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im trying to perform nested list tail recursion without using of built in flatten func

my example is sum of all values on the list

sum([A|LIST],RES,SUM):-sum(A,RES2,SUM), RES1 is RES+RES2,sum(LIST,RES1,SUM).
sum([H|LIST],RES,SUM):-RES1 is RES+H,sum(LIST,RES1,SUM).

for example on flatten list

[trace] 13 ?- sum([1,2,3,4,5,6],Sum).
Sum = 21.

but if i try on nested list

[trace] 12 ?- sum([1,2,[3,4],5,6],Sum).

it's not workig

thanks for help

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3 Answers 3

up vote 0 down vote accepted

It's really strange that you get this sort of assignments without being taught the basics of how to go about solving them. And why do you need to reimplement library predicates?

You can look at the implementation of the library predicate flatten/2. Note that it is deprecated. This is because, I cite, "Ending up needing flatten/3 often indicates, like append/3 for appending two lists, a bad design".

Even if you don't use flatten/2, it shows you how to deal with a nested list (which could indicate a bad design, but anyway).

sum_nested([], Sum, Sum) :- !.
sum_nested([X|Xs], Acc, Sum) :- !,
    sum_nested(X, 0, Sum_Nested),
    Acc1 is Acc + Sum_Nested,
    sum_nested(Xs, Acc1, Sum).
sum_nested(Number, Acc, Sum) :-
    Sum is Number + Acc.

You can't leave the cuts out if you want the predicate to succeed once. You also should notice that it is not strictly tail-recursive. Can you make it tail-recursive? What sort of input will cause the predicate to fail? What will happen if you have variables in the nested list?

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thanks Boris ... so thare is no way to implement strictly tail-recursive nested list? –  avis Aug 3 '14 at 7:30
Every recursive algorithm can be transformed to be strict tail-recursive and from there iterative. –  Boris Aug 3 '14 at 7:58
thank you very much Boris ... –  avis Aug 3 '14 at 8:16
@avis If you can come up with a strict tail recursive version, you should post it as an answer to your question! –  Boris Aug 3 '14 at 8:36
Ok I'll thanks .. –  avis Aug 3 '14 at 8:46

a possible way to avoid flatten/2 it's to make a (sort of) member/2, like

leafs([E|L], R) :- !, (leafs(E, R) ; leafs(L, R)).
leafs(E, E) :- E \= [].

now library(aggregate) can serve like

sum(LIST, SUM) :- aggregate(sum(E), leafs(LIST, E), SUM).


?- sum([1,[[2],3]],X).
X = 6.
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You can just use flatten in a preprocessing step. Rename your sum to, for example, sum_flatten, and then add

sum(List, Sum) :- 
     flatten(List, FlattenList),
     sum_flatten(FlattenList, Sum).
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yes .. im understand .. but i really want to implement that with no using of built in flatten func .. thanks –  avis Aug 3 '14 at 6:13
You should use append/2 instead of flatten (available in SWI-Prolog at least), and while at it, also use sum_list/2: append(Nested_List, List), sum_list(List, Sum) –  Boris Aug 3 '14 at 7:57

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