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Edit: Seems I made a mistake on my previous description and example so here it is fixed.

Latest Version

interactions = [ ['O1', 'O3'],
                 ['O2', 'O5'],
                 ['O8', 'O10']
                 ['P3', 'P5'],
                 ['P2', 'P19'],
                 ['P1', 'P6'] ]

So same as before, each entry is an interaction between two parts of an object. For example think of O and P as organisms, and O1, O8, P4, P6 ... as sub-section to the organisms. So each interaction is between sub-sections in the same organism, and in this list there are many organisms.

Now, the similar list:

similar = ['O1', 'P23'],
          ['O3', 'P50'],
          ['P2', 'O40'],
          ['P19', 'O22']

So O1 is similar to P23 and O3 is similar to P50 AND [O1, O2] interact thus the interaction ['P23', 'P50'] is a transformed interaction.

Likewise, P2 is similar to O40 and P19 is similar to O22 AND [P2, P19] interact thus the interaction ['O40', 'O22'] is a transformed interaction.

The transformed interactions will always be from the same organism, eg: [PX, PX] or [OX, OX].

Older Version

Let's say I have the following list:

interactions = [ [O1, O3],
                 [O1, O8],
                 [O4, O6],
                 [O9, O2],
                 [ ... ] ]

what this list is meant to represent is an interaction between two objects, so O1 and O3 interact, etc.

Now, let's say I have a second list:

similar = [ [O1, H33],
            [O6, O9],
            [O4, H1],
            [O2, H12],
            [ ... ] ]

and what this list is meant to represent is objects that are similar.

If we know objects A and B in the list interactions do indeed have an intereaction, AND we know that we have an object A' that is similar to A, and an object B' which is similar to B, then we can map the interaction from A to B to the objects A' to B'.

For example: O9 and O2 interact. O6 is similar to O9. H12 is similar to O2. thus [O6, H12] interact.

Note: interactions = [ [O1, O3] ] is the same as [O3, O1], although it would only be stored in the list interactions once, in either format. The same applies to the list similar.

So I guess the algorithm for this would be:

  1. for every unique object A in the in fields [0] and [1] in list similar,
  2. fetch a list B of interactions from the list interactions.
  3. check for entries in similar where A is similar to some object A', and B is similar to some object B'.
  4. map the interaction between A' and B'.

Edit: Code for this version.


from collections import defaultdict
interactions = [ ['O1', 'O3'],
                 ['O1', 'O8'],
                 ['O4', 'O6'],
                 ['O9', 'O2'] ]

similar = [ ['O1', 'H33'],
            ['O6', 'O9'],
            ['O4', 'H1'],
            ['O2', 'H12'] ]

def list_of_lists_to_dict(list_of_lists):
  d = defaultdict(list)
  for sublist in list_of_lists:
  return d

interactions_dict = list_of_lists_to_dict(interactions)
similar_dict = list_of_lists_to_dict(similar)

for key, values in interactions_dict.items():
  print "{0} interacts with: {1}".format(key, ', '.join(values))
    if key in similar_dict:
      print " {0} is similar to: {1}".format(key, ', '.join(similar_dict[key]))
      forward = True
  for value in values:
    if value in similar_dict:
      print " {0} is similar to: {1}".format(value, ', '.join(similar_dict[value]))
      reverse = True
      if forward and reverse:
        print "     thus [{0}, {1}] interact!".format(', '.join(similar_dict[key]), 
             ',  '.join(similar_dict[value]))
  forward = reverse = False

Alright, that's all the background information.

So, I'm pretty new to python and I think I could implement this with a bunch of nested for loops and conditions, however I was wondering if there is a more elegant, pythonic way of going about this.

If read all of this, thank you for you time! :)

share|improve this question

closed as not a real question by Martijn Pieters, Lattyware, Jon Clements, Abhijit, tcaswell Jan 13 '13 at 18:48

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question.

This question reads as 'please implement this for me'. You need to show an effort to do it yourself, otherwise why should others help? –  Lattyware Jan 13 '13 at 14:27
Or even better, use [ (x1, y1), (x2, y2), (x3, y3), ... ] for tuples inside a list. –  user1632861 Jan 13 '13 at 14:31
My bad, fixed! Apologies, I don't wish for anyone to do this for me, I guess I'm looking more for python functions that may help in some of this. –  Jake D Jan 13 '13 at 14:32
just start doing it, do it in whatever way you can think, when you get something that works, you can submit to code review and if you dont get it to work properly come back and ask here. –  Inbar Rose Jan 13 '13 at 14:33
Alright, I shall do that. Thanks! –  Jake D Jan 13 '13 at 14:34

1 Answer 1

This should do it

_interactions = set([ (O1, O3),
                 (O1, O8),
                 (O4, O6),
                 (O9, O2),
                 ( ... ) ])
interactions = set()
for i,j in _interactions:
    if (i,j) not in interactions and (j,i) not in interactions:

_similar = set([ (O1, H33),
            (O6, O9),
            (O4, H1),
            (O2, H12),
            ( ... ) ])
similar = set()
for i,j in _similar:
    if (i,j) not in similar and (j,i) not in similar:
        similar. add((i,j))

answer = set()
for i,j in interactions:
    a = random.choice([x for x,y in similar if y==i] + [y for x,y in a if x==i]) # assuming that everything is similar to at least one thing
    b = random.choice([x for x,y in similar if y==j] + [y for x,y in a if x==j]) # assuming same
    if (a,b) not in answer and (b,a) not in answer:
share|improve this answer
Hey, thanks for you reply. I've implemented a solution just to realised my initial description and example was slightly wrong. I've edited the OP with a updated description and example but I'm a little lost on how I can edit my code in order to meet this new description. –  Jake D Jan 13 '13 at 20:26

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