209

How can the following function be implemented in various languages?

Calculate the (x,y) point on the circumference of a circle, given input values of:

  • Radius
  • Angle
  • Origin (optional parameter, if supported by the language)
555

The parametric equation for a circle is

x = cx + r * cos(a)
y = cy + r * sin(a)

Where r is the radius, cx,cy the origin, and a the angle.

That's pretty easy to adapt into any language with basic trig functions. Note that most languages will use radians for the angle in trig functions, so rather than cycling through 0..360 degrees, you're cycling through 0..2PI radians.

  • 94
    Note that a must be in radians - that was really hard for me as a beginner to understand. – ioanb7 Jun 2 '13 at 20:55
  • 11
    I've been trying to derive this equation for an hour now. Thanks. Who know the trig identities you learned in high school would be so helpful. – Isioma Nnodum May 28 '14 at 22:37
  • 1
    @Dean No need for extra brackets because of the operator precedence. When you have + and * like in those two equations and without any brackets you always go for the * first and then for the +. – rbaleksandar Oct 30 '15 at 7:27
  • 10
    @IsiomaNnodum Couldn't have been that helpful if we're all coming back here just to remember what the equation was. – b1nary.atr0phy Aug 7 '16 at 22:17
46

Here is my implementation in C#:

    public static PointF PointOnCircle(float radius, float angleInDegrees, PointF origin)
    {
        // Convert from degrees to radians via multiplication by PI/180        
        float x = (float)(radius * Math.Cos(angleInDegrees * Math.PI / 180F)) + origin.X;
        float y = (float)(radius * Math.Sin(angleInDegrees * Math.PI / 180F)) + origin.Y;

        return new PointF(x, y);
    }
  • 5
    Pre-compute the conversion factor so there's less chance you type the conversion wrong using hard-coded numbers. – Scottie T May 8 '09 at 14:15
16

Who needs trig when you have complex numbers:

#include <complex.h>
#include <math.h>

#define PI      3.14159265358979323846

typedef complex double Point;

Point point_on_circle ( double radius, double angle_in_degrees, Point centre )
{
    return centre + radius * cexp ( PI * I * ( angle_in_degrees  / 180.0 ) );
}
  • How does this work? How does it compare speed wise? Why isn't this more commonly used? – Mark A. Ropper Feb 16 '18 at 17:42
  • @MarkA.Ropper how do complex numbers work? - look up a maths tutorial or go from en.wikipedia.org/wiki/Euler%27s_identity if you already know what a complex number is. It's probably not as efficient in speed compared to say implementing sin as a look-up table, but sometimes you are using complex numbers to represent points throughout to exploit other properties of them. Similar to using quaternions for 3D rotations, it's not really the speed but the capabilities they give you. – Pete Kirkham Feb 19 '18 at 9:44

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