Why is numpy giving this result:

x = numpy.array([1.48,1.41,0.0,0.1])
print x.argsort()

>[2 3 1 0]

when I'd expect it to do this:

[3 2 0 1]

Clearly my understanding of the function is lacking.

  • 9
    Why did you think [3 2 0 1] would have been the correct answer?
    – zwol
    Jul 27, 2013 at 18:49
  • 12
    I just had an inverted understanding of the output. Ie, if you take the first element of x, it should be in position 3 of a sorted array and so on. Jul 27, 2013 at 18:51
  • 39
    your way of thinking totally makes sense, I had exactly the same question Aug 13, 2016 at 22:58
  • 7
    [3 2 0 1] - this is ranking the values, you are not getting the actual indices. Feb 13, 2018 at 8:51
  • 3
    Just to remember that the output indicates locations in the original array while you think it in the sorted array. That means output[0] is the index where the smallest element in the original input array locates and output[-1] for the biggest element.
    – lincr
    May 27, 2020 at 12:16

10 Answers 10


According to the documentation

Returns the indices that would sort an array.

  • 2 is the index of 0.0.
  • 3 is the index of 0.1.
  • 1 is the index of 1.41.
  • 0 is the index of 1.48.
  • 20
    a = x.argsort(), print x[a], we will get array([ 0. , 0.1 , 1.41, 1.48])
    – Belter
    Mar 12, 2017 at 8:19

[2, 3, 1, 0] indicates that the smallest element is at index 2, the next smallest at index 3, then index 1, then index 0.

There are a number of ways to get the result you are looking for:

import numpy as np
import scipy.stats as stats

def using_indexed_assignment(x):
    "https://stackoverflow.com/a/5284703/190597 (Sven Marnach)"
    result = np.empty(len(x), dtype=int)
    temp = x.argsort()
    result[temp] = np.arange(len(x))
    return result

def using_rankdata(x):
    return stats.rankdata(x)-1

def using_argsort_twice(x):
    "https://stackoverflow.com/a/6266510/190597 (k.rooijers)"
    return np.argsort(np.argsort(x))

def using_digitize(x):
    unique_vals, index = np.unique(x, return_inverse=True)
    return np.digitize(x, bins=unique_vals) - 1

For example,

In [72]: x = np.array([1.48,1.41,0.0,0.1])

In [73]: using_indexed_assignment(x)
Out[73]: array([3, 2, 0, 1])

This checks that they all produce the same result:

x = np.random.random(10**5)
expected = using_indexed_assignment(x)
for func in (using_argsort_twice, using_digitize, using_rankdata):
    assert np.allclose(expected, func(x))

These IPython %timeit benchmarks suggests for large arrays using_indexed_assignment is the fastest:

In [50]: x = np.random.random(10**5)
In [66]: %timeit using_indexed_assignment(x)
100 loops, best of 3: 9.32 ms per loop

In [70]: %timeit using_rankdata(x)
100 loops, best of 3: 10.6 ms per loop

In [56]: %timeit using_argsort_twice(x)
100 loops, best of 3: 16.2 ms per loop

In [59]: %timeit using_digitize(x)
10 loops, best of 3: 27 ms per loop

For small arrays, using_argsort_twice may be faster:

In [78]: x = np.random.random(10**2)

In [81]: %timeit using_argsort_twice(x)
100000 loops, best of 3: 3.45 µs per loop

In [79]: %timeit using_indexed_assignment(x)
100000 loops, best of 3: 4.78 µs per loop

In [80]: %timeit using_rankdata(x)
100000 loops, best of 3: 19 µs per loop

In [82]: %timeit using_digitize(x)
10000 loops, best of 3: 26.2 µs per loop

Note also that stats.rankdata gives you more control over how to handle elements of equal value.

  • 2
    Can you add some explanation on why applying argsort() twice gives us the rank?
    – Phani
    Jul 19, 2014 at 22:50
  • 2
    @Phani: argsort returns the indices of the sorted array. The index of the sorted indices is the rank. This is what the second call to argsort returns.
    – unutbu
    Jul 19, 2014 at 23:40
  • 3
    The first argsort returns a permutation (which if applied to the data would sort it). When argsort is applied to (this or any) permutation, it returns the inverse permutation (that if the 2 permutations are applied to each other in either order the result is the Identity). The second permutation if applied to a sorted data array would produce the unsorted data array, i.e. it is the rank.
    – Alex C
    May 18, 2016 at 0:35
  • 2
    Mind blown. I finally understood it! It returns an array whose content is the indices of the original array in a sorted order.
    – Jose A
    Jul 16, 2018 at 18:43

As the documentation says, argsort:

Returns the indices that would sort an array.

That means the first element of the argsort is the index of the element that should be sorted first, the second element is the index of the element that should be second, etc.

What you seem to want is the rank order of the values, which is what is provided by scipy.stats.rankdata. Note that you need to think about what should happen if there are ties in the ranks.


numpy.argsort(a, axis=-1, kind='quicksort', order=None)

Returns the indices that would sort an array

Perform an indirect sort along the given axis using the algorithm specified by the kind keyword. It returns an array of indices of the same shape as that index data along the given axis in sorted order.

Consider one example in python, having a list of values as

listExample  = [0 , 2, 2456,  2000, 5000, 0, 1]

Now we use argsort function:

import numpy as np

The output will be

[0, 5, 6, 1, 3, 2, 4]

This is the list of indices of values in listExample if you map these indices to the respective values then we will get the result as follows:

[0, 0, 1, 2, 2000, 2456, 5000]

(I find this function very useful in many places e.g. If you want to sort the list/array but don't want to use list.sort() function (i.e. without changing the order of actual values in the list) you can use this function.)

For more details refer this link: https://docs.scipy.org/doc/numpy-1.15.0/reference/generated/numpy.argsort.html


import numpy as np
x = np.array([1.48,1.41,0.0,0.1])

array([3, 2, 0, 1])

  • 2
    While this code snippet may be the solution, including an explanation really helps to improve the quality of your post. Remember that you are answering the question for readers in the future, and those people might not know the reasons for your code suggestion.
    – peacetype
    Feb 18, 2018 at 2:10

For anyone wondering "why argsort", my answer is "using one array to sort another":

In [49]: a = np.array(list('asdf'))

In [50]: b = [3,2,0,1]

In [51]: np.argsort(b)
Out[51]: array([2, 3, 1, 0])

In [52]: a[np.argsort(b)]
Out[52]: array(['d', 'f', 's', 'a'], dtype='<U1')

This is great for columnar data, e.g. a column of names and a column of salaries, and you want to see the names of the N highest-paid people.


First, it was ordered the array. Then generate an array with the initial index of the array.


np.argsort returns the index of the sorted array given by the 'kind' (which specifies the type of sorting algorithm). However, when a list is used with np.argmax, it returns the index of the largest element in the list. While, np.sort, sorts the given array, list.


Just want to directly contrast the OP's original understanding against the actual implementation with code.

numpy.argsort is defined such that for 1D arrays:

x[x.argsort()] == numpy.sort(x) # this will be an array of True's

The OP originally thought that it was defined such that for 1D arrays:

x == numpy.sort(x)[x.argsort()] # this will not be True

Note: This code doesn't work in the general case (only works for 1D), this answer is purely for illustration purposes.

  • x[x.argsort()] is not necessarily the same as np.sort(x). In fact, it's not necessarily even the same shape. Try this with a 2D array. This only happens to work with 1D arrays.
    – Nathan
    Mar 8, 2019 at 22:28
  • 1
    I feel like that's unnecessarily pedantic. The question is about 1D arrays. This is intended as a way to understand what the difference was, rather than literal code to use. Additionally, when you have a 2D array it's not even clear what kind of sorting you want. Do you want a global sort? If not, which axis should be sorted? Regardless, I've added a disclaimer. Mar 11, 2019 at 0:08

It returns indices according to the given array indices,[1.48,1.41,0.0,0.1],that means: 0.0 is the first element, in index [2]. 0.1 is the second element, in index[3]. 1.41 is the third element, in index [1]. 1.48 is the fourth element, in index[0]. Output:


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