%
-% (c) The GRASP/AQUA Project, Glasgow University, 1992-1996
+% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
\section{Haskell abstract syntax definition}
therefore, is almost nothing but re-exporting.
\begin{code}
-#include "HsVersions.h"
-
module HsSyn (
-- NB: don't reexport HsCore or HsPragmas;
-- this module tells about "real Haskell"
- EXP_MODULE(HsSyn) ,
- EXP_MODULE(HsBinds) ,
- EXP_MODULE(HsDecls) ,
- EXP_MODULE(HsExpr) ,
- EXP_MODULE(HsImpExp) ,
- EXP_MODULE(HsBasic) ,
- EXP_MODULE(HsMatches) ,
- EXP_MODULE(HsPat) ,
- EXP_MODULE(HsTypes),
- NewOrData(..)
+ module HsSyn,
+ module HsBinds,
+ module HsDecls,
+ module HsExpr,
+ module HsImpExp,
+ module HsBasic,
+ module HsMatches,
+ module HsPat,
+ module HsTypes,
+ Fixity, NewOrData,
+
+ collectTopBinders, collectMonoBinders
) where
-IMP_Ubiq()
+#include "HsVersions.h"
-- friends:
+import HsDecls
import HsBinds
-import HsDecls ( HsDecl(..), TyDecl(..), InstDecl(..), ClassDecl(..),
- DefaultDecl(..),
- FixityDecl(..),
- ConDecl(..), ConDetails(..), BangType(..),
- IfaceSig(..), HsIdInfo, SpecDataSig(..), SpecInstSig(..),
- hsDeclName
- )
import HsExpr
import HsImpExp
import HsBasic
import HsMatches
import HsPat
import HsTypes
-import HsPragmas ( ClassPragmas, ClassOpPragmas,
- DataPragmas, GenPragmas, InstancePragmas )
import HsCore
-import TyCon ( NewOrData(..) )
+import BasicTypes ( Fixity, Version, NewOrData )
-- others:
-import FiniteMap ( FiniteMap )
-import Outputable ( ifPprShowAll, ifnotPprForUser, interpp'SP, Outputable(..) )
-import Pretty
+import Outputable
import SrcLoc ( SrcLoc )
-#if __GLASGOW_HASKELL__ >= 202
-import Name
-#endif
-\end{code}
-
-@Fake@ is a placeholder type; for when tyvars and uvars aren't used.
-\begin{code}
-data Fake = Fake
-instance Eq Fake
-instance Outputable Fake
+import Bag
+import Module ( ModuleName, pprModuleName )
\end{code}
All we actually declare here is the top-level structure for a module.
\begin{code}
-data HsModule tyvar uvar name pat
+data HsModule name pat
= HsModule
- Module -- module name
+ ModuleName -- module name
(Maybe Version) -- source interface version number
(Maybe [IE name]) -- export list; Nothing => export everything
-- Just [] => export *nothing* (???)
-- imported interfaces early on, adding that
-- info to TyDecls/etc; so this list is
-- often empty, downstream.
- [FixityDecl name]
- [HsDecl tyvar uvar name pat] -- Type, class, value, and interface signature decls
+ [HsDecl name pat] -- Type, class, value, and interface signature decls
+ (Maybe DeprecTxt) -- reason/explanation for deprecation of this module
SrcLoc
\end{code}
\begin{code}
-instance (NamedThing name, Outputable name, Outputable pat,
- Eq tyvar, Outputable tyvar, Eq uvar, Outputable uvar)
- => Outputable (HsModule tyvar uvar name pat) where
+instance (Outputable name, Outputable pat)
+ => Outputable (HsModule name pat) where
- ppr sty (HsModule name iface_version exports imports fixities
- decls src_loc)
+ ppr (HsModule name iface_version exports imports
+ decls deprec src_loc)
= vcat [
- ifPprShowAll sty (ppr sty src_loc),
- ifnotPprForUser sty (pp_iface_version iface_version),
case exports of
- Nothing -> hsep [ptext SLIT("module"), ptext name, ptext SLIT("where")]
+ Nothing -> pp_header (ptext SLIT("where"))
Just es -> vcat [
- hsep [ptext SLIT("module"), ptext name, lparen],
- nest 8 (interpp'SP sty es),
+ pp_header lparen,
+ nest 8 (fsep (punctuate comma (map ppr es))),
nest 4 (ptext SLIT(") where"))
],
pp_nonnull imports,
- pp_nonnull fixities,
pp_nonnull decls
]
where
+ pp_header rest = case deprec of
+ Nothing -> pp_modname <+> rest
+ Just d -> vcat [ pp_modname, ppr d, rest ]
+
+ pp_modname = ptext SLIT("module") <+> pprModuleName name
+
pp_nonnull [] = empty
- pp_nonnull xs = vcat (map (ppr sty) xs)
+ pp_nonnull xs = vcat (map ppr xs)
pp_iface_version Nothing = empty
pp_iface_version (Just n) = hsep [text "{-# INTERFACE", int n, text "#-}"]
\end{code}
+
+
+%************************************************************************
+%* *
+\subsection{Collecting binders from @HsBinds@}
+%* *
+%************************************************************************
+
+Get all the binders in some @MonoBinds@, IN THE ORDER OF APPEARANCE.
+
+These functions are here, rather than in HsBinds, to avoid a loop between HsPat and HsBinds.
+
+\begin{verbatim}
+...
+where
+ (x, y) = ...
+ f i j = ...
+ [a, b] = ...
+\end{verbatim}
+it should return @[x, y, f, a, b]@ (remember, order important).
+
+\begin{code}
+collectTopBinders :: HsBinds name (InPat name) -> Bag (name,SrcLoc)
+collectTopBinders EmptyBinds = emptyBag
+collectTopBinders (MonoBind b _ _) = collectMonoBinders b
+collectTopBinders (ThenBinds b1 b2)
+ = collectTopBinders b1 `unionBags` collectTopBinders b2
+
+collectMonoBinders :: MonoBinds name (InPat name) -> Bag (name,SrcLoc)
+collectMonoBinders EmptyMonoBinds = emptyBag
+collectMonoBinders (PatMonoBind pat _ loc) = listToBag (map (\v->(v,loc)) (collectPatBinders pat))
+collectMonoBinders (FunMonoBind f _ matches loc) = unitBag (f,loc)
+collectMonoBinders (VarMonoBind v expr) = error "collectMonoBinders"
+collectMonoBinders (CoreMonoBind v expr) = error "collectMonoBinders"
+collectMonoBinders (AndMonoBinds bs1 bs2) = collectMonoBinders bs1 `unionBags`
+ collectMonoBinders bs2
+\end{code}
+