Three.js / Webgl X-RAY效果 [英] Three.js / Webgl X-RAY effect
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问题描述
如何在three.js / webgl中实现x射线风格的效果?某种类型
How to achieve an x-ray-style effect in three.js / webgl? Some sort of this
我需要使用这些东西进行实时渲染,而不是静止图像。这可以通过着色器完成,着色器基于距离在重叠上以非线性方式改变密度。我简单理解理论,但没有练习,这就是我需要帮助的原因
I need real-time render with this stuff, not a still image. This can be done with shaders, that change density in non-linear way on overlaps based on distance. I briefly understand theory, but have no practice, that is why I need help with this
推荐答案
好的,得到了可接受的结果:
Ok, got acceptable result with this:
<!DOCTYPE html>
<html>
<head>
<title>X-ray</title>
<script type="text/javascript" src="js/three.js/build/three.js"></script>
<script type="text/javascript" src="js/three.js/examples/js/loaders/OBJLoader.js"></script>
<script src="http://ajax.googleapis.com/ajax/libs/jquery/2.1.1/jquery.min.js"></script>
<script type="text/javascript" src="js/stats.min.js"></script>
<script type="text/javascript" src="js/three.js/examples/js/renderers/SVGRenderer.js"></script>
<script id="vertexShader" type="x-shader/x-vertex">
uniform vec3 viewVector;
uniform float c;
uniform float p;
varying float intensity;
void main()
{
vec3 vNormal = normalize( normalMatrix * normal );
vec3 vNormel = normalize( normalMatrix * viewVector );
intensity = pow( c - dot(vNormal, vNormel), p );
gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );
}
</script>
<!-- fragment shader a.k.a. pixel shader -->
<script id="fragmentShader" type="x-shader/x-vertex">
uniform vec3 glowColor;
varying float intensity;
void main()
{
vec3 glow = glowColor * intensity;
gl_FragColor = vec4( glow, 1.0 );
}
</script>
<style>
body {
/* set margin to 0 and overflow to hidden, to go fullscreen */
margin: 0;
overflow: hidden;
}
</style>
</head>
<body>
<div id="Stats-output">
</div>
<!-- Div which will hold the Output -->
<div id="WebGL-output">
</div>
<!-- Javascript code that runs our Three.js examples -->
<script type="text/javascript">
// once everything is loaded, we run our Three.js stuff.
$(function () {
var mouseX = 0, mouseY = 0;
var human;
camstep = 0;
var stats = initStats();
// create a scene, that will hold all our elements such as objects, cameras and lights.
var scene = new THREE.Scene();
// create a camera, which defines where we're looking at.
var camera = new THREE.PerspectiveCamera(45, window.innerWidth / window.innerHeight, 0.1, 1000);
// create a render and set the size
var renderer = new THREE.WebGLRenderer({antialias: true, alpha: true});
renderer.setClearColor(0x000000, 1.0);
renderer.setSize(window.innerWidth, window.innerHeight);
renderer.shadowMapEnabled = true;
renderer.shadowMapType = THREE.PCFShadowMap;
materialCameraPosition = camera.position.clone();
materialCameraPosition.z += 10;
// position and point the camera to the center of the scene
camera.position.x = -10;
camera.position.y = 0;
camera.position.z = 15;
lookAt = scene.position;
lookAt.y = 15;
camera.lookAt(lookAt);
// add subtle ambient lighting
var ambientLight = new THREE.AmbientLight(0x0c0c0c);
//scene.add(ambientLight);
// add the output of the renderer to the html element
$("#WebGL-output").append(renderer.domElement);
var customMaterial = new THREE.ShaderMaterial(
{
uniforms: {
"c": { type: "f", value: 1.0 },
"p": { type: "f", value: 3 },
glowColor: { type: "c", value: new THREE.Color(0x84ccff) },
viewVector: { type: "v3", value: materialCameraPosition }
},
vertexShader: document.getElementById('vertexShader').textContent,
fragmentShader: document.getElementById('fragmentShader').textContent,
side: THREE.FrontSide,
blending: THREE.AdditiveBlending,
transparent: true,
//opacity: 0.5,
depthWrite: false
});
var manager = new THREE.LoadingManager();
manager.onProgress = function (item, loaded, total) {
console.log(item, loaded, total);
};
var loader = new THREE.OBJLoader(manager);
loader.load('body_anatomy3.obj', function (object) {
console.log(object);
object.traverse(function (child) {
if (child instanceof THREE.Mesh) {
console.log(child);
child.material = customMaterial;
}
});
object.position.y = 4;
object.scale.x = 0.01;
object.scale.y = 0.01;
object.scale.z = 0.01;
human = object;
scene.add(human);
});
// call the render function
var step = 0;
render();
function render() {
stats.update();
camstep += 0.02;
camera.position.x = -20 * (Math.cos(camstep));
camera.position.z = (20 * (Math.sin(camstep)));
camera.position.y = 20;
camera.lookAt(lookAt);
if (human) {
//human.rotation.y += 0.02;
materialCameraPosition = camera.position.clone();
materialCameraPosition.z += 10;
human.traverse(function (child) {
if (child instanceof THREE.Mesh) {
//console.log(child.material.uniforms.viewVector);
child.material.uniforms.viewVector.value =
new THREE.Vector3().subVectors(camera.position, human.position);
}
});
}
//sphere.material.uniforms.viewVector.value = new THREE.Vector3().subVectors(camera.position, sphere.position);
// render using requestAnimationFrame
requestAnimationFrame(render);
renderer.render(scene, camera);
}
function initStats() {
var stats = new Stats();
stats.setMode(0); // 0: fps, 1: ms
// Align top-left
stats.domElement.style.position = 'absolute';
stats.domElement.style.left = '0px';
stats.domElement.style.top = '0px';
$("#Stats-output").append(stats.domElement);
return stats;
}
});
</script>
</body>
</html>
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