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Let's assume we have a sorted list:

lst = [1,3,4,89,456,543] # a long one

and what we'd like to do is to find the number of elements in a list which are smaller than, mx.


n = len([x for x in lst if x < mx])

or with generator:

n = sum(1 for x in lst if x < mx)

I assume the second approach should be slightly quicker, but still, the problem here is that we are going through all the elements of a list while we could stop early. It doesn't use the fact that the list is sorted.

Yep, I can do it with a loop:

s = 0
for x in lst:
    if x >= mx:
    s += 1

But, I have a feeling there must be a better (shorter and / or quicker) way to do the same thing, maybe with some generator or an external module function?

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2 Answers 2

up vote 9 down vote accepted

We can do even better with a binary search, which is handily implemented for us in the bisect module:

import bisect
n = bisect.bisect_left(lst, mx)

This takes time logarithmic in the length of lst, whereas a linear search with early termination is linear in n. This will generally be faster.

If you want to use a linear search, the takewhile function from itertools can stop the iteration early:

import itertools
n = sum(1 for _ in itertools.takewhile(lambda x: x < mx, lst))
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I am trying to solve using binary search:


 lst = range(12, 100)
 mx = 30

 def binary_search(data, target, low, high):
     if low > high:
         return False
         mid = (low + high) // 2
         if target == data[mid]:
            return mid
         elif target < data[mid]:
            return binary_search(data, target, low, (mid - 1))
            return binary_search(data, target, mid + 1, high)

 if __name__ == '__main__':
     index = binary_search(lst, mx, 0, len(lst) + 1)
     print 'Count: %d' % len(lst[:index])
     print lst[:index]


Count : 18
[12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29]
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