# Rotate bunch of points thourgh an origin [duplicate]

I have list of points containing x and y locations of a page. I want to apply rotation on all these points relative to any pivot point of page (currently lets assume its center).

``````var points = new List<Point>();

const int pageHeight = 300;
const int pageWidth = 400;
var pivotPoint = new Point(200, 150); //Center

var angle = 45; // its in degree.

// Apply rotation.
``````

Do I need some formula here?

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## marked as duplicate by Bas, Faisal Hafeez, Leri, Rotem, Chris SinclairJun 27 '13 at 12:06

Or use a Matrix class. –  Tigran Jun 27 '13 at 11:34
yes, you need one formula –  Rafa Jun 27 '13 at 11:44

``````public static Point Rotate(Point point, Point pivot, double angleDegree)
{
double angle = angleDegree * Math.PI / 180;
double cos = Math.Cos(angle);
double sin = Math.Sin(angle);
int dx = point.X - pivot.X;
int dy = point.Y - pivot.Y;
double x = cos * dx - sin * dy + pivot.X;
double y = sin * dx + cos * dy + pivot.X;

Point rotated = new Point((int)Math.Round(x), (int)Math.Round(y));
return rotated;
}
static void Main(string[] args)
{
Console.WriteLine(Rotate(new Point(1, 1), new Point(0, 0), 45));
}
``````
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if u rotate a point(x,y) around point (x1,y1) by an angle some a then you need a formula...

``````x2 = cos(a) * (x-x1) - sin(a) * (y-y1) + x1
y2 = sin(a) * (x-x1) + cos(a) * (y-y1) + y1
Point newRotatedPoint = new Point(x2,y2)
``````
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If you have a large number of points to rotate, you might want to precompute the rotation matrix…

``````[C  -S  U]
[S   C  V]
[0   0  1]
``````

…where…

``````C = cos(θ)
S = sin(θ)
U = (1 - C) * pivot.x + S * pivot.y
V = (1 - C) * pivot.y - S * pivot.x
``````

You then rotate each point as follows:

``````rotated.x = C * original.x - S * original.y + U;
rotated.x = S * original.x + C * original.y + V;
``````

The above formula is the result of combining three transforms…

``````rotated = translate(pivot) * rotate(θ) * translate(-pivot) * original
``````

…where…

``````translate([x y]) = [1 0 x]
[0 1 y]
[0 0 1]

rotate(θ) = [cos(θ) -sin(θ) 0]
[sin(θ)  cos(θ) 0]
[  0       0    1]
``````
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