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I want to delete all predicates named a from the list. The result must be as shown below:

?- delete_all(a(_), [a(1),a(2),a(3),b(1)], R).
R = [b(1)]

Please, do not offer me built in solutions of SWI or others, because the code must be in Amzi-Prolog.


Edit: I have tried the following code but it is working properly only for atoms:

remove_all(X,[Y|L],R):-not(X=Y), remove_all(X,L,M), R=[Y|M].

?-remove_all(a(_), [a(1),a(2),a(3),b(1)], R).

which is not true :(

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What have you tried so far? –  Chetter Hummin Apr 6 '12 at 9:39
I have tried the following code: remove_all(X,[],[]). remove_all(X,[X|L],R):-remove_all(X,L,R). remove_all(X,[Y|L],R):-not(X=Y), remove_all(X,L,M), R=[Y|M]. But it removes only atoms. –  Teymur Hacizade Apr 6 '12 at 9:47
edit your post with that code –  whd Apr 6 '12 at 10:03
do you have any ideas? –  Teymur Hacizade Apr 6 '12 at 10:10

4 Answers 4

up vote 2 down vote accepted

use findall

findall(X, (member(X,[a(1),a(2),a(3),b(1)]),\+(X=a(_))) ,V).
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thank you. It works perfect. ;) –  Teymur Hacizade Apr 6 '12 at 10:31

I know you said no swi-prolog. However it's an easy task (compared to the main one), to implement a recursion that behaves the same as the exclude/3 used, the rest should be ISO prolog or present in amzi too. It uses lambda.pl, a library that allows easier higher order programming:

:- [lambda].
filter(Term, List, Result) :-
    Term =.. [Pred|Args],
    length(Args, Arity),
    exclude(\X^(X =.. [Pred2|Args2],
                length(Args2, Arity2),
                Pred == Pred2,
                Arity == Arity2), List, Result).

This solution has the advantage of staying away from the unpure findall/3.

Hope this helps.

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Little fix, and it should work:

% remove_same_indicator(+Callable,+List,-List)
remove_same_indicator(_, [], []).
remove_same_indicator(X, [Y|L], R) :- 
       functor(X, F, N), 
       functor(Y, F, N), 
       remove_same_indicator(X, L, R).
remove_same_indicator(X, [Y|L], [Y|R]) :- 
       remove_same_indicator(X, L, R).

Let's give it a try:

?- remove_same_indicator(a(_), [a(1),a(2),a(3),b(1)], R).
R = [b(1)]

Advantage over findall solution, one does not loose variables. For example one can do:

?- remove_same_indicator(a(_), [a(A),a(B),a(C),b(A)], R).
R = [b(A)]

But with the findall solution we get:

?- L=[a(A),a(B),a(C),b(A)], findall(X, (member(X,L),\+ (X = a(_))), R).
L = [a(A), a(B), a(C), b(A)],
R = [b(_I)]

The argument of b is not anymore bound to A, since findall creates copies and thus new variables.


functor/3 is ISO and also in Amzi!

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Well whats point in making facts with variable inside such as a(A)? it will be always true... –  whd Apr 6 '12 at 11:21
Facts with variables are very useful, check out tic-tac-toe: jekejeke.ch/idatab/doclet/prod/en/docs/05_run/06_bench/… , move/3 and win/2 are such facts. –  j4n bur53 Apr 6 '12 at 11:27
remove_all(_, [], []).
remove_all(X, [Y|R], L):- \+ X \= Y, remove_all(X, R, L).
remove_all(X, [Y|R], [Y|R2]):- X \= Y, remove_all(X, R2, L).
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(assuming that by "predicates named a" you mean terms with functor a/1) –  Paulo Moura Apr 6 '12 at 21:24

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