鼠标跟随电光粒子动画

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JavaScript

// UTIL
const PI = Math.PI,
  TWO_PI = Math.PI * 2;

// Init canvas
let canvas = document.createElement("canvas"),
  ctx = canvas.getContext("2d"),
  H = (canvas.height = window.innerHeight),
  W = (canvas.width = window.innerWidth);
document.body.appendChild(canvas);

// Mouse
let mouse = {
  x: W/2,
  y: H/2
};
canvas.onmousemove = function(event) {
  mouse.x = event.clientX - canvas.offsetLeft;
  mouse.y = event.clientY - canvas.offsetTop;
};
document.body.onresize = function(event){
  H = (canvas.height = window.innerHeight);
  W = (canvas.width = window.innerWidth);
}
// Let's go
class Arrow {
  constructor(x, y, target) {
    this.position = new Vector(x, y);
    this.velocity = new Vector().fromAngle(Util.random(0,TWO_PI));
    this.acceleration = new Vector(0, 0);
    this.target = target;
    this.travelled_distance = 0;
    this.min_size = 1;
    this.max_size = 6;
    this.size = Util.random(this.min_size, this.max_size);
    this.zone = this.size * 4;
    this.topSpeed = Util.map(this.size,this.min_size,this.max_size,40,10);
    let tailLength = Math.floor(Util.map(this.size, this.min_size, this.max_size, 4, 16));
    this.tail = [];
    for (let i = 0; i < tailLength; i++) {
      this.tail.push({
        x: this.position.x,
        y: this.position.y
      });
    }
    this.wiggle_speed = Util.map(this.size, this.min_size, this.max_size, 2 , 1.2);
    this.blink_offset = Util.random(0, 100);
    this.alpha = Util.random(0.1,1)
  }
  render() {
    this.update();
    this.draw();
  }
  update() {
    let old_position = this.position.copy();
    // Focus on target
    let t = new Vector(this.target.x, this.target.y),
      angle = this.position.angle(t);
    let d_f_target = t.dist(this.position);
      let f = new Vector().fromAngle(angle);

f.setMag(Util.map(Util.clamp(d_f_target,0,400), 0, 400, 0, this.topSpeed * 0.1));
      this.addForce(f);
    
    // Update position and velocity
    this.velocity.add(this.acceleration);
    if(d_f_target < 800){
       this.velocity.limit(Util.map(Util.clamp(d_f_target,0,800), 0, 800, this.topSpeed*0.4, this.topSpeed));
       }else{
         this.velocity.limit(this.topSpeed);
       }
    this.position.add(this.velocity);
    // Reset acceleration for the next loop
    this.acceleration.mult(0);
    this.travelled_distance += old_position.dist(this.position);

let wiggle =
        Math.sin(frame * this.wiggle_speed) *
        Util.map(this.velocity.mag(), 0, this.topSpeed, 0, this.size);
      let w_a = this.velocity.heading() + Math.PI / 2;

let w_x = this.position.x + Math.cos(w_a) * wiggle,
        w_y = this.position.y + Math.sin(w_a) * wiggle;

this.travelled_distance = 0;
      let from = this.tail.length - 1,
        to = 0;
          let n = new Vector().fromAngle(Util.random(0,TWO_PI));
      n.setMag(Math.random()*this.size);

var tail = { x: w_x+ n.x, y: w_y + n.y};
      this.tail.splice(from, 1);
      this.tail.splice(to, 0, tail);
    
  }
  draw() {
    
        let energy = Util.map(this.velocity.mag(),0,this.topSpeed,0.1,1);

let color =
      "hsl("+Math.sin((frame + this.blink_offset) * 0.1) * 360+",50%,"+
        
        Util.map(this.velocity.mag(),0,this.topSpeed,40,100) * this.alpha
    
    +"%)";
    ctx.globalAlpha = this.alpha;

ctx.strokeStyle = color;
    for (let i = 0; i < this.tail.length - 1; i++) {
      let t = this.tail[i],
        next_t = this.tail[i + 1];
      ctx.lineWidth = Util.map(i, 0, this.tail.length - 1, this.size, 1);
      ctx.beginPath();
      ctx.moveTo(t.x, t.y);
      ctx.lineTo(next_t.x, next_t.y);
      ctx.closePath();
      ctx.stroke();
    }
    
    
let gradient_size = 140 * energy;
var grd = ctx.createRadialGradient(
  this.position.x,this.position.y , 5,
  this.position.x,this.position.y, gradient_size);
grd.addColorStop(0, "rgba(255,255,255,0.01)");
grd.addColorStop(0.1, "rgba(255,120,200,0.02)");
grd.addColorStop(0.9, "rgba(255,255,120,0)");
grd.addColorStop(1, "rgba(0,0,0,0)");

// Fill with gradient
ctx.fillStyle = grd;
ctx.fillRect(this.position.x - gradient_size / 2 ,this.position.y - gradient_size / 2 , gradient_size, gradient_size); 
    
    ctx.globalAlpha = energy+0.2;
    ctx.fillStyle = "white";
    for(let i = 0; i < 4; i++){
      let n = new Vector().fromAngle(Util.random(0,TWO_PI));
      n.setMag(Math.random()*energy*100);
      n.add(this.position);
      ctx.beginPath();
      ctx.arc(n.x,n.y,Math.random(),0,TWO_PI)
      ctx.fill();
    }
    
  }
  addForce(vector) {
    this.acceleration.add(vector);
  }
  avoid(others) {
    others.forEach(other => {
      if (other !== this) {
        let dist = this.position.dist(other.position),
          max_dist = this.zone + other.size;
        if (max_dist - dist >= 0) {
          let angle = other.position.angle(this.position);
          let force = new Vector().fromAngle(angle);
          force.setMag(Util.map(dist, 0, max_dist, 2, 0));
          this.addForce(force);
        }
      }
    });
  }
}

let arrows = [];

for (let i = 0; i < 100; i++) {
  arrows.push(new Arrow(W / 2, H / 2, mouse));
}
let frame = 0;

ctx.strokeStyle = "white";

loop();

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