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I'm getting myself introduced to Erlang by Armstrongs "Programming Erlang". One Exercise is to write a reeimplementation of the tuple_to_list/1 BIF. My solution seems rather inelegant to me, especially because of the helper function I use. Is there a more Erlang-ish way of doing this?

tup2lis({}) -> [];
tup2lis(T) -> tup2list_help(T,1,tuple_size(T)).

tup2list_help(T,Size,Size) -> [element(Size,T)];
tup2list_help(T,Pos,Size) -> [element(Pos,T)|tup2list_help(T,Pos+1,Size)].

Thank you very much for your ideas. :)

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1  
Make yourself aware which of the implementations below is tail-recursive. –  Tilman Apr 25 '13 at 22:23
3  
There is nothing wrong with having helper functions, often you need them and they are the best way of doing things. And don't be over concerned with tail-recursion, see erlang.org/doc/efficiency_guide/listHandling.html#id64720 –  rvirding Apr 26 '13 at 10:50

5 Answers 5

up vote 8 down vote accepted

I think your function is ok, and more if your goal is to learn the language. As a matter of style, usually the base case when constructing lists is just the empty list []. So I'd write

tup2list(Tuple) -> tup2list(Tuple, 1, tuple_size(Tuple)).

tup2list(Tuple, Pos, Size) when Pos =< Size ->  
    [element(Pos,Tuple) | tup2list(Tuple, Pos+1, Size)];
tup2list(_Tuple,_Pos,_Size) -> [].

you can write pretty much the same with list comprehension

[element(I,Tuple) || I <- lists:seq(1,tuple_size(Tuple))].

it will work as expected when the tuple has no elements, as lists:seq(1,0) gives an empty list.

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1  
+1 for list comprehension. I like the usage of lists:seq. Feels a bit pythonian to me. ;) –  Zakum Apr 25 '13 at 19:16

Your code is good and also idiomatic way how to make this sort of stuff. You can also build this list backward which in this case will be a little bit faster because of tail call but not significant.

tup2list(T) -> tup2list(T, size(T), []).

tup2list(T, 0, Acc) -> Acc;
tup2list(T, N, Acc) -> tup2list(T, N-1, [element(N,T)|Acc]).
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In Erlang R16B you can also use erlang:delete_element/2 function like this:

tuple2list({}) -> [];
tuple2list(T) when is_tuple(T) ->
    [element(1, T) | tuple2list(erlang:delete_element(1, T))].
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+1 for getting rid of the helper function and the need for counter and accumulator. I read that the speedup of tail-recursion vs. head-recursion in current versions is more a matter of processor-architecture* so I quit like this solution! *erlang.org/doc/efficiency_guide/myths.html –  Zakum Apr 26 '13 at 10:31
4  
-1 for a solution which creates a new tuple when an element is added to the list. Remember there is no mutable data in erlang and erlang:delete_element/2 creates a new tuple! –  rvirding Apr 26 '13 at 10:54
    
@Zakum: You should read this myth demystification more carefully. body-recursive list function and tail-recursive function that calls lists:reverse/1 at the end will use exactly the same amount of memory Note the lists:reverse/1 which mine version doesn't do. Mine tail recursive version definitely will be faster than body recursive ppolv's solution, no doubt. But when most tuples are small ti doesn't matter. But know the difference. –  Hynek -Pichi- Vychodil Apr 27 '13 at 12:33
    
@rvirding If I understand the question correctly it was about elegant tuple_to_list/1 not about most optimal one, because you can't beat erlang:tuple_to_list/1 anyway. –  hdima Apr 27 '13 at 17:49
1  
@hdima True, but an elegant solution is not needlessly inefficient. IMAO. –  rvirding Apr 28 '13 at 3:18

Erlang 17.0, you should build list in natural order, solutions above is incorrect from the point of efficiency. Always add elements to the head of an existing list:

%% ====================================================================
%% API functions
%% ====================================================================
my_tuple_to_list({}) ->
    [];
my_tuple_to_list(Tuple) ->
   tuple_to_list_iter(1, size(Tuple), Tuple, [])
.
%% ====================================================================
%% Internal functions
%% ====================================================================
tuple_to_list_iter(N, N, Tuple, List) ->
    lists:reverse([element(N, Tuple)|List]);

tuple_to_list_iter(N, Tuplesize, Tuple, List) ->
    L = [element(N, Tuple)|List],
    tuple_to_list_iter(N + 1, Tuplesize, Tuple, L)    
.
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mytuple_to_list(T) when tuple_size(T) =:= 0 -> []; mytuple_to_list(T) -> [element(1, T)|mytuple_to_list(erlang:delete_element(1, T))].

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