If I have a point in 3D (x,y,z) and I need to rotate this point about an arbitrary axis that passes through two points (x1,y1,z1) and (x2,y2,z2) with an angle theta counterclockwise, how can I do this using python?

I read a lot about 3D rotation, but I failed to make it using python, so please can anybody help?

  • 3
    Well, can you describe the formula in mathematical notation? I don't think it's so much of a python related question, but pure math.
    – kay
    Jul 20 '13 at 15:22
  • 2
    You should familiarize yourself with the physics, but here is a nice blog post about 3D movement. The author likes C++, but I'm sure you can figure out how to apply the ideas. gafferongames.com/game-physics/physics-in-3d
    – seth
    Jul 20 '13 at 15:30

So you have your 3D rotation matrix for a rotation about a unit vector (ux, uy, uz), passing though the origin:

enter image description here

Getting the unit vector's easy, then just do the matrix multiplication.

from math import pi ,sin, cos

def R(theta, u):
    return [[cos(theta) + u[0]**2 * (1-cos(theta)), 
             u[0] * u[1] * (1-cos(theta)) - u[2] * sin(theta), 
             u[0] * u[2] * (1 - cos(theta)) + u[1] * sin(theta)],
            [u[0] * u[1] * (1-cos(theta)) + u[2] * sin(theta),
             cos(theta) + u[1]**2 * (1-cos(theta)),
             u[1] * u[2] * (1 - cos(theta)) - u[0] * sin(theta)],
            [u[0] * u[2] * (1-cos(theta)) - u[1] * sin(theta),
             u[1] * u[2] * (1-cos(theta)) + u[0] * sin(theta),
             cos(theta) + u[2]**2 * (1-cos(theta))]]

def Rotate(pointToRotate, point1, point2, theta):

    u= []
    squaredSum = 0
    for i,f in zip(point1, point2):
        squaredSum += (f-i) **2

    u = [i/squaredSum for i in u]

    r = R(theta, u)
    rotated = []

    for i in range(3):
        rotated.append(round(sum([r[j][i] * pointToRotate[j] for j in range(3)])))

    return rotated

point = [1,0,0]
p1 = [0,0,0]
p2 = [0,1,0]

print Rotate(point, p1, p2, pi) # [-1.0, 0.0, 0.0]

That should work.

  • 1
    This answer gives the matrix for rotations about an axis through the origin, not an arbitrary axis as asked for in the question. The correct matrix is given at sites.google.com/site/glennmurray/Home/….
    – Glenn
    Feb 7 '14 at 3:58
  • I just add that if you are interested in the above matrix, remember to correct a few typos! First and third columns of the second row and second column of the third row.
    – Pie86
    Oct 23 '14 at 10:38
  • Confirmed Glenn's statement. This code does not work as advertised. Odd too, since you pass in both points for the unit vector...but then don't use them...
    – Cerin
    Apr 20 '16 at 16:47
  • If you want to rotate about an arbitrary axis not passing through the origin, then you can still use this, you just have to translate the point before and after.
    – will
    Apr 21 '16 at 9:56

I would look at the simple Python library by Chris Gohlke: transformations. He includes many examples embedded within the source code. Good luck.

Not the answer you're looking for? Browse other questions tagged or ask your own question.