If you had a point (in 2d), how could you rotate that point by degrees around the other point (the origin) in python?

You might, for example, tilt the first point around the origin by 10 degrees.

Basically you have one point PointA and origin that it rotates around. The code could look something like this:


NewPointA=rotate(origin,PointA,10) #The rotate function rotates it by 10 degrees

5 Answers 5


The following rotate function performs a rotation of the point point by the angle angle (counterclockwise, in radians) around origin, in the Cartesian plane, with the usual axis conventions: x increasing from left to right, y increasing vertically upwards. All points are represented as length-2 tuples of the form (x_coord, y_coord).

import math

def rotate(origin, point, angle):
    Rotate a point counterclockwise by a given angle around a given origin.

    The angle should be given in radians.
    ox, oy = origin
    px, py = point

    qx = ox + math.cos(angle) * (px - ox) - math.sin(angle) * (py - oy)
    qy = oy + math.sin(angle) * (px - ox) + math.cos(angle) * (py - oy)
    return qx, qy

If your angle is specified in degrees, you can convert it to radians first using math.radians. For a clockwise rotation, negate the angle.

Example: rotating the point (3, 4) around an origin of (2, 2) counterclockwise by an angle of 10 degrees:

>>> point = (3, 4)
>>> origin = (2, 2)
>>> rotate(origin, point, math.radians(10))
(2.6375113976783475, 4.143263683691346)

Note that there's some obvious repeated calculation in the rotate function: math.cos(angle) and math.sin(angle) are each computed twice, as are px - ox and py - oy. I leave it to you to factor that out if necessary.

  • this is a great solution. What would change with this if you wanted to transpose the direction of the Y axis (y increasing vertically downwards)? Thank you.
    – sosukeinu
    Mar 20, 2017 at 1:45
  • Using this function I sometimes get negative coordinates when my original coordinates are within [0,127] and I set the rotation center as (63.5,63.5). Is this due to rounding errors? How to prevent it? Oct 14, 2019 at 14:29
  • 1
    @SimonH: Possibly rounding errors; possibly just geometry. If you take the square [0, 127] x [0, 127] and rotate it by 10 degrees (say) about (63.5, 63.5), then bits of the rotated square will be outside the 1st quadrant. If your points are within the disk radius 63.5 centered at (63.5, 63.5), then yes, mathematically you shouldn't see results with negative coordinates. If you're seeing negative values that are very close to zero, then yes, rounding error is likely to blame. Oct 14, 2019 at 15:08
  • Thanks! I figured it out. The problem was not directly related to the rotation but to a scaling that I performe before the rotation Oct 14, 2019 at 19:34
  • 1
    @L.vanAgtmaal: I suggest you ask a new question and provide the details there. There are all sorts of things that could possibly have gone wrong in implementation (or even in the way that you're plotting - e.g., if the aspect ratio of the plot is off, that would cause a rectangle to appear as a parallelogram). Mar 4 at 8:49

An option to rotate a point by some degrees about another point is to use numpy instead of math. This allows to easily generalize the function to take any number of points as input, which might e.g. be useful when rotating a polygon.

import numpy as np

def rotate(p, origin=(0, 0), degrees=0):
    angle = np.deg2rad(degrees)
    R = np.array([[np.cos(angle), -np.sin(angle)],
                  [np.sin(angle),  np.cos(angle)]])
    o = np.atleast_2d(origin)
    p = np.atleast_2d(p)
    return np.squeeze((R @ (p.T-o.T) + o.T).T)

points=[(200, 300), (100, 300)]

new_points = rotate(points, origin=origin, degrees=10)
  • 2
    This is such an elegant and sophisticated solution.
    – Gabriel
    Jul 20, 2021 at 13:17
import math

def rotate(x,y,xo,yo,theta): #rotate x,y around xo,yo by theta (rad)
    xr=math.cos(theta)*(x-xo)-math.sin(theta)*(y-yo)   + xo
    yr=math.sin(theta)*(x-xo)+math.cos(theta)*(y-yo)  + yo
    return [xr,yr]

After going through a lot of code and repositories. This function worked best for me. Also it is efficient as it calculates sine and cosine values only once.

import numpy as np
def rotate(point, origin, degrees):
    radians = np.deg2rad(degrees)
    x,y = point
    offset_x, offset_y = origin
    adjusted_x = (x - offset_x)
    adjusted_y = (y - offset_y)
    cos_rad = np.cos(radians)
    sin_rad = np.sin(radians)
    qx = offset_x + cos_rad * adjusted_x + sin_rad * adjusted_y
    qy = offset_y + -sin_rad * adjusted_x + cos_rad * adjusted_y
    return qx, qy

This is easy if you represent your points as complex numbers and use the exp function with an imaginary argument (which is equivalent to the cos/sin operations shown in the other answers, but is easier to write and remember). Here's a function that rotates any number of points about the chosen origin:

import numpy as np

def rotate(points, origin, angle):
    return (points - origin) * np.exp(complex(0, angle)) + origin

To rotate a single point (x1,y1) about the origin (x0,y0) with an angle in degrees, you could call the function with these arguments:

points = complex(x1,y1)
origin = complex(x0,y0)
angle = np.deg2rad(degrees)

To rotate multiple points (x1,y1), (x2,y2), ..., use:

points = np.array([complex(x1,y1), complex(x2,y2), ...])

An example with a single point (200,300) rotated 10 degrees about (100,100):

>>> new_point = rotate(complex(200,300), complex(100,100), np.deg2rad(10))
>>> new_point
>>> (new_point.real, new_point.imag)
(163.75113976783473, 314.3263683691346)

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