module CoreSubst (
Subst(..),
TvSubstEnv, IdSubstEnv, InScopeSet,
deShadowBinds, substSpec, substRulesForImportedIds,
substTy, substCo, substExpr, substExprSC, substBind, substBindSC,
substUnfolding, substUnfoldingSC,
lookupIdSubst, lookupTvSubst, lookupCvSubst, substIdOcc,
substTickish, substVarSet,
emptySubst, mkEmptySubst, mkSubst, mkOpenSubst, substInScope, isEmptySubst,
extendIdSubst, extendIdSubstList, extendTvSubst, extendTvSubstList,
extendCvSubst, extendCvSubstList,
extendSubst, extendSubstList, extendSubstWithVar, zapSubstEnv,
addInScopeSet, extendInScope, extendInScopeList, extendInScopeIds,
isInScope, setInScope,
delBndr, delBndrs,
substBndr, substBndrs, substRecBndrs,
cloneBndr, cloneBndrs, cloneIdBndr, cloneIdBndrs, cloneRecIdBndrs,
simpleOptPgm, simpleOptExpr, simpleOptExprWith,
exprIsConApp_maybe, exprIsLiteral_maybe, exprIsLambda_maybe,
) where
#include "HsVersions.h"
import CoreSyn
import CoreFVs
import CoreUtils
import Literal ( Literal(MachStr) )
import qualified Data.ByteString as BS
import OccurAnal( occurAnalyseExpr, occurAnalysePgm )
import qualified Type
import qualified Coercion
import Type hiding ( substTy, extendTvSubst, extendTvSubstList
, isInScope, substTyVarBndr, cloneTyVarBndr )
import Coercion hiding ( substTy, substCo, extendTvSubst, substTyVarBndr, substCoVarBndr )
import TyCon ( tyConArity )
import DataCon
import PrelNames ( eqBoxDataConKey, coercibleDataConKey, unpackCStringIdKey
, unpackCStringUtf8IdKey )
import OptCoercion ( optCoercion )
import PprCore ( pprCoreBindings, pprRules )
import Module ( Module )
import VarSet
import VarEnv
import Id
import Name ( Name )
import Var
import IdInfo
import Unique
import UniqSupply
import Maybes
import ErrUtils
import DynFlags
import BasicTypes ( isAlwaysActive )
import Util
import Pair
import Outputable
import PprCore ()
import FastString
import Data.List
import TysWiredIn
data Subst
= Subst InScopeSet
IdSubstEnv
TvSubstEnv
CvSubstEnv
type IdSubstEnv = IdEnv CoreExpr
isEmptySubst :: Subst -> Bool
isEmptySubst (Subst _ id_env tv_env cv_env)
= isEmptyVarEnv id_env && isEmptyVarEnv tv_env && isEmptyVarEnv cv_env
emptySubst :: Subst
emptySubst = Subst emptyInScopeSet emptyVarEnv emptyVarEnv emptyVarEnv
mkEmptySubst :: InScopeSet -> Subst
mkEmptySubst in_scope = Subst in_scope emptyVarEnv emptyVarEnv emptyVarEnv
mkSubst :: InScopeSet -> TvSubstEnv -> CvSubstEnv -> IdSubstEnv -> Subst
mkSubst in_scope tvs cvs ids = Subst in_scope ids tvs cvs
substInScope :: Subst -> InScopeSet
substInScope (Subst in_scope _ _ _) = in_scope
zapSubstEnv :: Subst -> Subst
zapSubstEnv (Subst in_scope _ _ _) = Subst in_scope emptyVarEnv emptyVarEnv emptyVarEnv
extendIdSubst :: Subst -> Id -> CoreExpr -> Subst
extendIdSubst (Subst in_scope ids tvs cvs) v r = Subst in_scope (extendVarEnv ids v r) tvs cvs
extendIdSubstList :: Subst -> [(Id, CoreExpr)] -> Subst
extendIdSubstList (Subst in_scope ids tvs cvs) prs = Subst in_scope (extendVarEnvList ids prs) tvs cvs
extendTvSubst :: Subst -> TyVar -> Type -> Subst
extendTvSubst (Subst in_scope ids tvs cvs) v r = Subst in_scope ids (extendVarEnv tvs v r) cvs
extendTvSubstList :: Subst -> [(TyVar,Type)] -> Subst
extendTvSubstList (Subst in_scope ids tvs cvs) prs = Subst in_scope ids (extendVarEnvList tvs prs) cvs
extendCvSubst :: Subst -> CoVar -> Coercion -> Subst
extendCvSubst (Subst in_scope ids tvs cvs) v r = Subst in_scope ids tvs (extendVarEnv cvs v r)
extendCvSubstList :: Subst -> [(CoVar,Coercion)] -> Subst
extendCvSubstList (Subst in_scope ids tvs cvs) prs = Subst in_scope ids tvs (extendVarEnvList cvs prs)
extendSubst :: Subst -> Var -> CoreArg -> Subst
extendSubst subst var arg
= case arg of
Type ty -> ASSERT( isTyVar var ) extendTvSubst subst var ty
Coercion co -> ASSERT( isCoVar var ) extendCvSubst subst var co
_ -> ASSERT( isId var ) extendIdSubst subst var arg
extendSubstWithVar :: Subst -> Var -> Var -> Subst
extendSubstWithVar subst v1 v2
| isTyVar v1 = ASSERT( isTyVar v2 ) extendTvSubst subst v1 (mkTyVarTy v2)
| isCoVar v1 = ASSERT( isCoVar v2 ) extendCvSubst subst v1 (mkCoVarCo v2)
| otherwise = ASSERT( isId v2 ) extendIdSubst subst v1 (Var v2)
extendSubstList :: Subst -> [(Var,CoreArg)] -> Subst
extendSubstList subst [] = subst
extendSubstList subst ((var,rhs):prs) = extendSubstList (extendSubst subst var rhs) prs
lookupIdSubst :: SDoc -> Subst -> Id -> CoreExpr
lookupIdSubst doc (Subst in_scope ids _ _) v
| not (isLocalId v) = Var v
| Just e <- lookupVarEnv ids v = e
| Just v' <- lookupInScope in_scope v = Var v'
| otherwise = WARN( True, ptext (sLit "CoreSubst.lookupIdSubst") <+> doc <+> ppr v
$$ ppr in_scope)
Var v
lookupTvSubst :: Subst -> TyVar -> Type
lookupTvSubst (Subst _ _ tvs _) v = ASSERT( isTyVar v) lookupVarEnv tvs v `orElse` Type.mkTyVarTy v
lookupCvSubst :: Subst -> CoVar -> Coercion
lookupCvSubst (Subst _ _ _ cvs) v = ASSERT( isCoVar v ) lookupVarEnv cvs v `orElse` mkCoVarCo v
delBndr :: Subst -> Var -> Subst
delBndr (Subst in_scope ids tvs cvs) v
| isCoVar v = Subst in_scope ids tvs (delVarEnv cvs v)
| isTyVar v = Subst in_scope ids (delVarEnv tvs v) cvs
| otherwise = Subst in_scope (delVarEnv ids v) tvs cvs
delBndrs :: Subst -> [Var] -> Subst
delBndrs (Subst in_scope ids tvs cvs) vs
= Subst in_scope (delVarEnvList ids vs) (delVarEnvList tvs vs) (delVarEnvList cvs vs)
mkOpenSubst :: InScopeSet -> [(Var,CoreArg)] -> Subst
mkOpenSubst in_scope pairs = Subst in_scope
(mkVarEnv [(id,e) | (id, e) <- pairs, isId id])
(mkVarEnv [(tv,ty) | (tv, Type ty) <- pairs])
(mkVarEnv [(v,co) | (v, Coercion co) <- pairs])
isInScope :: Var -> Subst -> Bool
isInScope v (Subst in_scope _ _ _) = v `elemInScopeSet` in_scope
addInScopeSet :: Subst -> VarSet -> Subst
addInScopeSet (Subst in_scope ids tvs cvs) vs
= Subst (in_scope `extendInScopeSetSet` vs) ids tvs cvs
extendInScope :: Subst -> Var -> Subst
extendInScope (Subst in_scope ids tvs cvs) v
= Subst (in_scope `extendInScopeSet` v)
(ids `delVarEnv` v) (tvs `delVarEnv` v) (cvs `delVarEnv` v)
extendInScopeList :: Subst -> [Var] -> Subst
extendInScopeList (Subst in_scope ids tvs cvs) vs
= Subst (in_scope `extendInScopeSetList` vs)
(ids `delVarEnvList` vs) (tvs `delVarEnvList` vs) (cvs `delVarEnvList` vs)
extendInScopeIds :: Subst -> [Id] -> Subst
extendInScopeIds (Subst in_scope ids tvs cvs) vs
= Subst (in_scope `extendInScopeSetList` vs)
(ids `delVarEnvList` vs) tvs cvs
setInScope :: Subst -> InScopeSet -> Subst
setInScope (Subst _ ids tvs cvs) in_scope = Subst in_scope ids tvs cvs
instance Outputable Subst where
ppr (Subst in_scope ids tvs cvs)
= ptext (sLit "<InScope =") <+> braces (fsep (map ppr (varEnvElts (getInScopeVars in_scope))))
$$ ptext (sLit " IdSubst =") <+> ppr ids
$$ ptext (sLit " TvSubst =") <+> ppr tvs
$$ ptext (sLit " CvSubst =") <+> ppr cvs
<> char '>'
substExprSC :: SDoc -> Subst -> CoreExpr -> CoreExpr
substExprSC _doc subst orig_expr
| isEmptySubst subst = orig_expr
| otherwise =
subst_expr subst orig_expr
substExpr :: SDoc -> Subst -> CoreExpr -> CoreExpr
substExpr _doc subst orig_expr = subst_expr subst orig_expr
subst_expr :: Subst -> CoreExpr -> CoreExpr
subst_expr subst expr
= go expr
where
go (Var v) = lookupIdSubst (text "subst_expr") subst v
go (Type ty) = Type (substTy subst ty)
go (Coercion co) = Coercion (substCo subst co)
go (Lit lit) = Lit lit
go (App fun arg) = App (go fun) (go arg)
go (Tick tickish e) = mkTick (substTickish subst tickish) (go e)
go (Cast e co) = Cast (go e) (substCo subst co)
go (Lam bndr body) = Lam bndr' (subst_expr subst' body)
where
(subst', bndr') = substBndr subst bndr
go (Let bind body) = Let bind' (subst_expr subst' body)
where
(subst', bind') = substBind subst bind
go (Case scrut bndr ty alts) = Case (go scrut) bndr' (substTy subst ty) (map (go_alt subst') alts)
where
(subst', bndr') = substBndr subst bndr
go_alt subst (con, bndrs, rhs) = (con, bndrs', subst_expr subst' rhs)
where
(subst', bndrs') = substBndrs subst bndrs
substBind, substBindSC :: Subst -> CoreBind -> (Subst, CoreBind)
substBindSC subst bind
| not (isEmptySubst subst)
= substBind subst bind
| otherwise
= case bind of
NonRec bndr rhs -> (subst', NonRec bndr' rhs)
where
(subst', bndr') = substBndr subst bndr
Rec pairs -> (subst', Rec (bndrs' `zip` rhss'))
where
(bndrs, rhss) = unzip pairs
(subst', bndrs') = substRecBndrs subst bndrs
rhss' | isEmptySubst subst' = rhss
| otherwise = map (subst_expr subst') rhss
substBind subst (NonRec bndr rhs) = (subst', NonRec bndr' (subst_expr subst rhs))
where
(subst', bndr') = substBndr subst bndr
substBind subst (Rec pairs) = (subst', Rec (bndrs' `zip` rhss'))
where
(bndrs, rhss) = unzip pairs
(subst', bndrs') = substRecBndrs subst bndrs
rhss' = map (subst_expr subst') rhss
deShadowBinds :: CoreProgram -> CoreProgram
deShadowBinds binds = snd (mapAccumL substBind emptySubst binds)
substBndr :: Subst -> Var -> (Subst, Var)
substBndr subst bndr
| isTyVar bndr = substTyVarBndr subst bndr
| isCoVar bndr = substCoVarBndr subst bndr
| otherwise = substIdBndr (text "var-bndr") subst subst bndr
substBndrs :: Subst -> [Var] -> (Subst, [Var])
substBndrs subst bndrs = mapAccumL substBndr subst bndrs
substRecBndrs :: Subst -> [Id] -> (Subst, [Id])
substRecBndrs subst bndrs
= (new_subst, new_bndrs)
where
(new_subst, new_bndrs) = mapAccumL (substIdBndr (text "rec-bndr") new_subst) subst bndrs
substIdBndr :: SDoc
-> Subst
-> Subst -> Id
-> (Subst, Id)
substIdBndr _doc rec_subst subst@(Subst in_scope env tvs cvs) old_id
=
(Subst (in_scope `extendInScopeSet` new_id) new_env tvs cvs, new_id)
where
id1 = uniqAway in_scope old_id
id2 | no_type_change = id1
| otherwise = setIdType id1 (substTy subst old_ty)
old_ty = idType old_id
no_type_change = isEmptyVarEnv tvs ||
isEmptyVarSet (Type.tyVarsOfType old_ty)
new_id = maybeModifyIdInfo mb_new_info id2
mb_new_info = substIdInfo rec_subst id2 (idInfo id2)
new_env | no_change = delVarEnv env old_id
| otherwise = extendVarEnv env old_id (Var new_id)
no_change = id1 == old_id
cloneIdBndr :: Subst -> UniqSupply -> Id -> (Subst, Id)
cloneIdBndr subst us old_id
= clone_id subst subst (old_id, uniqFromSupply us)
cloneIdBndrs :: Subst -> UniqSupply -> [Id] -> (Subst, [Id])
cloneIdBndrs subst us ids
= mapAccumL (clone_id subst) subst (ids `zip` uniqsFromSupply us)
cloneBndrs :: Subst -> UniqSupply -> [Var] -> (Subst, [Var])
cloneBndrs subst us vs
= mapAccumL (\subst (v, u) -> cloneBndr subst u v) subst (vs `zip` uniqsFromSupply us)
cloneBndr :: Subst -> Unique -> Var -> (Subst, Var)
cloneBndr subst uniq v
| isTyVar v = cloneTyVarBndr subst v uniq
| otherwise = clone_id subst subst (v,uniq)
cloneRecIdBndrs :: Subst -> UniqSupply -> [Id] -> (Subst, [Id])
cloneRecIdBndrs subst us ids
= (subst', ids')
where
(subst', ids') = mapAccumL (clone_id subst') subst
(ids `zip` uniqsFromSupply us)
clone_id :: Subst
-> Subst -> (Id, Unique)
-> (Subst, Id)
clone_id rec_subst subst@(Subst in_scope idvs tvs cvs) (old_id, uniq)
= (Subst (in_scope `extendInScopeSet` new_id) new_idvs tvs new_cvs, new_id)
where
id1 = setVarUnique old_id uniq
id2 = substIdType subst id1
new_id = maybeModifyIdInfo (substIdInfo rec_subst id2 (idInfo old_id)) id2
(new_idvs, new_cvs) | isCoVar old_id = (idvs, extendVarEnv cvs old_id (mkCoVarCo new_id))
| otherwise = (extendVarEnv idvs old_id (Var new_id), cvs)
substTyVarBndr :: Subst -> TyVar -> (Subst, TyVar)
substTyVarBndr (Subst in_scope id_env tv_env cv_env) tv
= case Type.substTyVarBndr (TvSubst in_scope tv_env) tv of
(TvSubst in_scope' tv_env', tv')
-> (Subst in_scope' id_env tv_env' cv_env, tv')
cloneTyVarBndr :: Subst -> TyVar -> Unique -> (Subst, TyVar)
cloneTyVarBndr (Subst in_scope id_env tv_env cv_env) tv uniq
= case Type.cloneTyVarBndr (TvSubst in_scope tv_env) tv uniq of
(TvSubst in_scope' tv_env', tv')
-> (Subst in_scope' id_env tv_env' cv_env, tv')
substCoVarBndr :: Subst -> TyVar -> (Subst, TyVar)
substCoVarBndr (Subst in_scope id_env tv_env cv_env) cv
= case Coercion.substCoVarBndr (CvSubst in_scope tv_env cv_env) cv of
(CvSubst in_scope' tv_env' cv_env', cv')
-> (Subst in_scope' id_env tv_env' cv_env', cv')
substTy :: Subst -> Type -> Type
substTy subst ty = Type.substTy (getTvSubst subst) ty
getTvSubst :: Subst -> TvSubst
getTvSubst (Subst in_scope _ tenv _) = TvSubst in_scope tenv
getCvSubst :: Subst -> CvSubst
getCvSubst (Subst in_scope _ tenv cenv) = CvSubst in_scope tenv cenv
substCo :: Subst -> Coercion -> Coercion
substCo subst co = Coercion.substCo (getCvSubst subst) co
substIdType :: Subst -> Id -> Id
substIdType subst@(Subst _ _ tv_env cv_env) id
| (isEmptyVarEnv tv_env && isEmptyVarEnv cv_env) || isEmptyVarSet (Type.tyVarsOfType old_ty) = id
| otherwise = setIdType id (substTy subst old_ty)
where
old_ty = idType id
substIdInfo :: Subst -> Id -> IdInfo -> Maybe IdInfo
substIdInfo subst new_id info
| nothing_to_do = Nothing
| otherwise = Just (info `setSpecInfo` substSpec subst new_id old_rules
`setUnfoldingInfo` substUnfolding subst old_unf)
where
old_rules = specInfo info
old_unf = unfoldingInfo info
nothing_to_do = isEmptySpecInfo old_rules && isClosedUnfolding old_unf
substUnfolding, substUnfoldingSC :: Subst -> Unfolding -> Unfolding
substUnfoldingSC subst unf
| isEmptySubst subst = unf
| otherwise = substUnfolding subst unf
substUnfolding subst df@(DFunUnfolding { df_bndrs = bndrs, df_args = args })
= df { df_bndrs = bndrs', df_args = args' }
where
(subst',bndrs') = substBndrs subst bndrs
args' = map (substExpr (text "subst-unf:dfun") subst') args
substUnfolding subst unf@(CoreUnfolding { uf_tmpl = tmpl, uf_src = src })
| not (isStableSource src)
= NoUnfolding
| otherwise
= seqExpr new_tmpl `seq`
unf { uf_tmpl = new_tmpl }
where
new_tmpl = substExpr (text "subst-unf") subst tmpl
substUnfolding _ unf = unf
substIdOcc :: Subst -> Id -> Id
substIdOcc subst v = case lookupIdSubst (text "substIdOcc") subst v of
Var v' -> v'
other -> pprPanic "substIdOcc" (vcat [ppr v <+> ppr other, ppr subst])
substSpec :: Subst -> Id -> SpecInfo -> SpecInfo
substSpec subst new_id (SpecInfo rules rhs_fvs)
= seqSpecInfo new_spec `seq` new_spec
where
subst_ru_fn = const (idName new_id)
new_spec = SpecInfo (map (substRule subst subst_ru_fn) rules)
(substVarSet subst rhs_fvs)
substRulesForImportedIds :: Subst -> [CoreRule] -> [CoreRule]
substRulesForImportedIds subst rules
= map (substRule subst not_needed) rules
where
not_needed name = pprPanic "substRulesForImportedIds" (ppr name)
substRule :: Subst -> (Name -> Name) -> CoreRule -> CoreRule
substRule _ _ rule@(BuiltinRule {}) = rule
substRule subst subst_ru_fn rule@(Rule { ru_bndrs = bndrs, ru_args = args
, ru_fn = fn_name, ru_rhs = rhs
, ru_local = is_local })
= rule { ru_bndrs = bndrs',
ru_fn = if is_local
then subst_ru_fn fn_name
else fn_name,
ru_args = map (substExpr (text "subst-rule" <+> ppr fn_name) subst') args,
ru_rhs = simpleOptExprWith subst' rhs }
where
(subst', bndrs') = substBndrs subst bndrs
substVects :: Subst -> [CoreVect] -> [CoreVect]
substVects subst = map (substVect subst)
substVect :: Subst -> CoreVect -> CoreVect
substVect subst (Vect v rhs) = Vect v (simpleOptExprWith subst rhs)
substVect _subst vd@(NoVect _) = vd
substVect _subst vd@(VectType _ _ _) = vd
substVect _subst vd@(VectClass _) = vd
substVect _subst vd@(VectInst _) = vd
substVarSet :: Subst -> VarSet -> VarSet
substVarSet subst fvs
= foldVarSet (unionVarSet . subst_fv subst) emptyVarSet fvs
where
subst_fv subst fv
| isId fv = exprFreeVars (lookupIdSubst (text "substVarSet") subst fv)
| otherwise = Type.tyVarsOfType (lookupTvSubst subst fv)
substTickish :: Subst -> Tickish Id -> Tickish Id
substTickish subst (Breakpoint n ids) = Breakpoint n (map do_one ids)
where do_one = getIdFromTrivialExpr . lookupIdSubst (text "subst_tickish") subst
substTickish _subst other = other
simpleOptExpr :: CoreExpr -> CoreExpr
simpleOptExpr expr
=
simpleOptExprWith init_subst expr
where
init_subst = mkEmptySubst (mkInScopeSet (exprFreeVars expr))
simpleOptExprWith :: Subst -> InExpr -> OutExpr
simpleOptExprWith subst expr = simple_opt_expr subst (occurAnalyseExpr expr)
simpleOptPgm :: DynFlags -> Module
-> CoreProgram -> [CoreRule] -> [CoreVect]
-> IO (CoreProgram, [CoreRule], [CoreVect])
simpleOptPgm dflags this_mod binds rules vects
= do { dumpIfSet_dyn dflags Opt_D_dump_occur_anal "Occurrence analysis"
(pprCoreBindings occ_anald_binds $$ pprRules rules );
; return (reverse binds', substRulesForImportedIds subst' rules, substVects subst' vects) }
where
occ_anald_binds = occurAnalysePgm this_mod (\_ -> False)
rules vects emptyVarEnv binds
(subst', binds') = foldl do_one (emptySubst, []) occ_anald_binds
do_one (subst, binds') bind
= case simple_opt_bind subst bind of
(subst', Nothing) -> (subst', binds')
(subst', Just bind') -> (subst', bind':binds')
type InVar = Var
type OutVar = Var
type InId = Id
type OutId = Id
type InExpr = CoreExpr
type OutExpr = CoreExpr
simple_opt_expr :: Subst -> InExpr -> OutExpr
simple_opt_expr subst expr
= go expr
where
in_scope_env = (substInScope subst, simpleUnfoldingFun)
go (Var v) = lookupIdSubst (text "simpleOptExpr") subst v
go (App e1 e2) = simple_app subst e1 [go e2]
go (Type ty) = Type (substTy subst ty)
go (Coercion co) = Coercion (optCoercion (getCvSubst subst) co)
go (Lit lit) = Lit lit
go (Tick tickish e) = mkTick (substTickish subst tickish) (go e)
go (Cast e co) | isReflCo co' = go e
| otherwise = Cast (go e) co'
where
co' = optCoercion (getCvSubst subst) co
go (Let bind body) = case simple_opt_bind subst bind of
(subst', Nothing) -> simple_opt_expr subst' body
(subst', Just bind) -> Let bind (simple_opt_expr subst' body)
go lam@(Lam {}) = go_lam [] subst lam
go (Case e b ty as)
| isDeadBinder b
, Just (con, _tys, es) <- exprIsConApp_maybe in_scope_env e'
, Just (altcon, bs, rhs) <- findAlt (DataAlt con) as
= case altcon of
DEFAULT -> go rhs
_ -> mkLets (catMaybes mb_binds) $ simple_opt_expr subst' rhs
where (subst', mb_binds) = mapAccumL simple_opt_out_bind subst
(zipEqual "simpleOptExpr" bs es)
| otherwise
= Case e' b' (substTy subst ty)
(map (go_alt subst') as)
where
e' = go e
(subst', b') = subst_opt_bndr subst b
go_alt subst (con, bndrs, rhs)
= (con, bndrs', simple_opt_expr subst' rhs)
where
(subst', bndrs') = subst_opt_bndrs subst bndrs
go_lam bs' subst (Lam b e)
= go_lam (b':bs') subst' e
where
(subst', b') = subst_opt_bndr subst b
go_lam bs' subst e
| Just etad_e <- tryEtaReduce bs e' = etad_e
| otherwise = mkLams bs e'
where
bs = reverse bs'
e' = simple_opt_expr subst e
simple_app :: Subst -> InExpr -> [OutExpr] -> CoreExpr
simple_app subst (App e1 e2) as
= simple_app subst e1 (simple_opt_expr subst e2 : as)
simple_app subst (Lam b e) (a:as)
= case maybe_substitute subst b a of
Just ext_subst -> simple_app ext_subst e as
Nothing -> Let (NonRec b2 a) (simple_app subst' e as)
where
(subst', b') = subst_opt_bndr subst b
b2 = add_info subst' b b'
simple_app subst (Var v) as
| isCompulsoryUnfolding (idUnfolding v)
= simple_app subst (unfoldingTemplate (idUnfolding v)) as
simple_app subst (Tick t e) as
| t `tickishScopesLike` SoftScope
= mkTick t $ simple_app subst e as
simple_app subst e as
= foldl App (simple_opt_expr subst e) as
simple_opt_bind,simple_opt_bind' :: Subst -> CoreBind -> (Subst, Maybe CoreBind)
simple_opt_bind s b
= simple_opt_bind' s b
simple_opt_bind' subst (Rec prs)
= (subst'', res_bind)
where
res_bind = Just (Rec (reverse rev_prs'))
(subst', bndrs') = subst_opt_bndrs subst (map fst prs)
(subst'', rev_prs') = foldl do_pr (subst', []) (prs `zip` bndrs')
do_pr (subst, prs) ((b,r), b')
= case maybe_substitute subst b r2 of
Just subst' -> (subst', prs)
Nothing -> (subst, (b2,r2):prs)
where
b2 = add_info subst b b'
r2 = simple_opt_expr subst r
simple_opt_bind' subst (NonRec b r)
= simple_opt_out_bind subst (b, simple_opt_expr subst r)
simple_opt_out_bind :: Subst -> (InVar, OutExpr) -> (Subst, Maybe CoreBind)
simple_opt_out_bind subst (b, r')
| Just ext_subst <- maybe_substitute subst b r'
= (ext_subst, Nothing)
| otherwise
= (subst', Just (NonRec b2 r'))
where
(subst', b') = subst_opt_bndr subst b
b2 = add_info subst' b b'
maybe_substitute :: Subst -> InVar -> OutExpr -> Maybe Subst
maybe_substitute subst b r
| Type ty <- r
= ASSERT( isTyVar b )
Just (extendTvSubst subst b ty)
| Coercion co <- r
= ASSERT( isCoVar b )
Just (extendCvSubst subst b co)
| isId b
, not (isCoVar b)
, safe_to_inline (idOccInfo b)
, isAlwaysActive (idInlineActivation b)
, not (isStableUnfolding (idUnfolding b))
, not (isExportedId b)
, not (isUnLiftedType (idType b)) || exprOkForSpeculation r
= Just (extendIdSubst subst b r)
| otherwise
= Nothing
where
safe_to_inline :: OccInfo -> Bool
safe_to_inline (IAmALoopBreaker {}) = False
safe_to_inline IAmDead = True
safe_to_inline (OneOcc in_lam one_br _) = (not in_lam && one_br) || trivial
safe_to_inline NoOccInfo = trivial
trivial | exprIsTrivial r = True
| (Var fun, args) <- collectArgs r
, Just dc <- isDataConWorkId_maybe fun
, dc `hasKey` eqBoxDataConKey || dc `hasKey` coercibleDataConKey
, all exprIsTrivial args = True
| otherwise = False
subst_opt_bndr :: Subst -> InVar -> (Subst, OutVar)
subst_opt_bndr subst bndr
| isTyVar bndr = substTyVarBndr subst bndr
| isCoVar bndr = substCoVarBndr subst bndr
| otherwise = subst_opt_id_bndr subst bndr
subst_opt_id_bndr :: Subst -> InId -> (Subst, OutId)
subst_opt_id_bndr subst@(Subst in_scope id_subst tv_subst cv_subst) old_id
= (Subst new_in_scope new_id_subst tv_subst cv_subst, new_id)
where
id1 = uniqAway in_scope old_id
id2 = setIdType id1 (substTy subst (idType old_id))
new_id = zapFragileIdInfo id2
new_in_scope = in_scope `extendInScopeSet` new_id
new_id_subst | new_id /= old_id
= extendVarEnv id_subst old_id (Var new_id)
| otherwise
= delVarEnv id_subst old_id
subst_opt_bndrs :: Subst -> [InVar] -> (Subst, [OutVar])
subst_opt_bndrs subst bndrs
= mapAccumL subst_opt_bndr subst bndrs
add_info :: Subst -> InVar -> OutVar -> OutVar
add_info subst old_bndr new_bndr
| isTyVar old_bndr = new_bndr
| otherwise = maybeModifyIdInfo mb_new_info new_bndr
where mb_new_info = substIdInfo subst new_bndr (idInfo old_bndr)
simpleUnfoldingFun :: IdUnfoldingFun
simpleUnfoldingFun id
| isAlwaysActive (idInlineActivation id) = idUnfolding id
| otherwise = noUnfolding
data ConCont = CC [CoreExpr] Coercion
exprIsConApp_maybe :: InScopeEnv -> CoreExpr -> Maybe (DataCon, [Type], [CoreExpr])
exprIsConApp_maybe (in_scope, id_unf) expr
= go (Left in_scope) expr (CC [] (mkReflCo Representational (exprType expr)))
where
go :: Either InScopeSet Subst
-> CoreExpr -> ConCont
-> Maybe (DataCon, [Type], [CoreExpr])
go subst (Tick t expr) cont
| not (tickishIsCode t) = go subst expr cont
go subst (Cast expr co1) (CC [] co2)
= go subst expr (CC [] (subst_co subst co1 `mkTransCo` co2))
go subst (App fun arg) (CC args co)
= go subst fun (CC (subst_arg subst arg : args) co)
go subst (Lam var body) (CC (arg:args) co)
| exprIsTrivial arg
= go (extend subst var arg) body (CC args co)
go (Right sub) (Var v) cont
= go (Left (substInScope sub))
(lookupIdSubst (text "exprIsConApp" <+> ppr expr) sub v)
cont
go (Left in_scope) (Var fun) cont@(CC args co)
| Just con <- isDataConWorkId_maybe fun
, count isValArg args == idArity fun
= dealWithCoercion co con args
| DFunUnfolding { df_bndrs = bndrs, df_con = con, df_args = dfun_args } <- unfolding
, bndrs `equalLength` args
, let subst = mkOpenSubst in_scope (bndrs `zip` args)
= dealWithCoercion co con (map (substExpr (text "exprIsConApp1") subst) dfun_args)
| idArity fun == 0
, Just rhs <- expandUnfolding_maybe unfolding
, let in_scope' = extendInScopeSetSet in_scope (exprFreeVars rhs)
= go (Left in_scope') rhs cont
| (fun `hasKey` unpackCStringIdKey)
|| (fun `hasKey` unpackCStringUtf8IdKey)
, [Lit (MachStr str)] <- args
= dealWithStringLiteral fun str co
where
unfolding = id_unf fun
go _ _ _ = Nothing
subst_co (Left {}) co = co
subst_co (Right s) co = CoreSubst.substCo s co
subst_arg (Left {}) e = e
subst_arg (Right s) e = substExpr (text "exprIsConApp2") s e
extend (Left in_scope) v e = Right (extendSubst (mkEmptySubst in_scope) v e)
extend (Right s) v e = Right (extendSubst s v e)
dealWithStringLiteral :: Var -> BS.ByteString -> Coercion
-> Maybe (DataCon, [Type], [CoreExpr])
dealWithStringLiteral _ str co
| BS.null str
= dealWithCoercion co nilDataCon [Type charTy]
dealWithStringLiteral fun str co
= let strFS = mkFastStringByteString str
char = mkConApp charDataCon [mkCharLit (headFS strFS)]
charTail = fastStringToByteString (tailFS strFS)
rest = if BS.null charTail
then mkConApp nilDataCon [Type charTy]
else App (Var fun)
(Lit (MachStr charTail))
in dealWithCoercion co consDataCon [Type charTy, char, rest]
dealWithCoercion :: Coercion -> DataCon -> [CoreExpr]
-> Maybe (DataCon, [Type], [CoreExpr])
dealWithCoercion co dc dc_args
| isReflCo co
, let (univ_ty_args, rest_args) = splitAtList (dataConUnivTyVars dc) dc_args
= Just (dc, stripTypeArgs univ_ty_args, rest_args)
| Pair _from_ty to_ty <- coercionKind co
, Just (to_tc, to_tc_arg_tys) <- splitTyConApp_maybe to_ty
, to_tc == dataConTyCon dc
=
let
tc_arity = tyConArity to_tc
dc_univ_tyvars = dataConUnivTyVars dc
dc_ex_tyvars = dataConExTyVars dc
arg_tys = dataConRepArgTys dc
non_univ_args = dropList dc_univ_tyvars dc_args
(ex_args, val_args) = splitAtList dc_ex_tyvars non_univ_args
gammas = decomposeCo tc_arity co
theta_subst = liftCoSubstWith Representational
(dc_univ_tyvars ++ dc_ex_tyvars)
(gammas ++ map (mkReflCo Nominal)
(stripTypeArgs ex_args))
new_val_args = zipWith cast_arg arg_tys val_args
cast_arg arg_ty arg = mkCast arg (theta_subst arg_ty)
dump_doc = vcat [ppr dc, ppr dc_univ_tyvars, ppr dc_ex_tyvars,
ppr arg_tys, ppr dc_args,
ppr ex_args, ppr val_args, ppr co, ppr _from_ty, ppr to_ty, ppr to_tc ]
in
ASSERT2( eqType _from_ty (mkTyConApp to_tc (stripTypeArgs $ takeList dc_univ_tyvars dc_args))
, dump_doc )
ASSERT2( all isTypeArg ex_args, dump_doc )
ASSERT2( equalLength val_args arg_tys, dump_doc )
Just (dc, to_tc_arg_tys, ex_args ++ new_val_args)
| otherwise
= Nothing
stripTypeArgs :: [CoreExpr] -> [Type]
stripTypeArgs args = ASSERT2( all isTypeArg args, ppr args )
[ty | Type ty <- args]
exprIsLiteral_maybe :: InScopeEnv -> CoreExpr -> Maybe Literal
exprIsLiteral_maybe env@(_, id_unf) e
= case e of
Lit l -> Just l
Tick _ e' -> exprIsLiteral_maybe env e'
Var v | Just rhs <- expandUnfolding_maybe (id_unf v)
-> exprIsLiteral_maybe env rhs
_ -> Nothing
exprIsLambda_maybe :: InScopeEnv -> CoreExpr
-> Maybe (Var, CoreExpr,[Tickish Id])
exprIsLambda_maybe _ (Lam x e)
= Just (x, e, [])
exprIsLambda_maybe (in_scope_set, id_unf) (Tick t e)
| tickishFloatable t
, Just (x, e, ts) <- exprIsLambda_maybe (in_scope_set, id_unf) e
= Just (x, e, t:ts)
exprIsLambda_maybe (in_scope_set, id_unf) (Cast casted_e co)
| Just (x, e,ts) <- exprIsLambda_maybe (in_scope_set, id_unf) casted_e
, not (isTyVar x) && not (isCoVar x)
, ASSERT( not $ x `elemVarSet` tyCoVarsOfCo co) True
, Just (x',e') <- pushCoercionIntoLambda in_scope_set x e co
, let res = Just (x',e',ts)
=
res
exprIsLambda_maybe (in_scope_set, id_unf) e
| (Var f, as, ts) <- collectArgsTicks tickishFloatable e
, idArity f > length (filter isValArg as)
, Just rhs <- expandUnfolding_maybe (id_unf f)
, let e' = simpleOptExprWith (mkEmptySubst in_scope_set) (rhs `mkApps` as)
, Just (x', e'', ts') <- exprIsLambda_maybe (in_scope_set, id_unf) e'
, let res = Just (x', e'', ts++ts')
=
res
exprIsLambda_maybe _ _e
=
Nothing
pushCoercionIntoLambda
:: InScopeSet -> Var -> CoreExpr -> Coercion -> Maybe (Var, CoreExpr)
pushCoercionIntoLambda in_scope x e co
| ASSERT(not (isTyVar x) && not (isCoVar x)) True
, Pair s1s2 t1t2 <- coercionKind co
, Just (_s1,_s2) <- splitFunTy_maybe s1s2
, Just (t1,_t2) <- splitFunTy_maybe t1t2
= let [co1, co2] = decomposeCo 2 co
x' = x `setIdType` t1
in_scope' = in_scope `extendInScopeSet` x'
subst = extendIdSubst (mkEmptySubst in_scope')
x
(mkCast (Var x') co1)
in Just (x', subst_expr subst e `mkCast` co2)
| otherwise
= pprTrace "exprIsLambda_maybe: Unexpected lambda in case" (ppr (Lam x e))
Nothing