# Passing results in prolog

I'm trying to make a function that has a list of lists, it multiplies the sum of the inner list with the outer list. So far i can sum a list, i've made a function sumlist([1..n],X) that will return X = (result). But i cannot get another function to usefully work with that function, i've tried both is and = to no avail.

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Please clarify. It's unclear what are "inner" and "outer" lists. –  atzz Dec 8 '08 at 16:36

Is this what you mean?

``````prodsumlist([], 1).

prodsumlist(Tail, ProdSum_Of_Tail),
``````

where `sumlist/2` is a SWI-Prolog built-in.

Usage example:

``````?- prodsumlist([[1, 2], [3], [-4]], Result).
Result = -36.
``````
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The part "it multiplies the sum of the inner list with the outer list" isn't really clear, but I believe you mean that, given a list `[L1,...,Ln]` of lists of numbers, you want to calculate `S1*..*Sn` where `Si` is the sum of the elements in `Li` (for each `i`).

I assume the existence of `plus` and `mult` with their obvious meaning (e.g. `plus(N,M,R)` holds precisely when `R` is equal to `N+M`). First we need predicate `sum` such that `sum(L,S)` holds if, and only if, `S` is the sum of the elements of `L`. If `L` is empty, `S` obviously must be `0`:

``````sum([],0).
``````

If `L` is not empty but of the form `[N|L2]`, then we have that `S` must be `N` plus the sum `S2` of the elements in `L2`. In other words, we must have both `sum(L2,S2)` (to get S2 to be the sum of the elements of `L2`) and `plus(N,S2,S)`. That is:

``````sum([N|L2],S) :- sum(L2,S2), plus(N,S2,S).
``````

In the same way you can figure out the predicate `p` you are looking for. We want that `p(L,R)` holds if, and only if, `R` is the product of `S1` through `Sn` where `L=[L1,...,Ln]` and `sum(Li,Si)` for all `i`. If `L` is empty, `R` must be `1`:

``````p([],1).
``````

If `L` is not empty but of the form `[LL|L2]`, then we have that `R` must be the product of 'S', the sum of the elements of `LL`, and 'P', the product of the sums of the lists in `L2`. For `S` we have already have `sum(LL,S)`, so this gives us the following.

``````p([LL|L2],R) :- sum(LL,S), p(L2,P), mult(S,P,R).
``````

One thing I would like to add is that it is probably not such a good idea to see these predicates as functions you might be used to from imperative or functional programming. It is not the case that `sumlist([1,..,n],X)` returns `X = (result)`; `(result)` is a value for `X` such that `sumlist([1,...,n],X)` is true. This requires a somewhat different mindset. Instead of thinking "How can I calculate X such that p(X) holds?" you must think "When does P(X) hold?" and use the answer ("Well, if q(X) or r(X)!") to make the clauses (`p(X) :- q(X)` and `p(X) :- r(X)`).

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Here is a rewrite of Kaarel's answer (that's the intention anyway!) but tail-recursive.

``````prodsumlist(List, Result) :-
xprodsumlist(List,1,Result).

xprodsumlist([],R,R).