I've been looking for a way to efficiently check for duplicates in a numpy array and stumbled upon a question that contained an answer using this code.

What does this line mean in numpy?

s[s[1:] == s[:-1]]

Would like to understand the code before applying it. Looked in the Numpy doc but had trouble finding this information.


The slices [1:] and [:-1] mean all but the first and all but the last elements of the array:

>>> import numpy as np
>>> s = np.array((1, 2, 2, 3))  # four element array
>>> s[1:]
array([2, 2, 3])  # last three elements
>>> s[:-1]
array([1, 2, 2])  # first three elements

therefore the comparison generates an array of boolean comparisons between each element s[x] and its "neighbour" s[x+1], which will be one shorter than the original array (as the last element has no neighbour):

>>> s[1:] == s[:-1]
array([False,  True, False], dtype=bool)

and using that array to index the original array gets you the elements where the comparison is True, i.e. the elements that are the same as their neighbour:

>>> s[s[1:] == s[:-1]]

Note that this only identifies adjacent duplicate values.

  • Wow, thanks for the thorough explanation :D. Will accept asap. So I guess to find all dups, sort and then do this :D. – wolfdawn Jun 14 '15 at 15:28
  • @zehelvion yes, if the array is unsorted you will need to sort first for this method to find all duplicates. – jonrsharpe Jun 14 '15 at 15:30
  • Shouldn't the array being sorted a requirement? – gabhijit Jun 14 '15 at 15:33
  • 1
    @gabhijit not necessarily, you may only want to find adjacent duplicates – jonrsharpe Jun 14 '15 at 15:34
  • 1
    Tried to use a regular (non-numpy) list of booleans (i.e. a mask) to index a regular list. That didn't work of course. So I went for this instead: [x for (x,y) in zip(my_list, mask) if y]. Thought I'd document it here, although it doesn't look for equal adjacent elements of course. – Oliphaunt Jun 20 '15 at 19:52

Check this out:

>>> s=numpy.array([1,3,5,6,7,7,8,9])
>>> s[1:] == s[:-1]
array([False, False, False, False,  True, False, False], dtype=bool)
>>> s[s[1:] == s[:-1]]

So s[1:] gives all numbers but the first, and s[:-1] all but the last. Now compare these two vectors, e.g. look if two adjacent elements are the same. Last, select these elements.


s[1:] == s[:-1] compares s without the first element with s without the last element, i.e. 0th with 1st, 1st with 2nd etc, giving you an array of len(s) - 1 boolean elements. s[boolarray] will select only those elements from s which have True at the corresponding place in boolarray. Thus, the code extracts all elements that are equal to the next element.


It will show duplicates in a sorted array.

Basically, the inner expression s[1:] == s[:-1] compares the array with its shifted version. Imagine this:

1, [2, 3, ... n-1, n  ]
-  [1, 2, ... n-2, n-1] n
=> [F, F, ...   F, F  ]

In a sorted array, there will be no True in resulted array unless you had repetition. Then, this expression s[array] filters those which has True in the index array.

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