%
\section[HsBinds]{Abstract syntax: top-level bindings and signatures}
-Datatype for: @HsBinds@, @Bind@, @Sig@, @MonoBinds@.
+Datatype for: @BindGroup@, @Bind@, @Sig@, @Bind@.
\begin{code}
module HsBinds where
#include "HsVersions.h"
-import {-# SOURCE #-} HsExpr ( pprExpr, HsExpr )
-import {-# SOURCE #-} HsMatches ( pprMatches, Match, pprGRHSs, GRHSs )
+import {-# SOURCE #-} HsExpr ( HsExpr, pprExpr, LHsExpr,
+ MatchGroup, pprFunBind,
+ GRHSs, pprPatBind )
+import {-# SOURCE #-} HsPat ( LPat )
--- friends:
-import HsTypes ( HsType )
-import CoreSyn ( CoreExpr )
-import PprCore ( {- instance Outputable (Expr a) -} )
-
---others:
+import HsTypes ( LHsType, PostTcType )
import Name ( Name )
-import PrelNames ( isUnboundName )
-import NameSet ( NameSet, elemNameSet, nameSetToList )
-import BasicTypes ( RecFlag(..), Fixity )
+import NameSet ( NameSet, elemNameSet )
+import BasicTypes ( IPName, RecFlag(..), InlineSpec(..), Fixity )
import Outputable
-import SrcLoc ( SrcLoc )
-import Var ( TyVar )
-import Class ( DefMeth (..) )
+import SrcLoc ( Located(..), SrcSpan, unLoc )
+import Util ( sortLe )
+import Var ( TyVar, DictId, Id )
+import Bag ( Bag, emptyBag, isEmptyBag, bagToList, unionBags, unionManyBags )
\end{code}
%************************************************************************
%* *
-\subsection{Bindings: @HsBinds@}
+\subsection{Bindings: @BindGroup@}
%* *
%************************************************************************
-The following syntax may produce new syntax which is not part of the input,
-and which is instead a translation of the input to the typechecker.
-Syntax translations are marked TRANSLATION in comments. New empty
-productions are useful in development but may not appear in the final
-grammar.
-
-Collections of bindings, created by dependency analysis and translation:
+Global bindings (where clauses)
\begin{code}
-data HsBinds id pat -- binders and bindees
- = EmptyBinds
+data HsLocalBinds id -- Bindings in a 'let' expression
+ -- or a 'where' clause
+ = HsValBinds (HsValBinds id)
+ | HsIPBinds (HsIPBinds id)
+ | EmptyLocalBinds
+
+data HsValBinds id -- Value bindings (not implicit parameters)
+ = ValBindsIn -- Before typechecking
+ (LHsBinds id) [LSig id] -- Not dependency analysed
+ -- Recursive by default
+
+ | ValBindsOut -- After renaming
+ [(RecFlag, LHsBinds id)] -- Dependency analysed
+ [LSig Name]
+
+type LHsBinds id = Bag (LHsBind id)
+type DictBinds id = LHsBinds id -- Used for dictionary or method bindings
+type LHsBind id = Located (HsBind id)
+
+data HsBind id
+ = FunBind (Located id)
+ -- Used for both functions f x = e
+ -- and variables f = \x -> e
+ -- Reason: the Match stuff lets us have an optional
+ -- result type sig f :: a->a = ...mentions a...
+ --
+ -- This also means that instance decls can only have
+ -- FunBinds, so if you change this, you'll need to
+ -- change e.g. rnMethodBinds
+ Bool -- True => infix declaration
+ (MatchGroup id)
+ 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
+
+ | PatBind (LPat id) -- The pattern is never a simple variable;
+ -- That case is done by FunBind
+ (GRHSs id)
+ PostTcType -- Type of the GRHSs
+ NameSet -- Same as for FunBind
+
+ | VarBind id (Located (HsExpr id)) -- Dictionary binding and suchlike
+ -- All VarBinds are introduced by the type checker
+ -- Located only for consistency
+
+ | AbsBinds -- Binds abstraction; TRANSLATION
+ [TyVar] -- Type variables
+ [DictId] -- Dicts
+ [([TyVar], id, id, [Prag])] -- (tvs, poly_id, mono_id, prags)
+ (LHsBinds id) -- The dictionary bindings and typechecked user bindings
+ -- mixed up together; you can tell the dict bindings because
+ -- they are all VarBinds
+
+ -- Consider (AbsBinds tvs ds [(ftvs, poly_f, mono_f) binds]
+ --
+ -- Creates bindings for (polymorphic, overloaded) poly_f
+ -- in terms of monomorphic, non-overloaded mono_f
+ --
+ -- Invariants:
+ -- 1. 'binds' binds mono_f
+ -- 2. ftvs is a subset of tvs
+ -- 3. ftvs includes all tyvars free in ds
+ --
+ -- See section 9 of static semantics paper for more details.
+ -- (You can get a PhD for explaining the True Meaning
+ -- of this last construct.)
- | ThenBinds (HsBinds id pat)
- (HsBinds id pat)
+placeHolderNames :: NameSet
+-- Used for the NameSet in FunBind and PatBind prior to the renamer
+placeHolderNames = panic "placeHolderNames"
+
+------------
+instance OutputableBndr id => Outputable (HsLocalBinds id) where
+ ppr (HsValBinds bs) = ppr bs
+ ppr (HsIPBinds bs) = ppr bs
+ ppr EmptyLocalBinds = empty
+
+instance OutputableBndr id => Outputable (HsValBinds id) where
+ ppr (ValBindsIn binds sigs)
+ = pprValBindsForUser binds sigs
+
+ ppr (ValBindsOut sccs sigs)
+ = getPprStyle $ \ sty ->
+ if debugStyle sty then -- Print with sccs showing
+ vcat (map ppr sigs) $$ vcat (map ppr_scc sccs)
+ else
+ pprValBindsForUser (unionManyBags (map snd sccs)) sigs
+ where
+ ppr_scc (rec_flag, binds) = pp_rec rec_flag <+> pprLHsBinds binds
+ pp_rec Recursive = ptext SLIT("rec")
+ pp_rec NonRecursive = ptext SLIT("nonrec")
+
+-- *not* pprLHsBinds because we don't want braces; 'let' and
+-- 'where' include a list of HsBindGroups and we don't want
+-- several groups of bindings each with braces around.
+-- Sort by location before printing
+pprValBindsForUser binds sigs
+ = vcat (map snd (sort_by_loc decls))
+ where
- | MonoBind (MonoBinds id pat)
- [Sig id] -- Empty on typechecker output
- RecFlag
-\end{code}
+ decls :: [(SrcSpan, SDoc)]
+ decls = [(loc, ppr sig) | L loc sig <- sigs] ++
+ [(loc, ppr bind) | L loc bind <- bagToList binds]
-\begin{code}
-nullBinds :: HsBinds id pat -> Bool
+ sort_by_loc decls = sortLe (\(l1,_) (l2,_) -> l1 <= l2) decls
-nullBinds EmptyBinds = True
-nullBinds (ThenBinds b1 b2) = nullBinds b1 && nullBinds b2
-nullBinds (MonoBind b _ _) = nullMonoBinds b
+pprLHsBinds :: OutputableBndr id => LHsBinds id -> SDoc
+pprLHsBinds binds
+ | isEmptyLHsBinds binds = empty
+ | otherwise = lbrace <+> vcat (map ppr (bagToList binds)) <+> rbrace
-mkMonoBind :: MonoBinds id pat -> [Sig id] -> RecFlag -> HsBinds id pat
-mkMonoBind EmptyMonoBinds _ _ = EmptyBinds
-mkMonoBind mbinds sigs is_rec = MonoBind mbinds sigs is_rec
-\end{code}
+------------
+emptyLocalBinds :: HsLocalBinds a
+emptyLocalBinds = EmptyLocalBinds
-\begin{code}
-instance (Outputable pat, Outputable id) =>
- Outputable (HsBinds id pat) where
- ppr binds = ppr_binds binds
-
-ppr_binds EmptyBinds = empty
-ppr_binds (ThenBinds binds1 binds2)
- = ppr_binds binds1 $$ ppr_binds binds2
-ppr_binds (MonoBind bind sigs is_rec)
- = vcat [ppr_isrec,
- vcat (map ppr sigs),
- ppr bind
- ]
- where
- ppr_isrec = getPprStyle $ \ sty ->
- if userStyle sty then empty else
- case is_rec of
- Recursive -> ptext SLIT("{- rec -}")
- NonRecursive -> ptext SLIT("{- nonrec -}")
-\end{code}
+isEmptyLocalBinds :: HsLocalBinds a -> Bool
+isEmptyLocalBinds (HsValBinds ds) = isEmptyValBinds ds
+isEmptyLocalBinds (HsIPBinds ds) = isEmptyIPBinds ds
+isEmptyLocalBinds EmptyLocalBinds = True
-%************************************************************************
-%* *
-\subsection{Bindings: @MonoBinds@}
-%* *
-%************************************************************************
+isEmptyValBinds :: HsValBinds a -> Bool
+isEmptyValBinds (ValBindsIn ds sigs) = isEmptyLHsBinds ds && null sigs
+isEmptyValBinds (ValBindsOut ds sigs) = null ds && null sigs
-Global bindings (where clauses)
+emptyValBindsIn, emptyValBindsOut :: HsValBinds a
+emptyValBindsIn = ValBindsIn emptyBag []
+emptyValBindsOut = ValBindsOut [] []
-\begin{code}
-data MonoBinds id pat
- = EmptyMonoBinds
-
- | AndMonoBinds (MonoBinds id pat)
- (MonoBinds id pat)
-
- | FunMonoBind id -- Used for both functions f x = e
- -- and variables f = \x -> e
- -- Reason: the Match stuff lets us have an optional
- -- result type sig f :: a->a = ...mentions a...
- Bool -- True => infix declaration
- [Match id pat]
- SrcLoc
-
- | PatMonoBind pat -- The pattern is never a simple variable;
- -- That case is done by FunMonoBind
- (GRHSs id pat)
- SrcLoc
-
- | VarMonoBind id -- TRANSLATION
- (HsExpr id pat)
-
- | CoreMonoBind id -- TRANSLATION
- CoreExpr -- No zonking; this is a final CoreExpr with Ids and Types!
-
- | AbsBinds -- Binds abstraction; TRANSLATION
- [TyVar] -- Type variables
- [id] -- Dicts
- [([TyVar], id, id)] -- (type variables, polymorphic, momonmorphic) triples
- NameSet -- Set of *polymorphic* variables that have an INLINE pragma
- (MonoBinds id pat) -- The "business end"
-
- -- Creates bindings for *new* (polymorphic, overloaded) locals
- -- in terms of *old* (monomorphic, non-overloaded) ones.
- --
- -- See section 9 of static semantics paper for more details.
- -- (You can get a PhD for explaining the True Meaning
- -- of this last construct.)
+emptyLHsBinds :: LHsBinds id
+emptyLHsBinds = emptyBag
+
+isEmptyLHsBinds :: LHsBinds id -> Bool
+isEmptyLHsBinds = isEmptyBag
+
+------------
+plusHsValBinds :: HsValBinds a -> HsValBinds a -> HsValBinds a
+plusHsValBinds (ValBindsIn ds1 sigs1) (ValBindsIn ds2 sigs2)
+ = ValBindsIn (ds1 `unionBags` ds2) (sigs1 ++ sigs2)
+plusHsValBinds (ValBindsOut ds1 sigs1) (ValBindsOut ds2 sigs2)
+ = ValBindsOut (ds1 ++ ds2) (sigs1 ++ sigs2)
\end{code}
What AbsBinds means
(fm,gm) -> fm
..ditto for gp..
- p = /\ [a,b] -> \ [d1,d2] -> letrec DBINDS and BIND
- in (fm,gm)
+ tp = /\ [a,b] -> \ [d1,d2] -> letrec DBINDS and BIND
+ in (fm,gm)
\begin{code}
--- We keep the invariant that a MonoBinds is only empty
--- if it is exactly EmptyMonoBinds
+instance OutputableBndr id => Outputable (HsBind id) where
+ ppr mbind = ppr_monobind mbind
-nullMonoBinds :: MonoBinds id pat -> Bool
-nullMonoBinds EmptyMonoBinds = True
-nullMonoBinds other_monobind = False
+ppr_monobind :: OutputableBndr id => HsBind id -> SDoc
-andMonoBinds :: MonoBinds id pat -> MonoBinds id pat -> MonoBinds id pat
-andMonoBinds EmptyMonoBinds mb = mb
-andMonoBinds mb EmptyMonoBinds = mb
-andMonoBinds mb1 mb2 = AndMonoBinds mb1 mb2
+ppr_monobind (PatBind pat grhss _ _) = pprPatBind pat grhss
+ppr_monobind (VarBind var rhs) = ppr var <+> equals <+> pprExpr (unLoc rhs)
+ppr_monobind (FunBind fun inf matches _) = pprFunBind (unLoc fun) matches
+ -- ToDo: print infix if appropriate
-andMonoBindList :: [MonoBinds id pat] -> MonoBinds id pat
-andMonoBindList binds
- = loop1 binds
+ppr_monobind (AbsBinds tyvars dictvars exports val_binds)
+ = sep [ptext SLIT("AbsBinds"),
+ brackets (interpp'SP tyvars),
+ brackets (interpp'SP dictvars),
+ brackets (sep (punctuate comma (map ppr_exp exports)))]
+ $$
+ nest 2 ( vcat [pprBndr LetBind x | (_,x,_,_) <- exports]
+ -- Print type signatures
+ $$ pprLHsBinds val_binds )
where
- loop1 [] = EmptyMonoBinds
- loop1 (EmptyMonoBinds : binds) = loop1 binds
- loop1 (b:bs) = loop2 b bs
-
- -- acc is non-empty
- loop2 acc [] = acc
- loop2 acc (EmptyMonoBinds : bs) = loop2 acc bs
- loop2 acc (b:bs) = loop2 (acc `AndMonoBinds` b) bs
+ ppr_exp (tvs, gbl, lcl, prags)
+ = vcat [ppr gbl <+> ptext SLIT("<=") <+> ppr tvs <+> ppr lcl,
+ nest 2 (vcat (map (pprPrag gbl) prags))]
\end{code}
+%************************************************************************
+%* *
+ Implicit parameter bindings
+%* *
+%************************************************************************
\begin{code}
-instance (Outputable id, Outputable pat) =>
- Outputable (MonoBinds id pat) where
- ppr mbind = ppr_monobind mbind
-
+data HsIPBinds id
+ = IPBinds
+ [LIPBind id]
+ (DictBinds id) -- Only in typechecker output; binds
+ -- uses of the implicit parameters
-ppr_monobind :: (Outputable id, Outputable pat) => MonoBinds id pat -> SDoc
-ppr_monobind EmptyMonoBinds = empty
-ppr_monobind (AndMonoBinds binds1 binds2)
- = ppr_monobind binds1 $$ ppr_monobind binds2
+isEmptyIPBinds :: HsIPBinds id -> Bool
+isEmptyIPBinds (IPBinds is ds) = null is && isEmptyBag ds
-ppr_monobind (PatMonoBind pat grhss locn)
- = sep [ppr pat, nest 4 (pprGRHSs False grhss)]
-
-ppr_monobind (FunMonoBind fun inf matches locn)
- = pprMatches (False, ppr fun) matches
- -- ToDo: print infix if appropriate
+type LIPBind id = Located (IPBind id)
-ppr_monobind (VarMonoBind name expr)
- = sep [ppr name <+> equals, nest 4 (pprExpr expr)]
+-- | Implicit parameter bindings.
+data IPBind id
+ = IPBind
+ (IPName id)
+ (LHsExpr id)
-ppr_monobind (CoreMonoBind name expr)
- = sep [ppr name <+> equals, nest 4 (ppr expr)]
+instance (OutputableBndr id) => Outputable (HsIPBinds id) where
+ ppr (IPBinds bs ds) = vcat (map ppr bs)
+ $$ pprLHsBinds ds
-ppr_monobind (AbsBinds tyvars dictvars exports inlines val_binds)
- = sep [ptext SLIT("AbsBinds"),
- brackets (interpp'SP tyvars),
- brackets (interpp'SP dictvars),
- brackets (sep (punctuate comma (map ppr exports))),
- brackets (interpp'SP (nameSetToList inlines))]
- $$
- nest 4 (ppr val_binds)
+instance (OutputableBndr id) => Outputable (IPBind id) where
+ ppr (IPBind id rhs) = pprBndr LetBind id <+> equals <+> pprExpr (unLoc rhs)
\end{code}
+
%************************************************************************
%* *
\subsection{@Sig@: type signatures and value-modifying user pragmas}
serves for both.
\begin{code}
+type LSig name = Located (Sig name)
+
data Sig name
- = Sig name -- a bog-std type signature
- (HsType name)
- SrcLoc
-
- | ClassOpSig name -- Selector name
- (DefMeth name) -- (Just dm_name) for source-file class signatures
- -- The name may not be used, if there isn't a
- -- generic default method, but it's there if we
- -- need it
- -- Gives DefMeth info for interface files sigs
- (HsType name)
- SrcLoc
-
- | SpecSig name -- specialise a function or datatype ...
- (HsType name) -- ... to these types
- SrcLoc
-
- | InlineSig name -- INLINE f
- (Maybe Int) -- phase
- SrcLoc
-
- | NoInlineSig name -- NOINLINE f
- (Maybe Int) -- phase
- SrcLoc
-
- | SpecInstSig (HsType name) -- (Class tys); should be a specialisation of the
+ = TypeSig (Located name) -- A bog-std type signature
+ (LHsType name)
+
+ | SpecSig (Located name) -- Specialise a function or datatype ...
+ (LHsType name) -- ... to these types
+ InlineSpec
+
+ | InlineSig (Located name) -- Function name
+ InlineSpec
+
+ | SpecInstSig (LHsType name) -- (Class tys); should be a specialisation of the
-- current instance decl
- SrcLoc
| FixSig (FixitySig name) -- Fixity declaration
+type LFixitySig name = Located (FixitySig name)
+data FixitySig name = FixitySig (Located name) Fixity
+
+-- A Prag conveys pragmas from the type checker to the desugarer
+data Prag
+ = InlinePrag
+ InlineSpec
-data FixitySig name = FixitySig name Fixity SrcLoc
+ | SpecPrag
+ (HsExpr Id) -- An expression, of the given specialised type, which
+ PostTcType -- specialises the polymorphic function
+ [Id] -- Dicts mentioned free in the expression
+ InlineSpec -- Inlining spec for the specialised function
-instance Eq name => Eq (FixitySig name) where
- (FixitySig n1 f1 _) == (FixitySig n2 f2 _) = n1==n2 && f1==f2
+isInlinePrag (InlinePrag _) = True
+isInlinePrag prag = False
+
+isSpecPrag (SpecPrag _ _ _ _) = True
+isSpecPrag prag = False
\end{code}
\begin{code}
-okBindSig :: NameSet -> Sig Name -> Bool
-okBindSig ns (ClassOpSig _ _ _ _) = False
+okBindSig :: NameSet -> LSig Name -> Bool
okBindSig ns sig = sigForThisGroup ns sig
-okClsDclSig :: NameSet -> Sig Name -> Bool
-okClsDclSig ns (Sig _ _ _) = False
-okClsDclSig ns sig = sigForThisGroup ns sig
+okHsBootSig :: LSig Name -> Bool
+okHsBootSig (L _ (TypeSig _ _)) = True
+okHsBootSig (L _ (FixSig _)) = True
+okHsBootSig sig = False
+
+okClsDclSig :: LSig Name -> Bool
+okClsDclSig (L _ (SpecInstSig _)) = False
+okClsDclSig sig = True -- All others OK
-okInstDclSig :: NameSet -> Sig Name -> Bool
-okInstDclSig ns (Sig _ _ _) = False
-okInstDclSig ns (FixSig _) = False
-okInstDclSig ns (SpecInstSig _ _) = True
-okInstDclSig ns sig = sigForThisGroup ns sig
+okInstDclSig :: NameSet -> LSig Name -> Bool
+okInstDclSig ns lsig@(L _ sig) = ok ns sig
+ where
+ ok ns (TypeSig _ _) = False
+ ok ns (FixSig _) = False
+ ok ns (SpecInstSig _) = True
+ ok ns sig = sigForThisGroup ns lsig
-sigForThisGroup ns sig
+sigForThisGroup :: NameSet -> LSig Name -> Bool
+sigForThisGroup ns sig
= case sigName sig of
- Nothing -> False
- Just n | isUnboundName n -> True -- Don't complain about an unbound name again
- | otherwise -> n `elemNameSet` ns
-
-sigName :: Sig name -> Maybe name
-sigName (Sig n _ _) = Just n
-sigName (ClassOpSig n _ _ _) = Just n
-sigName (SpecSig n _ _) = Just n
-sigName (InlineSig n _ _) = Just n
-sigName (NoInlineSig n _ _) = Just n
-sigName (FixSig (FixitySig n _ _)) = Just n
-sigName other = Nothing
-
-isFixitySig :: Sig name -> Bool
-isFixitySig (FixSig _) = True
-isFixitySig _ = False
-
-isClassOpSig :: Sig name -> Bool
-isClassOpSig (ClassOpSig _ _ _ _) = True
-isClassOpSig _ = False
-
-isPragSig :: Sig name -> Bool
+ Nothing -> False
+ 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
+
+isFixityLSig :: LSig name -> Bool
+isFixityLSig (L _ (FixSig _)) = True
+isFixityLSig _ = False
+
+isVanillaLSig :: LSig name -> Bool
+isVanillaLSig (L _(TypeSig name _)) = True
+isVanillaLSig sig = False
+
+isSpecLSig :: LSig name -> Bool
+isSpecLSig (L _(SpecSig name _ _)) = True
+isSpecLSig sig = False
+
+isSpecInstLSig (L _ (SpecInstSig _)) = True
+isSpecInstLSig sig = False
+
+isPragLSig :: LSig name -> Bool
-- Identifies pragmas
-isPragSig (SpecSig _ _ _) = True
-isPragSig (InlineSig _ _ _) = True
-isPragSig (NoInlineSig _ _ _) = True
-isPragSig (SpecInstSig _ _) = True
-isPragSig other = False
+isPragLSig (L _ (SpecSig _ _ _)) = True
+isPragLSig (L _ (InlineSig _ _)) = True
+isPragLSig other = False
+
+hsSigDoc (TypeSig _ _) = ptext SLIT("type signature")
+hsSigDoc (SpecSig _ _ _) = ptext SLIT("SPECIALISE pragma")
+hsSigDoc (InlineSig _ spec) = ppr spec <+> ptext SLIT("pragma")
+hsSigDoc (SpecInstSig _) = ptext SLIT("SPECIALISE instance pragma")
+hsSigDoc (FixSig (FixitySig _ _)) = ptext SLIT("fixity declaration")
\end{code}
+Signature equality is used when checking for duplicate signatures
+
\begin{code}
-hsSigDoc (Sig _ _ loc) = (SLIT("type signature"),loc)
-hsSigDoc (ClassOpSig _ _ _ loc) = (SLIT("class-method type signature"), loc)
-hsSigDoc (SpecSig _ _ loc) = (SLIT("SPECIALISE pragma"),loc)
-hsSigDoc (InlineSig _ _ loc) = (SLIT("INLINE pragma"),loc)
-hsSigDoc (NoInlineSig _ _ loc) = (SLIT("NOINLINE pragma"),loc)
-hsSigDoc (SpecInstSig _ loc) = (SLIT("SPECIALISE instance pragma"),loc)
-hsSigDoc (FixSig (FixitySig _ _ loc)) = (SLIT("fixity declaration"), loc)
+eqHsSig :: LSig Name -> LSig Name -> Bool
+eqHsSig (L _ (FixSig (FixitySig n1 _))) (L _ (FixSig (FixitySig n2 _))) = unLoc n1 == unLoc n2
+eqHsSig (L _ (TypeSig n1 _)) (L _ (TypeSig n2 _)) = unLoc n1 == unLoc n2
+eqHsSig (L _ (InlineSig n1 s1)) (L _ (InlineSig n2 s2)) = s1 == s2 && unLoc n1 == unLoc n2
+ -- For specialisations, we don't have equality over
+ -- HsType, so it's not convenient to spot duplicate
+ -- specialisations here. Check for this later, when we're in Type land
+eqHsSig _other1 _other2 = False
\end{code}
\begin{code}
-instance (Outputable name) => Outputable (Sig name) where
+instance (OutputableBndr name) => Outputable (Sig name) where
ppr sig = ppr_sig sig
-ppr_sig :: Outputable name => Sig name -> SDoc
-ppr_sig (Sig var ty _)
- = sep [ppr var <+> dcolon, nest 4 (ppr ty)]
-
-ppr_sig (ClassOpSig var dm ty _)
- = sep [ppr var <+> pp_dm <+> dcolon, nest 4 (ppr ty)]
- where
- pp_dm = case dm of
- DefMeth _ -> equals -- Default method indicator
- GenDefMeth -> semi -- Generic method indicator
- NoDefMeth -> empty -- No Method at all
-
-ppr_sig (SpecSig var ty _)
- = sep [ hsep [text "{-# SPECIALIZE", ppr var, dcolon],
- nest 4 (ppr ty <+> text "#-}")
- ]
-
-ppr_sig (InlineSig var phase _)
- = hsep [text "{-# INLINE", ppr_phase phase, ppr var, text "#-}"]
-
-ppr_sig (NoInlineSig var phase _)
- = hsep [text "{-# NOINLINE", ppr_phase phase, ppr var, text "#-}"]
-
-ppr_sig (SpecInstSig ty _)
- = hsep [text "{-# SPECIALIZE instance", ppr ty, text "#-}"]
-
-ppr_sig (FixSig fix_sig) = ppr fix_sig
-
+ppr_sig :: OutputableBndr name => Sig name -> SDoc
+ppr_sig (TypeSig var ty) = pprVarSig (unLoc var) ty
+ppr_sig (FixSig fix_sig) = ppr fix_sig
+ppr_sig (SpecSig var ty inl) = pragBrackets (pprSpec var ty inl)
+ppr_sig (InlineSig var inl) = pragBrackets (ppr inl <+> ppr var)
+ppr_sig (SpecInstSig ty) = pragBrackets (ptext SLIT("SPECIALIZE instance") <+> ppr ty)
instance Outputable name => Outputable (FixitySig name) where
- ppr (FixitySig name fixity loc) = sep [ppr fixity, ppr name]
+ ppr (FixitySig name fixity) = sep [ppr fixity, ppr name]
-ppr_phase :: Maybe Int -> SDoc
-ppr_phase Nothing = empty
-ppr_phase (Just n) = int n
-\end{code}
+pragBrackets :: SDoc -> SDoc
+pragBrackets doc = ptext SLIT("{-#") <+> doc <+> ptext SLIT("#-}")
-Checking for distinct signatures; oh, so boring
+pprVarSig :: (Outputable id, Outputable ty) => id -> ty -> SDoc
+pprVarSig var ty = sep [ppr var <+> dcolon, nest 2 (ppr ty)]
+pprSpec :: (Outputable id, Outputable ty) => id -> ty -> InlineSpec -> SDoc
+pprSpec var ty inl = sep [ptext SLIT("SPECIALIZE") <+> ppr inl <+> pprVarSig var ty]
-\begin{code}
-eqHsSig :: Sig Name -> Sig Name -> Bool
-eqHsSig (Sig n1 _ _) (Sig n2 _ _) = n1 == n2
-eqHsSig (InlineSig n1 _ _) (InlineSig n2 _ _) = n1 == n2
-eqHsSig (NoInlineSig n1 _ _) (NoInlineSig n2 _ _) = n1 == n2
-
-eqHsSig (SpecInstSig ty1 _) (SpecInstSig ty2 _) = ty1 == ty2
-eqHsSig (SpecSig n1 ty1 _) (SpecSig n2 ty2 _)
- = -- may have many specialisations for one value;
- -- but not ones that are exactly the same...
- (n1 == n2) && (ty1 == ty2)
-
-eqHsSig other_1 other_2 = False
+pprPrag :: Outputable id => id -> Prag -> SDoc
+pprPrag var (InlinePrag inl) = ppr inl <+> ppr var
+pprPrag var (SpecPrag expr ty _ inl) = pprSpec var ty inl
\end{code}