[WebGL] Dot-Screen Shader

이번 예제는 Dot Screen Shader 구현에 관한 것입니다.

또한 Shader Code는 Alfred Qualia에게 저작권이 있음을 알려 둡니다:

Visit Alfred Qualia's Web Page.

Download Project

14-03-shader-dot-screen.zip

Click here to view with full screen mode

Operations

Mouse Left Button Click & Drag: Camera Rotating

Mouse Wheel: Camera Zoom In & Out

Mouse Right Button Click & Drag: Camera Panning

main.js

// standard global variables
var container, scene, camera, renderer, controls, stats;
var keyboard = new THREEx.KeyboardState();
var clock = new THREE.Clock();
 
// custom global variables
var gui;
var shaderActive = "none";
 
// variables for shader
var composer, finalPass;
 
init();
animate();
 
// FUNCTIONS
function init()
{
    // SCENE
    scene = new THREE.Scene();
 
    // CAMERA
    var SCREEN_WIDTH = window.innerWidth, SCREEN_HEIGHT = window.innerHeight;
    var VIEW_ANGLE = 45, ASPECT = SCREEN_WIDTH / SCREEN_HEIGHT, NEAR = 0.1, FAR = 20000;
    camera = new THREE.PerspectiveCamera( VIEW_ANGLE, ASPECT, NEAR, FAR);
    scene.add(camera);
    camera.position.set(0,150,400);
    camera.lookAt(scene.position);
 
    // RENDERER
    if ( Detector.webgl )
        renderer = new THREE.WebGLRenderer( {antialias:true} );
    else
        renderer = new THREE.CanvasRenderer();
    renderer.setSize(SCREEN_WIDTH, SCREEN_HEIGHT);
    container = document.getElementById( 'ThreeJS' );
    container.appendChild( renderer.domElement );
    renderer.shadowMapEnabled = true;
    renderer.shadowMapSoft = true;
 
    // EVENTS
    THREEx.WindowResize(renderer, camera);
    THREEx.FullScreen.bindKey({ charCode : 'f'.charCodeAt(0) });
 
    // CONTROLS
    controls = new THREE.OrbitControls( camera, renderer.domElement );
 
    // STATS
    stats = new Stats();
    stats.domElement.style.position = 'absolute';
    stats.domElement.style.bottom = '0px';
    stats.domElement.style.zIndex = 100;
    container.appendChild( stats.domElement );
 
    // LIGHT
    var light = new THREE.PointLight(0xffffff);
    light.position.set(0,250,0);
    scene.add(light);
 
    var dirLight = new THREE.DirectionalLight(0xffc051);
    dirLight.position.set(-250,500,-150);
    dirLight.shadowDarkness = 0.95;
    dirLight.intensity = 2;
    dirLight.castShadow = true; // enable shadow casting ability for the light
    scene.add(dirLight);
 
    // FLOOR
    var floorTexture = new THREE.ImageUtils.loadTexture( 'img/Wood_floor.jpg' );
    floorTexture.wrapS = floorTexture.wrapT = THREE.RepeatWrapping; 
    floorTexture.repeat.set( 1, 1 );
    var floorMaterial = new THREE.MeshBasicMaterial( { map: floorTexture, side: THREE.DoubleSide } );
    var floorGeometry = new THREE.PlaneGeometry(1000, 1000, 10, 10);
    var floor = new THREE.Mesh(floorGeometry, floorMaterial);
    floor.position.y = -0.5;
    floor.rotation.x = Math.PI / 2;
    floor.receiveShadow = true;
    scene.add(floor);
    
    // SKYBOX/FOG
    var materialArray = [];
    materialArray.push(new THREE.MeshBasicMaterial( { map: THREE.ImageUtils.loadTexture( 'img/px.jpg' ) }));
    materialArray.push(new THREE.MeshBasicMaterial( { map: THREE.ImageUtils.loadTexture( 'img/nx.jpg' ) }));
    materialArray.push(new THREE.MeshBasicMaterial( { map: THREE.ImageUtils.loadTexture( 'img/py.jpg' ) }));
    materialArray.push(new THREE.MeshBasicMaterial( { map: THREE.ImageUtils.loadTexture( 'img/ny.jpg' ) }));
    materialArray.push(new THREE.MeshBasicMaterial( { map: THREE.ImageUtils.loadTexture( 'img/pz.jpg' ) }));
    materialArray.push(new THREE.MeshBasicMaterial( { map: THREE.ImageUtils.loadTexture( 'img/nz.jpg' ) }));
    for (var i = 0; i < 6; i++)
       materialArray[i].side = THREE.BackSide;
    var skyboxMaterial = new THREE.MeshFaceMaterial( materialArray );
    
    var skyboxGeom = new THREE.CubeGeometry( 5000, 5000, 5000, 1, 1, 1 );
    
    var skybox = new THREE.Mesh( skyboxGeom, skyboxMaterial );
    scene.add( skybox );
 
    
    ////////////
    // CUSTOM //
    ////////////
    var cubeGeometry = new THREE.CubeGeometry( 50, 50, 50 );
    var cubeTexture = new THREE.ImageUtils.loadTexture( 'img/0.png' );
    var cubeMaterial = new THREE.MeshBasicMaterial( { map: cubeTexture } );
    var cube = new THREE.Mesh( cubeGeometry, cubeMaterial );
    cube.position.set(-50,25,0);
    cube.castShadow = true;
    scene.add(cube);
 
    var cubeGeometry1 = new THREE.CubeGeometry( 50, 50, 50 );
    var cubeTexture1 = new THREE.ImageUtils.loadTexture( 'img/4.png' );
    var cubeMaterial1 = new THREE.MeshBasicMaterial( { map: cubeTexture1 } );
    var cube1 = new THREE.Mesh( cubeGeometry1, cubeMaterial1 );
    cube1.position.set(-150,25,0);
    cube1.castShadow = true;
    scene.add(cube1);
 
    var cubeGeometry2 = new THREE.CubeGeometry( 50, 50, 50 );
    var cubeTexture2 = new THREE.ImageUtils.loadTexture( 'img/9.png' );
    var cubeMaterial2 = new THREE.MeshBasicMaterial( { map: cubeTexture2 } );
    var cube2 = new THREE.Mesh( cubeGeometry2, cubeMaterial2 );
    cube2.position.set(150,25,0);
    cube2.castShadow = true;
    scene.add(cube2);
    
    var sphereGeometry = new THREE.SphereGeometry( 50, 32, 16 ); 
    var sphereTexture = new THREE.ImageUtils.loadTexture( 'img/8.png' );
    var sphereMaterial = new THREE.MeshBasicMaterial( { map: sphereTexture } );
    var sphere = new THREE.Mesh(sphereGeometry, sphereMaterial);
    sphere.position.set(50, 50, -50);
    sphere.castShadow = true;
    scene.add(sphere);
 
    
    /////////////////////
    // POST-PROCESSING //
    /////////////////////
    
    // GUI setup
    
    gui = new dat.GUI();
    
    parameters =
    {
        dotscreenAngle: 0.5, dotscreenScale: 0.8,
        useShaderNone:      function() { setupShaderNone();      },
        useShaderDotScreen: function() { setupShaderDotScreen(); }
    };
    
    gui.add( parameters, 'useShaderNone' ).name("Display Original Scene");
    
    var folderDotScreen = gui.addFolder('Dot Screen');
    var dotScreenAngleGUI = folderDotScreen.add( parameters, 'dotscreenAngle' ).min(0).max(3.14).step(0.01).name("Angle").listen();
    dotScreenAngleGUI.onChange(
        function(value)
        {   setupShaderDotScreen();   }
    );
    var dotScreenScaleGUI = folderDotScreen.add( parameters, 'dotscreenScale' ).min(0).max(2).step(0.01).name("Scale").listen();
    dotScreenScaleGUI.onChange(
        function(value)
        {   setupShaderDotScreen();   }
    );
    folderDotScreen.add( parameters, 'useShaderDotScreen' ).name("Use DotScreen Shader");
    folderDotScreen.open();
    
    setupShaderNone();
}
 
function setupShaderNone()
{
    shaderActive = "none";
}
 
function setupShaderDotScreen()
{
    composer = new THREE.EffectComposer( renderer );
    composer.addPass( new THREE.RenderPass( scene, camera ) );
    
    var effectDotScreen = new THREE.DotScreenPass( new THREE.Vector2(0,0), parameters.dotscreenAngle, parameters.dotscreenScale ); 
    effectDotScreen.renderToScreen = true; 
    composer.addPass(effectDotScreen); 
    shaderActive = "dotscreen";
}
 
function animate()
{
    requestAnimationFrame( animate );
    render();
    update();
}
 
function update()
{
    if ( keyboard.pressed("z") ) 
    { 
        // do something
    }
    
    controls.update();
    stats.update();
}
 
function render()
{
    if ( shaderActive == "none" )
        renderer.render( scene, camera );
    else
        composer.render();
}

DotScreenShader.js

/**
 * @author alteredq / http://alteredqualia.com/
 *
 * Dot screen shader
 * based on glfx.js sepia shader
 * https://github.com/evanw/glfx.js
 */
 
THREE.DotScreenShader = {
 
    uniforms: {
 
        "tDiffuse": { type: "t", value: null },
        "tSize":    { type: "v2", value: new THREE.Vector2( 256, 256 ) },
        "center":   { type: "v2", value: new THREE.Vector2( 0.5, 0.5 ) },
        "angle":    { type: "f", value: 1.57 },
        "scale":    { type: "f", value: 1.0 }
 
    },
 
    vertexShader: [
 
        "varying vec2 vUv;",
 
        "void main() {",
 
            "vUv = uv;",
            "gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );",
 
        "}"
 
    ].join("\n"),
 
    fragmentShader: [
 
        "uniform vec2 center;",
        "uniform float angle;",
        "uniform float scale;",
        "uniform vec2 tSize;",
 
        "uniform sampler2D tDiffuse;",
 
        "varying vec2 vUv;",
 
        "float pattern() {",
 
            "float s = sin( angle ), c = cos( angle );",
 
            "vec2 tex = vUv * tSize - center;",
            "vec2 point = vec2( c * tex.x - s * tex.y, s * tex.x + c * tex.y ) * scale;",
 
            "return ( sin( point.x ) * sin( point.y ) ) * 4.0;",
 
        "}",
 
        "void main() {",
 
            "vec4 color = texture2D( tDiffuse, vUv );",
 
            "float average = ( color.r + color.g + color.b ) / 3.0;",
 
            "gl_FragColor = vec4( vec3( average * 10.0 - 5.0 + pattern() ), color.a );",
 
        "}"
 
    ].join("\n")
 
};