Assume, I have a NumPy-array of integers, as:


I want to find the start and end indices of the array, where a value is more than x-times (say 5-times) repeated. So in the case above, it is the value 22 and 6. Start index of the repeated 22 is 3 and end-index is 8. Same for the repeatening 6. Is there a special tool in Python that is helpful? Otherwise, I would loop through the array index for index and compare the actual value with the previous.


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  • @Evan: I don't think that applies so well: mode works on values anywhere in the array, not necessarily contiguous. – Prune Jun 27 '17 at 22:29
  • This question is really relevant to any sort of sequence container in python, not just numpy arrays. – Liam Bohl Jun 27 '17 at 22:54

Using np.diff and the method given here by @WarrenWeckesser for finding runs of zeros in an array:

import numpy as np

def zero_runs(a):  # from link
    iszero = np.concatenate(([0], np.equal(a, 0).view(np.int8), [0]))
    absdiff = np.abs(np.diff(iszero))
    ranges = np.where(absdiff == 1)[0].reshape(-1, 2)
    return ranges

a = [34,2,3,22,22,22,22,22,22,18,90,5,-55,-19,22,6,6,6,6,6,6,6,6,23,53,1,5,-42,82]

array([[ 3,  8],
       [15, 22]], dtype=int32)

This can then be filtered on the difference between the start & end of the run:

runs = zero_runs(np.diff(a))

runs[runs[:, 1]-runs[:, 0]>5]  # runs of 7 or more, to illustrate filter
Out[96]: array([[15, 22]], dtype=int32)
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There really isn't a great short-cut for this. You can do something like:

mult = 5
for elem in val_list:
    target = [elem] * mult
    found_at = val_list.index(target)

I leave the not-found exceptions and longer sequence detection to you.

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Here is a solution using Python's native itertools.


import itertools as it

def find_ranges(lst, n=2):
    """Return ranges for `n` or more repeated values."""
    groups = ((k, tuple(g)) for k, g in it.groupby(enumerate(lst), lambda x: x[-1]))
    repeated = (idx_g for k, idx_g in groups if len(idx_g) >=n)
    return ((sub[0][0], sub[-1][0]) for sub in repeated)

lst = [34,2,3,22,22,22,22,22,22,18,90,5,-55,-19,22,6,6,6,6,6,6,6,6,23,53,1,5,-42,82]    
list(find_ranges(lst, 5))
# [(3, 8), (15, 22)]


import nose.tools as nt

def test_ranges(f):
    """Verify list results identifying ranges."""
    nt.eq_(list(f([])), [])
    nt.eq_(list(f([0, 1,1,1,1,1,1, 2], 5)), [(1, 6)])
    nt.eq_(list(f([1,1,1,1,1,1, 2,2, 1, 3, 1,1,1,1,1,1], 5)), [(0, 5), (10, 15)])
    nt.eq_(list(f([1,1, 2, 1,1,1,1, 2, 1,1,1], 3)), [(3, 6), (8, 10)])    
    nt.eq_(list(f([1,1,1,1, 2, 1,1,1, 2, 1,1,1,1], 3)), [(0, 3), (5, 7), (9, 12)])


This example captures (index, element) pairs in lst, and then groups them by element. Only repeated pairs are retained. Finally, first and last pairs are sliced, yielding (start, end) indices from each repeated group.

See also this post for finding ranges of indices using itertools.groupby.

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If you're looking for value repeated n times in list L, you could do something like this:

def find_repeat(value, n, L):
    look_for = [value for _ in range(n)]
    for i in range(len(L)):
        if L[i] == value and L[i:i+n] == look_for:
            return i, i+n
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Here is a relatively quick, errorless solution which also tells you how many copies were in the run. Some of this code was borrowed from KAL's solution.

# Return the start and (1-past-the-end) indices of the first instance of
# at least min_count copies of element value in container l 
def find_repeat(value, min_count, l):
  look_for = [value for _ in range(min_count)]
  for i in range(len(l)):
    count = 0
    while l[i + count] == value:
      count += 1
    if count >= min_count:
      return i, i + count
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