In Python we can get the index of a value in an array by using .index().

But with a NumPy array, when I try to do:


I get:

AttributeError: 'numpy.ndarray' object has no attribute 'index'

How could I do this on a NumPy array?


Use np.where to get the indices where a given condition is True.


For a 2D np.ndarray called a:

i, j = np.where(a == value) # when comparing arrays of integers

i, j = np.where(np.isclose(a, value)) # when comparing floating-point arrays

For a 1D array:

i, = np.where(a == value) # integers

i, = np.where(np.isclose(a, value)) # floating-point

Note that this also works for conditions like >=, <=, != and so forth...

You can also create a subclass of np.ndarray with an index() method:

class myarray(np.ndarray):
    def __new__(cls, *args, **kwargs):
        return np.array(*args, **kwargs).view(myarray)
    def index(self, value):
        return np.where(self == value)


a = myarray([1,2,3,4,4,4,5,6,4,4,4])
#(array([ 3,  4,  5,  8,  9, 10]),)
  • Why have the commata after the variable names in the 1D cases? Just in case the input is bad? – BUFU Feb 18 at 13:01
  • 1
    @BUFU, that's because the output of np.where is always a tuple. If I used i = np.where(...), my variable i would be a tuple object – Saullo G. P. Castro Feb 18 at 14:00
  • Ah, I see. Didn't think about that.. ;) – BUFU Feb 18 at 16:30

You can convert a numpy array to list and get its index .

for example:

tmp = [1,2,3,4,5] #python list
a = numpy.array(tmp) #numpy array
i = list(a).index(2) # i will return index of 2, which is 1

this is just what you wanted.


I'm torn between these two ways of implementing an index of a NumPy array:

idx = list(classes).index(var)
idx = np.where(classes == var)

Both take the same number of characters, but the first method returns an int instead of a numpy.ndarray.


This problem can be solved efficiently using the numpy_indexed library (disclaimer: I am its author); which was created to address problems of this type. npi.indices can be viewed as an n-dimensional generalisation of list.index. It will act on nd-arrays (along a specified axis); and also will look up multiple entries in a vectorized manner as opposed to a single item at a time.

a = np.random.rand(50, 60, 70)
i = np.random.randint(0, len(a), 40)
b = a[i]

import numpy_indexed as npi
assert all(i == npi.indices(a, b))

This solution has better time complexity (n log n at worst) than any of the previously posted answers, and is fully vectorized.


You can use the function numpy.nonzero(), or the nonzero() method of an array

import numpy as np

A = np.array([[2,4],
index= np.nonzero(A>1)


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

First array in output depicts the row index and second array depicts the corresponding column index.


If you are interested in the indexes, the best choice is np.argsort(a)

a = np.random.randint(0, 100, 10)
sorted_idx = np.argsort(a)

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