# Building a circle with quadratic curves in canvas

I am trying to build a near-perfect circle with quadratic curves in canvas. I have this function for setting up points around a circle and connecting them with quadratic curves:

``````function calcPointsCircle(cx, cy, radius, dashLength) {
var n = radius / dashLength,
alpha = Math.PI * 2 / n,
i = -1;
while (i < n) {
var theta = alpha * i,
theta2 = alpha * (i + 1);
points.push({
x : (Math.cos(theta) * radius) + cx,
y : (Math.sin(theta) * radius) + cy,
ex : (Math.cos(theta2) * radius) + cx,
ey : (Math.sin(theta2) * radius) + cy,
py : (Math.sin(theta) * radius) + cy
});
i+=2;
}
}
for (i = 0; i < points.length; i++) {
var p = points[i];
ctx.strokeStyle = '#fff';
ctx.quadraticCurveTo(p.x, p.py, p.x, p.y);
ctx.stroke();
}
``````

It works, but the lines are currently straight (which is obvious, since I am using the points x and y coordinates for the control point):

I am looking for a way to automatically calculate the poisitions for the control points based on the circle radius and the number of points... All help is more then welcome

## 1 Answer

Here's how to calculate the controls points of a set of quadratic curves which approximate a circle circumscribing a regular polygon.

Given:

A centerpoint, radius & sidecount.

For each side of the polygon, calculate:

3 points on a circumscribing circumference and then calculate the quadratic curve control point that causes the curve to pass through those 3 points:

• The 2 points of the polygon side are 2 of the 3 points

• Calculate the sweep angle between the 2 points of a side (var sweep)

• Bisect the sweep angle (sweep/2)

• Use trigonometry to calculate the point on the circumference midway between the 2 points of the side.

• Calculate the middle control point:

``````// calc middle control point
var cpX=2*x1-x0/2-x2/2;
var cpY=2*y1-y0/2-y2/2;
``````

Example code and a Demo:

``````// change sideCount to the # of poly sides desired
//
var sideCount=5;

var canvas=document.getElementById("canvas");
var ctx=canvas.getContext("2d");
ctx.lineWidth=2;
ctx.fillStyle=randomColor();

// save PI*2
var PI2=Math.PI*2;

// functions to calc a point on circumference of circle
var xx=function(a){return(cx+radius*Math.cos(a));}
var yy=function(a){return(cy+radius*Math.sin(a));}

// general interpolation function
var lerp=function(a,b,x){ return(a+x*(b-a)); }

// define the regular polygon
var cx=150;
var cy=150;
var radius=100;

// calc qCurve controls points and put in sides[] array
var sides=[];
for(var i=0;i<sideCount;i++){
sides.push(makeSide(i,sideCount));
}

// drawing and animating stuff
var percent=0;
var percentDirection=0.50;

\$("#toShape").click(function(){
percentDirection=-0.50;
})

\$("#toCircle").click(function(){
percentDirection=0.50;
})

animate();

// functions

function animate(){
requestAnimationFrame(animate);
drawSides(percent);
percent+=percentDirection;
if(percent>100){percent=100;}
if(percent<0){percent=0;}
}

function drawSides(pct,color){
ctx.clearRect(0,0,canvas.width,canvas.height);
if(pct==100){
ctx.beginPath();
ctx.arc(cx,cy,radius,0,PI2);
ctx.closePath();
ctx.fill();
}else{
ctx.beginPath();
ctx.moveTo(sides[0].x0,sides[0].y0);
for(var i=0;i<sideCount;i++){
var side=sides[i];
var cpx=lerp(side.midX,side.cpX,pct/100);
var cpy=lerp(side.midY,side.cpY,pct/100);
ctx.quadraticCurveTo(cpx,cpy,side.x2,side.y2);
}
ctx.fill();
}
}

// given a side of a regular polygon,
// calc a qCurve that approximates a circle
function makeSide(n,sideCount){

// starting & ending angles vs centerpoint
var sweep=PI2/sideCount;
var sAngle=sweep*(n-1);
var eAngle=sweep*n;

// given start & end points,
// calc the point on circumference at middle of sweep angle
var x0=xx(sAngle);
var y0=yy(sAngle);
var x1=xx((eAngle+sAngle)/2);
var y1=yy((eAngle+sAngle)/2);
var x2=xx(eAngle);
var y2=yy(eAngle);

// calc the control points to pass a qCurve
// through the 3 points
var dx=x2-x1;
var dy=y2-y1;
var a=Math.atan2(dy,dx);
var midX=lerp(x0,x2,0.50);
var midY=lerp(y0,y2,0.50);

// calc middle control point
var cpX=2*x1-x0/2-x2/2;
var cpY=2*y1-y0/2-y2/2;

return({
x0:x0, y0:y0,
x2:x2, y2:y2,
midX:midX, midY:midY,
cpX:cpX, cpY:cpY,
color:randomColor()
});
}

function randomColor(){
return('#'+Math.floor(Math.random()*16777215).toString(16));
}``````
``````body{ background-color: ivory; }
canvas{border:1px solid red;}``````
``````<script src="https://ajax.googleapis.com/ajax/libs/jquery/1.9.1/jquery.min.js"></script>
<button id="toShape">Animate to Shape</button>
<button id="toCircle">Animate to Circle</button><br>
<canvas id="canvas" width=300 height=300></canvas>``````