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I'm trying to draw a curve in canvas with a linear gradient stoke style along the curve, as in this image. On that page there is a linked svg file that gives instructions on how to accomplish the effect in svg. Maybe a similar method would be possible in canvas?

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1 Answer 1

up vote 7 down vote accepted

A Demo: http://jsfiddle.net/m1erickson/4fX5D/

It's fairly easy to create a gradient that changes along the path:

enter image description here

It's more difficult to create a gradient that changes across the path:

enter image description here

To create a gradient across the path you draw many gradient lines tangent to the path:

enter image description here

If you draw enough tangent lines then the eye sees the curve as a gradient across the path.

enter image description here

Note: Jaggies can occur on the outsides of the path-gradient. That's because the gradient is really made up of hundreds of tangent lines. But you can smooth out the jaggies by drawing a line on either side of the gradient using the appropriate colors (here the anti-jaggy lines are red on the top side and purple on the bottom side).

Here are the steps to creating a gradient across the path:

  • Plot hundreds of points along the path.

  • Calculate the angle of the path at those points.

  • At each point, create a linear gradient and draw a gradient stroked line across the tangent of that point. Yes, you will have to create a new gradient for each point because the linear gradient must match the angle of the line tangent to that point.

  • To reduce the jaggy effect caused by drawing many individual lines, you can draw a smooth path along the top and bottom side of the gradient path to overwrite the jaggies.

Here is annotated code:

<!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>
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