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                <script id="fragShader" type="shader-code">
		uniform vec2 res;//The width and height of our screen
		uniform sampler2D bufferTexture;//Our input texture
		uniform vec3 smokeSource;//The x,y are the posiiton. The z is the power/density
		void main() {
	        vec2 pixel = gl_FragCoord.xy / res.xy;
	        gl_FragColor = texture2D( bufferTexture, pixel );

	        //Get the distance of the current pixel from the smoke source
	        float dist = distance(smokeSource.xy,gl_FragCoord.xy);
	        //Generate smoke when mouse is pressed
			gl_FragColor.rgb += smokeSource.z * max(15.0-dist,0.0);
     //Smoke diffuse
	        float xPixel = 1.0/res.x;//The size of a single pixel
	        float yPixel = 1.0/res.y;
	        vec4 rightColor = texture2D(bufferTexture,vec2(pixel.x+xPixel,pixel.y));
	        vec4 leftColor = texture2D(bufferTexture,vec2(pixel.x-xPixel,pixel.y));
	        vec4 upColor = texture2D(bufferTexture,vec2(pixel.x,pixel.y+yPixel));
	        vec4 downColor = texture2D(bufferTexture,vec2(pixel.x,pixel.y-yPixel));
			//Diffuse equation
	        float factor = 14.0 * 0.016 * (leftColor.r + rightColor.r + downColor.r + upColor.r - 4.0 * gl_FragColor.r);
//We have to account for the low precision of texels
float minimum = 0.003;
if(factor >= -minimum && factor < 0.0) factor = -minimum;

gl_FragColor.rgb += factor;


                /* We want our scene to span the entire window */
		body { margin: 0; }


                //@author Omar Shehata. 2015.
		//We are loading the Three.js library from the cdn here:
		var scene;
		var camera;
		var renderer;

		function scene_setup(){
			//This is the basic scene setup
			scene = new THREE.Scene();
			var width = window.innerWidth;
			var height = window.innerHeight;
			//Note that we're using an orthographic camera here rather than a prespective
			camera = new THREE.OrthographicCamera( width / - 2, width / 2, height / 2, height / - 2, 1, 1000 );
			camera.position.z = 2;

			renderer = new THREE.WebGLRenderer();
			renderer.setSize( window.innerWidth, window.innerHeight );
			document.body.appendChild( renderer.domElement );

		//Initialize the Threejs scene
		var bufferScene;
		var textureA;
		var textureB;
		var bufferMaterial;
		var plane;
		var bufferObject;
		var finalMaterial;
		var quad;

		function buffer_texture_setup(){
			//Create buffer scene
			bufferScene = new THREE.Scene();
			//Create 2 buffer textures
			textureA = new THREE.WebGLRenderTarget( window.innerWidth, window.innerHeight, { minFilter: THREE.LinearFilter, magFilter: THREE.NearestFilter});
			textureB = new THREE.WebGLRenderTarget( window.innerWidth, window.innerHeight, { minFilter: THREE.LinearFilter, magFilter: THREE.NearestFilter} );
			//Pass textureA to shader
			bufferMaterial = new THREE.ShaderMaterial( {
				uniforms: {
				 bufferTexture: { type: "t", value: textureA },
				 res : {type: 'v2',value:new THREE.Vector2(window.innerWidth,window.innerHeight)},//Keeps the resolution
				 smokeSource: {type:"v3",value:new THREE.Vector3(0,0,0)}///This keeps the position of the mouse and whether it was clicked or not
				fragmentShader: document.getElementById( 'fragShader' ).innerHTML
			} );
			plane = new THREE.PlaneBufferGeometry( window.innerWidth, window.innerHeight );
			bufferObject = new THREE.Mesh( plane, bufferMaterial );

			//Draw textureB to screen 
			finalMaterial =  new THREE.MeshBasicMaterial({map: textureB});
			quad = new THREE.Mesh( plane, finalMaterial );

		//Send position of smoke source with value
		var mouseDown = false;
		function UpdateMousePosition(X,Y){
			var mouseX = X;
		  	var mouseY = window.innerHeight - Y;
		  	bufferMaterial.uniforms.smokeSource.value.x = mouseX;
		  	bufferMaterial.uniforms.smokeSource.value.y = mouseY;
		document.onmousemove = function(event){

		document.onmousedown = function(event){
			mouseDown = true;
			bufferMaterial.uniforms.smokeSource.value.z = 0.1;
		document.onmouseup = function(event){
			mouseDown = false;
			bufferMaterial.uniforms.smokeSource.value.z = 0;

		//Render everything!
		function render() {

		  requestAnimationFrame( render );
		   //Draw to textureB
		  //Swap textureA and B
		  var t = textureA;
		  textureA = textureB;
		  textureB = t; = textureB;
		  bufferMaterial.uniforms.bufferTexture.value = textureA;

		  //Finally, draw to the screen
		  renderer.render( scene, camera );