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I was writing code for this problem:

Given an array A having N elements. Find total number of pairs (i,j) such that j < i and Aj = Ai.

This is my code:

raw_input()

l = list(map(int, raw_input().split()))

count = 0

for a in range(len(l)):
    count = count + l[a+1:].count(l[a])

print(count)

But unfortunately the code is taking a lot of time. Do you have any suggestions by which I could reduce the time consumption? I mean, how do I reduce the time consumed in the for loop. I feel that the list.count method takes a lot of time so do you have any ideas by which I could replace it.

  • 1
    Yes, list.count() has to iterate over the whole list to count the number of occurrences. – Martijn Pieters Apr 4 '16 at 12:32
  • 2
    Try and think of other ways to only traverse the list once. Perhaps you can track if you already have seen a number before? – Martijn Pieters Apr 4 '16 at 12:34
  • @MartijnPieters I earlier had sorted the list by mistake and when I came to know of it I realized that it didn't have any effect on the answers which it could calculate. – Some Name Apr 4 '16 at 12:39
  • @MartijnPieters I mean it produced the correct answers. – Some Name Apr 4 '16 at 12:40
  • 2
    Are you sure this is python-3.x? You're using raw_input which is python2 and is called input in python3 – Daenyth Apr 4 '16 at 12:53
1

You can speed it up by using a faster way of checking membership than .count(). For instance, a dict lookup is extremely fast:

from collections import defaultdict

raw_input()

l = list(map(int, raw_input().split()))

keys = defaultdict(list)

for i, v in enumerate(l):
    keys[v].append(i)

for value, keys in keys.items():
    print("Value %d appears at indices %s." % (k, ", ".join(keys)))

Then you just need to count the number of pairs.

  • ... which is just a (len(keys[k]) over 2) calculation for each len(keys[k]) > 1. You may as well just calculate the length, no point in storing all the indices. – Martijn Pieters Apr 4 '16 at 12:55
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I finally got the answer. It reduced the time consumption to a very low amount. Sorry for disturbances caused.

raw_input()

l = list(map(int, raw_input().split()))

dictionary = {}

for value in l:
    if value in dictionary:
        dictionary[value] += 1
    else:
        dictionary[value] = 0

def sum_till_n(iterable):
    return [x*(x+1)/2 for x in iterable]

print(sum(sum_till_n(dictionary.values())))

I hope you understand what the code does. I looked at the problem in a mathematical way. The dictionary dictionary stores the number of value's after the first value. The sum_till_n function is a function which finds the sum of numbers till n. Like for n=3, it returns 1+2+3.

  • Take a look at collections.defaultdict,specifically defaultdict(int) to tidy up the if/else code. – RoadieRich Apr 4 '16 at 12:53
  • If you're on Python 2, if value in dictionary.keys(): is incredibly inefficient; it makes a list copy of the dict's keys, then searches it linearly. Just use if value in dictionary: which does a O(1) lookup in the dict itself, with no copies. In general, .keys/.items/.values are all bad ideas in Python 2; use their view based equivalents if you need them (viewkeys/viewitems/viewvalues) to avoid making copies, but usually you avoid viewkeys entirely unless you really need set-like operations (the dict itself behaves like viewkeys otherwise). – ShadowRanger Apr 4 '16 at 12:55
  • Not sure why this was downvoted; the OP solved this themselves, they are perfectly in their rights to post an answer too. And this answer happens to use the correct approach (although I wonder if you should skip x < 2 in sum_till_n()). – Martijn Pieters Apr 4 '16 at 14:07
0

Micro-optimisations in your python code won't reduce your current O(n^2) complexity by a significant amount. I would suggest having a look at implementations that yield lower complexity. This link will help you find total number of (i,j) pairs in array such that i<j and a[i]>a[j]

0

Let's take a minute have a look at the problem and not at your implementation!

The task is:

Given an array A having N elements. Find total number of pairs (i,j) such that j < i and Aj = Ai.

Which is the same as finding all duplicates in your array!

Finding all duplicates is a very common task.

One solution I can quickly think of:

  • sort array of tuples(value, index) (O(N) = N*log(N))
  • traverse the array once to find consecutive duplicates

Here's an example how the resulting data would look like:

input = [2.0, 1.0, 3.0, 1.0]
# create and sort tuples (I will leave this task to you)
sorted_tuples = [(1.0, 1), (1.0, 3), (2.0, 0), (3.0, 2)]
# find consecutive duplicates (I will leave this task to you)
solution = [(3, 1)]
  • It is not just finding all duplicates. It is finding the number of pairs you can create from those duplicates (the number of combinations). It can be achieved in O(N) time, no need to sort just to find pairs. – Martijn Pieters Apr 4 '16 at 13:49
  • I have been a bit imprecise. Ofc it's about the finding the index pairs. As soon as you have found all Objects with the same value, building all index pairs is trivial (and also complete nonsense). The naive solution is O(N^2) like bubble sort. @Martijn Pieters I doubt, that there's an algorithm with O(N), but please prove me wrong. – Markus Apr 4 '16 at 15:24
  • See SomeName's solution. It iterates over the input elements once (O(N)), building a dictionary of counts. Then another O(K) loop over the counts (where K < N) to calculate the combinations. – Martijn Pieters Apr 4 '16 at 15:27
  • Me culpa. I wasn't aware that dictionary lookup was O(1) on average. – Markus Apr 4 '16 at 15:36
-1

This is probably quicker, because use generator and slicing:

l = [1, 2, 1, 3]

count = 0
for idx, value in enumerate(l):
    count += sum(1 for v in l[:idx] if v == value)

print(count)
assert count == 1
  • Don't you think you should replace v < value by v == value in your code? – Some Name Apr 4 '16 at 12:42
  • I think i misunderstood the challenge. EDIT: fixed. Should work now. – aluriak Apr 4 '16 at 12:43
  • v is the value of the item. It doesn't need to be less than value. It needs to be equal to it. – Some Name Apr 4 '16 at 12:44
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    Algorithmically, there is zero difference here, and it's likely to actually be slower because the count method operates at the C layer in CPython, while generator expressions are at the Python layer. – ShadowRanger Apr 4 '16 at 12:44

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