# Multidimensional Euclidean Distance in Python

I want to calculate the Euclidean distance in multiple dimensions (24 dimensions) between 2 arrays. I'm using numpy-Scipy.

Here is my code:

``````import numpy,scipy;

A=numpy.array([116.629, 7192.6, 4535.66, 279714, 176404, 443608, 295522, 1.18399e+07, 7.74233e+06, 2.85839e+08, 2.30168e+08, 5.6919e+08, 168989, 7.48866e+06, 1.45261e+06, 7.49496e+07, 2.13295e+07, 3.74361e+08, 54.5, 3349.39, 262.614, 16175.8, 3693.79, 205865]);

B=numpy.array([0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 151246, 6795630, 4566625, 2.0355328e+08, 1.4250515e+08, 3.2699482e+08, 95635, 4470961, 589043, 29729866, 6124073, 222.3]);
``````

However, I used `scipy.spatial.distance.cdist(A[numpy.newaxis,:],B,'euclidean')` to calcuate the eucleidan distance.

But it gave me an error

``````raise ValueError('XB must be a 2-dimensional array.');
``````

I don't seem to understand it.

I looked up `scipy.spatial.distance.pdist` but don't understand how to use it?

Is there any other better way to do it?

• – Michael Mior Feb 23 '12 at 14:16
• So, you have 2, 24-dimensional points? In that case, @Mr.E's answer is the best option. However, when you have more than 2 points, the various `scipy.spatial.distance` functions will be more efficient. – Joe Kington Feb 23 '12 at 14:26
• I thought perhaps I was missing something. Posted as an answer if that solves your problem. – Michael Mior Feb 23 '12 at 17:24
• I would like to say something about the error you received long time ago and it might help others in need. Reading from the docs both arrays A and B need to have the same dimensions. This means that if your first array A has a 2-dimensional shape (like you defined with `A[numpy.newaxis,:]`) also your second array needs to have the same dimensions. Writing `B[numpy.newaxis,:]` should therefore solve the error. – Julian Gorfer Sep 19 '20 at 22:36

Examples

``````>>> from scipy.spatial import distance
>>> distance.euclidean([1, 0, 0], [0, 1, 0])
1.4142135623730951
>>> distance.euclidean([1, 1, 0], [0, 1, 0])
1.0
``````

Use either

``````numpy.sqrt(numpy.sum((A - B)**2))
``````

or more simply

``````numpy.linalg.norm(A - B)
``````

`A` and `B` are 2 points in the 24-D space. You should use `scipy.spatial.distance.euclidean`.

Doc here

``````scipy.spatial.distance.euclidean(A, B)
``````

Starting `Python 3.8`, you can use standard library's `math` module and its new `dist` function, which returns the euclidean distance between two points (given as lists or tuples of coordinates):

``````from math import dist

dist([1, 0, 0], [0, 1, 0]) # 1.4142135623730951
``````
• And it's noticeably faster than scipy's euclidean function! +1 – mauriii Aug 26 '20 at 7:09

Apart from the already mentioned ways of computing the Euclidean distance, here's one that's close to your original code:

``````scipy.spatial.distance.cdist([A], [B], 'euclidean')
``````

or

``````scipy.spatial.distance.cdist(np.atleast_2d(A), np.atleast_2d(B), 'euclidean')
``````

This returns a 1×1 `np.ndarray` holding the L2 distance.

Since all of the above answers refer to numpy and or scipy, just wanted to point out that something really simple can be done with reduce here

``````def n_dimensional_euclidean_distance(a, b):
"""
Returns the euclidean distance for n>=2 dimensions
:param a: tuple with integers
:param b: tuple with integers
:return: the euclidean distance as an integer
"""
dimension = len(a) # notice, this will definitely throw a IndexError if len(a) != len(b)

return sqrt(reduce(lambda i,j: i + ((a[j] - b[j]) ** 2), range(dimension), 0))
``````

This will sum all pairs of (a[j] - b[j])^2 for all j in the number of dimensions (note that for simplicity this doesn't support n<2 dimensional distance).