I'm very new to Mercury and logic programming in general. I haven't found a numeric example like this in the docs or samples...
Take the example predicate:
:- pred diffThirtyFour(float, float).
:- mode diffThirtyFour(in, out) is det.
diffThirtyFour(A,B) :-
( B = A + 34.0 ).
With this, A must be ground, and B is free. What if I want A to be free and B to be ground (eg, adding mode diffThirtyFour(out,in) is det.
). Can this sort of algebra be performed at compile time? I could easily define another predicate, but that doesn't seem very logical...
Update
So, something like this kind of works:
:- pred diffThirtyFour(float, float).
:- mode diffThirtyFour(in, out) is semidet.
:- mode diffThirtyFour(out, in) is semidet.
diffThirtyFour(A,B) :-
( B = A + 34.0, A = B - 34.0 ).
A little wary of the semidet
, and the redundancy of the second goal. Is this the only way of doing it?
Update 2
This might be the answer...it issues a warning at compile time about the disjunct never having any solutions. A correct warning, but perhaps unnecessary code-smell? This does what I need, but if there are better solutions out there, feel free to post them...
:- pred diffThirtyFour(float, float).
:- mode diffThirtyFour(in, out) is det.
:- mode diffThirtyFour(out, in) is det.
diffThirtyFour(A,B) :-
( A = B - 34.0,
B = A + 34.0
;
error("The impossible happened...")
).