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Write a function commonElements(a1, a2) that takes in 2 tuples as arguments and returns a sorted tuple containing elements that are found in both tuples.

My task is :

    >>> commonElements((1, 2, 3), (2, 5, 1))
    (1, 2)
    >>> commonElements((1, 2, 3, 'p', 'n'), (2, 5 ,1, 'p'))
    (1, 2, 'p')
    >>> commonElements((1, 3, 'p', 'n'), ('a', 2 , 5, 1, 'p'))
    (1, 'p')

I tried to do it like this.

def commonElements(a1, a2):
    return tuple(set(a1).intersection( set(a2) ))

Anyone know what my mistake is with the requirement?
I can not pass.

share|improve this question
I don't understand what your problem is. This seems to do what you're asking. – Ben Sep 4 '11 at 19:53
@Ben He thinks that too. That is his problem, as someone else (his teacher?) deemed his answer incorrect. – John Sep 4 '11 at 19:54
This was a good example of how to ask a homework question, because you showed your attempt and asked about a specific issue. However please note that homework questions should be tagged as homework. – ninjagecko Sep 4 '11 at 19:55
@John, fair 'nuff. I didn't notice the sort requirement. – Ben Sep 4 '11 at 19:59
up vote 3 down vote accepted

Set is not ordered. So the order of the result may be arbitrary. I would come up with something like that:

def commonElements(a1, a2):
    L = []
    for el in a1:
        if el in a2:
    return tuple(L)

Please, note, that this way of solving the problem would get the output elements ordered as in the tuple a1. So, as mentioned in the comments, the more correct way to call it is 'ordering', not 'sorting'. Also, it has a complexity of O(n*m), where n and m are the lengths of the lists a1 and a2 respectively.

O(n*log(m)) can be achieved in this case if bisect module is used to access the elements of the second tuple a2 (which should be sorted before the proceeding).

If sorting in common way is required, I would stick with your code, a bit altered:

def commonElements(a1, a2):
    return tuple(sorted(set(a1).intersection(set(a2))))

On the average it has a complexity of O(min(m+n)*log(min(n+m))) (because of sorting), and O(n*m) in the worst case because of intersection.

If the code needs to be implemented without using set (for example for the purposes of study), here is the code:

def commonElements(a1, a2):
    L = []
    for el in a1:
        if el in a2:
    return tuple(L)

Complexity is O(n*m).

With using bisect the code would look this way:

from bisect import bisect_left
def commonElements(a1, a2):
   L = []
   a2.sort() #sort a2 to be able to use binary search in the internal loop thus changing the complexity from O(n^2) to O(n*log(n)) (assuming n and m are rather equal).
   a2_len = len(a2)
   for el in a1:
       i = bisect_left(a2, el)
       if i != a2_len and a2[i] == el:
   # L.sort() #uncomment this line if the list in sorted order is needed (not just ordered as the first lits; it's possible to sort a1 in the very beginning of the function, but that would be slower on the average since L is smaller on the average than a1 or a2 (since L is their intersection).
   return tuple(L)

Complexity is O(n*log(m)).

share|improve this answer
This assumes that the tuples a1 begins in sorted order. This is however the "good" O(N) way to do it as opposed to the intersect-and-then-sort method (which is good enough, only O(N log(N))), but you have state the very strong assumption that a1 is sorted. This would still be incorrect per the original question, even with the "a1 must be sorted" assumption. Happy to remove -1 if caveat stated. – ninjagecko Sep 4 '11 at 20:00
Oops! The result is supposed to be a tuple. I'll correct the code. – ovgolovin Sep 4 '11 at 20:00
@ninjagecko Wouldn't it be O(N^2)? The if el in a2 is itself a search, is it not? – Manny D Sep 4 '11 at 20:03
@ninjagecko: If I understood the task correctly, the order should be kept as in the first tuple. – ovgolovin Sep 4 '11 at 20:03
If 'to sort' meant to apply a traditional sorting, I would stick with a slightly corrected variant provided in the question: return tuple(sorted(list(set(a1).intersection( set(a2))))) – ovgolovin Sep 4 '11 at 20:06
def commonElements(a1, a2):
     return tuple(sorted(set(a1).intersection( set(a2) )))
share|improve this answer

You've forgot the sorting requirement?


Apparently, set sorts its elements in ascending order, but this is probably an implementation detail. If you were asked to write this function as a test, maybe you're required to implement the whole thing instead of delegating to set?


For completeness, an implementation that should meet the requirements:

def commonElements(a1, a2):
    common = []
    for x in a1:
        if x in a2:
    return tuple(common)
share|improve this answer

The program seems to work for me. python-2.7.1+.

However, want to mention, that sets are by definition "Unordered". Hence, the set resulting from the "intersection" will also be unordered.

TO get get a this into a tuple whose elements are ordered, needs additional code.

Probably something along the lines of

def commonElements(a1, a2):
    intersection = list(set(a1).intersection(set(a2)))
    return tuple(intersection)


share|improve this answer

Another short example solution. This is how I would write it. Shortest solution?

def commonElements(a1, a2):
     return tuple(sorted([x for x in a1 if x in a2]))
share|improve this answer

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