# How to expand shape created from a lot of bezier curves (JavaScript and canvas)

I created simple JavaScript application for drawing quadratic bezier curves. All bezier curves are part of one shape (second bezier curve starts on point where first bezier curves ends, third bezier curve starts on point where second bezier curve ends,... and last curve ends where first curve starts).

Number of bezier curves in shapes is 2 or more (not exactly specified how many).

After creating a shape, I have array of bezier curves. For example something like this:

``````array(3): {
[0]:  object(8): {
sx:  number: 130
sy:  number: 175
cp1x:  number: 119
cp1y:  number: 151
cp2x:  number: 175
cp2y:  number: 120
ex:  number: 212
ey:  number: 181
}
[1]:  object(8): {
sx:  number: 212
sy:  number: 181
cp1x:  number: 212
cp1y:  number: 181
cp2x:  number: 269
cp2y:  number: 237
ex:  number: 147
ey:  number: 226
}
[2]:  object(8): {
sx:  number: 130
sy:  number: 175
cp1x:  number: 130
cp1y:  number: 175
cp2x:  number: 147
cp2y:  number: 226
ex:  number: 147
ey:  number: 226
}
}
``````

I want to create the same shape but expanded for X pixels. For example, If my shape is created from 2 bezier curves that makes ellipse with radius R, I want to draw bigger ellipse with the same middle with radius R + X. I spent 3 days trying to solve this but I really don't know how to do it.

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If you are trying to zoom, have you ever thought of scaling the canvas with the scale method, rather than trying to manipulate the shapes? developer.mozilla.org/en-US/docs/Web/Guide/HTML/Canvas_tutorial/… –  ricksuggs Nov 1 '13 at 18:46
Thanks for advice but unfortunately scaling/zooming doesn't solve my problem because I need to have a separate coordinates of new shape (I want to save them into DB). –  1daemon1 Nov 1 '13 at 19:14
But you can scale all of the coordinates by `(R+X)/R`. (Some minor quibbles: 2 control points mean that you have cubic bezier curves, you can only approximate an ellipse, not make one, and an ellipse doesn't have a radius.) –  Teepeemm Nov 1 '13 at 19:32
Why not just save the scale to the database, and when you open the retrieve the shape, draw the original but start off with canvas scaled same as the saved shape? It's much easier and more simple than calculating new pts from a desired radius. –  ricksuggs Nov 1 '13 at 19:56
I have to send expanded shape into DB using REST API, I have no choice. Thanks a lot for suggestions. I decided to change the logic of my app and now I don't need expanded curve. –  1daemon1 Nov 3 '13 at 20:29

Damned Bezier Curves…I love ‘em and I hate ‘em !!

Fail#1

A bezier curve cannot be expanded using another bezier curve:

Wikepedia: The curve at a fixed offset from a given Bézier curve, often called an offset curve (lying "parallel" to the original curve, like the offset between rails in a railroad track), cannot be exactly formed by a Bézier curve.

Fail#2

If you know your curves form a closed regular shape (has a center—centroid), you could use context.translate. Problem is your example bezier set does not have a centroid. If fact, not many bezier sets have a centroid.

Should work…but the math gives headaches

1. Calculate many X/Y’s along the path that make up the beziers.
2. At each X/Y, calculate the tangent angle to the curve.
3. Calculate the perpendicular angle of that tangent angle.
4. Move outward on that perpendicular line by the length you want to expand the bezier.
5. Save the X/Y at that expanded point.
6. Connect all the expanded points using context.lineTo.

Simple as that you have expanded a closed set of bezier curves!

I have some math for this, but it would take time to pull it together into a finished solution. If you give it a try, I’ll help if you have problems…

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or follow the recipe on pomax.github.io/bezierinfo/#offsetting =) –  Mike 'Pomax' Kamermans Nov 2 '13 at 19:34
You can't offset a curve with another curve, but you can offset a curve with a poly-curve, and I explain how this is generally done over at http://pomax.github.io/bezierinfo/#offsetting -- the code is Processing, but it's pretty easy to port to (unoptimized) JavaScript. The more important part is that if you want to do this the "right" way, you have some programming (and understanding) to do. If you just want something that looks kind of right, just run through the curve at X steps (say `for(var i=0; i<1; i+=0.01) {...}`), find the normal at each point, offset along the normal by however many pixels you need, and connect all those dots. Linear approximations are pretty decent as long as the curves aren't thousands of pixels long.