X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=compiler%2FsimplCore%2FSimplEnv.lhs;h=2c0cc093b8989a5fd10060785957882e08ef6d0b;hb=dafaa80f1f849ba18bb2852914b74f86c0331bba;hp=294651a0f7efd2185d2878ca23262ad665cbfbed;hpb=7c1e4f1a903bb6443caa22270a7d8c377baaa20a;p=ghc-hetmet.git diff --git a/compiler/simplCore/SimplEnv.lhs b/compiler/simplCore/SimplEnv.lhs index 294651a..2c0cc09 100644 --- a/compiler/simplCore/SimplEnv.lhs +++ b/compiler/simplCore/SimplEnv.lhs @@ -46,7 +46,7 @@ module SimplEnv ( #include "HsVersions.h" -import SimplMonad +import SimplMonad import IdInfo import CoreSyn import Rules @@ -64,7 +64,9 @@ import Coercion import BasicTypes import DynFlags import Util +import MonadUtils import Outputable +import FastString import Data.List \end{code} @@ -389,15 +391,13 @@ addNonRec env id rhs = env { seFloats = seFloats env `addFlts` unitFloat (NonRec id rhs), seInScope = extendInScopeSet (seInScope env) id } -extendFloats :: SimplEnv -> [OutBind] -> SimplEnv +extendFloats :: SimplEnv -> OutBind -> SimplEnv -- Add these bindings to the floats, and extend the in-scope env too -extendFloats env binds - = env { seFloats = seFloats env `addFlts` new_floats, +extendFloats env bind + = env { seFloats = seFloats env `addFlts` unitFloat bind, seInScope = extendInScopeSetList (seInScope env) bndrs } where - bndrs = bindersOfBinds binds - new_floats = Floats (toOL binds) - (foldr (andFF . classifyFF) FltLifted binds) + bndrs = bindersOf bind addFloats :: SimplEnv -> SimplEnv -> SimplEnv -- Add the floats for env2 to env1; @@ -500,8 +500,8 @@ These functions are in the monad only so that they can be made strict via seq. \begin{code} simplBinders, simplLamBndrs :: SimplEnv -> [InBndr] -> SimplM (SimplEnv, [OutBndr]) -simplBinders env bndrs = mapAccumLSmpl simplBinder env bndrs -simplLamBndrs env bndrs = mapAccumLSmpl simplLamBndr env bndrs +simplBinders env bndrs = mapAccumLM simplBinder env bndrs +simplLamBndrs env bndrs = mapAccumLM simplLamBndr env bndrs ------------- simplBinder :: SimplEnv -> InBndr -> SimplM (SimplEnv, OutBndr) @@ -519,18 +519,19 @@ simplBinder env bndr ------------- simplLamBndr :: SimplEnv -> Var -> SimplM (SimplEnv, Var) -- Used for lambda binders. These sometimes have unfoldings added by --- the worker/wrapper pass that must be preserved, becuase they can't +-- the worker/wrapper pass that must be preserved, because they can't -- be reconstructed from context. For example: -- f x = case x of (a,b) -> fw a b x -- fw a b x{=(a,b)} = ... -- The "{=(a,b)}" is an unfolding we can't reconstruct otherwise. simplLamBndr env bndr - | not (isId bndr && hasSomeUnfolding old_unf) = simplBinder env bndr -- Normal case - | otherwise = seqId id2 `seq` return (env', id2) + | isId bndr && hasSomeUnfolding old_unf = seqId id2 `seq` return (env2, id2) -- Special case + | otherwise = simplBinder env bndr -- Normal case where old_unf = idUnfolding bndr - (env', id1) = substIdBndr env bndr - id2 = id1 `setIdUnfolding` substUnfolding env old_unf + (env1, id1) = substIdBndr env bndr + id2 = id1 `setIdUnfolding` substUnfolding env old_unf + env2 = modifyInScope env1 id1 id2 --------------- simplNonRecBndr :: SimplEnv -> InBndr -> SimplM (SimplEnv, OutBndr) @@ -621,7 +622,7 @@ Can we eta-expand f? Only if we see that f has arity 1, and then we take advantage of the 'state hack' on the result of (f y) :: State# -> (State#, Int) to expand the arity one more. -There is a disadvantage though. Making the arity visible in the RHA +There is a disadvantage though. Making the arity visible in the RHS allows us to eta-reduce f = \x -> f x to @@ -659,7 +660,7 @@ addBndrRules env in_id out_id where subst = mkCoreSubst env old_rules = idSpecialisation in_id - new_rules = CoreSubst.substSpec subst old_rules + new_rules = CoreSubst.substSpec subst out_id old_rules final_id = out_id `setIdSpecialisation` new_rules ------------------