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I am doing image manipulation and I want to rotate all of the pixels in xyz space based on an angle, the origin, and an x,y, and z coordinate.

I just need to setup the proper matrix (4x4) and then I will be good from there. The Angle is in degrees, not radians and the x,y,z are all going to be from -1 to 1 (floats)

EDIT:

Ok, here is the code that I whipped up to do the rotation about a given line defined by the origin and an X, Y, Z coorinate.

        float ang = angD * (float)(Math.PI / 180);  // from degrees to radians, if needed
        //U = n*n(t) + cos(a)*(I-n*n(t)) + sin(a)*N(x).

        var u = MatrixDouble.Identity(4);  // 4x4 Identity Matrix
        u = u.Multiply(Math.Cos(ang));

        var n = new MatrixDouble(1, 4, new List<double> { x, y, z, 0 });
        var nt = n.Transpose();

        // This next part is the N(x) matrix.  The data is inputted in Column
        // first order and fills in the 4x4 matrix with the given 16 Doubles
        var nx = new MatrixDouble(4, 4, new List<double> { 0, z, -y, 0, -z, 0, x, 0, y, -x, 0, 0, 0, 0, 0, 1 });

        nx = nx.Multiply(Math.Sin(ang));

        var ret = nt.Multiply(n);
        ret[3, 3] = 1;

        u = u.Subtract(ret);

        u = ret.Add(u.Add(nx));

It's a little complicated and I'm using a custom Matrix library, but nothing up there should be too hard to implement with any functioning Matrix lib.

Phew, lots of math!

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1  
So what's the question? –  user405725 Mar 4 '11 at 2:04
    
I'm guessing you want the point defined by the "x, y and z coordinate" to remain invariant. How are you representing a point in xyz space as a 4-vector? –  Beta Mar 4 '11 at 4:35
    
I'm not representing the points as a 4x4 vector. The transformation matrix is the 4x4 and the point is a 4x1. Multiplying them together gets me my p' which is the pixel only rotated. I'll update my post with the code that I made. –  joe_coolish Mar 4 '11 at 5:26
    
A "4x4 vector"? You are not being careful with terminology. –  Beta Mar 4 '11 at 21:14
    
Wow, I feel dumb. 4x4 Matrix :) lol, at least I didn't say Matrice!!! heehee –  joe_coolish Mar 23 '11 at 17:10
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2 Answers

up vote 5 down vote accepted

The complete rotation matrices are derived and given at https://sites.google.com/site/glennmurray/Home/rotation-matrices-and-formulas.

From the paper:

5.2 The simplified matrix for rotations about the origin

Note this assumes that (u, v, w) is a direction vector for the axis of rotation and that u^2 + v^2 + w^2 = 1.

Simplified 3D matrix for rotations about the origin.

If you have a point (x, y, z) that you want to rotate, then we can obtain a function of of seven variables that yields the rotated point:

f(x, y, z, u, v, w, theta) =

Formula for rotated point.

The paper also includes matrices and formulas for rotations about an arbitrary axis (not necessarily through the origin), Java code available under the Apache license, and a link to a web app that illustrates rotations.

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Thou the math was a bit much to digest, this did end up working. It took me a bit, but I got it working and it is a general case. Thank you! –  joe_coolish Mar 4 '11 at 5:23
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Use the Matrix3D Structure (MSDN) - Represents a 4 x 4 matrix used for transformations in 3-D space

Take a look here for a tutorial: Building a 3D Engine

Essentially, matrices are built for X, Y, and Z rotations and then you can multiply the rotations in any order.

public static Matrix3D NewRotateAroundX(double radians)
{
    var matrix = new Matrix3D();
    matrix._matrix[1, 1] = Math.Cos(radians);
    matrix._matrix[1, 2] = Math.Sin(radians);
    matrix._matrix[2, 1] = -(Math.Sin(radians));
    matrix._matrix[2, 2] = Math.Cos(radians);
    return matrix;
}
public static Matrix3D NewRotateAroundY(double radians)
{
    var matrix = new Matrix3D();
    matrix._matrix[0, 0] = Math.Cos(radians);
    matrix._matrix[0, 2] = -(Math.Sin(radians));
    matrix._matrix[2, 0] = Math.Sin(radians);
    matrix._matrix[2, 2] = Math.Cos(radians);
    return matrix;
}
public static Matrix3D NewRotateAroundZ(double radians)
{
    var matrix = new Matrix3D();
    matrix._matrix[0, 0] = Math.Cos(radians);
    matrix._matrix[0, 1] = Math.Sin(radians);
    matrix._matrix[1, 0] = -(Math.Sin(radians));
    matrix._matrix[1, 1] = Math.Cos(radians);
    return matrix;
}
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While it is true that you can multiply the matrices in any order, you will not necessarily get the same answer if you do so. Matrix multiplication is not commutative. I give an example of products of rotation matrices about the axes giving different answers for different orders of multiplication in the paper linked at in my answer. –  Glenn Mar 4 '11 at 2:48
2  
While it is true that MatrixX * MatrixY does not necessarily equal MatrixY * MatrixX, it is up to the OP to decide the order of multiplication. –  Jordan Arron Mar 4 '11 at 2:50
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