Although the functions should be identical, there's a difference in how they're applied. With the first definition,
isFactor is fully applied at the call site
isFactor x. In the second definition, it isn't, because now
isFactor explicitly takes two arguments.
Even minimal optimizations are enough for GHC to see through this and create identical code for both, however if you compile with
-O0 -ddump-simpl you can determine that, with no optimizations, this makes a difference (at least with ghc-7.2.1, YMMV with other versions).
With the first
isFactor, GHC creates a single function that is passed as the predicate to "GHC.List.Filter", with the calls to
mod 10000000 and
(==) inlined. For the second definition, what happens instead is that most of the calls within
isFactor are let-bound references to class functions, and are not shared between multiple invocations of
isFactor. So there's a lot of dictionary overhead that's completely unnecessary.
This is almost never an issue because even the default compiler settings will optimize it away, however runhaskell apparently doesn't even do that much. Even so, I have occasionally structured code as
someFun x y = \z -> because I know that
someFun will be partially applied and this was the only way to preserve sharing between calls (i.e. GHC's optimizer wasn't sufficiently clever).