基于面向对象思想封装一个水球插件

首先上图，

需要一个环形的水球，没错，我和大家想的一样，去把插件，可是没有一个满意的插件，败兴而归啊；自己动手实践；下面对于开发思路总结：

1.绘制图型需要canvas,canvas中我们需要绘制圆，裁切，绘制文字，进度绘制其实也是圆

2.html5元素canvas

3.是否需要其他的插件做为依赖，为了高的移植性和复制性，那么我打算去掉了依赖的jquery等

好了，先开始第一版

<!DOCTYPE html>
<html lang="en">
  <head>
    <meta charset="UTF-8" />
    <title>test</title>
    <style>
      body {
        display: flex;
        flex-flow: column wrap;
        justify-content: center;
        align-items: center;
      }
      #c {
        margin-top: 20px;
        background: #435ae4;
      }
    </style>
  </head>
  <body>
    <canvas id="canvas">当前浏览器不支持canvas 请升级！</canvas>
  </body>
  <script>
    canvas = document.getElementById("canvas");
    ctx = canvas.getContext("2d");
    datas = 100;
    M = Math;
    Sin = M.sin;
    Cos = M.cos;
    Sqrt = M.sqrt;
    Pow = M.pow;
    PI = M.PI;
    Round = M.round;
    oW = canvas.width = 250;
    oH = canvas.height = 250;
    canvas.style.borderRadius = "50%";
    // 线宽
    lineWidth = 1;
    // 大半径
    r = oW / 2;
    cR = r - 1 * lineWidth;
    ctx.beginPath();
    ctx.lineWidth = lineWidth;
    // 水波动画初始参数
    axisLength = 2 * r - 16 * lineWidth; // Sin 图形长度
    unit = axisLength / 9; // 波浪宽
    range = 0.4; // 浪幅
    nowrange = range;
    xoffset = 8 * lineWidth; // x 轴偏移量
    data = datas / 100; // 数据量
    sp = 0; // 周期偏移量
    nowdata = 0;
    waveupsp = 0.006; // 水波上涨速度
    // 圆动画初始参数
    arcStack = []; // 圆栈
    bR = r - 20 * lineWidth;
    soffset = -(PI / 2); // 圆动画起始位置
    circleLock = true; // 起始动画锁
    // 获取圆动画轨迹点集
    for (var i = soffset; i < soffset + 2 * PI; i += 1 / (8 * PI)) {
      arcStack.push([r + bR * Cos(i), r + bR * Sin(i)]);
    }
    // 圆起始点
    cStartPoint = arcStack.shift();
    ctx.fillStyle = "transparent";
    ctx.moveTo(cStartPoint[0], cStartPoint[1]);
    ctx.fill();
    // 开始渲染
    render();
    function drawSine() {
      ctx.beginPath();
      ctx.save();
      var Stack = []; // 记录起始点和终点坐标
      for (var i = xoffset; i <= xoffset + axisLength; i += 20 / axisLength) {
        var x = sp + (xoffset + i) / unit;
        var y = Sin(x) * nowrange;
        var dx = i;
        var dy = 2 * cR * (1 - nowdata) + (r - cR) - unit * y;
        ctx.lineTo(dx, dy);
        Stack.push([dx, dy]);
      }
      // 获取初始点和结束点
      var startP = Stack[0];
      var endP = Stack[Stack.length - 1];
      ctx.lineTo(xoffset + axisLength, oW);
      ctx.lineTo(xoffset, oW);
      ctx.lineTo(startP[0], startP[1]);
      ctx.fillStyle = "#3B7BF8";
      ctx.fill();
      ctx.restore();
    }

    function drawText() {
      ctx.globalCompositeOperation = "source-over";
      var size = 0.4 * cR;
      ctx.font = "bold " + size + "px Microsoft Yahei";
      txt = (nowdata.toFixed(2) * 100).toFixed(0) + "%";
      var fonty = r + size / 2;
      var fontx = r - size * 0.8;
      ctx.fillStyle = "#9E90EF";
      ctx.textAlign = "center";
      ctx.fillText(txt, r + 5, r + 20);
    }
    //最外面淡黄色圈
    function drawCircle() {
      ctx.beginPath();
      ctx.lineWidth = 15;
      ctx.strokeStyle = "#3F1EB9";
      ctx.arc(r, r, cR - 6.1, 0, 2 * Math.PI);
      ctx.stroke();
      ctx.restore();
    }
    //灰色圆圈
    function grayCircle() {
      ctx.beginPath();
      ctx.lineWidth = 1;
      ctx.strokeStyle = "transparent";
      ctx.arc(r, r, cR + 10, 0, 2 * Math.PI);
      ctx.stroke();
      ctx.restore();
      ctx.beginPath();
    }
    //橘黄色进度圈
    function orangeCircle() {
      ctx.beginPath();
      ctx.strokeStyle = "#B0BAEE";
      //使用这个使圆环两端是圆弧形状
      ctx.lineCap = "round";
      ctx.arc(
        r,
        r,
        cR - 4,
        0 * (Math.PI / 180.0) - Math.PI / 2,
        nowdata * 360 * (Math.PI / 180.0) - Math.PI / 2
      );
      ctx.stroke();
      ctx.save();
    }
    //裁剪中间水圈
    function clipCircle() {
      ctx.beginPath();
      ctx.arc(r, r, cR - 10, 0, 2 * Math.PI, false);
      ctx.clip();
    }
    //渲染canvas
    function render() {
      ctx.clearRect(0, 0, oW, oH);
      //最外面淡黄色圈
      drawCircle();
      //灰色圆圈
      grayCircle();
      //橘黄色进度圈
      orangeCircle();
      //裁剪中间水圈
      clipCircle();
      // 控制波幅

      if (data >= 0.85) {
        if (nowrange > range / 4) {
          var t = range * 0.01;
          nowrange -= t;
        }
      } else if (data <= 0.1) {
        if (nowrange < range * 1.5) {
          var t = range * 0.01;
          nowrange += t;
        }
      } else {
        if (nowrange <= range) {
          var t = range * 0.01;
          nowrange += t;
        }
        if (nowrange >= range) {
          var t = range * 0.01;
          nowrange -= t;
        }
      }
      if (data - nowdata > 0) {
        nowdata += waveupsp;
      }
      if (data - nowdata < 0) {
        nowdata -= waveupsp;
      }
      sp += 0.07;
      // 开始水波动画
      drawSine();
      // 写字
      drawText();
      requestAnimationFrame(render);
    }
  </script>
</html>

但是这样并不友好，每一次都需要写这么长的脚本，实在不符合前端的工程化编程；进入优化时代：

1.我们可以像swiper那样通过一个对象来实例化每一个轮播对象，那么我们也创建一个对象实例化我们的水球

2.确定一些可变的参数：比如背景色，进度条的颜色，

3.对象内的方法私有化，减少全局使用

4.独立我们需要的水球效果脚本，只需要传入id和实例化参数可以实现不同的样式

5.对于不输入参数的，我们实例化时自动配置默认的一些参数；

/**
 *  author:starry
 *  version:0.0.1;
 *  params:{
 *    id：canvans的id,默认canvas string
 *    text：为空则不显示，水纹的字体颜色 string
 *    textC：字体颜色，默认是#000, string
 *    r:圆球半径大小 number
 *    lineW：线条的粗细 number
 *    data：进度数据，number
 *    pC: 进度条颜色  string
 *    wc：水球颜色    string
 *    bg: canvas背景色 string
 * }
 *
 */
function getWater(options) {
  let id = options.id ? options.id : "canvas";
  let text = options.text ? options.text : "";
  let textC = options.textC ? options.textC : "#000";
  let r = options.r ? options.r : 200;
  let lineW = options.w ? options.w : 1;
  let data = options.data ? options.data : 30;
  let progress = options.pC ? options.pC : "";
  let wc = options.wc ? options.wc : "#3B7BF8";
  let bg = options.bg ? options.bg : "#fff";
  canvas = document.getElementById(id);

  this.ctx = canvas.getContext("2d");

  M = Math;
  Sin = M.sin;
  Cos = M.cos;
  Sqrt = M.sqrt;
  Pow = M.pow;
  PI = M.PI;
  Round = M.round;
  oW = canvas.width = r;
  oH = canvas.height = r;
  if (options.bg != "") {
    canvas.style.borderRadius = "50%";
  }
  canvas.style.background = bg;
  // 线宽
  lineWidth = lineW;
  // 大半径
  r = oW / 2;
  cR = r - 1 * lineWidth;
  this.ctx.beginPath();
  this.ctx.lineWidth = lineWidth;
  // 水波动画初始参数
  axisLength = 2 * r - 16 * lineWidth; // Sin 图形长度
  unit = axisLength / 9; // 波浪宽
  range = 0.4; // 浪幅
  nowrange = range;
  xoffset = 8 * lineWidth; // x 轴偏移量
  this.data = data / 100; // 数据量
  sp = 0; // 周期偏移量
  this.nowdata = 0;
  waveupsp = 0.006; // 水波上涨速度
  // 圆动画初始参数
  arcStack = []; // 圆栈
  bR = r - 20 * lineWidth;
  soffset = -(PI / 2); // 圆动画起始位置
  circleLock = true; // 起始动画锁
  // 获取圆动画轨迹点集
  for (var i = soffset; i < soffset + 2 * PI; i += 1 / (8 * PI)) {
    arcStack.push([r + bR * Cos(i), r + bR * Sin(i)]);
  }
  // 圆起始点
  cStartPoint = arcStack.shift();
  this.ctx.fillStyle = "transparent";
  this.ctx.moveTo(cStartPoint[0], cStartPoint[1]);
  this.ctx.fill();
  // 开始渲染
  this.drawSine = function() {
    this.ctx.beginPath();
    this.ctx.save();
    var Stack = []; // 记录起始点和终点坐标
    for (var i = xoffset; i <= xoffset + axisLength; i += 20 / axisLength) {
      var x = sp + (xoffset + i) / unit;
      var y = Sin(x) * nowrange;
      var dx = i;
      var dy = 2 * cR * (1 - that.nowdata) + (r - cR) - unit * y;
      this.ctx.lineTo(dx, dy);
      Stack.push([dx, dy]);
    }
    // 获取初始点和结束点
    var startP = Stack[0];
    var endP = Stack[Stack.length - 1];
    this.ctx.lineTo(xoffset + axisLength, oW);
    this.ctx.lineTo(xoffset, oW);
    this.ctx.lineTo(startP[0], startP[1]);
    this.ctx.fillStyle = wc;
    this.ctx.fill();
    this.ctx.restore();
  };
  this.drawText = function() {
    this.ctx.globalCompositeOperation = "source-over";
    var size = 0.4 * cR;
    this.ctx.font = "bold " + size + "px Microsoft Yahei";

    if (typeof text == "number") {
      txt = (that.nowdata.toFixed(2) * 100).toFixed(0) + "%";
    } else {
      txt = text;
    }

    var fonty = r + size / 2;
    var fontx = r - size * 0.8;
    this.ctx.fillStyle = textC;
    this.ctx.textAlign = "center";
    this.ctx.fillText(txt, r + 5, r + 20);
  };
  //最外面淡黄色圈
  this.drawCircle = function() {
    this.ctx.beginPath();
    this.ctx.lineWidth = 15;
    this.ctx.strokeStyle = progress;
    this.ctx.arc(r, r, cR - 6.1, 0, 2 * Math.PI);
    this.ctx.stroke();
    this.ctx.restore();
  };
  //灰色圆圈
  this.grayCircle = function() {
    this.ctx.beginPath();
    this.ctx.lineWidth = 1;
    this.ctx.strokeStyle = "transparent";
    this.ctx.arc(r, r, cR + 10, 0, 2 * Math.PI);
    this.ctx.stroke();
    this.ctx.restore();
    this.ctx.beginPath();
  };
  //橘黄色进度圈
  this.orangeCircle = function() {
    this.ctx.beginPath();
    this.ctx.strokeStyle = "#B0BAEE";
    //使用这个使圆环两端是圆弧形状
    this.ctx.lineCap = "round";
    this.ctx.arc(
      r,
      r,
      cR - 4,
      0 * (Math.PI / 180.0) - Math.PI / 2,
      that.nowdata * 360 * (Math.PI / 180.0) - Math.PI / 2
    );
    this.ctx.stroke();
    this.ctx.save();
  };
  //裁剪中间水圈
  this.clipCircle = function() {
    this.ctx.beginPath();
    this.ctx.arc(r, r, cR - 10, 0, 2 * Math.PI, false);
    this.ctx.clip();
  };
  var that = this;
  this.render = function() {
    that.ctx.clearRect(0, 0, oW, oH);
    //最外面淡黄色圈
    that.drawCircle();
    //灰色圆圈
    that.grayCircle();
    //橘黄色进度圈
    that.orangeCircle();
    //裁剪中间水圈
    that.clipCircle();
    // 控制波幅

    if (that.data >= 0.85) {
      if (nowrange > range / 4) {
        var t = range * 0.01;
        nowrange -= t;
      }
    } else if (that.data <= 0.1) {
      if (nowrange < range * 1.5) {
        var t = range * 0.01;
        nowrange += t;
      }
    } else {
      if (nowrange <= range) {
        var t = range * 0.01;
        nowrange += t;
      }
      if (nowrange >= range) {
        var t = range * 0.01;
        nowrange -= t;
      }
    }
    if (that.data - that.nowdata > 0) {
      that.nowdata += waveupsp;
    }
    if (that.data - that.nowdata < 0) {
      that.nowdata -= waveupsp;
    }
    sp += 0.07;
    // 开始水波动画
    that.drawSine();
    // 写字
    if (text != "") {
      that.drawText();
    }
    requestAnimationFrame(that.render);
  };
  this.render();

  //渲染canvas
}

这么一看我们示例化水球就好对多了

没错，就怎么new一下就可以了

但是发现一个问题进度条并没有随着数值的改变而改变只是和最后一个data:10保持一致，这个不可以啊，感觉弱爆了，不行再有化一下，

/**
 *  author:starry
 *  version:0.0.1;
 *  params:{
 *    id：canvans的id,默认canvas string
 *    text：为空则不显示，水纹的字体颜色 string
 *    textC：字体颜色，默认是#000, string
 *    r:圆球半径大小 number
 *    lineW：线条的粗细 number
 *    data：进度数据，number
 *    pC: 进度条颜色  string
 *    wc：水球颜色    string
 *    bg: canvas背景色 string
 * }
 *
 */
function getWater(options) {
  let id = options.id ? options.id : "canvas";
  let text = options.text ? options.text : "";
  let textC = options.textC ? options.textC : "#000";
  let r = options.r ? options.r : 200;
  let lineW = options.w ? options.w : 1;
  let data = options.data ? options.data : 30;
  let progress = options.pC ? options.pC : "";
  let wc = options.wc ? options.wc : "#3B7BF8";
  let bg = options.bg ? options.bg : "#fff";
  canvas = document.getElementById(id);

  this.ctx = canvas.getContext("2d");

  M = Math;
  Sin = M.sin;
  Cos = M.cos;
  Sqrt = M.sqrt;
  Pow = M.pow;
  PI = M.PI;
  Round = M.round;
  oW = canvas.width = r;
  oH = canvas.height = r;
  if (options.bg != "") {
    canvas.style.borderRadius = "50%";
  }
  canvas.style.background = bg;
  // 线宽
  lineWidth = lineW;
  // 大半径
  r = oW / 2;
  cR = r - 1 * lineWidth;
  this.ctx.beginPath();
  this.ctx.lineWidth = lineWidth;
  // 水波动画初始参数
  axisLength = 2 * r - 16 * lineWidth; // Sin 图形长度
  unit = axisLength / 9; // 波浪宽
  range = 0.4; // 浪幅
  nowrange = range;
  xoffset = 8 * lineWidth; // x 轴偏移量
  this.data = data / 100; // 数据量
  sp = 0; // 周期偏移量
  this.nowdata = 0;
  waveupsp = 0.006; // 水波上涨速度
  // 圆动画初始参数
  arcStack = []; // 圆栈
  bR = r - 20 * lineWidth;
  soffset = -(PI / 2); // 圆动画起始位置
  circleLock = true; // 起始动画锁
  // 获取圆动画轨迹点集
  for (var i = soffset; i < soffset + 2 * PI; i += 1 / (8 * PI)) {
    arcStack.push([r + bR * Cos(i), r + bR * Sin(i)]);
  }
  // 圆起始点
  cStartPoint = arcStack.shift();
  this.ctx.fillStyle = "transparent";
  this.ctx.moveTo(cStartPoint[0], cStartPoint[1]);
  this.ctx.fill();
  // 开始渲染
  this.drawSine = function() {
    this.ctx.beginPath();
    this.ctx.save();
    var Stack = []; // 记录起始点和终点坐标
    for (var i = xoffset; i <= xoffset + axisLength; i += 20 / axisLength) {
      var x = sp + (xoffset + i) / unit;
      var y = Sin(x) * nowrange;
      var dx = i;
      var dy = 2 * cR * (1 - that.nowdata) + (r - cR) - unit * y;
      this.ctx.lineTo(dx, dy);
      Stack.push([dx, dy]);
    }
    // 获取初始点和结束点
    var startP = Stack[0];
    var endP = Stack[Stack.length - 1];
    this.ctx.lineTo(xoffset + axisLength, oW);
    this.ctx.lineTo(xoffset, oW);
    this.ctx.lineTo(startP[0], startP[1]);
    this.ctx.fillStyle = wc;
    this.ctx.fill();
    this.ctx.restore();
  };
  this.drawText = function() {
    this.ctx.globalCompositeOperation = "source-over";
    var size = 0.4 * cR;
    this.ctx.font = "bold " + size + "px Microsoft Yahei";

    if (typeof text == "number") {
      txt = (that.nowdata.toFixed(2) * 100).toFixed(0) + "%";
    } else {
      txt = text;
    }

    var fonty = r + size / 2;
    var fontx = r - size * 0.8;
    this.ctx.fillStyle = textC;
    this.ctx.textAlign = "center";
    this.ctx.fillText(txt, r + 5, r + 20);
  };
  //最外面淡黄色圈
  this.drawCircle = function() {
    this.ctx.beginPath();
    this.ctx.lineWidth = 15;
    this.ctx.strokeStyle = progress;
    this.ctx.arc(r, r, cR - 6.1, 0, 2 * Math.PI);
    this.ctx.stroke();
    this.ctx.restore();
  };
  //灰色圆圈
  this.grayCircle = function() {
    this.ctx.beginPath();
    this.ctx.lineWidth = 1;
    this.ctx.strokeStyle = "transparent";
    this.ctx.arc(r, r, cR + 10, 0, 2 * Math.PI);
    this.ctx.stroke();
    this.ctx.restore();
    this.ctx.beginPath();
  };
  //橘黄色进度圈
  this.orangeCircle = function() {
    this.ctx.beginPath();
    this.ctx.strokeStyle = "#B0BAEE";
    //使用这个使圆环两端是圆弧形状
    this.ctx.lineCap = "round";
    this.ctx.arc(
      r,
      r,
      cR - 4,
      0 * (Math.PI / 180.0) - Math.PI / 2,
      that.nowdata * 360 * (Math.PI / 180.0) - Math.PI / 2
    );
    this.ctx.stroke();
    this.ctx.save();
  };
  //裁剪中间水圈
  this.clipCircle = function() {
    this.ctx.beginPath();
    this.ctx.arc(r, r, cR - 10, 0, 2 * Math.PI, false);
    this.ctx.clip();
  };
  var that = this;
  this.render = function() {
    that.ctx.clearRect(0, 0, oW, oH);
    //最外面淡黄色圈
    that.drawCircle();
    //灰色圆圈
    that.grayCircle();
    //橘黄色进度圈
    that.orangeCircle();
    //裁剪中间水圈
    that.clipCircle();
    // 控制波幅

    if (that.data >= 0.85) {
      if (nowrange > range / 4) {
        var t = range * 0.01;
        nowrange -= t;
      }
    } else if (that.data <= 0.1) {
      if (nowrange < range * 1.5) {
        var t = range * 0.01;
        nowrange += t;
      }
    } else {
      if (nowrange <= range) {
        var t = range * 0.01;
        nowrange += t;
      }
      if (nowrange >= range) {
        var t = range * 0.01;
        nowrange -= t;
      }
    }
    if (that.data - that.nowdata > 0) {
      that.nowdata += waveupsp;
    }
    if (that.data - that.nowdata < 0) {
      that.nowdata -= waveupsp;
    }
    sp += 0.07;
    // 开始水波动画
    that.drawSine();
    // 写字
    if (text != "") {
      that.drawText();
    }
    requestAnimationFrame(that.render);
  };
  this.render();

  //渲染canvas
}

最后附上我的实际最后的效果