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The resulting tree of this recursion is not what I what, which probably proves that I don't fully understand the behaviour of lists/tuples in recursion. If someone could explain what I did wrong in this example and also explain the right way to think I'd be very grateful.

move([],{Main, One, Two}) ->
    {Main, One, Two};
move([X|Xr], {Main, One, Two}) ->
    [{Main, One, Two}, move(Xr, single(X, {Main, One, Two}))].

Desired result (one list containing 3 tuples):

[{[a,b],[],[]}, {[a],[b],[]}, {[],[b],[a]}, {[b],[],[a]}]

Actual Result(a list containing a tuple and a list, containing a tuple and a list...):

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2 Answers 2

up vote 6 down vote accepted

You have two problems:

  1. The | instead of , as @nmichaels mentioned.
  2. The function move/2 returns a list so the terminating clause must also return a list. This is not seen in your example as the first problem hides it.

So the resulting code would be:

move([X|Xr], {Main, One, Two}) ->
    [{Main, One, Two} | move(Xr, single(X, {Main, One, Two}))];
move([], {Main, One, Two}) ->
    [{Main, One, Two}].

I flipped the order of the clauses as I personally prefer writing them this way. No fundamental difference in this case. I am assuming that single/2 returns a tuple.

You can actually optimise this code by removing all knowledge of the tuple from move/2 as it never actually uses the internal structure. So:

move([X|Xr], Tuple) ->
    [Tuple | move(Xr, single(X, Tuple))];
move([], Tuple) ->
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You want to use | instead of , when composing a list like that:

move([X|Xr], {Main, One, Two}) ->
    [{Main, One, Two} | move(Xr, single(X, {Main, One, Two}))].

The recursive call returns a list, which will just nest deeper and deeper unless you use | to flatten them out a bit. It's the same concept as in the pattern match [X|Xr] just with a reversed operation.

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I tried that, but that will result in this, which is better, but not perfect: [{[a,b],[],[]},{[a],[b],[]},{[],[b],[a]}|{[b],[],[a]}] The '|' is still there in the answer. –  Rickard Oct 31 '11 at 14:50
@Rickard: Ah, right...what does single/2 do? –  nmichaels Oct 31 '11 at 14:51
It applies X to the lists Main, One and Two, and returns {MainX, OneX, TwoX}, a tuple with 3 lists. –  Rickard Oct 31 '11 at 14:57
Solved it! I added an accumulator (I think), an empty list where I store the states instead of adding them on the way up from the recursion. move([],Tuple, Y) -> append(Y,[Tuple]); move([X|Xr], Tuple, Y) -> move(Xr, single(X, Tuple), append(Y,[Tuple])). Is it correct to say that this is tail recursive? –  Rickard Oct 31 '11 at 15:20

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