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I'm working through some Prolog tutorials (nothing better to do and I found out earlier this week I quite like programming, so I'm working through some paradigms) and got to an exercise asking me to write a predicate delete_from_list/3 which removes all given occurences from a list.

I've solved this as follows:

delete_from_list([], _, []).
delete_from_list([Ah|At], X, [Ah|Bt]) :- Ah \= X, !, delete_from_list(At, X, Bt).
delete_from_list([_|Ct], X, Bt) :- delete_from_list(Ct, X, Bt).

What I'm wondering though, and this might be more aesthetic than practical purpose. How would you guys do this in another way? And why? This mostly to gain a broader understanding of ways of problem solving in prolog :) For example, could this be done in 1 rule?

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up vote 1 down vote accepted

With an if-then-else this can be done more elegantly (no cut involved):

delete_from_list([], _, []).
delete_from_list([X|Xs], Y, Result) :-
    (X = Y ->
        Result = Result0
        Result = [X|Result0]
    delete_from_list(Xs, Y, Result0).

And note that the predicate is still tail-recursive, meaning it doesn't allocate extra stack frames and uses a constant amount of memory apart from building up the Result list.

And yes, it can be done in one clause, but it's not pretty:

delete_from_list(Xs, Y, Result) :-
    (Xs = [] ->
        Xs = [X|Xs0],
        delete_from_list(Xs0, Y, Result0),
        (X = Y ->
            Result = Result0
            Result = [X|Result0]
share|improve this answer
Ah, nice, yeah. Now I've updated my member definition to: is_on(Item, [H|T]) :- Item = H; is_on(Item, T) to be able to keep it in one clause :) Now It's much easier to filter doubles out as well :) cheers – Oxymoron Mar 7 '11 at 8:36
@ZedLep: that is a correct definition of member/2 (apart from the name, of course). But believe me, defining disjunctive predicates with multiple clauses is usually better for readability and may also be faster, because Prolog compilers index on (build dispatch tables for) the first argument. – Fred Foo Mar 7 '11 at 8:47
I see. I'm wondering, I'm trying to implement filter_doubles like so: filter_doubles([Ah|At], Result) :- (not(is_on(Ah, At)) -> Result = [Ah|Result] ; filter_doubles(At, Result) ). It makes perfect sense to me: if(H is not in T then put H in result, else recurse... Apparently prolog thinks otherwise. Am I thinking to imperative on this? How could I define multiple clauses in my is_on then? Eiter item is equal to Ah or it isn't? – Oxymoron Mar 7 '11 at 9:22
@ZedLep: please post this as a new question. It's quite hard to read code in comments. – Fred Foo Mar 7 '11 at 9:24
Alright,… :-) – Oxymoron Mar 7 '11 at 9:40

If I'm correctly understand this problem, select/3 do the same thing

?- select(3,[1,2,3,4],X), !.
X = [1, 2, 4].
share|improve this answer
Yeah, but since this is about learning I'm not using the built-in predicates ^^ – Oxymoron Mar 6 '11 at 8:16
Reading the source of the built-in predicates, however, could be instructional if they're done in Prolog. – JUST MY correct OPINION Mar 6 '11 at 15:51
The OP is not trying to implement select. Try it, and the OP's predicate, on [1,1]. – Fred Foo Mar 6 '11 at 23:37

Here is removeAllFromList/3 predicate using removeAllFromList/4 with accumulator

removeAllFromList(List, X, ListAns) :-
    removeAllFromList(List, X, [], ListAnsReverse),
    reverse(ListAnsReverse, ListAns),!.

removeAllFromList([], _, ListAns, ListAns).
removeAllFromList([H | Tail], X, OutList, ListAns) :-
    (H =\= X, append([H], OutList, OutListNew))
    ;(H = X, OutListNew = OutList)
    removeAllFromList(Tail, X, OutListNew, ListAns).
share|improve this answer
The OP's version is already tail-recursive. Yours is just wasting time doing memory allocations in reverse/2. – Fred Foo Mar 6 '11 at 23:29

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