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let me start with some background.

Let's say I have this list:

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

Each entry in the list (eg: O1, O3) is an interaction between two entities (although everything we're dealing with here are Strings). There are many different entities in the list.

We also have the following list:

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

In which each entry is a relationship of similarity between two different entities.

So O1 is similar to P23 and O3 is similar to P50 AND [O1, O3] 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 type, eg: [PX, PX] or [OX, OX].


So I wrote the following code to generate these relationship transfers:

from collections import defaultdict

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

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

My attempt does generate the correct output, but it also generated unwanted output. For example, sometimes it will generate output between different types of entities: O1, P1, and between the exact same entities: O1, O1. It also also outputs duplicate results in different forms, eg: O1, P1, P1, O1 - both mean the same thing so we only want this entry once. All of this is unwanted behaviour.

So my question is, how can I restructure my attempt to solve this problem?


share|improve this question
Have you tried using set not list? Its sometimes easier to collapse duplicates than to try and cull them. – Will Jan 28 '13 at 12:52
Where is this question from? it's almost an exact clone of this one... – will Jan 28 '13 at 13:08
Seems like Jake D got a brand new profile on SO today :) ;) – Rohit Jain Jan 28 '13 at 13:13
IMO using this with list of lists is the wrong way. Learn about Classes and OOP. – Lennart Regebro Jan 28 '13 at 13:18
@JasonJ.. Why do you think I'm not calm? And who is this Sherlock? – Rohit Jain Jan 28 '13 at 15:43

If the similarity relationship is neither symmetric nor transitive:

from collections import defaultdict
from itertools import product

# entity -> similar entities
d = defaultdict(list) # use `set` if `similar` has duplicate entries
for k, v in similar:

for a, b in interactions:
    for x, y in product(d[a], d[b]): 
       # a, b interact; a is similar to x, b is similar to y
       #note: filter undesired x, y interactions here
       print x, y # transformed interaction
share|improve this answer
Hey mate, thanks for the help! One thing though, this still produces entries where the entities are of different type (P01, X01). Is your comment in the last for loop referring to this behaviour? I wasn't sure if you meant to filter out these entries or it was implicit through this method of looping. Of course I will filter out the other result such as when x == y. Cheers! – Jason J Jan 28 '13 at 21:32
@JasonJ: if the types are determined by the first character then to enforce the same type and exclude the exact same entries: if x[0] == y[0] and x != y: print x, y – J.F. Sebastian Jan 29 '13 at 0:08
Unfortunately that's not the case. If It were it would make my whole life a lot easier. It's OK though, I'll manage it. Thanks for the help though mate! :) – Jason J Jan 29 '13 at 17:26
@Jason: What do you mean by 'that is not the case' ? What is not covered in the solution? It seems to me that it has provided solution for all the constraints that you have posted. If not, you should explain what is your problem. – Thava Feb 6 '13 at 6:55
@Thava: I was referring to if the types are determined by the first character.... – Jason J Feb 6 '13 at 20:24

I have some recommendations for the overall algorithm:

  • Keep a dictionary for all the similarity relationships, for example O1:P23 and P23:O1 can both be in the dictionary.
  • Before finding a transformation, check to make sure that both parts of the interaction can be transformed, for example O1 and O3 must both be keys in the dictionary
  • This should prevent any transformation being listed as an O and a P together, which you said was unwanted output.
  • You could also keep a dictionary of results to check for duplicates if you think this will be a problem.

Some of these problems are addressed by J.F. Sebastian's answer, but I think you should pay attention to how the original dictionary is constructed, that will make it so much easier to come up with results that make sense.

share|improve this answer

If u convert your lists to dictionary, then you can easily match keys of the dictionaries and retrieve values at those keys.

share|improve this answer

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