I wrote the following code for this problem.

prof = sorted([int(input()) for x in range(int(input()))])
student = sorted([int(input()) for x in range(int(input()))])

prof_dates = len(prof)
stud_dates = len(student)

amount = 0

prof_index = 0
stud_index = 0

while stud_index < stud_dates and prof_index < prof_dates:
    if student[stud_index] == prof[prof_index]:
        amount += 1
        stud_index += 1

    elif student[stud_index] > prof[prof_index]:
        prof_index += 1

    elif student[stud_index] < prof[prof_index]:
        stud_index += 1


But the code is producing a Time Limit Exceeded Error. Earlier I had tried using a in for every item in student but it produced a TLE and I believe that's because the in statement is O(n). So, I wrote this code whose steps required are roughly equal to the sum of the lengths of both the lists. But this is also producing a TLE. So, what changes should I make in my code. Is there some particular part which has a high time expense?


  • 2
    As the code is working, perhaps this is a better fit for Code Review. – Jongware Apr 29 '16 at 11:53

You are using sorting + merging. This takes O(NlogN + MlogM + N + M) time complexity.

But you can put professor data in a set, check every student year value (from an unsorted list) and get O(M + N) complexity (on average).

Note that this approach eliminates the long operation of student list sorting.

Addition: python has built-in sets. For languages that have no such provision, the professor's list is already sorted, so you can just use binary search for every year. The complexity would be O(NlogM).

  • 1
    A set would be a better choice then a map since only a contains check is necessary. – PKuhn Apr 29 '16 at 11:49
  • But set removes duplicate items. And we have to count duplicate items. – Some Name Apr 29 '16 at 12:19
  • @Some Name Make set with prof data only, as I wrote. So you'll count all student data, with duplicates. And you should not care about duplicates in prof list, they don't bother. – MBo Apr 29 '16 at 13:44
  • @MBo Sorry but check the other answer. There he makes a set out of both of them. This was meant for the other answer. – Some Name Apr 29 '16 at 13:47
  • Yes, I saw that answer. But in my answer I proposed check every student value against prof set. – MBo Apr 29 '16 at 13:53

As the problem basically is to find the intersection of two sets of integers the following code solves the problem in O(M + N) when assuming that a dictionary access is possible in O(1)

prof = set([int(input()) for x in range(int(input()))])
student = set([int(input()) for x in range(int(input()))])

equals_dates = len(prof.intersection(student))
  • But set removes duplicate items. And we have to count duplicate items. – Some Name Apr 29 '16 at 12:18

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