I would like to have the norm of one NumPy array. More specifically, I am looking for an equivalent version of this function

def normalize(v):
    norm = np.linalg.norm(v)
    if norm == 0: 
       return v
    return v / norm

Is there something like that in skearn or numpy?

This function works in a situation where v is the 0 vector.

  • 2
    What's wrong with what you've written? – ali_m Jan 9 '14 at 20:30
  • 5
    If this is really a concern, you should check for norm < epsilon, where epsilon is a small tolerance. In addition, I wouldn't silently pass back a norm zero vector, I would raise an exception! – Hooked Jan 9 '14 at 20:51
  • 3
    my function works but I would like to know if there is something inside the python's more common library. I am writing different machine learning functions and I would like to avoid to define too much new functions to make the code more clear and readable – Donbeo Jan 9 '14 at 21:08
  • 7
    One possible concern is that in current NumPy, np.linalg.norm is very slow. I patched it for the upcoming release, but before that's out, I'd avoid this function if speed is an issue. – Fred Foo Jan 10 '14 at 15:02
  • 1
    I did a few quick tests and I found that x/np.linalg.norm(x) was not much slower (about 15-20%) than x/np.sqrt((x**2).sum()) in numpy 1.15.1 on a CPU. – Bill Sep 10 '18 at 19:10

11 Answers 11


If you're using scikit-learn you can use sklearn.preprocessing.normalize:

import numpy as np
from sklearn.preprocessing import normalize

x = np.random.rand(1000)*10
norm1 = x / np.linalg.norm(x)
norm2 = normalize(x[:,np.newaxis], axis=0).ravel()
print np.all(norm1 == norm2)
# True
  • 2
    Thanks for the answer but are you sure that sklearn.preprocessing.normalize works also with vector of shape=(n,) or (n,1) ? I am having some problems with this library – Donbeo Jan 9 '14 at 21:17
  • normalize requires a 2D input. You can pass the axis= argument to specify whether you want to apply the normalization across the rows or columns of your input array. – ali_m Jan 9 '14 at 21:20
  • 7
    Note that the 'norm' argument of the normalize function can be either 'l1' or 'l2' and the default is 'l2'. If you want your vector's sum to be 1 (e.g. a probability distribution) you should use norm='l1' in the normalize function. – Ash Nov 6 '15 at 10:56
  • 1
    Also note that np.linalg.norm(x) calculates 'l2' norm by default. If you want your vector's sum to be 1 you should use np.linalg.norm(x, ord=1) – Omid Jul 28 '18 at 17:21

I would agree that it were nice if such a function was part of the included batteries. But it isn't, as far as I know. Here is a version for arbitrary axes, and giving optimal performance.

import numpy as np

def normalized(a, axis=-1, order=2):
    l2 = np.atleast_1d(np.linalg.norm(a, order, axis))
    l2[l2==0] = 1
    return a / np.expand_dims(l2, axis)

A = np.random.randn(3,3,3)

  • I did not deeply test the ali_m solution but in some simple case it seems to be working. Are there situtions where your function does better? – Donbeo Jan 9 '14 at 23:20
  • 1
    I don't know; but it works over arbitrary axes, and we have explicit control over what happens for length 0 vectors. – Eelco Hoogendoorn Jan 10 '14 at 6:52
  • 1
    Very nice! This should be in numpy — although order should probably come before axis in my opinion. – Neil G Jan 16 '15 at 15:57
  • @EelcoHoogendoorn Curious to understand why order=2 chosen over others? – Henry Thornton Jul 5 '15 at 7:35
  • 6
    Because the Euclidian/pythagoran norm happens to be the most frequently used one; wouldn't you agree? – Eelco Hoogendoorn Jul 6 '15 at 8:47

You can specify ord to get the L1 norm. To avoid zero division I use eps, but that's maybe not great.

def normalize(v):
    norm=np.linalg.norm(v, ord=1)
    if norm==0:
    return v/norm
  • normalizing [inf, 1, 2] yields [nan, 0, 0], but shouldn't it be [1, 0, 0]? – pasbi Mar 9 '18 at 16:30

If you have multidimensional data and want each axis normalized to itself:

def normalize(d):
    # d is a (n x dimension) np array
    d -= np.min(d, axis=0)
    d /= np.ptp(d, axis=0)
    return d

Uses numpys peak to peak function.


This might also work for you

import numpy as np
normalized_v = v / np.sqrt(np.sum(v**2))

but fails when v has length 0.


There is also the function unit_vector() to normalize vectors in the popular transformations module by Christoph Gohlke:

import transformations as trafo
import numpy as np

data = np.array([[1.0, 1.0, 0.0],
                 [1.0, 1.0, 1.0],
                 [1.0, 2.0, 3.0]])

print(trafo.unit_vector(data, axis=1))

If you want to normalize n dimensional feature vectors stored in a 3D tensor, you could also use PyTorch:

import numpy as np
from torch import FloatTensor
from torch.nn.functional import normalize

vecs = np.random.rand(3, 16, 16, 16)
norm_vecs = normalize(FloatTensor(vecs), dim=0, eps=1e-16).numpy()

If you're working with 3D vectors, you can do this concisely using the toolbelt vg. It's a light layer on top of numpy and it supports single values and stacked vectors.

import numpy as np
import vg

x = np.random.rand(1000)*10
norm1 = x / np.linalg.norm(x)
norm2 = vg.normalize(x)
print np.all(norm1 == norm2)
# True

I created the library at my last startup, where it was motivated by uses like this: simple ideas which are way too verbose in NumPy.


You mentioned sci-kit learn, so I wanna share another solution.

sci-kit learn MinMaxScaler

In sci-kit learn, there is a API called MinMaxScaler which can customize the the value range as you like.

It also deal with NaN issues for us.

NaNs are treated as missing values: disregarded in fit, and maintained in transform. ... see reference [1]

Code sample

The code is simple, just type

# Let's say X_train is your input dataframe
from sklearn.preprocessing import MinMaxScaler
# call MinMaxScaler object
min_max_scaler = MinMaxScaler()
# feed in a numpy array
X_train_norm = min_max_scaler.fit_transform(X_train.values)
# wrap it up if you need a dataframe
df = pd.DataFrame(X_train_norm)

If you don't need utmost precision, your function can be reduced to:

v_norm = v / (np.linalg.norm(v) + 1e-16)

Without sklearn and using just numpy. Just define a function:.

Assuming that the rows are the variables and the columns the samples (axis= 1):

import numpy as np

# Example array
X = np.array([[1,2,3],[4,5,6]])

def stdmtx(X):
    means = X.mean(axis =1)
    stds = X.std(axis= 1, ddof=1)
    X= X - means[:, np.newaxis]
    X= X / stds[:, np.newaxis]
    return np.nan_to_num(X)


array([[1, 2, 3],
       [4, 5, 6]])

array([[-1.,  0.,  1.],
       [-1.,  0.,  1.]])

protected by Sheldore Jul 12 at 14:41

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