我正在尝试在 Canvas 上绘制一条曲线,沿曲线使用线性渐变描边样式,如 this image .在那个页面上有一个链接的 svg 文件,它给出了如何在 svg 中完成效果的说明。也许在 Canvas 中可以使用类似的方法?
最佳答案
演示:http://jsfiddle.net/m1erickson/4fX5D/
创建沿路径变化的渐变相当容易:
创建沿路径变化的渐变比较困难:
要在路径上创建渐变,您可以绘制许多与路径相切的渐变线:
如果您绘制足够多的切线,那么眼睛会将曲线视为路径上的渐变。
注意:锯齿可能出现在路径梯度的外侧。那是因为渐变实际上是由数百条切线组成的。但是您可以通过使用适当的颜色在渐变的任一侧绘制一条线来消除锯齿(此处的抗锯齿线在顶部为红色,在底部为紫色)。
以下是创建路径渐变的步骤:
沿路径绘制数百个点。
计算路径在这些点的角度。
在每个点上,创建一个线性渐变并绘制一条穿过该点切线的渐变描边线。是的,您必须为每个点创建一个新的渐变,因为线性渐变必须与与该点相切的线的角度相匹配。
为减少单独绘制多条线带来的锯齿效果,可以在渐变路径的顶部和底部绘制一条平滑的路径来覆盖锯齿。
下面是带注释的代码:
<!doctype html>
<html>
<head>
<link rel="stylesheet" type="text/css" media="all" href="css/reset.css" /> <!-- reset css -->
<script type="text/javascript" src="http://code.jquery.com/jquery.min.js"></script>
<style>
body{ background-color: ivory; }
#canvas{border:1px solid red;}
</style>
<script>
$(function(){
// canvas related variables
var canvas=document.getElementById("canvas");
var ctx=canvas.getContext("2d");
// variables defining a cubic bezier curve
var PI2=Math.PI*2;
var s={x:20,y:30};
var c1={x:200,y:40};
var c2={x:40,y:200};
var e={x:270,y:220};
// an array of points plotted along the bezier curve
var points=[];
// we use PI often so put it in a variable
var PI=Math.PI;
// plot 400 points along the curve
// and also calculate the angle of the curve at that point
for(var t=0;t<=100;t+=0.25){
var T=t/100;
// plot a point on the curve
var pos=getCubicBezierXYatT(s,c1,c2,e,T);
// calculate the tangent angle of the curve at that point
var tx = bezierTangent(s.x,c1.x,c2.x,e.x,T);
var ty = bezierTangent(s.y,c1.y,c2.y,e.y,T);
var a = Math.atan2(ty, tx)-PI/2;
// save the x/y position of the point and the tangent angle
// in the points array
points.push({
x:pos.x,
y:pos.y,
angle:a
});
}
// Note: increase the lineWidth if
// the gradient has noticable gaps
ctx.lineWidth=2;
// draw a gradient-stroked line tangent to each point on the curve
for(var i=0;i<points.length;i++){
// calc the topside and bottomside points of the tangent line
var offX1=points[i].x+20*Math.cos(points[i].angle);
var offY1=points[i].y+20*Math.sin(points[i].angle);
var offX2=points[i].x+20*Math.cos(points[i].angle-PI);
var offY2=points[i].y+20*Math.sin(points[i].angle-PI);
// create a gradient stretching between
// the calculated top & bottom points
var gradient=ctx.createLinearGradient(offX1,offY1,offX2,offY2);
gradient.addColorStop(0.00, 'red');
gradient.addColorStop(1/6, 'orange');
gradient.addColorStop(2/6, 'yellow');
gradient.addColorStop(3/6, 'green')
gradient.addColorStop(4/6, 'aqua');
gradient.addColorStop(5/6, 'blue');
gradient.addColorStop(1.00, 'purple');
// draw the gradient-stroked line at this point
ctx.strokeStyle=gradient;
ctx.beginPath();
ctx.moveTo(offX1,offY1);
ctx.lineTo(offX2,offY2);
ctx.stroke();
}
// draw a top stroke to cover jaggies
// on the top of the gradient curve
var offX1=points[0].x+20*Math.cos(points[0].angle);
var offY1=points[0].y+20*Math.sin(points[0].angle);
ctx.strokeStyle="red";
// Note: increase the lineWidth if this outside of the
// gradient still has jaggies
ctx.lineWidth=1.5;
ctx.beginPath();
ctx.moveTo(offX1,offY1);
for(var i=1;i<points.length;i++){
var offX1=points[i].x+20*Math.cos(points[i].angle);
var offY1=points[i].y+20*Math.sin(points[i].angle);
ctx.lineTo(offX1,offY1);
}
ctx.stroke();
// draw a bottom stroke to cover jaggies
// on the bottom of the gradient
var offX2=points[0].x+20*Math.cos(points[0].angle+PI);
var offY2=points[0].y+20*Math.sin(points[0].angle+PI);
ctx.strokeStyle="purple";
// Note: increase the lineWidth if this outside of the
// gradient still has jaggies
ctx.lineWidth=1.5;
ctx.beginPath();
ctx.moveTo(offX2,offY2);
for(var i=0;i<points.length;i++){
var offX2=points[i].x+20*Math.cos(points[i].angle+PI);
var offY2=points[i].y+20*Math.sin(points[i].angle+PI);
ctx.lineTo(offX2,offY2);
}
ctx.stroke();
//////////////////////////////////////////
// helper functions
//////////////////////////////////////////
// calculate one XY point along Cubic Bezier at interval T
// (where T==0.00 at the start of the curve and T==1.00 at the end)
function getCubicBezierXYatT(startPt,controlPt1,controlPt2,endPt,T){
var x=CubicN(T,startPt.x,controlPt1.x,controlPt2.x,endPt.x);
var y=CubicN(T,startPt.y,controlPt1.y,controlPt2.y,endPt.y);
return({x:x,y:y});
}
// cubic helper formula at T distance
function CubicN(T, a,b,c,d) {
var t2 = T * T;
var t3 = t2 * T;
return a + (-a * 3 + T * (3 * a - a * T)) * T
+ (3 * b + T * (-6 * b + b * 3 * T)) * T
+ (c * 3 - c * 3 * T) * t2
+ d * t3;
}
// calculate the tangent angle at interval T on the curve
function bezierTangent(a, b, c, d, t) {
return (3 * t * t * (-a + 3 * b - 3 * c + d) + 6 * t * (a - 2 * b + c) + 3 * (-a + b));
};
}); // end $(function(){});
</script>
</head>
<body>
<canvas id="canvas" width=300 height=300></canvas>
</body>
</html>
关于html - Canvas 中沿曲线的渐变描边,我们在Stack Overflow上找到一个类似的问题: https://stackoverflow.com/questions/24027087/