propertyIndex === undefined ) { + + // Tracks that don't affect morph targets, or that affect all morph targets together, can be left as-is. + tracks.push( sourceTrack ); + continue; + + } + + if ( sourceTrack.createInterpolant !== sourceTrack.InterpolantFactoryMethodDiscrete + && sourceTrack.createInterpolant !== sourceTrack.InterpolantFactoryMethodLinear ) { + + if ( sourceTrack.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline ) { + + // This should never happen, because glTF morph target animations + // affect all targets already. + throw new Error( 'THREE.GLTFExporter: Cannot merge tracks with glTF CUBICSPLINE interpolation.' ); + + } + + console.warn( 'THREE.GLTFExporter: Morph target interpolation mode not yet supported. Using LINEAR instead.' ); + + sourceTrack = sourceTrack.clone(); + sourceTrack.setInterpolation( InterpolateLinear ); + + } + + const targetCount = sourceTrackNode.morphTargetInfluences.length; + const targetIndex = sourceTrackNode.morphTargetDictionary[ sourceTrackBinding.propertyIndex ]; + + if ( targetIndex === undefined ) { + + throw new Error( 'THREE.GLTFExporter: Morph target name not found: ' + sourceTrackBinding.propertyIndex ); + + } + + let mergedTrack; + + // If this is the first time we've seen this object, create a new + // track to store merged keyframe data for each morph target. + if ( mergedTracks[ sourceTrackNode.uuid ] === undefined ) { + + mergedTrack = sourceTrack.clone(); + + const values = new mergedTrack.ValueBufferType( targetCount * mergedTrack.times.length ); + + for ( let j = 0; j < mergedTrack.times.length; j ++ ) { + + values[ j * targetCount + targetIndex ] = mergedTrack.values[ j ]; + + } + + // We need to take into consideration the intended target node + // of our original un-merged morphTarget animation. + mergedTrack.name = ( sourceTrackBinding.nodeName || '' ) + '.morphTargetInfluences'; + mergedTrack.values = values; + + mergedTracks[ sourceTrackNode.uuid ] = mergedTrack; + tracks.push( mergedTrack ); + + continue; + + } + + const sourceInterpolant = sourceTrack.createInterpolant( new sourceTrack.ValueBufferType( 1 ) ); + + mergedTrack = mergedTracks[ sourceTrackNode.uuid ]; + + // For every existing keyframe of the merged track, write a (possibly + // interpolated) value from the source track. + for ( let j = 0; j < mergedTrack.times.length; j ++ ) { + + mergedTrack.values[ j * targetCount + targetIndex ] = sourceInterpolant.evaluate( mergedTrack.times[ j ] ); + + } + + // For every existing keyframe of the source track, write a (possibly + // new) keyframe to the merged track. Values from the previous loop may + // be written again, but keyframes are de-duplicated. + for ( let j = 0; j < sourceTrack.times.length; j ++ ) { + + const keyframeIndex = this.insertKeyframe( mergedTrack, sourceTrack.times[ j ] ); + mergedTrack.values[ keyframeIndex * targetCount + targetIndex ] = sourceTrack.values[ j ]; + + } + + } + + clip.tracks = tracks; + + return clip; + + }, + + toFloat32BufferAttribute: function ( srcAttribute ) { + + const dstAttribute = new BufferAttribute( new Float32Array( srcAttribute.count * srcAttribute.itemSize ), srcAttribute.itemSize, false ); + + if ( ! srcAttribute.normalized && ! srcAttribute.isInterleavedBufferAttribute ) { + + dstAttribute.array.set( srcAttribute.array ); + + return dstAttribute; + + } + + for ( let i = 0, il = srcAttribute.count; i < il; i ++ ) { + + for ( let j = 0; j < srcAttribute.itemSize; j ++ ) { + + dstAttribute.setComponent( i, j, srcAttribute.getComponent( i, j ) ); + + } + + } + + return dstAttribute; + + } + +}; + +/* @license + * Copyright 2021 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +/** + * @param object {THREE.Object3D} + * @return {boolean} + */ +const compatibleObject = (object) => { + // @TODO: Need properer variantMaterials format validation? + return object.material !== + undefined && // easier than (!object.isMesh && !object.isLine && + // !object.isPoints) + object.userData && // just in case + object.userData.variantMaterials && + // Is this line costly? + !!Array + .from(object.userData.variantMaterials + .values()) + .filter(m => compatibleMaterial(m.material)); +}; +/** + * @param material {THREE.Material} + * @return {boolean} + */ +const compatibleMaterial = (material) => { + // @TODO: support multi materials? + return material && material.isMaterial && !Array.isArray(material); +}; +class GLTFExporterMaterialsVariantsExtension { + constructor(writer) { + this.writer = writer; + this.name = 'KHR_materials_variants'; + this.variantNames = []; + } + beforeParse(objects) { + // Find all variant names and store them to the table + const variantNameSet = new Set(); + const addVariantNames = (o) => { + if (!compatibleObject(o)) { + return; + } + const variantMaterials = o.userData.variantMaterials; + const variantDataMap = o.userData.variantData; + for (const [variantName, variantData] of variantDataMap) { + const variantMaterial = variantMaterials.get(variantData.index); + // Ignore unloaded variant materials + if (variantMaterial && compatibleMaterial(variantMaterial.material)) { + variantNameSet.add(variantName); + } + } + }; + if (Array.isArray(objects)) { + for (const object of objects) { + object.traverse(addVariantNames); + } + } + else { + objects.traverse(addVariantNames); + } + // We may want to sort? + variantNameSet.forEach(name => this.variantNames.push(name)); + } + async writeMesh(mesh, meshDef) { + if (!compatibleObject(mesh)) { + return; + } + const userData = mesh.userData; + const variantMaterials = userData.variantMaterials; + const variantDataMap = userData.variantData; + const mappingTable = new Map(); + // Removes gaps in the variant indices list (caused by deleting variants). + const reIndexedVariants = new Map(); + const variants = Array.from(variantDataMap.values()).sort((a, b) => { + return a.index - b.index; + }); + for (const [i, variantData] of variants.entries()) { + reIndexedVariants.set(variantData.index, i); + } + for (const variantData of variantDataMap.values()) { + const variantInstance = variantMaterials.get(variantData.index); + if (!variantInstance || !compatibleMaterial(variantInstance.material)) { + continue; + } + const materialIndex = await this.writer.processMaterialAsync(variantInstance.material); + if (!mappingTable.has(materialIndex)) { + mappingTable.set(materialIndex, { material: materialIndex, variants: [] }); + } + mappingTable.get(materialIndex).variants.push(reIndexedVariants.get(variantData.index)); + } + const mappingsDef = Array.from(mappingTable.values()) + .map((m => { return m.variants.sort((a, b) => a - b) && m; })) + .sort((a, b) => a.material - b.material); + if (mappingsDef.length === 0) { + return; + } + const originalMaterialIndex = compatibleMaterial(userData.originalMaterial) ? + await this.writer.processMaterialAsync(userData.originalMaterial) : + -1; + for (const primitiveDef of meshDef.primitives) { + // Override primitiveDef.material with original material. + if (originalMaterialIndex >= 0) { + primitiveDef.material = originalMaterialIndex; + } + primitiveDef.extensions = primitiveDef.extensions || {}; + primitiveDef.extensions[this.name] = { mappings: mappingsDef }; + } + } + afterParse() { + if (this.variantNames.length === 0) { + return; + } + const root = this.writer.json; + root.extensions = root.extensions || {}; + const variantsDef = this.variantNames.map(n => { + return { name: n }; + }); + root.extensions[this.name] = { variants: variantsDef }; + this.writer.extensionsUsed[this.name] = true; + } +} + +class SessionLightProbe { + + constructor( xrLight, renderer, lightProbe, environmentEstimation, estimationStartCallback ) { + + this.xrLight = xrLight; + this.renderer = renderer; + this.lightProbe = lightProbe; + this.xrWebGLBinding = null; + this.estimationStartCallback = estimationStartCallback; + this.frameCallback = this.onXRFrame.bind( this ); + + const session = renderer.xr.getSession(); + + // If the XRWebGLBinding class is available then we can also query an + // estimated reflection cube map. + if ( environmentEstimation && 'XRWebGLBinding' in window ) { + + // This is the simplest way I know of to initialize a WebGL cubemap in Three. + const cubeRenderTarget = new WebGLCubeRenderTarget( 16 ); + xrLight.environment = cubeRenderTarget.texture; + + const gl = renderer.getContext(); + + // Ensure that we have any extensions needed to use the preferred cube map format. + switch ( session.preferredReflectionFormat ) { + + case 'srgba8': + gl.getExtension( 'EXT_sRGB' ); + break; + + case 'rgba16f': + gl.getExtension( 'OES_texture_half_float' ); + break; + + } + + this.xrWebGLBinding = new XRWebGLBinding( session, gl ); + + this.lightProbe.addEventListener( 'reflectionchange', () => { + + this.updateReflection(); + + } ); + + } + + // Start monitoring the XR animation frame loop to look for lighting + // estimation changes. + session.requestAnimationFrame( this.frameCallback ); + + } + + updateReflection() { + + const textureProperties = this.renderer.properties.get( this.xrLight.environment ); + + if ( textureProperties ) { + + const cubeMap = this.xrWebGLBinding.getReflectionCubeMap( this.lightProbe ); + + if ( cubeMap ) { + + textureProperties.__webglTexture = cubeMap; + + this.xrLight.environment.needsPMREMUpdate = true; + + } + + } + + } + + onXRFrame( time, xrFrame ) { + + // If either this object or the XREstimatedLight has been destroyed, stop + // running the frame loop. + if ( ! this.xrLight ) { + + return; + + } + + const session = xrFrame.session; + session.requestAnimationFrame( this.frameCallback ); + + const lightEstimate = xrFrame.getLightEstimate( this.lightProbe ); + if ( lightEstimate ) { + + // We can copy the estimate's spherical harmonics array directly into the light probe. + this.xrLight.lightProbe.sh.fromArray( lightEstimate.sphericalHarmonicsCoefficients ); + this.xrLight.lightProbe.intensity = 1.0; + + // For the directional light we have to normalize the color and set the scalar as the + // intensity, since WebXR can return color values that exceed 1.0. + const intensityScalar = Math.max( 1.0, + Math.max( lightEstimate.primaryLightIntensity.x, + Math.max( lightEstimate.primaryLightIntensity.y, + lightEstimate.primaryLightIntensity.z ) ) ); + + this.xrLight.directionalLight.color.setRGB( + lightEstimate.primaryLightIntensity.x / intensityScalar, + lightEstimate.primaryLightIntensity.y / intensityScalar, + lightEstimate.primaryLightIntensity.z / intensityScalar ); + this.xrLight.directionalLight.intensity = intensityScalar; + this.xrLight.directionalLight.position.copy( lightEstimate.primaryLightDirection ); + + if ( this.estimationStartCallback ) { + + this.estimationStartCallback(); + this.estimationStartCallback = null; + + } + + } + + } + + dispose() { + + this.xrLight = null; + this.renderer = null; + this.lightProbe = null; + this.xrWebGLBinding = null; + + } + +} + +class XREstimatedLight extends Group { + + constructor( renderer, environmentEstimation = true ) { + + super(); + + this.lightProbe = new LightProbe(); + this.lightProbe.intensity = 0; + this.add( this.lightProbe ); + + this.directionalLight = new DirectionalLight(); + this.directionalLight.intensity = 0; + this.add( this.directionalLight ); + + // Will be set to a cube map in the SessionLightProbe if environment estimation is + // available and requested. + this.environment = null; + + let sessionLightProbe = null; + let estimationStarted = false; + renderer.xr.addEventListener( 'sessionstart', () => { + + const session = renderer.xr.getSession(); + + if ( 'requestLightProbe' in session ) { + + session.requestLightProbe( { + + reflectionFormat: session.preferredReflectionFormat + + } ).then( ( probe ) => { + + sessionLightProbe = new SessionLightProbe( this, renderer, probe, environmentEstimation, () => { + + estimationStarted = true; + + // Fired to indicate that the estimated lighting values are now being updated. + this.dispatchEvent( { type: 'estimationstart' } ); + + } ); + + } ); + + } + + } ); + + renderer.xr.addEventListener( 'sessionend', () => { + + if ( sessionLightProbe ) { + + sessionLightProbe.dispose(); + sessionLightProbe = null; + + } + + if ( estimationStarted ) { + + // Fired to indicate that the estimated lighting values are no longer being updated. + this.dispatchEvent( { type: 'estimationend' } ); + + } + + } ); + + // Done inline to provide access to sessionLightProbe. + this.dispose = () => { + + if ( sessionLightProbe ) { + + sessionLightProbe.dispose(); + sessionLightProbe = null; + + } + + this.remove( this.lightProbe ); + this.lightProbe = null; + + this.remove( this.directionalLight ); + this.directionalLight = null; + + this.environment = null; + + }; + + } + +} + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const SETTLING_TIME = 10000; // plenty long enough +const MIN_DECAY_MILLISECONDS = 0.001; +const DECAY_MILLISECONDS = 50; +/** + * The Damper class is a generic second-order critically damped system that does + * one linear step of the desired length of time. The only parameter is + * DECAY_MILLISECONDS. This common parameter makes all states converge at the + * same rate regardless of scale. xNormalization is a number to provide the + * rough scale of x, such that NIL_SPEED clamping also happens at roughly the + * same convergence for all states. + */ +class Damper { + constructor(decayMilliseconds = DECAY_MILLISECONDS) { + this.velocity = 0; + this.naturalFrequency = 0; + this.setDecayTime(decayMilliseconds); + } + setDecayTime(decayMilliseconds) { + this.naturalFrequency = + 1 / Math.max(MIN_DECAY_MILLISECONDS, decayMilliseconds); + } + update(x, xGoal, timeStepMilliseconds, xNormalization) { + const nilSpeed = 0.0002 * this.naturalFrequency; + if (x == null || xNormalization === 0) { + return xGoal; + } + if (x === xGoal && this.velocity === 0) { + return xGoal; + } + if (timeStepMilliseconds < 0) { + return x; + } + // Exact solution to a critically damped second-order system, where: + // acceleration = this.naturalFrequency * this.naturalFrequency * (xGoal + // - x) - 2 * this.naturalFrequency * this.velocity; + const deltaX = (x - xGoal); + const intermediateVelocity = this.velocity + this.naturalFrequency * deltaX; + const intermediateX = deltaX + timeStepMilliseconds * intermediateVelocity; + const decay = Math.exp(-this.naturalFrequency * timeStepMilliseconds); + const newVelocity = (intermediateVelocity - this.naturalFrequency * intermediateX) * decay; + const acceleration = -this.naturalFrequency * (newVelocity + intermediateVelocity * decay); + if (Math.abs(newVelocity) < nilSpeed * Math.abs(xNormalization) && + acceleration * deltaX >= 0) { + // This ensures the controls settle and stop calling this function instead + // of asymptotically approaching their goal. + this.velocity = 0; + return xGoal; + } + else { + this.velocity = newVelocity; + return xGoal + intermediateX * decay; + } + } +} + +/* @license +* Copyright 2020 Google LLC. All Rights Reserved. +* Licensed under the Apache License, Version 2.0 (the 'License'); +* you may not use this file except in compliance with the License. +* You may obtain a copy of the License at +* +* http://www.apache.org/licenses/LICENSE-2.0 +* +* Unless required by applicable law or agreed to in writing, software +* distributed under the License is distributed on an 'AS IS' BASIS, +* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +* See the License for the specific language governing permissions and +* limitations under the License. +*/ +// Enhanced configuration for dynamic sizing and visual design +const CONFIG = { + // Dynamic sizing - slightly bigger + MIN_TOUCH_AREA: 0.05, // minimum touch area + BASE_RADIUS: 0.15, // base radius + LINE_WIDTH: 0.02, // line width + SEGMENTS: 16, // segments for smoother curves + DELTA_PHI: Math.PI / (2 * 16), + // Enhanced visual design with more vibrant colors + COLORS: { + EDGE_FALLOFF: new Color(0.98, 0.98, 0.98), // Brighter light gray + EDGE_CUTOFF: new Color(0.8, 0.8, 0.8), // Brighter medium gray + FILL_FALLOFF: new Color(0.4, 0.4, 0.4), // Brighter dark gray + FILL_CUTOFF: new Color(0.4, 0.4, 0.4), // Brighter dark gray + ACTIVE_EDGE: new Color(1.0, 1.0, 1.0), // Pure white when active + ACTIVE_FILL: new Color(0.6, 0.6, 0.6), // Brighter fill when active + }, + // Opacity settings - now configurable + MAX_OPACITY: 0.75, + FILL_OPACITY_MULTIPLIER: 0.5, // Fill opacity relative to edge opacity + INTERACTIVE_OPACITY_MULTIPLIER: 1.2, // Edge opacity multiplier when interactive + // Distance-based scaling (similar to Footprint) + MIN_DISTANCE: 0.5, + MAX_DISTANCE: 10.0, + BASE_SCALE: 1.0, + DISTANCE_SCALE_FACTOR: 0.3, + COLOR_LERP_FACTOR: 0.15, // Color transition speed + // Screen space scaling - now configurable + SCREEN_SPACE_SCALE: 1.2, // Scale factor for screen space mode + // Performance optimization thresholds + SIZE_UPDATE_THRESHOLD: 0.001, // Minimum size change to trigger geometry update + GEOMETRY_UPDATE_DEBOUNCE: 100, // ms to debounce geometry updates +}; +const vector2$1 = new Vector2(); +/** +* Adds a quarter-annulus of vertices to the array, centered on cornerX, +* cornerY. +*/ +const addCorner = (vertices, cornerX, cornerY, radius, lineWidth) => { + let phi = cornerX > 0 ? (cornerY > 0 ? 0 : -Math.PI / 2) : + (cornerY > 0 ? Math.PI / 2 : Math.PI); + for (let i = 0; i <= CONFIG.SEGMENTS; ++i) { + vertices.push(cornerX + (radius - lineWidth) * Math.cos(phi), cornerY + (radius - lineWidth) * Math.sin(phi), 0, cornerX + radius * Math.cos(phi), cornerY + radius * Math.sin(phi), 0); + phi += CONFIG.DELTA_PHI; + } +}; +/** +* Enhanced PlacementBox that dynamically updates based on model size changes +* and features improved visual design inspired by Footprint. +*/ +class PlacementBox extends Mesh { + constructor(scene, side) { + const geometry = new BufferGeometry(); + super(geometry); + this.shadowHeight = 0; + // Visual state + this.isActive = false; + this.isHovered = false; + // Performance optimization + this.lastGeometryUpdateTime = 0; + this.needsGeometryUpdate = false; + this.scene = scene; + this.side = side; + this.currentSize = new Vector3(); + this.goalSize = new Vector3(); + this.sizeDamper = new Damper(); + // Initialize with current scene size + this.updateSizeFromScene(); + // Create enhanced materials with better visual properties + this.edgeMaterial = new MeshBasicMaterial({ + color: CONFIG.COLORS.EDGE_FALLOFF, + transparent: true, + opacity: 0, + side: DoubleSide, + depthWrite: false, // Better transparency handling + blending: AdditiveBlending // Subtle glow effect + }); + this.fillMaterial = new MeshBasicMaterial({ + color: CONFIG.COLORS.FILL_FALLOFF, + transparent: true, + opacity: 0, + side: DoubleSide, + depthWrite: false, // Better transparency handling + blending: NormalBlending + }); + this.material = this.edgeMaterial; + this.goalOpacity = 0; + this.opacityDamper = new Damper(); + // Create hit testing meshes + this.createHitMeshes(); + // Position based on scene + this.updatePositionFromScene(); + // Add to scene + scene.target.add(this); + scene.target.add(this.hitBox); + this.offsetHeight = 0; + } + updateSizeFromScene() { + const { size } = this.scene; + this.goalSize.copy(size); + // Apply proportional minimum size constraints + // For small models, use a smaller minimum size + const modelDiagonal = Math.sqrt(size.x * size.x + size.z * size.z); + const proportionalMinSize = Math.max(CONFIG.MIN_TOUCH_AREA, modelDiagonal * 0.4); // Increased from 0.3 to 0.4 + // Only apply minimum size if the model is very small + if (this.goalSize.x < proportionalMinSize) { + this.goalSize.x = proportionalMinSize; + } + if (this.goalSize.z < proportionalMinSize) { + this.goalSize.z = proportionalMinSize; + } + // Update geometry with new size + this.updateGeometry(); + } + updateGeometry() { + const geometry = this.geometry; + const triangles = []; + const vertices = []; + const x = this.goalSize.x / 2; + const y = (this.side === 'back' ? this.goalSize.y : this.goalSize.z) / 2; + // Use dynamic radius based on size - slightly bigger for better visibility + const modelSize = Math.min(x, y); + const radius = Math.max(CONFIG.BASE_RADIUS * 0.7, modelSize * 0.2); // Increased multipliers + const lineWidth = Math.max(CONFIG.LINE_WIDTH * 0.7, modelSize * 0.025); // Increased line width + addCorner(vertices, x, y, radius, lineWidth); + addCorner(vertices, -x, y, radius, lineWidth); + addCorner(vertices, -x, -y, radius, lineWidth); + addCorner(vertices, x, -y, radius, lineWidth); + const numVertices = vertices.length / 3; + for (let i = 0; i < numVertices - 2; i += 2) { + triangles.push(i, i + 1, i + 3, i, i + 3, i + 2); + } + const i = numVertices - 2; + triangles.push(i, i + 1, 1, i, 1, 0); + geometry.setAttribute('position', new Float32BufferAttribute(vertices, 3)); + geometry.setIndex(triangles); + geometry.computeBoundingSphere(); + } + createHitMeshes() { + const x = this.goalSize.x / 2; + const y = (this.side === 'back' ? this.goalSize.y : this.goalSize.z) / 2; + const modelSize = Math.min(x, y); + const radius = Math.max(CONFIG.BASE_RADIUS * 0.7, modelSize * 0.2); + this.hitPlane = new Mesh(new PlaneGeometry(2 * (x + radius), 2 * (y + radius))); + this.hitPlane.visible = false; + this.hitPlane.material.side = DoubleSide; + this.add(this.hitPlane); + this.hitBox = new Mesh(new BoxGeometry(this.goalSize.x + 2 * radius, this.goalSize.y + radius, this.goalSize.z + 2 * radius)); + this.hitBox.visible = false; + this.hitBox.material.side = DoubleSide; + this.add(this.hitBox); + } + updatePositionFromScene() { + const { boundingBox } = this.scene; + boundingBox.getCenter(this.position); + // Reset rotation to ensure proper orientation + this.rotation.set(0, 0, 0); + switch (this.side) { + case 'bottom': + // Ensure the placement box is horizontal for floor placement + this.rotateX(-Math.PI / 2); + this.shadowHeight = boundingBox.min.y; + this.position.y = this.shadowHeight; + break; + case 'back': + // For wall placement, keep it vertical but ensure proper orientation + this.shadowHeight = boundingBox.min.z; + this.position.z = this.shadowHeight; + break; + case 'top': + // move placement box to the top of the model + this.rotateX(-Math.PI / 2); + this.shadowHeight = boundingBox.max.y; + this.position.y = this.shadowHeight; + break; + } + // Update hit box position with proper offset + if (this.hitBox) { + const offset = this.side === 'back' ? + (this.goalSize.y + CONFIG.BASE_RADIUS) / 2 : + (this.goalSize.y + CONFIG.BASE_RADIUS) / 2; + this.hitBox.position.y = offset + boundingBox.min.y; + } + } + /** + * Update the placement box when model size changes + * Optimized to batch updates and reduce performance impact + */ + updateFromModelChanges() { + this.updateSizeFromScene(); + this.updatePositionFromScene(); + // Force immediate geometry update for model changes + this.updateGeometry(); + this.updateHitMeshes(); + this.ensureProperOrientation(); + // Reset performance tracking + this.needsGeometryUpdate = false; + this.lastGeometryUpdateTime = performance.now(); + } + /** + * Ensure the placement box is properly oriented for the current mode + */ + ensureProperOrientation() { + // Force proper orientation based on side + if (this.side === 'bottom') { + // For floor placement, ensure it's horizontal + this.rotation.x = -Math.PI / 2; + this.rotation.y = 0; + this.rotation.z = 0; + } + else if (this.side === 'back') { + // For wall placement, ensure it's vertical + this.rotation.x = 0; + this.rotation.y = 0; + this.rotation.z = 0; + } + } + /** + * Set screen space mode to adjust positioning for mobile AR + */ + setScreenSpaceMode(isScreenSpace) { + if (isScreenSpace) { + // In screen space mode, ensure the placement box is more visible + // and properly positioned for touch interaction + this.scale.set(CONFIG.SCREEN_SPACE_SCALE, CONFIG.SCREEN_SPACE_SCALE, CONFIG.SCREEN_SPACE_SCALE); + } + else { + // Reset scale for world space mode + this.scale.set(1.0, 1.0, 1.0); + } + } + updateHitMeshes() { + if (this.hitPlane && this.hitBox) { + const x = this.goalSize.x / 2; + const y = (this.side === 'back' ? this.goalSize.y : this.goalSize.z) / 2; + const modelSize = Math.min(x, y); + const radius = Math.max(CONFIG.BASE_RADIUS * 0.7, modelSize * 0.2); + // Update hit plane geometry + const hitPlaneGeometry = new PlaneGeometry(2 * (x + radius), 2 * (y + radius)); + this.hitPlane.geometry.dispose(); + this.hitPlane.geometry = hitPlaneGeometry; + // Update hit box geometry + const hitBoxGeometry = new BoxGeometry(this.goalSize.x + 2 * radius, this.goalSize.y + radius, this.goalSize.z + 2 * radius); + this.hitBox.geometry.dispose(); + this.hitBox.geometry = hitBoxGeometry; + } + } + /** + * Set interaction state for visual feedback + */ + setInteractionState(isActive, isHovered = false) { + this.isActive = isActive; + this.isHovered = isHovered; + this.updateVisualState(); + } + updateVisualState() { + let targetColor; + let targetFillColor; + if (this.isActive) { + targetColor = CONFIG.COLORS.ACTIVE_EDGE; + targetFillColor = CONFIG.COLORS.ACTIVE_FILL; + } + else if (this.isHovered) { + targetColor = CONFIG.COLORS.EDGE_FALLOFF; + targetFillColor = CONFIG.COLORS.FILL_FALLOFF; + } + else { + targetColor = CONFIG.COLORS.EDGE_CUTOFF; + targetFillColor = CONFIG.COLORS.FILL_CUTOFF; + } + // Smoothly transition colors with configurable response speed + this.edgeMaterial.color.lerp(targetColor, CONFIG.COLOR_LERP_FACTOR); + this.fillMaterial.color.lerp(targetFillColor, CONFIG.COLOR_LERP_FACTOR); + } + /** + * Apply distance-based scaling + */ + applyDistanceScaling(cameraPosition) { + const distanceToCamera = cameraPosition.distanceTo(this.position); + const clampedDistance = Math.max(CONFIG.MIN_DISTANCE, Math.min(CONFIG.MAX_DISTANCE, distanceToCamera)); + const scaleFactor = CONFIG.BASE_SCALE + + (clampedDistance - CONFIG.MIN_DISTANCE) * CONFIG.DISTANCE_SCALE_FACTOR; + this.scale.set(scaleFactor, scaleFactor, scaleFactor); + } + /** + * Get the world hit position if the touch coordinates hit the box, and null + * otherwise. Pass the scene in to get access to its raycaster. + */ + getHit(scene, screenX, screenY) { + vector2$1.set(screenX, -screenY); + this.hitPlane.visible = true; + const hitResult = scene.positionAndNormalFromPoint(vector2$1, this.hitPlane); + this.hitPlane.visible = false; + return hitResult == null ? null : hitResult.position; + } + getExpandedHit(scene, screenX, screenY) { + this.hitPlane.scale.set(1000, 1000, 1000); + this.hitPlane.updateMatrixWorld(); + const hitResult = this.getHit(scene, screenX, screenY); + this.hitPlane.scale.set(1, 1, 1); + return hitResult; + } + controllerIntersection(scene, controller) { + this.hitBox.visible = true; + const hitResult = scene.hitFromController(controller, this.hitBox); + this.hitBox.visible = false; + return hitResult; + } + /** + * Offset the height of the box relative to the bottom of the scene. Positive + * is up, so generally only negative values are used. + */ + set offsetHeight(offset) { + offset -= 0.001; // push 1 mm below shadow to avoid z-fighting + if (this.side === 'back') { + this.position.z = this.shadowHeight + offset; + } + else { + this.position.y = this.shadowHeight + offset; + } + } + get offsetHeight() { + if (this.side === 'back') { + return this.position.z - this.shadowHeight; + } + else { + return this.position.y - this.shadowHeight; + } + } + /** + * Set the box's visibility; it will fade in and out. + */ + set show(visible) { + this.goalOpacity = visible ? CONFIG.MAX_OPACITY : 0; + } + /** + * Call on each frame with the frame delta to fade the box. + */ + updateOpacity(delta) { + const material = this.material; + const newOpacity = this.opacityDamper.update(material.opacity, this.goalOpacity, delta, 1); + // Update both edge and fill materials with configurable visibility + this.edgeMaterial.opacity = newOpacity; + this.fillMaterial.opacity = newOpacity * CONFIG.FILL_OPACITY_MULTIPLIER; + // Add subtle glow effect when active or hovered + if (this.isActive || this.isHovered) { + this.edgeMaterial.opacity = newOpacity * CONFIG.INTERACTIVE_OPACITY_MULTIPLIER; + } + this.visible = newOpacity > 0; + } + /** + * Update method to be called each frame for smooth transitions + * Optimized to reduce frequent geometry updates for better performance + */ + update(delta, cameraPosition) { + // Update opacity + this.updateOpacity(delta); + // Update size transitions with performance optimization + if (!this.currentSize.equals(this.goalSize)) { + const newSize = new Vector3(); + newSize.x = this.sizeDamper.update(this.currentSize.x, this.goalSize.x, delta, 1); + newSize.y = this.sizeDamper.update(this.currentSize.y, this.goalSize.y, delta, 1); + newSize.z = this.sizeDamper.update(this.currentSize.z, this.goalSize.z, delta, 1); + // Check if size change is significant enough to warrant geometry update + const sizeChange = newSize.distanceTo(this.currentSize); + if (sizeChange > CONFIG.SIZE_UPDATE_THRESHOLD) { + this.currentSize.copy(newSize); + this.needsGeometryUpdate = true; + } + } + // Debounce geometry updates to prevent excessive updates + const now = performance.now(); + if (this.needsGeometryUpdate && + (now - this.lastGeometryUpdateTime) > CONFIG.GEOMETRY_UPDATE_DEBOUNCE) { + this.updateGeometry(); + this.updateHitMeshes(); + this.needsGeometryUpdate = false; + this.lastGeometryUpdateTime = now; + } + // Apply distance scaling if camera position is provided + if (cameraPosition) { + this.applyDistanceScaling(cameraPosition); + } + // Update visual state + this.updateVisualState(); + } + /** + * Get the current size of the placement box + */ + getSize() { + return this.goalSize.clone(); + } + /** + * Call this to clean up Three's cache when you remove the box. + */ + dispose() { + const { geometry, material } = this.hitPlane; + geometry.dispose(); + material.dispose(); + this.hitBox.geometry.dispose(); + this.hitBox.material.dispose(); + this.geometry.dispose(); + this.edgeMaterial.dispose(); + this.fillMaterial.dispose(); + this.hitBox.removeFromParent(); + this.removeFromParent(); + } +} + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const numberNode = (value, unit) => ({ type: 'number', number: value, unit }); +/** + * Given a string representing a comma-separated set of CSS-like expressions, + * parses and returns an array of ASTs that correspond to those expressions. + * + * Currently supported syntax includes: + * + * - functions (top-level and nested) + * - calc() arithmetic operators + * - numbers with units + * - hexadecimal-encoded colors in 3, 6 or 8 digit form + * - idents + * + * All syntax is intended to match the parsing rules and semantics of the actual + * CSS spec as closely as possible. + * + * @see https://www.w3.org/TR/CSS2/ + * @see https://www.w3.org/TR/css-values-3/ + */ +const parseExpressions = (() => { + const cache = {}; + const MAX_PARSE_ITERATIONS = 1000; // Arbitrarily large + return (inputString) => { + const cacheKey = inputString; + if (cacheKey in cache) { + return cache[cacheKey]; + } + const expressions = []; + let parseIterations = 0; + while (inputString) { + if (++parseIterations > MAX_PARSE_ITERATIONS) { + // Avoid a potentially infinite loop due to typos: + inputString = ''; + break; + } + const expressionParseResult = parseExpression(inputString); + const expression = expressionParseResult.nodes[0]; + if (expression == null || expression.terms.length === 0) { + break; + } + expressions.push(expression); + inputString = expressionParseResult.remainingInput; + } + return cache[cacheKey] = expressions; + }; +})(); +/** + * Parse a single expression. For the purposes of our supported syntax, an + * expression is the set of semantically meaningful terms that appear before the + * next comma, or between the parens of a function invocation. + */ +const parseExpression = (() => { + const IS_IDENT_RE = /^(\-\-|[a-z\u0240-\uffff])/i; + const IS_OPERATOR_RE = /^([\*\+\/]|[\-]\s)/i; + const IS_EXPRESSION_END_RE = /^[\),]/; + const FUNCTION_ARGUMENTS_FIRST_TOKEN = '('; + const HEX_FIRST_TOKEN = '#'; + return (inputString) => { + const terms = []; + while (inputString.length) { + inputString = inputString.trim(); + if (IS_EXPRESSION_END_RE.test(inputString)) { + break; + } + else if (inputString[0] === FUNCTION_ARGUMENTS_FIRST_TOKEN) { + const { nodes, remainingInput } = parseFunctionArguments(inputString); + inputString = remainingInput; + terms.push({ + type: 'function', + name: { type: 'ident', value: 'calc' }, + arguments: nodes + }); + } + else if (IS_IDENT_RE.test(inputString)) { + const identParseResult = parseIdent(inputString); + const identNode = identParseResult.nodes[0]; + inputString = identParseResult.remainingInput; + if (inputString[0] === FUNCTION_ARGUMENTS_FIRST_TOKEN) { + const { nodes, remainingInput } = parseFunctionArguments(inputString); + terms.push({ type: 'function', name: identNode, arguments: nodes }); + inputString = remainingInput; + } + else { + terms.push(identNode); + } + } + else if (IS_OPERATOR_RE.test(inputString)) { + // Operators are always a single character, so just pluck them out: + terms.push({ type: 'operator', value: inputString[0] }); + inputString = inputString.slice(1); + } + else { + const { nodes, remainingInput } = inputString[0] === HEX_FIRST_TOKEN ? + parseHex(inputString) : + parseNumber(inputString); + // The remaining string may not have had any meaningful content. Exit + // early if this is the case: + if (nodes.length === 0) { + break; + } + terms.push(nodes[0]); + inputString = remainingInput; + } + } + return { nodes: [{ type: 'expression', terms }], remainingInput: inputString }; + }; +})(); +/** + * An ident is something like a function name or the keyword "auto". + */ +const parseIdent = (() => { + const NOT_IDENT_RE = /[^a-z0-9_\-\u0240-\uffff]/i; + return (inputString) => { + const match = inputString.match(NOT_IDENT_RE); + const ident = match == null ? inputString : inputString.substr(0, match.index); + const remainingInput = match == null ? '' : inputString.substr(match.index); + return { nodes: [{ type: 'ident', value: ident }], remainingInput }; + }; +})(); +/** + * Parses a number. A number value can be expressed with an integer or + * non-integer syntax, and usually includes a unit (but does not strictly + * require one for our purposes). + */ +const parseNumber = (() => { + // @see https://www.w3.org/TR/css-syntax/#number-token-diagram + const VALUE_RE = /[\+\-]?(\d+[\.]\d+|\d+|[\.]\d+)([eE][\+\-]?\d+)?/; + const UNIT_RE = /^[a-z%]+/i; + const ALLOWED_UNITS = /^(m|mm|cm|rad|deg|[%])$/; + return (inputString) => { + const valueMatch = inputString.match(VALUE_RE); + const value = valueMatch == null ? '0' : valueMatch[0]; + inputString = value == null ? inputString : inputString.slice(value.length); + const unitMatch = inputString.match(UNIT_RE); + let unit = unitMatch != null && unitMatch[0] !== '' ? unitMatch[0] : null; + const remainingInput = unitMatch == null ? inputString : inputString.slice(unit.length); + if (unit != null && !ALLOWED_UNITS.test(unit)) { + unit = null; + } + return { + nodes: [{ + type: 'number', + number: parseFloat(value) || 0, + unit: unit + }], + remainingInput + }; + }; +})(); +/** + * Parses a hexadecimal-encoded color in 3, 6 or 8 digit form. + */ +const parseHex = (() => { + // TODO(cdata): right now we don't actually enforce the number of digits + const HEX_RE = /^[a-f0-9]*/i; + return (inputString) => { + inputString = inputString.slice(1).trim(); + const hexMatch = inputString.match(HEX_RE); + const nodes = hexMatch == null ? [] : [{ type: 'hex', value: hexMatch[0] }]; + return { + nodes, + remainingInput: hexMatch == null ? inputString : + inputString.slice(hexMatch[0].length) + }; + }; +})(); +/** + * Parses arguments passed to a function invocation (e.g., the expressions + * within a matched set of parens). + */ +const parseFunctionArguments = (inputString) => { + const expressionNodes = []; + // Consume the opening paren + inputString = inputString.slice(1).trim(); + while (inputString.length) { + const expressionParseResult = parseExpression(inputString); + expressionNodes.push(expressionParseResult.nodes[0]); + inputString = expressionParseResult.remainingInput.trim(); + if (inputString[0] === ',') { + inputString = inputString.slice(1).trim(); + } + else if (inputString[0] === ')') { + // Consume the closing paren and stop parsing + inputString = inputString.slice(1); + break; + } + } + return { nodes: expressionNodes, remainingInput: inputString }; +}; +const $visitedTypes = Symbol('visitedTypes'); +/** + * An ASTWalker walks an array of ASTs such as the type produced by + * parseExpressions and invokes a callback for a configured set of nodes that + * the user wishes to "visit" during the walk. + */ +class ASTWalker { + constructor(visitedTypes) { + this[$visitedTypes] = visitedTypes; + } + /** + * Walk the given set of ASTs, and invoke the provided callback for nodes that + * match the filtered set that the ASTWalker was constructed with. + */ + walk(ast, callback) { + const remaining = ast.slice(); + while (remaining.length) { + const next = remaining.shift(); + if (this[$visitedTypes].indexOf(next.type) > -1) { + callback(next); + } + switch (next.type) { + case 'expression': + remaining.unshift(...next.terms); + break; + case 'function': + remaining.unshift(next.name, ...next.arguments); + break; + } + } + } +} +const ZERO = Object.freeze({ type: 'number', number: 0, unit: null }); + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +/** + * Ensures that a given number is expressed in radians. If the number is already + * in radians, does nothing. If the value is in degrees, converts it to radians. + * If the value has no specified unit, the unit is assumed to be radians. If the + * value is not in radians or degrees, the value is resolved as 0 radians. + * + * Also accepts a second argument that is a default value to use if the input + * numberNode number is NaN or Infinity. + */ +const degreesToRadians = (numberNode, fallbackRadianValue = 0) => { + let { number, unit } = numberNode; + if (!isFinite(number)) { + number = fallbackRadianValue; + unit = 'rad'; + } + else if (numberNode.unit === 'rad' || numberNode.unit == null) { + return numberNode; + } + const valueIsDegrees = unit === 'deg' && number != null; + const value = valueIsDegrees ? number : 0; + const radians = value * Math.PI / 180; + return { type: 'number', number: radians, unit: 'rad' }; +}; +/** + * Converts a given length to meters. Currently supported input units are + * meters, centimeters and millimeters. + * + * Also accepts a second argument that is a default value to use if the input + * numberNode number is NaN or Infinity. + */ +const lengthToBaseMeters = (numberNode, fallbackMeterValue = 0) => { + let { number, unit } = numberNode; + if (!isFinite(number)) { + number = fallbackMeterValue; + unit = 'm'; + } + else if (numberNode.unit === 'm') { + return numberNode; + } + let scale; + switch (unit) { + default: + scale = 1; + break; + case 'cm': + scale = 1 / 100; + break; + case 'mm': + scale = 1 / 1000; + break; + } + const value = scale * number; + return { type: 'number', number: value, unit: 'm' }; +}; +/** + * Normalizes the unit of a given input number so that it is expressed in a + * preferred unit. For length nodes, the return value will be expressed in + * meters. For angle nodes, the return value will be expressed in radians. + * + * Also takes a fallback number that is used when the number value is not a + * valid number or when the unit of the given number cannot be normalized. + */ +const normalizeUnit = (() => { + const identity = (node) => node; + const unitNormalizers = { + 'rad': identity, + 'deg': degreesToRadians, + 'm': identity, + 'mm': lengthToBaseMeters, + 'cm': lengthToBaseMeters + }; + return (node, fallback = ZERO) => { + if (!isFinite(node.number)) { + node.number = fallback.number; + node.unit = fallback.unit; + } + const { unit } = node; + if (unit == null) { + return node; + } + const normalize = unitNormalizers[unit]; + if (normalize == null) { + return fallback; + } + return normalize(node); + }; +})(); + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var _a$6, _b$6, _c$4; +const $evaluate = Symbol('evaluate'); +const $lastValue = Symbol('lastValue'); +/** + * An Evaluator is used to derive a computed style from part (or all) of a CSS + * expression AST. This construct is particularly useful for complex ASTs + * containing function calls such as calc, var and env. Such styles could be + * costly to re-evaluate on every frame (and in some cases we may try to do + * that). The Evaluator construct allows us to mark sub-trees of the AST as + * constant, so that only the dynamic parts are re-evaluated. It also separates + * one-time AST preparation work from work that necessarily has to happen upon + * each evaluation. + */ +class Evaluator { + constructor() { + this[_a$6] = null; + } + /** + * An Evaluatable is a NumberNode or an Evaluator that evaluates a NumberNode + * as the result of invoking its evaluate method. This is mainly used to + * ensure that CSS function nodes are cast to the corresponding Evaluators + * that will resolve the result of the function, but is also used to ensure + * that a percentage nested at arbitrary depth in the expression will always + * be evaluated against the correct basis. + */ + static evaluatableFor(node, basis = ZERO) { + if (node instanceof Evaluator) { + return node; + } + if (node.type === 'number') { + if (node.unit === '%') { + return new PercentageEvaluator(node, basis); + } + return node; + } + switch (node.name.value) { + case 'calc': + return new CalcEvaluator(node, basis); + case 'env': + return new EnvEvaluator(node); + } + return ZERO; + } + /** + * If the input is an Evaluator, returns the result of evaluating it. + * Otherwise, returns the input. + * + * This is a helper to aide in resolving a NumberNode without conditionally + * checking if the Evaluatable is an Evaluator everywhere. + */ + static evaluate(evaluatable) { + if (evaluatable instanceof Evaluator) { + return evaluatable.evaluate(); + } + return evaluatable; + } + /** + * If the input is an Evaluator, returns the value of its isConstant property. + * Returns true for all other input values. + */ + static isConstant(evaluatable) { + if (evaluatable instanceof Evaluator) { + return evaluatable.isConstant; + } + return true; + } + /** + * This method applies a set of structured intrinsic metadata to an evaluated + * result from a parsed CSS-like string of expressions. Intrinsics provide + * sufficient metadata (e.g., basis values, analogs for keywords) such that + * omitted values in the input string can be backfilled, and keywords can be + * converted to concrete numbers. + * + * The result of applying intrinsics is a tuple of NumberNode values whose + * units match the units used by the basis of the intrinsics. + * + * The following is a high-level description of how intrinsics are applied: + * + * 1. Determine the value of 'auto' for the current term + * 2. If there is no corresponding input value for this term, substitute the + * 'auto' value. + * 3. If the term is an IdentNode, treat it as a keyword and perform the + * appropriate substitution. + * 4. If the term is still null, fallback to the 'auto' value + * 5. If the term is a percentage, apply it to the basis and return that + * value + * 6. Normalize the unit of the term + * 7. If the term's unit does not match the basis unit, return the basis + * value + * 8. Return the term as is + */ + static applyIntrinsics(evaluated, intrinsics) { + const { basis, keywords } = intrinsics; + const { auto } = keywords; + return basis.map((basisNode, index) => { + // Use an auto value if we have it, otherwise the auto value is the basis: + const autoSubstituteNode = auto[index] == null ? basisNode : auto[index]; + // If the evaluated nodes do not have a node at the current + // index, fallback to the "auto" substitute right away: + let evaluatedNode = evaluated[index] ? evaluated[index] : autoSubstituteNode; + // Any ident node is considered a keyword: + if (evaluatedNode.type === 'ident') { + const keyword = evaluatedNode.value; + // Substitute any keywords for concrete values first: + if (keyword in keywords) { + evaluatedNode = keywords[keyword][index]; + } + } + // If we don't have a NumberNode at this point, fall back to whatever + // is specified for auto: + if (evaluatedNode == null || evaluatedNode.type === 'ident') { + evaluatedNode = autoSubstituteNode; + } + // For percentages, we always apply the percentage to the basis value: + if (evaluatedNode.unit === '%') { + return numberNode(evaluatedNode.number / 100 * basisNode.number, basisNode.unit); + } + // Otherwise, normalize whatever we have: + evaluatedNode = normalizeUnit(evaluatedNode, basisNode); + // If the normalized units do not match, return the basis as a fallback: + if (evaluatedNode.unit !== basisNode.unit) { + return basisNode; + } + // Finally, return the evaluated node with intrinsics applied: + return evaluatedNode; + }); + } + /** + * If true, the Evaluator will only evaluate its AST one time. If false, the + * Evaluator will re-evaluate the AST each time that the public evaluate + * method is invoked. + */ + get isConstant() { + return false; + } + /** + * Evaluate the Evaluator and return the result. If the Evaluator is constant, + * the corresponding AST will only be evaluated once, and the result of + * evaluating it the first time will be returned on all subsequent + * evaluations. + */ + evaluate() { + if (!this.isConstant || this[$lastValue] == null) { + this[$lastValue] = this[$evaluate](); + } + return this[$lastValue]; + } +} +_a$6 = $lastValue; +const $percentage = Symbol('percentage'); +const $basis = Symbol('basis'); +/** + * A PercentageEvaluator scales a given basis value by a given percentage value. + * The evaluated result is always considered to be constant. + */ +class PercentageEvaluator extends Evaluator { + constructor(percentage, basis) { + super(); + this[$percentage] = percentage; + this[$basis] = basis; + } + get isConstant() { + return true; + } + [$evaluate]() { + return numberNode(this[$percentage].number / 100 * this[$basis].number, this[$basis].unit); + } +} +const $identNode = Symbol('identNode'); +/** + * Evaluator for CSS-like env() functions. Currently, only one environment + * variable is accepted as an argument for such functions: window-scroll-y. + * + * The env() Evaluator is explicitly dynamic because it always refers to + * external state that changes as the user scrolls, so it should always be + * re-evaluated to ensure we get the most recent value. + * + * Some important notes about this feature include: + * + * - There is no such thing as a "window-scroll-y" CSS environment variable in + * any stable browser at the time that this comment is being written. + * - The actual CSS env() function accepts a second argument as a fallback for + * the case that the specified first argument isn't set; our syntax does not + * support this second argument. + * + * @see https://developer.mozilla.org/en-US/docs/Web/CSS/env + */ +class EnvEvaluator extends Evaluator { + constructor(envFunction) { + super(); + this[_b$6] = null; + const identNode = envFunction.arguments.length ? envFunction.arguments[0].terms[0] : null; + if (identNode != null && identNode.type === 'ident') { + this[$identNode] = identNode; + } + } + get isConstant() { + return false; + } + ; + [(_b$6 = $identNode, $evaluate)]() { + if (this[$identNode] != null) { + switch (this[$identNode].value) { + case 'window-scroll-y': + const verticalScrollPosition = window.pageYOffset; + const verticalScrollMax = Math.max(document.body.scrollHeight, document.body.offsetHeight, document.documentElement.clientHeight, document.documentElement.scrollHeight, document.documentElement.offsetHeight); + const scrollY = verticalScrollPosition / + (verticalScrollMax - window.innerHeight) || + 0; + return { type: 'number', number: scrollY, unit: null }; + } + } + return ZERO; + } +} +const IS_MULTIPLICATION_RE = /[\*\/]/; +const $evaluator = Symbol('evaluator'); +/** + * Evaluator for CSS-like calc() functions. Our implementation of calc() + * evaluation currently support nested function calls, an unlimited number of + * terms, and all four algebraic operators (+, -, * and /). + * + * The Evaluator is marked as constant unless the calc expression contains an + * internal env expression at any depth, in which case it will be marked as + * dynamic. + * + * @see https://www.w3.org/TR/css-values-3/#calc-syntax + * @see https://developer.mozilla.org/en-US/docs/Web/CSS/calc + */ +class CalcEvaluator extends Evaluator { + constructor(calcFunction, basis = ZERO) { + super(); + this[_c$4] = null; + if (calcFunction.arguments.length !== 1) { + return; + } + const terms = calcFunction.arguments[0].terms.slice(); + const secondOrderTerms = []; + while (terms.length) { + const term = terms.shift(); + if (secondOrderTerms.length > 0) { + const previousTerm = secondOrderTerms[secondOrderTerms.length - 1]; + if (previousTerm.type === 'operator' && + IS_MULTIPLICATION_RE.test(previousTerm.value)) { + const operator = secondOrderTerms.pop(); + const leftValue = secondOrderTerms.pop(); + if (leftValue == null) { + return; + } + secondOrderTerms.push(new OperatorEvaluator(operator, Evaluator.evaluatableFor(leftValue, basis), Evaluator.evaluatableFor(term, basis))); + continue; + } + } + secondOrderTerms.push(term.type === 'operator' ? term : + Evaluator.evaluatableFor(term, basis)); + } + while (secondOrderTerms.length > 2) { + const [left, operator, right] = secondOrderTerms.splice(0, 3); + if (operator.type !== 'operator') { + return; + } + secondOrderTerms.unshift(new OperatorEvaluator(operator, Evaluator.evaluatableFor(left, basis), Evaluator.evaluatableFor(right, basis))); + } + // There should only be one combined evaluator at this point: + if (secondOrderTerms.length === 1) { + this[$evaluator] = secondOrderTerms[0]; + } + } + get isConstant() { + return this[$evaluator] == null || Evaluator.isConstant(this[$evaluator]); + } + [(_c$4 = $evaluator, $evaluate)]() { + return this[$evaluator] != null ? Evaluator.evaluate(this[$evaluator]) : + ZERO; + } +} +const $operator = Symbol('operator'); +const $left = Symbol('left'); +const $right = Symbol('right'); +/** + * An Evaluator for the operators found inside CSS calc() functions. + * The evaluator accepts an operator and left/right operands. The operands can + * be any valid expression term typically allowed inside a CSS calc function. + * + * As detail of this implementation, the only supported unit types are angles + * expressed as radians or degrees, and lengths expressed as meters, centimeters + * or millimeters. + * + * @see https://developer.mozilla.org/en-US/docs/Web/CSS/calc + */ +class OperatorEvaluator extends Evaluator { + constructor(operator, left, right) { + super(); + this[$operator] = operator; + this[$left] = left; + this[$right] = right; + } + get isConstant() { + return Evaluator.isConstant(this[$left]) && + Evaluator.isConstant(this[$right]); + } + [$evaluate]() { + const leftNode = normalizeUnit(Evaluator.evaluate(this[$left])); + const rightNode = normalizeUnit(Evaluator.evaluate(this[$right])); + const { number: leftValue, unit: leftUnit } = leftNode; + const { number: rightValue, unit: rightUnit } = rightNode; + // Disallow operations for mismatched normalized units e.g., m and rad: + if (rightUnit != null && leftUnit != null && rightUnit != leftUnit) { + return ZERO; + } + // NOTE(cdata): rules for calc type checking are defined here + // https://drafts.csswg.org/css-values-3/#calc-type-checking + // This is a simplification and may not hold up once we begin to support + // additional unit types: + const unit = leftUnit || rightUnit; + let value; + switch (this[$operator].value) { + case '+': + value = leftValue + rightValue; + break; + case '-': + value = leftValue - rightValue; + break; + case '/': + value = leftValue / rightValue; + break; + case '*': + value = leftValue * rightValue; + break; + default: + return ZERO; + } + return { type: 'number', number: value, unit }; + } +} +const $evaluatables = Symbol('evaluatables'); +const $intrinsics = Symbol('intrinsics'); +/** + * A VectorEvaluator evaluates a series of numeric terms that usually represent + * a data structure such as a multi-dimensional vector or a spherical + * + * The form of the evaluator's result is determined by the Intrinsics that are + * given to it when it is constructed. For example, spherical intrinsics would + * establish two angle terms and a length term, so the result of evaluating the + * evaluator that is configured with spherical intrinsics is a three element + * array where the first two elements represent angles in radians and the third + * element representing a length in meters. + */ +class StyleEvaluator extends Evaluator { + constructor(expressions, intrinsics) { + super(); + this[$intrinsics] = intrinsics; + const firstExpression = expressions[0]; + const terms = firstExpression != null ? firstExpression.terms : []; + this[$evaluatables] = + intrinsics.basis.map((basisNode, index) => { + const term = terms[index]; + if (term == null) { + return { type: 'ident', value: 'auto' }; + } + if (term.type === 'ident') { + return term; + } + return Evaluator.evaluatableFor(term, basisNode); + }); + } + get isConstant() { + for (const evaluatable of this[$evaluatables]) { + if (!Evaluator.isConstant(evaluatable)) { + return false; + } + } + return true; + } + [$evaluate]() { + const evaluated = this[$evaluatables].map(evaluatable => Evaluator.evaluate(evaluatable)); + return Evaluator.applyIntrinsics(evaluated, this[$intrinsics]) + .map(numberNode => numberNode.number); + } +} + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var _a$5, _b$5, _c$3, _d$2; +const $instances = Symbol('instances'); +const $activateListener = Symbol('activateListener'); +const $deactivateListener = Symbol('deactivateListener'); +const $notifyInstances = Symbol('notifyInstances'); +const $notify = Symbol('notify'); +const $scrollCallback = Symbol('callback'); +/** + * This internal helper is intended to work as a reference-counting manager of + * scroll event listeners. Only one scroll listener is ever registered for all + * instances of the class, and when the last ScrollObserver "disconnects", that + * event listener is removed. This spares us from thrashing + * the {add,remove}EventListener API (the binding cost of these methods has been + * known to show up in performance analyses) as well as potential memory leaks. + */ +class ScrollObserver { + static [$notifyInstances]() { + for (const instance of ScrollObserver[$instances]) { + instance[$notify](); + } + } + static [(_a$5 = $instances, $activateListener)]() { + window.addEventListener('scroll', this[$notifyInstances], { passive: true }); + } + static [$deactivateListener]() { + window.removeEventListener('scroll', this[$notifyInstances]); + } + constructor(callback) { + this[$scrollCallback] = callback; + } + /** + * Listen for scroll events. The configured callback (passed to the + * constructor) will be invoked for subsequent global scroll events. + */ + observe() { + if (ScrollObserver[$instances].size === 0) { + ScrollObserver[$activateListener](); + } + ScrollObserver[$instances].add(this); + } + /** + * Stop listening for scroll events. + */ + disconnect() { + ScrollObserver[$instances].delete(this); + if (ScrollObserver[$instances].size === 0) { + ScrollObserver[$deactivateListener](); + } + } + [$notify]() { + this[$scrollCallback](); + } + ; +} +ScrollObserver[_a$5] = new Set(); +const $computeStyleCallback = Symbol('computeStyleCallback'); +const $astWalker = Symbol('astWalker'); +const $dependencies = Symbol('dependencies'); +const $onScroll = Symbol('onScroll'); +/** + * The StyleEffector is configured with a callback that will be invoked at the + * optimal time that some array of CSS expression ASTs ought to be evaluated. + * + * For example, our CSS-like expression syntax supports usage of the env() + * function to incorporate the current top-level scroll position into a CSS + * expression: env(window-scroll-y). + * + * This "environment variable" will change dynamically as the user scrolls the + * page. If an AST contains such a usage of env(), we would have to evaluate the + * AST on every frame in order to be sure that the computed style stays up to + * date. + * + * The StyleEffector spares us from evaluating the expressions on every frame by + * correlating specific parts of an AST with observers of the external effects + * that they refer to (if any). So, if the AST contains env(window-scroll-y), + * the StyleEffector manages the lifetime of a global scroll event listener and + * notifies the user at the optimal time to evaluate the computed style. + */ +class StyleEffector { + constructor(callback) { + this[_b$5] = {}; + this[_c$3] = new ASTWalker(['function']); + this[_d$2] = () => { + this[$computeStyleCallback]({ relatedState: 'window-scroll' }); + }; + this[$computeStyleCallback] = callback; + } + /** + * Sets the expressions that govern when the StyleEffector callback will be + * invoked. + */ + observeEffectsFor(ast) { + const newDependencies = {}; + const oldDependencies = this[$dependencies]; + this[$astWalker].walk(ast, functionNode => { + const { name } = functionNode; + const firstArgument = functionNode.arguments[0]; + const firstTerm = firstArgument.terms[0]; + if (name.value !== 'env' || firstTerm == null || + firstTerm.type !== 'ident') { + return; + } + switch (firstTerm.value) { + case 'window-scroll-y': + if (newDependencies['window-scroll'] == null) { + const observer = 'window-scroll' in oldDependencies ? + oldDependencies['window-scroll'] : + new ScrollObserver(this[$onScroll]); + observer.observe(); + delete oldDependencies['window-scroll']; + newDependencies['window-scroll'] = observer; + } + break; + } + }); + for (const environmentState in oldDependencies) { + const observer = oldDependencies[environmentState]; + observer.disconnect(); + } + this[$dependencies] = newDependencies; + } + /** + * Disposes of the StyleEffector by disconnecting all observers of external + * effects. + */ + dispose() { + for (const environmentState in this[$dependencies]) { + const observer = this[$dependencies][environmentState]; + observer.disconnect(); + } + } +} +_b$5 = $dependencies, _c$3 = $astWalker, _d$2 = $onScroll; + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +/** + * The @style decorator is responsible for coordinating the conversion of a + * CSS-like string property value into numbers that can be applied to + * lower-level constructs. It also can optionally manage the lifecycle of a + * StyleEffector which allows automatic updates for styles that use env() or + * var() functions. + * + * The decorator is configured with Intrinsics and the property key for a + * method that handles updates. The named update handler is invoked with the + * result of parsing and evaluating the raw property string value. The format of + * the evaluated result is derived from the basis of the configured Intrinsics, + * and is always an array of numbers of fixed length. + * + * NOTE: This decorator depends on the property updating mechanism defined by + * UpdatingElement as exported by the lit-element module. That means it *must* + * be used in conjunction with the @property decorator, or equivalent + * JavaScript. + * + * Supported configurations are: + * + * - `intrinsics`: An Intrinsics struct that describes how to interpret a + * serialized style attribute. For more detail on intrinsics see + * ./styles/evaluators.ts + * - `updateHandler`: A string or Symbol that is the key of a method to be + * invoked with the result of parsing and evaluating a serialized style string. + * - `observeEffects`: Optional, if set to true then styles that use env() will + * cause their update handlers to be invoked every time the corresponding + * environment variable changes (even if the style attribute itself remains + * static). + */ +const style = (config) => { + const observeEffects = config.observeEffects || false; + const getIntrinsics = config.intrinsics instanceof Function ? + config.intrinsics : + (() => config.intrinsics); + return (proto, propertyName) => { + const originalUpdated = proto.updated; + const originalConnectedCallback = proto.connectedCallback; + const originalDisconnectedCallback = proto.disconnectedCallback; + const $styleEffector = Symbol(`${propertyName}StyleEffector`); + const $styleEvaluator = Symbol(`${propertyName}StyleEvaluator`); + const $updateEvaluator = Symbol(`${propertyName}UpdateEvaluator`); + const $evaluateAndSync = Symbol(`${propertyName}EvaluateAndSync`); + Object.defineProperties(proto, { + [$styleEffector]: { value: null, writable: true }, + [$styleEvaluator]: { value: null, writable: true }, + [$updateEvaluator]: { + value: function () { + const ast = parseExpressions(this[propertyName]); + this[$styleEvaluator] = + new StyleEvaluator(ast, getIntrinsics(this)); + if (this[$styleEffector] == null && observeEffects) { + this[$styleEffector] = + new StyleEffector(() => this[$evaluateAndSync]()); + } + if (this[$styleEffector] != null) { + this[$styleEffector].observeEffectsFor(ast); + } + } + }, + [$evaluateAndSync]: { + value: function () { + if (this[$styleEvaluator] == null) { + return; + } + const result = this[$styleEvaluator].evaluate(); + // @see https://github.com/microsoft/TypeScript/pull/30769 + // @see https://github.com/Microsoft/TypeScript/issues/1863 + this[config.updateHandler](result); + } + }, + updated: { + value: function (changedProperties) { + // Always invoke updates to styles first. This gives a class that + // uses this decorator the opportunity to override the effect, or + // respond to it, in its own implementation of `updated`. + if (changedProperties.has(propertyName)) { + this[$updateEvaluator](); + this[$evaluateAndSync](); + } + originalUpdated.call(this, changedProperties); + } + }, + connectedCallback: { + value: function () { + originalConnectedCallback.call(this); + this.requestUpdate(propertyName, this[propertyName]); + } + }, + disconnectedCallback: { + value: function () { + originalDisconnectedCallback.call(this); + if (this[$styleEffector] != null) { + this[$styleEffector].dispose(); + this[$styleEffector] = null; + } + } + } + }); + }; +}; + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +// Adapted from https://gist.github.com/gre/1650294 +const easeInOutQuad = (t) => t < .5 ? 2 * t * t : -1 + (4 - 2 * t) * t; +/** + * Creates a TimingFunction that uses a given ease to interpolate between + * two configured number values. + */ +const interpolate = (start, end, ease = easeInOutQuad) => (time) => start + (end - start) * ease(time); +/** + * Creates a TimingFunction that interpolates through a weighted list + * of other TimingFunctions ("tracks"). Tracks are interpolated in order, and + * allocated a percentage of the total time based on their relative weight. + */ +const sequence = (tracks, weights) => { + const cumulativeSum = ((sum) => (value) => sum += value); + const times = weights.map(cumulativeSum(0)); + return (time) => { + time = clamp(time, 0, 1); + time *= times[times.length - 1]; + const i = times.findIndex((val) => val >= time); + const start = i < 1 ? 0 : times[i - 1]; + const end = times[i]; + return tracks[i]((time - start) / (end - start)); + }; +}; +/** + * Creates a "timeline" TimingFunction out of an initial value and a series of + * Keyframes. The timeline function accepts value from 0-1 and returns the + * current value based on keyframe interpolation across the total number of + * frames. Frames are only used to indicate the relative length of each keyframe + * transition, so interpolated values will be computed for fractional frames. + */ +const timeline = (path) => { + const tracks = []; + const weights = []; + let lastValue = path.initialValue; + for (let i = 0; i < path.keyframes.length; ++i) { + const keyframe = path.keyframes[i]; + const { value, frames } = keyframe; + const ease = keyframe.ease || easeInOutQuad; + const track = interpolate(lastValue, value, ease); + tracks.push(track); + weights.push(frames); + lastValue = value; + } + return sequence(tracks, weights); +}; + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var __decorate$6 = (undefined && undefined.__decorate) || function (decorators, target, key, desc) { + var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d; + for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r; + return c > 3 && r && Object.defineProperty(target, key, r), r; +}; +// NOTE(cdata): The following "animation" timing functions are deliberately +// being used in favor of CSS animations. In Safari 12.1 and 13, CSS animations +// would cause the interaction prompt to glitch unexpectedly +// @see https://github.com/google/model-viewer/issues/839 +const PROMPT_ANIMATION_TIME = 5000; +// For timing purposes, a "frame" is a timing agnostic relative unit of time +// and a "value" is a target value for the Frame. +const wiggle = timeline({ + initialValue: 0, + keyframes: [ + { frames: 5, value: -1 }, + { frames: 1, value: -1 }, + { frames: 8, value: 1 }, + { frames: 1, value: 1 }, + { frames: 5, value: 0 }, + { frames: 18, value: 0 } + ] +}); +const fade = timeline({ + initialValue: 0, + keyframes: [ + { frames: 1, value: 1 }, + { frames: 5, value: 1 }, + { frames: 1, value: 0 }, + { frames: 6, value: 0 } + ] +}); +const DEFAULT_FOV_DEG = 30; +const DEFAULT_MIN_FOV_DEG = 12; +const DEFAULT_CAMERA_ORBIT = '0deg 75deg 105%'; +const DEFAULT_CAMERA_TARGET = 'auto auto auto'; +const DEFAULT_FIELD_OF_VIEW = 'auto'; +const MINIMUM_RADIUS_RATIO = 2.2; +const AZIMUTHAL_QUADRANT_LABELS = ['front', 'right', 'back', 'left']; +const POLAR_TRIENT_LABELS = ['upper-', '', 'lower-']; +const DEFAULT_INTERACTION_PROMPT_THRESHOLD = 3000; +const INTERACTION_PROMPT = '. Use mouse, touch or arrow keys to move.'; +const InteractionPromptStrategy = { + AUTO: 'auto'}; +const InteractionPromptStyle = { + BASIC: 'basic', + WIGGLE: 'wiggle' +}; +const TouchAction = { + NONE: 'none' +}; +const fieldOfViewIntrinsics = () => { + return { + basis: [degreesToRadians(numberNode(DEFAULT_FOV_DEG, 'deg'))], + keywords: { auto: [null] } + }; +}; +const minFieldOfViewIntrinsics = () => { + return { + basis: [degreesToRadians(numberNode(DEFAULT_MIN_FOV_DEG, 'deg'))], + keywords: { auto: [null] } + }; +}; +const cameraOrbitIntrinsics = (() => { + const defaultTerms = parseExpressions(DEFAULT_CAMERA_ORBIT)[0] + .terms; + const theta = normalizeUnit(defaultTerms[0]); + const phi = normalizeUnit(defaultTerms[1]); + return (element) => { + const radius = element[$scene].idealCameraDistance(); + return { + basis: [theta, phi, numberNode(radius, 'm')], + keywords: { auto: [null, null, numberNode(105, '%')] } + }; + }; +})(); +const minCameraOrbitIntrinsics = (element) => { + const radius = MINIMUM_RADIUS_RATIO * element[$scene].boundingSphere.radius; + return { + basis: [ + numberNode(-Infinity, 'rad'), + numberNode(0, 'rad'), + numberNode(radius, 'm') + ], + keywords: { auto: [null, null, null] } + }; +}; +const maxCameraOrbitIntrinsics = (element) => { + const orbitIntrinsics = cameraOrbitIntrinsics(element); + const evaluator = new StyleEvaluator([], orbitIntrinsics); + const defaultRadius = evaluator.evaluate()[2]; + return { + basis: [ + numberNode(Infinity, 'rad'), + numberNode(Math.PI, 'rad'), + numberNode(defaultRadius, 'm') + ], + keywords: { auto: [null, null, null] } + }; +}; +const cameraTargetIntrinsics = (element) => { + const center = element[$scene].boundingBox.getCenter(new Vector3()); + return { + basis: [ + numberNode(center.x, 'm'), + numberNode(center.y, 'm'), + numberNode(center.z, 'm') + ], + keywords: { auto: [null, null, null] } + }; +}; +const HALF_PI = Math.PI / 2.0; +const THIRD_PI = Math.PI / 3.0; +const QUARTER_PI = HALF_PI / 2.0; +const TAU = 2.0 * Math.PI; +const $controls = Symbol('controls'); +const $panElement = Symbol('panElement'); +const $promptElement = Symbol('promptElement'); +const $promptAnimatedContainer = Symbol('promptAnimatedContainer'); +const $fingerAnimatedContainers = Symbol('fingerAnimatedContainers'); +const $deferInteractionPrompt = Symbol('deferInteractionPrompt'); +const $updateAria = Symbol('updateAria'); +const $a11y = Symbol('a11y'); +const $updateA11y = Symbol('updateA11y'); +const $updateCameraForRadius = Symbol('updateCameraForRadius'); +const $cancelPrompts = Symbol('cancelPrompts'); +const $onChange = Symbol('onChange'); +const $onPointerChange = Symbol('onPointerChange'); +const $waitingToPromptUser = Symbol('waitingToPromptUser'); +const $userHasInteracted = Symbol('userHasInteracted'); +const $promptElementVisibleTime = Symbol('promptElementVisibleTime'); +const $lastPromptOffset = Symbol('lastPromptOffset'); +const $cancellationSource = Symbol('cancellationSource'); +const $lastSpherical = Symbol('lastSpherical'); +const $jumpCamera = Symbol('jumpCamera'); +const $initialized = Symbol('initialized'); +const $maintainThetaPhi = Symbol('maintainThetaPhi'); +const $syncCameraOrbit = Symbol('syncCameraOrbit'); +const $syncFieldOfView = Symbol('syncFieldOfView'); +const $syncCameraTarget = Symbol('syncCameraTarget'); +const $syncMinCameraOrbit = Symbol('syncMinCameraOrbit'); +const $syncMaxCameraOrbit = Symbol('syncMaxCameraOrbit'); +const $syncMinFieldOfView = Symbol('syncMinFieldOfView'); +const $syncMaxFieldOfView = Symbol('syncMaxFieldOfView'); +const ControlsMixin = (ModelViewerElement) => { + var _a, _b, _c, _d, _e, _f, _g, _h, _j, _k, _l, _m, _o, _p, _q, _r, _s, _t; + class ControlsModelViewerElement extends ModelViewerElement { + constructor() { + super(...arguments); + this.cameraControls = false; + this.cameraOrbit = DEFAULT_CAMERA_ORBIT; + this.cameraTarget = DEFAULT_CAMERA_TARGET; + this.fieldOfView = DEFAULT_FIELD_OF_VIEW; + this.minCameraOrbit = 'auto'; + this.maxCameraOrbit = 'auto'; + this.minFieldOfView = 'auto'; + this.maxFieldOfView = 'auto'; + this.interactionPromptThreshold = DEFAULT_INTERACTION_PROMPT_THRESHOLD; + this.interactionPrompt = InteractionPromptStrategy.AUTO; + this.interactionPromptStyle = InteractionPromptStyle.WIGGLE; + this.orbitSensitivity = 1; + this.zoomSensitivity = 1; + this.panSensitivity = 1; + this.touchAction = TouchAction.NONE; + this.disableZoom = false; + this.disablePan = false; + this.disableTap = false; + this.interpolationDecay = DECAY_MILLISECONDS; + this.a11y = null; + this[_a] = this.shadowRoot.querySelector('.interaction-prompt'); + this[_b] = this.shadowRoot.querySelector('#prompt'); + this[_c] = [ + this.shadowRoot.querySelector('#finger0'), + this.shadowRoot.querySelector('#finger1') + ]; + this[_d] = this.shadowRoot.querySelector('.pan-target'); + this[_e] = 0; + this[_f] = Infinity; + this[_g] = false; + this[_h] = false; + this[_j] = ChangeSource.AUTOMATIC; + this[_k] = new SmoothControls(this[$scene].camera, this[$userInputElement], this[$scene]); + this[_l] = new Spherical(); + this[_m] = false; + this[_o] = false; + this[_p] = false; + this[_q] = {}; + this[_r] = () => { + const source = this[$controls].changeSource; + this[$cancellationSource] = source; + if (source === ChangeSource.USER_INTERACTION) { + this[$userHasInteracted] = true; + this[$deferInteractionPrompt](); + } + }; + this[_s] = () => { + this[$updateAria](); + this[$needsRender](); + const source = this[$controls].changeSource; + this.dispatchEvent(new CustomEvent('camera-change', { detail: { source } })); + }; + this[_t] = (event) => { + this[$container].classList.toggle('pointer-tumbling', event.type === 'pointer-change-start'); + }; + } + get inputSensitivity() { + return this[$controls].inputSensitivity; + } + set inputSensitivity(value) { + this[$controls].inputSensitivity = value; + } + getCameraOrbit() { + const { theta, phi, radius } = this[$lastSpherical]; + return { + theta, + phi, + radius, + toString() { + return `${this.theta}rad ${this.phi}rad ${this.radius}m`; + } + }; + } + getCameraTarget() { + return toVector3D(this[$renderer].isPresenting ? this[$renderer].arRenderer.target : + this[$scene].getDynamicTarget()); + } + getFieldOfView() { + return this[$controls].getFieldOfView(); + } + // Provided so user code does not have to parse these from attributes. + getMinimumFieldOfView() { + return this[$controls].options.minimumFieldOfView; + } + getMaximumFieldOfView() { + return this[$controls].options.maximumFieldOfView; + } + getIdealAspect() { + return this[$scene].idealAspect; + } + jumpCameraToGoal() { + this[$jumpCamera] = true; + this.requestUpdate($jumpCamera, false); + } + resetInteractionPrompt() { + this[$lastPromptOffset] = 0; + this[$promptElementVisibleTime] = Infinity; + this[$userHasInteracted] = false; + this[$waitingToPromptUser] = + this.interactionPrompt === InteractionPromptStrategy.AUTO && + this.cameraControls; + } + zoom(keyPresses) { + const event = new WheelEvent('wheel', { deltaY: -30 * keyPresses }); + this[$userInputElement].dispatchEvent(event); + } + connectedCallback() { + super.connectedCallback(); + this[$controls].addEventListener('user-interaction', this[$cancelPrompts]); + this[$controls].addEventListener('pointer-change-start', this[$onPointerChange]); + this[$controls].addEventListener('pointer-change-end', this[$onPointerChange]); + } + disconnectedCallback() { + super.disconnectedCallback(); + this[$controls].removeEventListener('user-interaction', this[$cancelPrompts]); + this[$controls].removeEventListener('pointer-change-start', this[$onPointerChange]); + this[$controls].removeEventListener('pointer-change-end', this[$onPointerChange]); + } + updated(changedProperties) { + super.updated(changedProperties); + const controls = this[$controls]; + const scene = this[$scene]; + if (changedProperties.has('cameraControls')) { + if (this.cameraControls) { + controls.enableInteraction(); + if (this.interactionPrompt === InteractionPromptStrategy.AUTO) { + this[$waitingToPromptUser] = true; + } + } + else { + controls.disableInteraction(); + this[$deferInteractionPrompt](); + } + this[$userInputElement].setAttribute('aria-label', this[$ariaLabel]); + } + if (changedProperties.has('disableZoom')) { + controls.disableZoom = this.disableZoom; + } + if (changedProperties.has('disablePan')) { + controls.enablePan = !this.disablePan; + } + if (changedProperties.has('disableTap')) { + controls.enableTap = !this.disableTap; + } + if (changedProperties.has('interactionPrompt') || + changedProperties.has('cameraControls') || + changedProperties.has('src')) { + if (this.interactionPrompt === InteractionPromptStrategy.AUTO && + this.cameraControls && !this[$userHasInteracted]) { + this[$waitingToPromptUser] = true; + } + else { + this[$deferInteractionPrompt](); + } + } + if (changedProperties.has('interactionPromptStyle')) { + this[$promptAnimatedContainer].style.opacity = + this.interactionPromptStyle == InteractionPromptStyle.BASIC ? '1' : + '0'; + } + if (changedProperties.has('touchAction')) { + const touchAction = this.touchAction; + controls.applyOptions({ touchAction }); + controls.updateTouchActionStyle(); + } + if (changedProperties.has('orbitSensitivity')) { + controls.orbitSensitivity = this.orbitSensitivity; + } + if (changedProperties.has('zoomSensitivity')) { + controls.zoomSensitivity = this.zoomSensitivity; + } + if (changedProperties.has('panSensitivity')) { + controls.panSensitivity = this.panSensitivity; + } + if (changedProperties.has('interpolationDecay')) { + controls.setDamperDecayTime(this.interpolationDecay); + scene.setTargetDamperDecayTime(this.interpolationDecay); + } + if (changedProperties.has('a11y')) { + this[$updateA11y](); + } + if (this[$jumpCamera] === true) { + Promise.resolve().then(() => { + controls.jumpToGoal(); + scene.jumpToGoal(); + this[$onChange](); + this[$jumpCamera] = false; + }); + } + } + async updateFraming() { + const scene = this[$scene]; + const oldFramedFoV = scene.adjustedFoV(scene.framedFoVDeg); + await scene.updateFraming(); + const newFramedFoV = scene.adjustedFoV(scene.framedFoVDeg); + const zoom = this[$controls].getFieldOfView() / oldFramedFoV; + this[$controls].setFieldOfView(newFramedFoV * zoom); + this[$maintainThetaPhi] = true; + this.requestUpdate('maxFieldOfView'); + this.requestUpdate('fieldOfView'); + this.requestUpdate('minCameraOrbit'); + this.requestUpdate('maxCameraOrbit'); + this.requestUpdate('cameraOrbit'); + await this.updateComplete; + } + interact(duration, finger0, finger1) { + const inputElement = this[$userInputElement]; + const fingerElements = this[$fingerAnimatedContainers]; + if (fingerElements[0].style.opacity === '1') { + console.warn('interact() failed because an existing interaction is running.'); + return; + } + const xy = new Array(); + xy.push({ x: timeline(finger0.x), y: timeline(finger0.y) }); + const positions = [{ x: xy[0].x(0), y: xy[0].y(0) }]; + if (finger1 != null) { + xy.push({ x: timeline(finger1.x), y: timeline(finger1.y) }); + positions.push({ x: xy[1].x(0), y: xy[1].y(0) }); + } + let startTime = performance.now(); + const { width, height } = this[$scene]; + const rect = this.getBoundingClientRect(); + const dispatchTouches = (type) => { + for (const [i, position] of positions.entries()) { + const { style } = fingerElements[i]; + style.transform = `translateX(${width * position.x}px) translateY(${height * position.y}px)`; + if (type === 'pointerdown') { + style.opacity = '1'; + } + else if (type === 'pointerup') { + style.opacity = '0'; + } + const init = { + pointerId: i - 5678, // help ensure uniqueness + pointerType: 'touch', + target: inputElement, + clientX: width * position.x + rect.x, + clientY: height * position.y + rect.y, + altKey: true // flag that this is not a user interaction + }; + inputElement.dispatchEvent(new PointerEvent(type, init)); + } + }; + const moveTouches = () => { + // Cancel interaction if something else moves the camera or input is + // removed from the DOM. + const changeSource = this[$cancellationSource]; + if (changeSource !== ChangeSource.AUTOMATIC || + !inputElement.isConnected) { + for (const fingerElement of this[$fingerAnimatedContainers]) { + fingerElement.style.opacity = '0'; + } + dispatchTouches('pointercancel'); + this.dispatchEvent(new CustomEvent('interact-stopped', { detail: { source: changeSource } })); + document.removeEventListener('visibilitychange', onVisibilityChange); + return; + } + const time = Math.min(1, (performance.now() - startTime) / duration); + for (const [i, position] of positions.entries()) { + position.x = xy[i].x(time); + position.y = xy[i].y(time); + } + dispatchTouches('pointermove'); + if (time < 1) { + requestAnimationFrame(moveTouches); + } + else { + dispatchTouches('pointerup'); + this.dispatchEvent(new CustomEvent('interact-stopped', { detail: { source: ChangeSource.AUTOMATIC } })); + document.removeEventListener('visibilitychange', onVisibilityChange); + } + }; + const onVisibilityChange = () => { + let elapsed = 0; + if (document.visibilityState === 'hidden') { + elapsed = performance.now() - startTime; + } + else { + startTime = performance.now() - elapsed; + } + }; + document.addEventListener('visibilitychange', onVisibilityChange); + dispatchTouches('pointerdown'); + this[$cancellationSource] = ChangeSource.AUTOMATIC; + requestAnimationFrame(moveTouches); + } + [(_a = $promptElement, _b = $promptAnimatedContainer, _c = $fingerAnimatedContainers, _d = $panElement, _e = $lastPromptOffset, _f = $promptElementVisibleTime, _g = $userHasInteracted, _h = $waitingToPromptUser, _j = $cancellationSource, _k = $controls, _l = $lastSpherical, _m = $jumpCamera, _o = $initialized, _p = $maintainThetaPhi, _q = $a11y, $syncFieldOfView)](style) { + const controls = this[$controls]; + const scene = this[$scene]; + scene.framedFoVDeg = style[0] * 180 / Math.PI; + controls.changeSource = ChangeSource.NONE; + controls.setFieldOfView(scene.adjustedFoV(scene.framedFoVDeg)); + this[$cancelPrompts](); + } + [$syncCameraOrbit](style) { + const controls = this[$controls]; + if (this[$maintainThetaPhi]) { + const { theta, phi } = this.getCameraOrbit(); + style[0] = theta; + style[1] = phi; + this[$maintainThetaPhi] = false; + } + controls.changeSource = ChangeSource.NONE; + controls.setOrbit(style[0], style[1], style[2]); + this[$cancelPrompts](); + } + [$syncMinCameraOrbit](style) { + this[$controls].applyOptions({ + minimumAzimuthalAngle: style[0], + minimumPolarAngle: style[1], + minimumRadius: style[2] + }); + this.jumpCameraToGoal(); + } + [$syncMaxCameraOrbit](style) { + this[$controls].applyOptions({ + maximumAzimuthalAngle: style[0], + maximumPolarAngle: style[1], + maximumRadius: style[2] + }); + this[$updateCameraForRadius](style[2]); + this.jumpCameraToGoal(); + } + [$syncMinFieldOfView](style) { + this[$controls].applyOptions({ minimumFieldOfView: style[0] * 180 / Math.PI }); + this.jumpCameraToGoal(); + } + [$syncMaxFieldOfView](style) { + const fov = this[$scene].adjustedFoV(style[0] * 180 / Math.PI); + this[$controls].applyOptions({ maximumFieldOfView: fov }); + this.jumpCameraToGoal(); + } + [$syncCameraTarget](style) { + const [x, y, z] = style; + if (!this[$renderer].arRenderer.isPresenting) { + this[$scene].setTarget(x, y, z); + } + this[$controls].changeSource = ChangeSource.NONE; + this[$renderer].arRenderer.updateTarget(); + this[$cancelPrompts](); + } + [$tick](time, delta) { + super[$tick](time, delta); + if (this[$renderer].isPresenting || !this[$getModelIsVisible]()) { + return; + } + const controls = this[$controls]; + const scene = this[$scene]; + const now = performance.now(); + if (this[$waitingToPromptUser]) { + if (this.loaded && + now > this[$loadedTime] + this.interactionPromptThreshold) { + this[$waitingToPromptUser] = false; + this[$promptElementVisibleTime] = now; + this[$promptElement].classList.add('visible'); + } + } + if (isFinite(this[$promptElementVisibleTime]) && + this.interactionPromptStyle === InteractionPromptStyle.WIGGLE) { + const animationTime = ((now - this[$promptElementVisibleTime]) / PROMPT_ANIMATION_TIME) % + 1; + const offset = wiggle(animationTime); + const opacity = fade(animationTime); + this[$promptAnimatedContainer].style.opacity = `${opacity}`; + if (offset !== this[$lastPromptOffset]) { + const xOffset = offset * scene.width * 0.05; + const deltaTheta = (offset - this[$lastPromptOffset]) * Math.PI / 16; + this[$promptAnimatedContainer].style.transform = + `translateX(${xOffset}px)`; + controls.changeSource = ChangeSource.AUTOMATIC; + controls.adjustOrbit(deltaTheta, 0, 0); + this[$lastPromptOffset] = offset; + } + } + const cameraMoved = controls.update(time, delta); + const targetMoved = scene.updateTarget(delta); + if (cameraMoved || targetMoved) { + this[$onChange](); + } + } + [$deferInteractionPrompt]() { + // Effectively cancel the timer waiting for user interaction: + this[$waitingToPromptUser] = false; + this[$promptElement].classList.remove('visible'); + this[$promptElementVisibleTime] = Infinity; + } + /** + * Updates the camera's near and far planes to enclose the scene when + * orbiting at the supplied radius. + */ + [$updateCameraForRadius](radius) { + const maximumRadius = Math.max(this[$scene].farRadius(), radius); + const near = 0; + const far = Math.abs(2 * maximumRadius); + this[$controls].updateNearFar(near, far); + } + [$updateAria]() { + const { theta, phi } = this[$controls].getCameraSpherical(this[$lastSpherical]); + const azimuthalQuadrant = (4 + Math.floor(((theta % TAU) + QUARTER_PI) / HALF_PI)) % 4; + const polarTrient = Math.floor(phi / THIRD_PI); + const azimuthalQuadrantLabel = AZIMUTHAL_QUADRANT_LABELS[azimuthalQuadrant]; + const polarTrientLabel = POLAR_TRIENT_LABELS[polarTrient]; + const position = `${polarTrientLabel}${azimuthalQuadrantLabel}`; + const key = position; + if (key in this[$a11y]) { + this[$updateStatus](this[$a11y][key]); + } + else { + this[$updateStatus](`View from stage ${position}`); + } + } + get [$ariaLabel]() { + let interactionPrompt = INTERACTION_PROMPT; + if ('interaction-prompt' in this[$a11y]) { + interactionPrompt = `. ${this[$a11y]['interaction-prompt']}`; + } + return super[$ariaLabel].replace(/\.$/, '') + + (this.cameraControls ? interactionPrompt : ''); + } + async [$onResize](event) { + const controls = this[$controls]; + const scene = this[$scene]; + const oldFramedFoV = scene.adjustedFoV(scene.framedFoVDeg); + // The super of $onResize may update the scene's adjustedFoV, so we + // compare the before and after to calculate the proper zoom. + super[$onResize](event); + const fovRatio = scene.adjustedFoV(scene.framedFoVDeg) / oldFramedFoV; + const fov = controls.getFieldOfView() * (isFinite(fovRatio) ? fovRatio : 1); + controls.updateAspect(this[$scene].aspect); + this.requestUpdate('maxFieldOfView', this.maxFieldOfView); + await this.updateComplete; + this[$controls].setFieldOfView(fov); + this.jumpCameraToGoal(); + } + [$onModelLoad]() { + super[$onModelLoad](); + if (this[$initialized]) { + this[$maintainThetaPhi] = true; + } + else { + this[$initialized] = true; + } + this.requestUpdate('maxFieldOfView', this.maxFieldOfView); + this.requestUpdate('fieldOfView', this.fieldOfView); + this.requestUpdate('minCameraOrbit', this.minCameraOrbit); + this.requestUpdate('maxCameraOrbit', this.maxCameraOrbit); + this.requestUpdate('cameraOrbit', this.cameraOrbit); + this.requestUpdate('cameraTarget', this.cameraTarget); + this.jumpCameraToGoal(); + } + [(_r = $cancelPrompts, _s = $onChange, _t = $onPointerChange, $updateA11y)]() { + if (typeof this.a11y === 'string') { + if (this.a11y.startsWith('{')) { + try { + this[$a11y] = JSON.parse(this.a11y); + } + catch (error) { + console.warn('Error parsing a11y JSON:', error); + } + } + else if (this.a11y.length > 0) { + console.warn('Error not supported format, should be a JSON string:', this.a11y); + } + else { + this[$a11y] = {}; + } + } + else if (typeof this.a11y === 'object' && this.a11y != null) { + this[$a11y] = Object.assign({}, this.a11y); + } + else { + this[$a11y] = {}; + } + this[$userInputElement].setAttribute('aria-label', this[$ariaLabel]); + } + } + __decorate$6([ + property({ type: Boolean, attribute: 'camera-controls' }) + ], ControlsModelViewerElement.prototype, "cameraControls", void 0); + __decorate$6([ + style({ + intrinsics: cameraOrbitIntrinsics, + observeEffects: true, + updateHandler: $syncCameraOrbit + }), + property({ type: String, attribute: 'camera-orbit', hasChanged: () => true }) + ], ControlsModelViewerElement.prototype, "cameraOrbit", void 0); + __decorate$6([ + style({ + intrinsics: cameraTargetIntrinsics, + observeEffects: true, + updateHandler: $syncCameraTarget + }), + property({ type: String, attribute: 'camera-target', hasChanged: () => true }) + ], ControlsModelViewerElement.prototype, "cameraTarget", void 0); + __decorate$6([ + style({ + intrinsics: fieldOfViewIntrinsics, + observeEffects: true, + updateHandler: $syncFieldOfView + }), + property({ type: String, attribute: 'field-of-view', hasChanged: () => true }) + ], ControlsModelViewerElement.prototype, "fieldOfView", void 0); + __decorate$6([ + style({ + intrinsics: minCameraOrbitIntrinsics, + updateHandler: $syncMinCameraOrbit + }), + property({ type: String, attribute: 'min-camera-orbit', hasChanged: () => true }) + ], ControlsModelViewerElement.prototype, "minCameraOrbit", void 0); + __decorate$6([ + style({ + intrinsics: maxCameraOrbitIntrinsics, + updateHandler: $syncMaxCameraOrbit + }), + property({ type: String, attribute: 'max-camera-orbit', hasChanged: () => true }) + ], ControlsModelViewerElement.prototype, "maxCameraOrbit", void 0); + __decorate$6([ + style({ + intrinsics: minFieldOfViewIntrinsics, + updateHandler: $syncMinFieldOfView + }), + property({ type: String, attribute: 'min-field-of-view', hasChanged: () => true }) + ], ControlsModelViewerElement.prototype, "minFieldOfView", void 0); + __decorate$6([ + style({ intrinsics: fieldOfViewIntrinsics, updateHandler: $syncMaxFieldOfView }), + property({ type: String, attribute: 'max-field-of-view', hasChanged: () => true }) + ], ControlsModelViewerElement.prototype, "maxFieldOfView", void 0); + __decorate$6([ + property({ type: Number, attribute: 'interaction-prompt-threshold' }) + ], ControlsModelViewerElement.prototype, "interactionPromptThreshold", void 0); + __decorate$6([ + property({ type: String, attribute: 'interaction-prompt' }) + ], ControlsModelViewerElement.prototype, "interactionPrompt", void 0); + __decorate$6([ + property({ type: String, attribute: 'interaction-prompt-style' }) + ], ControlsModelViewerElement.prototype, "interactionPromptStyle", void 0); + __decorate$6([ + property({ type: Number, attribute: 'orbit-sensitivity' }) + ], ControlsModelViewerElement.prototype, "orbitSensitivity", void 0); + __decorate$6([ + property({ type: Number, attribute: 'zoom-sensitivity' }) + ], ControlsModelViewerElement.prototype, "zoomSensitivity", void 0); + __decorate$6([ + property({ type: Number, attribute: 'pan-sensitivity' }) + ], ControlsModelViewerElement.prototype, "panSensitivity", void 0); + __decorate$6([ + property({ type: String, attribute: 'touch-action' }) + ], ControlsModelViewerElement.prototype, "touchAction", void 0); + __decorate$6([ + property({ type: Boolean, attribute: 'disable-zoom' }) + ], ControlsModelViewerElement.prototype, "disableZoom", void 0); + __decorate$6([ + property({ type: Boolean, attribute: 'disable-pan' }) + ], ControlsModelViewerElement.prototype, "disablePan", void 0); + __decorate$6([ + property({ type: Boolean, attribute: 'disable-tap' }) + ], ControlsModelViewerElement.prototype, "disableTap", void 0); + __decorate$6([ + property({ type: Number, attribute: 'interpolation-decay' }) + ], ControlsModelViewerElement.prototype, "interpolationDecay", void 0); + __decorate$6([ + property() + ], ControlsModelViewerElement.prototype, "a11y", void 0); + return ControlsModelViewerElement; +}; + +/* @license + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const PAN_SENSITIVITY = 0.018; +const TAP_DISTANCE = 2; +const TAP_MS = 300; +const vector2 = new Vector2(); +const vector3$2 = new Vector3(); +const DEFAULT_OPTIONS = Object.freeze({ + minimumRadius: 0, + maximumRadius: Infinity, + minimumPolarAngle: 0, + maximumPolarAngle: Math.PI, + minimumAzimuthalAngle: -Infinity, + maximumAzimuthalAngle: Infinity, + minimumFieldOfView: 10, + maximumFieldOfView: 45, + touchAction: 'none' +}); +// Constants +const KEYBOARD_ORBIT_INCREMENT = Math.PI / 8; +const ZOOM_SENSITIVITY = 0.04; +// The move size on pan key event +const PAN_KEY_INCREMENT = 10; +const ChangeSource = { + USER_INTERACTION: 'user-interaction', + NONE: 'none', + AUTOMATIC: 'automatic' +}; +/** + * SmoothControls is a Three.js helper for adding delightful pointer and + * keyboard-based input to a staged Three.js scene. Its API is very similar to + * OrbitControls, but it offers more opinionated (subjectively more delightful) + * defaults, easy extensibility and subjectively better out-of-the-box keyboard + * support. + * + * One important change compared to OrbitControls is that the `update` method + * of SmoothControls must be invoked on every frame, otherwise the controls + * will not have an effect. + * + * Another notable difference compared to OrbitControls is that SmoothControls + * does not currently support panning (but probably will in a future revision). + * + * Like OrbitControls, SmoothControls assumes that the orientation of the camera + * has been set in terms of position, rotation and scale, so it is important to + * ensure that the camera's matrixWorld is in sync before using SmoothControls. + */ +class SmoothControls extends EventDispatcher { + constructor(camera, element, scene) { + super(); + this.camera = camera; + this.element = element; + this.scene = scene; + this.orbitSensitivity = 1; + this.zoomSensitivity = 1; + this.panSensitivity = 1; + this.inputSensitivity = 1; + this.changeSource = ChangeSource.NONE; + this._interactionEnabled = false; + this._disableZoom = false; + this.isUserPointing = false; + // Pan state + this.enablePan = true; + this.enableTap = true; + this.panProjection = new Matrix3(); + this.panPerPixel = 0; + // Internal orbital position state + this.spherical = new Spherical(); + this.goalSpherical = new Spherical(); + this.thetaDamper = new Damper(); + this.phiDamper = new Damper(); + this.radiusDamper = new Damper(); + this.logFov = Math.log(DEFAULT_OPTIONS.maximumFieldOfView); + this.goalLogFov = this.logFov; + this.fovDamper = new Damper(); + // Pointer state + this.touchMode = null; + this.pointers = []; + this.startTime = 0; + this.startPointerPosition = { clientX: 0, clientY: 0 }; + this.lastSeparation = 0; + this.touchDecided = false; + this.onContext = (event) => { + if (this.enablePan) { + event.preventDefault(); + } + else { + for (const pointer of this.pointers) { + // Required because of a common browser bug where the context menu never + // fires a pointercancel event. + this.onPointerUp(new PointerEvent('pointercancel', Object.assign(Object.assign({}, this.startPointerPosition), { pointerId: pointer.id }))); + } + } + }; + this.touchModeZoom = (dx, dy) => { + if (!this._disableZoom) { + const touchDistance = this.twoTouchDistance(this.pointers[0], this.pointers[1]); + const deltaZoom = ZOOM_SENSITIVITY * this.zoomSensitivity * + (this.lastSeparation - touchDistance) * 50 / this.scene.height; + this.lastSeparation = touchDistance; + this.userAdjustOrbit(0, 0, deltaZoom); + } + if (this.panPerPixel > 0) { + this.movePan(dx, dy); + } + }; + // We implement our own version of the browser's CSS touch-action, enforced by + // this function, because the iOS implementation of pan-y is bad and doesn't + // match Android. Specifically, even if a touch gesture begins by panning X, + // iOS will switch to scrolling as soon as the gesture moves in the Y, rather + // than staying in the same mode until the end of the gesture. + this.disableScroll = (event) => { + event.preventDefault(); + }; + this.touchModeRotate = (dx, dy) => { + const { touchAction } = this._options; + if (!this.touchDecided && touchAction !== 'none') { + this.touchDecided = true; + const dxMag = Math.abs(dx); + const dyMag = Math.abs(dy); + // If motion is mostly vertical, assume scrolling is the intent. + if (this.changeSource === ChangeSource.USER_INTERACTION && + ((touchAction === 'pan-y' && dyMag > dxMag) || + (touchAction === 'pan-x' && dxMag > dyMag))) { + this.touchMode = null; + return; + } + else { + this.element.addEventListener('touchmove', this.disableScroll, { passive: false }); + } + } + this.handleSinglePointerMove(dx, dy); + }; + this.onPointerDown = (event) => { + if (this.pointers.length > 2) { + return; + } + const { element } = this; + if (this.pointers.length === 0) { + element.addEventListener('pointermove', this.onPointerMove); + element.addEventListener('pointerup', this.onPointerUp); + this.touchMode = null; + this.touchDecided = false; + this.startPointerPosition.clientX = event.clientX; + this.startPointerPosition.clientY = event.clientY; + this.startTime = performance.now(); + } + try { + element.setPointerCapture(event.pointerId); + } + catch (_a) { + } + this.pointers.push({ clientX: event.clientX, clientY: event.clientY, id: event.pointerId }); + this.isUserPointing = false; + if (event.pointerType === 'touch') { + this.changeSource = event.altKey ? // set by interact() in controls.ts + ChangeSource.AUTOMATIC : + ChangeSource.USER_INTERACTION; + this.onTouchChange(event); + } + else { + this.changeSource = ChangeSource.USER_INTERACTION; + this.onMouseDown(event); + } + if (this.changeSource === ChangeSource.USER_INTERACTION) { + this.dispatchEvent({ type: 'user-interaction' }); + } + }; + this.onPointerMove = (event) => { + const pointer = this.pointers.find((pointer) => pointer.id === event.pointerId); + if (pointer == null) { + return; + } + // In case no one gave us a pointerup or pointercancel event. + if (event.pointerType === 'mouse' && event.buttons === 0) { + this.onPointerUp(event); + return; + } + const numTouches = this.pointers.length; + const dx = (event.clientX - pointer.clientX) / numTouches; + const dy = (event.clientY - pointer.clientY) / numTouches; + if (dx === 0 && dy === 0) { + return; + } + pointer.clientX = event.clientX; + pointer.clientY = event.clientY; + if (event.pointerType === 'touch') { + this.changeSource = event.altKey ? // set by interact() in controls.ts + ChangeSource.AUTOMATIC : + ChangeSource.USER_INTERACTION; + if (this.touchMode !== null) { + this.touchMode(dx, dy); + } + } + else { + this.changeSource = ChangeSource.USER_INTERACTION; + if (this.panPerPixel > 0) { + this.movePan(dx, dy); + } + else { + this.handleSinglePointerMove(dx, dy); + } + } + }; + this.onPointerUp = (event) => { + const { element } = this; + const index = this.pointers.findIndex((pointer) => pointer.id === event.pointerId); + if (index !== -1) { + this.pointers.splice(index, 1); + } + // altKey indicates an interaction prompt; don't reset radius in this case + // as it will cause the camera to drift. + if (this.panPerPixel > 0 && !event.altKey) { + this.resetRadius(); + } + if (this.pointers.length === 0) { + element.removeEventListener('pointermove', this.onPointerMove); + element.removeEventListener('pointerup', this.onPointerUp); + element.removeEventListener('touchmove', this.disableScroll); + if (this.enablePan && this.enableTap) { + this.recenter(event); + } + } + else if (this.touchMode !== null) { + this.onTouchChange(event); + } + this.scene.element[$panElement].style.opacity = 0; + element.style.cursor = 'grab'; + this.panPerPixel = 0; + if (this.isUserPointing) { + this.dispatchEvent({ type: 'pointer-change-end' }); + } + }; + this.onWheel = (event) => { + this.changeSource = ChangeSource.USER_INTERACTION; + const deltaZoom = event.deltaY * + (event.deltaMode == 1 ? 18 : 1) * ZOOM_SENSITIVITY * + this.zoomSensitivity / 30; + this.userAdjustOrbit(0, 0, deltaZoom); + event.preventDefault(); + this.dispatchEvent({ type: 'user-interaction' }); + }; + this.onKeyDown = (event) => { + // We track if the key is actually one we respond to, so as not to + // accidentally clobber unrelated key inputs when the has + // focus. + const { changeSource } = this; + this.changeSource = ChangeSource.USER_INTERACTION; + const relevantKey = (event.shiftKey && this.enablePan) ? + this.panKeyCodeHandler(event) : + this.orbitZoomKeyCodeHandler(event); + if (relevantKey) { + event.preventDefault(); + this.dispatchEvent({ type: 'user-interaction' }); + } + else { + this.changeSource = changeSource; + } + }; + this._options = Object.assign({}, DEFAULT_OPTIONS); + this.setOrbit(0, Math.PI / 2, 1); + this.setFieldOfView(100); + this.jumpToGoal(); + } + get interactionEnabled() { + return this._interactionEnabled; + } + enableInteraction() { + if (this._interactionEnabled === false) { + const { element } = this; + element.addEventListener('pointerdown', this.onPointerDown); + element.addEventListener('pointercancel', this.onPointerUp); + if (!this._disableZoom) { + element.addEventListener('wheel', this.onWheel); + } + element.addEventListener('keydown', this.onKeyDown); + // This little beauty is to work around a WebKit bug that otherwise makes + // touch events randomly not cancelable. + element.addEventListener('touchmove', () => { }, { passive: false }); + element.addEventListener('contextmenu', this.onContext); + this.element.style.cursor = 'grab'; + this._interactionEnabled = true; + this.updateTouchActionStyle(); + } + } + disableInteraction() { + if (this._interactionEnabled === true) { + const { element } = this; + element.removeEventListener('pointerdown', this.onPointerDown); + element.removeEventListener('pointermove', this.onPointerMove); + element.removeEventListener('pointerup', this.onPointerUp); + element.removeEventListener('pointercancel', this.onPointerUp); + element.removeEventListener('wheel', this.onWheel); + element.removeEventListener('keydown', this.onKeyDown); + element.removeEventListener('contextmenu', this.onContext); + element.style.cursor = ''; + this.touchMode = null; + this._interactionEnabled = false; + this.updateTouchActionStyle(); + } + } + /** + * The options that are currently configured for the controls instance. + */ + get options() { + return this._options; + } + set disableZoom(disable) { + if (this._disableZoom != disable) { + this._disableZoom = disable; + if (disable === true) { + this.element.removeEventListener('wheel', this.onWheel); + } + else { + this.element.addEventListener('wheel', this.onWheel); + } + this.updateTouchActionStyle(); + } + } + /** + * Copy the spherical values that represent the current camera orbital + * position relative to the configured target into a provided Spherical + * instance. If no Spherical is provided, a new Spherical will be allocated + * to copy the values into. The Spherical that values are copied into is + * returned. + */ + getCameraSpherical(target = new Spherical()) { + return target.copy(this.spherical); + } + /** + * Returns the camera's current vertical field of view in degrees. + */ + getFieldOfView() { + return this.camera.fov; + } + /** + * Configure the _options of the controls. Configured _options will be + * merged with whatever _options have already been configured for this + * controls instance. + */ + applyOptions(_options) { + Object.assign(this._options, _options); + // Re-evaluates clamping based on potentially new values for min/max + // polar, azimuth and radius: + this.setOrbit(); + this.setFieldOfView(Math.exp(this.goalLogFov)); + } + /** + * Sets the near and far planes of the camera. + */ + updateNearFar(nearPlane, farPlane) { + this.camera.far = farPlane === 0 ? 2 : farPlane; + this.camera.near = Math.max(nearPlane, this.camera.far / 1000); + this.camera.updateProjectionMatrix(); + } + /** + * Sets the aspect ratio of the camera + */ + updateAspect(aspect) { + this.camera.aspect = aspect; + this.camera.updateProjectionMatrix(); + } + /** + * Set the absolute orbital goal of the camera. The change will be + * applied over a number of frames depending on configured acceleration and + * dampening _options. + * + * Returns true if invoking the method will result in the camera changing + * position and/or rotation, otherwise false. + */ + setOrbit(goalTheta = this.goalSpherical.theta, goalPhi = this.goalSpherical.phi, goalRadius = this.goalSpherical.radius) { + const { minimumAzimuthalAngle, maximumAzimuthalAngle, minimumPolarAngle, maximumPolarAngle, minimumRadius, maximumRadius } = this._options; + const { theta, phi, radius } = this.goalSpherical; + const nextTheta = clamp(goalTheta, minimumAzimuthalAngle, maximumAzimuthalAngle); + if (!isFinite(minimumAzimuthalAngle) && + !isFinite(maximumAzimuthalAngle)) { + this.spherical.theta = + this.wrapAngle(this.spherical.theta - nextTheta) + nextTheta; + } + const nextPhi = clamp(goalPhi, minimumPolarAngle, maximumPolarAngle); + const nextRadius = clamp(goalRadius, minimumRadius, maximumRadius); + if (nextTheta === theta && nextPhi === phi && nextRadius === radius) { + return false; + } + if (!isFinite(nextTheta) || !isFinite(nextPhi) || !isFinite(nextRadius)) { + return false; + } + this.goalSpherical.theta = nextTheta; + this.goalSpherical.phi = nextPhi; + this.goalSpherical.radius = nextRadius; + this.goalSpherical.makeSafe(); + return true; + } + /** + * Subset of setOrbit() above, which only sets the camera's radius. + */ + setRadius(radius) { + this.goalSpherical.radius = radius; + this.setOrbit(); + } + /** + * Sets the goal field of view for the camera + */ + setFieldOfView(fov) { + const { minimumFieldOfView, maximumFieldOfView } = this._options; + fov = clamp(fov, minimumFieldOfView, maximumFieldOfView); + this.goalLogFov = Math.log(fov); + } + /** + * Sets the smoothing decay time. + */ + setDamperDecayTime(decayMilliseconds) { + this.thetaDamper.setDecayTime(decayMilliseconds); + this.phiDamper.setDecayTime(decayMilliseconds); + this.radiusDamper.setDecayTime(decayMilliseconds); + this.fovDamper.setDecayTime(decayMilliseconds); + } + /** + * Adjust the orbital position of the camera relative to its current orbital + * position. Does not let the theta goal get more than pi ahead of the current + * theta, which ensures interpolation continues in the direction of the delta. + * The deltaZoom parameter adjusts both the field of view and the orbit radius + * such that they progress across their allowed ranges in sync. + */ + adjustOrbit(deltaTheta, deltaPhi, deltaZoom) { + const { theta, phi, radius } = this.goalSpherical; + const { minimumRadius, maximumRadius, minimumFieldOfView, maximumFieldOfView } = this._options; + const dTheta = this.spherical.theta - theta; + const dThetaLimit = Math.PI - 0.001; + const goalTheta = theta - clamp(deltaTheta, -dThetaLimit - dTheta, dThetaLimit - dTheta); + const goalPhi = phi - deltaPhi; + const deltaRatio = deltaZoom === 0 ? + 0 : + ((deltaZoom > 0 ? maximumRadius : minimumRadius) - radius) / + (Math.log(deltaZoom > 0 ? maximumFieldOfView : minimumFieldOfView) - + this.goalLogFov); + const goalRadius = radius + + deltaZoom * + (isFinite(deltaRatio) ? deltaRatio : + (maximumRadius - minimumRadius) * 2); + this.setOrbit(goalTheta, goalPhi, goalRadius); + if (deltaZoom !== 0) { + const goalLogFov = this.goalLogFov + deltaZoom; + this.setFieldOfView(Math.exp(goalLogFov)); + } + } + /** + * Move the camera instantly instead of accelerating toward the goal + * parameters. + */ + jumpToGoal() { + this.update(0, SETTLING_TIME); + } + /** + * Update controls. In most cases, this will result in the camera + * interpolating its position and rotation until it lines up with the + * designated goal orbital position. Returns false if the camera did not move. + * + * Time and delta are measured in milliseconds. + */ + update(_time, delta) { + if (this.isStationary()) { + return false; + } + const { maximumPolarAngle, maximumRadius } = this._options; + const dTheta = this.spherical.theta - this.goalSpherical.theta; + if (Math.abs(dTheta) > Math.PI && + !isFinite(this._options.minimumAzimuthalAngle) && + !isFinite(this._options.maximumAzimuthalAngle)) { + this.spherical.theta -= Math.sign(dTheta) * 2 * Math.PI; + } + this.spherical.theta = this.thetaDamper.update(this.spherical.theta, this.goalSpherical.theta, delta, Math.PI); + this.spherical.phi = this.phiDamper.update(this.spherical.phi, this.goalSpherical.phi, delta, maximumPolarAngle); + this.spherical.radius = this.radiusDamper.update(this.spherical.radius, this.goalSpherical.radius, delta, maximumRadius); + this.logFov = this.fovDamper.update(this.logFov, this.goalLogFov, delta, 1); + this.moveCamera(); + return true; + } + updateTouchActionStyle() { + const { style } = this.element; + if (this._interactionEnabled) { + const { touchAction } = this._options; + if (this._disableZoom && touchAction !== 'none') { + style.touchAction = 'manipulation'; + } + else { + style.touchAction = touchAction; + } + } + else { + style.touchAction = ''; + } + } + isStationary() { + return this.goalSpherical.theta === this.spherical.theta && + this.goalSpherical.phi === this.spherical.phi && + this.goalSpherical.radius === this.spherical.radius && + this.goalLogFov === this.logFov; + } + moveCamera() { + // Derive the new camera position from the updated spherical: + this.spherical.makeSafe(); + this.camera.position.setFromSpherical(this.spherical); + this.camera.setRotationFromEuler(new Euler(this.spherical.phi - Math.PI / 2, this.spherical.theta, 0, 'YXZ')); + if (this.camera.fov !== Math.exp(this.logFov)) { + this.camera.fov = Math.exp(this.logFov); + this.camera.updateProjectionMatrix(); + } + } + userAdjustOrbit(deltaTheta, deltaPhi, deltaZoom) { + this.adjustOrbit(deltaTheta * this.orbitSensitivity * this.inputSensitivity, deltaPhi * this.orbitSensitivity * this.inputSensitivity, deltaZoom * this.inputSensitivity); + } + // Wraps to between -pi and pi + wrapAngle(radians) { + const normalized = (radians + Math.PI) / (2 * Math.PI); + const wrapped = normalized - Math.floor(normalized); + return wrapped * 2 * Math.PI - Math.PI; + } + pixelLengthToSphericalAngle(pixelLength) { + return 2 * Math.PI * pixelLength / this.scene.height; + } + twoTouchDistance(touchOne, touchTwo) { + const { clientX: xOne, clientY: yOne } = touchOne; + const { clientX: xTwo, clientY: yTwo } = touchTwo; + const xDelta = xTwo - xOne; + const yDelta = yTwo - yOne; + return Math.sqrt(xDelta * xDelta + yDelta * yDelta); + } + handleSinglePointerMove(dx, dy) { + const deltaTheta = this.pixelLengthToSphericalAngle(dx); + const deltaPhi = this.pixelLengthToSphericalAngle(dy); + if (this.isUserPointing === false) { + this.isUserPointing = true; + this.dispatchEvent({ type: 'pointer-change-start' }); + } + this.userAdjustOrbit(deltaTheta, deltaPhi, 0); + } + initializePan() { + const { theta, phi } = this.spherical; + const psi = theta - this.scene.yaw; + this.panPerPixel = + PAN_SENSITIVITY * this.panSensitivity / this.scene.height; + this.panProjection.set(-Math.cos(psi), -Math.cos(phi) * Math.sin(psi), 0, 0, Math.sin(phi), 0, Math.sin(psi), -Math.cos(phi) * Math.cos(psi), 0); + } + movePan(dx, dy) { + const { scene } = this; + const dxy = vector3$2.set(dx, dy, 0).multiplyScalar(this.inputSensitivity); + const metersPerPixel = this.spherical.radius * Math.exp(this.logFov) * this.panPerPixel; + dxy.multiplyScalar(metersPerPixel); + const target = scene.getTarget(); + target.add(dxy.applyMatrix3(this.panProjection)); + scene.boundingSphere.clampPoint(target, target); + scene.setTarget(target.x, target.y, target.z); + } + recenter(pointer) { + if (performance.now() > this.startTime + TAP_MS || + Math.abs(pointer.clientX - this.startPointerPosition.clientX) > + TAP_DISTANCE || + Math.abs(pointer.clientY - this.startPointerPosition.clientY) > + TAP_DISTANCE) { + return; + } + const { scene } = this; + const hit = scene.positionAndNormalFromPoint(scene.getNDC(pointer.clientX, pointer.clientY)); + if (hit == null) { + const { cameraTarget } = scene.element; + scene.element.cameraTarget = ''; + scene.element.cameraTarget = cameraTarget; + // Zoom all the way out. + this.userAdjustOrbit(0, 0, 1); + } + else { + scene.target.worldToLocal(hit.position); + scene.setTarget(hit.position.x, hit.position.y, hit.position.z); + } + } + resetRadius() { + const { scene } = this; + const hit = scene.positionAndNormalFromPoint(vector2.set(0, 0)); + if (hit == null) { + return; + } + scene.target.worldToLocal(hit.position); + const goalTarget = scene.getTarget(); + const { theta, phi } = this.spherical; + // Set target to surface hit point, except the target is still settling, + // so offset the goal accordingly so the transition is smooth even though + // this will drift the target slightly away from the hit point. + const psi = theta - scene.yaw; + const n = vector3$2.set(Math.sin(phi) * Math.sin(psi), Math.cos(phi), Math.sin(phi) * Math.cos(psi)); + const dr = n.dot(hit.position.sub(goalTarget)); + goalTarget.add(n.multiplyScalar(dr)); + scene.setTarget(goalTarget.x, goalTarget.y, goalTarget.z); + // Change the camera radius to match the change in target so that the + // camera itself does not move, unless it hits a radius bound. + this.setOrbit(undefined, undefined, this.goalSpherical.radius - dr); + } + onTouchChange(event) { + if (this.pointers.length === 1) { + this.touchMode = this.touchModeRotate; + } + else { + if (this._disableZoom) { + this.touchMode = null; + this.element.removeEventListener('touchmove', this.disableScroll); + return; + } + this.touchMode = (this.touchDecided && this.touchMode === null) ? + null : + this.touchModeZoom; + this.touchDecided = true; + this.element.addEventListener('touchmove', this.disableScroll, { passive: false }); + this.lastSeparation = + this.twoTouchDistance(this.pointers[0], this.pointers[1]); + if (this.enablePan && this.touchMode != null) { + this.initializePan(); + if (!event.altKey) { // user interaction, not prompt + this.scene.element[$panElement].style.opacity = 1; + } + } + } + } + onMouseDown(event) { + this.panPerPixel = 0; + if (this.enablePan && + (event.button === 2 || event.ctrlKey || event.metaKey || + event.shiftKey)) { + this.initializePan(); + this.scene.element[$panElement].style.opacity = 1; + } + this.element.style.cursor = 'grabbing'; + } + /** + * Handles the orbit and Zoom key presses + * Uses constants for the increment. + * @param event The keyboard event for the .key value + * @returns boolean to indicate if the key event has been handled + */ + orbitZoomKeyCodeHandler(event) { + let relevantKey = true; + switch (event.key) { + case 'PageUp': + this.userAdjustOrbit(0, 0, ZOOM_SENSITIVITY * this.zoomSensitivity); + break; + case 'PageDown': + this.userAdjustOrbit(0, 0, -1 * ZOOM_SENSITIVITY * this.zoomSensitivity); + break; + case 'ArrowUp': + this.userAdjustOrbit(0, -KEYBOARD_ORBIT_INCREMENT, 0); + break; + case 'ArrowDown': + this.userAdjustOrbit(0, KEYBOARD_ORBIT_INCREMENT, 0); + break; + case 'ArrowLeft': + this.userAdjustOrbit(-KEYBOARD_ORBIT_INCREMENT, 0, 0); + break; + case 'ArrowRight': + this.userAdjustOrbit(KEYBOARD_ORBIT_INCREMENT, 0, 0); + break; + default: + relevantKey = false; + break; + } + return relevantKey; + } + /** + * Handles the Pan key presses + * Uses constants for the increment. + * @param event The keyboard event for the .key value + * @returns boolean to indicate if the key event has been handled + */ + panKeyCodeHandler(event) { + this.initializePan(); + let relevantKey = true; + switch (event.key) { + case 'ArrowUp': + this.movePan(0, -1 * PAN_KEY_INCREMENT); // This is the negative one so that the + // model appears to move as the arrow + // direction rather than the view moving + break; + case 'ArrowDown': + this.movePan(0, PAN_KEY_INCREMENT); + break; + case 'ArrowLeft': + this.movePan(-1 * PAN_KEY_INCREMENT, 0); + break; + case 'ArrowRight': + this.movePan(PAN_KEY_INCREMENT, 0); + break; + default: + relevantKey = false; + break; + } + return relevantKey; + } +} + +// SVG strings for the icons are defined here to avoid io and better performance for xr. +const CLOSE_ICON_SVG = ` + +`; +const VIEW_REAL_SIZE_ICON_SVG = ` + +`; +const REPLAY_ICON_SVG = ` + + + + + + + + +`; +// Panel configuration +const PANEL_CONFIG = { + width: 0.16, + height: 0.07, + cornerRadius: 0.03, + opacity: 1, + color: 0x000000, + // Distance-based scaling configuration + minDistance: 0.5, // Minimum distance for scaling (meters) + maxDistance: 10.0, // Maximum distance for scaling (meters) + baseScale: 1.0, // Base scale factor + distanceScaleFactor: 0.3 // How much to scale per meter of distance +}; +// Button configuration +const BUTTON_CONFIG = { + size: 0.05, // Fixed size for all buttons + zOffset: 0.01, // Distance from panel surface + spacing: 0.07 // Space between button centers +}; +// Icon configuration +const ICON_CONFIG = { + canvasSize: 128, + filter: LinearFilter +}; +class XRMenuPanel extends Object3D { + constructor() { + super(); + this.isActualSize = false; // Start with normalized size + // Pre-render all icons + this.preRenderIcons(); + this.createPanel(); + this.createButtons(); + this.opacityDamper = new Damper(); + this.goalOpacity = PANEL_CONFIG.opacity; + } + createPanel() { + const panelShape = this.createPanelShape(); + const geometry = new ShapeGeometry(panelShape); + const material = new MeshBasicMaterial({ + color: PANEL_CONFIG.color, + opacity: PANEL_CONFIG.opacity, + transparent: true + }); + this.panelMesh = new Mesh(geometry, material); + this.panelMesh.name = 'MenuPanel'; + this.add(this.panelMesh); + } + createButtons() { + // Create exit button + this.exitButton = this.createButton('close'); + this.exitButton.name = 'ExitButton'; + this.exitButton.position.set(BUTTON_CONFIG.spacing / 2, 0, BUTTON_CONFIG.zOffset); + this.add(this.exitButton); + // Create toggle button + this.toggleButton = this.createButton('view-real-size'); + this.toggleButton.name = 'ToggleButton'; + this.toggleButton.position.set(-0.07 / 2, 0, BUTTON_CONFIG.zOffset); + this.add(this.toggleButton); + } + createPanelShape() { + const shape = new Shape(); + const { width: w, height: h, cornerRadius: r } = PANEL_CONFIG; + // Create rounded rectangle path + shape.moveTo(-0.16 / 2 + r, -0.07 / 2); + shape.lineTo(w / 2 - r, -0.07 / 2); + shape.quadraticCurveTo(w / 2, -0.07 / 2, w / 2, -0.07 / 2 + r); + shape.lineTo(w / 2, h / 2 - r); + shape.quadraticCurveTo(w / 2, h / 2, w / 2 - r, h / 2); + shape.lineTo(-0.16 / 2 + r, h / 2); + shape.quadraticCurveTo(-0.16 / 2, h / 2, -0.16 / 2, h / 2 - r); + shape.lineTo(-0.16 / 2, -0.07 / 2 + r); + shape.quadraticCurveTo(-0.16 / 2, -0.07 / 2, -0.16 / 2 + r, -0.07 / 2); + return shape; + } + preRenderIcons() { + const iconSvgs = [ + { key: 'close', svg: CLOSE_ICON_SVG }, + { key: 'view-real-size', svg: VIEW_REAL_SIZE_ICON_SVG }, + { key: 'replay', svg: REPLAY_ICON_SVG } + ]; + iconSvgs.forEach(({ key, svg }) => { + if (!XRMenuPanel.iconTextures.has(key)) { + this.createTextureFromSvg(svg, key); + } + }); + } + createTextureFromSvg(svgContent, key) { + const canvas = document.createElement('canvas'); + canvas.width = ICON_CONFIG.canvasSize; + canvas.height = ICON_CONFIG.canvasSize; + const ctx = canvas.getContext('2d'); + // Create an image from SVG content + const img = new Image(); + const svgBlob = new Blob([svgContent], { type: 'image/svg+xml' }); + const url = URL.createObjectURL(svgBlob); + img.onload = () => { + ctx.drawImage(img, 0, 0, ICON_CONFIG.canvasSize, ICON_CONFIG.canvasSize); + const texture = new CanvasTexture(canvas); + texture.needsUpdate = true; + texture.minFilter = ICON_CONFIG.filter; + XRMenuPanel.iconTextures.set(key, texture); + URL.revokeObjectURL(url); + }; + img.src = url; + } + createButton(iconKey) { + // Create a placeholder mesh + const material = new MeshBasicMaterial({ transparent: true }); + const geometry = new PlaneGeometry(BUTTON_CONFIG.size, BUTTON_CONFIG.size); + const mesh = new Mesh(geometry, material); + // Try to get cached texture, or create a fallback + const cachedTexture = XRMenuPanel.iconTextures.get(iconKey); + if (cachedTexture) { + mesh.material.map = cachedTexture; + mesh.material.needsUpdate = true; + } + else { + // RACE CONDITION FIX: Texture creation is async (img.onload), but button creation is sync + // This fallback handles the case where buttons are created before textures finish loading + this.createTextureFromSvg(iconKey === 'close' ? CLOSE_ICON_SVG : + iconKey === 'view-real-size' ? VIEW_REAL_SIZE_ICON_SVG : + REPLAY_ICON_SVG, iconKey); + // Polling mechanism: Wait for async texture creation to complete + // This prevents white squares from appearing on first load + const checkTexture = () => { + const texture = XRMenuPanel.iconTextures.get(iconKey); + if (texture) { + // Texture is ready - apply it to the mesh + mesh.material.map = texture; + mesh.material.needsUpdate = true; + } + else { + // Texture not ready yet - check again in 10ms + setTimeout(checkTexture, 10); + } + }; + checkTexture(); + } + return mesh; + } + exitButtonControllerIntersection(scene, controller) { + const hitResult = scene.hitFromController(controller, this.exitButton); + return hitResult; + } + scaleModeButtonControllerIntersection(scene, controller) { + const hitResult = scene.hitFromController(controller, this.toggleButton); + return hitResult; + } + handleScaleToggle(worldSpaceInitialPlacementDone, initialModelScale, minScale, maxScale) { + if (!worldSpaceInitialPlacementDone) { + return null; + } + this.isActualSize = !this.isActualSize; + // Toggle between view real size icon and replay icon + // When isActualSize is true, show replay icon (to reset) + // When isActualSize is false, show view real size icon (to go to actual size) + const iconKey = this.isActualSize ? 'replay' : 'view-real-size'; + this.updateScaleModeButtonLabel(iconKey); + const targetScale = this.isActualSize ? 1.0 : initialModelScale; + const goalScale = Math.max(minScale, Math.min(maxScale, targetScale)); + return goalScale; + } + updateScaleModeButtonLabel(iconKey) { + const cachedTexture = XRMenuPanel.iconTextures.get(iconKey); + if (cachedTexture) { + this.toggleButton.material.map = cachedTexture; + this.toggleButton.material.needsUpdate = true; + } + } + updatePosition(camera, placementBox) { + if (!placementBox) { + return; + } + // Get the world position of the placement box + const placementBoxWorldPos = new Vector3(); + placementBox.getWorldPosition(placementBoxWorldPos); + // Get the placement box size to calculate dynamic offsets + const placementBoxSize = placementBox.getSize(); + const placementBoxMinDimension = Math.min(placementBoxSize.x, placementBoxSize.z); + // Calculate dynamic offsets based on placement box size + // Base offsets with placement box size scaling + const baseOffsetUp = -0.2; + const baseOffsetForward = 0.9; + const sizeScaleFactor = Math.max(0.5, Math.min(2.0, placementBoxMinDimension / 1.0)); // Scale between 0.5x and 2x + const offsetUp = baseOffsetUp * sizeScaleFactor; + const offsetForward = baseOffsetForward * sizeScaleFactor; + // Get direction from placement box to camera (horizontal only) + const directionToCamera = new Vector3() + .copy(camera.position) + .sub(placementBoxWorldPos); + directionToCamera.y = 0; // Zero out vertical component + directionToCamera.normalize(); + // Calculate the final position + const panelPosition = new Vector3() + .copy(placementBoxWorldPos) + .add(new Vector3(0, offsetUp, 0)) // Move up + .add(directionToCamera.multiplyScalar(offsetForward)); // Move forward + this.position.copy(panelPosition); + // Calculate distance-based scaling + const distanceToCamera = camera.position.distanceTo(panelPosition); + const clampedDistance = Math.max(PANEL_CONFIG.minDistance, Math.min(PANEL_CONFIG.maxDistance, distanceToCamera)); + const scaleFactor = PANEL_CONFIG.baseScale + (clampedDistance - PANEL_CONFIG.minDistance) * PANEL_CONFIG.distanceScaleFactor; + // Apply scaling to the entire panel (including buttons) + this.scale.set(scaleFactor, scaleFactor, scaleFactor); + // Make the menu panel face the camera + this.lookAt(camera.position); + } + /** + * Set the box's visibility; it will fade in and out. + */ + set show(visible) { + this.goalOpacity = visible ? PANEL_CONFIG.opacity : 0; + } + /** + * Call on each frame with the frame delta to fade the box. + */ + updateOpacity(delta) { + const material = this.panelMesh.material; + const currentOpacity = material.opacity; + const newOpacity = this.opacityDamper.update(currentOpacity, this.goalOpacity, delta, 1); + this.traverse((child) => { + if (child instanceof Mesh) { + const mat = child.material; + if (mat.transparent) + mat.opacity = newOpacity; + } + }); + this.visible = newOpacity > 0; + } + dispose() { + var _a; + this.children.forEach(child => { + if (child instanceof Mesh) { + // Dispose geometry first + if (child.geometry) { + child.geometry.dispose(); + } + // Handle material(s) + // Material can be a single Material or an array of Materials + const materials = Array.isArray(child.material) ? child.material : [child.material]; + materials.forEach(material => { + if (material) { // Ensure material exists before proceeding + // Dispose texture if it exists and is a CanvasTexture + // We specifically created CanvasTextures for buttons, so check for that type. + if ('map' in material && material.map instanceof CanvasTexture) { // Check if 'map' property exists and is a CanvasTexture + material.map.dispose(); + } + // Dispose material itself + material.dispose(); + } + }); + } + }); + // Remove the panel itself from its parent in the scene graph + (_a = this.parent) === null || _a === void 0 ? void 0 : _a.remove(this); + } +} +// Cache for pre-rendered textures +XRMenuPanel.iconTextures = new Map(); + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +// number of initial null pose XRFrames allowed before we post not-tracking +const INIT_FRAMES = 30; +// AR shadow is not user-configurable. This is to pave the way for AR lighting +// estimation, which will be used once available in WebXR. +const AR_SHADOW_INTENSITY = 0.8; +const ROTATION_RATE = 1.5; +// Angle down (towards bottom of screen) from camera center ray to use for hit +// testing against the floor. This makes placement faster and more intuitive +// assuming the phone is in portrait mode. This seems to be a reasonable +// assumption for the start of the session and UI will lack landscape mode to +// encourage upright use. +const HIT_ANGLE_DEG = 20; +const SCALE_SNAP = 0.2; +// upward-oriented ray for ceiling detection +const CEILING_HIT_ANGLE_DEG = 20; +const CEILING_ORIENTATION_THRESHOLD = 15; // degrees +// For automatic dynamic viewport scaling, don't let the scale drop below this +// limit. +const MIN_VIEWPORT_SCALE = 0.25; +// Furthest away you can move an object (meters). +const MAX_DISTANCE = 10; +// Damper decay in milliseconds for the headset - screen uses default. +const DECAY = 150; +// Longer controller/hand indicator line (meters). +const MAX_LINE_LENGTH = 5; +// Axis Y in webxr. +const AXIS_Y = new Vector3(0, 1, 0); +// Webxr rotation sensitivity +const ROTATION_SENSIVITY = 0.3; +// World-space AR automatic positioning constants (similar to FrameModel approach in SVXR) +const MIN_WORLD_SPACE_DISTANCE = 1.5; // Minimum distance from camera (meters) +const VIEW_DROP_DEGREES = 15; // Angle down from camera center for optimal viewing +const VIEW_RATIO = 0.3; // Ratio of viewport to use for model sizing +const MIN_MODEL_SIZE = 0.01; // Minimum model size to prevent division by zero +const PLACEMENT_BOX_EXTRA_PADDING = 0.15; // Extra padding for model-viewer +// SVXR-like constants for scale limits +const MAX_MODEL_SIZE = 70.0; +const MODEL_SIZE_EPSILON = 0.001; +const FOOTPRINT__INTERSECT_THRESHOLD = 0.2; +const ARStatus = { + NOT_PRESENTING: 'not-presenting', + SESSION_STARTED: 'session-started', + OBJECT_PLACED: 'object-placed', + FAILED: 'failed' +}; +const ARTracking = { + TRACKING: 'tracking', + NOT_TRACKING: 'not-tracking' +}; +const vector3$1 = new Vector3(); +const quaternion = new Quaternion(); +const matrix4 = new Matrix4(); +const hitPosition = new Vector3(); +const camera = new PerspectiveCamera(45, 1, 0.1, 100); +const lineGeometry = new BufferGeometry().setFromPoints([new Vector3(0, 0, 0), new Vector3(0, 0, -1)]); +const XRMode = { + SCREEN_SPACE: 'screen-space', + WORLD_SPACE: 'world-space' +}; +class ARRenderer extends EventDispatcher { + /** + * Check if world-space mode is active and initial placement is complete + */ + isWorldSpaceReady() { + return this.xrMode === XRMode.WORLD_SPACE && this.worldSpaceInitialPlacementDone; + } + constructor(renderer) { + super(); + this.renderer = renderer; + this.currentSession = null; + this.placementMode = 'floor'; + this.placementBox = null; + this.menuPanel = null; + this.lastTick = null; + this.turntableRotation = null; + this.oldShadowIntensity = null; + this.frame = null; + this.initialHitSource = null; + this.transientHitTestSource = null; + this.inputSource = null; + this._presentedScene = null; + this.resolveCleanup = null; + this.exitWebXRButtonContainer = null; + this.overlay = null; + this.xrLight = null; + this.xrMode = null; + this.xrController1 = null; + this.xrController2 = null; + this.selectedXRController = null; + this.tracking = true; + this.frames = 0; + this.initialized = false; + this.oldTarget = new Vector3(); + this.placementComplete = false; + this.isTranslating = false; + this.isRotating = false; + this.isTwoHandInteraction = false; + this.lastDragPosition = new Vector3(); + this.deltaRotation = new Quaternion(); + this.scaleLine = new Line(lineGeometry); + this.firstRatio = 0; + this.lastAngle = 0; + this.goalPosition = new Vector3(); + this.goalYaw = 0; + this.goalScale = 1; + this.xDamper = new Damper(); + this.yDamper = new Damper(); + this.zDamper = new Damper(); + this.yawDamper = new Damper(); + this.pitchDamper = new Damper(); + this.rollDamper = new Damper(); + this.scaleDamper = new Damper(); + this.wasTwoFingering = false; + // Track if initial automatic placement has been done for world-space mode + this.worldSpaceInitialPlacementDone = false; + // Scale toggle state for world-space mode + this.initialModelScale = 1.0; + this.minScale = 1.0; + this.maxScale = 1.0; + this.onExitWebXRButtonContainerClick = () => this.stopPresenting(); + this.onControllerSelectStart = (event) => { + var _a, _b, _c; + const scene = this.presentedScene; + const controller = event.target; + const menuPanel = this.menuPanel; + const exitIntersect = this.menuPanel.exitButtonControllerIntersection(scene, controller); + if (exitIntersect != null) { + (_a = this.menuPanel) === null || _a === void 0 ? void 0 : _a.dispose(); + this.stopPresenting(); + return; + } + const scaleModeIntersect = this.menuPanel.scaleModeButtonControllerIntersection(scene, controller); + if (scaleModeIntersect != null) { + const goalScale = this.menuPanel.handleScaleToggle(this.worldSpaceInitialPlacementDone, this.initialModelScale, this.minScale, this.maxScale); + if (goalScale !== null) { + this.goalScale = goalScale; + } + return; + } + if (menuPanel) { + menuPanel.show = false; + } + const intersection = this.placementBox.controllerIntersection(scene, controller); + if (intersection != null) { + const bbox = new Box3().setFromObject(scene.pivot); + const footprintY = bbox.min.y + FOOTPRINT__INTERSECT_THRESHOLD; // Small threshold above base + // Check if the ray intersection is near the footprint + const isFootprint = intersection.point.y <= footprintY; + if (isFootprint) { + if (this.selectedXRController != null) { + this.selectedXRController.userData.line.visible = false; + if (scene.canScale && this.isWorldSpaceReady()) { + this.isTwoHandInteraction = true; + this.firstRatio = this.controllerSeparation() / scene.pivot.scale.x; + this.scaleLine.visible = true; + } + } + else { + controller.attach(scene.pivot); + } + this.selectedXRController = controller; + scene.setShadowIntensity(0.01); + } + else { + if (controller == this.xrController1) { + this.xrController1.userData.isSelected = true; + } + else if (controller == this.xrController2) { + this.xrController2.userData.isSelected = true; + } + if (((_b = this.xrController1) === null || _b === void 0 ? void 0 : _b.userData.isSelected) && ((_c = this.xrController2) === null || _c === void 0 ? void 0 : _c.userData.isSelected)) { + if (scene.canScale && this.isWorldSpaceReady()) { + this.isTwoHandInteraction = true; + this.firstRatio = this.controllerSeparation() / scene.pivot.scale.x; + this.scaleLine.visible = true; + } + } + else { + const otherController = controller === this.xrController1 ? this.xrController2 : + this.xrController1; + controller.userData.initialX = controller.position.x; + otherController.userData.turning = false; + controller.userData.turning = true; + controller.userData.line.visible = false; + } + } + } + }; + this.onControllerSelectEnd = (event) => { + const controller = event.target; + controller.userData.turning = false; + controller.userData.line.visible = true; + this.isTwoHandInteraction = false; + this.scaleLine.visible = false; + if (controller == this.xrController1) { + this.xrController1.userData.isSelected = false; + } + else if (controller == this.xrController2) { + this.xrController2.userData.isSelected = false; + } + if (this.selectedXRController != null && + this.selectedXRController != controller) { + return; + } + const scene = this.presentedScene; + // drop on floor + scene.attach(scene.pivot); + this.selectedXRController = null; + this.goalYaw = Math.atan2(scene.pivot.matrix.elements[8], scene.pivot.matrix.elements[10]); + this.goalPosition.x = scene.pivot.position.x; + this.goalPosition.z = scene.pivot.position.z; + // For world-space mode after initial placement, preserve Y position + if (this.isWorldSpaceReady()) { + this.goalPosition.y = scene.pivot.position.y; + } + const menuPanel = this.menuPanel; + menuPanel.show = true; + }; + this.onUpdateScene = () => { + if (this.placementBox != null && this.isPresenting) { + // Update the existing placement box with new model dimensions instead of recreating + this.placementBox.updateFromModelChanges(); + // Ensure screen space mode is maintained + this.placementBox.setScreenSpaceMode(this.xrMode === XRMode.SCREEN_SPACE); + } + if (this.xrMode !== XRMode.SCREEN_SPACE) { + if (this.menuPanel) { + this.menuPanel.dispose(); + this.menuPanel = null; + } + this.menuPanel = new XRMenuPanel(); + this.presentedScene.add(this.menuPanel); + this.menuPanel.updatePosition(this.presentedScene.getCamera(), this.placementBox); + } + }; + this.onSelectStart = (event) => { + const hitSource = this.transientHitTestSource; + if (hitSource == null) { + return; + } + const fingers = this.frame.getHitTestResultsForTransientInput(hitSource); + const scene = this.presentedScene; + const box = this.placementBox; + if (fingers.length === 1) { + this.inputSource = event.inputSource; + const { axes } = this.inputSource.gamepad; + const hitPosition = box.getHit(this.presentedScene, axes[0], axes[1]); + box.show = true; + if (hitPosition != null) { + this.isTranslating = true; + this.lastDragPosition.copy(hitPosition); + } + else if (this.placeOnWall === false) { + this.isRotating = true; + this.lastAngle = axes[0] * ROTATION_RATE; + } + } + else if (fingers.length === 2) { + box.show = true; + this.isTwoHandInteraction = true; + const { separation, angle } = this.fingerPolar(fingers); + this.lastAngle = angle; // Initialize lastAngle, do not update goalYaw + if (this.firstRatio === 0) { + this.firstRatio = separation / scene.pivot.scale.x; + } + if (scene.canScale) { + this.setScale(separation); + } + return; + } + }; + this.onSelectEnd = () => { + this.isTranslating = false; + this.isRotating = false; + this.isTwoHandInteraction = false; + this.inputSource = null; + this.goalPosition.y += + this.placementBox.offsetHeight * this.presentedScene.scale.x; + this.placementBox.show = false; + }; + this.threeRenderer = renderer.threeRenderer; + this.threeRenderer.xr.enabled = true; + } + async resolveARSession() { + assertIsArCandidate(); + const session = await navigator.xr.requestSession('immersive-ar', { + requiredFeatures: [], + optionalFeatures: ['hit-test', 'dom-overlay', 'light-estimation'], + domOverlay: this.overlay ? { root: this.overlay } : undefined + }); + this.threeRenderer.xr.setReferenceSpaceType('local'); + await this.threeRenderer.xr.setSession(session); + this.threeRenderer.xr.cameraAutoUpdate = false; + return session; + } + /** + * The currently presented scene, if any + */ + get presentedScene() { + return this._presentedScene; + } + /** + * Resolves to true if the renderer has detected all the necessary qualities + * to support presentation in AR. + */ + async supportsPresentation() { + try { + assertIsArCandidate(); + return await navigator.xr.isSessionSupported('immersive-ar'); + } + catch (error) { + console.warn('Request to present in WebXR denied:'); + console.warn(error); + console.warn('Falling back to next ar-mode'); + return false; + } + } + /** + * Present a scene in AR + */ + async present(scene, environmentEstimation = false) { + if (this.isPresenting) { + console.warn('Cannot present while a model is already presenting'); + } + let waitForAnimationFrame = new Promise((resolve, _reject) => { + requestAnimationFrame(() => resolve()); + }); + scene.setHotspotsVisibility(false); + scene.queueRender(); + // Render a frame to turn off the hotspots + await waitForAnimationFrame; + // This sets isPresenting to true + this._presentedScene = scene; + this.overlay = scene.element.shadowRoot.querySelector('div.default'); + if (environmentEstimation === true) { + this.xrLight = new XREstimatedLight(this.threeRenderer); + this.xrLight.addEventListener('estimationstart', () => { + if (!this.isPresenting || this.xrLight == null) { + return; + } + const scene = this.presentedScene; + scene.add(this.xrLight); + scene.environment = this.xrLight.environment; + }); + } + const currentSession = await this.resolveARSession(); + currentSession.addEventListener('end', () => { + this.postSessionCleanup(); + }, { once: true }); + const exitButton = scene.element.shadowRoot.querySelector('.slot.exit-webxr-ar-button'); + exitButton.classList.add('enabled'); + exitButton.addEventListener('click', this.onExitWebXRButtonContainerClick); + this.exitWebXRButtonContainer = exitButton; + const viewerRefSpace = await currentSession.requestReferenceSpace('viewer'); + this.xrMode = currentSession.interactionMode; + this.tracking = true; + this.frames = 0; + this.initialized = false; + this.turntableRotation = scene.yaw; + this.goalYaw = scene.yaw; + this.goalScale = 1; + scene.setBackground(null); + this.oldShadowIntensity = scene.shadowIntensity; + scene.setShadowIntensity(0.01); // invisible, but not changing the shader + this.oldTarget.copy(scene.getTarget()); + scene.element.addEventListener('load', this.onUpdateScene); + // Create hit test source for all modes (will be used differently based on mode and state) + let ray; + if (!this.placeOnWall && !this.placeOnCeiling) { + // floor – shoot slightly downward + const r = HIT_ANGLE_DEG * Math.PI / 180; + ray = new XRRay(new DOMPoint(0, 0, 0), { x: 0, y: -Math.sin(r), z: -Math.cos(r) }); + } + else if (this.placeOnWall) { + ray = undefined; + } + else { // ceiling – shoot upward + const r = CEILING_HIT_ANGLE_DEG * Math.PI / 180; + ray = new XRRay(new DOMPoint(0, 0, 0), { x: 0, y: Math.sin(r), z: -Math.cos(r) }); + } + currentSession + .requestHitTestSource({ space: viewerRefSpace, offsetRay: ray }).then(hitTestSource => { + this.initialHitSource = hitTestSource; + }); + if (this.xrMode !== XRMode.SCREEN_SPACE) { + this.setupXRControllers(); + this.xDamper.setDecayTime(DECAY); + this.yDamper.setDecayTime(DECAY); + this.zDamper.setDecayTime(DECAY); + this.yawDamper.setDecayTime(DECAY); + this.pitchDamper.setDecayTime(DECAY); + this.rollDamper.setDecayTime(DECAY); + this.scaleDamper.setDecayTime(DECAY); + } + this.currentSession = currentSession; + this.placementBox = new PlacementBox(scene, this.placeOnWall ? 'back' + : this.placeOnCeiling ? 'top' : 'bottom'); + // Set screen space mode for proper positioning + if (this.placementBox) { + this.placementBox.setScreenSpaceMode(this.xrMode === XRMode.SCREEN_SPACE); + } + this.placementComplete = false; + if (this.xrMode !== XRMode.SCREEN_SPACE) { + this.menuPanel = new XRMenuPanel(); + scene.add(this.menuPanel); + this.menuPanel.updatePosition(scene.getCamera(), this.placementBox); // Position the menu panel + } + this.lastTick = performance.now(); + this.dispatchEvent({ type: 'status', status: ARStatus.SESSION_STARTED }); + } + setupXRControllerLine(xrController) { + if (!xrController.userData.line) { + const line = new Line(lineGeometry); + line.name = 'line'; + line.scale.z = MAX_LINE_LENGTH; + xrController.userData.turning = false; + xrController.userData.line = line; + xrController.add(line); + } + } + setupController(controller) { + this.setupXRControllerLine(controller); + controller.addEventListener('selectstart', this.onControllerSelectStart); + controller.addEventListener('selectend', this.onControllerSelectEnd); + } + setupXRControllers() { + this.xrController1 = this.threeRenderer.xr.getController(0); + this.xrController2 = this.threeRenderer.xr.getController(1); + this.setupController(this.xrController1); + this.setupController(this.xrController2); + this.scaleLine.name = 'scale line'; + this.scaleLine.visible = false; + this.xrController1.add(this.scaleLine); + // Add controllers to the scene + const scene = this.presentedScene; + scene.add(this.xrController1); + scene.add(this.xrController2); + } + hover(xrController) { + // Do not highlight in mobile-ar + if (this.xrMode === XRMode.SCREEN_SPACE || + this.selectedXRController == xrController) { + return false; + } + const scene = this.presentedScene; + const intersection = this.placementBox.controllerIntersection(scene, xrController); + xrController.userData.line.scale.z = + intersection == null ? MAX_LINE_LENGTH : intersection.distance; + return intersection != null; + } + controllerSeparation() { + return this.xrController1.position.distanceTo(this.xrController2.position); + } + /** + * If currently presenting a scene in AR, stops presentation and exits AR. + */ + async stopPresenting() { + if (!this.isPresenting) { + return; + } + const cleanupPromise = new Promise((resolve) => { + this.resolveCleanup = resolve; + }); + try { + await this.currentSession.end(); + await cleanupPromise; + } + catch (error) { + console.warn('Error while trying to end WebXR AR session'); + console.warn(error); + this.postSessionCleanup(); + } + } + /** + * True if a scene is currently in the process of being presented in AR + */ + get isPresenting() { + return this.presentedScene != null; + } + get target() { + return this.oldTarget; + } + get placeOnCeiling() { return this.placementMode === 'ceiling'; } + get placeOnWall() { return this.placementMode === 'wall'; } + updateTarget() { + const scene = this.presentedScene; + if (scene != null) { + const target = scene.getTarget(); + this.oldTarget.copy(target); + if (this.placeOnWall) { + target.z = scene.boundingBox.min.z; + } + else if (this.placeOnCeiling) { + target.y = scene.boundingBox.max.y; // Use ceiling height + } + else { + target.y = scene.boundingBox.min.y; // Floor height + } + scene.setTarget(target.x, target.y, target.z); + } + } + cleanupXRController(xrController) { + xrController.userData.turning = false; + xrController.userData.line.visible = true; + xrController.removeEventListener('selectstart', this.onControllerSelectStart); + xrController.removeEventListener('selectend', this.onControllerSelectEnd); + xrController.removeFromParent(); + } + postSessionCleanup() { + const session = this.currentSession; + if (session != null) { + session.removeEventListener('selectstart', this.onSelectStart); + session.removeEventListener('selectend', this.onSelectEnd); + this.currentSession = null; + } + const scene = this.presentedScene; + this._presentedScene = null; + if (scene != null) { + const { element } = scene; + if (this.xrLight != null) { + scene.remove(this.xrLight); + this.xrLight.dispose(); + this.xrLight = null; + } + if (this.menuPanel != null) { + this.menuPanel.dispose(); + this.menuPanel = null; + } + scene.add(scene.pivot); + scene.pivot.quaternion.set(0, 0, 0, 1); + scene.pivot.position.set(0, 0, 0); + scene.pivot.scale.set(1, 1, 1); + scene.setShadowOffset(0); + const yaw = this.turntableRotation; + if (yaw != null) { + scene.yaw = yaw; + } + const intensity = this.oldShadowIntensity; + if (intensity != null) { + scene.setShadowIntensity(intensity); + } + scene.setEnvironmentAndSkybox(element[$currentEnvironmentMap], element[$currentBackground]); + const point = this.oldTarget; + scene.setTarget(point.x, point.y, point.z); + scene.xrCamera = null; + scene.element.removeEventListener('load', this.onUpdateScene); + scene.orientHotspots(0); + const { width, height } = element.getBoundingClientRect(); + scene.setSize(width, height); + requestAnimationFrame(() => { + scene.element.dispatchEvent(new CustomEvent('camera-change', { detail: { source: ChangeSource.NONE } })); + }); + } + // Force the Renderer to update its size + this.renderer.height = 0; + const exitButton = this.exitWebXRButtonContainer; + if (exitButton != null) { + exitButton.classList.remove('enabled'); + exitButton.removeEventListener('click', this.onExitWebXRButtonContainerClick); + this.exitWebXRButtonContainer = null; + } + const hitSource = this.transientHitTestSource; + if (hitSource != null) { + hitSource.cancel(); + this.transientHitTestSource = null; + } + const hitSourceInitial = this.initialHitSource; + if (hitSourceInitial != null) { + hitSourceInitial.cancel(); + this.initialHitSource = null; + } + if (this.placementBox != null) { + this.placementBox.dispose(); + this.placementBox = null; + } + if (this.xrMode !== XRMode.SCREEN_SPACE) { + if (this.xrController1 != null) { + this.cleanupXRController(this.xrController1); + this.xrController1 = null; + } + if (this.xrController2 != null) { + this.cleanupXRController(this.xrController2); + this.xrController2 = null; + } + this.selectedXRController = null; + this.scaleLine.visible = false; + } + this.isTranslating = false; + this.isRotating = false; + this.isTwoHandInteraction = false; + this.lastTick = null; + this.turntableRotation = null; + this.oldShadowIntensity = null; + this.frame = null; + this.inputSource = null; + this.overlay = null; + this.worldSpaceInitialPlacementDone = false; + if (this.resolveCleanup != null) { + this.resolveCleanup(); + } + this.dispatchEvent({ type: 'status', status: ARStatus.NOT_PRESENTING }); + } + updateView(view) { + const scene = this.presentedScene; + const xr = this.threeRenderer.xr; + xr.updateCamera(camera); + scene.xrCamera = xr.getCamera(); + const { elements } = scene.getCamera().matrixWorld; + scene.orientHotspots(Math.atan2(elements[1], elements[5])); + if (!this.initialized) { + this.placeInitially(); + this.initialized = true; + } + // Use automatic dynamic viewport scaling if supported. + if (view.requestViewportScale && view.recommendedViewportScale) { + const scale = view.recommendedViewportScale; + view.requestViewportScale(Math.max(scale, MIN_VIEWPORT_SCALE)); + } + const layer = xr.getBaseLayer(); + if (layer != null) { + const viewport = layer instanceof XRWebGLLayer ? + layer.getViewport(view) : + xr.getBinding().getViewSubImage(layer, view).viewport; + this.threeRenderer.setViewport(viewport.x, viewport.y, viewport.width, viewport.height); + } + } + placeInitially() { + const scene = this.presentedScene; + const { pivot, element } = scene; + const { position } = pivot; + const xrCamera = scene.getCamera(); + const { width, height } = this.overlay.getBoundingClientRect(); + scene.setSize(width, height); + xrCamera.projectionMatrixInverse.copy(xrCamera.projectionMatrix).invert(); + const { theta } = element + .getCameraOrbit(); + // Orient model to match the 3D camera view + const cameraDirection = xrCamera.getWorldDirection(vector3$1); + scene.yaw = Math.atan2(-cameraDirection.x, -cameraDirection.z) - theta; + this.goalYaw = scene.yaw; + if (this.placeOnCeiling && !this.isViewPointingUp()) { + scene.visible = false; // Hide until properly oriented + scene.setHotspotsVisibility(true); // Still show UI + // Set up touch interaction for screen-space mode + if (this.xrMode === XRMode.SCREEN_SPACE) { + const { session } = this.frame; + session.addEventListener('selectstart', this.onSelectStart); + session.addEventListener('selectend', this.onSelectEnd); + session.requestHitTestSourceForTransientInput({ profile: 'generic-touchscreen' }) + .then(hitTestSource => { this.transientHitTestSource = hitTestSource; }); + } + return; // Exit early - don't place yet + } + // Use different placement logic for world-space vs screen-space + if (this.xrMode === XRMode.WORLD_SPACE && !this.worldSpaceInitialPlacementDone) { + // Use automatic optimal placement for world-space AR only on first session + const { position: optimalPosition, scale: optimalScale } = this.calculateWorldSpaceOptimalPlacement(scene, xrCamera); + this.goalPosition.copy(optimalPosition); + this.goalScale = optimalScale; + // Store the initial scale for toggle functionality + this.initialModelScale = optimalScale; + // Set initial position and scale immediately for world-space + position.copy(optimalPosition); + pivot.scale.set(optimalScale, optimalScale, optimalScale); + // Mark that initial placement is done + this.worldSpaceInitialPlacementDone = true; + // Calculate scale limits for world-space mode (SVXR logic) + this.calculateWorldSpaceScaleLimits(scene); + // Enable user interaction after initial placement + this.enableWorldSpaceUserInteraction(); + } + else if (this.xrMode === XRMode.SCREEN_SPACE) { + // Use original placement logic for screen-space AR + const radius = Math.max(1, 2 * scene.boundingSphere.radius); + position.copy(xrCamera.position) + .add(cameraDirection.multiplyScalar(radius)); + this.updateTarget(); + const target = scene.getTarget(); + position.add(target).sub(this.oldTarget); + this.goalPosition.copy(position); + } + scene.setHotspotsVisibility(true); + scene.visible = true; // Model is properly oriented, show it + if (this.xrMode === XRMode.SCREEN_SPACE) { + const { session } = this.frame; + session.addEventListener('selectstart', this.onSelectStart); + session.addEventListener('selectend', this.onSelectEnd); + session.requestHitTestSourceForTransientInput({ profile: 'generic-touchscreen' }) + .then(hitTestSource => { this.transientHitTestSource = hitTestSource; }); + } + } + checkForDeferredCeilingPlacement() { + // Check on every frame—both XR modes, only when ceiling is the target and the model is hidden + if (!this.placeOnCeiling || !this.presentedScene || this.presentedScene.visible) + return; + const isWorldSpaceDeferred = this.xrMode === XRMode.WORLD_SPACE && !this.worldSpaceInitialPlacementDone; + const isScreenSpaceDeferred = this.xrMode === XRMode.SCREEN_SPACE; + if (isWorldSpaceDeferred || isScreenSpaceDeferred) { + if (this.isViewPointingUp()) { + this.performDeferredPlacement(); + } + } + } + performDeferredPlacement() { + const scene = this.presentedScene; + if (this.xrMode === XRMode.WORLD_SPACE) { + const xrCamera = scene.getCamera(); + const { position, scale } = this.calculateWorldSpaceOptimalPlacement(scene, xrCamera); + this.goalPosition.copy(position); + this.goalScale = scale; + this.initialModelScale = scale; + scene.pivot.position.copy(position); + scene.pivot.scale.set(scale, scale, scale); + this.worldSpaceInitialPlacementDone = true; + this.calculateWorldSpaceScaleLimits(scene); + this.enableWorldSpaceUserInteraction(); + } + else { // SCREEN_SPACE + const xrCamera = scene.getCamera(); + const cameraDirection = xrCamera.getWorldDirection(new Vector3()); + const radius = Math.max(1, 2 * scene.boundingSphere.radius); + scene.pivot.position.copy(xrCamera.position).add(cameraDirection.multiplyScalar(radius)); + this.updateTarget(); + const target = scene.getTarget(); + scene.pivot.position.add(target).sub(this.oldTarget); + this.goalPosition.copy(scene.pivot.position); + // Setup touch interaction if needed + const { session } = this.frame; + session.addEventListener('selectstart', this.onSelectStart); + session.addEventListener('selectend', this.onSelectEnd); + session.requestHitTestSourceForTransientInput({ profile: 'generic-touchscreen' }) + .then(hitTestSource => { this.transientHitTestSource = hitTestSource; }); + } + scene.visible = true; + scene.setHotspotsVisibility(true); + this.dispatchEvent({ type: 'status', status: ARStatus.OBJECT_PLACED }); + } + getTouchLocation() { + const { axes } = this.inputSource.gamepad; + let location = this.placementBox.getExpandedHit(this.presentedScene, axes[0], axes[1]); + if (location != null) { + vector3$1.copy(location).sub(this.presentedScene.getCamera().position); + if (vector3$1.length() > MAX_DISTANCE) + return null; + } + return location; + } + getHitPoint(hitResult) { + const refSpace = this.threeRenderer.xr.getReferenceSpace(); + const pose = hitResult.getPose(refSpace); + if (pose == null) { + return null; + } + const hitMatrix = matrix4.fromArray(pose.transform.matrix); + if (this.placeOnWall === true) { + // Orient the model to the wall's normal vector. + this.goalYaw = Math.atan2(hitMatrix.elements[4], hitMatrix.elements[6]); + } + // Check that the y-coordinate of the normal is large enough that the normal + // is pointing up for floor placement; opposite for wall placement. + const normalY = hitMatrix.elements[5]; + if (this.placeOnWall) { + // wall: reject if normal points down/up too much + return normalY < -0.75 ? null : hitPosition.setFromMatrixPosition(hitMatrix); + } + if (this.placeOnCeiling) { + // ceiling: accept only downward-facing planes + return normalY < -0.5 + ? hitPosition.setFromMatrixPosition(hitMatrix) + : null; + } + // floor: accept only upward-facing planes + return normalY > 0.75 ? hitPosition.setFromMatrixPosition(hitMatrix) : null; + } + /** + * Hit-test the environment once per frame until a suitable surface is found, + * then lock the model to that anchor. + * – Floor: accept upward-facing planes and “drop” the model down. + * – Wall: accept vertical planes; keep full XYZ. + * – Ceiling: accept downward-facing planes; keep full XYZ and hide model + * until a ceiling hit arrives (no premature floor placement). + */ + moveToAnchor(frame) { + // Handle deferred initial placement for ceiling mode + if (this.placeOnCeiling && + this.xrMode === XRMode.WORLD_SPACE && + !this.worldSpaceInitialPlacementDone && + !this.presentedScene.visible) { + // Check if orientation is now sufficient + if (!this.isViewPointingUp()) { + console.log('[ARR/moveToAnchor] Still waiting for proper ceiling orientation'); + return; + } + // Orientation is good - complete the deferred world-space placement + const scene = this.presentedScene; + const xrCamera = scene.getCamera(); + const { position: optimalPosition, scale: optimalScale } = this.calculateWorldSpaceOptimalPlacement(scene, xrCamera); + this.goalPosition.copy(optimalPosition); + this.goalScale = optimalScale; + this.initialModelScale = optimalScale; + scene.pivot.position.copy(optimalPosition); + scene.pivot.scale.set(optimalScale, optimalScale, optimalScale); + this.worldSpaceInitialPlacementDone = true; + this.calculateWorldSpaceScaleLimits(scene); + this.enableWorldSpaceUserInteraction(); + scene.visible = true; + this.dispatchEvent({ type: 'status', status: ARStatus.OBJECT_PLACED }); + return; + } + // Skip for world-space mode after initial placement (unless ceiling was deferred) + if (this.xrMode === XRMode.WORLD_SPACE && this.worldSpaceInitialPlacementDone) { + this.placementBox.show = false; + this.dispatchEvent({ type: 'status', status: ARStatus.OBJECT_PLACED }); + return; + } + } + isViewPointingUp(thresholdDeg = CEILING_ORIENTATION_THRESHOLD) { + const cam = this.presentedScene.getCamera(); + // Handle ArrayCamera (common in XR) + const realCam = cam.isArrayCamera && Array.isArray(cam.cameras) + ? cam.cameras[0] // Use first sub-camera + : cam; + if (!realCam || typeof realCam.updateMatrixWorld !== 'function') { + return false; + } + // Update camera matrix to get current world orientation + realCam.updateMatrixWorld(true); + const elements = realCam.matrixWorld.elements; + // Get forward direction from camera matrix (-Z column) + const forwardY = -elements[9]; // Y component of forward vector + const minY = Math.sin(thresholdDeg * Math.PI / 180); + return forwardY >= minY; + } + fingerPolar(fingers) { + const fingerOne = fingers[0].inputSource.gamepad.axes; + const fingerTwo = fingers[1].inputSource.gamepad.axes; + const deltaX = fingerTwo[0] - fingerOne[0]; + const deltaY = fingerTwo[1] - fingerOne[1]; + const angle = Math.atan2(deltaY, deltaX); + let deltaYaw = this.lastAngle - angle; + if (deltaYaw > Math.PI) { + deltaYaw -= 2 * Math.PI; + } + else if (deltaYaw < -Math.PI) { + deltaYaw += 2 * Math.PI; + } + return { + separation: Math.sqrt(deltaX * deltaX + deltaY * deltaY), + deltaYaw: deltaYaw, + angle: angle + }; + } + setScale(separation) { + let scale = separation / this.firstRatio; + scale = (Math.abs(scale - 1) < SCALE_SNAP) ? 1 : scale; + // Clamp to min/max for world-space mode after initial placement + if (this.isWorldSpaceReady()) { + scale = Math.max(this.minScale, Math.min(this.maxScale, scale)); + } + this.goalScale = scale; + } + processInput(frame) { + const hitSource = this.transientHitTestSource; + if (hitSource == null) { + return; + } + const fingers = frame.getHitTestResultsForTransientInput(hitSource); + const scene = this.presentedScene; + const scale = scene.pivot.scale.x; + // Robust two-finger gesture handling + if (fingers.length === 2) { + if (!this.wasTwoFingering) { + // New two-finger gesture starting + const { separation, angle } = this.fingerPolar(fingers); + this.firstRatio = separation / scale; + this.lastAngle = angle; + this.wasTwoFingering = true; + this.isTwoHandInteraction = true; + // Do not apply rotation or scale on this frame + return; + } + // Ongoing two-finger gesture + const { separation, deltaYaw, angle } = this.fingerPolar(fingers); + this.goalYaw += deltaYaw; + this.lastAngle = angle; + if (scene.canScale) { + this.setScale(separation); + } + this.isTwoHandInteraction = true; + return; + } + else { + if (this.wasTwoFingering) { + // Two-finger gesture ended + this.wasTwoFingering = false; + this.isTwoHandInteraction = false; + this.firstRatio = 0; + } + } + if (!this.isTranslating && !this.isTwoHandInteraction && !this.isRotating) { + return; + } + // Handle single finger interactions + if (this.isRotating) { + const angle = this.inputSource.gamepad.axes[0] * ROTATION_RATE; + this.goalYaw += angle - this.lastAngle; + this.lastAngle = angle; + } + else if (this.isTranslating) { + fingers.forEach(finger => { + if (finger.inputSource !== this.inputSource) { + return; + } + let hit = null; + if (finger.results.length > 0) { + hit = this.getHitPoint(finger.results[0]); + } + if (hit == null) { + hit = this.getTouchLocation(); + } + if (hit == null) { + return; + } + this.goalPosition.sub(this.lastDragPosition); + // For world-space mode after initial placement, allow full Y-axis control + if (this.isWorldSpaceReady()) { + // Use the hit point directly without floor constraints + console.log('[processInput] Setting goalPosition.y to hit.y:', hit.y); + this.goalPosition.add(hit); + } + else if (this.placeOnWall === false) { + // Original logic for screen-space or initial world-space placement + const offset = hit.y - this.lastDragPosition.y; + // When a lower floor is found, keep the model at the same height, but + // drop the placement box to the floor. The model falls on select end. + if (offset < 0) { + this.placementBox.offsetHeight = offset / scale; + this.presentedScene.setShadowOffset(offset); + // Interpolate hit ray up to drag plane + const cameraPosition = vector3$1.copy(scene.getCamera().position); + const alpha = -offset / (cameraPosition.y - hit.y); + cameraPosition.multiplyScalar(alpha); + hit.multiplyScalar(1 - alpha).add(cameraPosition); + } + this.goalPosition.add(hit); + } + else { + this.goalPosition.add(hit); + } + this.lastDragPosition.copy(hit); + }); + } + } + applyXRControllerRotation(controller, pivot) { + if (!controller.userData.turning) { + return; + } + const angle = (controller.position.x - controller.userData.initialX) * ROTATION_SENSIVITY; + this.deltaRotation.setFromAxisAngle(AXIS_Y, angle); + pivot.quaternion.multiplyQuaternions(this.deltaRotation, pivot.quaternion); + } + handleScalingInXR(scene, delta) { + // Allow manual scaling for world-space mode after initial placement + if (this.xrMode === XRMode.WORLD_SPACE && !this.worldSpaceInitialPlacementDone) { + return; + } + if (this.xrController1 && this.xrController2 && this.isTwoHandInteraction) { + const dist = this.controllerSeparation(); + this.setScale(dist); + this.scaleLine.scale.z = -dist; + this.scaleLine.lookAt(this.xrController2.position); + } + const oldScale = scene.pivot.scale.x; + if (this.goalScale !== oldScale) { + const newScale = this.scaleDamper.update(oldScale, this.goalScale, delta, 1); + scene.pivot.scale.set(newScale, newScale, newScale); + } + } + updatePivotPosition(scene, delta) { + const { pivot } = scene; + const box = this.placementBox; + const boundingRadius = scene.boundingSphere.radius; + const goal = this.goalPosition; + const position = pivot.position; + let source = ChangeSource.NONE; + if (!goal.equals(position)) { + source = ChangeSource.USER_INTERACTION; + let { x, y, z } = position; + x = this.xDamper.update(x, goal.x, delta, boundingRadius); + y = this.yDamper.update(y, goal.y, delta, boundingRadius); + z = this.zDamper.update(z, goal.z, delta, boundingRadius); + position.set(x, y, z); + if (this.xrMode === XRMode.SCREEN_SPACE && !this.isTranslating) { + const offset = goal.y - y; + if (this.placementComplete && this.placeOnWall === false) { + box.offsetHeight = offset / scene.pivot.scale.x; + scene.setShadowOffset(offset); + } + else if (offset === 0) { + this.placementComplete = true; + box.show = false; + scene.setShadowIntensity(AR_SHADOW_INTENSITY); + } + } + if (this.xrMode !== XRMode.SCREEN_SPACE && goal.equals(position)) { + scene.setShadowIntensity(AR_SHADOW_INTENSITY); + } + // For world-space mode after initial placement, don't constrain Y position + if (this.isWorldSpaceReady()) { + // Allow full Y-axis movement without floor constraints + scene.setShadowIntensity(AR_SHADOW_INTENSITY); + } + } + // Handle automatic scaling for world-space mode only during initial placement + if (this.xrMode === XRMode.WORLD_SPACE && !this.worldSpaceInitialPlacementDone && this.goalScale !== pivot.scale.x) { + const newScale = this.scaleDamper.update(pivot.scale.x, this.goalScale, delta, 1); + pivot.scale.set(newScale, newScale, newScale); + } + scene.updateTarget(delta); + // Return the source so the caller can use it for camera-change events + return source; + } + updateYaw(scene, delta) { + // yaw must be updated last, since this also updates the shadow position. + quaternion.setFromAxisAngle(vector3$1.set(0, 1, 0), this.goalYaw); + const angle = scene.pivot.quaternion.angleTo(quaternion); + const angleStep = angle - this.yawDamper.update(angle, 0, delta, Math.PI); + scene.pivot.quaternion.rotateTowards(quaternion, angleStep); + } + updateMenuPanel(scene, box, delta) { + if (this.menuPanel) { + this.menuPanel.updateOpacity(delta); + this.menuPanel.updatePosition(scene.getCamera(), box); + } + } + applyXRInputToScene(delta) { + const scene = this.presentedScene; + const pivot = scene.pivot; + const box = this.placementBox; + this.updatePlacementBoxOpacity(box, delta); + this.updateTwoHandInteractionState(); + this.applyXRControllerRotations(pivot); + this.handleScalingInXR(scene, delta); + if (pivot.parent !== scene) { + // attached to controller instead + // when moving the model, the menu panel should disapear + this.updateMenuPanel(scene, box, delta); + return; + } + const source = this.updatePivotPosition(scene, delta); + this.updateYaw(scene, delta); + this.dispatchCameraChangeEvent(scene, source); + this.updateMenuPanel(scene, box, delta); + } + updatePlacementBoxOpacity(box, delta) { + // Use the new enhanced update method that includes distance scaling and visual state + const camera = this.presentedScene.getCamera(); + box.update(delta, camera.position); + // Update interaction state based on hover + const over1 = this.hover(this.xrController1); + const over2 = this.hover(this.xrController2); + const isHovered = (over1 || over2) && !this.isTwoHandInteraction; + // Set interaction state for visual feedback + box.setInteractionState(this.isTranslating || this.isRotating, isHovered); + } + updateTwoHandInteractionState() { + var _a, _b; + const bothSelected = ((_a = this.xrController1) === null || _a === void 0 ? void 0 : _a.userData.isSelected) && ((_b = this.xrController2) === null || _b === void 0 ? void 0 : _b.userData.isSelected); + this.isTwoHandInteraction = !!bothSelected; + } + applyXRControllerRotations(pivot) { + if (!this.isTwoHandInteraction) { + if (this.xrController1) + this.applyXRControllerRotation(this.xrController1, pivot); + if (this.xrController2) + this.applyXRControllerRotation(this.xrController2, pivot); + } + } + dispatchCameraChangeEvent(scene, source) { + scene.element.dispatchEvent(new CustomEvent('camera-change', { detail: { source } })); + } + updateXRControllerHover() { + const over1 = this.hover(this.xrController1); + const over2 = this.hover(this.xrController2); + const isHovered = (over1 || over2) && !this.isTwoHandInteraction; + // Use the new interaction state system + if (this.placementBox) { + this.placementBox.setInteractionState(this.isTranslating || this.isRotating, isHovered); + this.placementBox.show = isHovered; + } + } + /** + * Enable user interaction for world-space mode after initial automatic placement + */ + enableWorldSpaceUserInteraction() { + // Show placement box to indicate model can be moved + if (this.placementBox) { + this.placementBox.show = true; + } + // Enable shadow to show model is placed + if (this.presentedScene) { + this.presentedScene.setShadowIntensity(AR_SHADOW_INTENSITY); + } + } + handleFirstView(frame, time) { + // Skip moveToFloor for world-space mode after initial placement to prevent overriding + if (this.xrMode !== XRMode.WORLD_SPACE || !this.worldSpaceInitialPlacementDone) { + this.moveToAnchor(frame); + } + this.processInput(frame); + const delta = time - this.lastTick; + this.applyXRInputToScene(delta); + this.renderer.preRender(this.presentedScene, time, delta); + this.lastTick = time; + this.presentedScene.renderShadow(this.threeRenderer); + } + /** + * Only public to make it testable. + */ + onWebXRFrame(time, frame) { + if (this.xrMode !== XRMode.SCREEN_SPACE) { + this.updateXRControllerHover(); + } + this.frame = frame; + // increamenets a counter tracking how many frames have been processed sinces the session started + ++this.frames; + // refSpace and pose are used to get the user's current position and orientation in the XR session. + const refSpace = this.threeRenderer.xr.getReferenceSpace(); + const pose = frame.getViewerPose(refSpace); + // Tracking loss Detection. + // If pos is null, it means the XR system cannot currently track the user's position(e.g., the camera is covered or the env can't be recognized). + // Checks if we previously throught tracking was working + // Ensures that we don't report tracking loss too early(sometimes the first few frames can be null as the system initializes). + if (pose == null && this.tracking === true && this.frames > INIT_FRAMES) { + this.tracking = false; + this.dispatchEvent({ type: 'tracking', status: ARTracking.NOT_TRACKING }); + } + // Prevent rendering if there's no valid pose, no scene, or the scene isen't loaded. + const scene = this.presentedScene; + if (pose == null || scene == null || !scene.element.loaded) { + this.threeRenderer.clear(); + return; + } + // Tracking REcovery Detection. + // If tracking was previously lost, but now we have a valid pose, it meanse tracking has been recovered. + if (this.tracking === false) { + this.tracking = true; + this.dispatchEvent({ type: 'tracking', status: ARTracking.TRACKING }); + } + // WebXR may return multiple views, i.e. for headset AR. This + // isn't really supported at this point, but make a best-effort + // attempt to render other views also, using the first view + // as the main viewpoint. + let isFirstView = true; + for (const view of pose.views) { + this.updateView(view); + if (isFirstView) { + this.checkForDeferredCeilingPlacement(); + this.handleFirstView(frame, time); + isFirstView = false; + } + this.threeRenderer.render(scene, scene.getCamera()); + } + } + /** + * Calculate optimal scale and position for world-space AR presentation + * Similar to the SVXR:FrameModel approach for consistent model presentation + * + * This method implements automatic model framing for world-space AR sessions: + * 1. Calculates optimal viewing distance based on model size and minimum distance + * 2. Positions model at a drop angle below camera center for natural viewing + * 3. Automatically scales model to fit within viewport constraints + * 4. Ensures consistent presentation across different model sizes + * + * Note: This automatic placement only happens on the first session start. + * After initial placement, users have full control over model position, rotation, and scale. + */ + calculateWorldSpaceOptimalPlacement(scene, camera) { + // Get model bounding box half extents + const boundingBox = scene.boundingBox; + const halfExtent = { + x: (boundingBox.max.x - boundingBox.min.x) / 2, + y: (boundingBox.max.y - boundingBox.min.y) / 2, + z: (boundingBox.max.z - boundingBox.min.z) / 2 + }; + // Compute view distance (with extra padding for model-viewer) + const placementBoxPadding = PLACEMENT_BOX_EXTRA_PADDING; + const viewDistance = Math.max(MIN_WORLD_SPACE_DISTANCE + placementBoxPadding, 2 * Math.max(halfExtent.x, halfExtent.z) + placementBoxPadding); + // Compute ideal view position (drop angle below camera center) + const dropAngleRad = VIEW_DROP_DEGREES * Math.PI / 180; + const idealViewPosition = new Vector3(0, -viewDistance * Math.sin(dropAngleRad), -viewDistance * Math.cos(dropAngleRad)); + // Transform ideal view position to world space + const worldFromCamera = camera.matrixWorld; + const idealWorldPosition = idealViewPosition.clone().applyMatrix4(worldFromCamera); + // Compute turntable and vertical radii + const turntableRadius = Math.max(halfExtent.x, halfExtent.z) + placementBoxPadding; + const verticalRadius = halfExtent.y; + const turntableRadiusLimit = viewDistance * VIEW_RATIO; + const verticalRadiusLimit = viewDistance * VIEW_RATIO; + // Compute optimal scale + const verticalScale = verticalRadiusLimit / Math.max(verticalRadius, MIN_MODEL_SIZE); + const turntableScale = turntableRadiusLimit / Math.max(turntableRadius, MIN_MODEL_SIZE); + const optimalScale = Math.min(verticalScale, turntableScale); + // Offset so the model's base sits at the ideal world position + // (subtract scaled half height in Y) + const finalPosition = idealWorldPosition.clone().sub(new Vector3(0, optimalScale * halfExtent.y, 0)); + return { + position: finalPosition, + scale: optimalScale + }; + } + /** + * Calculate min/max scale for world-space AR, SVXR-style + */ + calculateWorldSpaceScaleLimits(scene) { + const size = scene.size; + const largestDimension = Math.max(size.x, size.y, size.z); + const smallestDimension = Math.max(Math.min(size.x, size.y, size.z), MODEL_SIZE_EPSILON); + const scaleMin = MIN_MODEL_SIZE / Math.max(largestDimension, MODEL_SIZE_EPSILON); + const scaleMax = MAX_MODEL_SIZE / Math.max(smallestDimension, MODEL_SIZE_EPSILON); + // Clamp to initial scale if needed + this.minScale = Math.min(scaleMin, scaleMax, this.goalScale); + this.maxScale = Math.max(scaleMin, scaleMax, this.goalScale); + } +} + +function clone( source ) { + + const sourceLookup = new Map(); + const cloneLookup = new Map(); + + const clone = source.clone(); + + parallelTraverse( source, clone, function ( sourceNode, clonedNode ) { + + sourceLookup.set( clonedNode, sourceNode ); + cloneLookup.set( sourceNode, clonedNode ); + + } ); + + clone.traverse( function ( node ) { + + if ( ! node.isSkinnedMesh ) return; + + const clonedMesh = node; + const sourceMesh = sourceLookup.get( node ); + const sourceBones = sourceMesh.skeleton.bones; + + clonedMesh.skeleton = sourceMesh.skeleton.clone(); + clonedMesh.bindMatrix.copy( sourceMesh.bindMatrix ); + + clonedMesh.skeleton.bones = sourceBones.map( function ( bone ) { + + return cloneLookup.get( bone ); + + } ); + + clonedMesh.bind( clonedMesh.skeleton, clonedMesh.bindMatrix ); + + } ); + + return clone; + +} + +function parallelTraverse( a, b, callback ) { + + callback( a, b ); + + for ( let i = 0; i < a.children.length; i ++ ) { + + parallelTraverse( a.children[ i ], b.children[ i ], callback ); + + } + +} + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const $prepared = Symbol('prepared'); +const $prepare = Symbol('prepare'); +const $preparedGLTF = Symbol('preparedGLTF'); +const $clone = Symbol('clone'); +/** + * Represents the preparation and enhancement of the output of a Three.js + * GLTFLoader (a Three.js-flavor "GLTF"), to make it suitable for optimal, + * correct viewing in a given presentation context and also make the cloning + * process more explicit and legible. + * + * A GLTFInstance is API-compatible with a Three.js-flavor "GLTF", so it should + * be considered to be interchangeable with the loaded result of a GLTFLoader. + * + * This basic implementation only implements trivial preparation and enhancement + * of a GLTF. These operations are intended to be enhanced by inheriting + * classes. + */ +class GLTFInstance { + /** + * Prepares a given GLTF for presentation and future cloning. A GLTF that is + * prepared can safely have this method invoked on it multiple times; it will + * only be prepared once, including after being cloned. + */ + static prepare(source) { + if (source.scene == null) { + throw new Error('Model does not have a scene'); + } + if (source[$prepared]) { + return source; + } + const prepared = this[$prepare](source); + // NOTE: ES5 Symbol polyfill is not compatible with spread operator + // so {...prepared, [$prepared]: true} does not work + prepared[$prepared] = true; + return prepared; + } + /** + * Override in an inheriting class to apply specialty one-time preparations + * for a given input GLTF. + */ + static [$prepare](source) { + // TODO(#195,#1003): We don't currently support multiple scenes, so we don't + // bother preparing extra scenes for now: + const { scene } = source; + const scenes = [scene]; + return Object.assign(Object.assign({}, source), { scene, scenes }); + } + get parser() { + return this[$preparedGLTF].parser; + } + get animations() { + return this[$preparedGLTF].animations; + } + get scene() { + return this[$preparedGLTF].scene; + } + get scenes() { + return this[$preparedGLTF].scenes; + } + get cameras() { + return this[$preparedGLTF].cameras; + } + get asset() { + return this[$preparedGLTF].asset; + } + get userData() { + return this[$preparedGLTF].userData; + } + constructor(preparedGLTF) { + this[$preparedGLTF] = preparedGLTF; + } + /** + * Creates and returns a copy of this instance. + */ + clone() { + const GLTFInstanceConstructor = this.constructor; + const clonedGLTF = this[$clone](); + return new GLTFInstanceConstructor(clonedGLTF); + } + /** + * Cleans up any retained memory that might not otherwise be released when + * this instance is done being used. + */ + dispose() { + this.scenes.forEach((scene) => { + scene.traverse((object) => { + const mesh = object; + if (!mesh.material) { + return; + } + const materials = Array.isArray(mesh.material) ? mesh.material : [mesh.material]; + materials.forEach(material => { + // Explicitly dispose any textures assigned to this material + for (const propertyName in material) { + const texture = material[propertyName]; + if (texture instanceof Texture$1) { + const image = texture.source.data; + if (image.close != null) { + image.close(); + } + texture.dispose(); + } + } + material.dispose(); + }); + mesh.geometry.dispose(); + }); + }); + } + /** + * Override in an inheriting class to implement specialized cloning strategies + */ + [$clone]() { + const source = this[$preparedGLTF]; + // TODO(#195,#1003): We don't currently support multiple scenes, so we don't + // bother cloning extra scenes for now: + const scene = clone(this.scene); + cloneVariantMaterials(scene, this.scene); + const scenes = [scene]; + const userData = source.userData ? Object.assign({}, source.userData) : {}; + return Object.assign(Object.assign({}, source), { scene, scenes, userData }); + } +} +// Variant materials and original material instances are stored under +// object.userData.variantMaterials/originalMaterial. +// Three.js Object3D.clone() doesn't clone Three.js objects under +// .userData so this function is a workaround. +const cloneVariantMaterials = (dst, src) => { + traversePair(dst, src, (dst, src) => { + if (src.userData.variantMaterials !== undefined) { + dst.userData.variantMaterials = new Map(src.userData.variantMaterials); + } + if (src.userData.variantData !== undefined) { + dst.userData.variantData = src.userData.variantData; + } + if (src.userData.originalMaterial !== undefined) { + dst.userData.originalMaterial = src.userData.originalMaterial; + } + }); +}; +const traversePair = (obj1, obj2, callback) => { + callback(obj1, obj2); + // Assume obj1 and obj2 have the same tree structure + for (let i = 0; i < obj1.children.length; i++) { + traversePair(obj1.children[i], obj2.children[i], callback); + } +}; + +const $threeGLTF = Symbol('threeGLTF'); +const $gltf = Symbol('gltf'); +const $gltfElementMap = Symbol('gltfElementMap'); +const $threeObjectMap = Symbol('threeObjectMap'); +const $parallelTraverseThreeScene = Symbol('parallelTraverseThreeScene'); +const $correlateOriginalThreeGLTF = Symbol('correlateOriginalThreeGLTF'); +const $correlateCloneThreeGLTF = Symbol('correlateCloneThreeGLTF'); +/** + * The Three.js GLTFLoader provides us with an in-memory representation + * of a glTF in terms of Three.js constructs. It also provides us with a copy + * of the deserialized glTF without any Three.js decoration, and a mapping of + * glTF elements to their corresponding Three.js constructs. + * + * A CorrelatedSceneGraph exposes a synchronously available mapping of glTF + * element references to their corresponding Three.js constructs. + */ +class CorrelatedSceneGraph { + /** + * Produce a CorrelatedSceneGraph from a naturally generated Three.js GLTF. + * Such GLTFs are produced by Three.js' GLTFLoader, and contain cached + * details that expedite the correlation step. + * + * If a CorrelatedSceneGraph is provided as the second argument, re-correlates + * a cloned Three.js GLTF with a clone of the glTF hierarchy used to produce + * the upstream Three.js GLTF that the clone was created from. The result + * CorrelatedSceneGraph is representative of the cloned hierarchy. + */ + static from(threeGLTF, upstreamCorrelatedSceneGraph) { + if (upstreamCorrelatedSceneGraph != null) { + return this[$correlateCloneThreeGLTF](threeGLTF, upstreamCorrelatedSceneGraph); + } + else { + return this[$correlateOriginalThreeGLTF](threeGLTF); + } + } + static [$correlateOriginalThreeGLTF](threeGLTF) { + const gltf = threeGLTF.parser.json; + const associations = threeGLTF.parser.associations; + const gltfElementMap = new Map(); + const defaultMaterial = { name: 'Default' }; + const defaultReference = { index: -1 }; + for (const threeMaterial of associations.keys()) { + // Note: GLTFLoader creates a "default" material that has no + // corresponding glTF element in the case that no materials are + // specified in the source glTF. In this case we append a default + // material to allow this to be operated upon. + if (threeMaterial instanceof Material$1 && + associations.get(threeMaterial) == null) { + if (defaultReference.index < 0) { + if (gltf.materials == null) { + gltf.materials = []; + } + defaultReference.index = gltf.materials.length; + gltf.materials.push(defaultMaterial); + } + threeMaterial.name = defaultMaterial.name; + associations.set(threeMaterial, { materials: defaultReference.index }); + } + } + // Creates a reverse look up map (gltf-object to Three-object) + for (const [threeObject, gltfMappings] of associations) { + if (gltfMappings) { + threeObject.userData = threeObject.userData || {}; + threeObject.userData.associations = gltfMappings; + } + for (const mapping in gltfMappings) { + if (mapping != null && mapping !== 'primitives') { + const type = mapping; + const elementArray = gltf[type] || []; + const gltfElement = elementArray[gltfMappings[type]]; + if (gltfElement == null) { + // TODO: Maybe throw here... + continue; + } + let threeObjects = gltfElementMap.get(gltfElement); + if (threeObjects == null) { + threeObjects = new Set(); + gltfElementMap.set(gltfElement, threeObjects); + } + threeObjects.add(threeObject); + } + } + } + return new CorrelatedSceneGraph(threeGLTF, gltf, associations, gltfElementMap); + } + /** + * Transfers the association between a raw glTF and a Three.js scene graph + * to a clone of the Three.js scene graph, resolved as a new + * CorrelatedSceneGraph instance. + */ + static [$correlateCloneThreeGLTF](cloneThreeGLTF, upstreamCorrelatedSceneGraph) { + const originalThreeGLTF = upstreamCorrelatedSceneGraph.threeGLTF; + const originalGLTF = upstreamCorrelatedSceneGraph.gltf; + const cloneGLTF = JSON.parse(JSON.stringify(originalGLTF)); + const cloneThreeObjectMap = new Map(); + const cloneGLTFElementMap = new Map(); + for (let i = 0; i < originalThreeGLTF.scenes.length; i++) { + this[$parallelTraverseThreeScene](originalThreeGLTF.scenes[i], cloneThreeGLTF.scenes[i], (object, cloneObject) => { + const elementReference = upstreamCorrelatedSceneGraph.threeObjectMap.get(object); + if (elementReference == null) { + return; + } + for (const mapping in elementReference) { + if (mapping != null && mapping !== 'primitives') { + const type = mapping; + const index = elementReference[type]; + const cloneElement = cloneGLTF[type][index]; + const mappings = cloneThreeObjectMap.get(cloneObject) || {}; + mappings[type] = index; + cloneThreeObjectMap.set(cloneObject, mappings); + const cloneObjects = cloneGLTFElementMap.get(cloneElement) || new Set(); + cloneObjects.add(cloneObject); + cloneGLTFElementMap.set(cloneElement, cloneObjects); + } + } + }); + } + return new CorrelatedSceneGraph(cloneThreeGLTF, cloneGLTF, cloneThreeObjectMap, cloneGLTFElementMap); + } + /** + * Traverses two presumably identical Three.js scenes, and invokes a + * callback for each Object3D or Material encountered, including the initial + * scene. Adapted from + * https://github.com/mrdoob/three.js/blob/7c1424c5819ab622a346dd630ee4e6431388021e/examples/jsm/utils/SkeletonUtils.js#L586-L596 + */ + static [$parallelTraverseThreeScene](sceneOne, sceneTwo, callback) { + const traverse = (a, b) => { + callback(a, b); + if (a.isObject3D) { + const meshA = a; + const meshB = b; + if (meshA.material) { + if (Array.isArray(meshA.material)) { + for (let i = 0; i < meshA.material.length; ++i) { + callback(meshA.material[i], meshB.material[i]); + } + } + else { + callback(meshA.material, meshB.material); + } + } + for (let i = 0; i < a.children.length; ++i) { + traverse(a.children[i], b.children[i]); + } + } + }; + traverse(sceneOne, sceneTwo); + } + /** + * The source Three.js GLTF result given to us by a Three.js GLTFLoader. + */ + get threeGLTF() { + return this[$threeGLTF]; + } + /** + * The in-memory deserialized source glTF. + */ + get gltf() { + return this[$gltf]; + } + /** + * A Map of glTF element references to arrays of corresponding Three.js + * object references. Three.js objects are kept in arrays to account for + * cases where more than one Three.js object corresponds to a single glTF + * element. + */ + get gltfElementMap() { + return this[$gltfElementMap]; + } + /** + * A map of individual Three.js objects to corresponding elements in the + * source glTF. + */ + get threeObjectMap() { + return this[$threeObjectMap]; + } + constructor(threeGLTF, gltf, threeObjectMap, gltfElementMap) { + this[$threeGLTF] = threeGLTF; + this[$gltf] = gltf; + this[$gltfElementMap] = gltfElementMap; + this[$threeObjectMap] = threeObjectMap; + } +} + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const $correlatedSceneGraph = Symbol('correlatedSceneGraph'); +/** + * This specialization of GLTFInstance collects all of the processing needed + * to prepare a model and to clone it making special considerations for + * use cases. + */ +class ModelViewerGLTFInstance extends GLTFInstance { + /** + * @override + */ + static [$prepare](source) { + const prepared = super[$prepare](source); + if (prepared[$correlatedSceneGraph] == null) { + prepared[$correlatedSceneGraph] = CorrelatedSceneGraph.from(prepared); + } + const { scene } = prepared; + const nullSphere = new Sphere(undefined, Infinity); + scene.traverse((node) => { + // Set a high renderOrder while we're here to ensure the model + // always renders on top of the sky sphere + node.renderOrder = 1000; + // Three.js seems to cull some animated models incorrectly. Since we + // expect to view our whole scene anyway, we turn off the frustum + // culling optimization here. + node.frustumCulled = false; + // Animations for objects without names target their UUID instead. When + // objects are cloned, they get new UUIDs which the animation can't + // find. To fix this, we assign their UUID as their name. + if (!node.name) { + node.name = node.uuid; + } + const mesh = node; + if (mesh.material) { + const { geometry } = mesh; + mesh.castShadow = true; + if (mesh.isSkinnedMesh) { + // Akin to disabling frustum culling above, we have to also manually + // disable the bounds to make raycasting correct for skinned meshes. + geometry.boundingSphere = nullSphere; + // The bounding box is set in GLTFLoader by the accessor bounds, which + // are not updated with animation. + geometry.boundingBox = null; + } + const material = mesh.material; + if (material.isMeshBasicMaterial === true) { + material.toneMapped = false; + } + // This makes shadows better for non-manifold meshes + material.shadowSide = FrontSide; + // Fixes an edge case with unused extra UV-coords being incorrectly + // referenced by three.js; remove when + // https://github.com/mrdoob/three.js/pull/23974 is merged. + if (material.aoMap) { + const { gltf, threeObjectMap } = prepared[$correlatedSceneGraph]; + const gltfRef = threeObjectMap.get(material); + if (gltf.materials != null && gltfRef != null && + gltfRef.materials != null) { + const gltfMaterial = gltf.materials[gltfRef.materials]; + if (gltfMaterial.occlusionTexture && + gltfMaterial.occlusionTexture.texCoord === 0 && + geometry.attributes.uv != null) { + geometry.setAttribute('uv2', geometry.attributes.uv); + } + } + } + } + }); + return prepared; + } + get correlatedSceneGraph() { + return this[$preparedGLTF][$correlatedSceneGraph]; + } + /** + * @override + */ + [$clone]() { + const clone = super[$clone](); + const sourceUUIDToClonedMaterial = new Map(); + clone.scene.traverse((node) => { + // Materials aren't cloned when cloning meshes; geometry + // and materials are copied by reference. This is necessary + // for the same model to be used twice with different + // scene-graph operations. + const mesh = node; + if (mesh.material) { + const material = mesh.material; + if (material != null) { + if (sourceUUIDToClonedMaterial.has(material.uuid)) { + mesh.material = sourceUUIDToClonedMaterial.get(material.uuid); + return; + } + mesh.material = material.clone(); + sourceUUIDToClonedMaterial.set(material.uuid, mesh.material); + } + } + const light = node; + if (light.target !== undefined) { + // The target's parent is lost in the cloning process, but in + // GLTFLoader, all light targets are children of their light. + light.add(light.target); + } + }); + // Cross-correlate the scene graph by relying on information in the + // current scene graph; without this step, relationships between the + // Three.js object graph and the glTF scene graph will be lost. + clone[$correlatedSceneGraph] = + CorrelatedSceneGraph.from(clone, this.correlatedSceneGraph); + return clone; + } +} + +/** + * @monogrid/gainmap-js v3.1.0 + * With ❤️, by MONOGRID + */ + + +const getBufferForType = (type, width, height) => { + let out; + switch (type) { + case UnsignedByteType: + out = new Uint8ClampedArray(width * height * 4); + break; + case HalfFloatType: + out = new Uint16Array(width * height * 4); + break; + case UnsignedIntType: + out = new Uint32Array(width * height * 4); + break; + case ByteType: + out = new Int8Array(width * height * 4); + break; + case ShortType: + out = new Int16Array(width * height * 4); + break; + case IntType: + out = new Int32Array(width * height * 4); + break; + case FloatType: + out = new Float32Array(width * height * 4); + break; + default: + throw new Error('Unsupported data type'); + } + return out; +}; +let _canReadPixelsResult; +/** + * Test if this browser implementation can correctly read pixels from the specified + * Render target type. + * + * Runs only once + * + * @param type + * @param renderer + * @param camera + * @param renderTargetOptions + * @returns + */ +const canReadPixels = (type, renderer, camera, renderTargetOptions) => { + if (_canReadPixelsResult !== undefined) + return _canReadPixelsResult; + const testRT = new WebGLRenderTarget(1, 1, renderTargetOptions); + renderer.setRenderTarget(testRT); + const mesh = new Mesh(new PlaneGeometry(), new MeshBasicMaterial({ color: 0xffffff })); + renderer.render(mesh, camera); + renderer.setRenderTarget(null); + const out = getBufferForType(type, testRT.width, testRT.height); + renderer.readRenderTargetPixels(testRT, 0, 0, testRT.width, testRT.height, out); + testRT.dispose(); + mesh.geometry.dispose(); + mesh.material.dispose(); + _canReadPixelsResult = out[0] !== 0; + return _canReadPixelsResult; +}; +/** + * Utility class used for rendering a texture with a material + * + * @category Core + * @group Core + */ +class QuadRenderer { + /** + * Constructs a new QuadRenderer + * + * @param options Parameters for this QuadRenderer + */ + constructor(options) { + var _a, _b, _c, _d, _e, _f, _g, _h, _j, _k, _l, _m, _o, _p, _q, _r; + this._rendererIsDisposable = false; + this._supportsReadPixels = true; + /** + * Renders the input texture using the specified material + */ + this.render = () => { + this._renderer.setRenderTarget(this._renderTarget); + try { + this._renderer.render(this._scene, this._camera); + } + catch (e) { + this._renderer.setRenderTarget(null); + throw e; + } + this._renderer.setRenderTarget(null); + }; + this._width = options.width; + this._height = options.height; + this._type = options.type; + this._colorSpace = options.colorSpace; + const rtOptions = { + // fixed options + format: RGBAFormat, + depthBuffer: false, + stencilBuffer: false, + // user options + type: this._type, // set in class property + colorSpace: this._colorSpace, // set in class property + anisotropy: ((_a = options.renderTargetOptions) === null || _a === void 0 ? void 0 : _a.anisotropy) !== undefined ? (_b = options.renderTargetOptions) === null || _b === void 0 ? void 0 : _b.anisotropy : 1, + generateMipmaps: ((_c = options.renderTargetOptions) === null || _c === void 0 ? void 0 : _c.generateMipmaps) !== undefined ? (_d = options.renderTargetOptions) === null || _d === void 0 ? void 0 : _d.generateMipmaps : false, + magFilter: ((_e = options.renderTargetOptions) === null || _e === void 0 ? void 0 : _e.magFilter) !== undefined ? (_f = options.renderTargetOptions) === null || _f === void 0 ? void 0 : _f.magFilter : LinearFilter, + minFilter: ((_g = options.renderTargetOptions) === null || _g === void 0 ? void 0 : _g.minFilter) !== undefined ? (_h = options.renderTargetOptions) === null || _h === void 0 ? void 0 : _h.minFilter : LinearFilter, + samples: ((_j = options.renderTargetOptions) === null || _j === void 0 ? void 0 : _j.samples) !== undefined ? (_k = options.renderTargetOptions) === null || _k === void 0 ? void 0 : _k.samples : undefined, + wrapS: ((_l = options.renderTargetOptions) === null || _l === void 0 ? void 0 : _l.wrapS) !== undefined ? (_m = options.renderTargetOptions) === null || _m === void 0 ? void 0 : _m.wrapS : ClampToEdgeWrapping, + wrapT: ((_o = options.renderTargetOptions) === null || _o === void 0 ? void 0 : _o.wrapT) !== undefined ? (_p = options.renderTargetOptions) === null || _p === void 0 ? void 0 : _p.wrapT : ClampToEdgeWrapping + }; + this._material = options.material; + if (options.renderer) { + this._renderer = options.renderer; + } + else { + this._renderer = QuadRenderer.instantiateRenderer(); + this._rendererIsDisposable = true; + } + this._scene = new Scene(); + this._camera = new OrthographicCamera(); + this._camera.position.set(0, 0, 10); + this._camera.left = -0.5; + this._camera.right = 0.5; + this._camera.top = 0.5; + this._camera.bottom = -0.5; + this._camera.updateProjectionMatrix(); + if (!canReadPixels(this._type, this._renderer, this._camera, rtOptions)) { + let alternativeType; + switch (this._type) { + case HalfFloatType: + alternativeType = this._renderer.extensions.has('EXT_color_buffer_float') ? FloatType : undefined; + break; + } + if (alternativeType !== undefined) { + console.warn(`This browser does not support reading pixels from ${this._type} RenderTargets, switching to ${FloatType}`); + this._type = alternativeType; + } + else { + this._supportsReadPixels = false; + console.warn('This browser dos not support toArray or toDataTexture, calls to those methods will result in an error thrown'); + } + } + this._quad = new Mesh(new PlaneGeometry(), this._material); + this._quad.geometry.computeBoundingBox(); + this._scene.add(this._quad); + this._renderTarget = new WebGLRenderTarget(this.width, this.height, rtOptions); + this._renderTarget.texture.mapping = ((_q = options.renderTargetOptions) === null || _q === void 0 ? void 0 : _q.mapping) !== undefined ? (_r = options.renderTargetOptions) === null || _r === void 0 ? void 0 : _r.mapping : UVMapping; + } + /** + * Instantiates a temporary renderer + * + * @returns + */ + static instantiateRenderer() { + const renderer = new WebGLRenderer(); + renderer.setSize(128, 128); + // renderer.outputColorSpace = SRGBColorSpace + // renderer.toneMapping = LinearToneMapping + // renderer.debug.checkShaderErrors = false + // this._rendererIsDisposable = true + return renderer; + } + /** + * Obtains a Buffer containing the rendered texture. + * + * @throws Error if the browser cannot read pixels from this RenderTarget type. + * @returns a TypedArray containing RGBA values from this renderer + */ + toArray() { + if (!this._supportsReadPixels) + throw new Error('Can\'t read pixels in this browser'); + const out = getBufferForType(this._type, this._width, this._height); + this._renderer.readRenderTargetPixels(this._renderTarget, 0, 0, this._width, this._height, out); + return out; + } + /** + * Performs a readPixel operation in the renderTarget + * and returns a DataTexture containing the read data + * + * @param options options + * @returns + */ + toDataTexture(options) { + const returnValue = new DataTexture( + // fixed values + this.toArray(), this.width, this.height, RGBAFormat, this._type, + // user values + (options === null || options === void 0 ? void 0 : options.mapping) || UVMapping, (options === null || options === void 0 ? void 0 : options.wrapS) || ClampToEdgeWrapping, (options === null || options === void 0 ? void 0 : options.wrapT) || ClampToEdgeWrapping, (options === null || options === void 0 ? void 0 : options.magFilter) || LinearFilter, (options === null || options === void 0 ? void 0 : options.minFilter) || LinearFilter, (options === null || options === void 0 ? void 0 : options.anisotropy) || 1, + // fixed value + LinearSRGBColorSpace); + // set this afterwards, we can't set it in constructor + returnValue.generateMipmaps = (options === null || options === void 0 ? void 0 : options.generateMipmaps) !== undefined ? options === null || options === void 0 ? void 0 : options.generateMipmaps : false; + return returnValue; + } + /** + * If using a disposable renderer, it will dispose it. + */ + disposeOnDemandRenderer() { + this._renderer.setRenderTarget(null); + if (this._rendererIsDisposable) { + this._renderer.dispose(); + this._renderer.forceContextLoss(); + } + } + /** + * Will dispose of **all** assets used by this renderer. + * + * + * @param disposeRenderTarget will dispose of the renderTarget which will not be usable later + * set this to true if you passed the `renderTarget.texture` to a `PMREMGenerator` + * or are otherwise done with it. + * + * @example + * ```js + * const loader = new HDRJPGLoader(renderer) + * const result = await loader.loadAsync('gainmap.jpeg') + * const mesh = new Mesh(geometry, new MeshBasicMaterial({ map: result.renderTarget.texture }) ) + * // DO NOT dispose the renderTarget here, + * // it is used directly in the material + * result.dispose() + * ``` + * + * @example + * ```js + * const loader = new HDRJPGLoader(renderer) + * const pmremGenerator = new PMREMGenerator( renderer ); + * const result = await loader.loadAsync('gainmap.jpeg') + * const envMap = pmremGenerator.fromEquirectangular(result.renderTarget.texture) + * const mesh = new Mesh(geometry, new MeshStandardMaterial({ envMap }) ) + * // renderTarget can be disposed here + * // because it was used to generate a PMREM texture + * result.dispose(true) + * ``` + */ + dispose(disposeRenderTarget) { + this.disposeOnDemandRenderer(); + if (disposeRenderTarget) { + this.renderTarget.dispose(); + } + // dispose shader material texture uniforms + if (this.material instanceof ShaderMaterial) { + Object.values(this.material.uniforms).forEach(v => { + if (v.value instanceof Texture$1) + v.value.dispose(); + }); + } + // dispose other material properties + Object.values(this.material).forEach(value => { + if (value instanceof Texture$1) + value.dispose(); + }); + this.material.dispose(); + this._quad.geometry.dispose(); + } + /** + * Width of the texture + */ + get width() { return this._width; } + set width(value) { + this._width = value; + this._renderTarget.setSize(this._width, this._height); + } + /** + * Height of the texture + */ + get height() { return this._height; } + set height(value) { + this._height = value; + this._renderTarget.setSize(this._width, this._height); + } + /** + * The renderer used + */ + get renderer() { return this._renderer; } + /** + * The `WebGLRenderTarget` used. + */ + get renderTarget() { return this._renderTarget; } + set renderTarget(value) { + this._renderTarget = value; + this._width = value.width; + this._height = value.height; + // this._type = value.texture.type + } + /** + * The `Material` used. + */ + get material() { return this._material; } + /** + * + */ + get type() { return this._type; } + get colorSpace() { return this._colorSpace; } +} + +/** + * @monogrid/gainmap-js v3.1.0 + * With ❤️, by MONOGRID + */ + + +const vertexShader = /* glsl */ ` +varying vec2 vUv; + +void main() { + vUv = uv; + gl_Position = projectionMatrix * modelViewMatrix * vec4(position, 1.0); +} +`; +const fragmentShader = /* glsl */ ` +// min half float value +#define HALF_FLOAT_MIN vec3( -65504, -65504, -65504 ) +// max half float value +#define HALF_FLOAT_MAX vec3( 65504, 65504, 65504 ) + +uniform sampler2D sdr; +uniform sampler2D gainMap; +uniform vec3 gamma; +uniform vec3 offsetHdr; +uniform vec3 offsetSdr; +uniform vec3 gainMapMin; +uniform vec3 gainMapMax; +uniform float weightFactor; + +varying vec2 vUv; + +void main() { + vec3 rgb = texture2D( sdr, vUv ).rgb; + vec3 recovery = texture2D( gainMap, vUv ).rgb; + vec3 logRecovery = pow( recovery, gamma ); + vec3 logBoost = gainMapMin * ( 1.0 - logRecovery ) + gainMapMax * logRecovery; + vec3 hdrColor = (rgb + offsetSdr) * exp2( logBoost * weightFactor ) - offsetHdr; + vec3 clampedHdrColor = max( HALF_FLOAT_MIN, min( HALF_FLOAT_MAX, hdrColor )); + gl_FragColor = vec4( clampedHdrColor , 1.0 ); +} +`; +/** + * A Material which is able to decode the Gainmap into a full HDR Representation + * + * @category Materials + * @group Materials + */ +class GainMapDecoderMaterial extends ShaderMaterial { + /** + * + * @param params + */ + constructor({ gamma, offsetHdr, offsetSdr, gainMapMin, gainMapMax, maxDisplayBoost, hdrCapacityMin, hdrCapacityMax, sdr, gainMap }) { + super({ + name: 'GainMapDecoderMaterial', + vertexShader, + fragmentShader, + uniforms: { + sdr: { value: sdr }, + gainMap: { value: gainMap }, + gamma: { value: new Vector3(1.0 / gamma[0], 1.0 / gamma[1], 1.0 / gamma[2]) }, + offsetHdr: { value: new Vector3().fromArray(offsetHdr) }, + offsetSdr: { value: new Vector3().fromArray(offsetSdr) }, + gainMapMin: { value: new Vector3().fromArray(gainMapMin) }, + gainMapMax: { value: new Vector3().fromArray(gainMapMax) }, + weightFactor: { + value: (Math.log2(maxDisplayBoost) - hdrCapacityMin) / (hdrCapacityMax - hdrCapacityMin) + } + }, + blending: NoBlending, + depthTest: false, + depthWrite: false + }); + this._maxDisplayBoost = maxDisplayBoost; + this._hdrCapacityMin = hdrCapacityMin; + this._hdrCapacityMax = hdrCapacityMax; + this.needsUpdate = true; + this.uniformsNeedUpdate = true; + } + get sdr() { return this.uniforms.sdr.value; } + set sdr(value) { this.uniforms.sdr.value = value; } + get gainMap() { return this.uniforms.gainMap.value; } + set gainMap(value) { this.uniforms.gainMap.value = value; } + /** + * @see {@link GainMapMetadata.offsetHdr} + */ + get offsetHdr() { return this.uniforms.offsetHdr.value.toArray(); } + set offsetHdr(value) { this.uniforms.offsetHdr.value.fromArray(value); } + /** + * @see {@link GainMapMetadata.offsetSdr} + */ + get offsetSdr() { return this.uniforms.offsetSdr.value.toArray(); } + set offsetSdr(value) { this.uniforms.offsetSdr.value.fromArray(value); } + /** + * @see {@link GainMapMetadata.gainMapMin} + */ + get gainMapMin() { return this.uniforms.gainMapMin.value.toArray(); } + set gainMapMin(value) { this.uniforms.gainMapMin.value.fromArray(value); } + /** + * @see {@link GainMapMetadata.gainMapMax} + */ + get gainMapMax() { return this.uniforms.gainMapMax.value.toArray(); } + set gainMapMax(value) { this.uniforms.gainMapMax.value.fromArray(value); } + /** + * @see {@link GainMapMetadata.gamma} + */ + get gamma() { + const g = this.uniforms.gamma.value; + return [1 / g.x, 1 / g.y, 1 / g.z]; + } + set gamma(value) { + const g = this.uniforms.gamma.value; + g.x = 1.0 / value[0]; + g.y = 1.0 / value[1]; + g.z = 1.0 / value[2]; + } + /** + * @see {@link GainMapMetadata.hdrCapacityMin} + * @remarks Logarithmic space + */ + get hdrCapacityMin() { return this._hdrCapacityMin; } + set hdrCapacityMin(value) { + this._hdrCapacityMin = value; + this.calculateWeight(); + } + /** + * @see {@link GainMapMetadata.hdrCapacityMin} + * @remarks Logarithmic space + */ + get hdrCapacityMax() { return this._hdrCapacityMax; } + set hdrCapacityMax(value) { + this._hdrCapacityMax = value; + this.calculateWeight(); + } + /** + * @see {@link GainmapDecodingParameters.maxDisplayBoost} + * @remarks Non Logarithmic space + */ + get maxDisplayBoost() { return this._maxDisplayBoost; } + set maxDisplayBoost(value) { + this._maxDisplayBoost = Math.max(1, Math.min(65504, value)); + this.calculateWeight(); + } + calculateWeight() { + const val = (Math.log2(this._maxDisplayBoost) - this._hdrCapacityMin) / (this._hdrCapacityMax - this._hdrCapacityMin); + this.uniforms.weightFactor.value = Math.max(0, Math.min(1, val)); + } +} + +class GainMapNotFoundError extends Error { +} + +class XMPMetadataNotFoundError extends Error { +} + +const getXMLValue = (xml, tag, defaultValue) => { + // Check for attribute format first: tag="value" + const attributeMatch = new RegExp(`${tag}="([^"]*)"`, 'i').exec(xml); + if (attributeMatch) + return attributeMatch[1]; + // Check for tag format: value or value... + const tagMatch = new RegExp(`<${tag}[^>]*>([\\s\\S]*?)`, 'i').exec(xml); + if (tagMatch) { + // Check if it contains rdf:li elements + const liValues = tagMatch[1].match(/([^<]*)<\/rdf:li>/g); + if (liValues && liValues.length === 3) { + return liValues.map(v => v.replace(/<\/?rdf:li>/g, '')); + } + return tagMatch[1].trim(); + } + if (defaultValue !== undefined) + return defaultValue; + throw new Error(`Can't find ${tag} in gainmap metadata`); +}; +const extractXMP = (input) => { + let str; + // support node test environment + if (typeof TextDecoder !== 'undefined') + str = new TextDecoder().decode(input); + else + str = input.toString(); + let start = str.indexOf('', start); + const xmpBlock = str.slice(start, end + 10); + try { + const gainMapMin = getXMLValue(xmpBlock, 'hdrgm:GainMapMin', '0'); + const gainMapMax = getXMLValue(xmpBlock, 'hdrgm:GainMapMax'); + const gamma = getXMLValue(xmpBlock, 'hdrgm:Gamma', '1'); + const offsetSDR = getXMLValue(xmpBlock, 'hdrgm:OffsetSDR', '0.015625'); + const offsetHDR = getXMLValue(xmpBlock, 'hdrgm:OffsetHDR', '0.015625'); + // These are always attributes, so we can use a simpler regex + const hdrCapacityMinMatch = /hdrgm:HDRCapacityMin="([^"]*)"/.exec(xmpBlock); + const hdrCapacityMin = hdrCapacityMinMatch ? hdrCapacityMinMatch[1] : '0'; + const hdrCapacityMaxMatch = /hdrgm:HDRCapacityMax="([^"]*)"/.exec(xmpBlock); + if (!hdrCapacityMaxMatch) + throw new Error('Incomplete gainmap metadata'); + const hdrCapacityMax = hdrCapacityMaxMatch[1]; + return { + gainMapMin: Array.isArray(gainMapMin) ? gainMapMin.map(v => parseFloat(v)) : [parseFloat(gainMapMin), parseFloat(gainMapMin), parseFloat(gainMapMin)], + gainMapMax: Array.isArray(gainMapMax) ? gainMapMax.map(v => parseFloat(v)) : [parseFloat(gainMapMax), parseFloat(gainMapMax), parseFloat(gainMapMax)], + gamma: Array.isArray(gamma) ? gamma.map(v => parseFloat(v)) : [parseFloat(gamma), parseFloat(gamma), parseFloat(gamma)], + offsetSdr: Array.isArray(offsetSDR) ? offsetSDR.map(v => parseFloat(v)) : [parseFloat(offsetSDR), parseFloat(offsetSDR), parseFloat(offsetSDR)], + offsetHdr: Array.isArray(offsetHDR) ? offsetHDR.map(v => parseFloat(v)) : [parseFloat(offsetHDR), parseFloat(offsetHDR), parseFloat(offsetHDR)], + hdrCapacityMin: parseFloat(hdrCapacityMin), + hdrCapacityMax: parseFloat(hdrCapacityMax) + }; + } + catch (e) { + // Continue searching for another xmpmeta block if this one fails + } + start = str.indexOf(' { + const debug = this.options.debug; + const dataView = new DataView(imageArrayBuffer.buffer); + // If you're executing this line on a big endian machine, it'll be reversed. + // bigEnd further down though, refers to the endianness of the image itself. + if (dataView.getUint16(0) !== 0xffd8) { + reject(new Error('Not a valid jpeg')); + return; + } + const length = dataView.byteLength; + let offset = 2; + let loops = 0; + let marker; // APP# marker + while (offset < length) { + if (++loops > 250) { + reject(new Error(`Found no marker after ${loops} loops 😵`)); + return; + } + if (dataView.getUint8(offset) !== 0xff) { + reject(new Error(`Not a valid marker at offset 0x${offset.toString(16)}, found: 0x${dataView.getUint8(offset).toString(16)}`)); + return; + } + marker = dataView.getUint8(offset + 1); + if (debug) + console.log(`Marker: ${marker.toString(16)}`); + if (marker === 0xe2) { + if (debug) + console.log('Found APP2 marker (0xffe2)'); + // Works for iPhone 8 Plus, X, and XSMax. Or any photos of MPF format. + // Great way to visualize image information in html is using Exiftool. E.g.: + // ./exiftool.exe -htmldump -wantTrailer photo.jpg > photo.html + const formatPt = offset + 4; + /* + * Structure of the MP Format Identifier + * + * Offset Addr. | Code (Hex) | Description + * +00 ff Marker Prefix <-- offset + * +01 e2 APP2 + * +02 #n APP2 Field Length + * +03 #n APP2 Field Length + * +04 4d 'M' <-- formatPt + * +05 50 'P' + * +06 46 'F' + * +07 00 NULL + * <-- tiffOffset + */ + if (dataView.getUint32(formatPt) === 0x4d504600) { + // Found MPF tag, so we start dig out sub images + const tiffOffset = formatPt + 4; + let bigEnd; // Endianness from TIFF header + // Test for TIFF validity and endianness + // 0x4949 and 0x4D4D ('II' and 'MM') marks Little Endian and Big Endian + if (dataView.getUint16(tiffOffset) === 0x4949) { + bigEnd = false; + } + else if (dataView.getUint16(tiffOffset) === 0x4d4d) { + bigEnd = true; + } + else { + reject(new Error('No valid endianness marker found in TIFF header')); + return; + } + if (dataView.getUint16(tiffOffset + 2, !bigEnd) !== 0x002a) { + reject(new Error('Not valid TIFF data! (no 0x002A marker)')); + return; + } + // 32 bit number stating the offset from the start of the 8 Byte MP Header + // to MP Index IFD Least possible value is thus 8 (means 0 offset) + const firstIFDOffset = dataView.getUint32(tiffOffset + 4, !bigEnd); + if (firstIFDOffset < 0x00000008) { + reject(new Error('Not valid TIFF data! (First offset less than 8)')); + return; + } + // Move ahead to MP Index IFD + // Assume we're at the first IFD, so firstIFDOffset points to + // MP Index IFD and not MP Attributes IFD. (If we try extract from a sub image, + // we fail silently here due to this assumption) + // Count (2 Byte) | MP Index Fields a.k.a. MP Entries (count * 12 Byte) | Offset of Next IFD (4 Byte) + const dirStart = tiffOffset + firstIFDOffset; // Start of IFD (Image File Directory) + const count = dataView.getUint16(dirStart, !bigEnd); // Count of MPEntries (2 Byte) + // Extract info from MPEntries (starting after Count) + const entriesStart = dirStart + 2; + let numberOfImages = 0; + for (let i = entriesStart; i < entriesStart + 12 * count; i += 12) { + // Each entry is 12 Bytes long + // Check MP Index IFD tags, here we only take tag 0xb001 = Number of images + if (dataView.getUint16(i, !bigEnd) === 0xb001) { + // stored in Last 4 bytes of its 12 Byte entry. + numberOfImages = dataView.getUint32(i + 8, !bigEnd); + } + } + const nextIFDOffsetLen = 4; // 4 Byte offset field that appears after MP Index IFD tags + const MPImageListValPt = dirStart + 2 + count * 12 + nextIFDOffsetLen; + const images = []; + for (let i = MPImageListValPt; i < MPImageListValPt + numberOfImages * 16; i += 16) { + const image = { + MPType: dataView.getUint32(i, !bigEnd), + size: dataView.getUint32(i + 4, !bigEnd), + // This offset is specified relative to the address of the MP Endian + // field in the MP Header, unless the image is a First Individual Image, + // in which case the value of the offset shall be NULL (0x00000000). + dataOffset: dataView.getUint32(i + 8, !bigEnd), + dependantImages: dataView.getUint32(i + 12, !bigEnd), + start: -1, + end: -1, + isFII: false + }; + if (!image.dataOffset) { + // dataOffset is 0x00000000 for First Individual Image + image.start = 0; + image.isFII = true; + } + else { + image.start = tiffOffset + image.dataOffset; + image.isFII = false; + } + image.end = image.start + image.size; + images.push(image); + } + if (this.options.extractNonFII && images.length) { + const bufferBlob = new Blob([dataView]); + const imgs = []; + for (const image of images) { + if (image.isFII && !this.options.extractFII) { + continue; // Skip FII + } + const imageBlob = bufferBlob.slice(image.start, image.end + 1, 'image/jpeg'); + // we don't need this + // const imageUrl = URL.createObjectURL(imageBlob) + // image.img = document.createElement('img') + // image.img.src = imageUrl + imgs.push(imageBlob); + } + resolve(imgs); + } + } + } + offset += 2 + dataView.getUint16(offset + 2); + } + }); + } +} + +/** + * Extracts XMP Metadata and the gain map recovery image + * from a single JPEG file. + * + * @category Decoding Functions + * @group Decoding Functions + * @param jpegFile an `Uint8Array` containing and encoded JPEG file + * @returns an sdr `Uint8Array` compressed in JPEG, a gainMap `Uint8Array` compressed in JPEG and the XMP parsed XMP metadata + * @throws Error if XMP Metadata is not found + * @throws Error if Gain map image is not found + * @example + * import { FileLoader } from 'three' + * import { extractGainmapFromJPEG } from '@monogrid/gainmap-js' + * + * const jpegFile = await new FileLoader() + * .setResponseType('arraybuffer') + * .loadAsync('image.jpg') + * + * const { sdr, gainMap, metadata } = extractGainmapFromJPEG(jpegFile) + */ +const extractGainmapFromJPEG = async (jpegFile) => { + const metadata = extractXMP(jpegFile); + if (!metadata) + throw new XMPMetadataNotFoundError('Gain map XMP metadata not found'); + const mpfExtractor = new MPFExtractor({ extractFII: true, extractNonFII: true }); + const images = await mpfExtractor.extract(jpegFile); + if (images.length !== 2) + throw new GainMapNotFoundError('Gain map recovery image not found'); + return { + sdr: new Uint8Array(await images[0].arrayBuffer()), + gainMap: new Uint8Array(await images[1].arrayBuffer()), + metadata + }; +}; + +/** + * private function, async get image from blob + * + * @param blob + * @returns + */ +const getHTMLImageFromBlob = (blob) => { + return new Promise((resolve, reject) => { + const img = document.createElement('img'); + img.onload = () => { resolve(img); }; + img.onerror = (e) => { reject(e); }; + img.src = URL.createObjectURL(blob); + }); +}; + +class LoaderBase extends Loader { + /** + * + * @param renderer + * @param manager + */ + constructor(renderer, manager) { + super(manager); + if (renderer) + this._renderer = renderer; + this._internalLoadingManager = new LoadingManager(); + } + /** + * Specify the renderer to use when rendering the gain map + * + * @param renderer + * @returns + */ + setRenderer(renderer) { + this._renderer = renderer; + return this; + } + /** + * Specify the renderTarget options to use when rendering the gain map + * + * @param options + * @returns + */ + setRenderTargetOptions(options) { + this._renderTargetOptions = options; + return this; + } + /** + * @private + * @returns + */ + prepareQuadRenderer() { + if (!this._renderer) + console.warn('WARNING: An existing WebGL Renderer was not passed to this Loader constructor or in setRenderer, the result of this Loader will need to be converted to a Data Texture with toDataTexture() before you can use it in your renderer.'); + // temporary values + const material = new GainMapDecoderMaterial({ + gainMapMax: [1, 1, 1], + gainMapMin: [0, 0, 0], + gamma: [1, 1, 1], + offsetHdr: [1, 1, 1], + offsetSdr: [1, 1, 1], + hdrCapacityMax: 1, + hdrCapacityMin: 0, + maxDisplayBoost: 1, + gainMap: new Texture$1(), + sdr: new Texture$1() + }); + return new QuadRenderer({ + width: 16, + height: 16, + type: HalfFloatType, + colorSpace: LinearSRGBColorSpace, + material, + renderer: this._renderer, + renderTargetOptions: this._renderTargetOptions + }); + } + /** + * @private + * @param quadRenderer + * @param metadata + * @param sdrBuffer + * @param gainMapBuffer + */ + async render(quadRenderer, metadata, sdrBuffer, gainMapBuffer) { + // this is optional, will render a black gain-map if not present + const gainMapBlob = gainMapBuffer ? new Blob([gainMapBuffer], { type: 'image/jpeg' }) : undefined; + const sdrBlob = new Blob([sdrBuffer], { type: 'image/jpeg' }); + let sdrImage; + let gainMapImage; + let needsFlip = false; + if (typeof createImageBitmap === 'undefined') { + const res = await Promise.all([ + gainMapBlob ? getHTMLImageFromBlob(gainMapBlob) : Promise.resolve(undefined), + getHTMLImageFromBlob(sdrBlob) + ]); + gainMapImage = res[0]; + sdrImage = res[1]; + needsFlip = true; + } + else { + const res = await Promise.all([ + gainMapBlob ? createImageBitmap(gainMapBlob, { imageOrientation: 'flipY' }) : Promise.resolve(undefined), + createImageBitmap(sdrBlob, { imageOrientation: 'flipY' }) + ]); + gainMapImage = res[0]; + sdrImage = res[1]; + } + const gainMap = new Texture$1(gainMapImage || new ImageData(2, 2), UVMapping, ClampToEdgeWrapping, ClampToEdgeWrapping, LinearFilter, LinearMipMapLinearFilter, RGBAFormat, UnsignedByteType, 1, LinearSRGBColorSpace); + gainMap.flipY = needsFlip; + gainMap.needsUpdate = true; + const sdr = new Texture$1(sdrImage, UVMapping, ClampToEdgeWrapping, ClampToEdgeWrapping, LinearFilter, LinearMipMapLinearFilter, RGBAFormat, UnsignedByteType, 1, SRGBColorSpace); + sdr.flipY = needsFlip; + sdr.needsUpdate = true; + quadRenderer.width = sdrImage.width; + quadRenderer.height = sdrImage.height; + quadRenderer.material.gainMap = gainMap; + quadRenderer.material.sdr = sdr; + quadRenderer.material.gainMapMin = metadata.gainMapMin; + quadRenderer.material.gainMapMax = metadata.gainMapMax; + quadRenderer.material.offsetHdr = metadata.offsetHdr; + quadRenderer.material.offsetSdr = metadata.offsetSdr; + quadRenderer.material.gamma = metadata.gamma; + quadRenderer.material.hdrCapacityMin = metadata.hdrCapacityMin; + quadRenderer.material.hdrCapacityMax = metadata.hdrCapacityMax; + quadRenderer.material.maxDisplayBoost = Math.pow(2, metadata.hdrCapacityMax); + quadRenderer.material.needsUpdate = true; + quadRenderer.render(); + } +} + +/** + * A Three.js Loader for a JPEG with embedded gainmap metadata. + * + * @category Loaders + * @group Loaders + * + * @example + * import { HDRJPGLoader } from '@monogrid/gainmap-js' + * import { + * EquirectangularReflectionMapping, + * LinearFilter, + * Mesh, + * MeshBasicMaterial, + * PerspectiveCamera, + * PlaneGeometry, + * Scene, + * WebGLRenderer + * } from 'three' + * + * const renderer = new WebGLRenderer() + * + * const loader = new HDRJPGLoader(renderer) + * + * const result = await loader.loadAsync('gainmap.jpeg') + * // `result` can be used to populate a Texture + * + * const scene = new Scene() + * const mesh = new Mesh( + * new PlaneGeometry(), + * new MeshBasicMaterial({ map: result.renderTarget.texture }) + * ) + * scene.add(mesh) + * renderer.render(scene, new PerspectiveCamera()) + * + * // Starting from three.js r159 + * // `result.renderTarget.texture` can + * // also be used as Equirectangular scene background + * // + * // it was previously needed to convert it + * // to a DataTexture with `result.toDataTexture()` + * scene.background = result.renderTarget.texture + * scene.background.mapping = EquirectangularReflectionMapping + * + * // result must be manually disposed + * // when you are done using it + * result.dispose() + * + */ +class HDRJPGLoader extends LoaderBase { + /** + * Loads a JPEG containing gain map metadata + * Renders a normal SDR image if gainmap data is not found + * + * @param url An array in the form of [sdr.jpg, gainmap.jpg, metadata.json] + * @param onLoad Load complete callback, will receive the result + * @param onProgress Progress callback, will receive a {@link ProgressEvent} + * @param onError Error callback + * @returns + */ + load(url, onLoad, onProgress, onError) { + const quadRenderer = this.prepareQuadRenderer(); + const loader = new FileLoader(this._internalLoadingManager); + loader.setResponseType('arraybuffer'); + loader.setRequestHeader(this.requestHeader); + loader.setPath(this.path); + loader.setWithCredentials(this.withCredentials); + this.manager.itemStart(url); + loader.load(url, async (jpeg) => { + /* istanbul ignore if + this condition exists only because of three.js types + strict mode + */ + if (typeof jpeg === 'string') + throw new Error('Invalid buffer, received [string], was expecting [ArrayBuffer]'); + const jpegBuffer = new Uint8Array(jpeg); + let sdrJPEG; + let gainMapJPEG; + let metadata; + try { + const extractionResult = await extractGainmapFromJPEG(jpegBuffer); + // gain map is successfully reconstructed + sdrJPEG = extractionResult.sdr; + gainMapJPEG = extractionResult.gainMap; + metadata = extractionResult.metadata; + } + catch (e) { + // render the SDR version if this is not a gainmap + if (e instanceof XMPMetadataNotFoundError || e instanceof GainMapNotFoundError) { + console.warn(`Failure to reconstruct an HDR image from ${url}: Gain map metadata not found in the file, HDRJPGLoader will render the SDR jpeg`); + metadata = { + gainMapMin: [0, 0, 0], + gainMapMax: [1, 1, 1], + gamma: [1, 1, 1], + hdrCapacityMin: 0, + hdrCapacityMax: 1, + offsetHdr: [0, 0, 0], + offsetSdr: [0, 0, 0] + }; + sdrJPEG = jpegBuffer; + } + else { + throw e; + } + } + // solves #16 + try { + await this.render(quadRenderer, metadata, sdrJPEG, gainMapJPEG); + } + catch (error) { + this.manager.itemError(url); + if (typeof onError === 'function') + onError(error); + quadRenderer.disposeOnDemandRenderer(); + return; + } + if (typeof onLoad === 'function') + onLoad(quadRenderer); + this.manager.itemEnd(url); + quadRenderer.disposeOnDemandRenderer(); + }, onProgress, (error) => { + this.manager.itemError(url); + if (typeof onError === 'function') + onError(error); + }); + return quadRenderer; + } +} + +// https://github.com/mrdoob/three.js/issues/5552 +// http://en.wikipedia.org/wiki/RGBE_image_format + +class RGBELoader extends DataTextureLoader { + + constructor( manager ) { + + super( manager ); + + this.type = HalfFloatType; + + } + + // adapted from http://www.graphics.cornell.edu/~bjw/rgbe.html + + parse( buffer ) { + + const + /* default error routine. change this to change error handling */ + rgbe_read_error = 1, + rgbe_write_error = 2, + rgbe_format_error = 3, + rgbe_memory_error = 4, + rgbe_error = function ( rgbe_error_code, msg ) { + + switch ( rgbe_error_code ) { + + case rgbe_read_error: throw new Error( 'THREE.RGBELoader: Read Error: ' + ( msg || '' ) ); + case rgbe_write_error: throw new Error( 'THREE.RGBELoader: Write Error: ' + ( msg || '' ) ); + case rgbe_format_error: throw new Error( 'THREE.RGBELoader: Bad File Format: ' + ( msg || '' ) ); + default: + case rgbe_memory_error: throw new Error( 'THREE.RGBELoader: Memory Error: ' + ( msg || '' ) ); + + } + + }, + + /* offsets to red, green, and blue components in a data (float) pixel */ + //RGBE_DATA_RED = 0, + //RGBE_DATA_GREEN = 1, + //RGBE_DATA_BLUE = 2, + + /* number of floats per pixel, use 4 since stored in rgba image format */ + //RGBE_DATA_SIZE = 4, + + /* flags indicating which fields in an rgbe_header_info are valid */ + RGBE_VALID_PROGRAMTYPE = 1, + RGBE_VALID_FORMAT = 2, + RGBE_VALID_DIMENSIONS = 4, + + NEWLINE = '\n', + + fgets = function ( buffer, lineLimit, consume ) { + + const chunkSize = 128; + + lineLimit = ! lineLimit ? 1024 : lineLimit; + let p = buffer.pos, + i = -1, len = 0, s = '', + chunk = String.fromCharCode.apply( null, new Uint16Array( buffer.subarray( p, p + chunkSize ) ) ); + + while ( ( 0 > ( i = chunk.indexOf( NEWLINE ) ) ) && ( len < lineLimit ) && ( p < buffer.byteLength ) ) { + + s += chunk; len += chunk.length; + p += chunkSize; + chunk += String.fromCharCode.apply( null, new Uint16Array( buffer.subarray( p, p + chunkSize ) ) ); + + } + + if ( -1 < i ) { + + /*for (i=l-1; i>=0; i--) { + byteCode = m.charCodeAt(i); + if (byteCode > 0x7f && byteCode <= 0x7ff) byteLen++; + else if (byteCode > 0x7ff && byteCode <= 0xffff) byteLen += 2; + if (byteCode >= 0xDC00 && byteCode <= 0xDFFF) i--; //trail surrogate + }*/ + buffer.pos += len + i + 1; + return s + chunk.slice( 0, i ); + + } + + return false; + + }, + + /* minimal header reading. modify if you want to parse more information */ + RGBE_ReadHeader = function ( buffer ) { + + + // regexes to parse header info fields + const magic_token_re = /^#\?(\S+)/, + gamma_re = /^\s*GAMMA\s*=\s*(\d+(\.\d+)?)\s*$/, + exposure_re = /^\s*EXPOSURE\s*=\s*(\d+(\.\d+)?)\s*$/, + format_re = /^\s*FORMAT=(\S+)\s*$/, + dimensions_re = /^\s*\-Y\s+(\d+)\s+\+X\s+(\d+)\s*$/, + + // RGBE format header struct + header = { + + valid: 0, /* indicate which fields are valid */ + + string: '', /* the actual header string */ + + comments: '', /* comments found in header */ + + programtype: 'RGBE', /* listed at beginning of file to identify it after "#?". defaults to "RGBE" */ + + format: '', /* RGBE format, default 32-bit_rle_rgbe */ + + gamma: 1.0, /* image has already been gamma corrected with given gamma. defaults to 1.0 (no correction) */ + + exposure: 1.0, /* a value of 1.0 in an image corresponds to watts/steradian/m^2. defaults to 1.0 */ + + width: 0, height: 0 /* image dimensions, width/height */ + + }; + + let line, match; + + if ( buffer.pos >= buffer.byteLength || ! ( line = fgets( buffer ) ) ) { + + rgbe_error( rgbe_read_error, 'no header found' ); + + } + + /* if you want to require the magic token then uncomment the next line */ + if ( ! ( match = line.match( magic_token_re ) ) ) { + + rgbe_error( rgbe_format_error, 'bad initial token' ); + + } + + header.valid |= RGBE_VALID_PROGRAMTYPE; + header.programtype = match[ 1 ]; + header.string += line + '\n'; + + while ( true ) { + + line = fgets( buffer ); + if ( false === line ) break; + header.string += line + '\n'; + + if ( '#' === line.charAt( 0 ) ) { + + header.comments += line + '\n'; + continue; // comment line + + } + + if ( match = line.match( gamma_re ) ) { + + header.gamma = parseFloat( match[ 1 ] ); + + } + + if ( match = line.match( exposure_re ) ) { + + header.exposure = parseFloat( match[ 1 ] ); + + } + + if ( match = line.match( format_re ) ) { + + header.valid |= RGBE_VALID_FORMAT; + header.format = match[ 1 ];//'32-bit_rle_rgbe'; + + } + + if ( match = line.match( dimensions_re ) ) { + + header.valid |= RGBE_VALID_DIMENSIONS; + header.height = parseInt( match[ 1 ], 10 ); + header.width = parseInt( match[ 2 ], 10 ); + + } + + if ( ( header.valid & RGBE_VALID_FORMAT ) && ( header.valid & RGBE_VALID_DIMENSIONS ) ) break; + + } + + if ( ! ( header.valid & RGBE_VALID_FORMAT ) ) { + + rgbe_error( rgbe_format_error, 'missing format specifier' ); + + } + + if ( ! ( header.valid & RGBE_VALID_DIMENSIONS ) ) { + + rgbe_error( rgbe_format_error, 'missing image size specifier' ); + + } + + return header; + + }, + + RGBE_ReadPixels_RLE = function ( buffer, w, h ) { + + const scanline_width = w; + + if ( + // run length encoding is not allowed so read flat + ( ( scanline_width < 8 ) || ( scanline_width > 0x7fff ) ) || + // this file is not run length encoded + ( ( 2 !== buffer[ 0 ] ) || ( 2 !== buffer[ 1 ] ) || ( buffer[ 2 ] & 0x80 ) ) + ) { + + // return the flat buffer + return new Uint8Array( buffer ); + + } + + if ( scanline_width !== ( ( buffer[ 2 ] << 8 ) | buffer[ 3 ] ) ) { + + rgbe_error( rgbe_format_error, 'wrong scanline width' ); + + } + + const data_rgba = new Uint8Array( 4 * w * h ); + + if ( ! data_rgba.length ) { + + rgbe_error( rgbe_memory_error, 'unable to allocate buffer space' ); + + } + + let offset = 0, pos = 0; + + const ptr_end = 4 * scanline_width; + const rgbeStart = new Uint8Array( 4 ); + const scanline_buffer = new Uint8Array( ptr_end ); + let num_scanlines = h; + + // read in each successive scanline + while ( ( num_scanlines > 0 ) && ( pos < buffer.byteLength ) ) { + + if ( pos + 4 > buffer.byteLength ) { + + rgbe_error( rgbe_read_error ); + + } + + rgbeStart[ 0 ] = buffer[ pos ++ ]; + rgbeStart[ 1 ] = buffer[ pos ++ ]; + rgbeStart[ 2 ] = buffer[ pos ++ ]; + rgbeStart[ 3 ] = buffer[ pos ++ ]; + + if ( ( 2 != rgbeStart[ 0 ] ) || ( 2 != rgbeStart[ 1 ] ) || ( ( ( rgbeStart[ 2 ] << 8 ) | rgbeStart[ 3 ] ) != scanline_width ) ) { + + rgbe_error( rgbe_format_error, 'bad rgbe scanline format' ); + + } + + // read each of the four channels for the scanline into the buffer + // first red, then green, then blue, then exponent + let ptr = 0, count; + + while ( ( ptr < ptr_end ) && ( pos < buffer.byteLength ) ) { + + count = buffer[ pos ++ ]; + const isEncodedRun = count > 128; + if ( isEncodedRun ) count -= 128; + + if ( ( 0 === count ) || ( ptr + count > ptr_end ) ) { + + rgbe_error( rgbe_format_error, 'bad scanline data' ); + + } + + if ( isEncodedRun ) { + + // a (encoded) run of the same value + const byteValue = buffer[ pos ++ ]; + for ( let i = 0; i < count; i ++ ) { + + scanline_buffer[ ptr ++ ] = byteValue; + + } + //ptr += count; + + } else { + + // a literal-run + scanline_buffer.set( buffer.subarray( pos, pos + count ), ptr ); + ptr += count; pos += count; + + } + + } + + + // now convert data from buffer into rgba + // first red, then green, then blue, then exponent (alpha) + const l = scanline_width; //scanline_buffer.byteLength; + for ( let i = 0; i < l; i ++ ) { + + let off = 0; + data_rgba[ offset ] = scanline_buffer[ i + off ]; + off += scanline_width; //1; + data_rgba[ offset + 1 ] = scanline_buffer[ i + off ]; + off += scanline_width; //1; + data_rgba[ offset + 2 ] = scanline_buffer[ i + off ]; + off += scanline_width; //1; + data_rgba[ offset + 3 ] = scanline_buffer[ i + off ]; + offset += 4; + + } + + num_scanlines --; + + } + + return data_rgba; + + }; + + const RGBEByteToRGBFloat = function ( sourceArray, sourceOffset, destArray, destOffset ) { + + const e = sourceArray[ sourceOffset + 3 ]; + const scale = Math.pow( 2.0, e - 128.0 ) / 255.0; + + destArray[ destOffset + 0 ] = sourceArray[ sourceOffset + 0 ] * scale; + destArray[ destOffset + 1 ] = sourceArray[ sourceOffset + 1 ] * scale; + destArray[ destOffset + 2 ] = sourceArray[ sourceOffset + 2 ] * scale; + destArray[ destOffset + 3 ] = 1; + + }; + + const RGBEByteToRGBHalf = function ( sourceArray, sourceOffset, destArray, destOffset ) { + + const e = sourceArray[ sourceOffset + 3 ]; + const scale = Math.pow( 2.0, e - 128.0 ) / 255.0; + + // clamping to 65504, the maximum representable value in float16 + destArray[ destOffset + 0 ] = DataUtils.toHalfFloat( Math.min( sourceArray[ sourceOffset + 0 ] * scale, 65504 ) ); + destArray[ destOffset + 1 ] = DataUtils.toHalfFloat( Math.min( sourceArray[ sourceOffset + 1 ] * scale, 65504 ) ); + destArray[ destOffset + 2 ] = DataUtils.toHalfFloat( Math.min( sourceArray[ sourceOffset + 2 ] * scale, 65504 ) ); + destArray[ destOffset + 3 ] = DataUtils.toHalfFloat( 1 ); + + }; + + const byteArray = new Uint8Array( buffer ); + byteArray.pos = 0; + const rgbe_header_info = RGBE_ReadHeader( byteArray ); + + const w = rgbe_header_info.width, + h = rgbe_header_info.height, + image_rgba_data = RGBE_ReadPixels_RLE( byteArray.subarray( byteArray.pos ), w, h ); + + + let data, type; + let numElements; + + switch ( this.type ) { + + case FloatType: + + numElements = image_rgba_data.length / 4; + const floatArray = new Float32Array( numElements * 4 ); + + for ( let j = 0; j < numElements; j ++ ) { + + RGBEByteToRGBFloat( image_rgba_data, j * 4, floatArray, j * 4 ); + + } + + data = floatArray; + type = FloatType; + break; + + case HalfFloatType: + + numElements = image_rgba_data.length / 4; + const halfArray = new Uint16Array( numElements * 4 ); + + for ( let j = 0; j < numElements; j ++ ) { + + RGBEByteToRGBHalf( image_rgba_data, j * 4, halfArray, j * 4 ); + + } + + data = halfArray; + type = HalfFloatType; + break; + + default: + + throw new Error( 'THREE.RGBELoader: Unsupported type: ' + this.type ); + + } + + return { + width: w, height: h, + data: data, + header: rgbe_header_info.string, + gamma: rgbe_header_info.gamma, + exposure: rgbe_header_info.exposure, + type: type + }; + + } + + setDataType( value ) { + + this.type = value; + return this; + + } + + load( url, onLoad, onProgress, onError ) { + + function onLoadCallback( texture, texData ) { + + switch ( texture.type ) { + + case FloatType: + case HalfFloatType: + + texture.colorSpace = LinearSRGBColorSpace; + texture.minFilter = LinearFilter; + texture.magFilter = LinearFilter; + texture.generateMipmaps = false; + texture.flipY = true; + + break; + + } + + if ( onLoad ) onLoad( texture, texData ); + + } + + return super.load( url, onLoadCallback, onProgress, onError ); + + } + +} + +/* @license + * Copyright 2021 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const legacy = { + topLight: { + intensity: 500, + position: [0.418, 16.199, 0.300], + }, + room: { + position: [-0.757, 13.219, 0.717], + scale: [31.713, 28.305, 28.591], + }, + boxes: [ + { + position: [-10.906, 2.009, 1.846], + rotation: -0.195, + scale: [2.328, 7.905, 4.651], + }, + { + position: [-5.607, -0.754, -0.758], + rotation: 0.994, + scale: [1.970, 1.534, 3.955], + }, + { + position: [6.167, 0.857, 7.803], + rotation: 0.561, + scale: [3.927, 6.285, 3.687], + }, + { + position: [-2.017, 0.018, 6.124], + rotation: 0.333, + scale: [2.002, 4.566, 2.064], + }, + { + position: [2.291, -0.756, -2.621], + rotation: -0.286, + scale: [1.546, 1.552, 1.496], + }, + { + position: [-2.193, -0.369, -5.547], + rotation: 0.516, + scale: [3.875, 3.487, 2.986], + }, + ], + lights: [ + { + intensity: 50, + position: [-16.116, 14.37, 8.208], + scale: [0.1, 2.428, 2.739], + }, + { + intensity: 50, + position: [-16.109, 18.021, -8.207], + scale: [0.1, 2.425, 2.751], + }, + { + intensity: 17, + position: [14.904, 12.198, -1.832], + scale: [0.15, 4.265, 6.331], + }, + { + intensity: 43, + position: [-0.462, 8.89, 14.520], + scale: [4.38, 5.441, 0.088], + }, + { + intensity: 20, + position: [3.235, 11.486, -12.541], + scale: [2.5, 2.0, 0.1], + }, + { + intensity: 100, + position: [0.0, 20.0, 0.0], + scale: [1.0, 0.1, 1.0], + }, + ] +}; +const neutral = { + topLight: { + intensity: 400, + position: [0.5, 14.0, 0.5], + }, + room: { + position: [0.0, 13.2, 0.0], + scale: [31.5, 28.5, 31.5], + }, + boxes: [ + { + position: [-10.906, -1, 1.846], + rotation: -0.195, + scale: [2.328, 7.905, 4.651], + }, + { + position: [-5.607, -0.754, -0.758], + rotation: 0.994, + scale: [1.970, 1.534, 3.955], + }, + { + position: [6.167, -0.16, 7.803], + rotation: 0.561, + scale: [3.927, 6.285, 3.687], + }, + { + position: [-2.017, 0.018, 6.124], + rotation: 0.333, + scale: [2.002, 4.566, 2.064], + }, + { + position: [2.291, -0.756, -2.621], + rotation: -0.286, + scale: [1.546, 1.552, 1.496], + }, + { + position: [-2.193, -0.369, -5.547], + rotation: 0.516, + scale: [3.875, 3.487, 2.986], + }, + ], + lights: [ + { + intensity: 80, + position: [-14, 10.0, 8.0], + scale: [0.1, 2.5, 2.5], + }, + { + intensity: 80, + position: [-14, 14.0, -4], + scale: [0.1, 2.5, 2.5], + }, + { + intensity: 23, + position: [14.0, 12.0, 0.0], + scale: [0.1, 5.0, 5.0], + }, + { + intensity: 16, + position: [0.0, 9.0, 14.0], + scale: [5.0, 5.0, 0.1], + }, + { + intensity: 80, + position: [7.0, 8.0, -14], + scale: [2.5, 2.5, 0.1], + }, + { + intensity: 80, + position: [-7, 16.0, -14], + scale: [2.5, 2.5, 0.1], + }, + { + intensity: 1, + position: [0.0, 20.0, 0.0], + scale: [0.1, 0.1, 0.1], + }, + ] +}; +class EnvironmentScene extends Scene { + constructor(name) { + super(); + this.position.y = -3.5; + const geometry = new BoxGeometry(); + geometry.deleteAttribute('uv'); + const roomMaterial = new MeshStandardMaterial({ metalness: 0, side: BackSide }); + const boxMaterial = new MeshStandardMaterial({ metalness: 0 }); + const data = name == 'legacy' ? legacy : neutral; + const mainLight = new PointLight(0xffffff, data.topLight.intensity, 28, 2); + mainLight.position.set(...data.topLight.position); + this.add(mainLight); + const room = new Mesh(geometry, roomMaterial); + room.position.set(...data.room.position); + room.scale.set(...data.room.scale); + this.add(room); + for (const box of data.boxes) { + const box1 = new Mesh(geometry, boxMaterial); + box1.position.set(...box.position); + box1.rotation.set(0, box.rotation, 0); + box1.scale.set(...box.scale); + this.add(box1); + } + for (const light of data.lights) { + const light1 = new Mesh(geometry, this.createAreaLightMaterial(light.intensity)); + light1.position.set(...light.position); + light1.scale.set(...light.scale); + this.add(light1); + } + } + createAreaLightMaterial(intensity) { + const material = new MeshBasicMaterial(); + material.color.setScalar(intensity); + return material; + } +} + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const GENERATED_SIGMA = 0.04; +// The maximum length of the blur for loop. Smaller sigmas will use fewer +// samples and exit early, but not recompile the shader. +const MAX_SAMPLES = 20; +const HDR_FILE_RE = /\.hdr(\.js)?$/; +class TextureUtils { + constructor(threeRenderer) { + this.threeRenderer = threeRenderer; + this.lottieLoaderUrl = ''; + this._ldrLoader = null; + this._imageLoader = null; + this._hdrLoader = null; + this._lottieLoader = null; + this.generatedEnvironmentMap = null; + this.generatedEnvironmentMapAlt = null; + this.skyboxCache = new Map(); + this.blurMaterial = null; + this.blurScene = null; + } + ldrLoader(withCredentials) { + if (this._ldrLoader == null) { + this._ldrLoader = new TextureLoader(); + } + this._ldrLoader.setWithCredentials(withCredentials); + return this._ldrLoader; + } + imageLoader(withCredentials) { + if (this._imageLoader == null) { + this._imageLoader = new HDRJPGLoader(this.threeRenderer); + } + this._imageLoader.setWithCredentials(withCredentials); + return this._imageLoader; + } + hdrLoader(withCredentials) { + if (this._hdrLoader == null) { + this._hdrLoader = new RGBELoader(); + this._hdrLoader.setDataType(HalfFloatType); + } + this._hdrLoader.setWithCredentials(withCredentials); + return this._hdrLoader; + } + async getLottieLoader(withCredentials) { + if (this._lottieLoader == null) { + const { LottieLoader } = await import(/* webpackIgnore: true */ this.lottieLoaderUrl); + this._lottieLoader = new LottieLoader(); + } + this._lottieLoader.setWithCredentials(withCredentials); + return this._lottieLoader; + } + async loadImage(url, withCredentials) { + const texture = await new Promise((resolve, reject) => this.ldrLoader(withCredentials) + .load(url, resolve, () => { }, reject)); + texture.name = url; + texture.flipY = false; + return texture; + } + async loadLottie(url, quality, withCredentials) { + const loader = await this.getLottieLoader(withCredentials); + loader.setQuality(quality); + const texture = await new Promise((resolve, reject) => loader.load(url, resolve, () => { }, reject)); + texture.name = url; + return texture; + } + async loadEquirect(url, withCredentials = false, progressCallback = () => { }) { + try { + const isHDR = HDR_FILE_RE.test(url); + const loader = isHDR ? this.hdrLoader(withCredentials) : + this.imageLoader(withCredentials); + const texture = await new Promise((resolve, reject) => loader.load(url, (result) => { + const { renderTarget } = result; + if (renderTarget != null) { + const { texture } = renderTarget; + result.dispose(false); + resolve(texture); + } + else { + resolve(result); + } + }, (event) => { + progressCallback(event.loaded / event.total * 0.9); + }, reject)); + progressCallback(1.0); + texture.name = url; + texture.mapping = EquirectangularReflectionMapping; + if (!isHDR) { + texture.colorSpace = SRGBColorSpace; + } + return texture; + } + finally { + if (progressCallback) { + progressCallback(1); + } + } + } + /** + * Returns a { skybox, environmentMap } object with the targets/textures + * accordingly. `skybox` is a WebGLRenderCubeTarget, and `environmentMap` + * is a Texture from a WebGLRenderCubeTarget. + */ + async generateEnvironmentMapAndSkybox(skyboxUrl = null, environmentMapUrl = null, progressCallback = () => { }, withCredentials = false) { + const useAltEnvironment = environmentMapUrl !== 'legacy'; + if (environmentMapUrl === 'legacy' || environmentMapUrl === 'neutral') { + environmentMapUrl = null; + } + environmentMapUrl = deserializeUrl(environmentMapUrl); + let skyboxLoads = Promise.resolve(null); + let environmentMapLoads; + // If we have a skybox URL, attempt to load it as a cubemap + if (!!skyboxUrl) { + skyboxLoads = this.loadEquirectFromUrl(skyboxUrl, withCredentials, progressCallback); + } + if (!!environmentMapUrl) { + // We have an available environment map URL + environmentMapLoads = this.loadEquirectFromUrl(environmentMapUrl, withCredentials, progressCallback); + } + else if (!!skyboxUrl) { + // Fallback to deriving the environment map from an available skybox + environmentMapLoads = this.loadEquirectFromUrl(skyboxUrl, withCredentials, progressCallback); + } + else { + // Fallback to generating the environment map + environmentMapLoads = useAltEnvironment ? + this.loadGeneratedEnvironmentMapAlt() : + this.loadGeneratedEnvironmentMap(); + } + const [environmentMap, skybox] = await Promise.all([environmentMapLoads, skyboxLoads]); + if (environmentMap == null) { + throw new Error('Failed to load environment map.'); + } + return { environmentMap, skybox }; + } + /** + * Loads an equirect Texture from a given URL, for use as a skybox. + */ + async loadEquirectFromUrl(url, withCredentials, progressCallback) { + if (!this.skyboxCache.has(url)) { + const skyboxMapLoads = this.loadEquirect(url, withCredentials, progressCallback); + this.skyboxCache.set(url, skyboxMapLoads); + } + return this.skyboxCache.get(url); + } + async GenerateEnvironmentMap(scene, name) { + await timePasses(); + const renderer = this.threeRenderer; + const cubeTarget = new WebGLCubeRenderTarget(256, { + generateMipmaps: false, + type: HalfFloatType, + format: RGBAFormat, + colorSpace: LinearSRGBColorSpace, + depthBuffer: true + }); + const cubeCamera = new CubeCamera(0.1, 100, cubeTarget); + const generatedEnvironmentMap = cubeCamera.renderTarget.texture; + generatedEnvironmentMap.name = name; + const outputColorSpace = renderer.outputColorSpace; + const toneMapping = renderer.toneMapping; + renderer.toneMapping = NoToneMapping; + renderer.outputColorSpace = LinearSRGBColorSpace; + cubeCamera.update(renderer, scene); + this.blurCubemap(cubeTarget, GENERATED_SIGMA); + renderer.toneMapping = toneMapping; + renderer.outputColorSpace = outputColorSpace; + return generatedEnvironmentMap; + } + /** + * Loads a dynamically generated environment map. + */ + async loadGeneratedEnvironmentMap() { + if (this.generatedEnvironmentMap == null) { + this.generatedEnvironmentMap = + this.GenerateEnvironmentMap(new EnvironmentScene('legacy'), 'legacy'); + } + return this.generatedEnvironmentMap; + } + /** + * Loads a dynamically generated environment map, designed to be neutral and + * color-preserving. Shows less contrast around the different sides of the + * object. + */ + async loadGeneratedEnvironmentMapAlt() { + if (this.generatedEnvironmentMapAlt == null) { + this.generatedEnvironmentMapAlt = this.GenerateEnvironmentMap(new EnvironmentScene('neutral'), 'neutral'); + } + return this.generatedEnvironmentMapAlt; + } + blurCubemap(cubeTarget, sigma) { + if (this.blurMaterial == null) { + this.blurMaterial = this.getBlurShader(MAX_SAMPLES); + const box = new BoxGeometry(); + const blurMesh = new Mesh(box, this.blurMaterial); + this.blurScene = new Scene(); + this.blurScene.add(blurMesh); + } + const tempTarget = cubeTarget.clone(); + this.halfblur(cubeTarget, tempTarget, sigma, 'latitudinal'); + this.halfblur(tempTarget, cubeTarget, sigma, 'longitudinal'); + // Disposing this target after we're done with it somehow corrupts Safari's + // whole graphics driver. It's random, but occurs more frequently on + // lower-powered GPUs (macbooks with intel graphics, older iPhones). It goes + // beyond just messing up the PMREM, as it also occasionally causes + // visible corruption on the canvas and even on the rest of the page. + /** tempTarget.dispose(); */ + } + halfblur(targetIn, targetOut, sigmaRadians, direction) { + // Number of standard deviations at which to cut off the discrete + // approximation. + const STANDARD_DEVIATIONS = 3; + const pixels = targetIn.width; + const radiansPerPixel = isFinite(sigmaRadians) ? + Math.PI / (2 * pixels) : + 2 * Math.PI / (2 * MAX_SAMPLES - 1); + const sigmaPixels = sigmaRadians / radiansPerPixel; + const samples = isFinite(sigmaRadians) ? + 1 + Math.floor(STANDARD_DEVIATIONS * sigmaPixels) : + MAX_SAMPLES; + if (samples > MAX_SAMPLES) { + console.warn(`sigmaRadians, ${sigmaRadians}, is too large and will clip, as it requested ${samples} samples when the maximum is set to ${MAX_SAMPLES}`); + } + const weights = []; + let sum = 0; + for (let i = 0; i < MAX_SAMPLES; ++i) { + const x = i / sigmaPixels; + const weight = Math.exp(-x * x / 2); + weights.push(weight); + if (i == 0) { + sum += weight; + } + else if (i < samples) { + sum += 2 * weight; + } + } + for (let i = 0; i < weights.length; i++) { + weights[i] = weights[i] / sum; + } + const blurUniforms = this.blurMaterial.uniforms; + blurUniforms['envMap'].value = targetIn.texture; + blurUniforms['samples'].value = samples; + blurUniforms['weights'].value = weights; + blurUniforms['latitudinal'].value = direction === 'latitudinal'; + blurUniforms['dTheta'].value = radiansPerPixel; + const cubeCamera = new CubeCamera(0.1, 100, targetOut); + cubeCamera.update(this.threeRenderer, this.blurScene); + } + getBlurShader(maxSamples) { + const weights = new Float32Array(maxSamples); + const poleAxis = new Vector3(0, 1, 0); + const shaderMaterial = new ShaderMaterial({ + name: 'SphericalGaussianBlur', + defines: { 'n': maxSamples }, + uniforms: { + 'envMap': { value: null }, + 'samples': { value: 1 }, + 'weights': { value: weights }, + 'latitudinal': { value: false }, + 'dTheta': { value: 0 }, + 'poleAxis': { value: poleAxis } + }, + vertexShader: /* glsl */ ` + + varying vec3 vOutputDirection; + + void main() { + + vOutputDirection = vec3( position ); + gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 ); + + } + `, + fragmentShader: /* glsl */ ` + varying vec3 vOutputDirection; + + uniform samplerCube envMap; + uniform int samples; + uniform float weights[ n ]; + uniform bool latitudinal; + uniform float dTheta; + uniform vec3 poleAxis; + + vec3 getSample( float theta, vec3 axis ) { + + float cosTheta = cos( theta ); + // Rodrigues' axis-angle rotation + vec3 sampleDirection = vOutputDirection * cosTheta + + cross( axis, vOutputDirection ) * sin( theta ) + + axis * dot( axis, vOutputDirection ) * ( 1.0 - cosTheta ); + + return vec3( textureCube( envMap, sampleDirection ) ); + + } + + void main() { + + vec3 axis = latitudinal ? poleAxis : cross( poleAxis, vOutputDirection ); + + if ( all( equal( axis, vec3( 0.0 ) ) ) ) { + + axis = vec3( vOutputDirection.z, 0.0, - vOutputDirection.x ); + + } + + axis = normalize( axis ); + + gl_FragColor = vec4( 0.0, 0.0, 0.0, 1.0 ); + gl_FragColor.rgb += weights[ 0 ] * getSample( 0.0, axis ); + + for ( int i = 1; i < n; i++ ) { + + if ( i >= samples ) { + + break; + + } + + float theta = dTheta * float( i ); + gl_FragColor.rgb += weights[ i ] * getSample( -1.0 * theta, axis ); + gl_FragColor.rgb += weights[ i ] * getSample( theta, axis ); + + } + } + `, + blending: NoBlending, + depthTest: false, + depthWrite: false, + side: BackSide + }); + return shaderMaterial; + } + async dispose() { + for (const [, promise] of this.skyboxCache) { + const skybox = await promise; + skybox.dispose(); + } + if (this.generatedEnvironmentMap != null) { + (await this.generatedEnvironmentMap).dispose(); + this.generatedEnvironmentMap = null; + } + if (this.generatedEnvironmentMapAlt != null) { + (await this.generatedEnvironmentMapAlt).dispose(); + this.generatedEnvironmentMapAlt = null; + } + if (this.blurMaterial != null) { + this.blurMaterial.dispose(); + } + } +} + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +// Between 0 and 1: larger means the average responds faster and is less smooth. +const DURATION_DECAY = 0.2; +const LOW_FRAME_DURATION_MS = 40; +const HIGH_FRAME_DURATION_MS = 60; +const MAX_AVG_CHANGE_MS = 5; +const SCALE_STEPS = [1, 0.79, 0.62, 0.5, 0.4, 0.31, 0.25]; +const DEFAULT_LAST_STEP = 3; +const DEFAULT_POWER_PREFERENCE = 'high-performance'; +const COMMERCE_EXPOSURE = 1.3; +/** + * Registers canvases with Canvas2DRenderingContexts and renders them + * all in the same WebGLRenderingContext, spitting out textures to apply + * to the canvases. Creates a fullscreen WebGL canvas that is not added + * to the DOM, and on each frame, renders each registered canvas on a portion + * of the WebGL canvas, and applies the texture on the registered canvas. + * + * In the future, can use ImageBitmapRenderingContext instead of + * Canvas2DRenderingContext if supported for cheaper transferring of + * the texture. + */ +class Renderer extends EventDispatcher { + static get singleton() { + if (!this._singleton) { + this._singleton = new Renderer({ + powerPreference: (self.ModelViewerElement || {}) + .powerPreference || + DEFAULT_POWER_PREFERENCE, + debug: isDebugMode() + }); + } + return this._singleton; + } + static resetSingleton() { + const elements = this._singleton.dispose(); + for (const element of elements) { + element.disconnectedCallback(); + } + this._singleton = new Renderer({ + powerPreference: (self.ModelViewerElement || {}) + .powerPreference || + DEFAULT_POWER_PREFERENCE, + debug: isDebugMode() + }); + for (const element of elements) { + element.connectedCallback(); + } + } + get canRender() { + return this.threeRenderer != null; + } + get scaleFactor() { + return SCALE_STEPS[this.scaleStep]; + } + set minScale(scale) { + let i = 1; + while (i < SCALE_STEPS.length) { + if (SCALE_STEPS[i] < scale) { + break; + } + ++i; + } + this.lastStep = i - 1; + } + constructor(options) { + super(); + this.loader = new CachingGLTFLoader(ModelViewerGLTFInstance); + this.width = 0; + this.height = 0; + this.dpr = 1; + this.scenes = new Set(); + this.multipleScenesVisible = false; + this.lastTick = performance.now(); + this.renderedLastFrame = false; + this.scaleStep = 0; + this.lastStep = DEFAULT_LAST_STEP; + this.avgFrameDuration = (HIGH_FRAME_DURATION_MS + LOW_FRAME_DURATION_MS) / 2; + this.onWebGLContextLost = (event) => { + this.dispatchEvent({ type: 'contextlost', sourceEvent: event }); + }; + this.onWebGLContextRestored = () => { + var _a; + (_a = this.textureUtils) === null || _a === void 0 ? void 0 : _a.dispose(); + this.textureUtils = new TextureUtils(this.threeRenderer); + for (const scene of this.scenes) { + scene.element[$updateEnvironment](); + } + }; + this.dpr = window.devicePixelRatio; + this.canvas3D = document.createElement('canvas'); + this.canvas3D.id = 'webgl-canvas'; + this.canvas3D.classList.add('show'); + try { + this.threeRenderer = new WebGLRenderer({ + canvas: this.canvas3D, + alpha: true, + antialias: true, + powerPreference: options.powerPreference, + preserveDrawingBuffer: true, + }); + this.threeRenderer.autoClear = true; + this.threeRenderer.setPixelRatio(1); // handle pixel ratio externally + this.threeRenderer.debug = { + checkShaderErrors: !!options.debug, + onShaderError: null + }; + // ACESFilmicToneMapping appears to be the most "saturated", + // and similar to Filament's gltf-viewer. + this.threeRenderer.toneMapping = NeutralToneMapping; + } + catch (error) { + console.warn(error); + } + this.arRenderer = new ARRenderer(this); + this.textureUtils = + this.canRender ? new TextureUtils(this.threeRenderer) : null; + CachingGLTFLoader.initializeKTX2Loader(this.threeRenderer); + this.canvas3D.addEventListener('webglcontextlost', this.onWebGLContextLost); + this.canvas3D.addEventListener('webglcontextrestored', this.onWebGLContextRestored); + this.updateRendererSize(); + } + registerScene(scene) { + this.scenes.add(scene); + scene.forceRescale(); + const size = new Vector2(); + this.threeRenderer.getSize(size); + scene.canvas.width = size.x; + scene.canvas.height = size.y; + if (this.canRender && this.scenes.size > 0) { + this.threeRenderer.setAnimationLoop((time, frame) => this.render(time, frame)); + } + } + unregisterScene(scene) { + this.scenes.delete(scene); + if (this.canvas3D.parentElement === scene.canvas.parentElement) { + scene.canvas.parentElement.removeChild(this.canvas3D); + } + if (this.canRender && this.scenes.size === 0) { + this.threeRenderer.setAnimationLoop(null); + } + } + displayCanvas(scene) { + return scene.element.modelIsVisible && !this.multipleScenesVisible ? + this.canvas3D : + scene.element[$canvas]; + } + /** + * The function enables an optimization, where when there is only a single + * element, we can use the renderer's 3D canvas directly for + * display. Otherwise we need to use the element's 2D canvas and copy the + * renderer's result into it. + */ + countVisibleScenes() { + const { canvas3D } = this; + let visibleScenes = 0; + let canvas3DScene = null; + for (const scene of this.scenes) { + const { element } = scene; + if (element.modelIsVisible && scene.externalRenderer == null) { + ++visibleScenes; + } + if (canvas3D.parentElement === scene.canvas.parentElement) { + canvas3DScene = scene; + } + } + const multipleScenesVisible = visibleScenes > 1; + if (canvas3DScene != null) { + const newlyMultiple = multipleScenesVisible && !this.multipleScenesVisible; + const disappearing = !canvas3DScene.element.modelIsVisible; + if (newlyMultiple || disappearing) { + const { width, height } = this.sceneSize(canvas3DScene); + this.copyPixels(canvas3DScene, width, height); + canvas3D.parentElement.removeChild(canvas3D); + } + } + this.multipleScenesVisible = multipleScenesVisible; + } + /** + * Updates the renderer's size based on the largest scene and any changes to + * device pixel ratio. + */ + updateRendererSize() { + var _a; + const dpr = window.devicePixelRatio; + if (dpr !== this.dpr) { + // If the device pixel ratio has changed due to page zoom, elements + // specified by % width do not fire a resize event even though their CSS + // pixel dimensions change, so we force them to update their size here. + for (const scene of this.scenes) { + const { element } = scene; + element[$updateSize](element.getBoundingClientRect()); + } + } + // Make the renderer the size of the largest scene + let width = 0; + let height = 0; + for (const scene of this.scenes) { + width = Math.max(width, scene.width); + height = Math.max(height, scene.height); + } + if (width === this.width && height === this.height && dpr === this.dpr) { + return; + } + this.width = width; + this.height = height; + this.dpr = dpr; + width = Math.ceil(width * dpr); + height = Math.ceil(height * dpr); + if (this.canRender) { + this.threeRenderer.setSize(width, height, false); + } + // Each scene's canvas must match the renderer size. In general they can be + // larger than the element that contains them, but the overflow is hidden + // and only the portion that is shown is copied over. + for (const scene of this.scenes) { + const { canvas } = scene; + canvas.width = width; + canvas.height = height; + scene.forceRescale(); + (_a = scene.effectRenderer) === null || _a === void 0 ? void 0 : _a.setSize(width, height); + } + } + updateRendererScale(delta) { + const scaleStep = this.scaleStep; + this.avgFrameDuration += clamp(DURATION_DECAY * (delta - this.avgFrameDuration), -5, MAX_AVG_CHANGE_MS); + if (this.avgFrameDuration > HIGH_FRAME_DURATION_MS) { + ++this.scaleStep; + } + else if (this.avgFrameDuration < LOW_FRAME_DURATION_MS && this.scaleStep > 0) { + --this.scaleStep; + } + this.scaleStep = Math.min(this.scaleStep, this.lastStep); + if (scaleStep !== this.scaleStep) { + this.avgFrameDuration = + (HIGH_FRAME_DURATION_MS + LOW_FRAME_DURATION_MS) / 2; + } + } + shouldRender(scene) { + if (!scene.shouldRender()) { + // The first frame we stop rendering the scene (because it stops moving), + // trigger one extra render at full scale. + if (scene.scaleStep != 0) { + scene.scaleStep = 0; + this.rescaleCanvas(scene); + } + else { + return false; + } + } + else if (scene.scaleStep != this.scaleStep) { + // Update render scale + scene.scaleStep = this.scaleStep; + this.rescaleCanvas(scene); + } + return true; + } + rescaleCanvas(scene) { + const scale = SCALE_STEPS[scene.scaleStep]; + const width = Math.ceil(this.width / scale); + const height = Math.ceil(this.height / scale); + const { style } = scene.canvas; + style.width = `${width}px`; + style.height = `${height}px`; + this.canvas3D.style.width = `${width}px`; + this.canvas3D.style.height = `${height}px`; + const renderedDpr = this.dpr * scale; + const reason = scale < 1 ? 'GPU throttling' : + this.dpr !== window.devicePixelRatio ? 'No meta viewport tag' : + ''; + scene.element.dispatchEvent(new CustomEvent('render-scale', { + detail: { + reportedDpr: window.devicePixelRatio, + renderedDpr: renderedDpr, + minimumDpr: this.dpr * SCALE_STEPS[this.lastStep], + pixelWidth: Math.ceil(scene.width * renderedDpr), + pixelHeight: Math.ceil(scene.height * renderedDpr), + reason: reason + } + })); + } + sceneSize(scene) { + const { dpr } = this; + const scaleFactor = SCALE_STEPS[scene.scaleStep]; + // We avoid using the Three.js PixelRatio and handle it ourselves here so + // that we can do proper rounding and avoid white boundary pixels. + const width = Math.min(Math.ceil(scene.width * scaleFactor * dpr), this.canvas3D.width); + const height = Math.min(Math.ceil(scene.height * scaleFactor * dpr), this.canvas3D.height); + return { width, height }; + } + copyPixels(scene, width, height) { + const context2D = scene.context; + if (context2D == null) { + console.log('could not acquire 2d context'); + return; + } + context2D.clearRect(0, 0, width, height); + context2D.drawImage(this.canvas3D, 0, 0, width, height, 0, 0, width, height); + scene.canvas.classList.add('show'); + } + /** + * Returns an array version of this.scenes where the non-visible ones are + * first. This allows eager scenes to be rendered before they are visible, + * without needing the multi-canvas render path. + */ + orderedScenes() { + const scenes = []; + for (const visible of [false, true]) { + for (const scene of this.scenes) { + if (scene.element.modelIsVisible === visible) { + scenes.push(scene); + } + } + } + return scenes; + } + get isPresenting() { + return this.arRenderer.isPresenting; + } + /** + * This method takes care of updating the element and renderer state based on + * the time that has passed since the last rendered frame. + */ + preRender(scene, t, delta) { + const { element, exposure, toneMapping } = scene; + element[$tick](t, delta); + const exposureIsNumber = typeof exposure === 'number' && !Number.isNaN(exposure); + const env = element.environmentImage; + const sky = element.skyboxImage; + const compensateExposure = toneMapping === NeutralToneMapping && + (env === 'neutral' || env === 'legacy' || (!env && !sky)); + this.threeRenderer.toneMappingExposure = + (exposureIsNumber ? exposure : 1.0) * + (compensateExposure ? COMMERCE_EXPOSURE : 1.0); + } + render(t, frame) { + if (frame != null) { + this.arRenderer.onWebXRFrame(t, frame); + return; + } + const delta = t - this.lastTick; + this.lastTick = t; + if (!this.canRender || this.isPresenting) { + return; + } + this.countVisibleScenes(); + this.updateRendererSize(); + if (this.renderedLastFrame) { + this.updateRendererScale(delta); + this.renderedLastFrame = false; + } + const { canvas3D } = this; + for (const scene of this.orderedScenes()) { + const { element } = scene; + if (!element.loaded || + (!element.modelIsVisible && scene.renderCount > 0)) { + continue; + } + this.preRender(scene, t, delta); + if (!this.shouldRender(scene)) { + continue; + } + if (scene.externalRenderer != null) { + const camera = scene.getCamera(); + camera.updateMatrix(); + const { matrix, projectionMatrix } = camera; + const viewMatrix = matrix.elements.slice(); + const target = scene.getTarget(); + viewMatrix[12] += target.x; + viewMatrix[13] += target.y; + viewMatrix[14] += target.z; + scene.externalRenderer.render({ + viewMatrix: viewMatrix, + projectionMatrix: projectionMatrix.elements + }); + continue; + } + if (!element.modelIsVisible && !this.multipleScenesVisible) { + // Here we are pre-rendering on the visible canvas, so we must mark the + // visible scene dirty to ensure it overwrites us. + for (const visibleScene of this.scenes) { + if (visibleScene.element.modelIsVisible) { + visibleScene.queueRender(); + } + } + } + const { width, height } = this.sceneSize(scene); + scene.renderShadow(this.threeRenderer); + // Need to set the render target in order to prevent + // clearing the depth from a different buffer + this.threeRenderer.setRenderTarget(null); + this.threeRenderer.setViewport(0, Math.ceil(this.height * this.dpr) - height, width, height); + if (scene.effectRenderer != null) { + scene.effectRenderer.render(delta); + } + else { + this.threeRenderer.autoClear = + true; // this might get reset by the effectRenderer + this.threeRenderer.toneMapping = scene.toneMapping; + this.threeRenderer.render(scene, scene.camera); + } + if (this.multipleScenesVisible || + (!scene.element.modelIsVisible && scene.renderCount === 0)) { + this.copyPixels(scene, width, height); + } + else if (canvas3D.parentElement !== scene.canvas.parentElement) { + scene.canvas.parentElement.appendChild(canvas3D); + scene.canvas.classList.remove('show'); + } + scene.hasRendered(); + ++scene.renderCount; + this.renderedLastFrame = true; + } + } + dispose() { + if (this.textureUtils != null) { + this.textureUtils.dispose(); + } + if (this.threeRenderer != null) { + this.threeRenderer.dispose(); + } + this.textureUtils = null; + this.threeRenderer = null; + const elements = []; + for (const scene of this.scenes) { + elements.push(scene.element); + } + this.canvas3D.removeEventListener('webglcontextlost', this.onWebGLContextLost); + this.canvas3D.removeEventListener('webglcontextrestored', this.onWebGLContextRestored); + return elements; + } +} + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const $correlatedObjects = Symbol('correlatedObjects'); +const $onUpdate$1 = Symbol('onUpdate'); +/** + * A SerializableThreeDOMElement is the common primitive of all scene graph + * elements that have been facaded in the host execution context. It adds + * a common interface to these elements in support of convenient + * serializability. + */ +class ThreeDOMElement { + constructor(onUpdate, correlatedObjects) { + this[$onUpdate$1] = onUpdate; + this[$correlatedObjects] = correlatedObjects; + } +} + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const quadMaterial = new MeshBasicMaterial(); +const quad = new PlaneGeometry(2, 2); +let adhocNum = 0; +const $threeTexture$2 = Symbol('threeTexture'); +const $threeTextures$1 = Symbol('threeTextures'); +/** + * Image facade implementation for Three.js textures + */ +let Image$1 = class Image extends ThreeDOMElement { + get [$threeTexture$2]() { + var _a; + return (_a = this[$correlatedObjects]) === null || _a === void 0 ? void 0 : _a.values().next().value; + } + get [$threeTextures$1]() { + return this[$correlatedObjects]; + } + constructor(onUpdate, texture) { + super(onUpdate, new Set(texture ? [texture] : [])); + if (!this[$threeTexture$2].image.src) { + this[$threeTexture$2].image.src = + texture.name ? texture.name : 'adhoc_image' + adhocNum++; + } + if (!this[$threeTexture$2].image.name) { + this[$threeTexture$2].image.name = + (texture && texture.image && texture.image.src) ? + texture.image.src.split('/').pop() : + 'adhoc_image'; + } + } + get name() { + return this[$threeTexture$2].image.name || ''; + } + get uri() { + return this[$threeTexture$2].image.src; + } + get bufferView() { + return this[$threeTexture$2].image.bufferView; + } + get element() { + const texture = this[$threeTexture$2]; + if (texture && (texture.isCanvasTexture || texture.isVideoTexture)) { + return texture.image; + } + return; + } + get animation() { + const texture = this[$threeTexture$2]; + if (texture && texture.isCanvasTexture && texture.animation) { + return texture.animation; + } + return; + } + get type() { + return this.uri != null ? 'external' : 'embedded'; + } + set name(name) { + for (const texture of this[$threeTextures$1]) { + texture.image.name = name; + } + } + update() { + const texture = this[$threeTexture$2]; + // Applies to non-Lottie canvas textures only + if (texture && texture.isCanvasTexture && !texture.animation) { + this[$threeTexture$2].needsUpdate = true; + this[$onUpdate$1](); + } + } + async createThumbnail(width, height) { + const scene = new Scene(); + quadMaterial.map = this[$threeTexture$2]; + const mesh = new Mesh(quad, quadMaterial); + scene.add(mesh); + const camera = new OrthographicCamera(-1, 1, 1, -1, 0, 1); + const { threeRenderer } = Renderer.singleton; + const renderTarget = new WebGLRenderTarget(width, height); + threeRenderer.setRenderTarget(renderTarget); + threeRenderer.render(scene, camera); + threeRenderer.setRenderTarget(null); + const buffer = new Uint8Array(width * height * 4); + threeRenderer.readRenderTargetPixels(renderTarget, 0, 0, width, height, buffer); + blobCanvas.width = width; + blobCanvas.height = height; + const blobContext = blobCanvas.getContext('2d'); + const imageData = blobContext.createImageData(width, height); + imageData.data.set(buffer); + blobContext.putImageData(imageData, 0, 0); + return new Promise(async (resolve, reject) => { + blobCanvas.toBlob(blob => { + if (!blob) { + return reject('Failed to capture thumbnail.'); + } + resolve(URL.createObjectURL(blob)); + }, 'image/png'); + }); + } +}; + +var Filter; +(function (Filter) { + Filter[Filter["Nearest"] = 9728] = "Nearest"; + Filter[Filter["Linear"] = 9729] = "Linear"; + Filter[Filter["NearestMipmapNearest"] = 9984] = "NearestMipmapNearest"; + Filter[Filter["LinearMipmapNearest"] = 9985] = "LinearMipmapNearest"; + Filter[Filter["NearestMipmapLinear"] = 9986] = "NearestMipmapLinear"; + Filter[Filter["LinearMipmapLinear"] = 9987] = "LinearMipmapLinear"; +})(Filter || (Filter = {})); +var Wrap; +(function (Wrap) { + Wrap[Wrap["ClampToEdge"] = 33071] = "ClampToEdge"; + Wrap[Wrap["MirroredRepeat"] = 33648] = "MirroredRepeat"; + Wrap[Wrap["Repeat"] = 10497] = "Repeat"; +})(Wrap || (Wrap = {})); + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +// Convertion between gltf standards and threejs standards. +const wrapModeToWrapping = new Map([ + [Wrap.Repeat, RepeatWrapping], + [Wrap.ClampToEdge, ClampToEdgeWrapping], + [Wrap.MirroredRepeat, MirroredRepeatWrapping] +]); +const wrappingToWrapMode = new Map([ + [RepeatWrapping, Wrap.Repeat], + [ClampToEdgeWrapping, Wrap.ClampToEdge], + [MirroredRepeatWrapping, Wrap.MirroredRepeat] +]); +const minFilterToMinification = new Map([ + [Filter.Nearest, NearestFilter], + [Filter.Linear, LinearFilter], + [Filter.NearestMipmapNearest, NearestMipmapNearestFilter], + [Filter.LinearMipmapNearest, LinearMipmapNearestFilter], + [Filter.NearestMipmapLinear, NearestMipmapLinearFilter], + [Filter.LinearMipmapLinear, LinearMipmapLinearFilter] +]); +const minificationToMinFilter = new Map([ + [NearestFilter, Filter.Nearest], + [LinearFilter, Filter.Linear], + [NearestMipmapNearestFilter, Filter.NearestMipmapNearest], + [LinearMipmapNearestFilter, Filter.LinearMipmapNearest], + [NearestMipmapLinearFilter, Filter.NearestMipmapLinear], + [LinearMipmapLinearFilter, Filter.LinearMipmapLinear] +]); +const magFilterToMagnification = new Map([[Filter.Nearest, NearestFilter], [Filter.Linear, LinearFilter]]); +const magnificationToMagFilter = new Map([[NearestFilter, Filter.Nearest], [LinearFilter, Filter.Linear]]); +// Checks for threejs standards. +const isMinFilter = (() => { + return (value) => minificationToMinFilter.has(value); +})(); +const isMagFilter = (() => { + return (value) => magnificationToMagFilter.has(value); +})(); +const isWrapping = (() => { + return (value) => wrappingToWrapMode.has(value); +})(); +const isValidSamplerValue = (property, value) => { + switch (property) { + case 'minFilter': + return isMinFilter(value); + case 'magFilter': + return isMagFilter(value); + case 'wrapS': + case 'wrapT': + return isWrapping(value); + case 'rotation': + case 'repeat': + case 'offset': + return true; + default: + throw new Error(`Cannot configure property "${property}" on Sampler`); + } +}; +const $threeTexture$1 = Symbol('threeTexture'); +const $threeTextures = Symbol('threeTextures'); +const $setProperty = Symbol('setProperty'); +/** + * Sampler facade implementation for Three.js textures + */ +class Sampler extends ThreeDOMElement { + get [$threeTexture$1]() { + var _a; + return (_a = this[$correlatedObjects]) === null || _a === void 0 ? void 0 : _a.values().next().value; + } + get [$threeTextures]() { + return this[$correlatedObjects]; + } + constructor(onUpdate, texture) { + super(onUpdate, new Set(texture ? [texture] : [])); + } + get name() { + return this[$threeTexture$1].name || ''; + } + get minFilter() { + return minificationToMinFilter.get(this[$threeTexture$1].minFilter); + } + get magFilter() { + return magnificationToMagFilter.get(this[$threeTexture$1].magFilter); + } + get wrapS() { + return wrappingToWrapMode.get(this[$threeTexture$1].wrapS); + } + get wrapT() { + return wrappingToWrapMode.get(this[$threeTexture$1].wrapT); + } + get rotation() { + return this[$threeTexture$1].rotation; + } + get scale() { + return toVector2D(this[$threeTexture$1].repeat); + } + get offset() { + return toVector2D(this[$threeTexture$1].offset); + } + setMinFilter(filter) { + this[$setProperty]('minFilter', minFilterToMinification.get(filter)); + } + setMagFilter(filter) { + this[$setProperty]('magFilter', magFilterToMagnification.get(filter)); + } + setWrapS(mode) { + this[$setProperty]('wrapS', wrapModeToWrapping.get(mode)); + } + setWrapT(mode) { + this[$setProperty]('wrapT', wrapModeToWrapping.get(mode)); + } + setRotation(rotation) { + if (rotation == null) { + // Reset rotation. + rotation = 0; + } + this[$setProperty]('rotation', rotation); + } + setScale(scale) { + if (scale == null) { + // Reset scale. + scale = { u: 1, v: 1 }; + } + this[$setProperty]('repeat', new Vector2(scale.u, scale.v)); + } + setOffset(offset) { + if (offset == null) { + // Reset offset. + offset = { u: 0, v: 0 }; + } + this[$setProperty]('offset', new Vector2(offset.u, offset.v)); + } + [$setProperty](property, value) { + if (isValidSamplerValue(property, value)) { + for (const texture of this[$threeTextures]) { + texture[property] = value; + texture.needsUpdate = true; + } + } + this[$onUpdate$1](); + } +} + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const $image = Symbol('image'); +const $sampler = Symbol('sampler'); +const $threeTexture = Symbol('threeTexture'); +/** + * Material facade implementation for Three.js materials + */ +class Texture extends ThreeDOMElement { + get [$threeTexture]() { + var _a; + return (_a = this[$correlatedObjects]) === null || _a === void 0 ? void 0 : _a.values().next().value; + } + constructor(onUpdate, threeTexture) { + super(onUpdate, new Set(threeTexture ? [threeTexture] : [])); + this[$sampler] = new Sampler(onUpdate, threeTexture); + this[$image] = new Image$1(onUpdate, threeTexture); + } + get name() { + return this[$threeTexture].name || ''; + } + set name(name) { + for (const texture of this[$correlatedObjects]) { + texture.name = name; + } + } + get sampler() { + return this[$sampler]; + } + get source() { + return this[$image]; + } +} + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var _a$4, _b$4, _c$2; +const $texture = Symbol('texture'); +const $transform = Symbol('transform'); +const $materials$1 = Symbol('materials'); +const $usage = Symbol('usage'); +const $onUpdate = Symbol('onUpdate'); +const $activeVideo = Symbol('activeVideo'); +// Defines what a texture will be used for. +var TextureUsage; +(function (TextureUsage) { + TextureUsage[TextureUsage["Base"] = 0] = "Base"; + TextureUsage[TextureUsage["MetallicRoughness"] = 1] = "MetallicRoughness"; + TextureUsage[TextureUsage["Normal"] = 2] = "Normal"; + TextureUsage[TextureUsage["Occlusion"] = 3] = "Occlusion"; + TextureUsage[TextureUsage["Emissive"] = 4] = "Emissive"; + TextureUsage[TextureUsage["Clearcoat"] = 5] = "Clearcoat"; + TextureUsage[TextureUsage["ClearcoatRoughness"] = 6] = "ClearcoatRoughness"; + TextureUsage[TextureUsage["ClearcoatNormal"] = 7] = "ClearcoatNormal"; + TextureUsage[TextureUsage["SheenColor"] = 8] = "SheenColor"; + TextureUsage[TextureUsage["SheenRoughness"] = 9] = "SheenRoughness"; + TextureUsage[TextureUsage["Transmission"] = 10] = "Transmission"; + TextureUsage[TextureUsage["Thickness"] = 11] = "Thickness"; + TextureUsage[TextureUsage["Specular"] = 12] = "Specular"; + TextureUsage[TextureUsage["SpecularColor"] = 13] = "SpecularColor"; + TextureUsage[TextureUsage["Iridescence"] = 14] = "Iridescence"; + TextureUsage[TextureUsage["IridescenceThickness"] = 15] = "IridescenceThickness"; + TextureUsage[TextureUsage["Anisotropy"] = 16] = "Anisotropy"; +})(TextureUsage || (TextureUsage = {})); +/** + * TextureInfo facade implementation for Three.js materials + */ +class TextureInfo { + constructor(onUpdate, usage, threeTexture, material) { + this[_a$4] = null; + this[_b$4] = { + rotation: 0, + scale: new Vector2(1, 1), + offset: new Vector2(0, 0) + }; + this[_c$2] = false; + // Creates image, sampler, and texture if valid texture info is provided. + if (threeTexture) { + this[$transform].rotation = threeTexture.rotation; + this[$transform].scale.copy(threeTexture.repeat); + this[$transform].offset.copy(threeTexture.offset); + this[$texture] = new Texture(onUpdate, threeTexture); + } + this[$onUpdate] = onUpdate; + this[$materials$1] = material; + this[$usage] = usage; + } + get texture() { + return this[$texture]; + } + setTexture(texture) { + var _d, _e; + const threeTexture = texture != null ? texture.source[$threeTexture$2] : null; + const oldTexture = (_d = this[$texture]) === null || _d === void 0 ? void 0 : _d.source[$threeTexture$2]; + if (oldTexture != null && oldTexture.isVideoTexture) { + this[$activeVideo] = false; + } + else if ((_e = this[$texture]) === null || _e === void 0 ? void 0 : _e.source.animation) { + this[$texture].source.animation.removeEventListener('enterFrame', this[$onUpdate]); + } + this[$texture] = texture; + if (threeTexture != null && threeTexture.isVideoTexture) { + const element = threeTexture.image; + this[$activeVideo] = true; + if (element.requestVideoFrameCallback != null) { + const update = () => { + if (!this[$activeVideo]) { + return; + } + this[$onUpdate](); + element.requestVideoFrameCallback(update); + }; + element.requestVideoFrameCallback(update); + } + else { + const update = () => { + if (!this[$activeVideo]) { + return; + } + this[$onUpdate](); + requestAnimationFrame(update); + }; + requestAnimationFrame(update); + } + } + else if ((texture === null || texture === void 0 ? void 0 : texture.source.animation) != null) { + texture.source.animation.addEventListener('enterFrame', this[$onUpdate]); + } + let colorSpace = SRGBColorSpace; + if (this[$materials$1]) { + for (const material of this[$materials$1]) { + switch (this[$usage]) { + case TextureUsage.Base: + material.map = threeTexture; + break; + case TextureUsage.MetallicRoughness: + colorSpace = LinearSRGBColorSpace; + material.metalnessMap = threeTexture; + material.roughnessMap = threeTexture; + break; + case TextureUsage.Normal: + colorSpace = LinearSRGBColorSpace; + material.normalMap = threeTexture; + break; + case TextureUsage.Occlusion: + colorSpace = LinearSRGBColorSpace; + material.aoMap = threeTexture; + break; + case TextureUsage.Emissive: + material.emissiveMap = threeTexture; + break; + case TextureUsage.Clearcoat: + material.clearcoatMap = threeTexture; + break; + case TextureUsage.ClearcoatRoughness: + material.clearcoatRoughnessMap = threeTexture; + break; + case TextureUsage.ClearcoatNormal: + material.clearcoatNormalMap = threeTexture; + break; + case TextureUsage.SheenColor: + material.sheenColorMap = threeTexture; + break; + case TextureUsage.SheenRoughness: + material.sheenRoughnessMap = threeTexture; + break; + case TextureUsage.Transmission: + material.transmissionMap = threeTexture; + break; + case TextureUsage.Thickness: + material.thicknessMap = threeTexture; + break; + case TextureUsage.Specular: + material.specularIntensityMap = threeTexture; + break; + case TextureUsage.SpecularColor: + material.specularColorMap = threeTexture; + break; + case TextureUsage.Iridescence: + material.iridescenceMap = threeTexture; + break; + case TextureUsage.IridescenceThickness: + material.iridescenceThicknessMap = threeTexture; + break; + case TextureUsage.Anisotropy: + material.anisotropyMap = threeTexture; + break; + } + material.needsUpdate = true; + } + } + if (threeTexture) { + // Updates the colorSpace for the texture, affects all references. + threeTexture.colorSpace = colorSpace; + threeTexture.rotation = this[$transform].rotation; + threeTexture.repeat = this[$transform].scale; + threeTexture.offset = this[$transform].offset; + } + this[$onUpdate](); + } +} +_a$4 = $texture, _b$4 = $transform, _c$2 = $activeVideo; + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const $threeMaterial = Symbol('threeMaterial'); +const $threeMaterials = Symbol('threeMaterials'); +const $baseColorTexture = Symbol('baseColorTexture'); +const $metallicRoughnessTexture = Symbol('metallicRoughnessTexture'); +/** + * PBR material properties facade implementation for Three.js materials + */ +class PBRMetallicRoughness extends ThreeDOMElement { + get [$threeMaterials]() { + return this[$correlatedObjects]; + } + get [$threeMaterial]() { + var _a; + return (_a = this[$correlatedObjects]) === null || _a === void 0 ? void 0 : _a.values().next().value; + } + constructor(onUpdate, correlatedMaterials) { + super(onUpdate, correlatedMaterials); + const { map, metalnessMap } = correlatedMaterials.values().next().value; + this[$baseColorTexture] = + new TextureInfo(onUpdate, TextureUsage.Base, map, correlatedMaterials); + this[$metallicRoughnessTexture] = new TextureInfo(onUpdate, TextureUsage.MetallicRoughness, metalnessMap, correlatedMaterials); + } + get baseColorFactor() { + const rgba = [0, 0, 0, this[$threeMaterial].opacity]; + this[$threeMaterial].color.toArray(rgba); + return rgba; + } + get metallicFactor() { + return this[$threeMaterial].metalness; + } + get roughnessFactor() { + return this[$threeMaterial].roughness; + } + get baseColorTexture() { + return this[$baseColorTexture]; + } + get metallicRoughnessTexture() { + return this[$metallicRoughnessTexture]; + } + setBaseColorFactor(rgba) { + const color = new Color(); + if (rgba instanceof Array) { + color.fromArray(rgba); + } + else { + color.set(rgba); + } + for (const material of this[$threeMaterials]) { + material.color.set(color); + if (rgba instanceof Array && rgba.length > 3) { + material.opacity = rgba[3]; + } + else { + rgba = [0, 0, 0, material.opacity]; + color.toArray(rgba); + } + } + this[$onUpdate$1](); + } + setMetallicFactor(value) { + for (const material of this[$threeMaterials]) { + material.metalness = value; + } + this[$onUpdate$1](); + } + setRoughnessFactor(value) { + for (const material of this[$threeMaterials]) { + material.roughness = value; + } + this[$onUpdate$1](); + } +} + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var _a$3, _b$3; +const $pbrMetallicRoughness = Symbol('pbrMetallicRoughness'); +const $normalTexture = Symbol('normalTexture'); +const $occlusionTexture = Symbol('occlusionTexture'); +const $emissiveTexture = Symbol('emissiveTexture'); +const $backingThreeMaterial = Symbol('backingThreeMaterial'); +const $applyAlphaCutoff = Symbol('applyAlphaCutoff'); +const $getAlphaMode = Symbol('getAlphaMode'); +const $lazyLoadGLTFInfo = Symbol('lazyLoadGLTFInfo'); +const $initialize = Symbol('initialize'); +const $getLoadedMaterial = Symbol('getLoadedMaterial'); +const $ensureMaterialIsLoaded = Symbol('ensureMaterialIsLoaded'); +const $gltfIndex = Symbol('gltfIndex'); +const $setActive = Symbol('setActive'); +const $variantIndices = Symbol('variantIndices'); +const $isActive = Symbol('isActive'); +const $modelVariants = Symbol('modelVariants'); +const $name = Symbol('name'); +const $pbrTextures = Symbol('pbrTextures'); +/** + * Material facade implementation for Three.js materials + */ +class Material extends ThreeDOMElement { + get [(_a$3 = $variantIndices, _b$3 = $pbrTextures, $backingThreeMaterial)]() { + return this[$correlatedObjects] + .values() + .next() + .value; + } + constructor(onUpdate, gltfIndex, isActive, modelVariants, correlatedMaterials, name, lazyLoadInfo = undefined) { + super(onUpdate, correlatedMaterials); + this[_a$3] = new Set(); + this[_b$3] = new Map(); + this[$gltfIndex] = gltfIndex; + this[$isActive] = isActive; + this[$modelVariants] = modelVariants; + this[$name] = name; + if (lazyLoadInfo == null) { + this[$initialize](); + } + else { + this[$lazyLoadGLTFInfo] = lazyLoadInfo; + } + } + [$initialize]() { + const onUpdate = this[$onUpdate$1]; + const correlatedMaterials = this[$correlatedObjects]; + this[$pbrMetallicRoughness] = + new PBRMetallicRoughness(onUpdate, correlatedMaterials); + const { normalMap, aoMap, emissiveMap } = correlatedMaterials.values().next().value; + this[$normalTexture] = new TextureInfo(onUpdate, TextureUsage.Normal, normalMap, correlatedMaterials); + this[$occlusionTexture] = new TextureInfo(onUpdate, TextureUsage.Occlusion, aoMap, correlatedMaterials); + this[$emissiveTexture] = new TextureInfo(onUpdate, TextureUsage.Emissive, emissiveMap, correlatedMaterials); + const createTextureInfo = (usage) => { + this[$pbrTextures].set(usage, new TextureInfo(onUpdate, usage, null, correlatedMaterials)); + }; + createTextureInfo(TextureUsage.Clearcoat); + createTextureInfo(TextureUsage.ClearcoatRoughness); + createTextureInfo(TextureUsage.ClearcoatNormal); + createTextureInfo(TextureUsage.SheenColor); + createTextureInfo(TextureUsage.SheenRoughness); + createTextureInfo(TextureUsage.Transmission); + createTextureInfo(TextureUsage.Thickness); + createTextureInfo(TextureUsage.Specular); + createTextureInfo(TextureUsage.SpecularColor); + createTextureInfo(TextureUsage.Iridescence); + createTextureInfo(TextureUsage.IridescenceThickness); + createTextureInfo(TextureUsage.Anisotropy); + } + async [$getLoadedMaterial]() { + if (this[$lazyLoadGLTFInfo] != null) { + const material = await this[$lazyLoadGLTFInfo].doLazyLoad(); + this[$initialize](); + // Releases lazy load info. + this[$lazyLoadGLTFInfo] = undefined; + // Redefines the method as a noop method. + this.ensureLoaded = async () => { }; + return material; + } + return null; + } + colorFromRgb(rgb) { + const color = new Color(); + if (rgb instanceof Array) { + color.fromArray(rgb); + } + else { + color.set(rgb); + } + return color; + } + [$ensureMaterialIsLoaded]() { + if (this[$lazyLoadGLTFInfo] == null) { + return; + } + throw new Error(`Material "${this.name}" has not been loaded, call 'await + myMaterial.ensureLoaded()' before using an unloaded material.`); + } + async ensureLoaded() { + await this[$getLoadedMaterial](); + } + get isLoaded() { + return this[$lazyLoadGLTFInfo] == null; + } + get isActive() { + return this[$isActive]; + } + [$setActive](isActive) { + this[$isActive] = isActive; + } + get name() { + return this[$name] || ''; + } + set name(name) { + this[$name] = name; + if (this[$correlatedObjects] != null) { + for (const threeMaterial of this[$correlatedObjects]) { + threeMaterial.name = name; + } + } + } + get pbrMetallicRoughness() { + this[$ensureMaterialIsLoaded](); + return this[$pbrMetallicRoughness]; + } + get normalTexture() { + this[$ensureMaterialIsLoaded](); + return this[$normalTexture]; + } + get occlusionTexture() { + this[$ensureMaterialIsLoaded](); + return this[$occlusionTexture]; + } + get emissiveTexture() { + this[$ensureMaterialIsLoaded](); + return this[$emissiveTexture]; + } + get emissiveFactor() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].emissive.toArray(); + } + get index() { + return this[$gltfIndex]; + } + hasVariant(name) { + const variantData = this[$modelVariants].get(name); + return variantData != null && this[$variantIndices].has(variantData.index); + } + setEmissiveFactor(rgb) { + this[$ensureMaterialIsLoaded](); + const color = this.colorFromRgb(rgb); + for (const material of this[$correlatedObjects]) { + material.emissive.set(color); + } + this[$onUpdate$1](); + } + [$getAlphaMode]() { + // Follows implementation of GLTFExporter from three.js + if (this[$backingThreeMaterial].transparent) { + return 'BLEND'; + } + else { + if (this[$backingThreeMaterial].alphaTest > 0.0) { + return 'MASK'; + } + } + return 'OPAQUE'; + } + [$applyAlphaCutoff]() { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + if (this[$getAlphaMode]() === 'MASK') { + if (material.alphaTest == undefined) { + material.alphaTest = 0.5; + } + } + else { + material.alphaTest = undefined; + } + material.needsUpdate = true; + } + } + setAlphaCutoff(cutoff) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.alphaTest = cutoff; + material.needsUpdate = true; + } + // Set AlphaCutoff to undefined if AlphaMode is not MASK. + this[$applyAlphaCutoff](); + this[$onUpdate$1](); + } + getAlphaCutoff() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].alphaTest; + } + setDoubleSided(doubleSided) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + // When double-sided is disabled gltf spec dictates that Back-Face culling + // must be disabled, in three.js parlance that would mean FrontSide + // rendering only. + // https://github.com/KhronosGroup/glTF/tree/master/specification/2.0#double-sided + material.side = doubleSided ? DoubleSide : FrontSide; + material.needsUpdate = true; + } + this[$onUpdate$1](); + } + getDoubleSided() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].side == DoubleSide; + } + setAlphaMode(alphaMode) { + this[$ensureMaterialIsLoaded](); + const enableTransparency = (material, enabled) => { + material.transparent = enabled; + material.depthWrite = !enabled; + }; + for (const material of this[$correlatedObjects]) { + enableTransparency(material, alphaMode === 'BLEND'); + if (alphaMode === 'MASK') { + material.alphaTest = 0.5; + } + else { + material.alphaTest = undefined; + } + material.needsUpdate = true; + } + this[$onUpdate$1](); + } + getAlphaMode() { + this[$ensureMaterialIsLoaded](); + return this[$getAlphaMode](); + } + /** + * PBR Next properties. + */ + // KHR_materials_emissive_strength + get emissiveStrength() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].emissiveIntensity; + } + setEmissiveStrength(emissiveStrength) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.emissiveIntensity = emissiveStrength; + } + this[$onUpdate$1](); + } + // KHR_materials_clearcoat + get clearcoatFactor() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].clearcoat; + } + get clearcoatRoughnessFactor() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].clearcoatRoughness; + } + get clearcoatTexture() { + this[$ensureMaterialIsLoaded](); + return this[$pbrTextures].get(TextureUsage.Clearcoat); + } + get clearcoatRoughnessTexture() { + this[$ensureMaterialIsLoaded](); + return this[$pbrTextures].get(TextureUsage.ClearcoatRoughness); + } + get clearcoatNormalTexture() { + this[$ensureMaterialIsLoaded](); + return this[$pbrTextures].get(TextureUsage.ClearcoatNormal); + } + get clearcoatNormalScale() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].clearcoatNormalScale.x; + } + setClearcoatFactor(clearcoatFactor) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.clearcoat = clearcoatFactor; + } + this[$onUpdate$1](); + } + setClearcoatRoughnessFactor(clearcoatRoughnessFactor) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.clearcoatRoughness = clearcoatRoughnessFactor; + } + this[$onUpdate$1](); + } + setClearcoatNormalScale(clearcoatNormalScale) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.clearcoatNormalScale = + new Vector2(clearcoatNormalScale, clearcoatNormalScale); + } + this[$onUpdate$1](); + } + // KHR_materials_ior + get ior() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].ior; + } + setIor(ior) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.ior = ior; + } + this[$onUpdate$1](); + } + // KHR_materials_sheen + get sheenColorFactor() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].sheenColor.toArray(); + } + get sheenColorTexture() { + this[$ensureMaterialIsLoaded](); + return this[$pbrTextures].get(TextureUsage.SheenColor); + } + get sheenRoughnessFactor() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].sheenRoughness; + } + get sheenRoughnessTexture() { + this[$ensureMaterialIsLoaded](); + return this[$pbrTextures].get(TextureUsage.SheenRoughness); + } + setSheenColorFactor(rgb) { + this[$ensureMaterialIsLoaded](); + const color = this.colorFromRgb(rgb); + for (const material of this[$correlatedObjects]) { + material.sheenColor.set(color); + // Three.js GLTFExporter checks for internal sheen value. + material.sheen = 1; + } + this[$onUpdate$1](); + } + setSheenRoughnessFactor(roughness) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.sheenRoughness = roughness; + // Three.js GLTFExporter checks for internal sheen value. + material.sheen = 1; + } + this[$onUpdate$1](); + } + // KHR_materials_transmission + get transmissionFactor() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].transmission; + } + get transmissionTexture() { + this[$ensureMaterialIsLoaded](); + return this[$pbrTextures].get(TextureUsage.Transmission); + } + setTransmissionFactor(transmission) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.transmission = transmission; + } + this[$onUpdate$1](); + } + // KHR_materials_volume + get thicknessFactor() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].thickness; + } + get thicknessTexture() { + this[$ensureMaterialIsLoaded](); + return this[$pbrTextures].get(TextureUsage.Thickness); + } + get attenuationDistance() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].attenuationDistance; + } + get attenuationColor() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].attenuationColor.toArray(); + } + setThicknessFactor(thickness) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.thickness = thickness; + } + this[$onUpdate$1](); + } + setAttenuationDistance(attenuationDistance) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.attenuationDistance = attenuationDistance; + } + this[$onUpdate$1](); + } + setAttenuationColor(rgb) { + this[$ensureMaterialIsLoaded](); + const color = this.colorFromRgb(rgb); + for (const material of this[$correlatedObjects]) { + material.attenuationColor.set(color); + } + this[$onUpdate$1](); + } + // KHR_materials_specular + get specularFactor() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].specularIntensity; + } + get specularTexture() { + this[$ensureMaterialIsLoaded](); + return this[$pbrTextures].get(TextureUsage.Specular); + } + get specularColorFactor() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].specularColor.toArray(); + } + get specularColorTexture() { + this[$ensureMaterialIsLoaded](); + return this[$pbrTextures].get(TextureUsage.SheenColor); + } + setSpecularFactor(specularFactor) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.specularIntensity = specularFactor; + } + this[$onUpdate$1](); + } + setSpecularColorFactor(rgb) { + this[$ensureMaterialIsLoaded](); + const color = this.colorFromRgb(rgb); + for (const material of this[$correlatedObjects]) { + material.specularColor.set(color); + } + this[$onUpdate$1](); + } + // KHR_materials_iridescence + get iridescenceFactor() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].iridescence; + } + get iridescenceTexture() { + this[$ensureMaterialIsLoaded](); + return this[$pbrTextures].get(TextureUsage.Iridescence); + } + get iridescenceIor() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].iridescenceIOR; + } + get iridescenceThicknessMinimum() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].iridescenceThicknessRange[0]; + } + get iridescenceThicknessMaximum() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].iridescenceThicknessRange[1]; + } + get iridescenceThicknessTexture() { + this[$ensureMaterialIsLoaded](); + return this[$pbrTextures].get(TextureUsage.IridescenceThickness); + } + setIridescenceFactor(iridescence) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.iridescence = iridescence; + } + this[$onUpdate$1](); + } + setIridescenceIor(ior) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.iridescenceIOR = ior; + } + this[$onUpdate$1](); + } + setIridescenceThicknessMinimum(thicknessMin) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.iridescenceThicknessRange[0] = thicknessMin; + } + this[$onUpdate$1](); + } + setIridescenceThicknessMaximum(thicknessMax) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.iridescenceThicknessRange[1] = thicknessMax; + } + this[$onUpdate$1](); + } + // KHR_materials_anisotropy + get anisotropyStrength() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].anisotropy; + } + get anisotropyRotation() { + this[$ensureMaterialIsLoaded](); + return this[$backingThreeMaterial].anisotropyRotation; + } + get anisotropyTexture() { + this[$ensureMaterialIsLoaded](); + return this[$pbrTextures].get(TextureUsage.Anisotropy); + } + setAnisotropyStrength(strength) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.anisotropy = strength; + } + this[$onUpdate$1](); + } + setAnisotropyRotation(rotation) { + this[$ensureMaterialIsLoaded](); + for (const material of this[$correlatedObjects]) { + material.anisotropyRotation = rotation; + } + this[$onUpdate$1](); + } +} + +// Defines the base level node methods and data. +let Node$1 = class Node { + constructor(name) { + this.name = ''; + this.children = new Array(); + this.name = name; + } +}; +// Represents a primitive in a glTF mesh. +class PrimitiveNode extends Node$1 { + constructor(mesh, mvMaterials, modelVariants, correlatedSceneGraph) { + super(mesh.name); + // Maps glTF material index number to a material that this primitive supports. + this.materials = new Map(); + // Maps variant index to material. + this.variantToMaterialMap = new Map(); + this.initialMaterialIdx = 0; + this.activeMaterialIdx = 0; + this.mesh = mesh; + const { gltf, threeGLTF, threeObjectMap } = correlatedSceneGraph; + this.parser = threeGLTF.parser; + this.modelVariants = modelVariants; + this.mesh.userData.variantData = modelVariants; + // Captures the primitive's initial material. + const materialMappings = threeObjectMap.get(mesh.material); + if (materialMappings.materials != null) { + this.initialMaterialIdx = this.activeMaterialIdx = + materialMappings.materials; + } + else { + console.error(`Primitive (${mesh.name}) missing initial material reference.`); + } + // Gets the mesh index from the node. + const associations = mesh.userData.associations || + {}; + if (associations.meshes == null) { + console.error('Mesh is missing primitive index association'); + return; + } + // The gltf mesh array to sample from. + const meshElementArray = gltf['meshes'] || []; + // List of primitives under the mesh. + const gltfPrimitives = (meshElementArray[associations.meshes].primitives || []); + const gltfPrimitive = gltfPrimitives[associations.primitives]; + if (gltfPrimitive == null) { + console.error('Mesh primitive definition is missing.'); + return; + } + // Maps the gltfPrimitive default to a material. + if (gltfPrimitive.material != null) { + this.materials.set(gltfPrimitive.material, mvMaterials[gltfPrimitive.material]); + } + else { + const defaultIdx = mvMaterials.findIndex((mat) => { + return mat.name === 'Default'; + }); + if (defaultIdx >= 0) { + this.materials.set(defaultIdx, mvMaterials[defaultIdx]); + } + else { + console.warn('gltfPrimitive has no material!'); + } + } + if (gltfPrimitive.extensions && + gltfPrimitive.extensions['KHR_materials_variants']) { + const variantsExtension = gltfPrimitive.extensions['KHR_materials_variants']; + const extensions = threeGLTF.parser.json.extensions; + const variantNames = extensions['KHR_materials_variants'].variants; + // Provides definition now that we know there are variants to + // support. + for (const mapping of variantsExtension.mappings) { + const mvMaterial = mvMaterials[mapping.material]; + // Maps variant indices to Materials. + this.materials.set(mapping.material, mvMaterial); + for (const variant of mapping.variants) { + const { name } = variantNames[variant]; + this.variantToMaterialMap.set(variant, mvMaterial); + // Provides variant info for material self lookup. + mvMaterial[$variantIndices].add(variant); + // Updates the models variant data. + if (!modelVariants.has(name)) { + modelVariants.set(name, { name, index: variant }); + } + } + } + } + } + async setActiveMaterial(material) { + const mvMaterial = this.materials.get(material); + if (material !== this.activeMaterialIdx) { + const backingMaterials = mvMaterial[$correlatedObjects]; + const baseMaterial = await mvMaterial[$getLoadedMaterial](); + if (baseMaterial != null) { + this.mesh.material = baseMaterial; + } + else { + this.mesh.material = backingMaterials.values().next().value; + } + this.parser.assignFinalMaterial(this.mesh); + backingMaterials.add(this.mesh.material); + this.activeMaterialIdx = material; + } + return this.mesh.material; + } + getActiveMaterial() { + return this.materials.get(this.activeMaterialIdx); + } + getMaterial(index) { + return this.materials.get(index); + } + async enableVariant(name) { + if (name == null) { + return this.setActiveMaterial(this.initialMaterialIdx); + } + if (this.variantToMaterialMap != null && this.modelVariants.has(name)) { + const modelVariants = this.modelVariants.get(name); + return this.enableVariantHelper(modelVariants.index); + } + return null; + } + async enableVariantHelper(index) { + if (this.variantToMaterialMap != null && index != null) { + const material = this.variantToMaterialMap.get(index); + if (material != null) { + return this.setActiveMaterial(material.index); + } + } + return null; + } + async instantiateVariants() { + if (this.variantToMaterialMap == null) { + return; + } + for (const index of this.variantToMaterialMap.keys()) { + const variantMaterial = this.mesh.userData.variantMaterials.get(index); + if (variantMaterial.material != null) { + continue; + } + const threeMaterial = await this.enableVariantHelper(index); + if (threeMaterial != null) { + variantMaterial.material = threeMaterial; + } + } + } + get variantInfo() { + return this.variantToMaterialMap; + } + addVariant(materialVariant, variantName) { + if (!this.ensureVariantIsUnused(variantName)) { + return false; + } + // Adds the variant to the model variants if needed. + if (!this.modelVariants.has(variantName)) { + this.modelVariants.set(variantName, { name: variantName, index: this.modelVariants.size }); + } + const modelVariantData = this.modelVariants.get(variantName); + const variantIndex = modelVariantData.index; + // Updates materials mapped to the variant. + materialVariant[$variantIndices].add(variantIndex); + // Updates internal mappings. + this.variantToMaterialMap.set(variantIndex, materialVariant); + this.materials.set(materialVariant.index, materialVariant); + this.updateVariantUserData(variantIndex, materialVariant); + return true; + } + deleteVariant(variantIndex) { + if (this.variantInfo.has(variantIndex)) { + this.variantInfo.delete(variantIndex); + const userDataMap = this.mesh.userData.variantMaterials; + if (userDataMap != null) { + userDataMap.delete(variantIndex); + } + } + } + updateVariantUserData(variantIndex, materialVariant) { + // Adds variants name to material variants set. + materialVariant[$variantIndices].add(variantIndex); + this.mesh.userData.variantData = this.modelVariants; + // Updates import data (see VariantMaterialLoaderPlugin.ts). + this.mesh.userData.variantMaterials = this.mesh.userData.variantMaterials || + new Map(); + const map = this.mesh.userData.variantMaterials; + map.set(variantIndex, { + material: materialVariant[$correlatedObjects].values().next().value, + gltfMaterialIndex: materialVariant.index, + }); + } + ensureVariantIsUnused(variantName) { + const modelVariants = this.modelVariants.get(variantName); + if (modelVariants != null && this.variantInfo.has(modelVariants.index)) { + console.warn(`Primitive cannot add variant '${variantName}' for this material, it already exists.`); + return false; + } + return true; + } +} + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var _a$2, _b$2, _c$1, _d$1, _e$1, _f$1; +const $materials = Symbol('materials'); +const $hierarchy = Symbol('hierarchy'); +const $roots = Symbol('roots'); +const $primitivesList = Symbol('primitives'); +const $prepareVariantsForExport = Symbol('prepareVariantsForExport'); +const $switchVariant = Symbol('switchVariant'); +const $materialFromPoint = Symbol('materialFromPoint'); +const $nodeFromPoint = Symbol('nodeFromPoint'); +const $nodeFromIndex = Symbol('nodeFromIndex'); +const $variantData = Symbol('variantData'); +const $availableVariants = Symbol('availableVariants'); +const $modelOnUpdate = Symbol('modelOnUpdate'); +const $cloneMaterial = Symbol('cloneMaterial'); +// Holds onto temporary scene context information needed to perform lazy loading +// of a resource. +class LazyLoader { + constructor(gltf, gltfElementMap, mapKey, doLazyLoad) { + this.gltf = gltf; + this.gltfElementMap = gltfElementMap; + this.mapKey = mapKey; + this.doLazyLoad = doLazyLoad; + } +} +/** + * A Model facades the top-level GLTF object returned by Three.js' GLTFLoader. + * Currently, the model only bothers itself with the materials in the Three.js + * scene graph. + */ +class Model { + constructor(correlatedSceneGraph, onUpdate = () => { }) { + this[_a$2] = new Array(); + this[_b$2] = new Array(); + this[_c$1] = new Array(); + this[_d$1] = new Array(); + this[_e$1] = () => { }; + this[_f$1] = new Map(); + this[$modelOnUpdate] = onUpdate; + const { gltf, threeGLTF, gltfElementMap } = correlatedSceneGraph; + for (const [i, material] of gltf.materials.entries()) { + const correlatedMaterial = gltfElementMap.get(material); + if (correlatedMaterial != null) { + this[$materials].push(new Material(onUpdate, i, true, this[$variantData], correlatedMaterial, material.name)); + } + else { + const elementArray = gltf['materials'] || []; + const gltfMaterialDef = elementArray[i]; + const threeMaterialSet = new Set(); + gltfElementMap.set(gltfMaterialDef, threeMaterialSet); + const materialLoadCallback = async () => { + const threeMaterial = await threeGLTF.parser.getDependency('material', i); + threeMaterialSet.add(threeMaterial); + return threeMaterial; + }; + // Configures the material for lazy loading. + this[$materials].push(new Material(onUpdate, i, false, this[$variantData], threeMaterialSet, material.name, new LazyLoader(gltf, gltfElementMap, gltfMaterialDef, materialLoadCallback))); + } + } + // Creates a hierarchy of Nodes. Allows not just for switching which + // material is applied to a mesh but also exposes a way to provide API + // for switching materials and general assignment/modification. + // Prepares for scene iteration. + const parentMap = new Map(); + const nodeStack = new Array(); + for (const object of threeGLTF.scene.children) { + nodeStack.push(object); + } + // Walks the hierarchy and creates a node tree. + while (nodeStack.length > 0) { + const object = nodeStack.pop(); + let node = null; + if (object instanceof Mesh) { + node = new PrimitiveNode(object, this.materials, this[$variantData], correlatedSceneGraph); + this[$primitivesList].push(node); + } + else { + node = new Node$1(object.name); + } + const parent = parentMap.get(object); + if (parent != null) { + parent.children.push(node); + } + else { + this[$roots].push(node); + } + this[$hierarchy].push(node); + for (const child of object.children) { + nodeStack.push(child); + parentMap.set(object, node); + } + } + } + /** + * Materials are listed in the order of the GLTF materials array, plus a + * default material at the end if one is used. + * + * TODO(#1003): How do we handle non-active scenes? + */ + get materials() { + return this[$materials]; + } + [(_a$2 = $materials, _b$2 = $hierarchy, _c$1 = $roots, _d$1 = $primitivesList, _e$1 = $modelOnUpdate, _f$1 = $variantData, $availableVariants)]() { + const variants = Array.from(this[$variantData].values()); + variants.sort((a, b) => { + return a.index - b.index; + }); + return variants.map((data) => { + return data.name; + }); + } + getMaterialByName(name) { + const matches = this[$materials].filter(material => { + return material.name === name; + }); + if (matches.length > 0) { + return matches[0]; + } + return null; + } + [$nodeFromIndex](mesh, primitive) { + const found = this[$hierarchy].find((node) => { + if (node instanceof PrimitiveNode) { + const { meshes, primitives } = node.mesh.userData.associations; + if (meshes == mesh && primitives == primitive) { + return true; + } + } + return false; + }); + return found == null ? null : found; + } + [$nodeFromPoint](hit) { + return this[$hierarchy].find((node) => { + if (node instanceof PrimitiveNode) { + const primitive = node; + if (primitive.mesh === hit.object) { + return true; + } + } + return false; + }); + } + /** + * Intersects a ray with the Model and returns the first material whose + * object was intersected. + */ + [$materialFromPoint](hit) { + return this[$nodeFromPoint](hit).getActiveMaterial(); + } + /** + * Switches model variant to the variant name provided, or switches to + * default/initial materials if 'null' is provided. + */ + async [$switchVariant](variantName) { + for (const primitive of this[$primitivesList]) { + await primitive.enableVariant(variantName); + } + for (const material of this.materials) { + material[$setActive](false); + } + // Marks the materials that are now in use after the variant switch. + for (const primitive of this[$primitivesList]) { + this.materials[primitive.getActiveMaterial().index][$setActive](true); + } + } + async [$prepareVariantsForExport]() { + const promises = new Array(); + for (const primitive of this[$primitivesList]) { + promises.push(primitive.instantiateVariants()); + } + await Promise.all(promises); + } + [$cloneMaterial](index, newMaterialName) { + const material = this.materials[index]; + if (!material.isLoaded) { + console.error(`Cloning an unloaded material, + call 'material.ensureLoaded() before cloning the material.`); + } + const threeMaterialSet = material[$correlatedObjects]; + const clonedSet = new Set(); + for (const [i, threeMaterial] of threeMaterialSet.entries()) { + const clone = threeMaterial.clone(); + clone.name = + newMaterialName + (threeMaterialSet.size > 1 ? '_inst' + i : ''); + clonedSet.add(clone); + } + const clonedMaterial = new Material(this[$modelOnUpdate], this[$materials].length, false, // Cloned as inactive. + this[$variantData], clonedSet, newMaterialName); + this[$materials].push(clonedMaterial); + return clonedMaterial; + } + createMaterialInstanceForVariant(originalMaterialIndex, newMaterialName, variantName, activateVariant = true) { + let variantMaterialInstance = null; + for (const primitive of this[$primitivesList]) { + const variantData = this[$variantData].get(variantName); + // Skips the primitive if the variant already exists. + if (variantData != null && primitive.variantInfo.has(variantData.index)) { + continue; + } + // Skips the primitive if the source/original material does not exist. + if (primitive.getMaterial(originalMaterialIndex) == null) { + continue; + } + if (!this.hasVariant(variantName)) { + this.createVariant(variantName); + } + if (variantMaterialInstance == null) { + variantMaterialInstance = + this[$cloneMaterial](originalMaterialIndex, newMaterialName); + } + primitive.addVariant(variantMaterialInstance, variantName); + } + if (activateVariant && variantMaterialInstance != null) { + variantMaterialInstance[$setActive](true); + this.materials[originalMaterialIndex][$setActive](false); + for (const primitive of this[$primitivesList]) { + primitive.enableVariant(variantName); + } + } + return variantMaterialInstance; + } + createVariant(variantName) { + if (!this[$variantData].has(variantName)) { + // Adds the name if it's not already in the list. + this[$variantData].set(variantName, { name: variantName, index: this[$variantData].size }); + } + else { + console.warn(`Variant '${variantName}'' already exists`); + } + } + hasVariant(variantName) { + return this[$variantData].has(variantName); + } + setMaterialToVariant(materialIndex, targetVariantName) { + if (this[$availableVariants]().find(name => name === targetVariantName) == + null) { + console.warn(`Can't add material to '${targetVariantName}', the variant does not exist.'`); + return; + } + if (materialIndex < 0 || materialIndex >= this.materials.length) { + console.error(`setMaterialToVariant(): materialIndex is out of bounds.`); + return; + } + for (const primitive of this[$primitivesList]) { + const material = primitive.getMaterial(materialIndex); + // Ensures the material exists on the primitive before setting it to a + // variant. + if (material != null) { + primitive.addVariant(material, targetVariantName); + } + } + } + updateVariantName(currentName, newName) { + const variantData = this[$variantData].get(currentName); + if (variantData == null) { + return; + } + variantData.name = newName; + this[$variantData].set(newName, variantData); + this[$variantData].delete(currentName); + } + deleteVariant(variantName) { + const variant = this[$variantData].get(variantName); + if (variant == null) { + return; + } + for (const material of this.materials) { + if (material.hasVariant(variantName)) { + material[$variantIndices].delete(variant.index); + } + } + for (const primitive of this[$primitivesList]) { + primitive.deleteVariant(variant.index); + } + this[$variantData].delete(variantName); + } +} + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var __decorate$5 = (undefined && undefined.__decorate) || function (decorators, target, key, desc) { + var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d; + for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r; + return c > 3 && r && Object.defineProperty(target, key, r), r; +}; +const $currentGLTF = Symbol('currentGLTF'); +const $originalGltfJson = Symbol('originalGltfJson'); +const $model = Symbol('model'); +const $getOnUpdateMethod = Symbol('getOnUpdateMethod'); +const $buildTexture = Symbol('buildTexture'); +/** + * SceneGraphMixin manages exposes a model API in order to support operations on + * the scene graph. + */ +const SceneGraphMixin = (ModelViewerElement) => { + var _a, _b, _c; + class SceneGraphModelViewerElement extends ModelViewerElement { + constructor() { + super(...arguments); + this[_a] = undefined; + this[_b] = null; + this[_c] = null; + this.variantName = null; + this.orientation = '0 0 0'; + this.scale = '1 1 1'; + } + // Scene-graph API: + /** @export */ + get model() { + return this[$model]; + } + get availableVariants() { + return this.model ? this.model[$availableVariants]() : []; + } + /** + * Returns a deep copy of the gltf JSON as loaded. It will not reflect + * changes to the scene-graph, nor will editing it have any effect. + */ + get originalGltfJson() { + return this[$originalGltfJson]; + } + [(_a = $model, _b = $currentGLTF, _c = $originalGltfJson, $getOnUpdateMethod)]() { + return () => { + this[$needsRender](); + }; + } + [$buildTexture](texture) { + // Applies glTF default settings. + texture.colorSpace = SRGBColorSpace; + texture.wrapS = RepeatWrapping; + texture.wrapT = RepeatWrapping; + return new Texture(this[$getOnUpdateMethod](), texture); + } + async createTexture(uri, type = 'image/png') { + const { textureUtils } = this[$renderer]; + const texture = await textureUtils.loadImage(uri, this.withCredentials); + texture.userData.mimeType = type; + return this[$buildTexture](texture); + } + async createLottieTexture(uri, quality = 1) { + const { textureUtils } = this[$renderer]; + const texture = await textureUtils.loadLottie(uri, quality, this.withCredentials); + return this[$buildTexture](texture); + } + createVideoTexture(uri) { + const video = document.createElement('video'); + video.crossOrigin = + this.withCredentials ? 'use-credentials' : 'anonymous'; + video.src = uri; + video.muted = true; + video.playsInline = true; + video.loop = true; + video.play(); + const texture = new VideoTexture(video); + return this[$buildTexture](texture); + } + createCanvasTexture() { + const canvas = document.createElement('canvas'); + const texture = new CanvasTexture(canvas); + return this[$buildTexture](texture); + } + async updated(changedProperties) { + super.updated(changedProperties); + if (changedProperties.has('variantName')) { + const updateVariantProgress = this[$progressTracker].beginActivity('variant-update'); + updateVariantProgress(0.1); + const model = this[$model]; + const { variantName } = this; + if (model != null) { + await model[$switchVariant](variantName); + this[$needsRender](); + this.dispatchEvent(new CustomEvent('variant-applied')); + } + updateVariantProgress(1.0); + } + if (changedProperties.has('orientation') || + changedProperties.has('scale')) { + if (!this.loaded) { + return; + } + const scene = this[$scene]; + scene.applyTransform(); + scene.updateBoundingBox(); + scene.updateShadow(); + this[$renderer].arRenderer.onUpdateScene(); + this[$needsRender](); + } + } + [$onModelLoad]() { + super[$onModelLoad](); + const { currentGLTF } = this[$scene]; + if (currentGLTF != null) { + const { correlatedSceneGraph } = currentGLTF; + if (correlatedSceneGraph != null && + currentGLTF !== this[$currentGLTF]) { + this[$model] = + new Model(correlatedSceneGraph, this[$getOnUpdateMethod]()); + this[$originalGltfJson] = + JSON.parse(JSON.stringify(correlatedSceneGraph.gltf)); + } + // KHR_materials_variants extension spec: + // https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Khronos/KHR_materials_variants + if ('variants' in currentGLTF.userData) { + this.requestUpdate('variantName'); + } + } + this[$currentGLTF] = currentGLTF; + } + /** @export */ + async exportScene(options) { + const scene = this[$scene]; + return new Promise(async (resolve, reject) => { + // Defaults + const opts = { + binary: true, + onlyVisible: true, + maxTextureSize: Infinity, + includeCustomExtensions: false, + forceIndices: false + }; + Object.assign(opts, options); + // Not configurable + opts.animations = scene.animations; + opts.truncateDrawRange = true; + const shadow = scene.shadow; + let visible = false; + // Remove shadow from export + if (shadow != null) { + visible = shadow.visible; + shadow.visible = false; + } + await this[$model][$prepareVariantsForExport](); + const exporter = new GLTFExporter() + .register((writer) => new GLTFExporterMaterialsVariantsExtension(writer)); + exporter.parse(scene.model, (gltf) => { + return resolve(new Blob([opts.binary ? gltf : JSON.stringify(gltf)], { + type: opts.binary ? 'application/octet-stream' : + 'application/json' + })); + }, () => { + return reject('glTF export failed'); + }, opts); + if (shadow != null) { + shadow.visible = visible; + } + }); + } + materialFromPoint(pixelX, pixelY) { + const model = this[$model]; + if (model == null) { + return null; + } + const scene = this[$scene]; + const ndcCoords = scene.getNDC(pixelX, pixelY); + const hit = scene.hitFromPoint(ndcCoords); + if (hit == null || hit.face == null) { + return null; + } + return model[$materialFromPoint](hit); + } + } + __decorate$5([ + property({ type: String, attribute: 'variant-name' }) + ], SceneGraphModelViewerElement.prototype, "variantName", void 0); + __decorate$5([ + property({ type: String, attribute: 'orientation' }) + ], SceneGraphModelViewerElement.prototype, "orientation", void 0); + __decorate$5([ + property({ type: String, attribute: 'scale' }) + ], SceneGraphModelViewerElement.prototype, "scale", void 0); + return SceneGraphModelViewerElement; +}; + +/* @license + * Copyright 2023 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +class GroundedSkybox extends Mesh { + constructor() { + super(undefined, new MeshBasicMaterial({ depthWrite: false })); + this.height = 0; + this.radius = 0; + this.resolution = 0; + this.userData.noHit = true; + } + get map() { + return this.material.map; + } + set map(skybox) { + this.material.map = skybox; + } + isUsable() { + return this.height > 0 && this.radius > 0 && this.geometry != null && + this.map != null; + } + updateGeometry(height = this.height, radius = this.radius, resolution = 128) { + if (height != this.height || radius != this.radius || + resolution != this.resolution) { + this.height = height; + this.radius = radius; + this.resolution = resolution; + if (height > 0 && radius > 0) { + this.geometry.dispose(); + this.geometry = makeGeometry(height, radius, resolution); + } + } + } +} +function makeGeometry(height, radius, resolution) { + const geometry = new SphereGeometry(radius, 2 * resolution, resolution); + geometry.scale(1, 1, -1); + const pos = geometry.getAttribute('position'); + const tmp = new Vector3(); + for (let i = 0; i < pos.count; ++i) { + tmp.fromBufferAttribute(pos, i); + if (tmp.y < 0) { + // Smooth out the transition from flat floor to sphere: + const y1 = -height * 3 / 2; + const f = tmp.y < y1 ? -height / tmp.y : (1 - tmp.y * tmp.y / (3 * y1 * y1)); + tmp.multiplyScalar(f); + tmp.toArray(pos.array, 3 * i); + } + } + pos.needsUpdate = true; + return geometry; +} + +/* @license + * Copyright 2020 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const a = new Vector3(); +const b = new Vector3(); +const c = new Vector3(); +const mat = new Matrix3(); +const triangle = new Triangle(); +const quat = new Quaternion(); +/** + * The Hotspot object is a reference-counted slot. If decrement() returns true, + * it should be removed from the tree so it can be garbage-collected. + */ +class Hotspot extends CSS2DObject { + constructor(config) { + super(document.createElement('div')); + this.normal = new Vector3(0, 1, 0); + this.initialized = false; + this.referenceCount = 1; + this.pivot = document.createElement('div'); + this.slot = document.createElement('slot'); + this.element.classList.add('annotation-wrapper'); + this.slot.name = config.name; + this.element.appendChild(this.pivot); + this.pivot.appendChild(this.slot); + this.updatePosition(config.position); + this.updateNormal(config.normal); + this.surface = config.surface; + } + get facingCamera() { + return !this.element.classList.contains('hide'); + } + /** + * Sets the hotspot to be in the highly visible foreground state. + */ + show() { + if (!this.facingCamera || !this.initialized) { + this.updateVisibility(true); + } + } + /** + * Sets the hotspot to be in the diminished background state. + */ + hide() { + if (this.facingCamera || !this.initialized) { + this.updateVisibility(false); + } + } + /** + * Call this when adding elements to the same slot to keep track. + */ + increment() { + this.referenceCount++; + } + /** + * Call this when removing elements from the slot; returns true when the slot + * is unused. + */ + decrement() { + if (this.referenceCount > 0) { + --this.referenceCount; + } + return this.referenceCount === 0; + } + /** + * Change the position of the hotspot to the input string, in the same format + * as the data-position attribute. + */ + updatePosition(position) { + if (position == null) + return; + const positionNodes = parseExpressions(position)[0].terms; + for (let i = 0; i < 3; ++i) { + this.position.setComponent(i, normalizeUnit(positionNodes[i]).number); + } + this.updateMatrixWorld(); + } + /** + * Change the hotspot's normal to the input string, in the same format as the + * data-normal attribute. + */ + updateNormal(normal) { + if (normal == null) + return; + const normalNodes = parseExpressions(normal)[0].terms; + for (let i = 0; i < 3; ++i) { + this.normal.setComponent(i, normalNodes[i].number); + } + } + updateSurface() { + const { mesh, tri, bary } = this; + if (mesh == null || tri == null || bary == null) { + return; + } + mesh.getVertexPosition(tri.x, a); + mesh.getVertexPosition(tri.y, b); + mesh.getVertexPosition(tri.z, c); + a.toArray(mat.elements, 0); + b.toArray(mat.elements, 3); + c.toArray(mat.elements, 6); + this.position.copy(bary).applyMatrix3(mat); + const target = this.parent; + target.worldToLocal(mesh.localToWorld(this.position)); + triangle.set(a, b, c); + triangle.getNormal(this.normal).transformDirection(mesh.matrixWorld); + const pivot = target.parent; + quat.setFromAxisAngle(a.set(0, 1, 0), -pivot.rotation.y); + this.normal.applyQuaternion(quat); + } + orient(radians) { + this.pivot.style.transform = `rotate(${radians}rad)`; + } + updateVisibility(show) { + this.element.classList.toggle('hide', !show); + // NOTE: ShadyDOM doesn't support slot.assignedElements, otherwise we could + // use that here. + this.slot.assignedNodes().forEach((node) => { + if (node.nodeType !== Node.ELEMENT_NODE) { + return; + } + const element = node; + // Visibility attribute can be configured per-node in the hotspot: + const visibilityAttribute = element.dataset.visibilityAttribute; + if (visibilityAttribute != null) { + const attributeName = `data-${visibilityAttribute}`; + element.toggleAttribute(attributeName, show); + } + element.dispatchEvent(new CustomEvent('hotspot-visibility', { + detail: { + visible: show, + }, + })); + }); + this.initialized = true; + } +} + +/** + * Two pass Gaussian blur filter (horizontal and vertical blur shaders) + * - see http://www.cake23.de/traveling-wavefronts-lit-up.html + * + * - 9 samples per pass + * - standard deviation 2.7 + * - "h" and "v" parameters should be set to "1 / width" and "1 / height" + */ + +const HorizontalBlurShader = { + + name: 'HorizontalBlurShader', + + uniforms: { + + 'tDiffuse': { value: null }, + 'h': { value: 1.0 / 512.0 } + + }, + + vertexShader: /* glsl */` + + varying vec2 vUv; + + void main() { + + vUv = uv; + gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 ); + + }`, + + fragmentShader: /* glsl */` + + uniform sampler2D tDiffuse; + uniform float h; + + varying vec2 vUv; + + void main() { + + vec4 sum = vec4( 0.0 ); + + sum += texture2D( tDiffuse, vec2( vUv.x - 4.0 * h, vUv.y ) ) * 0.051; + sum += texture2D( tDiffuse, vec2( vUv.x - 3.0 * h, vUv.y ) ) * 0.0918; + sum += texture2D( tDiffuse, vec2( vUv.x - 2.0 * h, vUv.y ) ) * 0.12245; + sum += texture2D( tDiffuse, vec2( vUv.x - 1.0 * h, vUv.y ) ) * 0.1531; + sum += texture2D( tDiffuse, vec2( vUv.x, vUv.y ) ) * 0.1633; + sum += texture2D( tDiffuse, vec2( vUv.x + 1.0 * h, vUv.y ) ) * 0.1531; + sum += texture2D( tDiffuse, vec2( vUv.x + 2.0 * h, vUv.y ) ) * 0.12245; + sum += texture2D( tDiffuse, vec2( vUv.x + 3.0 * h, vUv.y ) ) * 0.0918; + sum += texture2D( tDiffuse, vec2( vUv.x + 4.0 * h, vUv.y ) ) * 0.051; + + gl_FragColor = sum; + + }` + +}; + +/** + * Two pass Gaussian blur filter (horizontal and vertical blur shaders) + * - see http://www.cake23.de/traveling-wavefronts-lit-up.html + * + * - 9 samples per pass + * - standard deviation 2.7 + * - "h" and "v" parameters should be set to "1 / width" and "1 / height" + */ + +const VerticalBlurShader = { + + name: 'VerticalBlurShader', + + uniforms: { + + 'tDiffuse': { value: null }, + 'v': { value: 1.0 / 512.0 } + + }, + + vertexShader: /* glsl */` + + varying vec2 vUv; + + void main() { + + vUv = uv; + gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 ); + + }`, + + fragmentShader: /* glsl */` + + uniform sampler2D tDiffuse; + uniform float v; + + varying vec2 vUv; + + void main() { + + vec4 sum = vec4( 0.0 ); + + sum += texture2D( tDiffuse, vec2( vUv.x, vUv.y - 4.0 * v ) ) * 0.051; + sum += texture2D( tDiffuse, vec2( vUv.x, vUv.y - 3.0 * v ) ) * 0.0918; + sum += texture2D( tDiffuse, vec2( vUv.x, vUv.y - 2.0 * v ) ) * 0.12245; + sum += texture2D( tDiffuse, vec2( vUv.x, vUv.y - 1.0 * v ) ) * 0.1531; + sum += texture2D( tDiffuse, vec2( vUv.x, vUv.y ) ) * 0.1633; + sum += texture2D( tDiffuse, vec2( vUv.x, vUv.y + 1.0 * v ) ) * 0.1531; + sum += texture2D( tDiffuse, vec2( vUv.x, vUv.y + 2.0 * v ) ) * 0.12245; + sum += texture2D( tDiffuse, vec2( vUv.x, vUv.y + 3.0 * v ) ) * 0.0918; + sum += texture2D( tDiffuse, vec2( vUv.x, vUv.y + 4.0 * v ) ) * 0.051; + + gl_FragColor = sum; + + }` + +}; + +/** + * Returns a value linearly interpolated from two known points based on the given interval - + * `t = 0` will return `x` and `t = 1` will return `y`. + * + * @param {number} x - The start point + * @param {number} y - The end point. + * @param {number} t - The interpolation factor in the closed interval `[0, 1]`. + * @return {number} The interpolated value. + */ +function lerp( x, y, t ) { + + return ( 1 - t ) * x + t * y; + +} + +/* @license + * Copyright 2022 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +// The softness [0, 1] of the shadow is mapped to a resolution between +// 2^LOG_MAX_RESOLUTION and 2^LOG_MIN_RESOLUTION. +const LOG_MAX_RESOLUTION = 9; +const LOG_MIN_RESOLUTION = 6; +// Animated models are not in general contained in their bounding box, as this +// is calculated only for their resting pose. We create a cubic shadow volume +// for animated models sized to their largest bounding box dimension multiplied +// by this scale factor. +const ANIMATION_SCALING = 2; +// Since hard shadows are not lightened by blurring and depth, set a lower +// default intensity to make them more perceptually similar to the intensity of +// the soft shadows. +const DEFAULT_HARD_INTENSITY = 0.3; +/** + * The Shadow class creates a shadow that fits a given scene and follows a + * target. This shadow will follow the scene without any updates needed so long + * as the shadow and scene are both parented to the same object (call it the + * scene) and this scene is passed as the target parameter to the shadow's + * constructor. We also must constrain the scene to motion within the horizontal + * plane and call the setRotation() method whenever the scene's Y-axis rotation + * changes. For motion outside of the horizontal plane, this.needsUpdate must be + * set to true. + * + * The softness of the shadow is controlled by changing its resolution, making + * softer shadows faster, but less precise. + */ +class Shadow extends Object3D { + constructor(scene, softness, side) { + super(); + this.camera = new OrthographicCamera(); + // private cameraHelper = new CameraHelper(this.camera); + this.renderTarget = null; + this.renderTargetBlur = null; + this.depthMaterial = new MeshDepthMaterial(); + this.horizontalBlurMaterial = new ShaderMaterial(HorizontalBlurShader); + this.verticalBlurMaterial = new ShaderMaterial(VerticalBlurShader); + this.intensity = 0; + this.softness = 1; + this.boundingBox = new Box3; + this.size = new Vector3; + this.maxDimension = 0; + this.isAnimated = false; + this.needsUpdate = false; + const { camera } = this; + camera.rotation.x = Math.PI / 2; + camera.left = -0.5; + camera.right = 0.5; + camera.bottom = -0.5; + camera.top = 0.5; + this.add(camera); + // this.add(this.cameraHelper); + // this.cameraHelper.updateMatrixWorld = function() { + // this.matrixWorld = this.camera.matrixWorld; + // }; + const plane = new PlaneGeometry(); + const shadowMaterial = new MeshBasicMaterial({ + // color: new Color(1, 0, 0), + opacity: 1, + transparent: true, + side: BackSide, + }); + this.floor = new Mesh(plane, shadowMaterial); + this.floor.userData.noHit = true; + camera.add(this.floor); + // the plane onto which to blur the texture + this.blurPlane = new Mesh(plane); + this.blurPlane.visible = false; + camera.add(this.blurPlane); + scene.target.add(this); + // like MeshDepthMaterial, but goes from black to transparent + this.depthMaterial.onBeforeCompile = function (shader) { + shader.fragmentShader = shader.fragmentShader.replace('gl_FragColor = vec4( vec3( 1.0 - fragCoordZ ), opacity );', 'gl_FragColor = vec4( vec3( 0.0 ), ( 1.0 - fragCoordZ ) * opacity );'); + }; + // Render both sides, back sides face the light source and + // front sides supply depth information for soft shadows + this.depthMaterial.side = DoubleSide; + this.horizontalBlurMaterial.depthTest = false; + this.verticalBlurMaterial.depthTest = false; + this.setScene(scene, softness, side); + } + /** + * Update the shadow's size and position for a new scene. Softness is also + * needed, as this controls the shadow's resolution. + */ + setScene(scene, softness, side) { + const { boundingBox, size, rotation, position } = this; + this.isAnimated = scene.animationNames.length > 0; + this.boundingBox.copy(scene.boundingBox); + this.size.copy(scene.size); + this.maxDimension = Math.max(size.x, size.y, size.z) * + (this.isAnimated ? ANIMATION_SCALING : 1); + this.boundingBox.getCenter(position); + if (side === 'back') { + const { min, max } = boundingBox; + [min.y, min.z] = [min.z, min.y]; + [max.y, max.z] = [max.z, max.y]; + [size.y, size.z] = [size.z, size.y]; + rotation.x = Math.PI / 2; + rotation.y = Math.PI; + } + else { + rotation.x = 0; + rotation.y = 0; + } + if (this.isAnimated) { + const minY = boundingBox.min.y; + const maxY = boundingBox.max.y; + size.y = this.maxDimension; + boundingBox.expandByVector(size.subScalar(this.maxDimension).multiplyScalar(-0.5)); + boundingBox.min.y = minY; + boundingBox.max.y = maxY; + size.set(this.maxDimension, maxY - minY, this.maxDimension); + } + if (side === 'bottom') { + position.y = boundingBox.min.y; + } + else { + position.z = boundingBox.min.y; + } + this.setSoftness(softness); + } + /** + * Update the shadow's resolution based on softness (between 0 and 1). Should + * not be called frequently, as this results in reallocation. + */ + setSoftness(softness) { + this.softness = softness; + const { size, camera } = this; + const scaleY = (this.isAnimated ? ANIMATION_SCALING : 1); + const resolution = scaleY * + Math.pow(2, LOG_MAX_RESOLUTION - + softness * (LOG_MAX_RESOLUTION - LOG_MIN_RESOLUTION)); + this.setMapSize(resolution); + const softFar = size.y / 2; + const hardFar = size.y * scaleY; + camera.near = 0; + camera.far = lerp(hardFar, softFar, softness); + // we have co-opted opacity to scale the depth to clip + this.depthMaterial.opacity = 1.0 / softness; + camera.updateProjectionMatrix(); + // this.cameraHelper.update(); + this.setIntensity(this.intensity); + this.setOffset(0); + } + /** + * Lower-level version of the above function. + */ + setMapSize(maxMapSize) { + const { size } = this; + if (this.isAnimated) { + maxMapSize *= ANIMATION_SCALING; + } + const baseWidth = Math.floor(size.x > size.z ? maxMapSize : maxMapSize * size.x / size.z); + const baseHeight = Math.floor(size.x > size.z ? maxMapSize * size.z / size.x : maxMapSize); + // width of blur filter in pixels (not adjustable) + const TAP_WIDTH = 10; + const width = TAP_WIDTH + baseWidth; + const height = TAP_WIDTH + baseHeight; + if (this.renderTarget != null && + (this.renderTarget.width !== width || + this.renderTarget.height !== height)) { + this.renderTarget.dispose(); + this.renderTarget = null; + this.renderTargetBlur.dispose(); + this.renderTargetBlur = null; + } + if (this.renderTarget == null) { + const params = { format: RGBAFormat }; + this.renderTarget = new WebGLRenderTarget(width, height, params); + this.renderTargetBlur = new WebGLRenderTarget(width, height, params); + this.floor.material.map = + this.renderTarget.texture; + } + // These pads account for the softening radius around the shadow. + this.camera.scale.set(size.x * (1 + TAP_WIDTH / baseWidth), size.z * (1 + TAP_WIDTH / baseHeight), 1); + this.needsUpdate = true; + } + /** + * Set the shadow's intensity (0 to 1), which is just its opacity. Turns off + * shadow rendering if zero. + */ + setIntensity(intensity) { + this.intensity = intensity; + if (intensity > 0) { + this.visible = true; + this.floor.visible = true; + this.floor.material.opacity = intensity * + lerp(DEFAULT_HARD_INTENSITY, 1, this.softness * this.softness); + } + else { + this.visible = false; + this.floor.visible = false; + } + } + getIntensity() { + return this.intensity; + } + /** + * An offset can be specified to move the + * shadow vertically relative to the bottom of the scene. Positive is up, so + * values are generally negative. A small offset keeps our shadow from + * z-fighting with any baked-in shadow plane. + */ + setOffset(offset) { + this.floor.position.z = -offset + this.gap(); + } + gap() { + return 0.001 * this.maxDimension; + } + render(renderer, scene) { + // this.cameraHelper.visible = false; + // force the depthMaterial to everything + scene.overrideMaterial = this.depthMaterial; + // set renderer clear alpha + const initialClearAlpha = renderer.getClearAlpha(); + renderer.setClearAlpha(0); + this.floor.visible = false; + // disable XR for offscreen rendering + const xrEnabled = renderer.xr.enabled; + renderer.xr.enabled = false; + // render to the render target to get the depths + const oldRenderTarget = renderer.getRenderTarget(); + renderer.setRenderTarget(this.renderTarget); + renderer.render(scene, this.camera); + // and reset the override material + scene.overrideMaterial = null; + this.floor.visible = true; + this.blurShadow(renderer); + // reset and render the normal scene + renderer.xr.enabled = xrEnabled; + renderer.setRenderTarget(oldRenderTarget); + renderer.setClearAlpha(initialClearAlpha); + // this.cameraHelper.visible = true; + } + blurShadow(renderer) { + const { camera, horizontalBlurMaterial, verticalBlurMaterial, renderTarget, renderTargetBlur, blurPlane } = this; + blurPlane.visible = true; + // blur horizontally and draw in the renderTargetBlur + blurPlane.material = horizontalBlurMaterial; + horizontalBlurMaterial.uniforms.h.value = 1 / this.renderTarget.width; + horizontalBlurMaterial.uniforms.tDiffuse.value = this.renderTarget.texture; + renderer.setRenderTarget(renderTargetBlur); + renderer.render(blurPlane, camera); + // blur vertically and draw in the main renderTarget + blurPlane.material = verticalBlurMaterial; + verticalBlurMaterial.uniforms.v.value = 1 / this.renderTarget.height; + verticalBlurMaterial.uniforms.tDiffuse.value = + this.renderTargetBlur.texture; + renderer.setRenderTarget(renderTarget); + renderer.render(blurPlane, camera); + blurPlane.visible = false; + } + dispose() { + if (this.renderTarget != null) { + this.renderTarget.dispose(); + } + if (this.renderTargetBlur != null) { + this.renderTargetBlur.dispose(); + } + this.depthMaterial.dispose(); + this.horizontalBlurMaterial.dispose(); + this.verticalBlurMaterial.dispose(); + this.floor.material.dispose(); + this.floor.geometry.dispose(); + this.blurPlane.geometry.dispose(); + this.removeFromParent(); + } +} + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const GROUNDED_SKYBOX_SIZE = 10; +const MIN_SHADOW_RATIO = 100; +const view = new Vector3(); +const target = new Vector3(); +const normalWorld = new Vector3(); +const raycaster = new Raycaster(); +const vector3 = new Vector3(); +const ndc = new Vector2(); +/** + * A THREE.Scene object that takes a Model and CanvasHTMLElement and + * constructs a framed scene based off of the canvas dimensions. + * Provides lights and cameras to be used in a renderer. + */ +class ModelScene extends Scene { + constructor({ canvas, element, width, height }) { + super(); + this.annotationRenderer = new CSS2DRenderer(); + this.effectRenderer = null; + this.schemaElement = document.createElement('script'); + this.width = 1; + this.height = 1; + this.aspect = 1; + this.scaleStep = 0; + this.renderCount = 0; + this.externalRenderer = null; + this.appendedAnimations = []; + this.markedAnimations = []; + // These default camera values are never used, as they are reset once the + // model is loaded and framing is computed. + this.camera = new PerspectiveCamera(45, 1, 0.1, 100); + this.xrCamera = null; + this.url = null; + this.pivot = new Object3D(); + this.target = new Object3D(); + this.animationNames = []; + this.boundingBox = new Box3(); + this.boundingSphere = new Sphere(); + this.size = new Vector3(); + this.idealAspect = 0; + this.framedFoVDeg = 0; + this.shadow = null; + this.shadowIntensity = 0; + this.shadowSoftness = 1; + this.bakedShadows = new Set(); + this.exposure = 1; + this.toneMapping = NeutralToneMapping; + this.canScale = true; + this.isDirty = false; + this.goalTarget = new Vector3(); + this.targetDamperX = new Damper(); + this.targetDamperY = new Damper(); + this.targetDamperZ = new Damper(); + this._currentGLTF = null; + this._model = null; + this.cancelPendingSourceChange = null; + this.animationsByName = new Map(); + this.currentAnimationAction = null; + this.groundedSkybox = new GroundedSkybox(); + this.name = 'ModelScene'; + this.element = element; + this.canvas = canvas; + // These default camera values are never used, as they are reset once the + // model is loaded and framing is computed. + this.camera = new PerspectiveCamera(45, 1, 0.1, 100); + this.camera.name = 'MainCamera'; + this.add(this.pivot); + this.pivot.name = 'Pivot'; + this.pivot.add(this.target); + this.setSize(width, height); + this.target.name = 'Target'; + this.mixer = new AnimationMixer(this.target); + const { domElement } = this.annotationRenderer; + const { style } = domElement; + style.display = 'none'; + style.pointerEvents = 'none'; + style.position = 'absolute'; + style.top = '0'; + this.element.shadowRoot.querySelector('.default').appendChild(domElement); + this.schemaElement.setAttribute('type', 'application/ld+json'); + } + /** + * Function to create the context lazily, as when there is only one + * element, the renderer's 3D context can be displayed + * directly. This extra context is necessary to copy the renderings into when + * there are more than one. + */ + get context() { + return this.canvas.getContext('2d'); + } + getCamera() { + return this.xrCamera != null ? this.xrCamera : this.camera; + } + queueRender() { + this.isDirty = true; + } + shouldRender() { + return this.isDirty; + } + hasRendered() { + this.isDirty = false; + } + forceRescale() { + this.scaleStep = -1; + this.queueRender(); + } + /** + * Pass in a THREE.Object3D to be controlled + * by this model. + */ + async setObject(model) { + this.reset(); + this._model = model; + this.target.add(model); + await this.setupScene(); + } + /** + * Sets the model via URL. + */ + async setSource(url, progressCallback = () => { }) { + if (!url || url === this.url) { + progressCallback(1); + return; + } + this.reset(); + this.url = url; + if (this.externalRenderer != null) { + const framingInfo = await this.externalRenderer.load(progressCallback); + this.boundingSphere.radius = framingInfo.framedRadius; + this.idealAspect = framingInfo.fieldOfViewAspect; + return; + } + // If we have pending work due to a previous source change in progress, + // cancel it so that we do not incur a race condition: + if (this.cancelPendingSourceChange != null) { + this.cancelPendingSourceChange(); + this.cancelPendingSourceChange = null; + } + let gltf; + try { + gltf = await new Promise(async (resolve, reject) => { + this.cancelPendingSourceChange = () => reject(); + try { + const result = await this.element[$renderer].loader.load(url, this.element, progressCallback); + resolve(result); + } + catch (error) { + reject(error); + } + }); + } + catch (error) { + if (error == null) { + // Loading was cancelled, so silently return + return; + } + throw error; + } + this.cancelPendingSourceChange = null; + this.reset(); + this.url = url; + this._currentGLTF = gltf; + if (gltf != null) { + this._model = gltf.scene; + this.target.add(gltf.scene); + } + const { animations } = gltf; + const animationsByName = new Map(); + const animationNames = []; + for (const animation of animations) { + animationsByName.set(animation.name, animation); + animationNames.push(animation.name); + } + this.animations = animations; + this.animationsByName = animationsByName; + this.animationNames = animationNames; + await this.setupScene(); + } + async setupScene() { + this.applyTransform(); + this.updateBoundingBox(); + await this.updateFraming(); + this.updateShadow(); + this.setShadowIntensity(this.shadowIntensity); + this.setGroundedSkybox(); + } + reset() { + this.url = null; + this.renderCount = 0; + this.queueRender(); + if (this.shadow != null) { + this.shadow.setIntensity(0); + } + this.bakedShadows.clear(); + const { _model } = this; + if (_model != null) { + _model.removeFromParent(); + this._model = null; + } + const gltf = this._currentGLTF; + if (gltf != null) { + gltf.dispose(); + this._currentGLTF = null; + } + if (this.currentAnimationAction != null) { + this.currentAnimationAction.stop(); + this.currentAnimationAction = null; + } + this.mixer.stopAllAction(); + this.mixer.uncacheRoot(this); + } + dispose() { + this.reset(); + if (this.shadow != null) { + this.shadow.dispose(); + this.shadow = null; + } + this.element[$currentGLTF] = null; + this.element[$originalGltfJson] = null; + this.element[$model] = null; + } + get currentGLTF() { + return this._currentGLTF; + } + /** + * Updates the ModelScene for a new container size in CSS pixels. + */ + setSize(width, height) { + if (this.width === width && this.height === height) { + return; + } + this.width = Math.max(width, 1); + this.height = Math.max(height, 1); + this.annotationRenderer.setSize(width, height); + this.aspect = this.width / this.height; + if (this.externalRenderer != null) { + const dpr = window.devicePixelRatio; + this.externalRenderer.resize(width * dpr, height * dpr); + } + this.queueRender(); + } + markBakedShadow(mesh) { + mesh.userData.noHit = true; + this.bakedShadows.add(mesh); + } + unmarkBakedShadow(mesh) { + mesh.userData.noHit = false; + mesh.visible = true; + this.bakedShadows.delete(mesh); + this.boundingBox.expandByObject(mesh); + } + findBakedShadows(group) { + const boundingBox = new Box3(); + group.traverse((object) => { + const mesh = object; + if (!mesh.material) { + return; + } + const material = mesh.material; + if (!material.transparent) { + return; + } + boundingBox.setFromObject(mesh); + const size = boundingBox.getSize(vector3); + const minDim = Math.min(size.x, size.y, size.z); + const maxDim = Math.max(size.x, size.y, size.z); + if (maxDim < MIN_SHADOW_RATIO * minDim) { + return; + } + this.markBakedShadow(mesh); + }); + } + checkBakedShadows() { + const { min, max } = this.boundingBox; + const shadowBox = new Box3(); + this.boundingBox.getSize(this.size); + for (const mesh of this.bakedShadows) { + shadowBox.setFromObject(mesh); + if (shadowBox.min.y < min.y + this.size.y / MIN_SHADOW_RATIO && + shadowBox.min.x <= min.x && shadowBox.max.x >= max.x && + shadowBox.min.z <= min.z && shadowBox.max.z >= max.z) { + // floor shadow + continue; + } + if (shadowBox.min.z < min.z + this.size.z / MIN_SHADOW_RATIO && + shadowBox.min.x <= min.x && shadowBox.max.x >= max.x && + shadowBox.min.y <= min.y && shadowBox.max.y >= max.y) { + // wall shadow + continue; + } + this.unmarkBakedShadow(mesh); + } + } + applyTransform() { + const { model } = this; + if (model == null) { + return; + } + const orientation = parseExpressions(this.element.orientation)[0] + .terms; + const roll = normalizeUnit(orientation[0]).number; + const pitch = normalizeUnit(orientation[1]).number; + const yaw = normalizeUnit(orientation[2]).number; + model.quaternion.setFromEuler(new Euler(pitch, yaw, roll, 'YXZ')); + const scale = parseExpressions(this.element.scale)[0] + .terms; + model.scale.set(scale[0].number, scale[1].number, scale[2].number); + } + updateBoundingBox() { + const { model } = this; + if (model == null) { + return; + } + this.target.remove(model); + this.findBakedShadows(model); + const bound = (box, vertex) => { + return box.expandByPoint(vertex); + }; + this.setBakedShadowVisibility(false); + this.boundingBox = reduceVertices(model, bound, new Box3()); + // If there's nothing but the baked shadow, then it's not a baked shadow. + if (this.boundingBox.isEmpty()) { + this.setBakedShadowVisibility(true); + this.bakedShadows.forEach((mesh) => this.unmarkBakedShadow(mesh)); + this.boundingBox = reduceVertices(model, bound, new Box3()); + } + this.checkBakedShadows(); + this.setBakedShadowVisibility(); + this.boundingBox.getSize(this.size); + this.target.add(model); + } + /** + * Calculates the boundingSphere and idealAspect that allows the 3D + * object to be framed tightly in a 2D window of any aspect ratio without + * clipping at any camera orbit. The camera's center target point can be + * optionally specified. If no center is specified, it defaults to the center + * of the bounding box, which means asymmetric models will tend to be tight on + * one side instead of both. Proper choice of center can correct this. + */ + async updateFraming() { + const { model } = this; + if (model == null) { + return; + } + this.target.remove(model); + this.setBakedShadowVisibility(false); + const { center } = this.boundingSphere; + this.element.requestUpdate('cameraTarget'); + await this.element.updateComplete; + center.copy(this.getTarget()); + const radiusSquared = (value, vertex) => { + return Math.max(value, center.distanceToSquared(vertex)); + }; + this.boundingSphere.radius = + Math.sqrt(reduceVertices(model, radiusSquared, 0)); + const horizontalTanFov = (value, vertex) => { + vertex.sub(center); + const radiusXZ = Math.sqrt(vertex.x * vertex.x + vertex.z * vertex.z); + return Math.max(value, radiusXZ / (this.idealCameraDistance() - Math.abs(vertex.y))); + }; + this.idealAspect = reduceVertices(model, horizontalTanFov, 0) / + Math.tan((this.framedFoVDeg / 2) * Math.PI / 180); + this.setBakedShadowVisibility(); + this.target.add(model); + } + setBakedShadowVisibility(visible = this.shadowIntensity <= 0) { + for (const shadow of this.bakedShadows) { + shadow.visible = visible; + } + } + idealCameraDistance() { + const halfFovRad = (this.framedFoVDeg / 2) * Math.PI / 180; + return this.boundingSphere.radius / Math.sin(halfFovRad); + } + /** + * Set's the framedFieldOfView based on the aspect ratio of the window in + * order to keep the model fully visible at any camera orientation. + */ + adjustedFoV(fovDeg) { + const vertical = Math.tan((fovDeg / 2) * Math.PI / 180) * + Math.max(1, this.idealAspect / this.aspect); + return 2 * Math.atan(vertical) * 180 / Math.PI; + } + getNDC(clientX, clientY) { + if (this.xrCamera != null) { + ndc.set(clientX / window.screen.width, clientY / window.screen.height); + } + else { + const rect = this.element.getBoundingClientRect(); + ndc.set((clientX - rect.x) / this.width, (clientY - rect.y) / this.height); + } + ndc.multiplyScalar(2).subScalar(1); + ndc.y *= -1; + return ndc; + } + /** + * Returns the size of the corresponding canvas element. + */ + getSize() { + return { width: this.width, height: this.height }; + } + setEnvironmentAndSkybox(environment, skybox) { + if (this.element[$renderer].arRenderer.presentedScene === this) { + return; + } + this.environment = environment; + this.setBackground(skybox); + this.queueRender(); + } + setBackground(skybox) { + this.groundedSkybox.map = skybox; + if (this.groundedSkybox.isUsable()) { + this.target.add(this.groundedSkybox); + this.background = null; + } + else { + this.target.remove(this.groundedSkybox); + this.background = skybox; + } + } + farRadius() { + return this.boundingSphere.radius * + (this.groundedSkybox.parent != null ? GROUNDED_SKYBOX_SIZE : 1); + } + setGroundedSkybox() { + const heightNode = parseExpressions(this.element.skyboxHeight)[0].terms[0]; + const height = normalizeUnit(heightNode).number; + const radius = GROUNDED_SKYBOX_SIZE * this.boundingSphere.radius; + this.groundedSkybox.updateGeometry(height, radius); + this.groundedSkybox.position.y = + height - (this.shadow ? 2 * this.shadow.gap() : 0); + this.setBackground(this.groundedSkybox.map); + } + /** + * Sets the point in model coordinates the model should orbit/pivot around. + */ + setTarget(modelX, modelY, modelZ) { + this.goalTarget.set(-modelX, -modelY, -modelZ); + } + /** + * Set the decay time of, affects the speed of target transitions. + */ + setTargetDamperDecayTime(decayMilliseconds) { + this.targetDamperX.setDecayTime(decayMilliseconds); + this.targetDamperY.setDecayTime(decayMilliseconds); + this.targetDamperZ.setDecayTime(decayMilliseconds); + } + /** + * Gets the point in model coordinates the model should orbit/pivot around. + */ + getTarget() { + return this.goalTarget.clone().multiplyScalar(-1); + } + /** + * Gets the current target point, which may not equal the goal returned by + * getTarget() due to finite input decay smoothing. + */ + getDynamicTarget() { + return this.target.position.clone().multiplyScalar(-1); + } + /** + * Shifts the model to the target point immediately instead of easing in. + */ + jumpToGoal() { + this.updateTarget(SETTLING_TIME); + } + /** + * This should be called every frame with the frame delta to cause the target + * to transition to its set point. + */ + updateTarget(delta) { + const goal = this.goalTarget; + const target = this.target.position; + if (!goal.equals(target)) { + const normalization = this.boundingSphere.radius / 10; + let { x, y, z } = target; + x = this.targetDamperX.update(x, goal.x, delta, normalization); + y = this.targetDamperY.update(y, goal.y, delta, normalization); + z = this.targetDamperZ.update(z, goal.z, delta, normalization); + this.groundedSkybox.position.x = -x; + this.groundedSkybox.position.z = -z; + this.target.position.set(x, y, z); + this.target.updateMatrixWorld(); + this.queueRender(); + return true; + } + else { + return false; + } + } + /** + * Yaw the +z (front) of the model toward the indicated world coordinates. + */ + pointTowards(worldX, worldZ) { + const { x, z } = this.position; + this.yaw = Math.atan2(worldX - x, worldZ - z); + } + get model() { + return this._model; + } + /** + * Yaw is the scene's orientation about the y-axis, around the rotation + * center. + */ + set yaw(radiansY) { + this.pivot.rotation.y = radiansY; + this.groundedSkybox.rotation.y = -radiansY; + this.queueRender(); + } + get yaw() { + return this.pivot.rotation.y; + } + set animationTime(value) { + this.mixer.setTime(value); + this.queueShadowRender(); + } + get animationTime() { + if (this.currentAnimationAction != null) { + const loopCount = Math.max(this.currentAnimationAction._loopCount, 0); + if (this.currentAnimationAction.loop === LoopPingPong && + (loopCount & 1) === 1) { + return this.duration - this.currentAnimationAction.time; + } + else { + return this.currentAnimationAction.time; + } + } + return 0; + } + set animationTimeScale(value) { + this.mixer.timeScale = value; + } + get animationTimeScale() { + return this.mixer.timeScale; + } + get duration() { + if (this.currentAnimationAction != null && + this.currentAnimationAction.getClip()) { + return this.currentAnimationAction.getClip().duration; + } + return 0; + } + get hasActiveAnimation() { + return this.currentAnimationAction != null; + } + /** + * Plays an animation if there are any associated with the current model. + * Accepts an optional string name of an animation to play. If no name is + * provided, or if no animation is found by the given name, always falls back + * to playing the first animation. + */ + playAnimation(name = null, crossfadeTime = 0, loopMode = LoopRepeat, repetitionCount = Infinity) { + if (this._currentGLTF == null) { + return; + } + const { animations } = this; + if (animations == null || animations.length === 0) { + return; + } + let animationClip = null; + if (name != null) { + animationClip = this.animationsByName.get(name); + if (animationClip == null) { + const parsedAnimationIndex = parseInt(name); + if (!isNaN(parsedAnimationIndex) && parsedAnimationIndex >= 0 && + parsedAnimationIndex < animations.length) { + animationClip = animations[parsedAnimationIndex]; + } + } + } + if (animationClip == null) { + animationClip = animations[0]; + } + try { + const { currentAnimationAction: lastAnimationAction } = this; + const action = this.mixer.clipAction(animationClip, this); + // Reset animationAction timeScale + if (action.timeScale != this.element.timeScale) { + action.timeScale = this.element.timeScale; + } + this.currentAnimationAction = action; + if (this.element.paused) { + this.mixer.stopAllAction(); + } + else { + action.paused = false; + if (lastAnimationAction != null && action !== lastAnimationAction) { + action.crossFadeFrom(lastAnimationAction, crossfadeTime, false); + } + else if (this.animationTimeScale > 0 && + this.animationTime == this.duration) { + // This is a workaround for what I believe is a three.js bug. + this.animationTime = 0; + } + } + action.setLoop(loopMode, repetitionCount); + action.enabled = true; + action.clampWhenFinished = true; + action.play(); + } + catch (error) { + console.error(error); + } + } + appendAnimation(name = '', loopMode = LoopRepeat, repetitionCount = Infinity, weight = 1, timeScale = 1, fade = false, warp = false, relativeWarp = true, time = null, needsToStop = false) { + if (this._currentGLTF == null || name === this.element.animationName) { + return; + } + const { animations } = this; + if (animations == null || animations.length === 0) { + return; + } + let animationClip = null; + const defaultFade = 1.25; + if (name) { + animationClip = this.animationsByName.get(name); + } + if (animationClip == null) { + return; + } + // validate function parameters + if (typeof repetitionCount === 'string') { + if (!isNaN(repetitionCount)) { + repetitionCount = Math.max(parseInt(repetitionCount), 1); + } + else { + repetitionCount = Infinity; + console.warn('Invalid repetitionCount value, repetitionCount is set to Infinity'); + } + } + else if (typeof repetitionCount === 'number' && repetitionCount < 1) { + repetitionCount = 1; + } + if (repetitionCount === 1 && loopMode !== LoopOnce) { + loopMode = LoopOnce; + } + if (typeof weight === 'string') { + if (!isNaN(weight)) { + weight = parseFloat(weight); + } + else { + weight = 1; + console.warn('Invalid weight value, weight is set to 1'); + } + } + if (typeof timeScale === 'string') { + if (!isNaN(timeScale)) { + timeScale = parseFloat(timeScale); + } + else { + timeScale = 1; + console.warn('Invalid timeScale value, timeScale is set to 1'); + } + } + if (typeof fade === 'string') { + // @ts-ignore: Unreachable code error + if (fade.toLowerCase().trim() === 'true') { + fade = true; + // @ts-ignore: Unreachable code error + } + else if (fade.toLowerCase().trim() === 'false') { + fade = false; + } + else if (!isNaN(fade)) { + fade = parseFloat(fade); + } + else { + fade = false; + console.warn('Invalid fade value, fade is set to false'); + } + } + if (typeof warp === 'string') { + // @ts-ignore: Unreachable code error + if (warp.toLowerCase().trim() === 'true') { + warp = true; + // @ts-ignore: Unreachable code error + } + else if (warp.toLowerCase().trim() === 'false') { + warp = false; + } + else if (!isNaN(warp)) { + warp = parseFloat(warp); + } + else { + warp = false; + console.warn('Invalid warp value, warp is set to false'); + } + } + if (typeof time === 'string') { + if (!isNaN(time)) { + time = parseFloat(time); + } + } + try { + const action = this.mixer.existingAction(animationClip) || + this.mixer.clipAction(animationClip, this); + const currentTimeScale = action.timeScale; + if (needsToStop && this.appendedAnimations.includes(name)) { + if (!this.markedAnimations.map(e => e.name).includes(name)) { + this.markedAnimations.push({ name, loopMode, repetitionCount }); + } + } + if (typeof time === 'number') { + action.time = Math.min(Math.max(time, 0), animationClip.duration); + } + if (typeof fade === 'boolean' && fade) { + action.fadeIn(defaultFade); + } + else if (typeof fade === 'number') { + action.fadeIn(Math.max(fade, 0)); + } + else { + if (weight >= 0) { + action.weight = Math.min(Math.max(weight, 0), 1); + } + } + if (typeof warp === 'boolean' && warp) { + action.warp(relativeWarp ? currentTimeScale : 0, timeScale, defaultFade); + } + else if (typeof warp === 'number') { + action.warp(relativeWarp ? currentTimeScale : 0, timeScale, Math.max(warp, 0)); + } + else { + action.timeScale = timeScale; + } + if (!action.isRunning()) { + if (action.time == animationClip.duration) { + action.stop(); + } + action.setLoop(loopMode, repetitionCount); + action.paused = false; + action.enabled = true; + action.clampWhenFinished = true; + action.play(); + } + if (!this.appendedAnimations.includes(name)) { + this.element[$scene].appendedAnimations.push(name); + } + } + catch (error) { + console.error(error); + } + } + detachAnimation(name = '', fade = true) { + if (this._currentGLTF == null || name === this.element.animationName) { + return; + } + const { animations } = this; + if (animations == null || animations.length === 0) { + return; + } + let animationClip = null; + const defaultFade = 1.5; + if (name) { + animationClip = this.animationsByName.get(name); + } + if (animationClip == null) { + return; + } + if (typeof fade === 'string') { + // @ts-ignore: Unreachable code error + if (fade.toLowerCase().trim() === 'true') { + fade = true; + // @ts-ignore: Unreachable code error + } + else if (fade.toLowerCase().trim() === 'false') { + fade = false; + } + else if (!isNaN(fade)) { + fade = parseFloat(fade); + } + else { + fade = true; + console.warn('Invalid fade value, fade is set to true'); + } + } + try { + const action = this.mixer.existingAction(animationClip) || + this.mixer.clipAction(animationClip, this); + if (typeof fade === 'boolean' && fade) { + action.fadeOut(defaultFade); + } + else if (typeof fade === 'number') { + action.fadeOut(Math.max(fade, 0)); + } + else { + action.stop(); + } + const result = this.element[$scene].appendedAnimations.filter(i => i !== name); + this.element[$scene].appendedAnimations = result; + } + catch (error) { + console.error(error); + } + } + updateAnimationLoop(name = '', loopMode = LoopRepeat, repetitionCount = Infinity) { + if (this._currentGLTF == null || name === this.element.animationName) { + return; + } + const { animations } = this; + if (animations == null || animations.length === 0) { + return; + } + let animationClip = null; + if (name) { + animationClip = this.animationsByName.get(name); + } + if (animationClip == null) { + return; + } + try { + const action = this.mixer.existingAction(animationClip) || + this.mixer.clipAction(animationClip, this); + action.stop(); + action.setLoop(loopMode, repetitionCount); + action.play(); + } + catch (error) { + console.error(error); + } + } + stopAnimation() { + this.currentAnimationAction = null; + this.mixer.stopAllAction(); + } + updateAnimation(step) { + this.mixer.update(step); + this.queueShadowRender(); + } + subscribeMixerEvent(event, callback) { + this.mixer.addEventListener(event, callback); + } + /** + * Call if the object has been changed in such a way that the shadow's + * shape has changed (not a rotation about the Y axis). + */ + updateShadow() { + const shadow = this.shadow; + if (shadow != null) { + const side = this.element.arPlacement === 'wall' ? 'back' : + this.element.arPlacement === 'ceiling' ? 'top' : 'bottom'; + shadow.setScene(this, this.shadowSoftness, side); + shadow.needsUpdate = true; + } + } + renderShadow(renderer) { + const shadow = this.shadow; + if (shadow != null && shadow.needsUpdate == true) { + shadow.render(renderer, this); + shadow.needsUpdate = false; + } + } + queueShadowRender() { + if (this.shadow != null) { + this.shadow.needsUpdate = true; + } + } + /** + * Sets the shadow's intensity, lazily creating the shadow as necessary. + */ + setShadowIntensity(shadowIntensity) { + this.shadowIntensity = shadowIntensity; + if (this._currentGLTF == null) { + return; + } + this.setBakedShadowVisibility(); + if (shadowIntensity <= 0 && this.shadow == null) { + return; + } + if (this.shadow == null) { + const side = this.element.arPlacement === 'wall' ? 'back' : 'bottom'; + this.shadow = new Shadow(this, this.shadowSoftness, side); + } + this.shadow.setIntensity(shadowIntensity); + } + /** + * Sets the shadow's softness by mapping a [0, 1] softness parameter to + * the shadow's resolution. This involves reallocation, so it should not + * be changed frequently. Softer shadows are cheaper to render. + */ + setShadowSoftness(softness) { + this.shadowSoftness = softness; + const shadow = this.shadow; + if (shadow != null) { + shadow.setSoftness(softness); + } + } + /** + * Shift the floor vertically from the bottom of the model's bounding box + * by offset (should generally be negative). + */ + setShadowOffset(offset) { + const shadow = this.shadow; + if (shadow != null) { + shadow.setOffset(offset); + } + } + getHit(object = this) { + const hits = raycaster.intersectObject(object, true); + return hits.find((hit) => hit.object.visible && !hit.object.userData.noHit); + } + hitFromController(controller, object = this) { + raycaster.setFromXRController(controller); + return this.getHit(object); + } + hitFromPoint(ndcPosition, object = this) { + raycaster.setFromCamera(ndcPosition, this.getCamera()); + return this.getHit(object); + } + /** + * This method returns the world position, model-space normal and texture + * coordinate of the point on the mesh corresponding to the input pixel + * coordinates given relative to the model-viewer element. If the mesh + * is not hit, the result is null. + */ + positionAndNormalFromPoint(ndcPosition, object = this) { + var _a; + const hit = this.hitFromPoint(ndcPosition, object); + if (hit == null) { + return null; + } + const position = hit.point; + const normal = hit.face != null ? + hit.face.normal.clone().applyNormalMatrix(new Matrix3().getNormalMatrix(hit.object.matrixWorld)) : + raycaster.ray.direction.clone().multiplyScalar(-1); + const uv = (_a = hit.uv) !== null && _a !== void 0 ? _a : null; + return { position, normal, uv }; + } + /** + * This method returns a dynamic hotspot ID string of the point on the + * mesh corresponding to the input pixel coordinates given relative to the + * model-viewer element. The ID string can be used in the data-surface + * attribute of the hotspot to make it follow this point on the surface + * even as the model animates. If the mesh is not hit, the result is null. + */ + surfaceFromPoint(ndcPosition, object = this) { + const model = this.element.model; + if (model == null) { + return null; + } + const hit = this.hitFromPoint(ndcPosition, object); + if (hit == null || hit.face == null) { + return null; + } + const node = model[$nodeFromPoint](hit); + const { meshes, primitives } = node.mesh.userData.associations; + const va = new Vector3(); + const vb = new Vector3(); + const vc = new Vector3(); + const { a, b, c } = hit.face; + const mesh = hit.object; + mesh.getVertexPosition(a, va); + mesh.getVertexPosition(b, vb); + mesh.getVertexPosition(c, vc); + const tri = new Triangle(va, vb, vc); + const uvw = new Vector3(); + tri.getBarycoord(mesh.worldToLocal(hit.point), uvw); + return `${meshes} ${primitives} ${a} ${b} ${c} ${uvw.x.toFixed(3)} ${uvw.y.toFixed(3)} ${uvw.z.toFixed(3)}`; + } + /** + * The following methods are for operating on the set of Hotspot objects + * attached to the scene. These come from DOM elements, provided to slots + * by the Annotation Mixin. + */ + addHotspot(hotspot) { + this.target.add(hotspot); + // This happens automatically in render(), but we do it early so that + // the slots appear in the shadow DOM and the elements get attached, + // allowing us to dispatch events on them. + this.annotationRenderer.domElement.appendChild(hotspot.element); + this.updateSurfaceHotspot(hotspot); + } + removeHotspot(hotspot) { + this.target.remove(hotspot); + } + /** + * Helper method to apply a function to all hotspots. + */ + forHotspots(func) { + const { children } = this.target; + for (let i = 0, l = children.length; i < l; i++) { + const hotspot = children[i]; + if (hotspot instanceof Hotspot) { + func(hotspot); + } + } + } + /** + * Lazy initializer for surface hotspots - will only run once. + */ + updateSurfaceHotspot(hotspot) { + if (hotspot.surface == null || this.element.model == null) { + return; + } + const nodes = parseExpressions(hotspot.surface)[0].terms; + if (nodes.length != 8) { + console.warn(hotspot.surface + ' does not have exactly 8 numbers.'); + return; + } + const primitiveNode = this.element.model[$nodeFromIndex](nodes[0].number, nodes[1].number); + if (primitiveNode == null) { + console.warn(hotspot.surface + + ' does not match a node/primitive in this glTF! Skipping this hotspot.'); + return; + } + const numVert = primitiveNode.mesh.geometry.attributes.position.count; + const tri = new Vector3(nodes[2].number, nodes[3].number, nodes[4].number); + if (tri.x >= numVert || tri.y >= numVert || tri.z >= numVert) { + console.warn(hotspot.surface + + ' vertex indices out of range in this glTF! Skipping this hotspot.'); + return; + } + const bary = new Vector3(nodes[5].number, nodes[6].number, nodes[7].number); + hotspot.mesh = primitiveNode.mesh; + hotspot.tri = tri; + hotspot.bary = bary; + hotspot.updateSurface(); + } + /** + * Update positions of surface hotspots to follow model animation. + */ + animateSurfaceHotspots() { + if (this.element.paused) { + return; + } + this.forHotspots((hotspot) => { + hotspot.updateSurface(); + }); + } + /** + * Update the CSS visibility of the hotspots based on whether their + * normals point toward the camera. + */ + updateHotspotsVisibility(viewerPosition) { + this.forHotspots((hotspot) => { + view.copy(viewerPosition); + target.setFromMatrixPosition(hotspot.matrixWorld); + view.sub(target); + normalWorld.copy(hotspot.normal) + .transformDirection(this.target.matrixWorld); + if (view.dot(normalWorld) < 0) { + hotspot.hide(); + } + else { + hotspot.show(); + } + }); + } + /** + * Rotate all hotspots to an absolute orientation given by the input + * number of radians. Zero returns them to upright. + */ + orientHotspots(radians) { + this.forHotspots((hotspot) => { + hotspot.orient(radians); + }); + } + /** + * Set the rendering visibility of all hotspots. This is used to hide them + * during transitions and such. + */ + setHotspotsVisibility(visible) { + this.forHotspots((hotspot) => { + hotspot.visible = visible; + }); + } + updateSchema(src) { + var _a; + const { schemaElement, element } = this; + const { alt, poster, iosSrc } = element; + if (src != null) { + const encoding = [{ + '@type': 'MediaObject', + contentUrl: src, + encodingFormat: ((_a = src.split('.').pop()) === null || _a === void 0 ? void 0 : _a.toLowerCase()) === 'gltf' ? + 'model/gltf+json' : + 'model/gltf-binary' + }]; + if (iosSrc) { + encoding.push({ + '@type': 'MediaObject', + contentUrl: iosSrc, + encodingFormat: 'model/vnd.usdz+zip' + }); + } + const structuredData = { + '@context': 'http://schema.org/', + '@type': '3DModel', + image: poster !== null && poster !== void 0 ? poster : undefined, + name: alt !== null && alt !== void 0 ? alt : undefined, + encoding + }; + schemaElement.textContent = JSON.stringify(structuredData); + document.head.appendChild(schemaElement); + } + else if (schemaElement.parentElement != null) { + schemaElement.parentElement.removeChild(schemaElement); + } + } +} + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +/** + * ProgressTracker is an event emitter that helps to track the ongoing progress + * of many simultaneous actions. + * + * ProgressTracker reports progress activity in the form of a progress event. + * The event.detail.totalProgress value indicates the elapsed progress of all + * activities being tracked by the ProgressTracker. + * + * The value of totalProgress is a number that progresses from 0 to 1. The + * ProgressTracker allows for the lazy accumulation of tracked actions, so the + * total progress represents an abstract, non-absolute progress towards the + * completion of all currently tracked events. + * + * When all currently tracked activities are finished, the ProgressTracker + * emits one final progress event and then resets the list of its currently + * tracked activities. This means that from an observer's perspective, + * ongoing activities will accumulate and collectively contribute to the notion + * of total progress until all currently tracked ongoing activities have + * completed. + */ +class ProgressTracker extends EventTarget { + constructor() { + super(...arguments); + this.ongoingActivities = new Set(); + this.totalProgress = 0; + } + /** + * The total number of activities currently being tracked. + */ + get ongoingActivityCount() { + return this.ongoingActivities.size; + } + /** + * Registers a new activity to be tracked by the progress tracker. The method + * returns a special callback that should be invoked whenever new progress is + * ready to be reported. The progress should be reported as a value between 0 + * and 1, where 0 would represent the beginning of the action and 1 would + * represent its completion. + * + * There is no built-in notion of a time-out for ongoing activities, so once + * an ongoing activity is begun, it is up to the consumer of this API to + * update the progress until that activity is no longer ongoing. + * + * Progress is only allowed to move forward for any given activity. If a lower + * progress is reported than the previously reported progress, it will be + * ignored. + */ + beginActivity(reason) { + const activity = { progress: 0, completed: false }; + this.ongoingActivities.add(activity); + if (this.ongoingActivityCount === 1) { + // Announce the first progress event (which should always be 0 / 1 + // total progress): + this.announceTotalProgress(activity, 0, reason); + } + return (progress) => { + let nextProgress; + nextProgress = Math.max(clamp(progress, 0, 1), activity.progress); + if (nextProgress !== activity.progress) { + this.announceTotalProgress(activity, nextProgress, reason); + } + return activity.progress; + }; + } + announceTotalProgress(updatedActivity, nextProgress, reason) { + let progressLeft = 0; + let completedActivities = 0; + if (nextProgress == 1.0) + updatedActivity.completed = true; + for (const activity of this.ongoingActivities) { + const { progress } = activity; + progressLeft += 1.0 - progress; + if (activity.completed) { + completedActivities++; + } + } + const lastProgress = updatedActivity.progress; + updatedActivity.progress = nextProgress; + // Advance the total progress by the fraction of total remaining progress + // due to this activity. + this.totalProgress += (nextProgress - lastProgress) * + (1.0 - this.totalProgress) / progressLeft; + const totalProgress = completedActivities === this.ongoingActivityCount ? + 1.0 : + this.totalProgress; + this.dispatchEvent(new CustomEvent('progress', { detail: { totalProgress, reason } })); + if (completedActivities === this.ongoingActivityCount) { + this.totalProgress = 0.0; + this.ongoingActivities.clear(); + } + } +} + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var __decorate$4 = (undefined && undefined.__decorate) || function (decorators, target, key, desc) { + var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d; + for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r; + return c > 3 && r && Object.defineProperty(target, key, r), r; +}; +var _a$1, _b$1, _c, _d, _e, _f, _g, _h, _j, _k, _l, _m, _o; +const CLEAR_MODEL_TIMEOUT_MS = 10; +const FALLBACK_SIZE_UPDATE_THRESHOLD_MS = 50; +const ANNOUNCE_MODEL_VISIBILITY_DEBOUNCE_THRESHOLD = 0; +const UNSIZED_MEDIA_WIDTH = 300; +const UNSIZED_MEDIA_HEIGHT = 150; +const blobCanvas = document.createElement('canvas'); +const $fallbackResizeHandler = Symbol('fallbackResizeHandler'); +const $defaultAriaLabel = Symbol('defaultAriaLabel'); +const $resizeObserver = Symbol('resizeObserver'); +const $clearModelTimeout = Symbol('clearModelTimeout'); +const $onContextLost = Symbol('onContextLost'); +const $loaded = Symbol('loaded'); +const $status = Symbol('status'); +const $onFocus = Symbol('onFocus'); +const $onBlur = Symbol('onBlur'); +const $updateSize = Symbol('updateSize'); +const $intersectionObserver = Symbol('intersectionObserver'); +const $isElementInViewport = Symbol('isElementInViewport'); +const $announceModelVisibility = Symbol('announceModelVisibility'); +const $ariaLabel = Symbol('ariaLabel'); +const $altDefaulted = Symbol('altDefaulted'); +const $statusElement = Symbol('statusElement'); +const $updateStatus = Symbol('updateStatus'); +const $loadedTime = Symbol('loadedTime'); +const $updateSource = Symbol('updateSource'); +const $markLoaded = Symbol('markLoaded'); +const $container = Symbol('container'); +const $userInputElement = Symbol('input'); +const $canvas = Symbol('canvas'); +const $scene = Symbol('scene'); +const $needsRender = Symbol('needsRender'); +const $tick = Symbol('tick'); +const $onModelLoad = Symbol('onModelLoad'); +const $onResize = Symbol('onResize'); +const $renderer = Symbol('renderer'); +const $progressTracker = Symbol('progressTracker'); +const $getLoaded = Symbol('getLoaded'); +const $getModelIsVisible = Symbol('getModelIsVisible'); +const $shouldAttemptPreload = Symbol('shouldAttemptPreload'); +const toVector3D = (v) => { + return { + x: v.x, + y: v.y, + z: v.z, + toString() { + return `${this.x}m ${this.y}m ${this.z}m`; + } + }; +}; +const toVector2D = (v) => { + return { + u: v.x, + v: v.y, + toString() { + return `${this.u} ${this.v}`; + } + }; +}; +/** + * Definition for a basic element. + */ +class ModelViewerElementBase extends ReactiveElement { + static get is() { + return 'model-viewer'; + } + /** @export */ + static set modelCacheSize(value) { + CachingGLTFLoader[$evictionPolicy].evictionThreshold = value; + } + /** @export */ + static get modelCacheSize() { + return CachingGLTFLoader[$evictionPolicy].evictionThreshold; + } + /** @export */ + static set minimumRenderScale(value) { + if (value > 1) { + console.warn(' minimumRenderScale has been clamped to a maximum value of 1.'); + } + if (value <= 0) { + console.warn(' minimumRenderScale has been clamped to a minimum value of 0.25.'); + } + Renderer.singleton.minScale = value; + } + /** @export */ + static get minimumRenderScale() { + return Renderer.singleton.minScale; + } + /** @export */ + get loaded() { + return this[$getLoaded](); + } + get [(_a$1 = $isElementInViewport, _b$1 = $loaded, _c = $loadedTime, _d = $status, _e = $clearModelTimeout, _f = $fallbackResizeHandler, _g = $announceModelVisibility, _h = $resizeObserver, _j = $intersectionObserver, _k = $progressTracker, $renderer)]() { + return Renderer.singleton; + } + /** @export */ + get modelIsVisible() { + return this[$getModelIsVisible](); + } + /** + * Creates a new ModelViewerElement. + */ + constructor() { + super(); + this.alt = null; + this.src = null; + this.withCredentials = false; + /** + * Generates a 3D model schema https://schema.org/3DModel associated with + * the loaded src and inserts it into the header of the page for search + * engines to crawl. + */ + this.generateSchema = false; + this[_a$1] = false; + this[_b$1] = false; + this[_c] = 0; + this[_d] = ''; + this[_e] = null; + this[_f] = debounce(() => { + const boundingRect = this.getBoundingClientRect(); + this[$updateSize](boundingRect); + }, FALLBACK_SIZE_UPDATE_THRESHOLD_MS); + this[_g] = debounce((oldVisibility) => { + const newVisibility = this.modelIsVisible; + if (newVisibility !== oldVisibility) { + this.dispatchEvent(new CustomEvent('model-visibility', { detail: { visible: newVisibility } })); + } + }, ANNOUNCE_MODEL_VISIBILITY_DEBOUNCE_THRESHOLD); + this[_h] = null; + this[_j] = null; + this[_k] = new ProgressTracker(); + this[_l] = () => { + this[$statusElement].textContent = this[$status]; + }; + this[_m] = () => { + this[$statusElement].textContent = ''; + }; + this[_o] = (event) => { + this.dispatchEvent(new CustomEvent('error', { detail: { type: 'webglcontextlost', sourceError: event.sourceEvent } })); + }; + this.attachShadow({ mode: 'open' }); + const shadowRoot = this.shadowRoot; + makeTemplate(shadowRoot); + this[$container] = shadowRoot.querySelector('.container'); + this[$userInputElement] = + shadowRoot.querySelector('.userInput'); + this[$canvas] = shadowRoot.querySelector('canvas'); + this[$statusElement] = + shadowRoot.querySelector('#status'); + this[$defaultAriaLabel] = + this[$userInputElement].getAttribute('aria-label'); + // Because of potential race conditions related to invoking the constructor + // we only use the bounding rect to set the initial size if the element is + // already connected to the document: + let width, height; + if (this.isConnected) { + const rect = this.getBoundingClientRect(); + width = rect.width; + height = rect.height; + } + else { + width = UNSIZED_MEDIA_WIDTH; + height = UNSIZED_MEDIA_HEIGHT; + } + // Create the underlying ModelScene. + this[$scene] = + new ModelScene({ canvas: this[$canvas], element: this, width, height }); + // Update initial size on microtask timing so that subclasses have a + // chance to initialize + Promise.resolve().then(() => { + this[$updateSize](this.getBoundingClientRect()); + }); + if (HAS_RESIZE_OBSERVER) { + // Set up a resize observer so we can scale our canvas + // if our changes + this[$resizeObserver] = + new ResizeObserver((entries) => { + // Don't resize anything if in AR mode; otherwise the canvas + // scaling to fullscreen on entering AR will clobber the flat/2d + // dimensions of the element. + if (this[$renderer].isPresenting) { + return; + } + for (let entry of entries) { + if (entry.target === this) { + this[$updateSize](entry.contentRect); + } + } + }); + } + if (HAS_INTERSECTION_OBSERVER) { + this[$intersectionObserver] = new IntersectionObserver(entries => { + for (let entry of entries) { + if (entry.target === this) { + const oldVisibility = this.modelIsVisible; + this[$isElementInViewport] = entry.isIntersecting; + this[$announceModelVisibility](oldVisibility); + if (this[$isElementInViewport] && !this.loaded) { + this[$updateSource](); + } + } + } + }, { + root: null, + // We used to have margin here, but it was causing animated models below + // the fold to steal the frame budget. Weirder still, it would also + // cause input events to be swallowed, sometimes for seconds on the + // model above the fold, but only when the animated model was completely + // below. Setting this margin to zero fixed it. + rootMargin: '0px', + // With zero threshold, an element adjacent to but not intersecting the + // viewport will be reported as intersecting, which will cause + // unnecessary rendering. Any slight positive threshold alleviates this. + threshold: 0.00001, + }); + } + else { + // If there is no intersection observer, then all models should be visible + // at all times: + this[$isElementInViewport] = true; + } + } + connectedCallback() { + super.connectedCallback && super.connectedCallback(); + if (HAS_RESIZE_OBSERVER) { + this[$resizeObserver].observe(this); + } + else { + self.addEventListener('resize', this[$fallbackResizeHandler]); + } + if (HAS_INTERSECTION_OBSERVER) { + this[$intersectionObserver].observe(this); + } + this.addEventListener('focus', this[$onFocus]); + this.addEventListener('blur', this[$onBlur]); + const renderer = this[$renderer]; + renderer.addEventListener('contextlost', this[$onContextLost]); + renderer.registerScene(this[$scene]); + if (this[$clearModelTimeout] != null) { + self.clearTimeout(this[$clearModelTimeout]); + this[$clearModelTimeout] = null; + // Force an update in case the model has been evicted from our GLTF cache + // @see https://lit-element.polymer-project.org/guide/lifecycle#requestupdate + this.requestUpdate('src', null); + } + } + disconnectedCallback() { + super.disconnectedCallback && super.disconnectedCallback(); + if (HAS_RESIZE_OBSERVER) { + this[$resizeObserver].unobserve(this); + } + else { + self.removeEventListener('resize', this[$fallbackResizeHandler]); + } + if (HAS_INTERSECTION_OBSERVER) { + this[$intersectionObserver].unobserve(this); + } + this.removeEventListener('focus', this[$onFocus]); + this.removeEventListener('blur', this[$onBlur]); + const renderer = this[$renderer]; + renderer.removeEventListener('contextlost', this[$onContextLost]); + renderer.unregisterScene(this[$scene]); + this[$clearModelTimeout] = self.setTimeout(() => { + this[$scene].dispose(); + this[$clearModelTimeout] = null; + }, CLEAR_MODEL_TIMEOUT_MS); + } + updated(changedProperties) { + super.updated(changedProperties); + // NOTE(cdata): If a property changes from values A -> B -> A in the space + // of a microtask, LitElement/UpdatingElement will notify of a change even + // though the value has effectively not changed, so we need to check to make + // sure that the value has actually changed before changing the loaded flag. + if (changedProperties.has('src')) { + if (this.src == null) { + this[$loaded] = false; + this[$loadedTime] = 0; + this[$scene].reset(); + } + else if (this.src !== this[$scene].url) { + this[$loaded] = false; + this[$loadedTime] = 0; + this[$updateSource](); + } + } + if (changedProperties.has('alt')) { + this[$userInputElement].setAttribute('aria-label', this[$ariaLabel]); + } + if (changedProperties.has('generateSchema')) { + if (this.generateSchema) { + this[$scene].updateSchema(this.src); + } + else { + this[$scene].updateSchema(null); + } + } + } + /** @export */ + toDataURL(type, encoderOptions) { + return this[$renderer] + .displayCanvas(this[$scene]) + .toDataURL(type, encoderOptions); + } + /** @export */ + async toBlob(options) { + const mimeType = options ? options.mimeType : undefined; + const qualityArgument = options ? options.qualityArgument : undefined; + const useIdealAspect = options ? options.idealAspect : undefined; + const { width, height, idealAspect, aspect } = this[$scene]; + const { dpr, scaleFactor } = this[$renderer]; + let outputWidth = width * scaleFactor * dpr; + let outputHeight = height * scaleFactor * dpr; + let offsetX = 0; + let offsetY = 0; + if (useIdealAspect === true) { + if (idealAspect > aspect) { + const oldHeight = outputHeight; + outputHeight = Math.round(outputWidth / idealAspect); + offsetY = (oldHeight - outputHeight) / 2; + } + else { + const oldWidth = outputWidth; + outputWidth = Math.round(outputHeight * idealAspect); + offsetX = (oldWidth - outputWidth) / 2; + } + } + blobCanvas.width = outputWidth; + blobCanvas.height = outputHeight; + try { + return new Promise(async (resolve, reject) => { + blobCanvas.getContext('2d').drawImage(this[$renderer].displayCanvas(this[$scene]), offsetX, offsetY, outputWidth, outputHeight, 0, 0, outputWidth, outputHeight); + blobCanvas.toBlob((blob) => { + if (!blob) { + return reject(new Error('Unable to retrieve canvas blob')); + } + resolve(blob); + }, mimeType, qualityArgument); + }); + } + finally { + this[$updateSize]({ width, height }); + } + } + /** + * Registers a new EffectComposer as the main rendering pipeline, + * instead of the default ThreeJs renderer. + * This method also calls setRenderer, setMainScene, and setMainCamera on + * your effectComposer. + * @param effectComposer An EffectComposer from `pmndrs/postprocessing` + */ + registerEffectComposer(effectComposer) { + effectComposer.setRenderer(this[$renderer].threeRenderer); + effectComposer.setMainCamera(this[$scene].getCamera()); + effectComposer.setMainScene(this[$scene]); + this[$scene].effectRenderer = effectComposer; + } + /** + * Removes the registered EffectComposer + */ + unregisterEffectComposer() { + this[$scene].effectRenderer = null; + } + registerRenderer(renderer) { + this[$scene].externalRenderer = renderer; + } + unregisterRenderer() { + this[$scene].externalRenderer = null; + } + get [$ariaLabel]() { + return this[$altDefaulted]; + } + get [$altDefaulted]() { + return (this.alt == null || this.alt === 'null') ? this[$defaultAriaLabel] : + this.alt; + } + // NOTE(cdata): Although this may seem extremely redundant, it is required in + // order to support overloading when TypeScript is compiled to ES5 + // @see https://github.com/Polymer/lit-element/pull/745 + // @see https://github.com/microsoft/TypeScript/issues/338 + [$getLoaded]() { + return this[$loaded]; + } + // @see [$getLoaded] + [$getModelIsVisible]() { + return this.loaded && this[$isElementInViewport]; + } + [$shouldAttemptPreload]() { + return !!this.src && this[$isElementInViewport]; + } + /** + * Called on initialization and when the resize observer fires. + */ + [$updateSize]({ width, height }) { + if (width === 0 || height === 0) { + return; + } + this[$container].style.width = `${width}px`; + this[$container].style.height = `${height}px`; + this[$onResize]({ width, height }); + } + [$tick](time, delta) { + var _p; + (_p = this[$scene].effectRenderer) === null || _p === void 0 ? void 0 : _p.beforeRender(time, delta); + } + [$markLoaded]() { + if (this[$loaded]) { + return; + } + this[$loaded] = true; + this[$loadedTime] = performance.now(); + } + [$needsRender]() { + this[$scene].queueRender(); + } + [$onModelLoad]() { + } + [$updateStatus](status) { + this[$status] = status; + const rootNode = this.getRootNode(); + // Only change the aria-label if is currently focused: + if (rootNode != null && rootNode.activeElement === this && + this[$statusElement].textContent != status) { + this[$statusElement].textContent = status; + } + } + [(_l = $onFocus, _m = $onBlur, $onResize)](e) { + this[$scene].setSize(e.width, e.height); + } + /** + * Parses the element for an appropriate source URL and + * sets the views to use the new model based. + */ + async [(_o = $onContextLost, $updateSource)]() { + const scene = this[$scene]; + if (this.loaded || !this[$shouldAttemptPreload]() || + this.src === scene.url) { + return; + } + if (this.generateSchema) { + scene.updateSchema(this.src); + } + this[$updateStatus]('Loading'); + // If we are loading a new model, we need to stop the animation of + // the current one (if any is playing). Otherwise, we might lose + // the reference to the scene root and running actions start to + // throw exceptions and/or behave in unexpected ways: + scene.stopAnimation(); + const updateSourceProgress = this[$progressTracker].beginActivity('model-load'); + const source = this.src; + try { + const srcUpdated = scene.setSource(source, (progress) => updateSourceProgress(clamp(progress, 0, 1) * 0.95)); + const envUpdated = this[$updateEnvironment](); + await Promise.all([srcUpdated, envUpdated]); + this[$markLoaded](); + this[$onModelLoad](); + this.updateComplete.then(() => { + this.dispatchEvent(new CustomEvent('before-render')); + }); + // Wait for shaders to compile and pixels to be drawn. + await new Promise(resolve => { + requestAnimationFrame(() => { + requestAnimationFrame(() => { + this.dispatchEvent(new CustomEvent('load', { detail: { url: source } })); + resolve(); + }); + }); + }); + } + catch (error) { + this.dispatchEvent(new CustomEvent('error', { detail: { type: 'loadfailure', sourceError: error } })); + } + finally { + updateSourceProgress(1.0); + } + } +} +__decorate$4([ + property({ type: String }) +], ModelViewerElementBase.prototype, "alt", void 0); +__decorate$4([ + property({ type: String }) +], ModelViewerElementBase.prototype, "src", void 0); +__decorate$4([ + property({ type: Boolean, attribute: 'with-credentials' }) +], ModelViewerElementBase.prototype, "withCredentials", void 0); +__decorate$4([ + property({ type: Boolean, attribute: 'generate-schema' }) +], ModelViewerElementBase.prototype, "generateSchema", void 0); + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var __decorate$3 = (undefined && undefined.__decorate) || function (decorators, target, key, desc) { + var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d; + for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r; + return c > 3 && r && Object.defineProperty(target, key, r), r; +}; +const MILLISECONDS_PER_SECOND = 1000.0; +const $changeAnimation = Symbol('changeAnimation'); +const $appendAnimation = Symbol('appendAnimation'); +const $detachAnimation = Symbol('detachAnimation'); +const $paused = Symbol('paused'); +const DEFAULT_PLAY_OPTIONS = { + repetitions: Infinity, + pingpong: false +}; +const DEFAULT_APPEND_OPTIONS = { + pingpong: false, + repetitions: null, + weight: 1, + timeScale: 1, + fade: false, + warp: false, + relativeWarp: true, + time: null +}; +const DEFAULT_DETACH_OPTIONS = { + fade: true +}; +const AnimationMixin = (ModelViewerElement) => { + var _a; + class AnimationModelViewerElement extends ModelViewerElement { + constructor(...args) { + super(args); + this.autoplay = false; + this.animationName = undefined; + this.animationCrossfadeDuration = 300; + this[_a] = true; + this[$scene].subscribeMixerEvent('loop', (e) => { + const count = e.action._loopCount; + const name = e.action._clip.name; + const uuid = e.action._clip.uuid; + const targetAnimation = this[$scene].markedAnimations.find(e => e.name === name); + if (targetAnimation) { + this[$scene].updateAnimationLoop(targetAnimation.name, targetAnimation.loopMode, targetAnimation.repetitionCount); + const filtredArr = this[$scene].markedAnimations.filter(e => e.name !== name); + this[$scene].markedAnimations = filtredArr; + } + this.dispatchEvent(new CustomEvent('loop', { detail: { count, name, uuid } })); + }); + this[$scene].subscribeMixerEvent('finished', (e) => { + if (!this[$scene].appendedAnimations.includes(e.action._clip.name)) { + this[$paused] = true; + } + else { + const filteredList = this[$scene].appendedAnimations.filter(i => i !== e.action._clip.name); + this[$scene].appendedAnimations = filteredList; + } + this.dispatchEvent(new CustomEvent('finished')); + }); + } + /** + * Returns an array + */ + get availableAnimations() { + if (this.loaded) { + return this[$scene].animationNames; + } + return []; + } + get duration() { + return this[$scene].duration; + } + get paused() { + return this[$paused]; + } + get currentTime() { + return this[$scene].animationTime; + } + get appendedAnimations() { + return this[$scene].appendedAnimations; + } + set currentTime(value) { + this[$scene].animationTime = value; + this[$needsRender](); + } + get timeScale() { + return this[$scene].animationTimeScale; + } + set timeScale(value) { + this[$scene].animationTimeScale = value; + } + pause() { + if (this[$paused]) { + return; + } + this[$paused] = true; + this.dispatchEvent(new CustomEvent('pause')); + } + play(options) { + if (this.availableAnimations.length > 0) { + this[$paused] = false; + this[$changeAnimation](options); + this.dispatchEvent(new CustomEvent('play')); + } + } + appendAnimation(animationName, options) { + if (this.availableAnimations.length > 0) { + this[$paused] = false; + this[$appendAnimation](animationName, options); + this.dispatchEvent(new CustomEvent('append-animation')); + } + } + detachAnimation(animationName, options) { + if (this.availableAnimations.length > 0) { + this[$paused] = false; + this[$detachAnimation](animationName, options); + this.dispatchEvent(new CustomEvent('detach-animation')); + } + } + [(_a = $paused, $onModelLoad)]() { + super[$onModelLoad](); + this[$paused] = true; + if (this.animationName != null) { + this[$changeAnimation](); + } + if (this.autoplay) { + this.play(); + } + } + [$tick](_time, delta) { + super[$tick](_time, delta); + if (this[$paused] || + (!this[$getModelIsVisible]() && !this[$renderer].isPresenting)) { + return; + } + this[$scene].updateAnimation(delta / MILLISECONDS_PER_SECOND); + this[$needsRender](); + } + updated(changedProperties) { + super.updated(changedProperties); + if (changedProperties.has('autoplay') && this.autoplay) { + this.play(); + } + if (changedProperties.has('animationName')) { + this[$changeAnimation](); + } + } + [$changeAnimation](options = DEFAULT_PLAY_OPTIONS) { + var _b; + const repetitions = (_b = options.repetitions) !== null && _b !== void 0 ? _b : Infinity; + const mode = options.pingpong ? + LoopPingPong : + (repetitions === 1 ? LoopOnce : LoopRepeat); + this[$scene].playAnimation(this.animationName, this.animationCrossfadeDuration / MILLISECONDS_PER_SECOND, mode, repetitions); + // If we are currently paused, we need to force a render so that + // the scene updates to the first frame of the new animation + if (this[$paused]) { + this[$scene].updateAnimation(0); + this[$needsRender](); + } + } + [$appendAnimation](animationName = '', options = DEFAULT_APPEND_OPTIONS) { + var _b; + const repetitions = (_b = options.repetitions) !== null && _b !== void 0 ? _b : Infinity; + const mode = options.pingpong ? + LoopPingPong : + (repetitions === 1 ? LoopOnce : LoopRepeat); + const needsToStop = !!options.repetitions || 'pingpong' in options; + this[$scene].appendAnimation(animationName ? animationName : this.animationName, mode, repetitions, options.weight, options.timeScale, options.fade, options.warp, options.relativeWarp, options.time, needsToStop); + // If we are currently paused, we need to force a render so that + // the scene updates to the first frame of the new animation + if (this[$paused]) { + this[$scene].updateAnimation(0); + this[$needsRender](); + } + } + [$detachAnimation](animationName = '', options = DEFAULT_DETACH_OPTIONS) { + this[$scene].detachAnimation(animationName ? animationName : this.animationName, options.fade); + // If we are currently paused, we need to force a render so that + // the scene updates to the first frame of the new animation + if (this[$paused]) { + this[$scene].updateAnimation(0); + this[$needsRender](); + } + } + } + __decorate$3([ + property({ type: Boolean }) + ], AnimationModelViewerElement.prototype, "autoplay", void 0); + __decorate$3([ + property({ type: String, attribute: 'animation-name' }) + ], AnimationModelViewerElement.prototype, "animationName", void 0); + __decorate$3([ + property({ type: Number, attribute: 'animation-crossfade-duration' }) + ], AnimationModelViewerElement.prototype, "animationCrossfadeDuration", void 0); + return AnimationModelViewerElement; +}; + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const $hotspotMap = Symbol('hotspotMap'); +const $mutationCallback = Symbol('mutationCallback'); +const $observer = Symbol('observer'); +const $addHotspot = Symbol('addHotspot'); +const $removeHotspot = Symbol('removeHotspot'); +const worldToModel = new Matrix4(); +/** + * AnnotationMixin implements a declarative API to add hotspots and annotations. + * Child elements of the element that have a slot name that + * begins with "hotspot" and data-position and data-normal attributes in + * the format of the camera-target attribute will be added to the scene and + * track the specified model coordinates. + */ +const AnnotationMixin = (ModelViewerElement) => { + var _a, _b, _c; + class AnnotationModelViewerElement extends ModelViewerElement { + constructor() { + super(...arguments); + this[_a] = new Map(); + this[_b] = (mutations) => { + mutations.forEach((mutation) => { + // NOTE: Be wary that in ShadyDOM cases, the MutationRecord + // only has addedNodes and removedNodes (and no other details). + if (!(mutation instanceof MutationRecord) || + mutation.type === 'childList') { + mutation.addedNodes.forEach((node) => { + this[$addHotspot](node); + }); + mutation.removedNodes.forEach((node) => { + this[$removeHotspot](node); + }); + this[$needsRender](); + } + }); + }; + this[_c] = new MutationObserver(this[$mutationCallback]); + } + connectedCallback() { + super.connectedCallback(); + for (let i = 0; i < this.children.length; ++i) { + this[$addHotspot](this.children[i]); + } + const { ShadyDOM } = self; + if (ShadyDOM == null) { + this[$observer].observe(this, { childList: true }); + } + else { + this[$observer] = + ShadyDOM.observeChildren(this, this[$mutationCallback]); + } + } + disconnectedCallback() { + super.disconnectedCallback(); + const { ShadyDOM } = self; + if (ShadyDOM == null) { + this[$observer].disconnect(); + } + else { + ShadyDOM.unobserveChildren(this[$observer]); + } + } + [(_a = $hotspotMap, _b = $mutationCallback, _c = $observer, $onModelLoad)]() { + super[$onModelLoad](); + const scene = this[$scene]; + scene.forHotspots((hotspot) => { + scene.updateSurfaceHotspot(hotspot); + }); + } + [$tick](time, delta) { + super[$tick](time, delta); + const scene = this[$scene]; + const { annotationRenderer } = scene; + const camera = scene.getCamera(); + if (scene.shouldRender()) { + scene.animateSurfaceHotspots(); + scene.updateHotspotsVisibility(camera.position); + annotationRenderer.domElement.style.display = ''; + annotationRenderer.render(scene, camera); + } + } + /** + * Since the data-position and data-normal attributes are not observed, use + * this method to move a hotspot. Keep in mind that all hotspots with the + * same slot name use a single location and the first definition takes + * precedence, until updated with this method. + */ + updateHotspot(config) { + const hotspot = this[$hotspotMap].get(config.name); + if (hotspot == null) { + return; + } + hotspot.updatePosition(config.position); + hotspot.updateNormal(config.normal); + hotspot.surface = config.surface; + this[$scene].updateSurfaceHotspot(hotspot); + this[$needsRender](); + } + /** + * This method returns in-scene data about a requested hotspot including + * its position in screen (canvas) space and its current visibility. + */ + queryHotspot(name) { + const hotspot = this[$hotspotMap].get(name); + if (hotspot == null) { + return null; + } + const position = toVector3D(hotspot.position); + const normal = toVector3D(hotspot.normal); + const facingCamera = hotspot.facingCamera; + const scene = this[$scene]; + const camera = scene.getCamera(); + const vector = new Vector3(); + vector.setFromMatrixPosition(hotspot.matrixWorld); + vector.project(camera); + const widthHalf = scene.width / 2; + const heightHalf = scene.height / 2; + vector.x = (vector.x * widthHalf) + widthHalf; + vector.y = -(vector.y * heightHalf) + heightHalf; + const canvasPosition = toVector3D(new Vector3(vector.x, vector.y, vector.z)); + if (!Number.isFinite(canvasPosition.x) || + !Number.isFinite(canvasPosition.y)) { + return null; + } + return { position, normal, canvasPosition, facingCamera }; + } + /** + * This method returns the model position, normal and texture coordinate + * of the point on the mesh corresponding to the input pixel coordinates + * given relative to the model-viewer element. The position and normal + * are returned as strings in the format suitable for putting in a + * hotspot's data-position and data-normal attributes. If the mesh is + * not hit, the result is null. + */ + positionAndNormalFromPoint(pixelX, pixelY) { + const scene = this[$scene]; + const ndcPosition = scene.getNDC(pixelX, pixelY); + const hit = scene.positionAndNormalFromPoint(ndcPosition); + if (hit == null) { + return null; + } + worldToModel.copy(scene.target.matrixWorld).invert(); + const position = toVector3D(hit.position.applyMatrix4(worldToModel)); + const normal = toVector3D(hit.normal.transformDirection(worldToModel)); + let uv = null; + if (hit.uv != null) { + uv = toVector2D(hit.uv); + } + return { position: position, normal: normal, uv: uv }; + } + /** + * This method returns a dynamic hotspot ID string of the point on the mesh + * corresponding to the input pixel coordinates given relative to the + * model-viewer element. The ID string can be used in the data-surface + * attribute of the hotspot to make it follow this point on the surface even + * as the model animates. If the mesh is not hit, the result is null. + */ + surfaceFromPoint(pixelX, pixelY) { + const scene = this[$scene]; + const ndcPosition = scene.getNDC(pixelX, pixelY); + return scene.surfaceFromPoint(ndcPosition); + } + [$addHotspot](node) { + if (!(node instanceof HTMLElement && + node.slot.indexOf('hotspot') === 0)) { + return; + } + let hotspot = this[$hotspotMap].get(node.slot); + if (hotspot != null) { + hotspot.increment(); + } + else { + hotspot = new Hotspot({ + name: node.slot, + position: node.dataset.position, + normal: node.dataset.normal, + surface: node.dataset.surface, + }); + this[$hotspotMap].set(node.slot, hotspot); + this[$scene].addHotspot(hotspot); + } + this[$scene].queueRender(); + } + [$removeHotspot](node) { + if (!(node instanceof HTMLElement)) { + return; + } + const hotspot = this[$hotspotMap].get(node.slot); + if (!hotspot) { + return; + } + if (hotspot.decrement()) { + this[$scene].removeHotspot(hotspot); + this[$hotspotMap].delete(node.slot); + } + this[$scene].queueRender(); + } + } + return AnnotationModelViewerElement; +}; + +/*! +fflate - fast JavaScript compression/decompression + +Licensed under MIT. https://github.com/101arrowz/fflate/blob/master/LICENSE +version 0.8.2 +*/ + + +// aliases for shorter compressed code (most minifers don't do this) +var u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array; +// fixed length extra bits +var fleb = new u8([0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, /* unused */ 0, 0, /* impossible */ 0]); +// fixed distance extra bits +var fdeb = new u8([0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, /* unused */ 0, 0]); +// code length index map +var clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]); +// get base, reverse index map from extra bits +var freb = function (eb, start) { + var b = new u16(31); + for (var i = 0; i < 31; ++i) { + b[i] = start += 1 << eb[i - 1]; + } + // numbers here are at max 18 bits + var r = new i32(b[30]); + for (var i = 1; i < 30; ++i) { + for (var j = b[i]; j < b[i + 1]; ++j) { + r[j] = ((j - b[i]) << 5) | i; + } + } + return { b: b, r: r }; +}; +var _a = freb(fleb, 2), fl = _a.b, revfl = _a.r; +// we can ignore the fact that the other numbers are wrong; they never happen anyway +fl[28] = 258, revfl[258] = 28; +var _b = freb(fdeb, 0), revfd = _b.r; +// map of value to reverse (assuming 16 bits) +var rev = new u16(32768); +for (var i = 0; i < 32768; ++i) { + // reverse table algorithm from SO + var x = ((i & 0xAAAA) >> 1) | ((i & 0x5555) << 1); + x = ((x & 0xCCCC) >> 2) | ((x & 0x3333) << 2); + x = ((x & 0xF0F0) >> 4) | ((x & 0x0F0F) << 4); + rev[i] = (((x & 0xFF00) >> 8) | ((x & 0x00FF) << 8)) >> 1; +} +// create huffman tree from u8 "map": index -> code length for code index +// mb (max bits) must be at most 15 +// TODO: optimize/split up? +var hMap = (function (cd, mb, r) { + var s = cd.length; + // index + var i = 0; + // u16 "map": index -> # of codes with bit length = index + var l = new u16(mb); + // length of cd must be 288 (total # of codes) + for (; i < s; ++i) { + if (cd[i]) + ++l[cd[i] - 1]; + } + // u16 "map": index -> minimum code for bit length = index + var le = new u16(mb); + for (i = 1; i < mb; ++i) { + le[i] = (le[i - 1] + l[i - 1]) << 1; + } + var co; + if (r) { + // u16 "map": index -> number of actual bits, symbol for code + co = new u16(1 << mb); + // bits to remove for reverser + var rvb = 15 - mb; + for (i = 0; i < s; ++i) { + // ignore 0 lengths + if (cd[i]) { + // num encoding both symbol and bits read + var sv = (i << 4) | cd[i]; + // free bits + var r_1 = mb - cd[i]; + // start value + var v = le[cd[i] - 1]++ << r_1; + // m is end value + for (var m = v | ((1 << r_1) - 1); v <= m; ++v) { + // every 16 bit value starting with the code yields the same result + co[rev[v] >> rvb] = sv; + } + } + } + } + else { + co = new u16(s); + for (i = 0; i < s; ++i) { + if (cd[i]) { + co[i] = rev[le[cd[i] - 1]++] >> (15 - cd[i]); + } + } + } + return co; +}); +// fixed length tree +var flt = new u8(288); +for (var i = 0; i < 144; ++i) + flt[i] = 8; +for (var i = 144; i < 256; ++i) + flt[i] = 9; +for (var i = 256; i < 280; ++i) + flt[i] = 7; +for (var i = 280; i < 288; ++i) + flt[i] = 8; +// fixed distance tree +var fdt = new u8(32); +for (var i = 0; i < 32; ++i) + fdt[i] = 5; +// fixed length map +var flm = /*#__PURE__*/ hMap(flt, 9, 0); +// fixed distance map +var fdm = /*#__PURE__*/ hMap(fdt, 5, 0); +// get end of byte +var shft = function (p) { return ((p + 7) / 8) | 0; }; +// typed array slice - allows garbage collector to free original reference, +// while being more compatible than .slice +var slc = function (v, s, e) { + if (e == null || e > v.length) + e = v.length; + // can't use .constructor in case user-supplied + return new u8(v.subarray(s, e)); +}; +// error codes +var ec = [ + 'unexpected EOF', + 'invalid block type', + 'invalid length/literal', + 'invalid distance', + 'stream finished', + 'no stream handler', + , + 'no callback', + 'invalid UTF-8 data', + 'extra field too long', + 'date not in range 1980-2099', + 'filename too long', + 'stream finishing', + 'invalid zip data' + // determined by unknown compression method +]; +var err = function (ind, msg, nt) { + var e = new Error(msg || ec[ind]); + e.code = ind; + if (Error.captureStackTrace) + Error.captureStackTrace(e, err); + if (!nt) + throw e; + return e; +}; +// starting at p, write the minimum number of bits that can hold v to d +var wbits = function (d, p, v) { + v <<= p & 7; + var o = (p / 8) | 0; + d[o] |= v; + d[o + 1] |= v >> 8; +}; +// starting at p, write the minimum number of bits (>8) that can hold v to d +var wbits16 = function (d, p, v) { + v <<= p & 7; + var o = (p / 8) | 0; + d[o] |= v; + d[o + 1] |= v >> 8; + d[o + 2] |= v >> 16; +}; +// creates code lengths from a frequency table +var hTree = function (d, mb) { + // Need extra info to make a tree + var t = []; + for (var i = 0; i < d.length; ++i) { + if (d[i]) + t.push({ s: i, f: d[i] }); + } + var s = t.length; + var t2 = t.slice(); + if (!s) + return { t: et, l: 0 }; + if (s == 1) { + var v = new u8(t[0].s + 1); + v[t[0].s] = 1; + return { t: v, l: 1 }; + } + t.sort(function (a, b) { return a.f - b.f; }); + // after i2 reaches last ind, will be stopped + // freq must be greater than largest possible number of symbols + t.push({ s: -1, f: 25001 }); + var l = t[0], r = t[1], i0 = 0, i1 = 1, i2 = 2; + t[0] = { s: -1, f: l.f + r.f, l: l, r: r }; + // efficient algorithm from UZIP.js + // i0 is lookbehind, i2 is lookahead - after processing two low-freq + // symbols that combined have high freq, will start processing i2 (high-freq, + // non-composite) symbols instead + // see https://reddit.com/r/photopea/comments/ikekht/uzipjs_questions/ + while (i1 != s - 1) { + l = t[t[i0].f < t[i2].f ? i0++ : i2++]; + r = t[i0 != i1 && t[i0].f < t[i2].f ? i0++ : i2++]; + t[i1++] = { s: -1, f: l.f + r.f, l: l, r: r }; + } + var maxSym = t2[0].s; + for (var i = 1; i < s; ++i) { + if (t2[i].s > maxSym) + maxSym = t2[i].s; + } + // code lengths + var tr = new u16(maxSym + 1); + // max bits in tree + var mbt = ln(t[i1 - 1], tr, 0); + if (mbt > mb) { + // more algorithms from UZIP.js + // TODO: find out how this code works (debt) + // ind debt + var i = 0, dt = 0; + // left cost + var lft = mbt - mb, cst = 1 << lft; + t2.sort(function (a, b) { return tr[b.s] - tr[a.s] || a.f - b.f; }); + for (; i < s; ++i) { + var i2_1 = t2[i].s; + if (tr[i2_1] > mb) { + dt += cst - (1 << (mbt - tr[i2_1])); + tr[i2_1] = mb; + } + else + break; + } + dt >>= lft; + while (dt > 0) { + var i2_2 = t2[i].s; + if (tr[i2_2] < mb) + dt -= 1 << (mb - tr[i2_2]++ - 1); + else + ++i; + } + for (; i >= 0 && dt; --i) { + var i2_3 = t2[i].s; + if (tr[i2_3] == mb) { + --tr[i2_3]; + ++dt; + } + } + mbt = mb; + } + return { t: new u8(tr), l: mbt }; +}; +// get the max length and assign length codes +var ln = function (n, l, d) { + return n.s == -1 + ? Math.max(ln(n.l, l, d + 1), ln(n.r, l, d + 1)) + : (l[n.s] = d); +}; +// length codes generation +var lc = function (c) { + var s = c.length; + // Note that the semicolon was intentional + while (s && !c[--s]) + ; + var cl = new u16(++s); + // ind num streak + var cli = 0, cln = c[0], cls = 1; + var w = function (v) { cl[cli++] = v; }; + for (var i = 1; i <= s; ++i) { + if (c[i] == cln && i != s) + ++cls; + else { + if (!cln && cls > 2) { + for (; cls > 138; cls -= 138) + w(32754); + if (cls > 2) { + w(cls > 10 ? ((cls - 11) << 5) | 28690 : ((cls - 3) << 5) | 12305); + cls = 0; + } + } + else if (cls > 3) { + w(cln), --cls; + for (; cls > 6; cls -= 6) + w(8304); + if (cls > 2) + w(((cls - 3) << 5) | 8208), cls = 0; + } + while (cls--) + w(cln); + cls = 1; + cln = c[i]; + } + } + return { c: cl.subarray(0, cli), n: s }; +}; +// calculate the length of output from tree, code lengths +var clen = function (cf, cl) { + var l = 0; + for (var i = 0; i < cl.length; ++i) + l += cf[i] * cl[i]; + return l; +}; +// writes a fixed block +// returns the new bit pos +var wfblk = function (out, pos, dat) { + // no need to write 00 as type: TypedArray defaults to 0 + var s = dat.length; + var o = shft(pos + 2); + out[o] = s & 255; + out[o + 1] = s >> 8; + out[o + 2] = out[o] ^ 255; + out[o + 3] = out[o + 1] ^ 255; + for (var i = 0; i < s; ++i) + out[o + i + 4] = dat[i]; + return (o + 4 + s) * 8; +}; +// writes a block +var wblk = function (dat, out, final, syms, lf, df, eb, li, bs, bl, p) { + wbits(out, p++, final); + ++lf[256]; + var _a = hTree(lf, 15), dlt = _a.t, mlb = _a.l; + var _b = hTree(df, 15), ddt = _b.t, mdb = _b.l; + var _c = lc(dlt), lclt = _c.c, nlc = _c.n; + var _d = lc(ddt), lcdt = _d.c, ndc = _d.n; + var lcfreq = new u16(19); + for (var i = 0; i < lclt.length; ++i) + ++lcfreq[lclt[i] & 31]; + for (var i = 0; i < lcdt.length; ++i) + ++lcfreq[lcdt[i] & 31]; + var _e = hTree(lcfreq, 7), lct = _e.t, mlcb = _e.l; + var nlcc = 19; + for (; nlcc > 4 && !lct[clim[nlcc - 1]]; --nlcc) + ; + var flen = (bl + 5) << 3; + var ftlen = clen(lf, flt) + clen(df, fdt) + eb; + var dtlen = clen(lf, dlt) + clen(df, ddt) + eb + 14 + 3 * nlcc + clen(lcfreq, lct) + 2 * lcfreq[16] + 3 * lcfreq[17] + 7 * lcfreq[18]; + if (bs >= 0 && flen <= ftlen && flen <= dtlen) + return wfblk(out, p, dat.subarray(bs, bs + bl)); + var lm, ll, dm, dl; + wbits(out, p, 1 + (dtlen < ftlen)), p += 2; + if (dtlen < ftlen) { + lm = hMap(dlt, mlb, 0), ll = dlt, dm = hMap(ddt, mdb, 0), dl = ddt; + var llm = hMap(lct, mlcb, 0); + wbits(out, p, nlc - 257); + wbits(out, p + 5, ndc - 1); + wbits(out, p + 10, nlcc - 4); + p += 14; + for (var i = 0; i < nlcc; ++i) + wbits(out, p + 3 * i, lct[clim[i]]); + p += 3 * nlcc; + var lcts = [lclt, lcdt]; + for (var it = 0; it < 2; ++it) { + var clct = lcts[it]; + for (var i = 0; i < clct.length; ++i) { + var len = clct[i] & 31; + wbits(out, p, llm[len]), p += lct[len]; + if (len > 15) + wbits(out, p, (clct[i] >> 5) & 127), p += clct[i] >> 12; + } + } + } + else { + lm = flm, ll = flt, dm = fdm, dl = fdt; + } + for (var i = 0; i < li; ++i) { + var sym = syms[i]; + if (sym > 255) { + var len = (sym >> 18) & 31; + wbits16(out, p, lm[len + 257]), p += ll[len + 257]; + if (len > 7) + wbits(out, p, (sym >> 23) & 31), p += fleb[len]; + var dst = sym & 31; + wbits16(out, p, dm[dst]), p += dl[dst]; + if (dst > 3) + wbits16(out, p, (sym >> 5) & 8191), p += fdeb[dst]; + } + else { + wbits16(out, p, lm[sym]), p += ll[sym]; + } + } + wbits16(out, p, lm[256]); + return p + ll[256]; +}; +// deflate options (nice << 13) | chain +var deo = /*#__PURE__*/ new i32([65540, 131080, 131088, 131104, 262176, 1048704, 1048832, 2114560, 2117632]); +// empty +var et = /*#__PURE__*/ new u8(0); +// compresses data into a raw DEFLATE buffer +var dflt = function (dat, lvl, plvl, pre, post, st) { + var s = st.z || dat.length; + var o = new u8(pre + s + 5 * (1 + Math.ceil(s / 7000)) + post); + // writing to this writes to the output buffer + var w = o.subarray(pre, o.length - post); + var lst = st.l; + var pos = (st.r || 0) & 7; + if (lvl) { + if (pos) + w[0] = st.r >> 3; + var opt = deo[lvl - 1]; + var n = opt >> 13, c = opt & 8191; + var msk_1 = (1 << plvl) - 1; + // prev 2-byte val map curr 2-byte val map + var prev = st.p || new u16(32768), head = st.h || new u16(msk_1 + 1); + var bs1_1 = Math.ceil(plvl / 3), bs2_1 = 2 * bs1_1; + var hsh = function (i) { return (dat[i] ^ (dat[i + 1] << bs1_1) ^ (dat[i + 2] << bs2_1)) & msk_1; }; + // 24576 is an arbitrary number of maximum symbols per block + // 424 buffer for last block + var syms = new i32(25000); + // length/literal freq distance freq + var lf = new u16(288), df = new u16(32); + // l/lcnt exbits index l/lind waitdx blkpos + var lc_1 = 0, eb = 0, i = st.i || 0, li = 0, wi = st.w || 0, bs = 0; + for (; i + 2 < s; ++i) { + // hash value + var hv = hsh(i); + // index mod 32768 previous index mod + var imod = i & 32767, pimod = head[hv]; + prev[imod] = pimod; + head[hv] = imod; + // We always should modify head and prev, but only add symbols if + // this data is not yet processed ("wait" for wait index) + if (wi <= i) { + // bytes remaining + var rem = s - i; + if ((lc_1 > 7000 || li > 24576) && (rem > 423 || !lst)) { + pos = wblk(dat, w, 0, syms, lf, df, eb, li, bs, i - bs, pos); + li = lc_1 = eb = 0, bs = i; + for (var j = 0; j < 286; ++j) + lf[j] = 0; + for (var j = 0; j < 30; ++j) + df[j] = 0; + } + // len dist chain + var l = 2, d = 0, ch_1 = c, dif = imod - pimod & 32767; + if (rem > 2 && hv == hsh(i - dif)) { + var maxn = Math.min(n, rem) - 1; + var maxd = Math.min(32767, i); + // max possible length + // not capped at dif because decompressors implement "rolling" index population + var ml = Math.min(258, rem); + while (dif <= maxd && --ch_1 && imod != pimod) { + if (dat[i + l] == dat[i + l - dif]) { + var nl = 0; + for (; nl < ml && dat[i + nl] == dat[i + nl - dif]; ++nl) + ; + if (nl > l) { + l = nl, d = dif; + // break out early when we reach "nice" (we are satisfied enough) + if (nl > maxn) + break; + // now, find the rarest 2-byte sequence within this + // length of literals and search for that instead. + // Much faster than just using the start + var mmd = Math.min(dif, nl - 2); + var md = 0; + for (var j = 0; j < mmd; ++j) { + var ti = i - dif + j & 32767; + var pti = prev[ti]; + var cd = ti - pti & 32767; + if (cd > md) + md = cd, pimod = ti; + } + } + } + // check the previous match + imod = pimod, pimod = prev[imod]; + dif += imod - pimod & 32767; + } + } + // d will be nonzero only when a match was found + if (d) { + // store both dist and len data in one int32 + // Make sure this is recognized as a len/dist with 28th bit (2^28) + syms[li++] = 268435456 | (revfl[l] << 18) | revfd[d]; + var lin = revfl[l] & 31, din = revfd[d] & 31; + eb += fleb[lin] + fdeb[din]; + ++lf[257 + lin]; + ++df[din]; + wi = i + l; + ++lc_1; + } + else { + syms[li++] = dat[i]; + ++lf[dat[i]]; + } + } + } + for (i = Math.max(i, wi); i < s; ++i) { + syms[li++] = dat[i]; + ++lf[dat[i]]; + } + pos = wblk(dat, w, lst, syms, lf, df, eb, li, bs, i - bs, pos); + if (!lst) { + st.r = (pos & 7) | w[(pos / 8) | 0] << 3; + // shft(pos) now 1 less if pos & 7 != 0 + pos -= 7; + st.h = head, st.p = prev, st.i = i, st.w = wi; + } + } + else { + for (var i = st.w || 0; i < s + lst; i += 65535) { + // end + var e = i + 65535; + if (e >= s) { + // write final block + w[(pos / 8) | 0] = lst; + e = s; + } + pos = wfblk(w, pos + 1, dat.subarray(i, e)); + } + st.i = s; + } + return slc(o, 0, pre + shft(pos) + post); +}; +// CRC32 table +var crct = /*#__PURE__*/ (function () { + var t = new Int32Array(256); + for (var i = 0; i < 256; ++i) { + var c = i, k = 9; + while (--k) + c = ((c & 1) && -306674912) ^ (c >>> 1); + t[i] = c; + } + return t; +})(); +// CRC32 +var crc = function () { + var c = -1; + return { + p: function (d) { + // closures have awful performance + var cr = c; + for (var i = 0; i < d.length; ++i) + cr = crct[(cr & 255) ^ d[i]] ^ (cr >>> 8); + c = cr; + }, + d: function () { return ~c; } + }; +}; +// deflate with opts +var dopt = function (dat, opt, pre, post, st) { + if (!st) { + st = { l: 1 }; + if (opt.dictionary) { + var dict = opt.dictionary.subarray(-32768); + var newDat = new u8(dict.length + dat.length); + newDat.set(dict); + newDat.set(dat, dict.length); + dat = newDat; + st.w = dict.length; + } + } + return dflt(dat, opt.level == null ? 6 : opt.level, opt.mem == null ? (st.l ? Math.ceil(Math.max(8, Math.min(13, Math.log(dat.length))) * 1.5) : 20) : (12 + opt.mem), pre, post, st); +}; +// Walmart object spread +var mrg = function (a, b) { + var o = {}; + for (var k in a) + o[k] = a[k]; + for (var k in b) + o[k] = b[k]; + return o; +}; +// write bytes +var wbytes = function (d, b, v) { + for (; v; ++b) + d[b] = v, v >>>= 8; +}; +/** + * Compresses data with DEFLATE without any wrapper + * @param data The data to compress + * @param opts The compression options + * @returns The deflated version of the data + */ +function deflateSync(data, opts) { + return dopt(data, opts || {}, 0, 0); +} +// flatten a directory structure +var fltn = function (d, p, t, o) { + for (var k in d) { + var val = d[k], n = p + k, op = o; + if (Array.isArray(val)) + op = mrg(o, val[1]), val = val[0]; + if (val instanceof u8) + t[n] = [val, op]; + else { + t[n += '/'] = [new u8(0), op]; + fltn(val, n, t, o); + } + } +}; +// text encoder +var te = typeof TextEncoder != 'undefined' && /*#__PURE__*/ new TextEncoder(); +// text decoder +var td = typeof TextDecoder != 'undefined' && /*#__PURE__*/ new TextDecoder(); +// text decoder stream +var tds = 0; +try { + td.decode(et, { stream: true }); + tds = 1; +} +catch (e) { } +/** + * Converts a string into a Uint8Array for use with compression/decompression methods + * @param str The string to encode + * @param latin1 Whether or not to interpret the data as Latin-1. This should + * not need to be true unless decoding a binary string. + * @returns The string encoded in UTF-8/Latin-1 binary + */ +function strToU8(str, latin1) { + var i; + if (te) + return te.encode(str); + var l = str.length; + var ar = new u8(str.length + (str.length >> 1)); + var ai = 0; + var w = function (v) { ar[ai++] = v; }; + for (var i = 0; i < l; ++i) { + if (ai + 5 > ar.length) { + var n = new u8(ai + 8 + ((l - i) << 1)); + n.set(ar); + ar = n; + } + var c = str.charCodeAt(i); + if (c < 128 || latin1) + w(c); + else if (c < 2048) + w(192 | (c >> 6)), w(128 | (c & 63)); + else if (c > 55295 && c < 57344) + c = 65536 + (c & 1023 << 10) | (str.charCodeAt(++i) & 1023), + w(240 | (c >> 18)), w(128 | ((c >> 12) & 63)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63)); + else + w(224 | (c >> 12)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63)); + } + return slc(ar, 0, ai); +} +// extra field length +var exfl = function (ex) { + var le = 0; + if (ex) { + for (var k in ex) { + var l = ex[k].length; + if (l > 65535) + err(9); + le += l + 4; + } + } + return le; +}; +// write zip header +var wzh = function (d, b, f, fn, u, c, ce, co) { + var fl = fn.length, ex = f.extra, col = co && co.length; + var exl = exfl(ex); + wbytes(d, b, ce != null ? 0x2014B50 : 0x4034B50), b += 4; + if (ce != null) + d[b++] = 20, d[b++] = f.os; + d[b] = 20, b += 2; // spec compliance? what's that? + d[b++] = (f.flag << 1) | (c < 0 && 8), d[b++] = u && 8; + d[b++] = f.compression & 255, d[b++] = f.compression >> 8; + var dt = new Date(f.mtime == null ? Date.now() : f.mtime), y = dt.getFullYear() - 1980; + if (y < 0 || y > 119) + err(10); + wbytes(d, b, (y << 25) | ((dt.getMonth() + 1) << 21) | (dt.getDate() << 16) | (dt.getHours() << 11) | (dt.getMinutes() << 5) | (dt.getSeconds() >> 1)), b += 4; + if (c != -1) { + wbytes(d, b, f.crc); + wbytes(d, b + 4, c < 0 ? -c - 2 : c); + wbytes(d, b + 8, f.size); + } + wbytes(d, b + 12, fl); + wbytes(d, b + 14, exl), b += 16; + if (ce != null) { + wbytes(d, b, col); + wbytes(d, b + 6, f.attrs); + wbytes(d, b + 10, ce), b += 14; + } + d.set(fn, b); + b += fl; + if (exl) { + for (var k in ex) { + var exf = ex[k], l = exf.length; + wbytes(d, b, +k); + wbytes(d, b + 2, l); + d.set(exf, b + 4), b += 4 + l; + } + } + if (col) + d.set(co, b), b += col; + return b; +}; +// write zip footer (end of central directory) +var wzf = function (o, b, c, d, e) { + wbytes(o, b, 0x6054B50); // skip disk + wbytes(o, b + 8, c); + wbytes(o, b + 10, c); + wbytes(o, b + 12, d); + wbytes(o, b + 16, e); +}; +/** + * Synchronously creates a ZIP file. Prefer using `zip` for better performance + * with more than one file. + * @param data The directory structure for the ZIP archive + * @param opts The main options, merged with per-file options + * @returns The generated ZIP archive + */ +function zipSync(data, opts) { + if (!opts) + opts = {}; + var r = {}; + var files = []; + fltn(data, '', r, opts); + var o = 0; + var tot = 0; + for (var fn in r) { + var _a = r[fn], file = _a[0], p = _a[1]; + var compression = p.level == 0 ? 0 : 8; + var f = strToU8(fn), s = f.length; + var com = p.comment, m = com && strToU8(com), ms = m && m.length; + var exl = exfl(p.extra); + if (s > 65535) + err(11); + var d = compression ? deflateSync(file, p) : file, l = d.length; + var c = crc(); + c.p(file); + files.push(mrg(p, { + size: file.length, + crc: c.d(), + c: d, + f: f, + m: m, + u: s != fn.length || (m && (com.length != ms)), + o: o, + compression: compression + })); + o += 30 + s + exl + l; + tot += 76 + 2 * (s + exl) + (ms || 0) + l; + } + var out = new u8(tot + 22), oe = o, cdl = tot - o; + for (var i = 0; i < files.length; ++i) { + var f = files[i]; + wzh(out, f.o, f, f.f, f.u, f.c.length); + var badd = 30 + f.f.length + exfl(f.extra); + out.set(f.c, f.o + badd); + wzh(out, o, f, f.f, f.u, f.c.length, f.o, f.m), o += 16 + badd + (f.m ? f.m.length : 0); + } + wzf(out, o, files.length, cdl, oe); + return out; +} + +class USDZExporter { + + constructor() { + + this.textureUtils = null; + + } + + setTextureUtils( utils ) { + + this.textureUtils = utils; + + } + + parse( scene, onDone, onError, options ) { + + this.parseAsync( scene, options ).then( onDone ).catch( onError ); + + } + + async parseAsync( scene, options = {} ) { + + options = Object.assign( { + ar: { + anchoring: { type: 'plane' }, + planeAnchoring: { alignment: 'horizontal' } + }, + includeAnchoringProperties: true, + quickLookCompatible: false, + maxTextureSize: 1024, + }, options ); + + const files = {}; + const modelFileName = 'model.usda'; + + // model file should be first in USDZ archive so we init it here + files[ modelFileName ] = null; + + let output = buildHeader(); + + output += buildSceneStart( options ); + + const materials = {}; + const textures = {}; + + scene.traverseVisible( ( object ) => { + + if ( object.isMesh ) { + + const geometry = object.geometry; + const material = object.material; + + if ( material.isMeshStandardMaterial ) { + + const geometryFileName = 'geometries/Geometry_' + geometry.id + '.usda'; + + if ( ! ( geometryFileName in files ) ) { + + const meshObject = buildMeshObject( geometry ); + files[ geometryFileName ] = buildUSDFileAsString( meshObject ); + + } + + if ( ! ( material.uuid in materials ) ) { + + materials[ material.uuid ] = material; + + } + + output += buildXform( object, geometry, material ); + + } else { + + console.warn( 'THREE.USDZExporter: Unsupported material type (USDZ only supports MeshStandardMaterial)', object ); + + } + + } else if ( object.isCamera ) { + + output += buildCamera( object ); + + } + + } ); + + + output += buildSceneEnd(); + + output += buildMaterials( materials, textures, options.quickLookCompatible ); + + files[ modelFileName ] = strToU8( output ); + output = null; + + for ( const id in textures ) { + + let texture = textures[ id ]; + + if ( texture.isCompressedTexture === true ) { + + if ( this.textureUtils === null ) { + + throw new Error( 'THREE.USDZExporter: setTextureUtils() must be called to process compressed textures.' ); + + } else { + + texture = await this.textureUtils.decompress( texture ); + + } + + } + + const canvas = imageToCanvas( texture.image, texture.flipY, options.maxTextureSize ); + const blob = await new Promise( resolve => canvas.toBlob( resolve, 'image/png', 1 ) ); + + files[ `textures/Texture_${ id }.png` ] = new Uint8Array( await blob.arrayBuffer() ); + + } + + // 64 byte alignment + // https://github.com/101arrowz/fflate/issues/39#issuecomment-777263109 + + let offset = 0; + + for ( const filename in files ) { + + const file = files[ filename ]; + const headerSize = 34 + filename.length; + + offset += headerSize; + + const offsetMod64 = offset & 63; + + if ( offsetMod64 !== 4 ) { + + const padLength = 64 - offsetMod64; + const padding = new Uint8Array( padLength ); + + files[ filename ] = [ file, { extra: { 12345: padding } } ]; + + } + + offset = file.length; + + } + + return zipSync( files, { level: 0 } ); + + } + +} + +function imageToCanvas( image, flipY, maxTextureSize ) { + + if ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) || + ( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) || + ( typeof OffscreenCanvas !== 'undefined' && image instanceof OffscreenCanvas ) || + ( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) { + + const scale = maxTextureSize / Math.max( image.width, image.height ); + + const canvas = document.createElement( 'canvas' ); + canvas.width = image.width * Math.min( 1, scale ); + canvas.height = image.height * Math.min( 1, scale ); + + const context = canvas.getContext( '2d' ); + + // TODO: We should be able to do this in the UsdTransform2d? + + if ( flipY === true ) { + + context.translate( 0, canvas.height ); + context.scale( 1, -1 ); + + } + + context.drawImage( image, 0, 0, canvas.width, canvas.height ); + + return canvas; + + } else { + + throw new Error( 'THREE.USDZExporter: No valid image data found. Unable to process texture.' ); + + } + +} + +// + +const PRECISION = 7; + +function buildHeader() { + + return `#usda 1.0 +( + customLayerData = { + string creator = "Three.js USDZExporter" + } + defaultPrim = "Root" + metersPerUnit = 1 + upAxis = "Y" +) + +`; + +} + +function buildSceneStart( options ) { + + const alignment = options.includeAnchoringProperties === true ? ` + token preliminary:anchoring:type = "${options.ar.anchoring.type}" + token preliminary:planeAnchoring:alignment = "${options.ar.planeAnchoring.alignment}" + ` : ''; + return `def Xform "Root" +{ + def Scope "Scenes" ( + kind = "sceneLibrary" + ) + { + def Xform "Scene" ( + customData = { + bool preliminary_collidesWithEnvironment = 0 + string sceneName = "Scene" + } + sceneName = "Scene" + ) + {${alignment} +`; + +} + +function buildSceneEnd() { + + return ` + } + } +} + +`; + +} + +function buildUSDFileAsString( dataToInsert ) { + + let output = buildHeader(); + output += dataToInsert; + return strToU8( output ); + +} + +// Xform + +function buildXform( object, geometry, material ) { + + const name = 'Object_' + object.id; + const transform = buildMatrix( object.matrixWorld ); + + if ( object.matrixWorld.determinant() < 0 ) { + + console.warn( 'THREE.USDZExporter: USDZ does not support negative scales', object ); + + } + + return `def Xform "${ name }" ( + prepend references = @./geometries/Geometry_${ geometry.id }.usda@ + prepend apiSchemas = ["MaterialBindingAPI"] +) +{ + matrix4d xformOp:transform = ${ transform } + uniform token[] xformOpOrder = ["xformOp:transform"] + + rel material:binding = +} + +`; + +} + +function buildMatrix( matrix ) { + + const array = matrix.elements; + + return `( ${ buildMatrixRow( array, 0 ) }, ${ buildMatrixRow( array, 4 ) }, ${ buildMatrixRow( array, 8 ) }, ${ buildMatrixRow( array, 12 ) } )`; + +} + +function buildMatrixRow( array, offset ) { + + return `(${ array[ offset + 0 ] }, ${ array[ offset + 1 ] }, ${ array[ offset + 2 ] }, ${ array[ offset + 3 ] })`; + +} + +// Mesh + +function buildMeshObject( geometry ) { + + const mesh = buildMesh( geometry ); + return ` +def "Geometry" +{ +${mesh} +} +`; + +} + +function buildMesh( geometry ) { + + const name = 'Geometry'; + const attributes = geometry.attributes; + const count = attributes.position.count; + + return ` + def Mesh "${ name }" + { + int[] faceVertexCounts = [${ buildMeshVertexCount( geometry ) }] + int[] faceVertexIndices = [${ buildMeshVertexIndices( geometry ) }] + normal3f[] normals = [${ buildVector3Array( attributes.normal, count )}] ( + interpolation = "vertex" + ) + point3f[] points = [${ buildVector3Array( attributes.position, count )}] +${ buildPrimvars( attributes ) } + uniform token subdivisionScheme = "none" + } +`; + +} + +function buildMeshVertexCount( geometry ) { + + const count = geometry.index !== null ? geometry.index.count : geometry.attributes.position.count; + + return Array( count / 3 ).fill( 3 ).join( ', ' ); + +} + +function buildMeshVertexIndices( geometry ) { + + const index = geometry.index; + const array = []; + + if ( index !== null ) { + + for ( let i = 0; i < index.count; i ++ ) { + + array.push( index.getX( i ) ); + + } + + } else { + + const length = geometry.attributes.position.count; + + for ( let i = 0; i < length; i ++ ) { + + array.push( i ); + + } + + } + + return array.join( ', ' ); + +} + +function buildVector3Array( attribute, count ) { + + if ( attribute === undefined ) { + + console.warn( 'USDZExporter: Normals missing.' ); + return Array( count ).fill( '(0, 0, 0)' ).join( ', ' ); + + } + + const array = []; + + for ( let i = 0; i < attribute.count; i ++ ) { + + const x = attribute.getX( i ); + const y = attribute.getY( i ); + const z = attribute.getZ( i ); + + array.push( `(${ x.toPrecision( PRECISION ) }, ${ y.toPrecision( PRECISION ) }, ${ z.toPrecision( PRECISION ) })` ); + + } + + return array.join( ', ' ); + +} + +function buildVector2Array( attribute ) { + + const array = []; + + for ( let i = 0; i < attribute.count; i ++ ) { + + const x = attribute.getX( i ); + const y = attribute.getY( i ); + + array.push( `(${ x.toPrecision( PRECISION ) }, ${ 1 - y.toPrecision( PRECISION ) })` ); + + } + + return array.join( ', ' ); + +} + +function buildPrimvars( attributes ) { + + let string = ''; + + for ( let i = 0; i < 4; i ++ ) { + + const id = ( i > 0 ? i : '' ); + const attribute = attributes[ 'uv' + id ]; + + if ( attribute !== undefined ) { + + string += ` + texCoord2f[] primvars:st${ id } = [${ buildVector2Array( attribute )}] ( + interpolation = "vertex" + )`; + + } + + } + + // vertex colors + + const colorAttribute = attributes.color; + + if ( colorAttribute !== undefined ) { + + const count = colorAttribute.count; + + string += ` + color3f[] primvars:displayColor = [${buildVector3Array( colorAttribute, count )}] ( + interpolation = "vertex" + )`; + + } + + return string; + +} + +// Materials + +function buildMaterials( materials, textures, quickLookCompatible = false ) { + + const array = []; + + for ( const uuid in materials ) { + + const material = materials[ uuid ]; + + array.push( buildMaterial( material, textures, quickLookCompatible ) ); + + } + + return `def "Materials" +{ +${ array.join( '' ) } +} + +`; + +} + +function buildMaterial( material, textures, quickLookCompatible = false ) { + + // https://graphics.pixar.com/usd/docs/UsdPreviewSurface-Proposal.html + + const pad = ' '; + const inputs = []; + const samplers = []; + + function buildTexture( texture, mapType, color ) { + + const id = texture.source.id + '_' + texture.flipY; + + textures[ id ] = texture; + + const uv = texture.channel > 0 ? 'st' + texture.channel : 'st'; + + const WRAPPINGS = { + 1000: 'repeat', // RepeatWrapping + 1001: 'clamp', // ClampToEdgeWrapping + 1002: 'mirror' // MirroredRepeatWrapping + }; + + const repeat = texture.repeat.clone(); + const offset = texture.offset.clone(); + const rotation = texture.rotation; + + // rotation is around the wrong point. after rotation we need to shift offset again so that we're rotating around the right spot + const xRotationOffset = Math.sin( rotation ); + const yRotationOffset = Math.cos( rotation ); + + // texture coordinates start in the opposite corner, need to correct + offset.y = 1 - offset.y - repeat.y; + + // turns out QuickLook is buggy and interprets texture repeat inverted/applies operations in a different order. + // Apple Feedback: FB10036297 and FB11442287 + if ( quickLookCompatible ) { + + // This is NOT correct yet in QuickLook, but comes close for a range of models. + // It becomes more incorrect the bigger the offset is + + offset.x = offset.x / repeat.x; + offset.y = offset.y / repeat.y; + + offset.x += xRotationOffset / repeat.x; + offset.y += yRotationOffset - 1; + + } else { + + // results match glTF results exactly. verified correct in usdview. + offset.x += xRotationOffset * repeat.x; + offset.y += ( 1 - yRotationOffset ) * repeat.y; + + } + + return ` + def Shader "PrimvarReader_${ mapType }" + { + uniform token info:id = "UsdPrimvarReader_float2" + float2 inputs:fallback = (0.0, 0.0) + token inputs:varname = "${ uv }" + float2 outputs:result + } + + def Shader "Transform2d_${ mapType }" + { + uniform token info:id = "UsdTransform2d" + token inputs:in.connect = + float inputs:rotation = ${ ( rotation * ( 180 / Math.PI ) ).toFixed( PRECISION ) } + float2 inputs:scale = ${ buildVector2( repeat ) } + float2 inputs:translation = ${ buildVector2( offset ) } + float2 outputs:result + } + + def Shader "Texture_${ texture.id }_${ mapType }" + { + uniform token info:id = "UsdUVTexture" + asset inputs:file = @textures/Texture_${ id }.png@ + float2 inputs:st.connect = + ${ color !== undefined ? 'float4 inputs:scale = ' + buildColor4( color ) : '' } + token inputs:sourceColorSpace = "${ texture.colorSpace === NoColorSpace ? 'raw' : 'sRGB' }" + token inputs:wrapS = "${ WRAPPINGS[ texture.wrapS ] }" + token inputs:wrapT = "${ WRAPPINGS[ texture.wrapT ] }" + float outputs:r + float outputs:g + float outputs:b + float3 outputs:rgb + ${ material.transparent || material.alphaTest > 0.0 ? 'float outputs:a' : '' } + }`; + + } + + + if ( material.side === DoubleSide ) { + + console.warn( 'THREE.USDZExporter: USDZ does not support double sided materials', material ); + + } + + if ( material.map !== null ) { + + inputs.push( `${ pad }color3f inputs:diffuseColor.connect = ` ); + + if ( material.transparent ) { + + inputs.push( `${ pad }float inputs:opacity.connect = ` ); + + } else if ( material.alphaTest > 0.0 ) { + + inputs.push( `${ pad }float inputs:opacity.connect = ` ); + inputs.push( `${ pad }float inputs:opacityThreshold = ${material.alphaTest}` ); + + } + + samplers.push( buildTexture( material.map, 'diffuse', material.color ) ); + + } else { + + inputs.push( `${ pad }color3f inputs:diffuseColor = ${ buildColor( material.color ) }` ); + + } + + if ( material.emissiveMap !== null ) { + + inputs.push( `${ pad }color3f inputs:emissiveColor.connect = ` ); + + samplers.push( buildTexture( material.emissiveMap, 'emissive', new Color( material.emissive.r * material.emissiveIntensity, material.emissive.g * material.emissiveIntensity, material.emissive.b * material.emissiveIntensity ) ) ); + + } else if ( material.emissive.getHex() > 0 ) { + + inputs.push( `${ pad }color3f inputs:emissiveColor = ${ buildColor( material.emissive ) }` ); + + } + + if ( material.normalMap !== null ) { + + inputs.push( `${ pad }normal3f inputs:normal.connect = ` ); + + samplers.push( buildTexture( material.normalMap, 'normal' ) ); + + } + + if ( material.aoMap !== null ) { + + inputs.push( `${ pad }float inputs:occlusion.connect = ` ); + + samplers.push( buildTexture( material.aoMap, 'occlusion', new Color( material.aoMapIntensity, material.aoMapIntensity, material.aoMapIntensity ) ) ); + + } + + if ( material.roughnessMap !== null ) { + + inputs.push( `${ pad }float inputs:roughness.connect = ` ); + + samplers.push( buildTexture( material.roughnessMap, 'roughness', new Color( material.roughness, material.roughness, material.roughness ) ) ); + + } else { + + inputs.push( `${ pad }float inputs:roughness = ${ material.roughness }` ); + + } + + if ( material.metalnessMap !== null ) { + + inputs.push( `${ pad }float inputs:metallic.connect = ` ); + + samplers.push( buildTexture( material.metalnessMap, 'metallic', new Color( material.metalness, material.metalness, material.metalness ) ) ); + + } else { + + inputs.push( `${ pad }float inputs:metallic = ${ material.metalness }` ); + + } + + if ( material.alphaMap !== null ) { + + inputs.push( `${pad}float inputs:opacity.connect = ` ); + inputs.push( `${pad}float inputs:opacityThreshold = 0.0001` ); + + samplers.push( buildTexture( material.alphaMap, 'opacity' ) ); + + } else { + + inputs.push( `${pad}float inputs:opacity = ${material.opacity}` ); + + } + + if ( material.isMeshPhysicalMaterial ) { + + if ( material.clearcoatMap !== null ) { + + inputs.push( `${pad}float inputs:clearcoat.connect = ` ); + samplers.push( buildTexture( material.clearcoatMap, 'clearcoat', new Color( material.clearcoat, material.clearcoat, material.clearcoat ) ) ); + + } else { + + inputs.push( `${pad}float inputs:clearcoat = ${material.clearcoat}` ); + + } + + if ( material.clearcoatRoughnessMap !== null ) { + + inputs.push( `${pad}float inputs:clearcoatRoughness.connect = ` ); + samplers.push( buildTexture( material.clearcoatRoughnessMap, 'clearcoatRoughness', new Color( material.clearcoatRoughness, material.clearcoatRoughness, material.clearcoatRoughness ) ) ); + + } else { + + inputs.push( `${pad}float inputs:clearcoatRoughness = ${material.clearcoatRoughness}` ); + + } + + inputs.push( `${ pad }float inputs:ior = ${ material.ior }` ); + + } + + return ` + def Material "Material_${ material.id }" + { + def Shader "PreviewSurface" + { + uniform token info:id = "UsdPreviewSurface" +${ inputs.join( '\n' ) } + int inputs:useSpecularWorkflow = 0 + token outputs:surface + } + + token outputs:surface.connect = + +${ samplers.join( '\n' ) } + + } +`; + +} + +function buildColor( color ) { + + return `(${ color.r }, ${ color.g }, ${ color.b })`; + +} + +function buildColor4( color ) { + + return `(${ color.r }, ${ color.g }, ${ color.b }, 1.0)`; + +} + +function buildVector2( vector ) { + + return `(${ vector.x }, ${ vector.y })`; + +} + + +function buildCamera( camera ) { + + const name = camera.name ? camera.name : 'Camera_' + camera.id; + + const transform = buildMatrix( camera.matrixWorld ); + + if ( camera.matrixWorld.determinant() < 0 ) { + + console.warn( 'THREE.USDZExporter: USDZ does not support negative scales', camera ); + + } + + if ( camera.isOrthographicCamera ) { + + return `def Camera "${name}" + { + matrix4d xformOp:transform = ${ transform } + uniform token[] xformOpOrder = ["xformOp:transform"] + + float2 clippingRange = (${ camera.near.toPrecision( PRECISION ) }, ${ camera.far.toPrecision( PRECISION ) }) + float horizontalAperture = ${ ( ( Math.abs( camera.left ) + Math.abs( camera.right ) ) * 10 ).toPrecision( PRECISION ) } + float verticalAperture = ${ ( ( Math.abs( camera.top ) + Math.abs( camera.bottom ) ) * 10 ).toPrecision( PRECISION ) } + token projection = "orthographic" + } + + `; + + } else { + + return `def Camera "${name}" + { + matrix4d xformOp:transform = ${ transform } + uniform token[] xformOpOrder = ["xformOp:transform"] + + float2 clippingRange = (${ camera.near.toPrecision( PRECISION ) }, ${ camera.far.toPrecision( PRECISION ) }) + float focalLength = ${ camera.getFocalLength().toPrecision( PRECISION ) } + float focusDistance = ${ camera.focus.toPrecision( PRECISION ) } + float horizontalAperture = ${ camera.getFilmWidth().toPrecision( PRECISION ) } + token projection = "perspective" + float verticalAperture = ${ camera.getFilmHeight().toPrecision( PRECISION ) } + } + + `; + + } + +} + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +/** + * For our purposes, an enumeration is a fixed set of CSS-expression-compatible + * names. When serialized, a selected subset of the members may be specified as + * whitespace-separated strings. An enumeration deserializer is a function that + * parses a serialized subset of an enumeration and returns any members that are + * found as a Set. + * + * The following example will produce a deserializer for the days of the + * week: + * + * const deserializeDaysOfTheWeek = enumerationDeserializer([ + * 'Monday', + * 'Tuesday', + * 'Wednesday', + * 'Thursday', + * 'Friday', + * 'Saturday', + * 'Sunday' + * ]); + */ +const enumerationDeserializer = (allowedNames) => (valueString) => { + try { + const expressions = parseExpressions(valueString); + const names = (expressions.length ? expressions[0].terms : []) + .filter((valueNode) => valueNode && valueNode.type === 'ident') + .map(valueNode => valueNode.value) + .filter(name => allowedNames.indexOf(name) > -1); + return new Set(names); + } + catch (_error) { + } + return new Set(); +}; + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var __decorate$2 = (undefined && undefined.__decorate) || function (decorators, target, key, desc) { + var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d; + for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r; + return c > 3 && r && Object.defineProperty(target, key, r), r; +}; +let isWebXRBlocked = false; +let isSceneViewerBlocked = false; +const noArViewerSigil = '#model-viewer-no-ar-fallback'; +const deserializeARModes = enumerationDeserializer(['quick-look', 'scene-viewer', 'webxr', 'none']); +const DEFAULT_AR_MODES = 'webxr scene-viewer quick-look'; +const ARMode = { + QUICK_LOOK: 'quick-look', + SCENE_VIEWER: 'scene-viewer', + WEBXR: 'webxr', + NONE: 'none' +}; +const $arButtonContainer = Symbol('arButtonContainer'); +const $enterARWithWebXR = Symbol('enterARWithWebXR'); +const $openSceneViewer = Symbol('openSceneViewer'); +const $openIOSARQuickLook = Symbol('openIOSARQuickLook'); +const $canActivateAR = Symbol('canActivateAR'); +const $arMode = Symbol('arMode'); +const $arModes = Symbol('arModes'); +const $arAnchor = Symbol('arAnchor'); +const $preload = Symbol('preload'); +const $onARButtonContainerClick = Symbol('onARButtonContainerClick'); +const $onARStatus = Symbol('onARStatus'); +const $onARTracking = Symbol('onARTracking'); +const $onARTap = Symbol('onARTap'); +const $selectARMode = Symbol('selectARMode'); +const $triggerLoad = Symbol('triggerLoad'); +const ARMixin = (ModelViewerElement) => { + var _a, _b, _c, _d, _e, _f, _g, _h, _j, _k; + class ARModelViewerElement extends ModelViewerElement { + constructor() { + super(...arguments); + this.ar = false; + this.arScale = 'auto'; + this.arUsdzMaxTextureSize = 'auto'; + this.arPlacement = 'floor'; + this.arModes = DEFAULT_AR_MODES; + this.iosSrc = null; + this.xrEnvironment = false; + this[_a] = false; + // TODO: Add this to the shadow root as part of this mixin's + // implementation: + this[_b] = this.shadowRoot.querySelector('.ar-button'); + this[_c] = document.createElement('a'); + this[_d] = new Set(); + this[_e] = ARMode.NONE; + this[_f] = false; + this[_g] = (event) => { + event.preventDefault(); + this.activateAR(); + }; + this[_h] = ({ status }) => { + if (status === ARStatus.NOT_PRESENTING || + this[$renderer].arRenderer.presentedScene === this[$scene]) { + this.setAttribute('ar-status', status); + this.dispatchEvent(new CustomEvent('ar-status', { detail: { status } })); + if (status === ARStatus.NOT_PRESENTING) { + this.removeAttribute('ar-tracking'); + } + else if (status === ARStatus.SESSION_STARTED) { + this.setAttribute('ar-tracking', ARTracking.TRACKING); + } + } + }; + this[_j] = ({ status }) => { + this.setAttribute('ar-tracking', status); + this.dispatchEvent(new CustomEvent('ar-tracking', { detail: { status } })); + }; + this[_k] = (event) => { + if (event.data == '_apple_ar_quicklook_button_tapped') { + this.dispatchEvent(new CustomEvent('quick-look-button-tapped')); + } + }; + } + get canActivateAR() { + return this[$arMode] !== ARMode.NONE; + } + connectedCallback() { + super.connectedCallback(); + this[$renderer].arRenderer.addEventListener('status', this[$onARStatus]); + this.setAttribute('ar-status', ARStatus.NOT_PRESENTING); + this[$renderer].arRenderer.addEventListener('tracking', this[$onARTracking]); + this[$arAnchor].addEventListener('message', this[$onARTap]); + } + disconnectedCallback() { + super.disconnectedCallback(); + this[$renderer].arRenderer.removeEventListener('status', this[$onARStatus]); + this[$renderer].arRenderer.removeEventListener('tracking', this[$onARTracking]); + this[$arAnchor].removeEventListener('message', this[$onARTap]); + } + update(changedProperties) { + super.update(changedProperties); + if (changedProperties.has('arScale')) { + this[$scene].canScale = this.arScale !== 'fixed'; + } + if (changedProperties.has('arPlacement')) { + this[$scene].updateShadow(); + this[$needsRender](); + } + if (changedProperties.has('arModes')) { + this[$arModes] = deserializeARModes(this.arModes); + } + if (changedProperties.has('ar') || changedProperties.has('arModes') || + changedProperties.has('src') || changedProperties.has('iosSrc') || + changedProperties.has('arUsdzMaxTextureSize')) { + this[$selectARMode](); + } + } + /** + * Activates AR. Note that for any mode that is not WebXR-based, this + * method most likely has to be called synchronous from a user + * interaction handler. Otherwise, attempts to activate modes that + * require user interaction will most likely be ignored. + */ + async activateAR() { + switch (this[$arMode]) { + case ARMode.QUICK_LOOK: + await this[$openIOSARQuickLook](); + break; + case ARMode.WEBXR: + await this[$enterARWithWebXR](); + break; + case ARMode.SCENE_VIEWER: + this[$openSceneViewer](); + break; + default: + console.warn('No AR Mode can be activated. This is probably due to missing \ +configuration or device capabilities'); + break; + } + } + async [(_a = $canActivateAR, _b = $arButtonContainer, _c = $arAnchor, _d = $arModes, _e = $arMode, _f = $preload, _g = $onARButtonContainerClick, _h = $onARStatus, _j = $onARTracking, _k = $onARTap, $selectARMode)]() { + var _l; + let arMode = ARMode.NONE; + if (this.ar) { + if (this.src != null) { + for (const value of this[$arModes]) { + if (value === 'webxr' && IS_WEBXR_AR_CANDIDATE && !isWebXRBlocked && + await this[$renderer].arRenderer.supportsPresentation()) { + arMode = ARMode.WEBXR; + break; + } + if (value === 'scene-viewer' && !isSceneViewerBlocked && + (IS_SCENEVIEWER_CANDIDATE || + (navigator.userAgentData && + navigator.userAgentData.getHighEntropyValues && + ((_l = (await navigator.userAgentData.getHighEntropyValues([ + 'formFactor' + ])).formFactor) === null || _l === void 0 ? void 0 : _l.includes('XR'))))) { + arMode = ARMode.SCENE_VIEWER; + break; + } + if (value === 'quick-look' && IS_AR_QUICKLOOK_CANDIDATE) { + arMode = ARMode.QUICK_LOOK; + break; + } + } + } + // The presence of ios-src overrides the absence of quick-look + // ar-mode. + if (arMode === ARMode.NONE && this.iosSrc != null && + IS_AR_QUICKLOOK_CANDIDATE) { + arMode = ARMode.QUICK_LOOK; + } + } + if (arMode !== ARMode.NONE) { + this[$arButtonContainer].classList.add('enabled'); + this[$arButtonContainer].addEventListener('click', this[$onARButtonContainerClick]); + } + else if (this[$arButtonContainer].classList.contains('enabled')) { + this[$arButtonContainer].removeEventListener('click', this[$onARButtonContainerClick]); + this[$arButtonContainer].classList.remove('enabled'); + // If AR went from working to not, notify the element. + const status = ARStatus.FAILED; + this.setAttribute('ar-status', status); + this.dispatchEvent(new CustomEvent('ar-status', { detail: { status } })); + } + this[$arMode] = arMode; + } + async [$enterARWithWebXR]() { + console.log('Attempting to present in AR with WebXR...'); + await this[$triggerLoad](); + try { + this[$arButtonContainer].removeEventListener('click', this[$onARButtonContainerClick]); + const { arRenderer } = this[$renderer]; + if (this.arPlacement === 'wall') { + arRenderer.placementMode = 'wall'; + } + else if (this.arPlacement === 'ceiling') { + arRenderer.placementMode = 'ceiling'; + } + else { + arRenderer.placementMode = 'floor'; + } + await arRenderer.present(this[$scene], this.xrEnvironment); + } + catch (error) { + console.warn('Error while trying to present in AR with WebXR'); + console.error(error); + await this[$renderer].arRenderer.stopPresenting(); + isWebXRBlocked = true; + console.warn('Falling back to next ar-mode'); + await this[$selectARMode](); + this.activateAR(); + } + finally { + this[$selectARMode](); + } + } + async [$triggerLoad]() { + if (!this.loaded) { + this[$preload] = true; + this[$updateSource](); + await waitForEvent(this, 'load'); + this[$preload] = false; + } + } + [$shouldAttemptPreload]() { + return super[$shouldAttemptPreload]() || this[$preload]; + } + /** + * Takes a URL and a title string, and attempts to launch Scene Viewer on + * the current device. + */ + [$openSceneViewer]() { + const location = self.location.toString(); + const locationUrl = new URL(location); + const modelUrl = new URL(this.src, location); + if (modelUrl.hash) + modelUrl.hash = ''; + const params = new URLSearchParams(modelUrl.search); + locationUrl.hash = noArViewerSigil; + // modelUrl can contain title/link/sound etc. + params.set('mode', 'ar_preferred'); + if (!params.has('disable_occlusion')) { + params.set('disable_occlusion', 'true'); + } + if (this.arScale === 'fixed') { + params.set('resizable', 'false'); + } + if (this.arPlacement === 'wall') { + params.set('enable_vertical_placement', 'true'); + } + if (params.has('sound')) { + const soundUrl = new URL(params.get('sound'), location); + params.set('sound', soundUrl.toString()); + } + if (params.has('link')) { + const linkUrl = new URL(params.get('link'), location); + params.set('link', linkUrl.toString()); + } + const intent = `intent://arvr.google.com/scene-viewer/1.2?${params.toString() + '&file=' + + encodeURIComponent(modelUrl + .toString())}#Intent;scheme=https;package=com.google.android.googlequicksearchbox;action=android.intent.action.VIEW;S.browser_fallback_url=${encodeURIComponent(locationUrl.toString())};end;`; + const undoHashChange = () => { + if (self.location.hash === noArViewerSigil) { + isSceneViewerBlocked = true; + // The new history will be the current URL with a new hash. + // Go back one step so that we reset to the expected URL. + // NOTE(cdata): this should not invoke any browser-level navigation + // because hash-only changes modify the URL in-place without + // navigating: + self.history.back(); + console.warn('Error while trying to present in AR with Scene Viewer'); + console.warn('Falling back to next ar-mode'); + this[$selectARMode](); + // Would be nice to activateAR() here, but webXR fails due to not + // seeing a user activation. + } + }; + self.addEventListener('hashchange', undoHashChange, { once: true }); + this[$arAnchor].setAttribute('href', intent); + console.log('Attempting to present in AR with Scene Viewer...'); + this[$arAnchor].click(); + } + /** + * Takes a URL to a USDZ file and sets the appropriate fields so that + * Safari iOS can intent to their AR Quick Look. + */ + async [$openIOSARQuickLook]() { + const generateUsdz = !this.iosSrc; + this[$arButtonContainer].classList.remove('enabled'); + const objectURL = generateUsdz ? await this.prepareUSDZ() : this.iosSrc; + const modelUrl = new URL(objectURL, self.location.toString()); + if (generateUsdz) { + const location = self.location.toString(); + const locationUrl = new URL(location); + const srcUrl = new URL(this.src, locationUrl); + if (srcUrl.hash) { + modelUrl.hash = srcUrl.hash; + } + } + if (this.arScale === 'fixed') { + if (modelUrl.hash) { + modelUrl.hash += '&'; + } + modelUrl.hash += 'allowsContentScaling=0'; + } + const anchor = this[$arAnchor]; + anchor.setAttribute('rel', 'ar'); + const img = document.createElement('img'); + anchor.appendChild(img); + anchor.setAttribute('href', modelUrl.toString()); + if (generateUsdz) { + anchor.setAttribute('download', 'model.usdz'); + } + // attach anchor to shadow DOM to ensure iOS16 ARQL banner click message + // event propagation + anchor.style.display = 'none'; + if (!anchor.isConnected) + this.shadowRoot.appendChild(anchor); + console.log('Attempting to present in AR with Quick Look...'); + anchor.click(); + anchor.removeChild(img); + if (generateUsdz) { + URL.revokeObjectURL(objectURL); + } + this[$arButtonContainer].classList.add('enabled'); + } + async prepareUSDZ() { + const updateSourceProgress = this[$progressTracker].beginActivity('usdz-conversion'); + await this[$triggerLoad](); + const { model, shadow, target } = this[$scene]; + if (model == null) { + return ''; + } + let visible = false; + // Remove shadow from export + if (shadow != null) { + visible = shadow.visible; + shadow.visible = false; + } + updateSourceProgress(0.2); + const exporter = new USDZExporter(); + target.remove(model); + model.position.copy(target.position); + model.updateWorldMatrix(false, true); + const arraybuffer = await exporter.parseAsync(model, { + maxTextureSize: isNaN(this.arUsdzMaxTextureSize) ? + Infinity : + Math.max(parseInt(this.arUsdzMaxTextureSize), 16), + }); + model.position.set(0, 0, 0); + target.add(model); + const blob = new Blob([arraybuffer], { + type: 'model/vnd.usdz+zip', + }); + const url = URL.createObjectURL(blob); + updateSourceProgress(1); + if (shadow != null) { + shadow.visible = visible; + } + return url; + } + } + __decorate$2([ + property({ type: Boolean, attribute: 'ar' }) + ], ARModelViewerElement.prototype, "ar", void 0); + __decorate$2([ + property({ type: String, attribute: 'ar-scale' }) + ], ARModelViewerElement.prototype, "arScale", void 0); + __decorate$2([ + property({ type: String, attribute: 'ar-usdz-max-texture-size' }) + ], ARModelViewerElement.prototype, "arUsdzMaxTextureSize", void 0); + __decorate$2([ + property({ type: String, attribute: 'ar-placement' }) + ], ARModelViewerElement.prototype, "arPlacement", void 0); + __decorate$2([ + property({ type: String, attribute: 'ar-modes' }) + ], ARModelViewerElement.prototype, "arModes", void 0); + __decorate$2([ + property({ type: String, attribute: 'ios-src' }) + ], ARModelViewerElement.prototype, "iosSrc", void 0); + __decorate$2([ + property({ type: Boolean, attribute: 'xr-environment' }) + ], ARModelViewerElement.prototype, "xrEnvironment", void 0); + return ARModelViewerElement; +}; + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var __decorate$1 = (undefined && undefined.__decorate) || function (decorators, target, key, desc) { + var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d; + for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r; + return c > 3 && r && Object.defineProperty(target, key, r), r; +}; +const PROGRESS_BAR_UPDATE_THRESHOLD = 100; +const DEFAULT_DRACO_DECODER_LOCATION = 'https://www.gstatic.com/draco/versioned/decoders/1.5.6/'; +const DEFAULT_KTX2_TRANSCODER_LOCATION = 'https://www.gstatic.com/basis-universal/versioned/2021-04-15-ba1c3e4/'; +const DEFAULT_LOTTIE_LOADER_LOCATION = 'https://cdn.jsdelivr.net/npm/three@0.149.0/examples/jsm/loaders/LottieLoader.js'; +const RevealStrategy = { + AUTO: 'auto'}; +const LoadingStrategy = { + AUTO: 'auto', + EAGER: 'eager' +}; +const $defaultProgressBarElement = Symbol('defaultProgressBarElement'); +const $posterContainerElement = Symbol('posterContainerElement'); +const $defaultPosterElement = Symbol('defaultPosterElement'); +const $shouldDismissPoster = Symbol('shouldDismissPoster'); +const $hidePoster = Symbol('hidePoster'); +const $modelIsRevealed = Symbol('modelIsRevealed'); +const $updateProgressBar = Symbol('updateProgressBar'); +const $ariaLabelCallToAction = Symbol('ariaLabelCallToAction'); +const $onProgress = Symbol('onProgress'); +/** + * LoadingMixin implements features related to lazy loading, as well as + * presentation details related to the pre-load / pre-render presentation of a + * + * + * This mixin implements support for models with DRACO-compressed meshes. + * The DRACO decoder will be loaded on-demand if a glTF that uses the DRACO mesh + * compression extension is encountered. + * + * By default, the DRACO decoder will be loaded from a Google CDN. It is + * possible to customize where the decoder is loaded from by defining a global + * configuration option for `` like so: + * + * ```html + * + * ``` + * + * Note that the above configuration strategy must be performed *before* the + * first `` element is created in the browser. The configuration + * can be done anywhere, but the easiest way to ensure it is done at the right + * time is to do it in the `` of the HTML document. This is the + * recommended way to set the location because it is most compatible with + * scenarios where the `` library is lazily loaded. + * + * If you absolutely have to set the DRACO decoder location *after* the first + * `` element is created, you can do it this way: + * + * ```html + * + * ``` + * + * Note that the above configuration approach will not work until *after* + * `` is defined in the browser. Also note that this configuration + * *must* be set *before* the first DRACO model is fully loaded. + * + * It is recommended that users who intend to take advantage of DRACO mesh + * compression consider whether or not it is acceptable for their use case to + * have code side-loaded from a Google CDN. If it is not acceptable, then the + * location must be customized before loading any DRACO models in order to cause + * the decoder to be loaded from an alternative, acceptable location. + */ +const LoadingMixin = (ModelViewerElement) => { + var _a, _b, _c, _d, _e, _f, _g, _h; + class LoadingModelViewerElement extends ModelViewerElement { + static set dracoDecoderLocation(value) { + CachingGLTFLoader.setDRACODecoderLocation(value); + } + static get dracoDecoderLocation() { + return CachingGLTFLoader.getDRACODecoderLocation(); + } + static set ktx2TranscoderLocation(value) { + CachingGLTFLoader.setKTX2TranscoderLocation(value); + } + static get ktx2TranscoderLocation() { + return CachingGLTFLoader.getKTX2TranscoderLocation(); + } + static set meshoptDecoderLocation(value) { + CachingGLTFLoader.setMeshoptDecoderLocation(value); + } + static get meshoptDecoderLocation() { + return CachingGLTFLoader.getMeshoptDecoderLocation(); + } + static set lottieLoaderLocation(value) { + Renderer.singleton.textureUtils.lottieLoaderUrl = value; + } + static get lottieLoaderLocation() { + return Renderer.singleton.textureUtils.lottieLoaderUrl; + } + /** + * If provided, the callback will be passed each resource URL before a + * request is sent. The callback may return the original URL, or a new URL + * to override loading behavior. This behavior can be used to load assets + * from .ZIP files, drag-and-drop APIs, and Data URIs. + */ + static mapURLs(callback) { + Renderer.singleton.loader[$loader].manager.setURLModifier(callback); + } + /** + * Dismisses the poster, causing the model to load and render if + * necessary. This is currently effectively the same as interacting with + * the poster via user input. + */ + dismissPoster() { + if (this.loaded) { + this[$hidePoster](); + } + else { + this[$shouldDismissPoster] = true; + this[$updateSource](); + } + } + /** + * Displays the poster, hiding the 3D model. If this is called after the 3D + * model has been revealed, then it must be dismissed by a call to + * dismissPoster(). + */ + showPoster() { + const posterContainerElement = this[$posterContainerElement]; + if (posterContainerElement.classList.contains('show')) { + return; + } + posterContainerElement.classList.add('show'); + this[$userInputElement].classList.remove('show'); + const defaultPosterElement = this[$defaultPosterElement]; + defaultPosterElement.removeAttribute('tabindex'); + defaultPosterElement.removeAttribute('aria-hidden'); + const oldVisibility = this.modelIsVisible; + this[$modelIsRevealed] = false; + this[$announceModelVisibility](oldVisibility); + } + /** + * Returns the model's bounding box dimensions in meters, independent of + * turntable rotation. + */ + getDimensions() { + return toVector3D(this[$scene].size); + } + getBoundingBoxCenter() { + return toVector3D(this[$scene].boundingBox.getCenter(new Vector3())); + } + constructor(...args) { + super(...args); + /** + * A URL pointing to the image to use as a poster in scenarios where the + * is not ready to reveal a rendered model to the viewer. + */ + this.poster = null; + /** + * An enumerable attribute describing under what conditions the + * should reveal a model to the viewer. + * + * The default value is "auto". The only supported alternative values is + * "manual". + */ + this.reveal = RevealStrategy.AUTO; + /** + * An enumerable attribute describing under what conditions the + * should preload a model. + * + * The default value is "auto". The only supported alternative values are + * "lazy" and "eager". Auto is equivalent to lazy, which loads the model + * when it is near the viewport for reveal = "auto", and when interacted + * with for reveal = "interaction". Eager loads the model immediately. + */ + this.loading = LoadingStrategy.AUTO; + this[_a] = false; + this[_b] = false; + // TODO: Add this to the shadow root as part of this mixin's + // implementation: + this[_c] = this.shadowRoot.querySelector('.slot.poster'); + this[_d] = this.shadowRoot.querySelector('#default-poster'); + this[_e] = this.shadowRoot.querySelector('#default-progress-bar > .bar'); + this[_f] = this[$defaultPosterElement].getAttribute('aria-label'); + this[_g] = throttle((progress) => { + const parentNode = this[$defaultProgressBarElement].parentNode; + requestAnimationFrame(() => { + this[$defaultProgressBarElement].style.transform = + `scaleX(${progress})`; + if (progress === 0) { + // NOTE(cdata): We remove and re-append the progress bar in this + // condition so that the progress bar does not appear to + // transition backwards from the right when we reset to 0 (or + // otherwise <1) progress after having already reached 1 progress + // previously. + parentNode.removeChild(this[$defaultProgressBarElement]); + parentNode.appendChild(this[$defaultProgressBarElement]); + } + this[$defaultProgressBarElement].classList.toggle('hide', progress === 1.0); + }); + }, PROGRESS_BAR_UPDATE_THRESHOLD); + this[_h] = (event) => { + const progress = event.detail.totalProgress; + const reason = event.detail.reason; + if (progress === 1.0) { + this[$updateProgressBar].flush(); + if (this.loaded && + (this[$shouldDismissPoster] || + this.reveal === RevealStrategy.AUTO)) { + this[$hidePoster](); + } + } + this[$updateProgressBar](progress); + this.dispatchEvent(new CustomEvent('progress', { detail: { totalProgress: progress, reason } })); + }; + const ModelViewerElement = self.ModelViewerElement || {}; + const dracoDecoderLocation = ModelViewerElement.dracoDecoderLocation || + DEFAULT_DRACO_DECODER_LOCATION; + CachingGLTFLoader.setDRACODecoderLocation(dracoDecoderLocation); + const ktx2TranscoderLocation = ModelViewerElement.ktx2TranscoderLocation || + DEFAULT_KTX2_TRANSCODER_LOCATION; + CachingGLTFLoader.setKTX2TranscoderLocation(ktx2TranscoderLocation); + if (ModelViewerElement.meshoptDecoderLocation) { + CachingGLTFLoader.setMeshoptDecoderLocation(ModelViewerElement.meshoptDecoderLocation); + } + const lottieLoaderLocation = ModelViewerElement.lottieLoaderLocation || + DEFAULT_LOTTIE_LOADER_LOCATION; + Renderer.singleton.textureUtils.lottieLoaderUrl = lottieLoaderLocation; + } + connectedCallback() { + super.connectedCallback(); + if (!this.loaded) { + this.showPoster(); + } + this[$progressTracker].addEventListener('progress', this[$onProgress]); + } + disconnectedCallback() { + super.disconnectedCallback(); + this[$progressTracker].removeEventListener('progress', this[$onProgress]); + } + async updated(changedProperties) { + super.updated(changedProperties); + if (changedProperties.has('poster') && this.poster != null) { + this[$defaultPosterElement].style.backgroundImage = + `url(${this.poster})`; + } + if (changedProperties.has('alt')) { + this[$defaultPosterElement].setAttribute('aria-label', this[$altDefaulted]); + } + if (changedProperties.has('reveal') || changedProperties.has('loading')) { + this[$updateSource](); + } + } + [(_a = $modelIsRevealed, _b = $shouldDismissPoster, _c = $posterContainerElement, _d = $defaultPosterElement, _e = $defaultProgressBarElement, _f = $ariaLabelCallToAction, _g = $updateProgressBar, _h = $onProgress, $shouldAttemptPreload)]() { + return !!this.src && + (this[$shouldDismissPoster] || + this.loading === LoadingStrategy.EAGER || + (this.reveal === RevealStrategy.AUTO && this[$isElementInViewport])); + } + [$hidePoster]() { + this[$shouldDismissPoster] = false; + const posterContainerElement = this[$posterContainerElement]; + if (!posterContainerElement.classList.contains('show')) { + return; + } + posterContainerElement.classList.remove('show'); + this[$userInputElement].classList.add('show'); + const oldVisibility = this.modelIsVisible; + this[$modelIsRevealed] = true; + this[$announceModelVisibility](oldVisibility); + const root = this.getRootNode(); + // If the is still focused, forward the focus to + // the canvas that has just been revealed + if (root && root.activeElement === this) { + this[$userInputElement].focus(); + } + // Ensure that the poster is no longer focusable or visible to + // screen readers + const defaultPosterElement = this[$defaultPosterElement]; + defaultPosterElement.setAttribute('aria-hidden', 'true'); + defaultPosterElement.tabIndex = -1; + this.dispatchEvent(new CustomEvent('poster-dismissed')); + } + [$getModelIsVisible]() { + return super[$getModelIsVisible]() && this[$modelIsRevealed]; + } + } + __decorate$1([ + property({ type: String }) + ], LoadingModelViewerElement.prototype, "poster", void 0); + __decorate$1([ + property({ type: String }) + ], LoadingModelViewerElement.prototype, "reveal", void 0); + __decorate$1([ + property({ type: String }) + ], LoadingModelViewerElement.prototype, "loading", void 0); + return LoadingModelViewerElement; +}; + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +var __decorate = (undefined && undefined.__decorate) || function (decorators, target, key, desc) { + var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d; + for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r; + return c > 3 && r && Object.defineProperty(target, key, r), r; +}; +// How much the model will rotate per +// second in radians: +const DEFAULT_ROTATION_SPEED = Math.PI / 32; +const AUTO_ROTATE_DELAY_DEFAULT = 3000; +const rotationRateIntrinsics = { + basis: [degreesToRadians(numberNode(DEFAULT_ROTATION_SPEED, 'rad'))], + keywords: { auto: [null] } +}; +const $autoRotateStartTime = Symbol('autoRotateStartTime'); +const $radiansPerSecond = Symbol('radiansPerSecond'); +const $syncRotationRate = Symbol('syncRotationRate'); +const $onCameraChange = Symbol('onCameraChange'); +const StagingMixin = (ModelViewerElement) => { + var _a, _b, _c; + class StagingModelViewerElement extends ModelViewerElement { + constructor() { + super(...arguments); + this.autoRotate = false; + this.autoRotateDelay = AUTO_ROTATE_DELAY_DEFAULT; + this.rotationPerSecond = 'auto'; + this[_a] = performance.now(); + this[_b] = 0; + this[_c] = (event) => { + if (!this.autoRotate) { + return; + } + if (event.detail.source === 'user-interaction') { + this[$autoRotateStartTime] = performance.now(); + } + }; + } + connectedCallback() { + super.connectedCallback(); + this.addEventListener('camera-change', this[$onCameraChange]); + this[$autoRotateStartTime] = performance.now(); + } + disconnectedCallback() { + super.disconnectedCallback(); + this.removeEventListener('camera-change', this[$onCameraChange]); + this[$autoRotateStartTime] = performance.now(); + } + updated(changedProperties) { + super.updated(changedProperties); + if (changedProperties.has('autoRotate')) { + this[$autoRotateStartTime] = performance.now(); + } + } + [(_a = $autoRotateStartTime, _b = $radiansPerSecond, $syncRotationRate)](style) { + this[$radiansPerSecond] = style[0]; + } + [$tick](time, delta) { + super[$tick](time, delta); + if (!this.autoRotate || !this[$getModelIsVisible]() || + this[$renderer].isPresenting) { + return; + } + const rotationDelta = Math.min(delta, time - this[$autoRotateStartTime] - this.autoRotateDelay); + if (rotationDelta > 0) { + this[$scene].yaw = this.turntableRotation + + this[$radiansPerSecond] * rotationDelta * 0.001; + } + } + get turntableRotation() { + return this[$scene].yaw; + } + resetTurntableRotation(theta = 0) { + this[$scene].yaw = theta; + } + } + _c = $onCameraChange; + __decorate([ + property({ type: Boolean, attribute: 'auto-rotate' }) + ], StagingModelViewerElement.prototype, "autoRotate", void 0); + __decorate([ + property({ type: Number, attribute: 'auto-rotate-delay' }) + ], StagingModelViewerElement.prototype, "autoRotateDelay", void 0); + __decorate([ + style({ intrinsics: rotationRateIntrinsics, updateHandler: $syncRotationRate }), + property({ type: String, attribute: 'rotation-per-second' }) + ], StagingModelViewerElement.prototype, "rotationPerSecond", void 0); + return StagingModelViewerElement; +}; + +/* @license + * Copyright 2019 Google LLC. All Rights Reserved. + * Licensed under the Apache License, Version 2.0 (the 'License'); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an 'AS IS' BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +const ModelViewerElement = AnnotationMixin(SceneGraphMixin(StagingMixin(EnvironmentMixin(ControlsMixin(ARMixin(LoadingMixin(AnimationMixin(ModelViewerElementBase)))))))); +customElements.define('model-viewer', ModelViewerElement); + +export { CanvasTexture, FileLoader, Loader, ModelViewerElement, NearestFilter }; +//# sourceMappingURL=model-viewer.js.map diff --git a/src/index.html b/src/index.html new file mode 100644 index 0000000..f01097a --- /dev/null +++ b/src/index.html @@ -0,0 +1,13 @@ + + + + + CeilingArAssessment + + + + + + + + diff --git a/src/main.ts b/src/main.ts new file mode 100644 index 0000000..681c68e --- /dev/null +++ b/src/main.ts @@ -0,0 +1,10 @@ +import { bootstrapApplication } from '@angular/platform-browser'; +import { AppComponent } from './app/app.component'; +import { provideRouter } from '@angular/router'; +import { routes } from './app/app.routes'; + +bootstrapApplication(AppComponent, { + providers: [ + provideRouter(routes) + ] +}).catch(err => console.error(err)); \ No newline at end of file diff --git a/src/styles.css b/src/styles.css new file mode 100644 index 0000000..bd6213e --- /dev/null +++ b/src/styles.css @@ -0,0 +1,3 @@ +@tailwind base; +@tailwind components; +@tailwind utilities; \ No newline at end of file diff --git a/tailwind.config.js b/tailwind.config.js new file mode 100644 index 0000000..7586753 --- /dev/null +++ b/tailwind.config.js @@ -0,0 +1,11 @@ +/** @type {import('tailwindcss').Config} */ +module.exports = { + content: [ + "./src/**/*.{html,ts}", + ], + theme: { + extend: {}, + }, + plugins: [], +} + diff --git a/tsconfig.app.json b/tsconfig.app.json new file mode 100644 index 0000000..3775b37 --- /dev/null +++ b/tsconfig.app.json @@ -0,0 +1,15 @@ +/* To learn more about Typescript configuration file: https://www.typescriptlang.org/docs/handbook/tsconfig-json.html. */ +/* To learn more about Angular compiler options: https://angular.dev/reference/configs/angular-compiler-options. */ +{ + "extends": "./tsconfig.json", + "compilerOptions": { + "outDir": "./out-tsc/app", + "types": [] + }, + "files": [ + "src/main.ts" + ], + "include": [ + "src/**/*.d.ts" + ] +} diff --git a/tsconfig.json b/tsconfig.json new file mode 100644 index 0000000..d3dbc4a --- /dev/null +++ b/tsconfig.json @@ -0,0 +1,33 @@ +/* To learn more about Typescript configuration file: https://www.typescriptlang.org/docs/handbook/tsconfig-json.html. */ +/* To learn more about Angular compiler options: https://angular.dev/reference/configs/angular-compiler-options. */ +{ + "compileOnSave": false, + "compilerOptions": { + "outDir": "./dist/out-tsc", + "strict": true, + "noImplicitOverride": true, + "noPropertyAccessFromIndexSignature": true, + "noImplicitReturns": true, + "noFallthroughCasesInSwitch": true, + "skipLibCheck": true, + "esModuleInterop": true, + "sourceMap": true, + "declaration": false, + "experimentalDecorators": true, + "moduleResolution": "bundler", + "importHelpers": true, + "target": "ES2022", + "module": "ES2022", + "useDefineForClassFields": false, + "lib": [ + "ES2022", + "dom" + ] + }, + "angularCompilerOptions": { + "enableI18nLegacyMessageIdFormat": false, + "strictInjectionParameters": true, + "strictInputAccessModifiers": true, + "strictTemplates": true + } +} diff --git a/tsconfig.spec.json b/tsconfig.spec.json new file mode 100644 index 0000000..5fb748d --- /dev/null +++ b/tsconfig.spec.json @@ -0,0 +1,15 @@ +/* To learn more about Typescript configuration file: https://www.typescriptlang.org/docs/handbook/tsconfig-json.html. */ +/* To learn more about Angular compiler options: https://angular.dev/reference/configs/angular-compiler-options. */ +{ + "extends": "./tsconfig.json", + "compilerOptions": { + "outDir": "./out-tsc/spec", + "types": [ + "jasmine" + ] + }, + "include": [ + "src/**/*.spec.ts", + "src/**/*.d.ts" + ] +}