\begin{code}
module HsDecls (
- HsDecl(..), TyClDecl(..), InstDecl(..),
+ HsDecl(..), TyClDecl(..), InstDecl(..), RuleDecl(..), RuleBndr(..),
DefaultDecl(..), ForeignDecl(..), ForKind(..),
- ExtName(..), isDynamic,
- ConDecl(..), ConDetails(..), BangType(..),
- IfaceSig(..), SpecDataSig(..), HsIdInfo(..), HsStrictnessInfo(..),
- hsDeclName, tyClDeclName, isClassDecl, isSynDecl, isDataDecl, countTyClDecls
+ ExtName(..), isDynamicExtName, extNameStatic,
+ ConDecl(..), ConDetails(..),
+ BangType(..), getBangType,
+ DeprecDecl(..), DeprecTxt,
+ hsDeclName, instDeclName, tyClDeclName, tyClDeclNames, tyClDeclSysNames,
+ isClassDecl, isSynDecl, isDataDecl, isIfaceSigDecl, countTyClDecls,
+ mkClassDeclSysNames, isIfaceRuleDecl, ifaceRuleDeclName,
+ getClassDeclSysNames, conDetailsTys
) where
#include "HsVersions.h"
-- friends:
-import HsBinds ( HsBinds, MonoBinds, Sig, FixitySig(..), nullMonoBinds )
-import HsPragmas ( DataPragmas, ClassPragmas )
+import HsBinds ( HsBinds, MonoBinds, Sig(..), FixitySig(..) )
+import HsExpr ( HsExpr )
import HsTypes
-import HsCore ( UfExpr )
-import BasicTypes ( Fixity, NewOrData(..) )
-import IdInfo ( ArityInfo, UpdateInfo, InlinePragInfo )
-import Demand ( Demand )
+import PprCore ( pprCoreRule )
+import HsCore ( UfExpr, UfBinder, HsIdInfo, pprHsIdInfo,
+ eq_ufBinders, eq_ufExpr, pprUfExpr
+ )
+import CoreSyn ( CoreRule(..) )
+import BasicTypes ( NewOrData(..) )
import CallConv ( CallConv, pprCallConv )
-- others:
+import Name ( NamedThing )
+import FunDeps ( pprFundeps )
+import Class ( FunDep, DefMeth(..) )
+import CStrings ( CLabelString, pprCLabelString )
import Outputable
import SrcLoc ( SrcLoc )
-import Util
\end{code}
| DefD (DefaultDecl name)
| ValD (HsBinds name pat)
| ForD (ForeignDecl name)
- | SigD (IfaceSig name)
| FixD (FixitySig name)
+ | DeprecD (DeprecDecl name)
+ | RuleD (RuleDecl name pat)
-- NB: all top-level fixity decls are contained EITHER
-- EITHER FixDs
-- d) top level decls
--
-- The latter is for class methods only
-
--- It's a bit wierd that the fixity decls in the ValD
--- cover all the classops and imported decls too, but it's convenient
--- For a start, it means we don't need a FixD
\end{code}
\begin{code}
#ifdef DEBUG
-hsDeclName :: (Outputable name, Outputable pat)
+hsDeclName :: (NamedThing name, Outputable name, Outputable pat)
=> HsDecl name pat -> name
#endif
hsDeclName (TyClD decl) = tyClDeclName decl
-hsDeclName (SigD (IfaceSig name _ _ _)) = name
-hsDeclName (InstD (InstDecl _ _ _ (Just name) _)) = name
-hsDeclName (ForD (ForeignDecl name _ _ _ _ _)) = name
-hsDeclName (FixD (FixitySig name _ _)) = name
+hsDeclName (InstD decl) = instDeclName decl
+hsDeclName (ForD (ForeignDecl name _ _ _ _ _)) = name
+hsDeclName (FixD (FixitySig name _ _)) = name
-- Others don't make sense
#ifdef DEBUG
hsDeclName x = pprPanic "HsDecls.hsDeclName" (ppr x)
#endif
-tyClDeclName :: TyClDecl name pat -> name
-tyClDeclName (TyData _ _ name _ _ _ _ _) = name
-tyClDeclName (TySynonym name _ _ _) = name
-tyClDeclName (ClassDecl _ name _ _ _ _ _ _ _) = name
+
+instDeclName :: InstDecl name pat -> name
+instDeclName (InstDecl _ _ _ (Just name) _) = name
+
\end{code}
\begin{code}
-instance (Outputable name, Outputable pat)
+instance (NamedThing name, Outputable name, Outputable pat)
=> Outputable (HsDecl name pat) where
ppr (TyClD dcl) = ppr dcl
- ppr (SigD sig) = ppr sig
ppr (ValD binds) = ppr binds
ppr (DefD def) = ppr def
ppr (InstD inst) = ppr inst
ppr (ForD fd) = ppr fd
ppr (FixD fd) = ppr fd
-
-{- Why do we need ordering on decls?
-
-#ifdef DEBUG
--- hsDeclName needs more context when DEBUG is on
-instance (Outputable name, Outputable pat, Eq name)
- => Eq (HsDecl name pat) where
- d1 == d2 = hsDeclName d1 == hsDeclName d2
-
-instance (Outputable name, Outputable pat, Ord name)
- => Ord (HsDecl name pat) where
- d1 `compare` d2 = hsDeclName d1 `compare` hsDeclName d2
-#else
-instance (Eq name) => Eq (HsDecl name pat) where
- d1 == d2 = hsDeclName d1 == hsDeclName d2
-
-instance (Ord name) => Ord (HsDecl name pat) where
- d1 `compare` d2 = hsDeclName d1 `compare` hsDeclName d2
-#endif
--}
+ ppr (RuleD rd) = ppr rd
+ ppr (DeprecD dd) = ppr dd
\end{code}
%* *
%************************************************************************
+Type and class declarations carry 'implicit names'. In particular:
+
+Type A.
+~~~~~~~
+ Each data type decl defines
+ a worker name for each constructor
+ to-T and from-T convertors
+ Each class decl defines
+ a tycon for the class
+ a data constructor for that tycon
+ the worker for that constructor
+ a selector for each superclass
+
+All have occurrence names that are derived uniquely from their parent declaration.
+
+None of these get separate definitions in an interface file; they are
+fully defined by the data or class decl. But they may *occur* in
+interface files, of course. Any such occurrence must haul in the
+relevant type or class decl.
+
+Plan of attack:
+ - Make up their occurrence names immediately
+
+ - Ensure they "point to" the parent data/class decl
+ when loading that decl from an interface file
+
+ - When renaming the decl look them up in the name cache,
+ ensure correct module and provenance is set
+
+Type B: Default methods and dictionary functions
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+Have their own binding in an interface file.
+
+Default methods : occurrence name is derived uniquely from the class decl.
+Dict functions : occurrence name is derived from the instance decl, plus a unique number.
+
+Plan of attack:
+ - Do *not* make them point to the parent class decl
+ - Interface-file decls: treat just like Type A
+ - Source-file decls: the names aren't in the decl at all;
+ instead the typechecker makes them up
+
\begin{code}
data TyClDecl name pat
- = TyData NewOrData
- (Context name) -- context
- name -- type constructor
- [HsTyVar name] -- type variables
- [ConDecl name] -- data constructors (empty if abstract)
- (Maybe [name]) -- derivings; Nothing => not specified
- -- (i.e., derive default); Just [] => derive
- -- *nothing*; Just <list> => as you would
- -- expect...
- (DataPragmas name)
+ = IfaceSig name -- It may seem odd to classify an interface-file signature
+ (HsType name) -- as a 'TyClDecl', but it's very convenient. These three
+ [HsIdInfo name] -- are the kind that appear in interface files.
+ SrcLoc
+
+ | TyData NewOrData
+ (HsContext name) -- context
+ name -- type constructor
+ [HsTyVarBndr name] -- type variables
+ [ConDecl name] -- data constructors (empty if abstract)
+ Int -- Number of data constructors (valid even if type is abstract)
+ (Maybe [name]) -- derivings; Nothing => not specified
+ -- (i.e., derive default); Just [] => derive
+ -- *nothing*; Just <list> => as you would
+ -- expect...
SrcLoc
+ name -- generic converter functions
+ name -- generic converter functions
- | TySynonym name -- type constructor
- [HsTyVar name] -- type variables
- (HsType name) -- synonym expansion
+ | TySynonym name -- type constructor
+ [HsTyVarBndr name] -- type variables
+ (HsType name) -- synonym expansion
SrcLoc
- | ClassDecl (Context name) -- context...
- name -- name of the class
- [HsTyVar name] -- the class type variables
- [Sig name] -- methods' signatures
+ | ClassDecl (HsContext name) -- context...
+ name -- name of the class
+ [HsTyVarBndr name] -- the class type variables
+ [FunDep name] -- functional dependencies
+ [Sig name] -- methods' signatures
(MonoBinds name pat) -- default methods
- (ClassPragmas name)
- name name -- The names of the tycon and datacon for this class
- -- These are filled in by the renamer
+ (ClassDeclSysNames name)
SrcLoc
\end{code}
+Simple classifiers
+
\begin{code}
-countTyClDecls :: [TyClDecl name pat] -> (Int, Int, Int, Int)
- -- class, data, newtype, synonym decls
-countTyClDecls decls
- = (length [() | ClassDecl _ _ _ _ _ _ _ _ _ <- decls],
- length [() | TyData DataType _ _ _ _ _ _ _ <- decls],
- length [() | TyData NewType _ _ _ _ _ _ _ <- decls],
- length [() | TySynonym _ _ _ _ <- decls])
+isIfaceSigDecl, isDataDecl, isSynDecl, isClassDecl :: TyClDecl name pat -> Bool
-isDataDecl, isSynDecl, isClassDecl :: TyClDecl name pat -> Bool
+isIfaceSigDecl (IfaceSig _ _ _ _) = True
+isIfaceSigDecl other = False
isSynDecl (TySynonym _ _ _ _) = True
isSynDecl other = False
-isDataDecl (TyData _ _ _ _ _ _ _ _) = True
-isDataDecl other = False
+isDataDecl (TyData _ _ _ _ _ _ _ _ _ _) = True
+isDataDecl other = False
-isClassDecl (ClassDecl _ _ _ _ _ _ _ _ _) = True
-isClassDecl other = False
+isClassDecl (ClassDecl _ _ _ _ _ _ _ _ ) = True
+isClassDecl other = False
\end{code}
+Dealing with names
+
\begin{code}
-instance (Outputable name, Outputable pat)
+--------------------------------
+tyClDeclName :: TyClDecl name pat -> name
+tyClDeclName (IfaceSig name _ _ _) = name
+tyClDeclName (TyData _ _ name _ _ _ _ _ _ _) = name
+tyClDeclName (TySynonym name _ _ _) = name
+tyClDeclName (ClassDecl _ name _ _ _ _ _ _) = name
+
+
+--------------------------------
+tyClDeclNames :: Eq name => TyClDecl name pat -> [(name, SrcLoc)]
+-- Returns all the binding names of the decl, along with their SrcLocs
+-- The first one is guaranteed to be the name of the decl
+-- For record fields, the first one counts as the SrcLoc
+-- We use the equality to filter out duplicate field names
+
+tyClDeclNames (TySynonym name _ _ loc)
+ = [(name,loc)]
+
+tyClDeclNames (ClassDecl _ cls_name _ _ sigs _ _ loc)
+ = (cls_name,loc) : [(n,loc) | ClassOpSig n _ _ loc <- sigs]
+
+tyClDeclNames (TyData _ _ tc_name _ cons _ _ loc _ _)
+ = (tc_name,loc) : conDeclsNames cons
+
+tyClDeclNames (IfaceSig name _ _ loc) = [(name,loc)]
+
+--------------------------------
+tyClDeclSysNames :: TyClDecl name pat -> [(name, SrcLoc)]
+-- Similar to tyClDeclNames, but returns the "implicit"
+-- or "system" names of the declaration
+
+tyClDeclSysNames (ClassDecl _ _ _ _ _ _ names loc) = [(n,loc) | n <- names]
+tyClDeclSysNames (TyData _ _ _ _ cons _ _ _ _ _) = [(wkr_name,loc) | ConDecl _ wkr_name _ _ _ loc <- cons]
+tyClDeclSysNames decl = []
+
+
+--------------------------------
+type ClassDeclSysNames name = [name]
+ -- [tycon, datacon wrapper, datacon worker,
+ -- superclass selector 1, ..., superclass selector n]
+ -- They are kept in a list rather than a tuple to make the
+ -- renamer easier.
+
+mkClassDeclSysNames :: (name, name, name, [name]) -> [name]
+getClassDeclSysNames :: [name] -> (name, name, name, [name])
+mkClassDeclSysNames (a,b,c,ds) = a:b:c:ds
+getClassDeclSysNames (a:b:c:ds) = (a,b,c,ds)
+\end{code}
+
+\begin{code}
+instance (NamedThing name, Ord name) => Eq (TyClDecl name pat) where
+ -- Used only when building interface files
+ (==) (IfaceSig n1 t1 i1 _)
+ (IfaceSig n2 t2 i2 _) = n1==n2 && t1==t2 && i1==i2
+
+ (==) (TyData nd1 cxt1 n1 tvs1 cons1 _ _ _ _ _)
+ (TyData nd2 cxt2 n2 tvs2 cons2 _ _ _ _ _)
+ = n1 == n2 &&
+ nd1 == nd2 &&
+ eqWithHsTyVars tvs1 tvs2 (\ env ->
+ eq_hsContext env cxt1 cxt2 &&
+ eqListBy (eq_ConDecl env) cons1 cons2
+ )
+
+ (==) (TySynonym n1 tvs1 ty1 _)
+ (TySynonym n2 tvs2 ty2 _)
+ = n1 == n2 &&
+ eqWithHsTyVars tvs1 tvs2 (\ env -> eq_hsType env ty1 ty2)
+
+ (==) (ClassDecl cxt1 n1 tvs1 fds1 sigs1 _ _ _ )
+ (ClassDecl cxt2 n2 tvs2 fds2 sigs2 _ _ _ )
+ = n1 == n2 &&
+ eqWithHsTyVars tvs1 tvs2 (\ env ->
+ eq_hsContext env cxt1 cxt2 &&
+ eqListBy (eq_hsFD env) fds1 fds2 &&
+ eqListBy (eq_cls_sig env) sigs1 sigs2
+ )
+
+ (==) _ _ = False -- default case
+
+eq_hsFD env (ns1,ms1) (ns2,ms2)
+ = eqListBy (eq_hsVar env) ns1 ns2 && eqListBy (eq_hsVar env) ms1 ms2
+
+eq_cls_sig env (ClassOpSig n1 dm1 ty1 _) (ClassOpSig n2 dm2 ty2 _)
+ = n1==n2 && dm1 `eq_dm` dm2 && eq_hsType env ty1 ty2
+ where
+ -- Ignore the name of the default method for (DefMeth id)
+ -- This is used for comparing declarations before putting
+ -- them into interface files, and the name of the default
+ -- method isn't relevant
+ Nothing `eq_dm` Nothing = True
+ (Just NoDefMeth) `eq_dm` (Just NoDefMeth) = True
+ (Just GenDefMeth) `eq_dm` (Just GenDefMeth) = True
+ (Just (DefMeth _)) `eq_dm` (Just (DefMeth _)) = True
+ dm1 `eq_dm` dm2 = False
+
+
+\end{code}
+
+\begin{code}
+countTyClDecls :: [TyClDecl name pat] -> (Int, Int, Int, Int, Int)
+ -- class, data, newtype, synonym decls
+countTyClDecls decls
+ = (length [() | ClassDecl _ _ _ _ _ _ _ _ <- decls],
+ length [() | TyData DataType _ _ _ _ _ _ _ _ _ <- decls],
+ length [() | TyData NewType _ _ _ _ _ _ _ _ _ <- decls],
+ length [() | TySynonym _ _ _ _ <- decls],
+ length [() | IfaceSig _ _ _ _ <- decls])
+\end{code}
+
+\begin{code}
+instance (NamedThing name, Outputable name, Outputable pat)
=> Outputable (TyClDecl name pat) where
+ ppr (IfaceSig var ty info _) = hsep [ppr var, dcolon, ppr ty, pprHsIdInfo info]
+
ppr (TySynonym tycon tyvars mono_ty src_loc)
- = hang (pp_decl_head SLIT("type") empty tycon tyvars)
+ = hang (ptext SLIT("type") <+> pp_decl_head [] tycon tyvars <+> equals)
4 (ppr mono_ty)
- ppr (TyData new_or_data context tycon tyvars condecls derivings pragmas src_loc)
+ ppr (TyData new_or_data context tycon tyvars condecls ncons
+ derivings src_loc gen_conv1 gen_conv2) -- The generic names are not printed out ATM
= pp_tydecl
- (pp_decl_head keyword (pprContext context) tycon tyvars)
- (pp_condecls condecls)
+ (ptext keyword <+> pp_decl_head context tycon tyvars <+> equals)
+ (pp_condecls condecls ncons)
derivings
where
keyword = case new_or_data of
NewType -> SLIT("newtype")
DataType -> SLIT("data")
- ppr (ClassDecl context clas tyvars sigs methods pragmas _ _ src_loc)
+ ppr (ClassDecl context clas tyvars fds sigs methods _ src_loc)
| null sigs -- No "where" part
= top_matter
| otherwise -- Laid out
= sep [hsep [top_matter, ptext SLIT("where {")],
- nest 4 (vcat [sep (map ppr_sig sigs),
- ppr methods,
- char '}'])]
+ nest 4 (sep [sep (map ppr_sig sigs), pp_methods, char '}'])]
where
- top_matter = hsep [ptext SLIT("class"), pprContext context,
- ppr clas, hsep (map (ppr) tyvars)]
+ top_matter = ptext SLIT("class") <+> pp_decl_head context clas tyvars <+> pprFundeps fds
ppr_sig sig = ppr sig <> semi
+ pp_methods = getPprStyle $ \ sty ->
+ if ifaceStyle sty then empty else ppr methods
+
+pp_decl_head :: Outputable name => HsContext name -> name -> [HsTyVarBndr name] -> SDoc
+pp_decl_head context thing tyvars = hsep [pprHsContext context, ppr thing, interppSP tyvars]
-
-pp_decl_head str pp_context tycon tyvars
- = hsep [ptext str, pp_context, ppr tycon,
- interppSP tyvars, ptext SLIT("=")]
-
-pp_condecls [] = empty -- Curious!
-pp_condecls (c:cs) = sep (ppr c : map (\ c -> ptext SLIT("|") <+> ppr c) cs)
+pp_condecls [] ncons = ptext SLIT("{- abstract with") <+> int ncons <+> ptext SLIT("constructors -}")
+pp_condecls (c:cs) ncons = sep (ppr c : map (\ c -> ptext SLIT("|") <+> ppr c) cs)
pp_tydecl pp_head pp_decl_rhs derivings
= hang pp_head 4 (sep [
])
\end{code}
-A type for recording what types a datatype should be specialised to.
-It's called a ``Sig'' because it's sort of like a ``type signature''
-for an datatype declaration.
-
-\begin{code}
-data SpecDataSig name
- = SpecDataSig name -- tycon to specialise
- (HsType name)
- SrcLoc
-
-instance (Outputable name)
- => Outputable (SpecDataSig name) where
-
- ppr (SpecDataSig tycon ty _)
- = hsep [text "{-# SPECIALIZE data", ppr ty, text "#-}"]
-\end{code}
%************************************************************************
%* *
\begin{code}
data ConDecl name
- = ConDecl name -- Constructor name
+ = ConDecl name -- Constructor name; this is used for the
+ -- DataCon itself, and for the user-callable wrapper Id
+
+ name -- Name of the constructor's 'worker Id'
+ -- Filled in as the ConDecl is built
- [HsTyVar name] -- Existentially quantified type variables
- (Context name) -- ...and context
+ [HsTyVarBndr name] -- Existentially quantified type variables
+ (HsContext name) -- ...and context
-- If both are empty then there are no existentials
(ConDetails name)
| RecCon -- record-style con decl
[([name], BangType name)] -- list of "fields"
+\end{code}
- | NewCon -- newtype con decl, possibly with a labelled field.
- (HsType name)
- (Maybe name) -- Just x => labelled field 'x'
+\begin{code}
+conDeclsNames :: Eq name => [ConDecl name] -> [(name,SrcLoc)]
+ -- See tyClDeclNames for what this does
+ -- The function is boringly complicated because of the records
+ -- And since we only have equality, we have to be a little careful
+conDeclsNames cons
+ = snd (foldl do_one ([], []) cons)
+ where
+ do_one (flds_seen, acc) (ConDecl name _ _ _ details loc)
+ = do_details ((name,loc):acc) details
+ where
+ do_details acc (RecCon flds) = foldl do_fld (flds_seen, acc) flds
+ do_details acc other = (flds_seen, acc)
+
+ do_fld acc (flds, _) = foldl do_fld1 acc flds
+
+ do_fld1 (flds_seen, acc) fld
+ | fld `elem` flds_seen = (flds_seen,acc)
+ | otherwise = (fld:flds_seen, (fld,loc):acc)
+\end{code}
+\begin{code}
+conDetailsTys :: ConDetails name -> [HsType name]
+conDetailsTys (VanillaCon btys) = map getBangType btys
+conDetailsTys (InfixCon bty1 bty2) = [getBangType bty1, getBangType bty2]
+conDetailsTys (RecCon fields) = [getBangType bty | (_, bty) <- fields]
+
+
+eq_ConDecl env (ConDecl n1 _ tvs1 cxt1 cds1 _)
+ (ConDecl n2 _ tvs2 cxt2 cds2 _)
+ = n1 == n2 &&
+ (eq_hsTyVars env tvs1 tvs2 $ \ env ->
+ eq_hsContext env cxt1 cxt2 &&
+ eq_ConDetails env cds1 cds2)
+
+eq_ConDetails env (VanillaCon bts1) (VanillaCon bts2)
+ = eqListBy (eq_btype env) bts1 bts2
+eq_ConDetails env (InfixCon bta1 btb1) (InfixCon bta2 btb2)
+ = eq_btype env bta1 bta2 && eq_btype env btb1 btb2
+eq_ConDetails env (RecCon fs1) (RecCon fs2)
+ = eqListBy (eq_fld env) fs1 fs2
+eq_ConDetails env _ _ = False
+
+eq_fld env (ns1,bt1) (ns2, bt2) = ns1==ns2 && eq_btype env bt1 bt2
+\end{code}
+
+\begin{code}
data BangType name
= Banged (HsType name) -- HsType: to allow Haskell extensions
| Unbanged (HsType name) -- (MonoType only needed for straight Haskell)
+ | Unpacked (HsType name) -- Field is strict and to be unpacked if poss.
+
+getBangType (Banged ty) = ty
+getBangType (Unbanged ty) = ty
+getBangType (Unpacked ty) = ty
+
+eq_btype env (Banged t1) (Banged t2) = eq_hsType env t1 t2
+eq_btype env (Unbanged t1) (Unbanged t2) = eq_hsType env t1 t2
+eq_btype env (Unpacked t1) (Unpacked t2) = eq_hsType env t1 t2
+eq_btype env _ _ = False
\end{code}
\begin{code}
instance (Outputable name) => Outputable (ConDecl name) where
- ppr (ConDecl con tvs cxt con_details loc)
- = sep [pprForAll tvs, pprContext cxt, ppr_con_details con con_details]
+ ppr (ConDecl con _ tvs cxt con_details loc)
+ = sep [pprHsForAll tvs cxt, ppr_con_details con con_details]
ppr_con_details con (InfixCon ty1 ty2)
= hsep [ppr_bang ty1, ppr con, ppr_bang ty2]
ppr_con_details con (VanillaCon tys)
= ppr con <+> hsep (map (ppr_bang) tys)
-ppr_con_details con (NewCon ty Nothing)
- = ppr con <+> pprParendHsType ty
-
-ppr_con_details con (NewCon ty (Just x))
- = ppr con <+> braces pp_field
- where
- pp_field = ppr x <+> dcolon <+> pprParendHsType ty
-
ppr_con_details con (RecCon fields)
= ppr con <+> braces (hsep (punctuate comma (map ppr_field fields)))
where
dcolon <+>
ppr_bang ty
+instance Outputable name => Outputable (BangType name) where
+ ppr = ppr_bang
+
ppr_bang (Banged ty) = ptext SLIT("!") <> pprParendHsType ty
ppr_bang (Unbanged ty) = pprParendHsType ty
+ppr_bang (Unpacked ty) = ptext SLIT("! !") <> pprParendHsType ty
\end{code}
[Sig name] -- User-supplied pragmatic info
(Maybe name) -- Name for the dictionary function
+ -- Nothing for source-file instance decls
SrcLoc
\end{code}
instance (Outputable name, Outputable pat)
=> Outputable (InstDecl name pat) where
- ppr (InstDecl inst_ty binds uprags dfun_name src_loc)
+ ppr (InstDecl inst_ty binds uprags maybe_dfun_name src_loc)
= getPprStyle $ \ sty ->
- if ifaceStyle sty || (nullMonoBinds binds && null uprags) then
- hsep [ptext SLIT("instance"), ppr inst_ty]
+ if ifaceStyle sty then
+ hsep [ptext SLIT("instance"), ppr inst_ty, equals, pp_dfun]
else
vcat [hsep [ptext SLIT("instance"), ppr inst_ty, ptext SLIT("where")],
nest 4 (ppr uprags),
nest 4 (ppr binds) ]
+ where
+ pp_dfun = case maybe_dfun_name of
+ Just df -> ppr df
+ Nothing -> empty
+\end{code}
+
+\begin{code}
+instance Ord name => Eq (InstDecl name pat) where
+ -- Used for interface comparison only, so don't compare bindings
+ (==) (InstDecl inst_ty1 _ _ dfun1 _) (InstDecl inst_ty2 _ _ dfun2 _)
+ = inst_ty1 == inst_ty2 && dfun1 == dfun2
\end{code}
data ExtName
= Dynamic
- | ExtName FAST_STRING (Maybe FAST_STRING)
+ | ExtName CLabelString -- The external name of the foreign thing,
+ (Maybe CLabelString) -- and optionally its DLL or module name
+ -- Both of these are completely unencoded;
+ -- we just print them as they are
-isDynamic :: ExtName -> Bool
-isDynamic Dynamic = True
-isDynamic _ = False
+isDynamicExtName :: ExtName -> Bool
+isDynamicExtName Dynamic = True
+isDynamicExtName _ = False
+extNameStatic :: ExtName -> CLabelString
+extNameStatic (ExtName f _) = f
+extNameStatic Dynamic = panic "staticExtName: Dynamic - shouldn't ever happen."
instance Outputable ExtName where
ppr Dynamic = ptext SLIT("dynamic")
ppr (ExtName nm mb_mod) =
case mb_mod of { Nothing -> empty; Just m -> doubleQuotes (ptext m) } <+>
- doubleQuotes (ptext nm)
+ doubleQuotes (pprCLabelString nm)
+\end{code}
+
+%************************************************************************
+%* *
+\subsection{Transformation rules}
+%* *
+%************************************************************************
+\begin{code}
+data RuleDecl name pat
+ = HsRule -- Source rule
+ FAST_STRING -- Rule name
+ [name] -- Forall'd tyvars, filled in by the renamer with
+ -- tyvars mentioned in sigs; then filled out by typechecker
+ [RuleBndr name] -- Forall'd term vars
+ (HsExpr name pat) -- LHS
+ (HsExpr name pat) -- RHS
+ SrcLoc
+
+ | IfaceRule -- One that's come in from an interface file; pre-typecheck
+ FAST_STRING
+ [UfBinder name] -- Tyvars and term vars
+ name -- Head of lhs
+ [UfExpr name] -- Args of LHS
+ (UfExpr name) -- Pre typecheck
+ SrcLoc
+
+ | IfaceRuleOut -- Post typecheck
+ name -- Head of LHS
+ CoreRule
+
+isIfaceRuleDecl (HsRule _ _ _ _ _ _) = False
+isIfaceRuleDecl other = True
+
+ifaceRuleDeclName :: RuleDecl name pat -> name
+ifaceRuleDeclName (IfaceRule _ _ n _ _ _) = n
+ifaceRuleDeclName (IfaceRuleOut n r) = n
+ifaceRuleDeclName (HsRule fs _ _ _ _ _) = pprPanic "ifaceRuleDeclName" (ppr fs)
+
+data RuleBndr name
+ = RuleBndr name
+ | RuleBndrSig name (HsType name)
+
+instance (NamedThing name, Ord name) => Eq (RuleDecl name pat) where
+ -- Works for IfaceRules only; used when comparing interface file versions
+ (IfaceRule n1 bs1 f1 es1 rhs1 _) == (IfaceRule n2 bs2 f2 es2 rhs2 _)
+ = n1==n2 && f1 == f2 &&
+ eq_ufBinders emptyEqHsEnv bs1 bs2 (\env ->
+ eqListBy (eq_ufExpr env) (rhs1:es1) (rhs2:es2))
+
+instance (NamedThing name, Outputable name, Outputable pat)
+ => Outputable (RuleDecl name pat) where
+ ppr (HsRule name tvs ns lhs rhs loc)
+ = sep [text "{-# RULES" <+> doubleQuotes (ptext name),
+ pp_forall, ppr lhs, equals <+> ppr rhs,
+ text "#-}" ]
+ where
+ pp_forall | null tvs && null ns = empty
+ | otherwise = text "forall" <+>
+ fsep (map ppr tvs ++ map ppr ns)
+ <> dot
+
+ ppr (IfaceRule name tpl_vars fn tpl_args rhs loc)
+ = hsep [ doubleQuotes (ptext name),
+ ptext SLIT("__forall") <+> braces (interppSP tpl_vars),
+ ppr fn <+> sep (map (pprUfExpr parens) tpl_args),
+ ptext SLIT("=") <+> ppr rhs
+ ] <+> semi
+
+ ppr (IfaceRuleOut fn rule) = pprCoreRule (ppr fn) rule
+
+instance Outputable name => Outputable (RuleBndr name) where
+ ppr (RuleBndr name) = ppr name
+ ppr (RuleBndrSig name ty) = ppr name <> dcolon <> ppr ty
\end{code}
+
%************************************************************************
%* *
-\subsection{Signatures in interface files}
+\subsection[DeprecDecl]{Deprecations}
%* *
%************************************************************************
+We use exported entities for things to deprecate.
+
\begin{code}
-data IfaceSig name
- = IfaceSig name
- (HsType name)
- [HsIdInfo name]
- SrcLoc
+data DeprecDecl name = Deprecation name DeprecTxt SrcLoc
+
+type DeprecTxt = FAST_STRING -- reason/explanation for deprecation
-instance (Outputable name) => Outputable (IfaceSig name) where
- ppr (IfaceSig var ty _ _)
- = hang (hsep [ppr var, dcolon])
- 4 (ppr ty)
-
-data HsIdInfo name
- = HsArity ArityInfo
- | HsStrictness (HsStrictnessInfo name)
- | HsUnfold InlinePragInfo (Maybe (UfExpr name))
- | HsUpdate UpdateInfo
- | HsSpecialise [HsTyVar name] [HsType name] (UfExpr name)
- | HsNoCafRefs
-
-
-data HsStrictnessInfo name
- = HsStrictnessInfo ([Demand], Bool)
- (Maybe (name, [name])) -- Worker, if any
- -- and needed constructors
- | HsBottom
+instance Outputable name => Outputable (DeprecDecl name) where
+ ppr (Deprecation thing txt _)
+ = hsep [text "{-# DEPRECATED", ppr thing, doubleQuotes (ppr txt), text "#-}"]
\end{code}
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