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I would like to make two pairs from pairs. A pair consists of two elements, and a two-pair consists of two pairs. Here is the list of constraints:

  1. In a pair, order of elements is important: (element1, element2) != (element2, element1)
  2. In a two-pair, order of pairs is not important: (pair1, pair2) == (pair2, pair1)

I wrote pseudo code that satisfies the above constraints as follows:

class Pair:
    def __init__(self, element1, element2):
        assert isinstance(element1, Element)
        assert isinstance(element2, Element)
        self.element1 = element1
        self.element2 = element2

    def __eq__(self, other):
        if not isinstance(other, Pair):
            return False
        if self.element1 != other.element1:
            return False
        if self.element2 != other.element2:
            return False
        return True

    def __ne__(self, other):
        return not (self.__eq__(other))

    def __hash__(self):
        return hash(self.element1) ^ hash(self.element2)

    def getFirst(self):
        return self.element1

    def getSecond(self):
        return self.element2
class TwoPair:
    def __init__(self, pair1, pair2):
        assert isinstance(pair1, Pair)
        assert isinstance(pair2, Pair)
        self.pair1 = pair1
        self.pair2 = pair2

    def __eq__(self, other):
        if not isinstance(other, TwoPair):
            return False
        if self.pair1 == other.pair1 and self.pair2 == other.pair2:
            return True
        if self.pair1 == other.pair2 and self.pair2 == other.pair1:
            return True
        return False

    def __ne__(self, other):
        return not (self.__eq__(other))

    def __hash__(self):
        return hash(self.pair1) ^ hash(self.pair2)

    def getFirst(self):
        return self.pair1

    def getSecond(self):
        return self.pair2
def makeTwoPairs(allPairs):
    allTwoPairs = set([])
    for pair1 in allPairs:
        for pair2 in allPairs:
            if pair1 == pair2:
            twoPair = TwoPair(pair1, pair2)
            if twoPair in allTwoPairs:
    return allTwoPairs

The function makeTwoPairs takes a long time in my code. Is there any other representation for two pairs? Or, can the above code be improved?

share|improve this question
This code does not make any sense to me. What is the actual usecase you are trying to solve? In general deriving from 'tuple' is likely a better approach instead of reinventing wheels here. This code smell like coding-without-actually-knowing-my-problem. –  Andreas Jung Mar 1 '11 at 5:34

2 Answers 2

up vote 3 down vote accepted

You would probably be better off sticking to standard python datastructures. tuple for Pair and set for TwoPair (although you might write a set subclass to add the __hash__ method).

For example:

import operator

class TwoPairs(set):
  def __hash__(self):
    return reduce(operator.xor, map(hash, self))

Regarding the fact that your makeTwoPairs function takes a long time to execute, you can rewrite it like this :

def make_two_pairs(all_pairs):
  all_two_pairs = set()
  # uniqify the pairs list
  all_pairs = list(set(all_pairs))
  for i in range(len(all_pairs)-1):
    for j in range(i+1, len(all_pairs)):
      all_two_pairs.add(TwoPairs(all_pairs[i], all_pairs[j]))

  return all_two_pairs

You will then produce only unique TwoPairs, without the combinatorial explosion or the overhead of testing everytime before adding a new pair to your result set.

share|improve this answer
Or frozenset for TwoPair, it's already hashable. Depends whether element1 and element2 are supposed to be mutable attributes of Pair (and if not, whether pair1 and pair2 are for TwoPair) - I would presume not, and therefore you're right to propose tuple. –  Steve Jessop Mar 1 '11 at 10:08

Is there a reason you need to write your own classes? I don't see anything in your specification that couldn't be satisfied by using tuples as pairs and sets as two-pairs.

But if you're determined to optimize your own code, always start by profiling. Google "Python profile" and read the first five links or so if you're unsure how.

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