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In Haskell, how can you compare two lists to check if they are equal? Also the order shouldn't matter.


[1,2] = [2,1]

I tried all (flip elem [1,2,3]) [2,1], but this returns true...


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Did you check this link stackoverflow.com/questions/6121256/… –  dreamcrash Mar 10 '13 at 5:29
If the order shouldn't matter then you treat them as bags, which are multisets. There is a package that does the job, explained below. –  Gabriel Riba Mar 18 '13 at 16:21
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4 Answers

Something like this?

import Data.List (sort)
areEqual a b = sort a == sort b

*Main> areEqual [1,2] [2,1]
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Is this the most efficient way? –  omega Mar 10 '13 at 5:15
@omega I have no idea. What kind and how big are the lists are you comparing? –  גלעד ברקן Mar 10 '13 at 5:16
@omega if you care about efficiency then you probably shouldn't be using lists in this way. Data.Set maybe? –  Pubby Mar 10 '13 at 5:19
I thinks for this type of data it does not get must better than this. –  dreamcrash Mar 10 '13 at 5:28
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Here's an algorithm which produces an absolute difference of two lists and checks whether it is empty:

import Data.List

itemsEqualOnDiff :: (Eq a) => [a] -> [a] -> Bool
itemsEqualOnDiff a b = null $ absDiff a b

absDiff :: (Eq a) => [a] -> [a] -> [a]
absDiff [] [] = []
absDiff [] b = b
absDiff a [] = a
absDiff (aHead:aTail) b = absDiff aTail $ delete aHead b

Concerning the performance, it depends on the input. Here are the benchmark results:

Benchmark results (Source code of the benchmark)

The benchmark results show that absDiff-based implementation performs 2x better than competitors in case of equaling and unequaling inputs. This is so due to the underlying delete function performing just a single traversal on the right list per each item of the left list, with an early exit in case of equaling (or almost) lists.

This absDiff-based implementation however progressively (depending on the size of the input lists) loses to competitors in case of differently ordered inputs containing equaling items. This is due to the underlying delete function having to split and concatenate lists in that scenario, which essentially doubles its work.

All the other implementations seem to be performing on par. It should be noted though that the Set-based implementation is only there for performance reference, it however is essentially incorrect, because it returns incorrect results for lists containing duplicate items and hides that fact from the type system.

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This isn't correct. itemsEqual [1,2,3] [1,2,3,4] shouldn't equal true but it does. –  Pubby Mar 10 '13 at 6:17
@Pubby You were right. I've updated the algorithm to cover your case. –  Nikita Volkov Mar 10 '13 at 6:40
At least this is not asymptotically the most efficient way, having complexity O(m n) (traverse the second list for each element of the first). By using @groovy's answer, you can achieve O(m log m + n log n), which is quite superior for large lists. Besides, it's simpler, too :-) –  luqui Mar 10 '13 at 8:19
Calling this solution the most efficient is downright untrue, so I'm downvoting it, which is a shame since there is an advantage to this approach, namely that it only requires Eq instead of Ord. –  Ben Millwood Mar 10 '13 at 12:26
@luqui You're quite mistaken. The complexity of my solution should be O(m log n), since the second list reduces in size with each cycle too. This makes it approximately 2 times faster than O(m log m + n log n), which you've given to the sort-based solution. These suppositions get proven by the benchmark results that I've updated my answer with. –  Nikita Volkov Mar 11 '13 at 8:36
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As Eq a => Eq [a] (http://www.haskell.org/ghc/docs/7.4.1/html/libraries/base-

you DON'T need extra code to compare lists for equality.

[1,2] == [2,1]

If you want to compare lists as bags, then a bag is a MultiSet, so look for a Multiset package

import "multiset" Data.MultiSet as M

-- or

import "multiset" Data.IntMultiSet as M   -- if you deal with Ints 

M.fromList [1,2] == M.fromList [2,1] 
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Why on earth are you using PackageImports? More to the point, why are you doing so without mentioning it? –  Ben Millwood Mar 21 '13 at 13:53
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A good data structure for "collection without order or repetitions" is from the module Data.Set:

import qualified Data.Set as S

sameElems xs ys = S.fromList xs == S.fromList ys

This does, however, consider [1,1] to be equal to [1], which may not be what you want.

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Nice illustration of the use of inner's property of Data.Set. I've read that this could be done using this data container, but have no clue how to encode it, now I see. Thanks you. –  zurgl Mar 10 '13 at 14:29
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