# Create a closure in Erlang: why are variables not bound?

I have a piece of code that goes like this:

``````Fi_F = fun (F, I, Xs) ->
fun ( X ) ->
F( x_to_list(X, Xs, I) )
end
end,
``````

I just need to turn a function of list to a function of one number. For example with Xs = [1,2,3] and I = 2, I expect this to grant me with function:

``````fun ( X ) -> F([ 1, X, 3]) end.
``````

But somehow F, I and X are shadowed, not closured, so it fails in x_to_list with an empty list.

I'm still new to Erlang and think I'm missing something more conceptual, than a mere syntax problem.

UPD: Found a bug. I wrote x_to_list/3 this way:

``````x_to_list( X, L, I ) ->
lists:sublist(L, I) ++ [ X ] ++ lists:nthtail(I+1, L).
``````

So it counts list elements from 0, not 1. When I call it with I = 3, it fails. So this is not about closuring.

I still have shadowing warnings though, but it is completely another issue.

-
Could you show the definition of `x_to_list`? The error must be there, because variables and lambdas defined this way always form a closure. – Diego Sevilla Jun 8 '12 at 19:02
Oh! I've found a mistake in mine. It's not a shadowing issue, just a pure inaccuracy. – akalenuk Jun 8 '12 at 20:11

A somewhat quick and dirty implementation of `x_to_list/3` (just to test) would be:

``````x_to_list(X, Xs, I) ->
{ Pre, Post } = lists:split(I-1, Xs),
Pre ++ [X] ++ tl(Post).
``````

Then, your code works without problems:

``````> Q = fun ( F, I, Xs ) -> fun (X) -> F( x_to_list(X, Xs, I)) end end.
> Y = Q( fun(L) -> io:format("~p, ~p, ~p~n", L) end, 2, [1,2,3] ).
> Y(4).
1, 4, 3
ok
``````
-