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Suppose we have two items missing in a sequence of consecutive integers and the missing elements lie between the first and last elements. I did write a code that does accomplish the task. However, I wanted to make it efficient using less loops if possible. Any help will be appreciated. Also what about the condition when we have to find more missing items (say close to n/4) instead of 2. I think then my code should be efficient right because I am breaking out from the loop earlier?

def missing_elements(L,start,end,missing_num):
    complete_list = range(start,end+1)
    count = 0
    input_index = 0
    for item  in  complete_list:
        if item != L[input_index]:
            print item
            count += 1
        else :
            input_index += 1
        if count > missing_num:

def main():
    L = [10,11,13,14,15,16,17,18,20]
    start = 10
    end = 20

if __name__ == "__main__":
share|improve this question
I edited the code now. Thanks. –  vkaul11 Jun 6 '13 at 23:49
How exactly do I use binary search in this case if I don't know the missing value I am looking for? –  vkaul11 Jun 7 '13 at 0:04
not exactly binary search, but you can infer that the part of the list between bottom and index is completely consecutive if L[index] == L[bottom] + (index - bottom). This combined with splitting the list into two should give sublinear solution. –  Lie Ryan Jun 7 '13 at 0:27
Divide and conquer, I like this idea. –  Martijn Pieters Jun 7 '13 at 0:29
@LieRyan thanks seems like a good idea. –  vkaul11 Jun 7 '13 at 0:50

10 Answers 10

up vote 2 down vote accepted

Assuming that L is a list of integers with no duplicates, you can infer that the part of the list between start and index is completely consecutive if and only if L[index] == L[start] + (index - start) and similarly with index and end is completely consecutive if and only if L[index] == L[end] - (end - index). This combined with splitting the list into two recursively gives a sublinear solution.

# python 3.3 and up, in older versions, replace "yield from" with yield loop

def missing_elements(L, start, end):
    if end - start <= 1: 
        if L[end] - L[start] > 1:
            yield from range(L[start] + 1, L[end])

    index = start + (end - start) // 2

    # is the lower half consecutive?
    consecutive_low =  L[index] == L[start] + (index - start)
    if not consecutive_low:
        yield from missing_elements(L, start, index)

    # is the upper part consecutive?
    consecutive_high =  L[index] == L[end] - (end - index)
    if not consecutive_high:
        yield from missing_elements(L, index, end)

def main():
    L = [10,11,13,14,15,16,17,18,20]
    L = range(10, 21)

share|improve this answer
Thanks @Lie Ryan. I will try to look at the yield from function that I am not familiar with. –  vkaul11 Jun 7 '13 at 2:00

You could use the sets here, and take the start and end values from the input list:

def missing_elements(L):
    start, end = L[0], L[-1]
    return sorted(set(range(start, end + 1)).difference(L))

This assumes Python 3; for Python 2, use xrange() to avoid building a list first.

The sorted() call is optional; without it a set() is returned of the missing values, with it you get a sorted list.


>>> L = [10,11,13,14,15,16,17,18,20]
>>> missing_elements(L)
[12, 19]

Another approach is by detecting gaps between subsequent numbers; using an older itertools library sliding window recipe:

from itertools import islice, chain

def window(seq, n=2):
    "Returns a sliding window (of width n) over data from the iterable"
    "   s -> (s0,s1,...s[n-1]), (s1,s2,...,sn), ...                   "
    it = iter(seq)
    result = tuple(islice(it, n))
    if len(result) == n:
        yield result    
    for elem in it:
        result = result[1:] + (elem,)
        yield result

def missing_elements(L):
    missing = chain.from_iterable(range(x + 1, y) for x, y in window(L) if (y - x) > 1)
    return list(missing)

This is a pure O(n) operatation, and if you know the number of missing items, you can make sure it only produces those and then stops:

def missing_elements(L, count):
    missing = chain.from_iterable(range(x + 1, y) for x, y in window(L) if (y - x) > 1)
    return list(islice(missing, 0, count))

This will handle larger gaps too; if you are missing 2 items at 11 and 12, it'll still work:

>>> missing_elements([10, 13, 14, 15], 2)
[11, 12]

and the above sample only had to iterate over [10, 13] to figure this out.

share|improve this answer
I'm quite sure the input list is already sorted, as he named that a sequence. From what I got from the OP's question, he's trying to make it less than O(n). –  Rubens Jun 6 '13 at 23:53
@Rubens: The output of the difference between sets is a set, which does not have a defined order. Returning sorted() on the set returns a sorted list, however. –  Martijn Pieters Jun 6 '13 at 23:54
@Rubens: and I am skeptical that the OP is aware enough of big-Oh notation to ask for better-than-O(n) unless I see that explicitly stated. –  Martijn Pieters Jun 6 '13 at 23:57
Yes Rubens, I am trying to get more efficient algorithm. Martijn, so my method in terms of complexity is as efficient as you can get or you think there is some trick that help make it more efficient? Does not your method have an additional penalty if I had to find 5 missing items instead of 2 because I can sometime break from the loop earlier and I don't need sorting in my code. I know if we have one number missing difference in sums can help. –  vkaul11 Jun 7 '13 at 0:00
@vkaul11: Updated to give you a O(n) algorithm, with an option to bail out early if the number of missing elements is known up front. –  Martijn Pieters Jun 7 '13 at 0:16
missingItems = [x for x in complete_list if not x in L]
share|improve this answer
This is not that efficient unless L is turned into a set. Potentially, each in test is O(n) complexity. –  Martijn Pieters Jun 6 '13 at 23:52
Would this accomplish that: [x for x in complete_list if not x in set(L)] ? –  Jason Sperske Jun 6 '13 at 23:53
Yes though the code is shorter it is O(n^2) while my code though longer is O(n). –  vkaul11 Jun 6 '13 at 23:56
It would be better to make L a set in a separate line of code. –  user2461709 Jun 6 '13 at 23:56
@JasonSperske: the set(L) expression would be executed for each iteration in the loop, so no. set_L = set(L) first, then use if x not in set_L in the list comprehension. –  Martijn Pieters Jun 6 '13 at 23:58

My take was to use no loops and set operations:

def find_missing(in_list):
    complete_set = set(range(in_list[0], in_list[-1] + 1))
    return complete_set - set(in_list)

def main():
    sample = [10, 11, 13, 14, 15, 16, 17, 18, 20]
    print find_missing(sample)

if __name__ == "__main__":

# => set([19, 12])
share|improve this answer
To build the sets, and to calculate the difference, Python still has to employ loops. These are just hidden in C code. They'll be faster than Python loops, and the set difference is an efficient operation, but the loops are still there. –  Martijn Pieters Jun 6 '13 at 23:56
@MartijnPieters True enough, and I see you beat me to it anyway. Thanks for elaborating. –  mVChr Jun 6 '13 at 23:58

Simply walk the list and look for non-consecutive numbers:

prev = L[0]
for this in L[1:]:
    if this > prev+1:
        for item in range(prev+1, this):    # this handles gaps of 1 or more
            print item
    prev = this
share|improve this answer
That's how I'd do it in a language without some of Python's syntactic power, but that would be a fairly plodding way to do it in Python. –  acjay Jun 7 '13 at 0:01
Agreed. I like your one-liner better. –  Brent Washburne Jun 7 '13 at 0:05
OTOH, this code is about the easiest to read, and it doesn't require any other libraries, sets, or syntactic tools. It would be trivial to add a counter to break out of the loop. –  Brent Washburne Jun 7 '13 at 6:22

Here's a one-liner:

In [10]: l = [10,11,13,14,15,16,17,18,20]

In [11]: [i for i, (n1, n2) in enumerate(zip(l[:-1], l[1:])) if n1 + 1 != n2]
Out[11]: [1, 7]

I use the list, slicing to offset the copies by one, and use enumerate to get the indices of the missing item.

For long lists, this isn't great because it's not O(log(n)), but I think it should be pretty efficient versus using a set for small inputs. izip from itertools would probably make it quicker still.

share|improve this answer
Readability counts. –  squiguy Jun 6 '13 at 23:51
Is that not readable? It's all pretty basic builtin Python. In code I'd check in, I'd probably choose better identifier names, but then again, maybe not if it's all self-contained in one line. –  acjay Jun 6 '13 at 23:54
I would just do it over a few lines, but that's just me :). –  squiguy Jun 6 '13 at 23:54
I agree, if I'm spilling over 80 chars, I usually break on in and if in my list comprehensions. –  acjay Jun 6 '13 at 23:56
this may produce an unexpected result if the missing numbers are consecutive. A second pass is needed to check for that. PS: using basic features of the language isn't the same as good readability. –  Lie Ryan Jun 7 '13 at 0:04

Using collections.Counter:

from collections import Counter

dic = Counter([10, 11, 13, 14, 15, 16, 17, 18, 20])
print([i for i in range(10, 20) if dic[i] == 0])


[12, 19]
share|improve this answer
>>> l = [10,11,13,14,15,16,17,18,20]
>>> [l[i]+1 for i, j in enumerate(l) if (l+[0])[i+1] - l[i] > 1]
[12, 19]
share|improve this answer

We found a missing value if the difference between two consecutive numbers is greater than 1:

>>> L = [10,11,13,14,15,16,17,18,20]
>>> [x + 1 for x, y in zip(L[:-1], L[1:]) if y - x > 1]
[12, 19]

Note: Python 3. In Python 2 use itertools.izip.

Improved version for more than one value missing in a row:

>>> import itertools as it
>>> L = [10,11,14,15,16,17,18,20] # 12, 13 and 19 missing
>>> [x + diff for x, y in zip(it.islice(L, None, len(L) - 1),
                              it.islice(L, 1, None)) 
     for diff in range(1, y - x) if diff]
[12, 13, 19]
share|improve this answer
This does create two copies of the input list; those copies require loops too. You can do this with iterators (see the itertools module documentation for an example) where you don't need to create copies. –  Martijn Pieters Jun 7 '13 at 0:08
I use Python 3. –  Mike Müller Jun 7 '13 at 0:08
Python 3 doesn't make slices into iterators; they are still copies. –  Martijn Pieters Jun 7 '13 at 0:10
Ok. I meant for the zip. –  Mike Müller Jun 7 '13 at 0:11
And this'll miss larger gaps. –  Martijn Pieters Jun 7 '13 at 0:12

Using scipy lib:

import math
from scipy.optimize import fsolve

def mullist(a):
    mul = 1
    for i in a:
        mul = mul*i
    return mul

a = [1,2,3,4,5,6,9,10]
s = sum(a)
so = sum(range(1,11))
mulo = mullist(range(1,11))
mul = mullist(a)
over = mulo/mul
delta = so -s
# y = so - s -x
# xy = mulo/mul
def func(x):
    return (so -s -x)*x-over

print int(round(fsolve(func, 0))), int(round(delta - fsolve(func, 0)))

Timing it:

$ python -mtimeit -s "$(cat with_scipy.py)" 

7 8

100000000 loops, best of 3: 0.0181 usec per loop

Other option is:

>>> from sets import Set
>>> a = Set(range(1,11))
>>> b = Set([1,2,3,4,5,6,9,10])
>>> a-b
Set([8, 7])

And the timing is:

Set([8, 7])
100000000 loops, best of 3: 0.0178 usec per loop
share|improve this answer

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