This example is a bit harder. The predicate average/3 is defined to take the template average(+Var, :Goal, -Average) , where Goal binds Var and will unify Average with average of the (integer) results.
PlQuery
takes the name of a predicate and the
goal-argument vector as arguments. From this information it deduces the
arity and locates the predicate. The method next_solution() yields
true
if there was a solution and false
otherwise. If the goal yields a Prolog exception, it is mapped into a
C++ exception. A return to Prolog does an implicit "cut" (PL_cut_query());
this can also be done explicitly by the PlQuery::cut() method.
PREDICATE(average, 3) /* average(+Templ, :Goal, -Average) */ { long sum = 0; long n = 0; PlQuery q("call", PlTermv(A2)); while( q.next_solution() ) { sum += A1.as_long(); n++; } return A3.unify_float(double(sum) / double(n)); }
?- [user]. |: p(1). |: p(10). |: p(20). |: % user://1 compiled 0.00 sec, 3 clauses true. ?- average(X, p(X), Average). Average = 10.333333333333334.