Part of my program requires me to be able to randomly shuffle list elements. I need a function such that when i give it a list, it will pseudo-randomly re-arrange the elements in the list.
A change in arrangement Must be visible at each call with the same list.

My implementation seems to work just fine but i feel that its rather long and is increasing my code base and also, i have a feeling that it ain't the best solution for doing this. So i need a much shorter implementation. Here is my implementation:


    Len = length(L),
    Nums = lists:seq(1,Len),    

shuffle([],_,Buffer)-> Buffer;
    {Pos,NewNums} = pick_position(Nums),    

pick_position([N])-> {N,[]};
    T = lists:max(Nos), 

                    (case random:seed(now()) of 
                        undefined -> 
                            NN = element(3,now()),
                        Any -> Any
    T2 = random:uniform(Max),
    case lists:member(T2,From) of
        false -> pick(From,Max);
        true -> {T2,From -- [T2]}

On running it in shell:

F:\> erl
Eshell V5.8.4  (abort with ^G)
1> c(shuffle).
2> shuffle:list([a,b,c,d,e]).
3> shuffle:list([a,b,c,d,e]).
4> shuffle:list([a,b,c,d,e]).
5> shuffle:list([a,b,c,d,e]).
6> shuffle:list([a,b,c,d,e]).
I am motivated by the fact that in the STDLIB there is no such function. Somewhere in my game, i need to shuffle things up and also i need to find the best efficient solution to the problem, not just one that works.

Could some one help build a shorter version of the solution ? probably even more efficient ? Thank you


Please note that karl's answer is much more concise and simple.

Here's a fairly simple solution, although not necessarily the most efficient:



list([])     -> [];
list([Elem]) -> [Elem];
list(List)   -> list(List, length(List), []).

list([], 0, Result) ->
list(List, Len, Result) ->
    {Elem, Rest} = nth_rest(random:uniform(Len), List),
    list(Rest, Len - 1, [Elem|Result]).

nth_rest(N, List) -> nth_rest(N, List, []).

nth_rest(1, [E|List], Prefix) -> {E, Prefix ++ List};
nth_rest(N, [E|List], Prefix) -> nth_rest(N - 1, List, [E|Prefix]).

For example, one could probably do away with the ++ operation in nth_rest/3. You don't need to seed the random algorithm in every call to random. Seed it initially when you start your program, like so: random:seed(now()). If you seed it for every call to uniform/1 your results become skewed (try with [shuffle:list([1,2,3]) || _ <- lists:seq(1, 100)]).

  • Thanks @Adam great solution. I love it – Muzaaya Joshua Jan 11 '12 at 11:54
  • hi. may I add that you should seed before using random:uniform? otherwise you will get the same results in different executions of the VM and in many applications this is unwanted. – user601836 Apr 22 '13 at 8:37
  • @user601836 Good point! Note that you only need to do this once per process, and not for every run of shuffle:list/1. – Adam Lindberg Apr 24 '13 at 12:11
  • Nice quadratic complexity but I would like O(N*logN) of karl's solution. – Hynek -Pichi- Vychodil Apr 24 '13 at 14:28
  • 1
    I would also add that most of the times it is better to use the seed proposed in LYSE: {A:32,B:32,C:32} = crypto:rand_bytes(12) as random:seed({A,B,C}) – user601836 Apr 24 '13 at 17:48
1> L = lists:seq(1,10).

Associate a random number R with each element X in L by making a list of tuples {R, X}. Sort this list and unpack the tuples to get a shuffled version of L.

1> [X||{_,X} <- lists:sort([ {random:uniform(), N} || N <- L])].
  • Voted up!, i love this one too ! Thanks @karl – Muzaaya Joshua Jan 12 '12 at 5:03
  • This method of shuffling produces biased results unless you can guarantee that no duplicate random numbers are generated (which you can not with random:uniform/0. – jvf Feb 3 '17 at 16:20
  • Good point @jvf, though I think it's worth pointing out that since random:uniform/0 returns a float, duplicates should be extremely rare. Good to be conscious of this kind of thing, but I would wager that for many applications such a tiny amount of bias would not be an issue in practice. – Nick Jun 5 '19 at 17:55


shuffle(L) ->
    shuffle(list_to_tuple(L), length(L)).

shuffle(T, 0)->
shuffle(T, Len)->
Rand = random:uniform(Len),
A = element(Len, T),
B = element(Rand, T),
T1 = setelement(Len, T,  B),
T2 = setelement(Rand,  T1, A),
shuffle(T2, Len - 1).

main()-> shuffle(lists:seq(1, 10)).


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