js代码

! function() {
  //封装方法,压缩之后减少文件大小
  function get_attribute(node, attr, default_value) {
    return node.getAttribute(attr) || default_value;
  }
  //封装方法,压缩之后减少文件大小
  function get_by_tagname(name) {
    return document.getElementsByTagName(name);
  }
  //获取配置参数
  function get_config_option() {
    var scripts = get_by_tagname("script"),
      script_len = scripts.length,
      script = scripts[script_len - 1]; //当前加载的script
    return {
      l: script_len, //长度,用于生成id用
      z: get_attribute(script, "zIndex", -1), //z-index
      o: get_attribute(script, "opacity", 0.5), //opacity
      c: get_attribute(script, "color", "0,0,0"), //color
      n: get_attribute(script, "count", 99) //count
    };
  }
  //设置canvas的高宽
  function set_canvas_size() {
    canvas_width = the_canvas.width = window.innerWidth || document.documentElement.clientWidth || document.body.clientWidth, 
    canvas_height = the_canvas.height = window.innerHeight || document.documentElement.clientHeight || document.body.clientHeight;
  }

  //绘制过程
  function draw_canvas() {
    context.clearRect(0, 0, canvas_width, canvas_height);
    //随机的线条和当前位置联合数组
    var e, i, d, x_dist, y_dist, dist; //临时节点
    //遍历处理每一个点
    random_points.forEach(function(r, idx) {
      r.x += r.xa, 
      r.y += r.ya, //移动
      r.xa *= r.x > canvas_width || r.x < 0 ? -1 : 1, 
      r.ya *= r.y > canvas_height || r.y < 0 ? -1 : 1, //碰到边界,反向反弹
      context.fillRect(r.x - 0.5, r.y - 0.5, 1, 1); //绘制一个宽高为1的点
      //从下一个点开始
      for (i = idx + 1; i < all_array.length; i++) {
        e = all_array[i];
        // 当前点存在
        if (null !== e.x && null !== e.y) {
          x_dist = r.x - e.x; //x轴距离 l
          y_dist = r.y - e.y; //y轴距离 n
          dist = x_dist * x_dist + y_dist * y_dist; //总距离, m

          dist < e.max && (e === current_point && dist >= e.max / 2 && (r.x -= 0.03 * x_dist, r.y -= 0.03 * y_dist), //靠近的时候加速
            d = (e.max - dist) / e.max,
            context.beginPath(),
            context.lineWidth = d / 2,
            context.strokeStyle = "rgba(" + config.c + "," + (d + 0.2) + ")",
            context.moveTo(r.x, r.y),
            context.lineTo(e.x, e.y),
            context.stroke());
        }
      }
    }), frame_func(draw_canvas);
  }
  //创建画布,并添加到body中
  var the_canvas = document.createElement("canvas"), //画布
    config = get_config_option(), //配置
    canvas_id = "c_n" + config.l, //canvas id
    context = the_canvas.getContext("2d"), canvas_width, canvas_height, 
    frame_func = window.requestAnimationFrame || window.webkitRequestAnimationFrame || window.mozRequestAnimationFrame || window.oRequestAnimationFrame || window.msRequestAnimationFrame || function(func) {
      window.setTimeout(func, 1000 / 45);
    }, random = Math.random, 
    current_point = {
      x: null, //当前鼠标x
      y: null, //当前鼠标y
      max: 20000 // 圈半径的平方
    },
    all_array;
  the_canvas.id = canvas_id;
  the_canvas.style.cssText = "position:fixed;top:0;left:0;z-index:" + config.z + ";opacity:" + config.o;
  get_by_tagname("body")[0].appendChild(the_canvas);

  //初始化画布大小
  set_canvas_size();
  window.onresize = set_canvas_size;
  //当时鼠标位置存储,离开的时候,释放当前位置信息
  window.onmousemove = function(e) {
    e = e || window.event;
    current_point.x = e.clientX;
    current_point.y = e.clientY;
  }, window.onmouseout = function() {
    current_point.x = null;
    current_point.y = null;
  };
  //随机生成config.n条线位置信息
  for (var random_points = [], i = 0; config.n > i; i++) {
    var x = random() * canvas_width, //随机位置
      y = random() * canvas_height,
      xa = 2 * random() - 1, //随机运动方向
      ya = 2 * random() - 1;
    // 随机点
    random_points.push({
      x: x,
      y: y,
      xa: xa,
      ya: ya,
      max: 6000 //沾附距离
    });
  }
  all_array = random_points.concat([current_point]);
  //0.1秒后绘制
  setTimeout(function() {
    draw_canvas();
  }, 100);
}();

新建lizi.js文件,上述代码拷贝进去再保存,放入站点根目录。

插入站点

下面代码插入到footer或header中

<script color="0,0,0" opacity="0.9" count="100" src="./lizi.js" type="text/javascript" charset="utf-8"></script>
		<!--color=“255,0,0” 背景粒子线的颜色值

				opacity=“0.5” 背景粒子线的透明度,一般设置成0.5-1之间

				count=“99” 背景粒子线的密度,建议不要太大,否则页面容易卡死
				
		-->

示例

Snipaste_2023-03-01_19-37-20