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I'm trying to understand the math on this raphael.js demo:

http://raphaeljs.com/pie.js

Checkout the sector method:

function sector(cx, cy, r, startAngle, endAngle, params) {
    var x1 = cx + r * Math.cos(-startAngle * rad),
        x2 = cx + r * Math.cos(-endAngle * rad),
        y1 = cy + r * Math.sin(-startAngle * rad),
        y2 = cy + r * Math.sin(-endAngle * rad);
    return paper.path(["M", cx, cy, "L", x1, y1, "A", r, r, 0, +(endAngle - startAngle > 180), 0, x2, y2, "z"]).attr(params);
}

This is the actual demo: http://raphaeljs.com/pie.html

My math is a little rusty and I'm trying to understand the sector function - given the startAngle and endAngle parameters (each start and end point values between 0 and 360 drawing an arc), why does this function work?

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4  
Don't try mathoverflow.net for something like this -- and @Steven please don't recommend doing so unless the question really is "graduate research level" math. Try the StackExchange math site instead. –  walkytalky Aug 15 '10 at 18:42

4 Answers 4

up vote 9 down vote accepted

It all depends on how you treat startAngle and endAngle. It looks like this is treating them as starting from horizontal to the right (i.e. an angle of 0 is pointing East) and going clockingwise (so an angle of 45 degrees is pointing South-East.

Usually in mathematics we consider angles starting from the horizontal to the right, but increasing anti-clockwise... but if you ask a non-mathematician to draw an angle, they may well treat it from vertically up (i.e. North) increasing clockwise. This looks like it's taking a mixture :) There's no really "wrong" or "right" answer here - it's all a matter of definition.

As pictures are popular, here are the three systems I've described, each assuming the line is of length r:

Normal mathematics: anti-clockwise from x-axis

First diagram

Asking the man on the street to draw an angle (clockwise from y-axis)

Second diagram

The angles used by this code (clockwise from x-axis)

Third diagram

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Jon, what did you use to generate the lovely picture with the hand-written but legible quality? I've used Zwibbler in the past for such things: zwibbler.com –  duffymo Aug 15 '10 at 19:13
2  
@duffymo: A piece of paper, a pen, and a scanner. –  Jon Skeet Aug 15 '10 at 19:15
    
True genius == simplicity. Nice. –  duffymo Aug 15 '10 at 19:21
    
I didn't know angles had directions. Clears up a lot, thank you. –  Bjorn Tipling Aug 15 '10 at 19:38
    
Just for clarity, this are the coordinates used in the Canvas from HTML5, angles are clockwise and start from the x axis. –  JCM Jun 15 '12 at 0:18

Just look at what sin and cos actually mean in a circle: alt text

If you have a point on a circle which forms an angle alpha, the cos alpha is the x-part of the point a sin alpha is the y part.

This illustration explains, why the angle is negated. alt text

It means, that you can now specify clockwise angles, which most people with analogue clocks prefer.

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@Luther: As I said in my answer, it entirely depends on how you've decided to treat angles. There's nothing inherently x-axis-related about cos - it's only because that diagram measures angles from the x-axis. –  Jon Skeet Aug 15 '10 at 18:18
    
+1 a picture says a 1000 words... –  gbn Aug 15 '10 at 18:18
    
(In particular, this diagram doesn't explain why the angle is negated each time.) –  Jon Skeet Aug 15 '10 at 18:21
1  
@apphacker: Look at the code: r * Math.cos(-startAngle * rad). It's taking cos of -startAngle, not startAngle. I believe that's due to the angle being measured clockwise. See my answer for more details. –  Jon Skeet Aug 15 '10 at 18:27
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+1 - beautiful rendering. –  duffymo Aug 15 '10 at 19:13

Because arbitrary point on circumference with center (cx, cy) and radius R has the following coordinate (it directly follows from cos and sin geometric definitions - ratio between lengths of corresponding cathetus and hypotenuse):

x = cx + R*cos(a)
y = cy + R*sin(a) for  0 <= a < 2π

So setting limits on angle a you can define arbitrary arc.

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If you take 0° as horizontal with x increasing and 90° as vertical with y increasing then as:

cos(0) = 1
sin(0) = 0

cos(90) = 0
sin(90) = 1

you can vary the x value by multiplying it by the cosine and vary the y value by multiplying it by the sine.

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