Doodle3D-Slicer/three.js-master/examples/js/WaterShader.js

/**
 * @author jbouny / https://github.com/jbouny
 *
 * Work based on :
 * @author Slayvin / http://slayvin.net : Flat mirror for three.js
 * @author Stemkoski / http://www.adelphi.edu/~stemkoski : An implementation of water shader based on the flat mirror
 * @author Jonas Wagner / http://29a.ch/ && http://29a.ch/slides/2012/webglwater/ : Water shader explanations in WebGL
 */

THREE.ShaderLib['water'] = {

	uniforms: { "normalSampler":	{ type: "t", value: null },
				"mirrorSampler":	{ type: "t", value: null },
				"alpha":			{ type: "f", value: 1.0 },
				"time":				{ type: "f", value: 0.0 },
				"distortionScale":	{ type: "f", value: 20.0 },
				"textureMatrix" :	{ type: "m4", value: new THREE.Matrix4() },
				"sunColor":			{ type: "c", value: new THREE.Color( 0x7F7F7F ) },
				"sunDirection":		{ type: "v3", value: new THREE.Vector3( 0.70707, 0.70707, 0 ) },
				"eye":				{ type: "v3", value: new THREE.Vector3( 0, 0, 0 ) },
				"waterColor":		{ type: "c", value: new THREE.Color( 0x555555 ) }
	},

	vertexShader: [
		'uniform mat4 textureMatrix;',
		'uniform float time;',

		'varying vec4 mirrorCoord;',
		'varying vec3 worldPosition;',
		
		'void main()',
		'{',
		'	mirrorCoord = modelMatrix * vec4( position, 1.0 );',
		'	worldPosition = mirrorCoord.xyz;',
		'	mirrorCoord = textureMatrix * mirrorCoord;',
		'	gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );',
		'}'
	].join('\n'),

	fragmentShader: [
		'precision highp float;',
		
		'uniform sampler2D mirrorSampler;',
		'uniform float alpha;',
		'uniform float time;',
		'uniform float distortionScale;',
		'uniform sampler2D normalSampler;',
		'uniform vec3 sunColor;',
		'uniform vec3 sunDirection;',
		'uniform vec3 eye;',
		'uniform vec3 waterColor;',

		'varying vec4 mirrorCoord;',
		'varying vec3 worldPosition;',
		
		'vec4 getNoise( vec2 uv )',
		'{',
		'	vec2 uv0 = ( uv / 103.0 ) + vec2(time / 17.0, time / 29.0);',
		'	vec2 uv1 = uv / 107.0-vec2( time / -19.0, time / 31.0 );',
		'	vec2 uv2 = uv / vec2( 8907.0, 9803.0 ) + vec2( time / 101.0, time / 97.0 );',
		'	vec2 uv3 = uv / vec2( 1091.0, 1027.0 ) - vec2( time / 109.0, time / -113.0 );',
		'	vec4 noise = ( texture2D( normalSampler, uv0 ) ) +',
        '		( texture2D( normalSampler, uv1 ) ) +',
        '		( texture2D( normalSampler, uv2 ) ) +',
		'		( texture2D( normalSampler, uv3 ) );',
		'	return noise * 0.5 - 1.0;',
		'}',
		
		'void sunLight( const vec3 surfaceNormal, const vec3 eyeDirection, float shiny, float spec, float diffuse, inout vec3 diffuseColor, inout vec3 specularColor )',
		'{',
		'	vec3 reflection = normalize( reflect( -sunDirection, surfaceNormal ) );',
		'	float direction = max( 0.0, dot( eyeDirection, reflection ) );',
		'	specularColor += pow( direction, shiny ) * sunColor * spec;',
		'	diffuseColor += max( dot( sunDirection, surfaceNormal ), 0.0 ) * sunColor * diffuse;',
		'}',
		
		'void main()',
		'{',
		'	vec4 noise = getNoise( worldPosition.xz );',
		'	vec3 surfaceNormal = normalize( noise.xzy * vec3( 1.5, 1.0, 1.5 ) );',

		'	vec3 diffuseLight = vec3(0.0);',
		'	vec3 specularLight = vec3(0.0);',

		'	vec3 worldToEye = eye-worldPosition;',
		'	vec3 eyeDirection = normalize( worldToEye );',
		'	sunLight( surfaceNormal, eyeDirection, 100.0, 2.0, 0.5, diffuseLight, specularLight );',
		
		'	float distance = length(worldToEye);',

		'	vec2 distortion = surfaceNormal.xz * ( 0.001 + 1.0 / distance ) * distortionScale;',
		'	vec3 reflectionSample = vec3( texture2D( mirrorSampler, mirrorCoord.xy / mirrorCoord.z + distortion ) );',

		'	float theta = max( dot( eyeDirection, surfaceNormal ), 0.0 );',
		'	float rf0 = 0.3;',
		'	float reflectance = rf0 + ( 1.0 - rf0 ) * pow( ( 1.0 - theta ), 5.0 );',
		'	vec3 scatter = max( 0.0, dot( surfaceNormal, eyeDirection ) ) * waterColor;',
		'	vec3 albedo = mix( sunColor * diffuseLight * 0.3 + scatter, ( vec3( 0.1 ) + reflectionSample * 0.9 + reflectionSample * specularLight ), reflectance );',
		'	gl_FragColor = vec4( albedo, alpha );',
		'}'
	].join('\n')

};

THREE.Water = function ( renderer, camera, scene, options ) {

	THREE.Object3D.call( this );
	this.name = 'water_' + this.id;

	function optionalParameter ( value, defaultValue ) {
		return value !== undefined ? value : defaultValue;
	};

	options = options || {};
	
	this.matrixNeedsUpdate = true;
	
	var width = optionalParameter( options.textureWidth, 512 );
	var height = optionalParameter( options.textureHeight, 512 );
	this.clipBias = optionalParameter( options.clipBias, 0.0 );
	this.alpha = optionalParameter( options.alpha, 1.0 );
	this.time = optionalParameter( options.time, 0.0 );
	this.normalSampler = optionalParameter( options.waterNormals, null );
	this.sunDirection = optionalParameter( options.sunDirection, new THREE.Vector3( 0.70707, 0.70707, 0.0 ) );
	this.sunColor = new THREE.Color( optionalParameter( options.sunColor, 0xffffff ) );
	this.waterColor = new THREE.Color( optionalParameter( options.waterColor, 0x7F7F7F ) );
	this.eye = optionalParameter( options.eye, new THREE.Vector3( 0, 0, 0 ) );
	this.distortionScale = optionalParameter( options.distortionScale, 20.0 );
	
	this.renderer = renderer;
	this.scene = scene;
	this.mirrorPlane = new THREE.Plane();
	this.normal = new THREE.Vector3( 0, 0, 1 );
	this.mirrorWorldPosition = new THREE.Vector3();
	this.cameraWorldPosition = new THREE.Vector3();
	this.rotationMatrix = new THREE.Matrix4();
	this.lookAtPosition = new THREE.Vector3( 0, 0, -1 );
	this.clipPlane = new THREE.Vector4();
	
	if ( camera instanceof THREE.PerspectiveCamera )
		this.camera = camera;
	else 
	{
		this.camera = new THREE.PerspectiveCamera();
		console.log(this.name + ': camera is not a Perspective Camera!')
	}

	this.textureMatrix = new THREE.Matrix4();

	this.mirrorCamera = this.camera.clone();
	
	this.texture = new THREE.WebGLRenderTarget( width, height );
	this.tempTexture = new THREE.WebGLRenderTarget( width, height );
	
	var mirrorShader = THREE.ShaderLib[ "water" ];
	var mirrorUniforms = THREE.UniformsUtils.clone( mirrorShader.uniforms );

	this.material = new THREE.ShaderMaterial( { 
		fragmentShader: mirrorShader.fragmentShader, 
		vertexShader: mirrorShader.vertexShader, 
		uniforms: mirrorUniforms,
		transparent: true
	} );

	this.material.uniforms.mirrorSampler.value = this.texture;
	this.material.uniforms.textureMatrix.value = this.textureMatrix;
	this.material.uniforms.alpha.value = this.alpha;
	this.material.uniforms.time.value = this.time;
	this.material.uniforms.normalSampler.value = this.normalSampler;
	this.material.uniforms.sunColor.value = this.sunColor;
	this.material.uniforms.waterColor.value = this.waterColor;
	this.material.uniforms.sunDirection.value = this.sunDirection;
	this.material.uniforms.distortionScale.value = this.distortionScale;
	
	this.material.uniforms.eye.value = this.eye;
	
	if ( !THREE.Math.isPowerOfTwo(width) || !THREE.Math.isPowerOfTwo(height) )
	{
		this.texture.generateMipmaps = false;
		this.tempTexture.generateMipmaps = false;
	}

	this.updateTextureMatrix();
	this.render();
};

THREE.Water.prototype = Object.create( THREE.Mirror.prototype );
THREE.Water.prototype.constructor = THREE.Water;


THREE.Water.prototype.updateTextureMatrix = function () {

	function sign(x) { return x ? x < 0 ? -1 : 1 : 0; }

	this.updateMatrixWorld();
	this.camera.updateMatrixWorld();

	this.mirrorWorldPosition.setFromMatrixPosition( this.matrixWorld );
	this.cameraWorldPosition.setFromMatrixPosition( this.camera.matrixWorld );

	this.rotationMatrix.extractRotation( this.matrixWorld );

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

	var view = this.mirrorWorldPosition.clone().sub( this.cameraWorldPosition );
	view.reflect( this.normal ).negate();
	view.add( this.mirrorWorldPosition );

	this.rotationMatrix.extractRotation( this.camera.matrixWorld );

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

	var target = this.mirrorWorldPosition.clone().sub( this.lookAtPosition );
	target.reflect( this.normal ).negate();
	target.add( this.mirrorWorldPosition );

	this.up.set(0, -1, 0);
	this.up.applyMatrix4( this.rotationMatrix );
	this.up.reflect( this.normal ).negate();

	this.mirrorCamera.position.copy( view );
	this.mirrorCamera.up = this.up;
	this.mirrorCamera.lookAt( target );
	this.mirrorCamera.aspect = this.camera.aspect;

	this.mirrorCamera.updateProjectionMatrix();
	this.mirrorCamera.updateMatrixWorld();
	this.mirrorCamera.matrixWorldInverse.getInverse(this.mirrorCamera.matrixWorld);

	// Update the texture matrix
	this.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 );
	this.textureMatrix.multiply(this.mirrorCamera.projectionMatrix);
	this.textureMatrix.multiply(this.mirrorCamera.matrixWorldInverse);

	// 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
	this.mirrorPlane.setFromNormalAndCoplanarPoint( this.normal, this.mirrorWorldPosition );
	this.mirrorPlane.applyMatrix4(this.mirrorCamera.matrixWorldInverse);

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

	var q = new THREE.Vector4();
	var projectionMatrix = this.mirrorCamera.projectionMatrix;

	q.x = (sign(this.clipPlane.x) + projectionMatrix.elements[8]) / projectionMatrix.elements[0];
	q.y = (sign(this.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
	var c = new THREE.Vector4();
	c = this.clipPlane.multiplyScalar( 2.0 / this.clipPlane.dot(q) );

	// Replacing the third row of the projection matrix
	projectionMatrix.elements[2] = c.x;
	projectionMatrix.elements[6] = c.y;
	projectionMatrix.elements[10] = c.z + 1.0 - this.clipBias;
	projectionMatrix.elements[14] = c.w;
	
	var worldCoordinates = new THREE.Vector3();
	worldCoordinates.setFromMatrixPosition( this.camera.matrixWorld );
	this.eye = worldCoordinates;
	this.material.uniforms.eye.value = this.eye;
};
added three js editor + slicer 2015-06-12 15:58:26 +02:00			`/**`
			`* @author jbouny / https://github.com/jbouny`
			`*`
			`* Work based on :`
			`* @author Slayvin / http://slayvin.net : Flat mirror for three.js`
			`* @author Stemkoski / http://www.adelphi.edu/~stemkoski : An implementation of water shader based on the flat mirror`
			`* @author Jonas Wagner / http://29a.ch/ && http://29a.ch/slides/2012/webglwater/ : Water shader explanations in WebGL`
			`*/`

			`THREE.ShaderLib['water'] = {`

			`uniforms: { "normalSampler": { type: "t", value: null },`
			`"mirrorSampler": { type: "t", value: null },`
			`"alpha": { type: "f", value: 1.0 },`
			`"time": { type: "f", value: 0.0 },`
			`"distortionScale": { type: "f", value: 20.0 },`
			`"textureMatrix" : { type: "m4", value: new THREE.Matrix4() },`
			`"sunColor": { type: "c", value: new THREE.Color( 0x7F7F7F ) },`
			`"sunDirection": { type: "v3", value: new THREE.Vector3( 0.70707, 0.70707, 0 ) },`
			`"eye": { type: "v3", value: new THREE.Vector3( 0, 0, 0 ) },`
			`"waterColor": { type: "c", value: new THREE.Color( 0x555555 ) }`
			`},`

			`vertexShader: [`
			`'uniform mat4 textureMatrix;',`
			`'uniform float time;',`

			`'varying vec4 mirrorCoord;',`
			`'varying vec3 worldPosition;',`

			`'void main()',`
			`'{',`
			`' mirrorCoord = modelMatrix * vec4( position, 1.0 );',`
			`' worldPosition = mirrorCoord.xyz;',`
			`' mirrorCoord = textureMatrix * mirrorCoord;',`
			`' gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );',`
			`'}'`
			`].join('\n'),`

			`fragmentShader: [`
			`'precision highp float;',`

			`'uniform sampler2D mirrorSampler;',`
			`'uniform float alpha;',`
			`'uniform float time;',`
			`'uniform float distortionScale;',`
			`'uniform sampler2D normalSampler;',`
			`'uniform vec3 sunColor;',`
			`'uniform vec3 sunDirection;',`
			`'uniform vec3 eye;',`
			`'uniform vec3 waterColor;',`

			`'varying vec4 mirrorCoord;',`
			`'varying vec3 worldPosition;',`

			`'vec4 getNoise( vec2 uv )',`
			`'{',`
			`' vec2 uv0 = ( uv / 103.0 ) + vec2(time / 17.0, time / 29.0);',`
			`' vec2 uv1 = uv / 107.0-vec2( time / -19.0, time / 31.0 );',`
			`' vec2 uv2 = uv / vec2( 8907.0, 9803.0 ) + vec2( time / 101.0, time / 97.0 );',`
			`' vec2 uv3 = uv / vec2( 1091.0, 1027.0 ) - vec2( time / 109.0, time / -113.0 );',`
			`' vec4 noise = ( texture2D( normalSampler, uv0 ) ) +',`
			`' ( texture2D( normalSampler, uv1 ) ) +',`
			`' ( texture2D( normalSampler, uv2 ) ) +',`
			`' ( texture2D( normalSampler, uv3 ) );',`
			`' return noise * 0.5 - 1.0;',`
			`'}',`

			`'void sunLight( const vec3 surfaceNormal, const vec3 eyeDirection, float shiny, float spec, float diffuse, inout vec3 diffuseColor, inout vec3 specularColor )',`
			`'{',`
			`' vec3 reflection = normalize( reflect( -sunDirection, surfaceNormal ) );',`
			`' float direction = max( 0.0, dot( eyeDirection, reflection ) );',`
			`' specularColor += pow( direction, shiny ) * sunColor * spec;',`
			`' diffuseColor += max( dot( sunDirection, surfaceNormal ), 0.0 ) * sunColor * diffuse;',`
			`'}',`

			`'void main()',`
			`'{',`
			`' vec4 noise = getNoise( worldPosition.xz );',`
			`' vec3 surfaceNormal = normalize( noise.xzy * vec3( 1.5, 1.0, 1.5 ) );',`

			`' vec3 diffuseLight = vec3(0.0);',`
			`' vec3 specularLight = vec3(0.0);',`

			`' vec3 worldToEye = eye-worldPosition;',`
			`' vec3 eyeDirection = normalize( worldToEye );',`
			`' sunLight( surfaceNormal, eyeDirection, 100.0, 2.0, 0.5, diffuseLight, specularLight );',`

			`' float distance = length(worldToEye);',`

			`' vec2 distortion = surfaceNormal.xz * ( 0.001 + 1.0 / distance ) * distortionScale;',`
			`' vec3 reflectionSample = vec3( texture2D( mirrorSampler, mirrorCoord.xy / mirrorCoord.z + distortion ) );',`

			`' float theta = max( dot( eyeDirection, surfaceNormal ), 0.0 );',`
			`' float rf0 = 0.3;',`
			`' float reflectance = rf0 + ( 1.0 - rf0 ) * pow( ( 1.0 - theta ), 5.0 );',`
			`' vec3 scatter = max( 0.0, dot( surfaceNormal, eyeDirection ) ) * waterColor;',`
			`' vec3 albedo = mix( sunColor * diffuseLight * 0.3 + scatter, ( vec3( 0.1 ) + reflectionSample * 0.9 + reflectionSample * specularLight ), reflectance );',`
			`' gl_FragColor = vec4( albedo, alpha );',`
			`'}'`
			`].join('\n')`

			`};`

			`THREE.Water = function ( renderer, camera, scene, options ) {`

			`THREE.Object3D.call( this );`
			`this.name = 'water_' + this.id;`

			`function optionalParameter ( value, defaultValue ) {`
			`return value !== undefined ? value : defaultValue;`
			`};`

			`options = options \|\| {};`

			`this.matrixNeedsUpdate = true;`

			`var width = optionalParameter( options.textureWidth, 512 );`
			`var height = optionalParameter( options.textureHeight, 512 );`
			`this.clipBias = optionalParameter( options.clipBias, 0.0 );`
			`this.alpha = optionalParameter( options.alpha, 1.0 );`
			`this.time = optionalParameter( options.time, 0.0 );`
			`this.normalSampler = optionalParameter( options.waterNormals, null );`
			`this.sunDirection = optionalParameter( options.sunDirection, new THREE.Vector3( 0.70707, 0.70707, 0.0 ) );`
			`this.sunColor = new THREE.Color( optionalParameter( options.sunColor, 0xffffff ) );`
			`this.waterColor = new THREE.Color( optionalParameter( options.waterColor, 0x7F7F7F ) );`
			`this.eye = optionalParameter( options.eye, new THREE.Vector3( 0, 0, 0 ) );`
			`this.distortionScale = optionalParameter( options.distortionScale, 20.0 );`

			`this.renderer = renderer;`
			`this.scene = scene;`
			`this.mirrorPlane = new THREE.Plane();`
			`this.normal = new THREE.Vector3( 0, 0, 1 );`
			`this.mirrorWorldPosition = new THREE.Vector3();`
			`this.cameraWorldPosition = new THREE.Vector3();`
			`this.rotationMatrix = new THREE.Matrix4();`
			`this.lookAtPosition = new THREE.Vector3( 0, 0, -1 );`
			`this.clipPlane = new THREE.Vector4();`

			`if ( camera instanceof THREE.PerspectiveCamera )`
			`this.camera = camera;`
			`else`
			`{`
			`this.camera = new THREE.PerspectiveCamera();`
			`console.log(this.name + ': camera is not a Perspective Camera!')`
			`}`

			`this.textureMatrix = new THREE.Matrix4();`

			`this.mirrorCamera = this.camera.clone();`

			`this.texture = new THREE.WebGLRenderTarget( width, height );`
			`this.tempTexture = new THREE.WebGLRenderTarget( width, height );`

			`var mirrorShader = THREE.ShaderLib[ "water" ];`
			`var mirrorUniforms = THREE.UniformsUtils.clone( mirrorShader.uniforms );`

			`this.material = new THREE.ShaderMaterial( {`
			`fragmentShader: mirrorShader.fragmentShader,`
			`vertexShader: mirrorShader.vertexShader,`
			`uniforms: mirrorUniforms,`
			`transparent: true`
			`} );`

			`this.material.uniforms.mirrorSampler.value = this.texture;`
			`this.material.uniforms.textureMatrix.value = this.textureMatrix;`
			`this.material.uniforms.alpha.value = this.alpha;`
			`this.material.uniforms.time.value = this.time;`
			`this.material.uniforms.normalSampler.value = this.normalSampler;`
			`this.material.uniforms.sunColor.value = this.sunColor;`
			`this.material.uniforms.waterColor.value = this.waterColor;`
			`this.material.uniforms.sunDirection.value = this.sunDirection;`
			`this.material.uniforms.distortionScale.value = this.distortionScale;`

			`this.material.uniforms.eye.value = this.eye;`

			`if ( !THREE.Math.isPowerOfTwo(width) \|\| !THREE.Math.isPowerOfTwo(height) )`
			`{`
			`this.texture.generateMipmaps = false;`
			`this.tempTexture.generateMipmaps = false;`
			`}`

			`this.updateTextureMatrix();`
			`this.render();`
			`};`

			`THREE.Water.prototype = Object.create( THREE.Mirror.prototype );`
			`THREE.Water.prototype.constructor = THREE.Water;`


			`THREE.Water.prototype.updateTextureMatrix = function () {`

			`function sign(x) { return x ? x < 0 ? -1 : 1 : 0; }`

			`this.updateMatrixWorld();`
			`this.camera.updateMatrixWorld();`

			`this.mirrorWorldPosition.setFromMatrixPosition( this.matrixWorld );`
			`this.cameraWorldPosition.setFromMatrixPosition( this.camera.matrixWorld );`

			`this.rotationMatrix.extractRotation( this.matrixWorld );`

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

			`var view = this.mirrorWorldPosition.clone().sub( this.cameraWorldPosition );`
			`view.reflect( this.normal ).negate();`
			`view.add( this.mirrorWorldPosition );`

			`this.rotationMatrix.extractRotation( this.camera.matrixWorld );`

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

			`var target = this.mirrorWorldPosition.clone().sub( this.lookAtPosition );`
			`target.reflect( this.normal ).negate();`
			`target.add( this.mirrorWorldPosition );`

			`this.up.set(0, -1, 0);`
			`this.up.applyMatrix4( this.rotationMatrix );`
			`this.up.reflect( this.normal ).negate();`

			`this.mirrorCamera.position.copy( view );`
			`this.mirrorCamera.up = this.up;`
			`this.mirrorCamera.lookAt( target );`
			`this.mirrorCamera.aspect = this.camera.aspect;`

			`this.mirrorCamera.updateProjectionMatrix();`
			`this.mirrorCamera.updateMatrixWorld();`
			`this.mirrorCamera.matrixWorldInverse.getInverse(this.mirrorCamera.matrixWorld);`

			`// Update the texture matrix`
			`this.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 );`
			`this.textureMatrix.multiply(this.mirrorCamera.projectionMatrix);`
			`this.textureMatrix.multiply(this.mirrorCamera.matrixWorldInverse);`

			`// 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`
			`this.mirrorPlane.setFromNormalAndCoplanarPoint( this.normal, this.mirrorWorldPosition );`
			`this.mirrorPlane.applyMatrix4(this.mirrorCamera.matrixWorldInverse);`

			`this.clipPlane.set(this.mirrorPlane.normal.x, this.mirrorPlane.normal.y, this.mirrorPlane.normal.z, this.mirrorPlane.constant );`

			`var q = new THREE.Vector4();`
			`var projectionMatrix = this.mirrorCamera.projectionMatrix;`

			`q.x = (sign(this.clipPlane.x) + projectionMatrix.elements[8]) / projectionMatrix.elements[0];`
			`q.y = (sign(this.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`
			`var c = new THREE.Vector4();`
			`c = this.clipPlane.multiplyScalar( 2.0 / this.clipPlane.dot(q) );`

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

			`var worldCoordinates = new THREE.Vector3();`
			`worldCoordinates.setFromMatrixPosition( this.camera.matrixWorld );`
			`this.eye = worldCoordinates;`
			`this.material.uniforms.eye.value = this.eye;`
			`};`