import { DirectionalLight, Group, LightProbe, WebGLCubeRenderTarget } from 'three'; 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 obejct 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; } } export 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; }; } }