JavaScript Canvas实现复杂酷炫的爱心表白用

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源码

<!doctype html>
<html>
<head>
<meta charset="utf-8">
<title>酷炫爱心表白</title>
<style>
body {
  background-color: #000;    
  margin: 0;
  overflow: hidden;
  background-repeat: no-repeat;
}</style>
</head>
<body>
<canvas id="canvas" width="1400" height="600"></canvas>

<script>
var canvas = document.getElementById("canvas");

canvas.width = window.innerWidth;
canvas.height = window.innerHeight;

// Initialize the GL context
var gl = canvas.getContext('webgl');
if(!gl){
  console.error("Unable to initialize WebGL.");
}

//Time
var time = 0.0;

//************** Shader sources **************

var vertexSource = `
attribute vec2 position;
void main() {
  gl_Position = vec4(position, 0.0, 1.0);
}
`;

var fragmentSource = `
precision highp float;

uniform float width;
uniform float height;
vec2 resolution = vec2(width, height);

uniform float time;

#define POINT_COUNT 8

vec2 points[POINT_COUNT];
const float speed = -0.5;
const float len = 0.25;
float intensity = 1.3;
float radius = 0.008;

//https://www.shadertoy.com/view/MlKcDD
//Signed distance to a quadratic bezier
float sdBezier(vec2 pos, vec2 A, vec2 B, vec2 C){    
  vec2 a = B - A;
  vec2 b = A - 2.0*B + C;
  vec2 c = a * 2.0;
  vec2 d = A - pos;

  float kk = 1.0 / dot(b,b);
  float kx = kk * dot(a,b);
  float ky = kk * (2.0*dot(a,a)+dot(d,b)) / 3.0;
  float kz = kk * dot(d,a);      

  float res = 0.0;

  float p = ky - kx*kx;
  float p3 = p*p*p;
  float q = kx*(2.0*kx*kx - 3.0*ky) + kz;
  float h = q*q + 4.0*p3;

  if(h >= 0.0){ 
    h = sqrt(h);
    vec2 x = (vec2(h, -h) - q) / 2.0;
    vec2 uv = sign(x)*pow(abs(x), vec2(1.0/3.0));
    float t = uv.x + uv.y - kx;
    t = clamp( t, 0.0, 1.0 );

    // 1 root
    vec2 qos = d + (c + b*t)*t;
    res = length(qos);
  }else{
    float z = sqrt(-p);
    float v = acos( q/(p*z*2.0) ) / 3.0;
    float m = cos(v);
    float n = sin(v)*1.732050808;
    vec3 t = vec3(m + m, -n - m, n - m) * z - kx;
    t = clamp( t, 0.0, 1.0 );

    // 3 roots
    vec2 qos = d + (c + b*t.x)*t.x;
    float dis = dot(qos,qos);
        
    res = dis;

    qos = d + (c + b*t.y)*t.y;
    dis = dot(qos,qos);
    res = min(res,dis);
    
    qos = d + (c + b*t.z)*t.z;
    dis = dot(qos,qos);
    res = min(res,dis);

    res = sqrt( res );
  }
    
  return res;
}


//http://mathworld.wolfram.com/HeartCurve.html
vec2 getHeartPosition(float t){
  return vec2(16.0 * sin(t) * sin(t) * sin(t),
              -(13.0 * cos(t) - 5.0 * cos(2.0*t)
              - 2.0 * cos(3.0*t) - cos(4.0*t)));
}

//https://www.shadertoy.com/view/3s3GDn
float getGlow(float dist, float radius, float intensity){
  return pow(radius/dist, intensity);
}

float getSegment(float t, vec2 pos, float offset, float scale){
  for(int i = 0; i < POINT_COUNT; i++){
    points[i] = getHeartPosition(offset + float(i)*len + fract(speed * t) * 6.28);
  }
    
  vec2 c = (points[0] + points[1]) / 2.0;
  vec2 c_prev;
  float dist = 10000.0;
    
  for(int i = 0; i < POINT_COUNT-1; i++){
    //https://tinyurl.com/y2htbwkm
    c_prev = c;
    c = (points[i] + points[i+1]) / 2.0;
    dist = min(dist, sdBezier(pos, scale * c_prev, scale * points[i], scale * c));
  }
  return max(0.0, dist);
}

void main(){
  vec2 uv = gl_FragCoord.xy/resolution.xy;
  float widthHeightRatio = resolution.x/resolution.y;
  vec2 centre = vec2(0.5, 0.5);
  vec2 pos = centre - uv;
  pos.y /= widthHeightRatio;
  //Shift upwards to centre heart
  pos.y += 0.02;
  float scale = 0.000015 * height;
  
  float t = time;
    
  //Get first segment
  float dist = getSegment(t, pos, 0.0, scale);
  float glow = getGlow(dist, radius, intensity);
  
  vec3 col = vec3(0.0);

  //White core
  col += 10.0*vec3(smoothstep(0.003, 0.001, dist));
  //Pink glow
  col += glow * vec3(1.0,0.05,0.3);
  
  //Get second segment
  dist = getSegment(t, pos, 3.4, scale);
  glow = getGlow(dist, radius, intensity);
  
  //White core
  col += 10.0*vec3(smoothstep(0.003, 0.001, dist));
  //Blue glow
  col += glow * vec3(0.1,0.4,1.0);
        
  //Tone mapping
  col = 1.0 - exp(-col);

  //Gamma
  col = pow(col, vec3(0.4545));

  //Output to screen
  gl_FragColor = vec4(col,1.0);
}
`;

//************** Utility functions **************

window.addEventListener('resize', onWindowResize, false);

function onWindowResize(){
  canvas.width  = window.innerWidth;
  canvas.height = window.innerHeight;
  gl.viewport(0, 0, canvas.width, canvas.height);
  gl.uniform1f(widthHandle, window.innerWidth);
  gl.uniform1f(heightHandle, window.innerHeight);
}


//Compile shader and combine with source
function compileShader(shaderSource, shaderType){
  var shader = gl.createShader(shaderType);
  gl.shaderSource(shader, shaderSource);
  gl.compileShader(shader);
  if(!gl.getShaderParameter(shader, gl.COMPILE_STATUS)){
    throw "Shader compile failed with: " + gl.getShaderInfoLog(shader);
  }
  return shader;
}

//From https://codepen.io/jlfwong/pen/GqmroZ
//Utility to complain loudly if we fail to find the attribute/uniform
function getAttribLocation(program, name) {
  var attributeLocation = gl.getAttribLocation(program, name);
  if (attributeLocation === -1) {
    throw 'Cannot find attribute ' + name + '.';
  }
  return attributeLocation;
}

function getUniformLocation(program, name) {
  var attributeLocation = gl.getUniformLocation(program, name);
  if (attributeLocation === -1) {
    throw 'Cannot find uniform ' + name + '.';
  }
  return attributeLocation;
}

//************** Create shaders **************

//Create vertex and fragment shaders
var vertexShader = compileShader(vertexSource, gl.VERTEX_SHADER);
var fragmentShader = compileShader(fragmentSource, gl.FRAGMENT_SHADER);

//Create shader programs
var program = gl.createProgram();
gl.attachShader(program, vertexShader);
gl.attachShader(program, fragmentShader);
gl.linkProgram(program);

gl.useProgram(program);

//Set up rectangle covering entire canvas 
var vertexData = new Float32Array([
  -1.0,  1.0,   // top left
  -1.0, -1.0,   // bottom left
   1.0,  1.0,   // top right
   1.0, -1.0,   // bottom right
]);

//Create vertex buffer
var vertexDataBuffer = gl.createBuffer();
gl.bindBuffer(gl.ARRAY_BUFFER, vertexDataBuffer);
gl.bufferData(gl.ARRAY_BUFFER, vertexData, gl.STATIC_DRAW);

// Layout of our data in the vertex buffer
var positionHandle = getAttribLocation(program, 'position');

gl.enableVertexAttribArray(positionHandle);
gl.vertexAttribPointer(positionHandle,
  2,        // position is a vec2 (2 values per component)
  gl.FLOAT, // each component is a float
  false,    // don't normalize values
  2 * 4,    // two 4 byte float components per vertex (32 bit float is 4 bytes)
  0         // how many bytes inside the buffer to start from
  );

//Set uniform handle
var timeHandle = getUniformLocation(program, 'time');
var widthHandle = getUniformLocation(program, 'width');
var heightHandle = getUniformLocation(program, 'height');

gl.uniform1f(widthHandle, window.innerWidth);
gl.uniform1f(heightHandle, window.innerHeight);

var lastFrame = Date.now();
var thisFrame;

function draw(){
  
  //Update time
  thisFrame = Date.now();
  time += (thisFrame - lastFrame)/1000; 
  lastFrame = thisFrame;

  //Send uniforms to program
  gl.uniform1f(timeHandle, time);
  //Draw a triangle strip connecting vertices 0-4
  gl.drawArrays(gl.TRIANGLE_STRIP, 0, 4);

  requestAnimationFrame(draw);
}

draw();

</script>

</body>
</html>