True when Min is the smallest member in the standard order of terms. Fails if List is empty.
?- min_member(3, [1,2,X]). X = 3.
The explanation is of course that variables come before all other terms in the standard order of terms, and unification is used. However, the reported solution feels somehow wrong.
How can it be justified? How should I interpret this solution?
One way to prevent
min_member/2 from succeeding with this solution is to change the standard library (SWI-Prolog) implementation as follows:
xmin_member(Min, [H|T]) :- xmin_member_(T, H, Min). xmin_member_(, Min0, Min) :- ( var(Min0), nonvar(Min) -> fail ; Min = Min0 ). xmin_member_([H|T], Min0, Min) :- ( H @>= Min0 -> xmin_member_(T, Min0, Min) ; xmin_member_(T, H, Min) ).
The rationale behind failing instead of throwing an instantiation error (what @mat suggests in his answer, if I understood correctly) is that this is a clear question:
"Is 3 the minimum member of
[1,2,X], when X is a free variable?"
and the answer to this is (to me at least) a clear "No", rather than "I can't really tell."
This is the same class of behavior as
?- sort([A,B,C], [3,1,2]). A = 3, B = 1, C = 2.
And the same tricks apply:
?- min_member(3, [1,2,A,B]). A = 3. ?- var(B), min_member(3, [1,2,A,B]). B = 3.