方块着色器 · Shader Block · ▶ 在线运行案例
案例合集: 三维可视化功能案例(threehub.cn)
开源仓库github地址: https://github.com/z2586300277/three-cesium-examples
**400个案例代码: ** 网盘链接

你将学到什么
- ShaderMaterial 自定义着色器实现核心视觉效果
- OrbitControls 相机轨道交互
requestAnimationFrame渲染循环与resize自适应
效果说明
本案例演示 方块着色器 效果:基于 WebGL 实现「方块着色器」可视化效果,附完整可运行源码;核心用到 ShaderMaterial、OrbitControls。建议先打开文首在线案例查看动态画面,再对照下方源码逐步理解。
核心概念
- Scene / Camera / WebGLRenderer 构成最小渲染闭环;大场景可开
logarithmicDepthBuffer缓解 Z-fighting。 - ShaderMaterial 通过
uniforms+ 自定义 GLSL 控制逐像素/逐点效果;透明粒子常配合depthTest: false。 - OrbitControls 提供轨道旋转/缩放;开启
enableDamping后需在 animate 中controls.update()。
实现步骤
- 搭建 Scene、PerspectiveCamera、WebGLRenderer,挂载 canvas 并处理
resize - 定义 uniforms / onBeforeCompile 或 ShaderMaterial,编写 GLSL 与材质参数
- 创建 OrbitControls(及 Raycaster 等交互控件,若源码包含)
- 在
requestAnimationFrame循环中更新状态并 render(Cesium 为viewer.render或自动渲染)
代码要点
import * as THREE from 'three'
import { OrbitControls } from 'three/examples/jsm/controls/OrbitControls.js'
const box = document.getElementById('box')
const scene = new THREE.Scene()
const camera = new THREE.PerspectiveCamera(75, box.clientWidth / box.clientHeight, 0.1, 1000)
camera.position.set(0, 10, 10)
const renderer = new THREE.WebGLRenderer()
renderer.setSize(box.clientWidth, box.clientHeight)
box.appendChild(renderer.domElement)
new OrbitControls(camera, renderer.domElement)
window.onresize = () => {
renderer.setSize(box.clientWidth, box.clientHeight)
camera.aspect = box.clientWidth / box.clientHeight
camera.updateProjectionMatrix()
}
const uniforms = {
iResolution: {
type: 'v2',
value: new THREE.Vector2(box.clientWidth, box.clientHeight)
},
iTime: {
type: 'f',
value: 1.0
}
}
animate()
function animate() {
uniforms.iTime.value += 0.01
requestAnimationFrame(animate)
renderer.render(scene, camera)
}
let geometry = new THREE.PlaneGeometry(2, 2);
let material = new THREE.ShaderMaterial({
uniforms: uniforms,
vertexShader: `
void main() {
gl_Position = vec4( position, 1.0 );
}
`,
fragmentShader: `
// 屏幕尺寸
precision highp float;
uniform vec2 iResolution;
uniform float iTime;
float gTime = 0.;
const float REPEAT = 5.0;
// 回転行列
mat2 rot(float a) {
float c = cos(a), s = sin(a);
return mat2(c,s,-s,c);
}
float sdBox( vec3 p, vec3 b )
{
vec3 q = abs(p) - b;
return length(max(q,0.0)) + min(max(q.x,max(q.y,q.z)),0.0);
}
float box(vec3 pos, float scale) {
pos *= scale;
float base = sdBox(pos, vec3(.4,.4,.1)) /1.5;
pos.xy *= 5.;
pos.y -= 3.5;
pos.xy *= rot(.75);
float result = -base;
return result;
}
float box_set(vec3 pos, float iTime) {
vec3 pos_origin = pos;
pos = pos_origin;
pos .y += sin(gTime * 0.4) * 2.5;
pos.xy *= rot(.8);
float box1 = box(pos,2. - abs(sin(gTime * 0.4)) * 1.5);
pos = pos_origin;
pos .y -=sin(gTime * 0.4) * 2.5;
pos.xy *= rot(.8);
float box2 = box(pos,2. - abs(sin(gTime * 0.4)) * 1.5);
pos = pos_origin;
pos .x +=sin(gTime * 0.4) * 2.5;
pos.xy *= rot(.8);
float box3 = box(pos,2. - abs(sin(gTime * 0.4)) * 1.5);
pos = pos_origin;
pos .x -=sin(gTime * 0.4) * 2.5;
pos.xy *= rot(.8);
float box4 = box(pos,2. - abs(sin(gTime * 0.4)) * 1.5);
pos = pos_origin;
pos.xy *= rot(.8);
float box5 = box(pos,.5) * 6.;
pos = pos_origin;
float box6 = box(pos,.5) * 6.;
float result = max(max(max(max(max(box1,box2),box3),box4),box5),box6);
return result;
}
float map(vec3 pos, float iTime) {
vec3 pos_origin = pos;
float box_set1 = box_set(pos, iTime);
return box_set1;
}
void main() {
vec2 p = (gl_FragCoord.xy * 1. - iResolution.xy) / min(iResolution.x, iResolution.y);
vec3 ro = vec3(0., -0.2 ,iTime * 4.);
vec3 ray = normalize(vec3(p, 1.5));
ray.xy = ray.xy * rot(sin(iTime * .03) * 5.);
ray.yz = ray.yz * rot(sin(iTime * .05) * .2);
float t = 0.1;
vec3 col = vec3(0.);
float ac = 0.0;
for (int i = 0; i < 99; i++){
vec3 pos = ro + ray * t;
pos = mod(pos-2., 4.) -2.;
gTime = iTime -float(i) * 0.01;
float d = map(pos, iTime);
d = max(abs(d), 0.01);
ac += exp(-d*23.);
t += d* 0.55;
}
col = vec3(ac * 0.02);
col +=vec3(0.,0.2 * abs(sin(iTime)),0.5 + sin(iTime) * 0.2);
gl_FragColor = vec4(col ,1.0 - t * (0.02 + 0.02 * sin (iTime)));
}
`
});
let mesh = new THREE.Mesh(geometry, material);
scene.add(mesh);
完整源码:GitHub
小结
- 本文提供 方块着色器 完整 Three.js 源码与在线 Demo,建议先运行案例再改 uniform/参数做二次实验
- 更多 Three.js 实战案例见 three-cesium-examples 合集 与 GitHub 开源仓库