# C++: Rotating a vector around a certain point

I am trying to rotate a vector around a certain point on the vector(in C++):

``````1 2 3
4 5 6
7 8 9
``````

rotated around the point (1,1) (which is the "5") 90 degrees would result in:

``````7 4 1
8 5 2
9 6 3
``````

Right now I am using:

``````x = (x * cos(90)) - (y * sin(90))
y = (y * cos(90)) + (x * sin(90))
``````

But I don't want it rotated around (0,0)

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Post some C++ code illustrating what you are trying to do. – anon Mar 6 '09 at 22:49

As Mehrdad Afshari commented on Pesto's post, including the translation back into the original coordinate system would be:

``````x_rotated = ((x - x_origin) * cos(angle)) - ((y_origin - y) * sin(angle)) + x_origin
y_rotated = ((y_origin - y) * cos(angle)) - ((x - x_origin) * sin(angle)) + y_origin
``````
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The solution is to translate the vector to a coordinate system in which the center of rotation is (0,0). Apply the rotation matrix and translate the vector back to the original coordinate system.

dx = x of rotation center
dy = y of rotation center

V2 = V - [dx, dy, 0]
V3 = V2 * rotation matrix
Result = V3 + [dx, dy, 0]

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Assuming you're using a standard vector implementation where (0,0) would be the top left corner and you're rotating around the point (x_origin, y_origin), this should do it:

``````x = ((x - x_origin) * cos(angle)) - ((y_origin - y) * sin(angle))
y = ((y_origin - y) * cos(angle)) - ((x - x_origin) * sin(angle))
``````

Note that the y's are `y_origin - y` because the y value increases as you go down.

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You'd need to translate it back after the transform. The resulting (x, y) is not in the original coordinate system. – Mehrdad Afshari Mar 7 '09 at 0:05

You will need to use a translation matrix to move rotate about a different point.

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I found the answer from Marc Booth to be wrong (rotate (0,1,0) by 0 degrees and you get (0,-1,0) with his formula), and I ended up with:

``````double cs = cos_deg(new_degrees);
double sn = sin_deg(new_degrees);

double translated_x = x - x_origin;
double translated_y = y - y_origin;

double result_x = translated_x * cs - translated_y * sn;
double result_y = translated_x * sn + translated_y * cs;

result_x += x_origin;
result_y += y_origin;
``````

This can be further simplified of course, but I want to make it as simple as possible.

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