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What is the easiest way to compare the 2 lists/sets and output the differences? Are there any built in functions that will help me compare nested lists/sets?


First_list = [['Test.doc, '1a1a1a', 1111], 
              ['Test2.doc, '2b2b2b', 2222],  
              ['Test3.doc, '3c3c3c', 3333]
Secnd_list = [['Test.doc', '1a1a1a', 1111], 
              ['Test2.doc', '2b2b2b', 2222], 
              ['Test3.doc', '8p8p8p', 9999], 
              ['Test4.doc', '4d4d4d', 4444]]  

Expected Output:

Differences = [['Test3.doc', '3c3c3c', 3333],
               ['Test3.doc', '8p8p8p', 9999], 
               ['Test4.doc', '4d4d4d', 4444]]
share|improve this question
up vote 21 down vote accepted

So you want the difference between two lists of items.

first_list = [['Test.doc', '1a1a1a', 1111], 
              ['Test2.doc', '2b2b2b', 2222], 
              ['Test3.doc', '3c3c3c', 3333]]
secnd_list = [['Test.doc', '1a1a1a', 1111], 
              ['Test2.doc', '2b2b2b', 2222], 
              ['Test3.doc', '8p8p8p', 9999], 
              ['Test4.doc', '4d4d4d', 4444]]

First I'd turn each list of lists into a list of tuples, so as tuples are hashable (lists are not) so you can convert your list of tuples into a set of tuples:

first_tuple_list = [tuple(lst) for lst in first_list]
secnd_tuple_list = [tuple(lst) for lst in secnd_list]

Then you can make sets:

first_set = set(first_tuple_list)
secnd_set = set(secnd_tuple_list)

EDIT (suggested by sdolan): You could have done the last two steps for each list in a one-liner:

first_set = set(map(tuple, first_list))
secnd_set = set(map(tuple, secnd_list))

Note: map is a functional programming command that applies the function in the first argument (in this case the tuple function) to each item in the second argument (which in our case is a list of lists).

and find the symmetric difference between the sets:

>>> first_set.symmetric_difference(secnd_set) 
set([('Test3.doc', '3c3c3c', 3333),
     ('Test3.doc', '8p8p8p', 9999),
     ('Test4.doc', '4d4d4d', 4444)])

Note first_set ^ secnd_set is equivalent to symmetric_difference.

Also if you don't want to use sets (e.g., using python 2.2), its quite straightforward to do. E.g., with list comprehensions:

>>> [x for x in first_list if x not in secnd_list] + [x for x in secnd_list if x not in first_list]
[['Test3.doc', '3c3c3c', 3333],
 ['Test3.doc', '8p8p8p', 9999],
 ['Test4.doc', '4d4d4d', 4444]]

or with the functional filter command and lambda functions. (You have to test both ways and combine).

>>> filter(lambda x: x not in secnd_list, first_list) + filter(lambda x: x not in first_list, secnd_list)

[['Test3.doc', '3c3c3c', 3333],
 ['Test3.doc', '8p8p8p', 9999],
 ['Test4.doc', '4d4d4d', 4444]]
share|improve this answer
+1: But I think map(tuple, first_list) is cleaner for the tuple conversion. Also, symmetric_difference doesn't need a set for it's first argument, so you can skip the set conversion in secnd_set (though it may do just that under the covers). – sdolan May 24 '11 at 5:18
@sdolan: I agree map is cleaner. Also could have done something like first_set = set(map(tuple, first_list)) skipping the intermediate tuple list. But I was trying to be pedagogical as tang seemed new to python (e.g., not putting quotes in his string), and personally I think list comprehension is more readable to novices than the more functional map. – dr jimbob May 24 '11 at 12:27
Hi! If you are online, can you give me an idea how to compare list of list(if unordered), I just linked your answer my one here I am learning Python. Using sort() I can do but that changes original list :( .. – Grijesh Chauhan Apr 6 '13 at 21:18

Not sure if there is a nice function for this, but the "manual" way to do it isn't difficult:

differences = []

for list in firstList:
    if list not in secondList:
share|improve this answer
Note that this wouldn't find lists that are in secondList, but not in firstList; though you could always just check both ways like: [x for x in first_list if x not in secnd_list] + [x for x in secnd_list if x not in first_list]. Also its a good habit not to use the keyword/type/function list as a name of a variable. Even after you are out of the for loop, you won't be able to use the list keyword. – dr jimbob May 24 '11 at 14:32
^ Yeah, you are right. – Sam Magura May 24 '11 at 18:24

i guess you'll have to convert your lists to sets:

>>> a = {('a', 'b'), ('c', 'd'), ('e', 'f')}
>>> b = {('a', 'b'), ('h', 'g')}
>>> a.symmetric_difference(b)
{('e', 'f'), ('h', 'g'), ('c', 'd')}
share|improve this answer
>>> First_list = [['Test.doc', '1a1a1a', '1111'], ['Test2.doc', '2b2b2b', '2222'], ['Test3.doc', '3c3c3c', '3333']] 
>>> Secnd_list = [['Test.doc', '1a1a1a', '1111'], ['Test2.doc', '2b2b2b', '2222'], ['Test3.doc', '3c3c3c', '3333'], ['Test4.doc', '4d4d4d', '4444']] 

>>> z = [tuple(y) for y in First_list]
>>> z
[('Test.doc', '1a1a1a', '1111'), ('Test2.doc', '2b2b2b', '2222'), ('Test3.doc', '3c3c3c', '3333')]
>>> x = [tuple(y) for y in Secnd_list]
>>> x
[('Test.doc', '1a1a1a', '1111'), ('Test2.doc', '2b2b2b', '2222'), ('Test3.doc', '3c3c3c', '3333'), ('Test4.doc', '4d4d4d', '4444')]

>>> set(x) - set(z)
set([('Test4.doc', '4d4d4d', '4444')])
share|improve this answer
+1 Note set1 - set2 corresponds to difference (elements in set1 but not in set2), where I think he wanted the symmetric difference (set1 ^ set2) to find elements in set1 or set2, but not both. As he didn't specify which set to subtract elements from. – dr jimbob May 24 '11 at 14:47 is a good starting place for what you are looking for.

If you apply it recursively to the deltas, you should be able to handle nested data structures. But it will take some work.

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