HuangJiPC/public/static/three/examples/jsm/objects/Reflector.js at 8f3239cadafaabf38f9cdce4a2bff5736b9e0e3b

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HuangJiPC / public / static / three / examples / jsm / objects / Reflector.js
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/**
 * @author Slayvin / http://slayvin.net
 */

import {
	Color,
	LinearFilter,
	Math as _Math,
	Matrix4,
	Mesh,
	PerspectiveCamera,
	Plane,
	RGBFormat,
	ShaderMaterial,
	UniformsUtils,
	Vector3,
	Vector4,
	WebGLRenderTarget
} from "../../../build/three.module.js";

var Reflector = function ( geometry, options ) {

	Mesh.call( this, geometry );

	this.type = 'Reflector';

	var scope = this;

	options = options || {};

	var color = ( options.color !== undefined ) ? new Color( options.color ) : new Color( 0x7F7F7F );
	var textureWidth = options.textureWidth || 512;
	var textureHeight = options.textureHeight || 512;
	var clipBias = options.clipBias || 0;
	var shader = options.shader || Reflector.ReflectorShader;
	var recursion = options.recursion !== undefined ? options.recursion : 0;

	//

	var reflectorPlane = new Plane();
	var normal = new Vector3();
	var reflectorWorldPosition = new Vector3();
	var cameraWorldPosition = new Vector3();
	var rotationMatrix = new Matrix4();
	var lookAtPosition = new Vector3( 0, 0, - 1 );
	var clipPlane = new Vector4();

	var view = new Vector3();
	var target = new Vector3();
	var q = new Vector4();

	var textureMatrix = new Matrix4();
	var virtualCamera = new PerspectiveCamera();

	var parameters = {
		minFilter: LinearFilter,
		magFilter: LinearFilter,
		format: RGBFormat,
		stencilBuffer: false
	};

	var renderTarget = new WebGLRenderTarget( textureWidth, textureHeight, parameters );

	if ( ! _Math.isPowerOfTwo( textureWidth ) || ! _Math.isPowerOfTwo( textureHeight ) ) {

		renderTarget.texture.generateMipmaps = false;

	}

	var material = new ShaderMaterial( {
		uniforms: UniformsUtils.clone( shader.uniforms ),
		fragmentShader: shader.fragmentShader,
		vertexShader: shader.vertexShader
	} );

	material.uniforms[ "tDiffuse" ].value = renderTarget.texture;
	material.uniforms[ "color" ].value = color;
	material.uniforms[ "textureMatrix" ].value = textureMatrix;

	this.material = material;

	this.onBeforeRender = function ( renderer, scene, camera ) {

		if ( 'recursion' in camera.userData ) {

			if ( camera.userData.recursion === recursion ) return;

			camera.userData.recursion ++;

		}

		reflectorWorldPosition.setFromMatrixPosition( scope.matrixWorld );
		cameraWorldPosition.setFromMatrixPosition( camera.matrixWorld );

		rotationMatrix.extractRotation( scope.matrixWorld );

		normal.set( 0, 0, 1 );
		normal.applyMatrix4( rotationMatrix );

		view.subVectors( reflectorWorldPosition, cameraWorldPosition );

		// Avoid rendering when reflector is facing away

		if ( view.dot( normal ) > 0 ) return;

		view.reflect( normal ).negate();
		view.add( reflectorWorldPosition );

		rotationMatrix.extractRotation( camera.matrixWorld );

		lookAtPosition.set( 0, 0, - 1 );
		lookAtPosition.applyMatrix4( rotationMatrix );
		lookAtPosition.add( cameraWorldPosition );

		target.subVectors( reflectorWorldPosition, lookAtPosition );
		target.reflect( normal ).negate();
		target.add( reflectorWorldPosition );

		virtualCamera.position.copy( view );
		virtualCamera.up.set( 0, 1, 0 );
		virtualCamera.up.applyMatrix4( rotationMatrix );
		virtualCamera.up.reflect( normal );
		virtualCamera.lookAt( target );

		virtualCamera.far = camera.far; // Used in WebGLBackground

		virtualCamera.updateMatrixWorld();
		virtualCamera.projectionMatrix.copy( camera.projectionMatrix );

		virtualCamera.userData.recursion = 0;

		// Update the texture matrix
		textureMatrix.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
		);
		textureMatrix.multiply( virtualCamera.projectionMatrix );
		textureMatrix.multiply( virtualCamera.matrixWorldInverse );
		textureMatrix.multiply( scope.matrixWorld );

		// Now update projection matrix with new clip plane, implementing code from: http://www.terathon.com/code/oblique.html
		// Paper explaining this technique: http://www.terathon.com/lengyel/Lengyel-Oblique.pdf
		reflectorPlane.setFromNormalAndCoplanarPoint( normal, reflectorWorldPosition );
		reflectorPlane.applyMatrix4( virtualCamera.matrixWorldInverse );

		clipPlane.set( reflectorPlane.normal.x, reflectorPlane.normal.y, reflectorPlane.normal.z, reflectorPlane.constant );

		var projectionMatrix = virtualCamera.projectionMatrix;

		q.x = ( Math.sign( clipPlane.x ) + projectionMatrix.elements[ 8 ] ) / projectionMatrix.elements[ 0 ];
		q.y = ( Math.sign( clipPlane.y ) + projectionMatrix.elements[ 9 ] ) / projectionMatrix.elements[ 5 ];
		q.z = - 1.0;
		q.w = ( 1.0 + projectionMatrix.elements[ 10 ] ) / projectionMatrix.elements[ 14 ];

		// Calculate the scaled plane vector
		clipPlane.multiplyScalar( 2.0 / clipPlane.dot( q ) );

		// Replacing the third row of the projection matrix
		projectionMatrix.elements[ 2 ] = clipPlane.x;
		projectionMatrix.elements[ 6 ] = clipPlane.y;
		projectionMatrix.elements[ 10 ] = clipPlane.z + 1.0 - clipBias;
		projectionMatrix.elements[ 14 ] = clipPlane.w;

		// Render

		scope.visible = false;

		var currentRenderTarget = renderer.getRenderTarget();

		var currentVrEnabled = renderer.vr.enabled;
		var currentShadowAutoUpdate = renderer.shadowMap.autoUpdate;

		renderer.vr.enabled = false; // Avoid camera modification and recursion
		renderer.shadowMap.autoUpdate = false; // Avoid re-computing shadows

		renderer.setRenderTarget( renderTarget );
		renderer.clear();
		renderer.render( scene, virtualCamera );

		renderer.vr.enabled = currentVrEnabled;
		renderer.shadowMap.autoUpdate = currentShadowAutoUpdate;

		renderer.setRenderTarget( currentRenderTarget );

		// Restore viewport

		var viewport = camera.viewport;

		if ( viewport !== undefined ) {

			renderer.state.viewport( viewport );

		}

		scope.visible = true;

	};

	this.getRenderTarget = function () {

		return renderTarget;

	};

};

Reflector.prototype = Object.create( Mesh.prototype );
Reflector.prototype.constructor = Reflector;

Reflector.ReflectorShader = {

	uniforms: {

		'color': {
			value: null
		},

		'tDiffuse': {
			value: null
		},

		'textureMatrix': {
			value: null
		}

	},

	vertexShader: [
		'uniform mat4 textureMatrix;',
		'varying vec4 vUv;',

		'void main() {',

		'	vUv = textureMatrix * vec4( position, 1.0 );',

		'	gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );',

		'}'
	].join( '\n' ),

	fragmentShader: [
		'uniform vec3 color;',
		'uniform sampler2D tDiffuse;',
		'varying vec4 vUv;',

		'float blendOverlay( float base, float blend ) {',

		'	return( base < 0.5 ? ( 2.0 * base * blend ) : ( 1.0 - 2.0 * ( 1.0 - base ) * ( 1.0 - blend ) ) );',

		'}',

		'vec3 blendOverlay( vec3 base, vec3 blend ) {',

		'	return vec3( blendOverlay( base.r, blend.r ), blendOverlay( base.g, blend.g ), blendOverlay( base.b, blend.b ) );',

		'}',

		'void main() {',

		'	vec4 base = texture2DProj( tDiffuse, vUv );',
		'	gl_FragColor = vec4( blendOverlay( base.rgb, color ), 1.0 );',

		'}'
	].join( '\n' )
};

export { Reflector };