findall/3
is equivalent to bagof/3
with all free variables appearing in Goal scoped to
the Goal with an existential (caret) operator (^),
except that bagof/3
fails when Goal has no solutions.
findall(Templ, Goal, Bag) :-
findall(Templ, Goal, Bag, [])
count(N)
is accepted. Using count(N), the size of the next chunk can
be controlled using nb_setarg/3.
The non-deterministic behaviour used to implement the
chunk option in library(pengines). Based on Ciao,
but the Ciao version is deterministic. Portability can be achieved by
wrapping the goal in once/1.
Below are three examples. The first illustrates standard chunking of
answers. The second illustrates that the chunk size can be adjusted
dynamically and the last illustrates that no choice point is left if Goal
leaves no choice-point after the last solution.
?- findnsols(5, I, between(1, 12, I), L). L = [1, 2, 3, 4, 5] ; L = [6, 7, 8, 9, 10] ; L = [11, 12]. ?- State = count(2), findnsols(State, I, between(1, 12, I), L), nb_setarg(1, State, 5). State = count(5), L = [1, 2] ; State = count(5), L = [3, 4, 5, 6, 7] ; State = count(5), L = [8, 9, 10, 11, 12]. ?- findnsols(4, I, between(1, 4, I), L). L = [1, 2, 3, 4].
+Var^Goal
tells bagof/3
not to bind
Var in Goal. bagof/3
fails if Goal has no solutions.
The example below illustrates bagof/3
and the ^ operator. The variable bindings
are printed together on one line to save paper.
2 ?- listing(foo). foo(a, b, c). foo(a, b, d). foo(b, c, e). foo(b, c, f). foo(c, c, g). true. 3 ?- bagof(C, foo(A, B, C), Cs). A = a, B = b, C = G308, Cs = [c, d] ; A = b, B = c, C = G308, Cs = [e, f] ; A = c, B = c, C = G308, Cs = [g]. 4 ?- bagof(C, A^foo(A, B, C), Cs). A = G324, B = b, C = G326, Cs = [c, d] ; A = G324, B = c, C = G326, Cs = [e, f, g]. 5 ?-