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In need to determine the angle(s) between two n-dimensional vectors in Python. For example, the input can be two lists like the following: [1,2,3,4] and [6,7,8,9].

Can anybody help me? Thanks in advance!

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6 Answers 6

up vote 28 down vote accepted
import math

def dotproduct(v1, v2):
  return sum((a*b) for a, b in zip(v1, v2))

def length(v):
  return math.sqrt(dotproduct(v, v))

def angle(v1, v2):
  return math.acos(dotproduct(v1, v2) / (length(v1) * length(v2)))
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Also, if you only need cos, sin, tan of angle, and not the angle itself, then you can skip the math.acos to get cosine, and use cross product to get sine. – mbeckish May 13 '10 at 14:17
This is exactly what i was looking for, thank you! – Peter May 13 '10 at 14:36
Given that math.sqrt(x) is equivalent to x**0.5 and math.pow(x,y) is equivalent to x**y, I'm surprised these survived the redundancy axe wielded during the Python 2.x->3.0 transition. In practice, I'm usually doing these kinds of numeric things as part of a larger compute-intensive process, and the interpreter's support for '**' going directly to the bytecode BINARY_POWER, vs. the lookup of 'math', the access to its attribute 'sqrt', and then the painfully slow bytecode CALL_FUNCTION, can make a measurable improvement in speed at no coding or readability cost. – Paul McGuire May 14 '10 at 7:11
As in the answer with numpy: This can fail if the rounding error comes into play! This can happen for parallel and anti-parallel vectors! – BandGap Jan 27 '12 at 11:15
Note: this will fail if the vectors are identical (ex, angle((1., 1., 1.), (1., 1., 1.))). See my answer for a slightly more correct version. – David Wolever Dec 12 '12 at 21:41

Using numpy (highly recommended), you would do:

from numpy import (array, dot, arccos)
from numpy.linalg import norm

u = array([1.,2,3,4])
v = ...
c = dot(u,v)/norm(u)/norm(v) # -> cosine of the angle
angle = arccos(clip(c, -1, 1)) # if you really want the angle
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The last line can result in an error as I've found out because of rounding errors. Thus if you to dot(u,u)/norm(u)**2 it results in 1.0000000002 and the arccos then fails (also 'works' for antiparallel vectors) – BandGap Jan 27 '12 at 11:10
I've tested with u=[1,1,1]. u=[1,1,1,1] works fine but every dimension added returns slightly larger or smaler values than 1... – BandGap Jan 27 '12 at 11:20
Note: this will fail (yield nan) when the direction of the two vectors is either identical or opposite. See my answer for a more correct version. – David Wolever Dec 12 '12 at 21:52
adding neo's comment to this, the last line should be angle = arccos(clip(c, -1, 1)) to avoid rounding issues. This solves @DavidWolever 's issue. – Tim Tisdall Dec 30 '14 at 15:40
For the folks using the code snippet above: clip should be added to the list of numpy imports. – Light Jun 18 at 16:11

May I also suggest that you explicitly load data as float. I had a problem using np.linalg.norm where it assumed my vector, [55000,0,0] was an integer and returned nan. Using David Wolever's fantastic code, it would return pi every the time.

Load your vector using np.array([55000,0,0],dtype=float), and it is considered good practice anyway. The other method is to append a decimal point after a number to signify it is a float. Since I was loading from data files, I did not have this luxury.

>>> np.linalg.norm(np.array([55000,0,0]))
>>> np.linalg.norm(np.array([55000,0,0],dtype=float))
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strange.. I'm not experiencing this issue. – Tim Tisdall Dec 30 '14 at 15:50

Note: all of the other answers here will fail if the two vectors have either the same direction (ex, (1, 0, 0), (1, 0, 0)) or opposite directions (ex, (-1, 0, 0), (1, 0, 0)).

Here is a function which will correctly handle these cases:

import numpy as np

def unit_vector(vector):
    """ Returns the unit vector of the vector.  """
    return vector / np.linalg.norm(vector)

def angle_between(v1, v2):
    """ Returns the angle in radians between vectors 'v1' and 'v2'::

            >>> angle_between((1, 0, 0), (0, 1, 0))
            >>> angle_between((1, 0, 0), (1, 0, 0))
            >>> angle_between((1, 0, 0), (-1, 0, 0))
    v1_u = unit_vector(v1)
    v2_u = unit_vector(v2)
    angle = np.arccos(, v2_u))
    if np.isnan(angle):
        if (v1_u == v2_u).all():
            return 0.0
            return np.pi
    return angle
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Wouldn't it be better to use np.isnan instead of the one from the math library? In theory they should be identical, but I'm not quite sure in practice. Either way I'd imagine it would be safer. – Hooked Jul 15 '13 at 15:52
The only difference is that np.isnan will do something sensible if the input is an array, which will never be the case here. However, using np.isnan would definitely be cleaner (not sure why I used math.isnan…), so I'll switch that up. – David Wolever Jul 15 '13 at 16:03
You can also use angle = np.arccos(np.clip(, v2_u),-1,1)) and skip the if-else business. – neo Jan 13 '14 at 10:59

Using numpy and taking care of BandGap's rounding errors:

from numpy.linalg import norm
from numpy import dot
import math

def angle_between(a,b):
  arccosInput = dot(a,b)/norm(a)/norm(b)
  arccosInput = 1.0 if arccosInput > 1.0 else arccosInput
  arccosInput = -1.0 if arccosInput < -1.0 else arccosInput
  return math.acos(arccosInput)

Note, this function will throw an exception if one of the vectors has zero magnitude (divide by 0).

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You'll be wanting this formula.

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