14

I want to find if a given element exists in a list of lists. I am only getting true if the element exists somewhere is the first list of lists.

Any advice?

memberlist(X,[[X|T1]|T2]).
memberlist(X,[[H|T1]|T2]) :-
  memberlist(X,[T1|T2]).
  • member(Xs, Xss), member(X, Xs) – false Apr 14 '17 at 19:06
5

The problem is that [[H|T1]|T2] only matches given the first list has at least one element. Indeed: [[],[1,4],[2,5]] for instance does not unify with [[H|T1]|T2].

So you can solve the problem by adding a clause:

memberlist(X,[[]|T2]) :-
    memberlist(X,T2).

thus we obtain:

memberlist(X,[[X|_]|_]).
memberlist(X,[[H|T1]|T2]) :-
    memberlist(X,[T1|T2]).
memberlist(X,[[]|T2]) :-
    memberlist(X,T2).

the first clause also uses the underscores to specify that we are "not interested" in these variables. This is common for Prolog programs (probably the interpreter warned that T1 and T2 were mentioned only once).

So in case the first list is exhausted, we simply move to the next list.

Your predicate does a lot of "packing" and "unpacking". Furthermore we can make use of the member/2 builtin. So we can rewrite it:

memberlist(X,[H|_]) :-
    member(X,H).
memberlist(X,[_|T2]) :-
  memberlist(X,T2).
  • 1
    Missed it a little bit there.Greetings :) – Alator Apr 14 '17 at 16:09
  • 1
    Still too complex – false Apr 14 '17 at 19:10
  • 2
    @false can you provide something less complex? – Alator Apr 15 '17 at 10:15
  • 1
    @Alator: See my answer – false Apr 15 '17 at 18:33
9
memberlists(X, Xss) :-
   member(Xs, Xss),
   member(X, Xs).

Similar to member/2, this produces many redundant answers like:

?- memberlists(X, [[a,a],[a],[a]]).
   X = a
;  X = a  % redundant
;  X = a  % redundant
;  X = a. % redundant

Alternatively, you might want to use memberd/2 in place of member/2.

memberlists2(X, Xss) :-
   memberd(Xs, Xss),
   memberd(X, Xs).

?- memberlists2(X, [[a,a],[a],[a]]).
   X = a
;  X = a   % redundant
;  false.

This is much better, but still does not remove all redundant answers.

For a solution that removes all such redundancies a bounty has been set.

7

What about this?

list([])     --> [].
list([L|Ls]) --> [L], list(Ls).

concatenation([]) --> [].
concatenation([List|Lists]) -->
   list(List),
   concatenation(Lists).

memberd(X, [X|_Xs]).
memberd(X, [Y|Xs]) :-
   dif(X,Y),
   memberd(X, Xs).

memberlists(X, Lists):-
   phrase(concatenation(Lists),List),
   memberd(X,List).
  • 1
    Definitely a pure, good solution. But is it really necessary to convert the entire list first? That's not a stated requirement. – false Apr 17 '17 at 11:40
  • 1
    (Do not modify your answer if you want to submit another solution, instead use a separate answer!) – false Apr 17 '17 at 11:47
  • Here is a case where your solution does not terminate, but one might even expect that it succeeds deterministically: memberlists(X,[[X|_]|_]). Compare this to memberd(X,[X|_]) which also succeeds and terminates. – false Apr 17 '17 at 12:51
7
+100

Here is a more compact version of the very nice 2nd solution by @user27815 (s(0) for both solutions). There is actually no need to use reification in the predicate member_lists/2 as is done in member_lists_t/3. In fact using memberd_t/3 as first argument of if_/3 is sufficient for termination after finding the first solution. Hence the relation can be expressed as a single rule with a single goal like so:

member_lists(X,[H|T]) :-
  if_(memberd_t(X,H),true,member_lists(X,T)).

The query

   ?- member_lists(X,[[a,a],[a]]).
X = a ? ;
no

is only producing a single solution. The query

   ?- member_lists(X,[[X|_]|_]).

true

is terminating deterministically.

  • 2
    Clearly the best solution. However, isn't it a bit odd that this answer looks so much simper - yet it is so inefficient? Maybe that should go into a further question & bounty. – false Apr 23 '17 at 21:10
  • @false: Yes, it's odd indeed. Richard O'Keefe writes in the introductory chapter of "The Craft of Prolog" that one of the books main themes is "elegance is not optional". I find that to be a very accurate observation. Yet this seems to be a counterexample. At least according to his first interpretation of the statement (efficiency). However, in terms of maintainability (2nd interpretation) it still applies: In your post I can see at first glimpse what's going on. In mine... Well, if I was not familiar with reification... – tas Apr 23 '17 at 22:15
  • 1
    At least your solution is really pure & efficient! Maybe some higher-order meta-predicate may cover the abstraction... – false Apr 23 '17 at 22:22
6

With if_/3:

memberd_t(_,[],false).
memberd_t(X,[Y|Ys],Truth) :-
 if_(X=Y, Truth=true, memberd_t(X,Ys,Truth)).

member_lists_t(_,[],false).
member_lists_t(X,[H|T],Truth):-
 if_(memberd_t(X,H),Truth=true,member_lists_t(X,T,Truth)).

member_lists(X,Lists):-
 member_lists_t(X,Lists,true).
  • You mean memberd_t/3 in place of memberd/3? – false Apr 18 '17 at 14:56
  • And no _t for member_lists_t/3. – false Apr 18 '17 at 14:58
  • 1
    See library(reif) for SICStus|SWI. – false Apr 18 '17 at 15:01
  • It should be memberd_t I guess, but still member_lists_t? as that is called in if_/3? – user27815 Apr 18 '17 at 15:23
  • 1
    No need for reification in member_lists/2! – false Apr 18 '17 at 15:27
3

Here is my approach using sort/2 and flat/2 that flatten a list only one level:

memberlists(X, Xss) :- Xss = [_|_], 
                       flat(Xss, FL), 
                       sort(FL, OutL), 
                       memberd(X, OutL).

memberd(X, [X|_Xs]).
memberd(X, [Y|Xs]) :-
   dif(X,Y),
   memberd(X, Xs).                       

flat([],[]).
flat([H|T],R) :- H = [_|_], flat(T,T1), append(H,T1,R).

Testcases:

 ?- memberlists(X,[[a,A]]), A = a.
X = A, A = a ;
false.

?- memberlists(X,[[a]|Xs]), Xs = [_|_].
Xs = [[X]] ;
X = a,
Xs = [[_G13004]],
dif(a, _G13004) ;
Xs = [[X, _G12784]] .

?- memberlists(X,[[a,a],[Y],[b]]).
X = Y ;
X = a,
dif(a, Y) ;
X = b,
dif(b, Y) ;
false.

?- memberlists(X,[[a,a],[a],[a]]).
X = a ;
false.

?- memberlists(X,[[[a,a],[a],[a]]]).
X = [a] ;
X = [a, a] ;
false.

?- memberlists(X,[L]).
L = [X] ;
L = [X, _G12710] ;
L = [_G12923, X],
dif(X, _G12923) ;
L = [X, _G12710, _G12716] ;
L = [_G12935, X, _G12941],
dif(X, _G12935) . (and goes on...)

?- memberlists(X,L).
L = [[X]]
L = [[X, _G12704]] ;
L = [[_G12920, X]],
dif(X, _G12920) ;
L = [[X, _G12704, _G12710]] ;
L = [[_G12932, X, _G12938]],
dif(X, _G12932) ;
L = [[_G13018, _G13021, X]],
dif(X, _G13021),
dif(X, _G13018) ;
L = [[X, _G12704, _G12710, _G12716]] . (and goes on...)
  • 1
    Incorrectly fails for memberlists(X,[[a]|Xs]), Xs = [_|_]. It should succeed (or loop). – false Apr 17 '17 at 11:17
  • 1
    Produced two answers for memberlists(X,[[a,A]]), A = a. So there are still redundant solutions. – false Apr 17 '17 at 11:18
  • @false, problems solved using memberd/2 see the updated answer, any advice well accepted!! – coder Apr 17 '17 at 13:19
  • memberlists(X,[[X|_]|_]). could succeed deterministically – false Apr 17 '17 at 13:32
-3

The answer to the original question is as follows:

memberlist(X, [X| _]) :- !.
memberlist(X, [[A|B]|_]) :-
    memberlist(X,[A|B]), !.
memberlist(X, [_ | Rest]) :-
    memberlist(X, Rest).

This solution will only give one result when X is given a value in the query. With a little more work this can be changed to a tail recursive algorithm. But the question seems to expanded to look for a way to have this return the set of singleton elements that are members of all the embedded lists.

The solution is to flatten the lists into a single list and then turn the list into a set.

The code for flatten from cs.uni-potsdam.de is:

flatten(List, Flat) :-
    flatten(List, Flat, []).

flatten([], Res, Res) :- !.
flatten([Head|Tail], Res, Cont) :-
        !,
        flatten(Head, Res, Cont1),
        flatten(Tail, Cont1, Cont).
flatten(Term, [Term|Cont], Cont).

The code for turning a list to set (from http://www.cs.oswego.edu/~odendahl/coursework/notes/prolog/synopsis/)

member(X,[X|_]).
member(X,[_|Y]) :- member(X,Y).

make_set([],[]).
make_set(X,Y) :- setof(Z,member(Z,X),Y).

So the finally piece is:

setofmembers(NestedLists, Set) :-
    flatten(NestedLists,Flat),
    make_set(Flat,Set).

memberlist2(X,Lists) :-
    setofmembers(Lists,Set),
    member(X,Set).

Of course this is not totally satisfactory because it is not tail recursive and it not very efficient. But coming up with an efficient tail recursive solution would take me a couple hours and I have to mow the lawn.

  • 2
    The predicate memberlist(X,L) is supposed to to be true exactly if L is a list and X is member of one of the elements of L. Therefore, memberlist(X,[a]). should fail but your implementation does not. – lambda.xy.x Apr 25 '17 at 8:53
  • 1
    Btw a might be covered as underspecified, but it also holds for memberlist(X,[[]]).: a list of an empty list contains nothing, but the implementation claims that the empty list contains the empty list. – lambda.xy.x Apr 25 '17 at 8:59

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