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I have a list with pairs [[1, 2], [2, 1], [1, 3] ..]. How to get unique pairs in the fastest way? I have a written a function, but it's too slow.

-export([unique/1, unique/2, pairs/1]).

unique(L) -> unique(L, []).
unique([], UL) -> UL;
% L: list of lists
unique(L, UL) ->
    [X,Y] = hd(L),
    case lists:member([Y,X], L) of
        true ->
            unique(L--[[Y,X]], [[X,Y]|UL]);
        false ->
            unique(tl(L), UL)

pairs(L) -> [[X,Y] || X <- L, Y <- L, X=/=Y].

From the shell,

1> test:pairs([1,2,3]).
2> test:unique(test:pairs)). %Very slow for large list. How to improve?

I have a list of pairs with list length 9900 of which half is duplicate. I am using the pairs list for further computation. With the original list (with duplicate pairs), the time is 3.718s, and if I filter out unique list and use if for computation, the time is 7.375s which is worse.

I changed the function to not use -- operator.

unique(L, UL) ->
    [X,Y] = hd(L),
    case lists:member([Y,X], L) of
        true ->
            unique(tl(L), [[Y,X]|UL]);
        false ->
            unique(tl(L), UL)

Even so it gives a mere 0.047s improvement at 7.375s, which points that the algorithm is not fast enough.

Could you please point out any better algorithm? Are there any built-in library functions for this?

share|improve this question
A better algorithm would use a hash table or BST as the accumulator in unique: by using a list, you've got a quadratic time algorithm. –  larsmans Nov 2 '13 at 11:54
Can you replace the original list with a more efficient data structure such as a set or a balanced search tree. Either could naturally identify duplicates as it was created? –  Dale Hagglund Nov 2 '13 at 14:44

2 Answers 2

up vote 1 down vote accepted

did you try lists:usort([lists:sort(X) || X <- L]), I tried it with a 9900 element list and it is less than 1 sec.

18> F = fun(X,L) -> [[X,Y] || Y <- L] end.                     
19> L = lists:seq(1,100).                                      
20> L1 = lists:foldl(fun(X,Acc) -> F(X,lists:delete(X,L)) ++ Acc end,[],L).                                                                  
21> length(L1).                                                
22> io:format("~p~n",[erlang:now()]),lists:usort([lists:sort(X) || X <- L1]),io:format("~p~n",[erlang:now()]).                                 
23> lists:usort([lists:sort(X) || X <- [[1,2],[1,3],[2,1],[2,3],[3,1],[3,2]]]).                                                                

shows that the execution time is less than 0.2 sec, the command on line 23 tests it works.

share|improve this answer
+1 Wow, nice idea. Sorting the inner list and using usort is faster at 2.562s (overall time including the rest of the program). –  kadaj Nov 2 '13 at 13:51
There is no need to do a pre-sort before passing the list into lists:usort. –  rvirding Nov 2 '13 at 16:43
It's a list of lists. lists:usort([[1,2], [3,4], [2,1]]). gives [[1,2],[2,1],[3,4]]. Oh, I understand, the given list gets sorted, but only one pair is required, so the list the pre-sorted. –  kadaj Nov 2 '13 at 16:52
Depending on the size that can have your first list, maybe another algorithm than usort will be faster. I'll make a little evaluation of the complexity of each solution with various length of list. Another possibility is to directly generate the list without redundant values (if it makes sense in your application) pairs(L) -> [[X,Y] || X <- L, Y <- L, X>Y]. –  Pascal Nov 2 '13 at 16:59
This works as well. The lowest time is 1.437 and the average for 5 runs is 1.453. –  kadaj Nov 2 '13 at 17:36

There are several ways to do it. v1 is fastest but most dirty way:


-export([v1/1, v2/1, v3/1, v4/1, gen/1]).

-compile({inline, [s/1]}).

s([X, Y]) when X > Y -> [Y, X];
s(L) -> L.

v1(L) ->
  [put(s(K), ok) || K <- L],
  [K || {K, _} <- erase() ].

v2(L) ->
  sets:to_list(sets:from_list([s(K) || K <- L])).

v3(L) ->
  T = ets:new(set, [private, set]),
  ets:insert(T, [{s(K)} || K <- L]),
  R = [K || {K} <- ets:tab2list(T)],

v4(L) ->
  lists:usort([s(K) || K <- L]).

gen(N) ->
  [[random:uniform(100), random:uniform(100)] || _ <- lists:seq(1, N)].

Result speed:

1> L = uniq:gen(1000000).
2> [ element(1, timer:tc(uniq,Alg,[L]))/1000000 || Alg <- [v1, v2, v3, v4]].
3> [ element(1, timer:tc(uniq,Alg,[L]))/1000000 || Alg <- [v1, v2, v3, v4]].
4> [ element(1, timer:tc(uniq,Alg,[L]))/1000000 || Alg <- [v1, v2, v3, v4]].

Note lists:usort/1 version v4 is the slowest one. Using process dictionary in version v1 is very dirty thing and you should avoid it but in special cases it is doable. Using ets in version v3 has good performance and you should use this version for any serious work. For smaller lists is also sets version v2 good option. It is brief and pretty good.

The trick to avoid processor dictionary pollution and still having same performance is using sub-process:

v1(L) ->
  Self = self(),
  PID = spawn_link(fun() ->
          [put(s(K), ok) || K <- L],
          Self ! {result, self(), [K || {K, _} <- erase() ]}
    {result, PID, Result} -> Result
  after 10000 -> error(timout)

You will lost some performance by copying data in and out to separate heap (unless you use binary) but it can be still fastest option. In this case it takes more about 50ms so still the fastest.

share|improve this answer
+1 Thanks for the various approaches. I have tried all the algorithms and the fastest among them is v2. However the usort from Pascal's answer is slightly faster. I didn't try with sub-processes though. Will look into it later. In your example the generated list gen/1 does not create pairs like [a,b], [b,a]. Time for the whole program: v1: 2.781, v2: 2.687, v3: 2.906, v4: 2.750. usort_pascal: 2.532, my_initial_version: 7.172, not_using_unique_at_all: 3.703. –  kadaj Nov 2 '13 at 16:22
I am running the program using escript. So not sure whether the compile inline take effect. The s/1 function and the way the sorted list is generated using comprehension is cool. –  kadaj Nov 2 '13 at 16:31
I have added v5(L)->lists:usort([lists:sort(X) || X <- L]). and ran from the shell with list L=[[X,Y] || X<-lists:seq(1,500), Y<-lists:seq(1,500), X=/=Y]. giving [0.5,5.735,0.781,0.594,0.593] in which v1 is the fastest and then v5 and v4, by very slight margin. Any idea why it is different when running using escript? –  kadaj Nov 2 '13 at 16:48
@kadaj: Unless you use -mode(compile). in your escript it is not compiled at all but interpreted. Interpreted code can have very different performance from compiled one. –  Hynek -Pichi- Vychodil Nov 2 '13 at 16:54
With -mode(compile), the lowest time obtained when ran multiple times are as follows. v1: 1.469, v2: 1.515, v3: 1.484, v4: 1.453, usort: 1.468, initial_version: 4.469, not_using_unique_at_all: 1.453. Ran 5 times and considering the average the time respectively are: 1.472, 1.568, 1.496, 1.493, 1.484, 4.478, 1.509. Here v1 is fastest. –  kadaj Nov 2 '13 at 17:26

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