# Is there a way to know if a list of elements is on a larger list without using 'in' keyword?

I want to do this. I have two python lists, one larger than the other and I want to know is there is a way to check if the elements of the smaller list are in the big list in the exact same order for example:

``````small_list = [4,2,5]
big_list = [1,2,5,7,2,4,2,5,67,8,5,13,45]
``````

I tried using the in keyword but It did not worked :'(

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the in keyword will only tell you if small_list, is an element of big_list... big_list = [1,2,5,7,2,small_list,4,2,5,67,8,5,13,45] –  igorgue Oct 29 '09 at 21:26

``````def in_list(small, big):
l_sml = len(small)
l_big = len(big)
return any((big[i:i+l_sml]==small for i in xrange(l_big-l_sml+1)))

print in_list([4,2,1], [1,2,3,4,2,1,0,5]) # True
print in_list([1,2,3], [1,2,4])           # False
``````
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this one works! –  Fitoria Oct 29 '09 at 21:47
Maybe better to replace the `if True in` with the `any()` function? –  Daniel Pryden Oct 29 '09 at 21:49
Splendid suggestion, thanks ! (I edited the answer accordingly). 'any' is one of those functions I tend to always forget about... –  ChristopheD Oct 29 '09 at 21:53
And please make it 'return any(...)'. any() already returns a boolean. –  unbeknown Oct 29 '09 at 22:13
Point taken ;-) –  ChristopheD Oct 29 '09 at 23:14

Hmm, maybe it's overkill, but you can use the SequenceMatcher class from difflib:

``````from difflib import SequenceMatcher
small_list = [4,2,5]
big_list = [1,2,5,7,2,4,2,5,67,8,5,13,45]
print SequenceMatcher(None, small_list, big_list).get_matching_blocks()
``````

difflib documentation

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Rather non-optimized, demonstrates the general strategy simply:

``````tuple(small_list) in zip(big_list[:], big_list[1:], big_list[2:])
``````

The funky zip thing does this:

``````>>> zip(big_list[:], big_list[1:], big_list[2:])
[(1, 2, 5), (2, 5, 7), (5, 7, 2), (7, 2, 4), (2, 4, 2), (4, 2, 5), (2, 5, 67), (5, 67, 8), (67, 8, 5), (8, 5, 13), (5, 13, 45)]
``````

A more optimized version:

``````from itertools import izip, islice
tuple(small_list) in izip(big_list, islice(big_list, 1, None), islice(big_list, 2, None))
``````

To handle small_list length of any size:

``````from itertools import izip, islice
tuple(small_list) in izip(*(islice(big_list, i, None) for i in xrange(len(small_list))))
``````
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Interesting solution. Not very general, but works ok if the small list is ALWAYS VERY SMALL. –  Paul McMillan Oct 29 '09 at 21:29
generalizing it for different length of the small list is straightforward –  ʞɔıu Oct 29 '09 at 21:34
Isn't this solution optimal even if small_list is not very small? –  unutbu Oct 29 '09 at 21:41
the optimized versions using itertool's generator functions should be perfectly OK –  ʞɔıu Oct 29 '09 at 21:47

This problem is trickier than it seems. Unless I'm mistaken, it's a special case of the longest common substring problem.

For the general case (arbitrarily large lists), I would use some kind of finite state automaton, akin to a regular expression. I believe the result could then be calculated in O(mn) time.

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You are mistaken. It's the same as finding if a substring T in S, which is doable in linear time. –  Andrew Dalke Oct 30 '09 at 1:20
@Daniel: It's the same as finding a substring, true. However IIRC that is worst case O(mn) e.g. T = "a" * 8 + "b"; S = "a" * 9 * 100 when done with brute force algorithms as presented in answers here. –  John Machin Oct 30 '09 at 2:19

That's because `small_list in big_list` checks whether an element in big_list is equal to small_list. What you want to do instead is see if a slice of big_list is the same as small_list.

``````def isSubList(slice, L):
n = len(slice)
for i in range(0, len(L) - n):
if slice == L[i:i+n]:
return True
return False

isSubList(small_list, big_list)
``````
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does not works :-( –  Fitoria Oct 29 '09 at 21:46
Works fine here... –  jamessan Oct 29 '09 at 21:53

Edit: Leaving the answer here but I failed to note the requirement that they be in the same order. This does not meet that requirement

Quick and dirty answer. Based it off of the answer for Python - Intersection of two lists

``````small_list == filter( lambda x: x in big_list, small_list)
``````
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I liked this answer :( –  igorgue Oct 29 '09 at 21:46
this one is elegant :-) –  Fitoria Oct 30 '09 at 4:11

If you know a reasonable bound of your numbers, you can convert them to a Python type whose 'in' operator does this automatically. The two I know are `str` and `unicode`.

Then you ask the strings if the smaller is in the larger, this does a substring comparison:

``````>>> small_list = [4,2,5]
>>> big_list = [1,2,5,7,2,4,2,5,67,8,5,13,45]
>>>
>>> def encode(lst):
return u"".join(unichr(c) for c in lst)

>>> encode(small_list) in encode(big_list)
True
``````

(You can "encode" to `str` if all numbers are in `0 <= x <= 255`, you can "encode" to `unicode` if all are in `0 <= x <= sys.maxunicode` ).

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There's no built in operator doing that particular comparison. I suggest a list comprehension or a quick for loop.

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you could use sets

``````from sets import Set
small_set = set(small_list)
big_set = set(big_list)
small_set <= big_set
``````

<= is the subset operator

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oops, also missed the same order part of the question so doesn't answer the original question, but may be of use to someone looking to solve similar problems –  FinnNk Oct 29 '09 at 21:40

If you want to use the "in" keyword to do what you want, you can override contains using one of the solutions mentioned in the answers here:

``````class mylist(list):
def __contains__(self, lst):
return ':'.join(map(str, lst)) in ':'.join(map(str, self))

small_list = mylist([4,2,5])
big_list = mylist([1,2,5,7,2,4,2,5,67,8,5,13,45])

print small_list in big_list
``````