# erlang list manipulation

I have a list of tuples:

``````L = [{1, [a, b, c]}, {2, [d, e, f]}, {3, [[h, i, j], [k, l, m]]}]
``````

this is what I have

``````lists:map(fun({_, B}-> B end, L).
``````

the output is

``````[[a, b, c], [d, e, f], [[h, i, j], [k, l, m]]]
``````

what I want is:

``````[[a, b, c], [d, e, f], [h, i, j], [k, l, m]]
``````

it seems a pretty easy problem, but I can't figure out how to do it. Please help!

-

Let's see...

``````1> L = [{1, [a, b, c]}, {2, [d, e, f]}, {3, [[h, i, j], [k, l, m]]}].
[{1,[a,b,c]},{2,[d,e,f]},{3,[[h,i,j],[k,l,m]]}]
``````

Trivial and straightforward, but not tail-recursive:

``````2> lists:foldr(fun ({_,[X|_]=E},A) when is_list(X) -> lists:append(A,E);
({_,E},A) -> [E|A] end,
[], L).
[[a,b,c],[d,e,f],[h,i,j],[k,l,m]]
``````

Not being tail-recursive is not very nice, though, but...

``````3> lists:reverse(lists:foldl(fun ({_,[X|_]=E},A) when is_list(X) ->
lists:reverse(E,A);
({_,E},A) -> [E|A] end,
[], L)).
[[a,b,c],[d,e,f],[h,i,j],[k,l,m]]
``````

...the tail-recursive version also works (thanks to Zed for pointing out `lists:reverse/2`).

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one question though, did you use lists:append(lists:reverse(E),A) then reverse the whole thing at the end, just to avoid appending result to the end of A all the time, to improve performance? –  Quincy Nov 2 '09 at 1:43
@ndim: lists:reverse(E, A) =:= lists:append(lists:reverse(E), A) –  Zed Nov 2 '09 at 10:36
@Quincy: Appending to the end of A requires traversing the list every time. That does not scale. So you build up lists in reverse, and do a single lists:reverse/1 call when it is complete. This is standard operating procedure in Erlang. Also, `lists:foldl/3`, unlike `lists:foldr/3`, is documented to use tail recursion and thus needs less stack and is faster due to walking through the list in the canonical direction. All in all, the `lists:foldl/3` solution should be the most robust. –  ndim Nov 2 '09 at 13:45
@Quincy: Well, if you call it often with long lists of tuples containing long lists which need to be reversed, the `lists:foldr/3` solution might save some CPU cycles at the cost of some stack memory. You can design a load which works badly on most algorithms. :) –  ndim Nov 2 '09 at 13:51

For your specific example case, you can define the following function:

``````group3([], Acc) ->
Acc;
group3([A,B,C|Tl], Acc) ->
group3(Tl, [[A,B,C]] ++ Acc).

group3(L) ->
lists:reverse(group3(L, [])).
``````

and invoke it like this:

``````group3(lists:flatten(lists:map(fun({_, B}) -> B end, L))).
``````

Hopefully that's enough to give you a general strategy.

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too bad it's supposed to take lists with length N. thanks for the effort –  Quincy Nov 2 '09 at 0:53
``````-module(z).
-export([do/1]).

do([{_,[X|_] = L}|Tl]) when is_list(X) -> L ++ do(Tl);
do([{_, L}       |Tl])                 -> [L|do(Tl)];
do([])                                 -> [].
``````

test:

``````1> z:do(L).
[[a,b,c],[d,e,f],[h,i,j],[k,l,m]]
``````
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