# Evaluation of Erlang recursive function (why does this work)

I started to learn some Erlang and right now I am stuck with following "problem".

I know how recursion works and I am aware of the basics of HigherOrderFunctions.

So to get more into the whole concept I implemented "lists:all/2" with the usage of fold myself:

``````fold(_, Start, []) -> Start;
fold(F, Start, [H|T]) -> fold(F, F(H, Start), T).

all(Pred, L) ->
F = fun(H, ToF) ->
case Pred(H) of
true -> ToF;
false -> false
end
end,
fold(F, true, L).
``````

I know this version does not care about empty lists, but that is not what bothers me. I can't figure out why it works how it does.

When I use my list [1,2,3] and set the Pred to "fun(X) when X == 3 -> true; (_) -> false end" it obviously returns "false". But why? if I work this through on paper as last call before something is returned I get:

``````fold(F, F(H, Start), T)
``````

Where F is Pred and F(H, Start) returns "true" because the last element is 3 and T is an empty list [].

So when I get this right, the last call should be fold(_, true, []) and should therefore return "true" which it doesn't.

Am I missing something here or do I get anything wrong when it comes to evaluating the last expression? Does this function somehow use logical AND on all the returns of "Pred"?

-
Your pred could be fun(X) -> X == 3 end –  Isac Sep 21 '12 at 13:17

Basically, you are right about the last call, but when doing your analysis, you've substituted `true` for `Start` value, where in fact this value is `false`:

``````fold(F, true, [1,2,3])
``````

evaluates to:

``````fold(F, true, [1|[2,3]]) -> fold(F, F(1, true), [2,3])
``````

which in turns evaluates to:

``````fold(F, false, [2|3]) -> fold(F, F(2, false) [3])
``````

which in turns evaluates to:

``````fold(F, false, [3|[]]]) -> fold(F, F(3, false), [])
``````

which evaluates to:

``````fold(_, false, []) -> false
``````

Because in last call `Pred` is true, and you are returning `ToF`, which is false.

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Omg, thanks for that, I knew there had to be a mistake in my thinking ;) –  a.w. Sep 21 '12 at 10:28

Try to avoid complex solutions for simple problems (code compactness is one of a benefits of functional languages):

``````all(_, []) ->
true;
all(Pred, [H|T]) ->
case Pred(H) of
true ->
all(Pred, T);
false ->
false
end.
``````
-
I know and I would have never programmed it like this if it was not just to get more into the whole concept of HighOrderFunctions and I wanted to see if I can get this to work with fold/3 since it said that almost every problem with lists can be solved by using fold/3. Thanks anyway :) –  a.w. Sep 21 '12 at 10:35
@abdrl: your function does exactly what its name suggests. It returns true only if all the elements of the list L are evaluated to true by the Pred function, and false in all other cases. –  Pascal Sep 21 '12 at 16:39