Function Returns "No Solution" Instead Of "Nothing"

I have a standard datatype representing formulae of predicate logic. A function representing a natural deduction elimination rule for disjunction might look like:

d_el p q =
if p =: (Dis r s) && q =: (Neg r) then Just s else
if q =: (Dis r s) && p =: (Neg r) then Just s else
Nothing where r,s free

x =: y = (x =:= y) == success

Instead of evaluating to Nothing when unification fails, the function returns no solutions in PACKS:

logic> d_el (Dis Bot Top) (Not Bot)
Result: Just Top
More Solutions? [Y(es)/n(o)/a(ll)] n
logic> d_el (Dis Bot Top) (Not Top)
No more solutions.

What am I missing, and why doesn't el evaluate to Nothing when unification fails?

• The language I'm using is Curry, a functional-logic programming langauge (see tags).
– emi
Sep 30 '11 at 14:36
• oh - I'm sorry .... ignorance can be quite embarassing .... Sep 30 '11 at 14:40
• As you probably know, "curry" is also a term that has meaning in other languages (like Haskell, obviously) so maybe you should add some content to the Stack Overflow wiki page for the curry tag. Sep 30 '11 at 20:48

It seems that this is not the best way to use equational constraints. When a =:= b fails then complete function clause fails also.
E.g.:

xx x = if (x =:= 5) == success then 1 else x
xx x = 3

Evaluating xx 7 results in 3 (not 7) because 7 =:= 5 completely terminates first clause of the xx function.

I think the code should look like this:

d_el p q = case (p,q) of
(Dis a s, Neg b) -> if a == b then Just s else Nothing
(Neg a, Dis b s) -> if a == b then Just s else Nothing
_ -> Nothing