I'm trying to make a card game where the cards fan out. Right now to display it Im using the Allegro API which has a function:


so with this I can make my fan effect easily. The problem is then knowing which card is under the mouse. To do this I thought of doing a polygon collision test. I'm just not sure how to rotate the 4 points on the card to make up the polygon. I basically need to do the same operation as Allegro.

for example, the 4 points of the card are:



card.x + card.width

card.y + card.height

I would need a function like:

POINT rotate_point(float cx,float cy,float angle,POINT p)



Oh, that's easy.. first subtract the pivot point (cx,cy), then rotate it, then add the point again.


POINT rotate_point(float cx,float cy,float angle,POINT p)
  float s = sin(angle);
  float c = cos(angle);

  // translate point back to origin:
  p.x -= cx;
  p.y -= cy;

  // rotate point
  float xnew = p.x * c - p.y * s;
  float ynew = p.x * s + p.y * c;

  // translate point back:
  p.x = xnew + cx;
  p.y = ynew + cy;
  return p;
  • 39
    Excellent answer. For the record, you got the rotation correct first time round. – n.collins Nov 14 '12 at 15:55
  • How would you do this with 3d points and a matrix library? – synchronizer Oct 2 '17 at 0:10
  • @synchronizer exactly the same, just use your point subtraction/addition routines and your vector*matrix function for rotation. – Nils Pipenbrinck Oct 2 '17 at 4:37
  • 1
    Might be helpful for the unwary to mention that sin and cos may expect angle to be expressed in radians. – Ed Plunkett Nov 19 '18 at 16:36

If you rotate point (px, py) around point (ox, oy) by angle theta you'll get:

p'x = cos(theta) * (px-ox) - sin(theta) * (py-oy) + ox

p'y = sin(theta) * (px-ox) + cos(theta) * (py-oy) + oy

this is an easy way to rotate a point in 2D.

  • 6
    You need to translate back after rotation. so the solution would be: p'x += ox – hAlE May 31 '14 at 1:44

The coordinate system on the screen is left-handed, i.e. the x coordinate increases from left to right and the y coordinate increases from top to bottom. The origin, O(0, 0) is at the upper left corner of the screen.

enter image description here

A clockwise rotation around the origin of a point with coordinates (x, y) is given by the following equations:

enter image description here

where (x', y') are the coordinates of the point after rotation and angle theta, the angle of rotation (needs to be in radians, i.e. multiplied by: PI / 180).

To perform rotation around a point different from the origin O(0,0), let's say point A(a, b) (pivot point). Firstly we translate the point to be rotated, i.e. (x, y) back to the origin, by subtracting the coordinates of the pivot point, (x - a, y - b). Then we perform the rotation and get the new coordinates (x', y') and finally we translate the point back, by adding the coordinates of the pivot point to the new coordinates (x' + a, y' + b).

Following the above description:

a 2D clockwise theta degrees rotation of point (x, y) around point (a, b) is:

Using your function prototype: (x, y) -> (p.x, p.y); (a, b) -> (cx, cy); theta -> angle:

POINT rotate_point(float cx, float cy, float angle, POINT p){

     return POINT(cos(angle) * (p.x - cx) - sin(angle) * (p.y - cy) + cx,
                  sin(angle) * (p.x - cx) + cos(angle) * (p.y - cy) + cy);
float s = sin(angle); // angle is in radians
float c = cos(angle); // angle is in radians

For clockwise rotation :

float xnew = p.x * c + p.y * s;
float ynew = -p.x * s + p.y * c;

For counter clockwise rotation :

float xnew = p.x * c - p.y * s;
float ynew = p.x * s + p.y * c;
  • What's c and s? – TankorSmash Oct 26 '17 at 2:07
  • @TankorSmash its defined above c = cos(angle) – nycynik Nov 25 '17 at 9:43

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