X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2FcoreSyn%2FCoreSyn.lhs;h=e754c6dda5d7e936a6aa3e4a8c5feb812eee8a87;hp=0a8659ccce9a463d440833a903da412562347f7f;hb=8133a9f47b99f4e65ed30551de32ad72c6b61b27;hpb=a3bab0506498db41853543558c52a4fda0d183af diff --git a/compiler/coreSyn/CoreSyn.lhs b/compiler/coreSyn/CoreSyn.lhs index 0a8659c..e754c6d 100644 --- a/compiler/coreSyn/CoreSyn.lhs +++ b/compiler/coreSyn/CoreSyn.lhs @@ -15,7 +15,7 @@ module CoreSyn ( -- ** 'Expr' construction mkLets, mkLams, - mkApps, mkTyApps, mkVarApps, + mkApps, mkTyApps, mkCoApps, mkVarApps, mkIntLit, mkIntLitInt, mkWordLit, mkWordLitWord, @@ -23,18 +23,19 @@ module CoreSyn ( mkFloatLit, mkFloatLitFloat, mkDoubleLit, mkDoubleLitDouble, - mkConApp, mkTyBind, + mkConApp, mkTyBind, mkCoBind, varToCoreExpr, varsToCoreExprs, - isTyCoVar, isId, cmpAltCon, cmpAlt, ltAlt, + isId, cmpAltCon, cmpAlt, ltAlt, -- ** Simple 'Expr' access functions and predicates bindersOf, bindersOfBinds, rhssOfBind, rhssOfAlts, collectBinders, collectTyBinders, collectValBinders, collectTyAndValBinders, collectArgs, coreExprCc, flattenBinds, - isValArg, isTypeArg, valArgCount, valBndrCount, isRuntimeArg, isRuntimeVar, - notSccNote, + isValArg, isTypeArg, isTyCoArg, valArgCount, valBndrCount, + isRuntimeArg, isRuntimeVar, + notSccNote, -- * Unfolding data types Unfolding(..), UnfoldingGuidance(..), UnfoldingSource(..), @@ -72,7 +73,10 @@ module CoreSyn ( -- ** Operations on 'CoreRule's seqRules, ruleArity, ruleName, ruleIdName, ruleActivation, setRuleIdName, - isBuiltinRule, isLocalRule + isBuiltinRule, isLocalRule, + + -- * Core vectorisation declarations data type + CoreVect(..) ) where #include "HsVersions.h" @@ -92,7 +96,7 @@ import Util import Data.Data import Data.Word -infixl 4 `mkApps`, `mkTyApps`, `mkVarApps`, `App` +infixl 4 `mkApps`, `mkTyApps`, `mkVarApps`, `App`, `mkCoApps` -- Left associative, so that we can say (f `mkTyApps` xs `mkVarApps` ys) \end{code} @@ -236,6 +240,8 @@ data Expr b | Type Type -- ^ A type: this should only show up at the top -- level of an Arg + + | Coercion Coercion -- ^ A coercion deriving (Data, Typeable) -- | Type synonym for expressions that occur in function argument positions. @@ -402,6 +408,20 @@ setRuleIdName nm ru = ru { ru_fn = nm } %************************************************************************ +%* * +\subsection{Vectorisation declarations} +%* * +%************************************************************************ + +Representation of desugared vectorisation declarations that are fed to the vectoriser (via +'ModGuts'). + +\begin{code} +data CoreVect = Vect Id (Maybe CoreExpr) +\end{code} + + +%************************************************************************ %* * Unfoldings %* * @@ -498,7 +518,7 @@ data UnfoldingSource | InlineStable -- From an INLINE or INLINABLE pragma -- INLINE if guidance is UnfWhen - -- INLINABLE if guidance is UnfIfGoodArgs + -- INLINABLE if guidance is UnfIfGoodArgs/UnfoldNever -- (well, technically an INLINABLE might be made -- UnfWhen if it was small enough, and then -- it will behave like INLINE outside the current @@ -861,6 +881,8 @@ instance Outputable b => OutputableBndr (TaggedBndr b) where mkApps :: Expr b -> [Arg b] -> Expr b -- | Apply a list of type argument expressions to a function expression in a nested fashion mkTyApps :: Expr b -> [Type] -> Expr b +-- | Apply a list of coercion argument expressions to a function expression in a nested fashion +mkCoApps :: Expr b -> [Coercion] -> Expr b -- | Apply a list of type or value variables to a function expression in a nested fashion mkVarApps :: Expr b -> [Var] -> Expr b -- | Apply a list of argument expressions to a data constructor in a nested fashion. Prefer to @@ -869,6 +891,7 @@ mkConApp :: DataCon -> [Arg b] -> Expr b mkApps f args = foldl App f args mkTyApps f args = foldl (\ e a -> App e (Type a)) f args +mkCoApps f args = foldl (\ e a -> App e (Coercion a)) f args mkVarApps f vars = foldl (\ e a -> App e (varToCoreExpr a)) f vars mkConApp con args = mkApps (Var (dataConWorkId con)) args @@ -939,10 +962,16 @@ mkLets binds body = foldr Let body binds mkTyBind :: TyVar -> Type -> CoreBind mkTyBind tv ty = NonRec tv (Type ty) +-- | Create a binding group where a type variable is bound to a type. Per "CoreSyn#type_let", +-- this can only be used to bind something in a non-recursive @let@ expression +mkCoBind :: CoVar -> Coercion -> CoreBind +mkCoBind cv co = NonRec cv (Coercion co) + -- | Convert a binder into either a 'Var' or 'Type' 'Expr' appropriately varToCoreExpr :: CoreBndr -> Expr b -varToCoreExpr v | isId v = Var v - | otherwise = Type (mkTyVarTy v) +varToCoreExpr v | isTyVar v = Type (mkTyVarTy v) + | isCoVar v = Coercion (mkCoVarCo v) + | otherwise = ASSERT( isId v ) Var v varsToCoreExprs :: [CoreBndr] -> [Expr b] varsToCoreExprs vs = map varToCoreExpr vs @@ -1008,7 +1037,7 @@ collectTyAndValBinders expr collectTyBinders expr = go [] expr where - go tvs (Lam b e) | isTyCoVar b = go (b:tvs) e + go tvs (Lam b e) | isTyVar b = go (b:tvs) e go tvs e = (reverse tvs, e) collectValBinders expr @@ -1059,15 +1088,23 @@ isRuntimeVar = isId isRuntimeArg :: CoreExpr -> Bool isRuntimeArg = isValArg --- | Returns @False@ iff the expression is a 'Type' expression at its top level +-- | Returns @False@ iff the expression is a 'Type' or 'Coercion' +-- expression at its top level isValArg :: Expr b -> Bool -isValArg (Type _) = False -isValArg _ = True +isValArg e = not (isTypeArg e) + +-- | Returns @True@ iff the expression is a 'Type' or 'Coercion' +-- expression at its top level +isTyCoArg :: Expr b -> Bool +isTyCoArg (Type {}) = True +isTyCoArg (Coercion {}) = True +isTyCoArg _ = False --- | Returns @True@ iff the expression is a 'Type' expression at its top level +-- | Returns @True@ iff the expression is a 'Type' expression at its +-- top level. Note this does NOT include 'Coercion's. isTypeArg :: Expr b -> Bool -isTypeArg (Type _) = True -isTypeArg _ = False +isTypeArg (Type {}) = True +isTypeArg _ = False -- | The number of binders that bind values rather than types valBndrCount :: [CoreBndr] -> Int @@ -1097,9 +1134,10 @@ seqExpr (App f a) = seqExpr f `seq` seqExpr a seqExpr (Lam b e) = seqBndr b `seq` seqExpr e seqExpr (Let b e) = seqBind b `seq` seqExpr e seqExpr (Case e b t as) = seqExpr e `seq` seqBndr b `seq` seqType t `seq` seqAlts as -seqExpr (Cast e co) = seqExpr e `seq` seqType co +seqExpr (Cast e co) = seqExpr e `seq` seqCo co seqExpr (Note n e) = seqNote n `seq` seqExpr e -seqExpr (Type t) = seqType t +seqExpr (Type t) = seqType t +seqExpr (Coercion co) = seqCo co seqExprs :: [CoreExpr] -> () seqExprs [] = () @@ -1153,9 +1191,11 @@ data AnnExpr' bndr annot | AnnApp (AnnExpr bndr annot) (AnnExpr bndr annot) | AnnCase (AnnExpr bndr annot) bndr Type [AnnAlt bndr annot] | AnnLet (AnnBind bndr annot) (AnnExpr bndr annot) - | AnnCast (AnnExpr bndr annot) Coercion + | AnnCast (AnnExpr bndr annot) (annot, Coercion) + -- Put an annotation on the (root of) the coercion | AnnNote Note (AnnExpr bndr annot) | AnnType Type + | AnnCoercion Coercion -- | A clone of the 'Alt' type but allowing annotation at every tree node type AnnAlt bndr annot = (AltCon, [bndr], AnnExpr bndr annot) @@ -1182,12 +1222,13 @@ deAnnotate :: AnnExpr bndr annot -> Expr bndr deAnnotate (_, e) = deAnnotate' e deAnnotate' :: AnnExpr' bndr annot -> Expr bndr -deAnnotate' (AnnType t) = Type t +deAnnotate' (AnnType t) = Type t +deAnnotate' (AnnCoercion co) = Coercion co deAnnotate' (AnnVar v) = Var v deAnnotate' (AnnLit lit) = Lit lit deAnnotate' (AnnLam binder body) = Lam binder (deAnnotate body) deAnnotate' (AnnApp fun arg) = App (deAnnotate fun) (deAnnotate arg) -deAnnotate' (AnnCast e co) = Cast (deAnnotate e) co +deAnnotate' (AnnCast e (_,co)) = Cast (deAnnotate e) co deAnnotate' (AnnNote note body) = Note note (deAnnotate body) deAnnotate' (AnnLet bind body)