X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=compiler%2FhsSyn%2FHsBinds.lhs;h=0942703312e714cb7055aec07635402dfbc5e8a9;hb=00029a41e51fceb8aa4bfdf86170be036b35d497;hp=31c1cae459b8c952456a5f612fddfd4f8ffc7606;hpb=5a552652286f9a019d37ded2428fb6543b169310;p=ghc-hetmet.git diff --git a/compiler/hsSyn/HsBinds.lhs b/compiler/hsSyn/HsBinds.lhs index 31c1cae..0942703 100644 --- a/compiler/hsSyn/HsBinds.lhs +++ b/compiler/hsSyn/HsBinds.lhs @@ -1,4 +1,5 @@ % +% (c) The University of Glasgow 2006 % (c) The GRASP/AQUA Project, Glasgow University, 1992-1998 % \section[HsBinds]{Abstract syntax: top-level bindings and signatures} @@ -15,16 +16,18 @@ import {-# SOURCE #-} HsExpr ( HsExpr, pprExpr, LHsExpr, GRHSs, pprPatBind ) import {-# SOURCE #-} HsPat ( LPat ) -import HsTypes ( LHsType, PostTcType ) -import Type ( Type ) -import Name ( Name ) -import NameSet ( NameSet, elemNameSet ) -import BasicTypes ( IPName, RecFlag(..), InlineSpec(..), Fixity ) +import HsTypes +import PprCore +import Coercion +import Type +import Name +import NameSet +import BasicTypes import Outputable -import SrcLoc ( Located(..), SrcSpan, unLoc ) -import Util ( sortLe ) -import Var ( TyVar, DictId, Id ) -import Bag ( Bag, emptyBag, isEmptyBag, bagToList, unionBags, unionManyBags ) +import SrcLoc +import Util +import Var +import Bag \end{code} %************************************************************************ @@ -74,7 +77,7 @@ data HsBind id fun_matches :: MatchGroup id, -- The payload - fun_co_fn :: ExprCoFn, -- Coercion from the type of the MatchGroup to the type of + fun_co_fn :: HsWrapper, -- Coercion from the type of the MatchGroup to the type of -- the Id. Example: -- f :: Int -> forall a. a -> a -- f x y = y @@ -82,15 +85,15 @@ data HsBind id -- (with a free type variable a'). The coercion will take -- a CoreExpr of this type and convert it to a CoreExpr of -- type Int -> forall a'. a' -> a' - -- Notice that the coercion captures the free a'. That's - -- why coercions are (CoreExpr -> CoreExpr), rather than - -- just CoreExpr (with a functional type) + -- Notice that the coercion captures the free a'. - bind_fvs :: NameSet -- After the renamer, this contains a superset of the + bind_fvs :: NameSet, -- After the renamer, this contains a superset of the -- Names of the other binders in this binding group that -- are free in the RHS of the defn -- Before renaming, and after typechecking, -- the field is unused; it's just an error thunk + + fun_tick :: Maybe Int -- This is the (optional) module-local tick number. } | PatBind { -- The pattern is never a simple variable; @@ -237,7 +240,13 @@ ppr_monobind :: OutputableBndr id => HsBind id -> SDoc ppr_monobind (PatBind { pat_lhs = pat, pat_rhs = grhss }) = pprPatBind pat grhss ppr_monobind (VarBind { var_id = var, var_rhs = rhs }) = ppr var <+> equals <+> pprExpr (unLoc rhs) -ppr_monobind (FunBind { fun_id = fun, fun_matches = matches }) = pprFunBind (unLoc fun) matches +ppr_monobind (FunBind { fun_id = fun, + fun_matches = matches, + fun_tick = tick }) = + (case tick of + Nothing -> empty + Just t -> text "-- tick id = " <> ppr t + ) $$ pprFunBind (unLoc fun) matches -- ToDo: print infix if appropriate ppr_monobind (AbsBinds { abs_tvs = tyvars, abs_dicts = dictvars, @@ -296,27 +305,67 @@ instance (OutputableBndr id) => Outputable (IPBind id) where %************************************************************************ \begin{code} --- A Coercion is an expression with a hole in it +-- A HsWrapper is an expression with a hole in it -- We need coercions to have concrete form so that we can zonk them -data ExprCoFn - = CoHole -- The identity coercion - | CoCompose ExprCoFn ExprCoFn - | CoApps ExprCoFn [Id] -- Non-empty list - | CoTyApps ExprCoFn [Type] -- in all of these - | CoLams [Id] ExprCoFn -- so that the identity coercion - | CoTyLams [TyVar] ExprCoFn -- is just Hole - | CoLet (LHsBinds Id) ExprCoFn -- Would be nicer to be core bindings +data HsWrapper + = WpHole -- The identity coercion + + | WpCompose HsWrapper HsWrapper -- (\a1..an. []) `WpCompose` (\x1..xn. []) + -- = (\a1..an \x1..xn. []) + + | WpCo Coercion -- A cast: [] `cast` co + -- Guaranteedn not the identity coercion + + | WpApp Var -- [] x; the xi are dicts or coercions + | WpTyApp Type -- [] t + | WpLam Id -- \x. []; the xi are dicts or coercions + | WpTyLam TyVar -- \a. [] + + -- Non-empty bindings, so that the identity coercion + -- is always exactly WpHole + | WpLet (LHsBinds Id) -- let binds in [] + -- (would be nicer to be core bindings) + +instance Outputable HsWrapper where + ppr co_fn = pprHsWrapper (ptext SLIT("<>")) co_fn + +pprHsWrapper :: SDoc -> HsWrapper -> SDoc +pprHsWrapper it WpHole = it +pprHsWrapper it (WpCompose f1 f2) = pprHsWrapper (pprHsWrapper it f2) f1 +pprHsWrapper it (WpCo co) = it <+> ptext SLIT("`cast`") <+> pprParendType co +pprHsWrapper it (WpApp id) = it <+> ppr id +pprHsWrapper it (WpTyApp ty) = it <+> ptext SLIT("@") <+> pprParendType ty +pprHsWrapper it (WpLam id) = ptext SLIT("\\") <> pprBndr LambdaBind id <> dot <+> it +pprHsWrapper it (WpTyLam tv) = ptext SLIT("/\\") <> pprBndr LambdaBind tv <> dot <+> it +pprHsWrapper it (WpLet binds) = sep [ptext SLIT("let") <+> braces (ppr binds), it] + +(<.>) :: HsWrapper -> HsWrapper -> HsWrapper +WpHole <.> c = c +c <.> WpHole = c +c1 <.> c2 = c1 `WpCompose` c2 + +mkWpTyApps :: [Type] -> HsWrapper +mkWpTyApps tys = mk_co_fn WpTyApp (reverse tys) + +mkWpApps :: [Id] -> HsWrapper +mkWpApps ids = mk_co_fn WpApp (reverse ids) + +mkWpTyLams :: [TyVar] -> HsWrapper +mkWpTyLams ids = mk_co_fn WpTyLam ids -(<.>) :: ExprCoFn -> ExprCoFn -> ExprCoFn -(<.>) = CoCompose +mkWpLams :: [Id] -> HsWrapper +mkWpLams ids = mk_co_fn WpLam ids -idCoercion :: ExprCoFn -idCoercion = CoHole +mk_co_fn :: (a -> HsWrapper) -> [a] -> HsWrapper +mk_co_fn f as = foldr (WpCompose . f) WpHole as -isIdCoercion :: ExprCoFn -> Bool -isIdCoercion CoHole = True -isIdCoercion other = False +idHsWrapper :: HsWrapper +idHsWrapper = WpHole + +isIdHsWrapper :: HsWrapper -> Bool +isIdHsWrapper WpHole = True +isIdHsWrapper other = False \end{code} @@ -334,21 +383,32 @@ serves for both. \begin{code} type LSig name = Located (Sig name) -data Sig name - = TypeSig (Located name) -- A bog-std type signature +data Sig name -- Signatures and pragmas + = -- An ordinary type signature + -- f :: Num a => a -> a + TypeSig (Located name) -- A bog-std type signature (LHsType name) - | SpecSig (Located name) -- Specialise a function or datatype ... - (LHsType name) -- ... to these types - InlineSpec + -- An ordinary fixity declaration + -- infixl *** 8 + | FixSig (FixitySig name) -- Fixity declaration + -- An inline pragma + -- {#- INLINE f #-} | InlineSig (Located name) -- Function name InlineSpec + -- A specialisation pragma + -- {-# SPECIALISE f :: Int -> Int #-} + | SpecSig (Located name) -- Specialise a function or datatype ... + (LHsType name) -- ... to these types + InlineSpec + + -- A specialisation pragma for instance declarations only + -- {-# SPECIALISE instance Eq [Int] #-} | SpecInstSig (LHsType name) -- (Class tys); should be a specialisation of the -- current instance decl - | FixSig (FixitySig name) -- Fixity declaration type LFixitySig name = Located (FixitySig name) data FixitySig name = FixitySig (Located name) Fixity @@ -399,13 +459,14 @@ sigForThisGroup ns sig Just n -> n `elemNameSet` ns sigName :: LSig name -> Maybe name -sigName (L _ sig) = f sig - where - f (TypeSig n _) = Just (unLoc n) - f (SpecSig n _ _) = Just (unLoc n) - f (InlineSig n _) = Just (unLoc n) - f (FixSig (FixitySig n _)) = Just (unLoc n) - f other = Nothing +sigName (L _ sig) = sigNameNoLoc sig + +sigNameNoLoc :: Sig name -> Maybe name +sigNameNoLoc (TypeSig n _) = Just (unLoc n) +sigNameNoLoc (SpecSig n _ _) = Just (unLoc n) +sigNameNoLoc (InlineSig n _) = Just (unLoc n) +sigNameNoLoc (FixSig (FixitySig n _)) = Just (unLoc n) +sigNameNoLoc other = Nothing isFixityLSig :: LSig name -> Bool isFixityLSig (L _ (FixSig {})) = True