What you actually want is something slightly different: You want to count the number of answers (so far) of a goal.
The following predicate call_nth(Goal_0, Nth)
succeeds like call(Goal_0)
but has an additional argument which indicates that the answer found is the n-th answer. This definition is highly specific to SWI or YAP. Do not use things like nb_setarg/3
in your general programs, but use them for well encapsulated cases as this one. Even within
those two systems, the precise meaning of these constructs is not well defined for the general case. Here is a definition for SICStus.
call_nth(Goal_0, C) :-
State = count(0,_), % note the extra argument which remains a variable
Goal_0,
arg(1, State, C1),
C2 is C1+1,
nb_setarg(1, State, C2),
C = C2.
A more robust abstraction is provided by Eclipse:
call_nth(Goal_0, Nth) :-
shelf_create(counter(0), CounterRef),
call(Goal_0),
shelf_inc(CounterRef, 1),
shelf_get(CounterRef, 1, Nth).
?- call_nth(between(1,5,I),Nth).
I = Nth, Nth = 1 ;
I = Nth, Nth = 2 ;
I = Nth, Nth = 3 ;
I = Nth, Nth = 4 ;
I = Nth, Nth = 5.
So simply wrap it around:
lock_open :-
call_nth(conditional_combination(X), Nth),
X = [8,6,5,3,6,9],
!,
....