X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=compiler%2FsimplCore%2FSimplEnv.lhs;h=1c3b8d8f60bbddee61475f97ac8a9bd19152bfae;hb=814d2f506d63f785dbfe33189dde606a06e60285;hp=6104d3390144db993b9abb080ad2afad4dda1deb;hpb=262c142b90c94ca1aa577c950a6ceae1f255e2d6;p=ghc-hetmet.git diff --git a/compiler/simplCore/SimplEnv.lhs b/compiler/simplCore/SimplEnv.lhs index 6104d33..1c3b8d8 100644 --- a/compiler/simplCore/SimplEnv.lhs +++ b/compiler/simplCore/SimplEnv.lhs @@ -28,8 +28,8 @@ module SimplEnv ( SimplSR(..), mkContEx, substId, lookupRecBndr, simplNonRecBndr, simplRecBndrs, simplLamBndr, simplLamBndrs, - simplBinder, simplBinders, addLetIdInfo, - substExpr, substTy, + simplBinder, simplBinders, addBndrRules, + substExpr, substWorker, substTy, -- Floats Floats, emptyFloats, isEmptyFloats, addNonRec, addFloats, extendFloats, @@ -39,10 +39,9 @@ module SimplEnv ( #include "HsVersions.h" -import SimplMonad +import SimplMonad import IdInfo import CoreSyn -import Rules import CoreUtils import CostCentre import Var @@ -56,8 +55,9 @@ import Type hiding ( substTy, substTyVarBndr ) import Coercion import BasicTypes import DynFlags -import Util +import MonadUtils import Outputable +import FastString import Data.List \end{code} @@ -119,8 +119,8 @@ data SimplEnv pprSimplEnv :: SimplEnv -> SDoc -- Used for debugging; selective pprSimplEnv env - = vcat [ptext SLIT("TvSubst:") <+> ppr (seTvSubst env), - ptext SLIT("IdSubst:") <+> ppr (seIdSubst env) ] + = vcat [ptext (sLit "TvSubst:") <+> ppr (seTvSubst env), + ptext (sLit "IdSubst:") <+> ppr (seIdSubst env) ] type SimplIdSubst = IdEnv SimplSR -- IdId |--> OutExpr -- See Note [Extending the Subst] in CoreSubst @@ -133,9 +133,9 @@ data SimplSR InExpr instance Outputable SimplSR where - ppr (DoneEx e) = ptext SLIT("DoneEx") <+> ppr e - ppr (DoneId v) = ptext SLIT("DoneId") <+> ppr v - ppr (ContEx tv id e) = vcat [ptext SLIT("ContEx") <+> ppr e {-, + ppr (DoneEx e) = ptext (sLit "DoneEx") <+> ppr e + ppr (DoneId v) = ptext (sLit "DoneId") <+> ppr v + ppr (ContEx _tv _id e) = vcat [ptext (sLit "ContEx") <+> ppr e {-, ppr (filter_env tv), ppr (filter_env id) -}] -- where -- fvs = exprFreeVars e @@ -336,14 +336,14 @@ instance Outputable Floats where ppr (Floats binds ff) = ppr ff $$ ppr (fromOL binds) instance Outputable FloatFlag where - ppr FltLifted = ptext SLIT("FltLifted") - ppr FltOkSpec = ptext SLIT("FltOkSpec") - ppr FltCareful = ptext SLIT("FltCareful") + ppr FltLifted = ptext (sLit "FltLifted") + ppr FltOkSpec = ptext (sLit "FltOkSpec") + ppr FltCareful = ptext (sLit "FltCareful") andFF :: FloatFlag -> FloatFlag -> FloatFlag andFF FltCareful _ = FltCareful andFF FltOkSpec FltCareful = FltCareful -andFF FltOkSpec flt = FltOkSpec +andFF FltOkSpec _ = FltOkSpec andFF FltLifted flt = flt classifyFF :: CoreBind -> FloatFlag @@ -382,15 +382,13 @@ 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; @@ -413,7 +411,7 @@ addRecFloats :: SimplEnv -> SimplEnv -> SimplEnv -- This is all very specific to the way recursive bindings are -- handled; see Simplify.simplRecBind addRecFloats env1 env2@(SimplEnv {seFloats = Floats bs ff}) - = ASSERT2( case ff of { FltLifted -> True; other -> False }, ppr (fromOL bs) ) + = ASSERT2( case ff of { FltLifted -> True; _ -> False }, ppr (fromOL bs) ) env2 {seFloats = seFloats env1 `addFlts` unitFloat (Rec (flattenBinds (fromOL bs)))} wrapFloats :: SimplEnv -> OutExpr -> OutExpr @@ -448,32 +446,37 @@ floatBinds (Floats bs _) = fromOL bs \begin{code} -substId :: SimplEnv -> Id -> SimplSR +substId :: SimplEnv -> InId -> SimplSR +-- Returns DoneEx only on a non-Var expression substId (SimplEnv { seInScope = in_scope, seIdSubst = ids }) v | not (isLocalId v) = DoneId v | otherwise -- A local Id = case lookupVarEnv ids v of - Just (DoneId v) -> DoneId (refine in_scope v) - Just res -> res - Nothing -> DoneId (refine in_scope v) + Nothing -> DoneId (refine in_scope v) + Just (DoneId v) -> DoneId (refine in_scope v) + Just (DoneEx (Var v)) + | isLocalId v -> DoneId (refine in_scope v) + | otherwise -> DoneId v + Just res -> res -- DoneEx non-var, or ContEx where -- Get the most up-to-date thing from the in-scope set -- Even though it isn't in the substitution, it may be in -- the in-scope set with better IdInfo +refine :: InScopeSet -> Var -> Var refine in_scope v = case lookupInScope in_scope v of Just v' -> v' Nothing -> WARN( True, ppr v ) v -- This is an error! -lookupRecBndr :: SimplEnv -> Id -> Id +lookupRecBndr :: SimplEnv -> InId -> OutId -- Look up an Id which has been put into the envt by simplRecBndrs, -- but where we have not yet done its RHS lookupRecBndr (SimplEnv { seInScope = in_scope, seIdSubst = ids }) v = case lookupVarEnv ids v of Just (DoneId v) -> v - Just res -> pprPanic "lookupRecBndr" (ppr v) - Nothing -> refine in_scope v + Just _ -> pprPanic "lookupRecBndr" (ppr v) + Nothing -> refine in_scope v \end{code} @@ -489,8 +492,8 @@ 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) @@ -508,54 +511,69 @@ 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 --------------- -substIdBndr :: SimplEnv -> Id -- Substitition and Id to transform - -> (SimplEnv, Id) -- Transformed pair +--------------- +simplNonRecBndr :: SimplEnv -> InBndr -> SimplM (SimplEnv, OutBndr) +-- A non-recursive let binder +simplNonRecBndr env id + = do { let (env1, id1) = substIdBndr env id + ; seqId id1 `seq` return (env1, id1) } + +--------------- +simplRecBndrs :: SimplEnv -> [InBndr] -> SimplM SimplEnv +-- Recursive let binders +simplRecBndrs env@(SimplEnv {}) ids + = do { let (env1, ids1) = mapAccumL substIdBndr env ids + ; seqIds ids1 `seq` return env1 } --- Returns with: --- * Unique changed if necessary +--------------- +substIdBndr :: SimplEnv + -> InBndr -- Env and binder to transform + -> (SimplEnv, OutBndr) +-- Clone Id if necessary, substitute its type +-- Return an Id with its -- * Type substituted --- * Unfolding zapped --- * Rules, worker, lbvar info all substituted --- * Fragile occurrence info zapped --- * The in-scope set extended with the returned Id --- * The substitution extended with a DoneId if unique changed --- In this case, the var in the DoneId is the same as the --- var returned +-- * UnfoldingInfo, Rules, WorkerInfo zapped +-- * Fragile OccInfo (only) zapped: Note [Robust OccInfo] +-- * Robust info, retained especially arity and demand info, +-- so that they are available to occurrences that occur in an +-- earlier binding of a letrec +-- +-- For the robust info, see Note [Arity robustness] +-- +-- Augment the substitution if the unique changed +-- Extend the in-scope set with the new Id -- --- Exactly like CoreSubst.substIdBndr, except that the type of id_subst differs +-- Similar to CoreSubst.substIdBndr, except that +-- the type of id_subst differs +-- all fragile info is zapped -substIdBndr env@(SimplEnv { seInScope = in_scope, seIdSubst = id_subst}) - old_id - = (env { seInScope = in_scope `extendInScopeSet` new_id, +substIdBndr env@(SimplEnv { seInScope = in_scope, seIdSubst = id_subst }) + old_id + = (env { seInScope = in_scope `extendInScopeSet` new_id, seIdSubst = new_subst }, new_id) where - -- id1 is cloned if necessary - id1 = uniqAway in_scope old_id - - -- id2 has its type zapped - id2 = substIdType env id1 - - -- new_id has the final IdInfo - subst = mkCoreSubst env - new_id = maybeModifyIdInfo (substIdInfo subst (idInfo old_id)) id2 + id1 = uniqAway in_scope old_id + id2 = substIdType env id1 + new_id = zapFragileIdInfo id2 -- Zaps rules, worker-info, unfolding + -- and fragile OccInfo - -- Extend the substitution if the unique has changed + -- Extend the substitution if the unique has changed, + -- or there's some useful occurrence information -- See the notes with substTyVarBndr for the delSubstEnv - -- Also see Note [Extending the Subst] in CoreSubst new_subst | new_id /= old_id = extendVarEnv id_subst old_id (DoneId new_id) | otherwise @@ -577,81 +595,12 @@ seqIds [] = () seqIds (id:ids) = seqId id `seq` seqIds ids \end{code} -%************************************************************************ -%* * - Let bindings -%* * -%************************************************************************ -Simplifying let binders +Note [Arity robustness] ~~~~~~~~~~~~~~~~~~~~~~~ -Rename the binders if necessary, - -\begin{code} -simplNonRecBndr :: SimplEnv -> InBndr -> SimplM (SimplEnv, OutBndr) -simplNonRecBndr env id - = do { let (env1, id1) = substLetIdBndr env id - ; seqId id1 `seq` return (env1, id1) } - ---------------- -simplRecBndrs :: SimplEnv -> [InBndr] -> SimplM SimplEnv -simplRecBndrs env@(SimplEnv { seInScope = in_scope, seIdSubst = id_subst }) ids - = do { let (env1, ids1) = mapAccumL substLetIdBndr env ids - ; seqIds ids1 `seq` return env1 } - ---------------- -substLetIdBndr :: SimplEnv -> InBndr -- Env and binder to transform - -> (SimplEnv, OutBndr) --- C.f. substIdBndr above --- Clone Id if necessary, substitute its type --- Return an Id with its fragile info zapped --- namely, any info that depends on free variables --- [addLetIdInfo, below, will restore its IdInfo] --- We want to retain robust info, especially arity and demand info, --- so that they are available to occurrences that occur in an --- earlier binding of a letrec --- Augment the subtitution --- if the unique changed, *or* --- if there's interesting occurrence info - -substLetIdBndr env@(SimplEnv { seInScope = in_scope, seIdSubst = id_subst }) old_id - = (env { seInScope = in_scope `extendInScopeSet` new_id, - seIdSubst = new_subst }, new_id) - where - id1 = uniqAway in_scope old_id - id2 = substIdType env id1 - - -- We want to get rid of any info that's dependent on free variables, - -- but keep other info (like the arity). - new_id = zapFragileIdInfo id2 - - -- Extend the substitution if the unique has changed, - -- or there's some useful occurrence information - -- See the notes with substTyVarBndr for the delSubstEnv - new_subst | new_id /= old_id - = extendVarEnv id_subst old_id (DoneId new_id) - | otherwise - = delVarEnv id_subst old_id -\end{code} - -Note [Add IdInfo back onto a let-bound Id] -~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -We must transfer the IdInfo of the original binder to the new binder. -This is crucial, to preserve - strictness - rules - worker info -etc. To do this we must apply the current substitution, -which incorporates earlier substitutions in this very letrec group. - -NB 1. We do this *before* processing the RHS of the binder, so that -its substituted rules are visible in its own RHS. -This is important. Manuel found cases where he really, really -wanted a RULE for a recursive function to apply in that function's -own right-hand side. - -NB 2: ARITY. We *do* transfer the arity. This is important, so that -the arity of an Id is visible in its own RHS. For example: +We *do* transfer the arity from from the in_id of a let binding to the +out_id. This is important, so that the arity of an Id is visible in +its own RHS. For example: f = \x. ....g (\y. f y).... We can eta-reduce the arg to g, becuase f is a value. But that needs to be visible. @@ -665,7 +614,7 @@ 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 @@ -675,65 +624,40 @@ I'm not worried about it. Another idea is to ensure that f's arity never decreases; its arity started as 1, and we should never eta-reduce below that. -NB 3: OccInfo. It's important that we *do* transer the loop-breaker -OccInfo, because that's what stops the Id getting inlined infinitely, -in the body of the letrec. -NB 4: does no harm for non-recursive bindings +Note [Robust OccInfo] +~~~~~~~~~~~~~~~~~~~~~ +It's important that we *do* retain the loop-breaker OccInfo, because +that's what stops the Id getting inlined infinitely, in the body of +the letrec. + + +Note [Rules in a letrec] +~~~~~~~~~~~~~~~~~~~~~~~~ +After creating fresh binders for the binders of a letrec, we +substitute the RULES and add them back onto the binders; this is done +*before* processing any of the RHSs. This is important. Manuel found +cases where he really, really wanted a RULE for a recursive function +to apply in that function's own right-hand side. + +See Note [Loop breaking and RULES] in OccAnal. -NB 5: we can't do the addLetIdInfo part before *all* the RHSs because - rec { f = g - h = ... - RULE h Int = f - } -Here, we'll do postInlineUnconditionally on f, and we must "see" that -when substituting in h's RULE. \begin{code} -addLetIdInfo :: SimplEnv -> InBndr -> OutBndr -> (SimplEnv, OutBndr) -addLetIdInfo env in_id out_id - = (modifyInScope env out_id final_id, final_id) +addBndrRules :: SimplEnv -> InBndr -> OutBndr -> (SimplEnv, OutBndr) +-- Rules are added back in to to hte bin +addBndrRules env in_id out_id + | isEmptySpecInfo old_rules = (env, out_id) + | otherwise = (modifyInScope env out_id final_id, final_id) where - final_id = out_id `setIdInfo` new_info - subst = mkCoreSubst env - old_info = idInfo in_id - new_info = case substIdInfo subst old_info of - Nothing -> old_info - Just new_info -> new_info - -substIdInfo :: CoreSubst.Subst -> IdInfo -> Maybe IdInfo --- Substitute the --- rules --- worker info --- Zap the unfolding --- Keep only 'robust' OccInfo --- arity --- --- Seq'ing on the returned IdInfo is enough to cause all the --- substitutions to happen completely - -substIdInfo subst info - | nothing_to_do = Nothing - | otherwise = Just (info `setOccInfo` (if keep_occ then old_occ else NoOccInfo) - `setSpecInfo` CoreSubst.substSpec subst old_rules - `setWorkerInfo` CoreSubst.substWorker subst old_wrkr - `setUnfoldingInfo` noUnfolding) - -- setSpecInfo does a seq - -- setWorkerInfo does a seq - where - nothing_to_do = keep_occ && - isEmptySpecInfo old_rules && - not (workerExists old_wrkr) && - not (hasUnfolding (unfoldingInfo info)) - - keep_occ = not (isFragileOcc old_occ) - old_occ = occInfo info - old_rules = specInfo info - old_wrkr = workerInfo info + subst = mkCoreSubst env + old_rules = idSpecialisation in_id + new_rules = CoreSubst.substSpec subst out_id old_rules + final_id = out_id `setIdSpecialisation` new_rules ------------------ substIdType :: SimplEnv -> Id -> Id -substIdType env@(SimplEnv { seInScope = in_scope, seTvSubst = tv_env}) id +substIdType (SimplEnv { seInScope = in_scope, seTvSubst = tv_env}) id | isEmptyVarEnv tv_env || isEmptyVarSet (tyVarsOfType old_ty) = id | otherwise = Id.setIdType id (Type.substTy (TvSubst in_scope tv_env) old_ty) -- The tyVarsOfType is cheaper than it looks @@ -743,10 +667,16 @@ substIdType env@(SimplEnv { seInScope = in_scope, seTvSubst = tv_env}) id old_ty = idType id ------------------ -substUnfolding env NoUnfolding = NoUnfolding -substUnfolding env (OtherCon cons) = OtherCon cons +substUnfolding :: SimplEnv -> Unfolding -> Unfolding +substUnfolding _ NoUnfolding = NoUnfolding +substUnfolding _ (OtherCon cons) = OtherCon cons substUnfolding env (CompulsoryUnfolding rhs) = CompulsoryUnfolding (substExpr env rhs) substUnfolding env (CoreUnfolding rhs t v w g) = CoreUnfolding (substExpr env rhs) t v w g + +------------------ +substWorker :: SimplEnv -> WorkerInfo -> WorkerInfo +substWorker _ NoWorker = NoWorker +substWorker env wkr_info = CoreSubst.substWorker (mkCoreSubst env) wkr_info \end{code}