Here's something that actually works. You need to pass
-fno-method-sharing on the command line.
Instead of using rules on methods it uses rules on global functions,
and these global functions don't get inlined until late (after the
rule has fired).
-- Lennart
module F where
-- | Domain of a linear map.
class AsInt a where
toInt' :: a -> Int
fromInt' :: Int -> a
{-# INLINE[1] toInt #-}
toInt :: (AsInt a) => a -> Int
toInt = toInt'
{-# INLINE[1] fromInt #-}
fromInt :: (AsInt a) => Int -> a
fromInt = fromInt'
{-# RULES
"toInt/fromInt" forall m . toInt (fromInt m) = m
#-}
{-# INLINE onInt #-}
onInt :: AsInt a => (Int -> Int) -> (a -> a)
onInt f x = fromInt (f (toInt x))
test :: AsInt a => (Int -> Int) -> (Int -> Int) -> (a -> a)
test h g = onInt h . onInt g
2008/6/7 Conal Elliott
I'm trying to do some fusion in ghc, and I'd greatly appreciate help with the code below (which is simplified from fusion on linear maps). I've tried every variation I can think of, and always something prevents the fusion.
Help, please! Thanks, - Conal
{-# OPTIONS_GHC -O2 -Wall -fglasgow-exts -ddump-simpl -ddump-simpl-stats #-} -- {-# OPTIONS_GHC -ddump-simpl-iterations #-}
module F where
-- | Domain of a linear map. class AsInt a where toInt :: a -> Int fromInt :: Int -> a
{-# RULES "toInt/fromInt" forall m. toInt (fromInt m) = m #-}
{-# INLINE onInt #-} onInt :: AsInt a => (Int -> Int) -> (a -> a) onInt f = fromInt . f . toInt
test :: AsInt a => (Int -> Int) -> (Int -> Int) -> (a -> a) test h g = onInt h . onInt g
-- The desired result: -- -- test h g -- == onInt h . onInt g -- == (fromInt . h . toInt) . (fromInt . g . toInt) -- == \ a -> (fromInt . h . toInt) ((fromInt . g . toInt) a) -- == \ a -> (fromInt . h . toInt) (fromInt (g (toInt a))) -- == \ a -> fromInt (h (toInt (fromInt (g (toInt a))))) -- == \ a -> fromInt (h (g (toInt a)))
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