-%
-% (c) The GRASP Project, Glasgow University, 1992-1998
-%
-\section[Rename]{Renaming and dependency analysis passes}
-
-\begin{code}
-module Rename ( renameModule ) where
-
-#include "HsVersions.h"
-
-import HsSyn
-import RdrHsSyn ( RdrNameHsModule )
-import RnHsSyn ( RenamedHsModule, RenamedHsDecl,
- extractHsTyNames, extractHsCtxtTyNames
- )
-
-import CmdLineOpts ( opt_HiMap, opt_D_dump_rn_trace,
- opt_D_dump_rn, opt_D_dump_rn_stats,
- opt_WarnUnusedBinds, opt_WarnUnusedImports
- )
-import RnMonad
-import RnNames ( getGlobalNames )
-import RnSource ( rnSourceDecls, rnDecl )
-import RnIfaces ( getImportedInstDecls, importDecl, getImportVersions,
- getImportedRules, loadHomeInterface, getSlurped
- )
-import RnEnv ( availName, availNames, availsToNameSet,
- warnUnusedTopNames, mapFvRn,
- FreeVars, plusFVs, plusFV, unitFV, emptyFVs, isEmptyFVs
- )
-import Module ( Module, ModuleName, pprModule, mkSearchPath, mkThisModule )
-import Name ( Name, isLocallyDefined,
- NamedThing(..), ImportReason(..), Provenance(..),
- pprOccName, nameOccName,
- getNameProvenance, occNameUserString,
- maybeWiredInTyConName, maybeWiredInIdName, isWiredInName
- )
-import Id ( idType )
-import DataCon ( dataConTyCon, dataConType )
-import TyCon ( TyCon, tyConDataCons, isSynTyCon, getSynTyConDefn )
-import RdrName ( RdrName )
-import NameSet
-import PrelMods ( mAIN_Name, pREL_MAIN_Name )
-import TysWiredIn ( unitTyCon, intTyCon, doubleTyCon, boolTyCon )
-import PrelInfo ( ioTyCon_NAME, thinAirIdNames )
-import Type ( namesOfType, funTyCon )
-import ErrUtils ( pprBagOfErrors, pprBagOfWarnings,
- doIfSet, dumpIfSet, ghcExit
- )
-import BasicTypes ( NewOrData(..) )
-import Bag ( isEmptyBag, bagToList )
-import FiniteMap ( fmToList, delListFromFM, addToFM, sizeFM, eltsFM )
-import UniqSupply ( UniqSupply )
-import Util ( equivClasses )
-import Maybes ( maybeToBool )
-import Outputable
-\end{code}
-
-
-
-\begin{code}
-renameModule :: UniqSupply
- -> RdrNameHsModule
- -> IO (Maybe
- ( Module
- , RenamedHsModule -- Output, after renaming
- , InterfaceDetails -- Interface; for interface file generation
- , RnNameSupply -- Final env; for renaming derivings
- , [ModuleName] -- Imported modules; for profiling
- ))
-
-renameModule us this_mod@(HsModule mod_name vers exports imports local_decls loc)
- = -- Initialise the renamer monad
- initRn mod_name us (mkSearchPath opt_HiMap) loc
- (rename this_mod) >>=
- \ (maybe_rn_stuff, rn_errs_bag, rn_warns_bag) ->
-
- -- Check for warnings
- doIfSet (not (isEmptyBag rn_warns_bag))
- (printErrs (pprBagOfWarnings rn_warns_bag)) >>
-
- -- Check for errors; exit if so
- doIfSet (not (isEmptyBag rn_errs_bag))
- (printErrs (pprBagOfErrors rn_errs_bag) >>
- ghcExit 1
- ) >>
-
- -- Dump output, if any
- (case maybe_rn_stuff of
- Nothing -> return ()
- Just results@(_, rn_mod, _, _, _)
- -> dumpIfSet opt_D_dump_rn "Renamer:"
- (ppr rn_mod)
- ) >>
-
- -- Return results
- return maybe_rn_stuff
-\end{code}
-
-
-\begin{code}
-rename this_mod@(HsModule mod_name vers exports imports local_decls loc)
- = -- FIND THE GLOBAL NAME ENVIRONMENT
- getGlobalNames this_mod `thenRn` \ maybe_stuff ->
-
- -- CHECK FOR EARLY EXIT
- if not (maybeToBool maybe_stuff) then
- -- Everything is up to date; no need to recompile further
- rnStats [] `thenRn_`
- returnRn Nothing
- else
- let
- Just (export_env, gbl_env, fixity_env, global_avail_env) = maybe_stuff
- in
-
- -- RENAME THE SOURCE
- initRnMS gbl_env fixity_env SourceMode (
- rnSourceDecls local_decls
- ) `thenRn` \ (rn_local_decls, source_fvs) ->
-
- -- SLURP IN ALL THE NEEDED DECLARATIONS
- let
- real_source_fvs = implicitFVs mod_name `plusFV` source_fvs
- -- It's important to do the "plus" this way round, so that
- -- when compiling the prelude, locally-defined (), Bool, etc
- -- override the implicit ones.
- in
- slurpImpDecls real_source_fvs `thenRn` \ rn_imp_decls ->
-
- -- EXIT IF ERRORS FOUND
- checkErrsRn `thenRn` \ no_errs_so_far ->
- if not no_errs_so_far then
- -- Found errors already, so exit now
- rnStats [] `thenRn_`
- returnRn Nothing
- else
-
- -- GENERATE THE VERSION/USAGE INFO
- getImportVersions mod_name exports `thenRn` \ my_usages ->
- getNameSupplyRn `thenRn` \ name_supply ->
-
- -- REPORT UNUSED NAMES
- reportUnusedNames gbl_env global_avail_env
- export_env
- source_fvs `thenRn_`
-
- -- RETURN THE RENAMED MODULE
- let
- has_orphans = any isOrphanDecl rn_local_decls
- direct_import_mods = [mod | ImportDecl mod _ _ _ _ _ <- imports]
- rn_all_decls = rn_imp_decls ++ rn_local_decls
- renamed_module = HsModule mod_name vers
- trashed_exports trashed_imports
- rn_all_decls
- loc
- in
- rnStats rn_imp_decls `thenRn_`
- returnRn (Just (mkThisModule mod_name,
- renamed_module,
- (has_orphans, my_usages, export_env),
- name_supply,
- direct_import_mods))
- where
- trashed_exports = {-trace "rnSource:trashed_exports"-} Nothing
- trashed_imports = {-trace "rnSource:trashed_imports"-} []
-\end{code}
-
-@implicitFVs@ forces the renamer to slurp in some things which aren't
-mentioned explicitly, but which might be needed by the type checker.
-
-\begin{code}
-implicitFVs mod_name
- = implicit_main `plusFV`
- mkNameSet default_tys `plusFV`
- mkNameSet thinAirIdNames
- where
- -- Add occurrences for Int, Double, and (), because they
- -- are the types to which ambigious type variables may be defaulted by
- -- the type checker; so they won't always appear explicitly.
- -- [The () one is a GHC extension for defaulting CCall results.]
- -- ALSO: funTyCon, since it occurs implicitly everywhere!
- -- (we don't want to be bothered with making funTyCon a
- -- free var at every function application!)
- default_tys = [getName intTyCon, getName doubleTyCon,
- getName unitTyCon, getName funTyCon, getName boolTyCon]
-
- -- Add occurrences for IO or PrimIO
- implicit_main | mod_name == mAIN_Name
- || mod_name == pREL_MAIN_Name = unitFV ioTyCon_NAME
- | otherwise = emptyFVs
-\end{code}
-
-\begin{code}
-isOrphanDecl (InstD (InstDecl inst_ty _ _ _ _))
- = not (foldNameSet ((||) . isLocallyDefined) False (extractHsTyNames inst_ty))
-isOrphanDecl (RuleD (RuleDecl _ _ _ lhs _ _))
- = check lhs
- where
- check (HsVar v) = not (isLocallyDefined v)
- check (HsApp f a) = check f && check a
- check other = True
-isOrphanDecl other = False
-\end{code}
-
-
-%*********************************************************
-%* *
-\subsection{Slurping declarations}
-%* *
-%*********************************************************
-
-\begin{code}
--------------------------------------------------------
-slurpImpDecls source_fvs
- = traceRn (text "slurpImp" <+> fsep (map ppr (nameSetToList source_fvs))) `thenRn_`
-
- -- The current slurped-set records all local things
- getSlurped `thenRn` \ source_binders ->
- slurpSourceRefs source_binders source_fvs `thenRn` \ (decls1, needed1, inst_gates) ->
-
- -- Now we can get the instance decls
- slurpInstDecls decls1 needed1 inst_gates `thenRn` \ (decls2, needed2) ->
-
- -- And finally get everything else
- closeDecls decls2 needed2
-
--------------------------------------------------------
-slurpSourceRefs :: NameSet -- Variables defined in source
- -> FreeVars -- Variables referenced in source
- -> RnMG ([RenamedHsDecl],
- FreeVars, -- Un-satisfied needs
- FreeVars) -- "Gates"
--- The declaration (and hence home module) of each gate has
--- already been loaded
-
-slurpSourceRefs source_binders source_fvs
- = go [] -- Accumulating decls
- emptyFVs -- Unsatisfied needs
- source_fvs -- Accumulating gates
- (nameSetToList source_fvs) -- Gates whose defn hasn't been loaded yet
- where
- go decls fvs gates []
- = returnRn (decls, fvs, gates)
-
- go decls fvs gates (wanted_name:refs)
- | isWiredInName wanted_name
- = load_home wanted_name `thenRn_`
- go decls fvs (gates `plusFV` getWiredInGates wanted_name) refs
-
- | otherwise
- = importDecl wanted_name `thenRn` \ maybe_decl ->
- case maybe_decl of
- -- No declaration... (already slurped, or local)
- Nothing -> go decls fvs gates refs
- Just decl -> rnIfaceDecl decl `thenRn` \ (new_decl, fvs1) ->
- let
- new_gates = getGates source_fvs new_decl
- in
- go (new_decl : decls)
- (fvs1 `plusFV` fvs)
- (gates `plusFV` new_gates)
- (nameSetToList new_gates ++ refs)
-
- -- When we find a wired-in name we must load its
- -- home module so that we find any instance decls therein
- load_home name
- | name `elemNameSet` source_binders = returnRn ()
- -- When compiling the prelude, a wired-in thing may
- -- be defined in this module, in which case we don't
- -- want to load its home module!
- -- Using 'isLocallyDefined' doesn't work because some of
- -- the free variables returned are simply 'listTyCon_Name',
- -- with a system provenance. We could look them up every time
- -- but that seems a waste.
- | otherwise = loadHomeInterface doc name `thenRn_`
- returnRn ()
- where
- doc = ptext SLIT("need home module for wired in thing") <+> ppr name
-
--------------------------------------------------------
--- slurpInstDecls imports appropriate instance decls.
--- It has to incorporate a loop, because consider
--- instance Foo a => Baz (Maybe a) where ...
--- It may be that Baz and Maybe are used in the source module,
--- but not Foo; so we need to chase Foo too.
-
-slurpInstDecls decls needed gates
- | isEmptyFVs gates
- = returnRn (decls, needed)
-
- | otherwise
- = getImportedInstDecls gates `thenRn` \ inst_decls ->
- rnInstDecls decls needed emptyFVs inst_decls `thenRn` \ (decls1, needed1, gates1) ->
- slurpInstDecls decls1 needed1 gates1
- where
- rnInstDecls decls fvs gates []
- = returnRn (decls, fvs, gates)
- rnInstDecls decls fvs gates (d:ds)
- = rnIfaceDecl d `thenRn` \ (new_decl, fvs1) ->
- rnInstDecls (new_decl:decls)
- (fvs1 `plusFV` fvs)
- (gates `plusFV` getInstDeclGates new_decl)
- ds
-
-
--------------------------------------------------------
--- closeDecls keeps going until the free-var set is empty
-closeDecls decls needed
- | not (isEmptyFVs needed)
- = slurpDecls decls needed `thenRn` \ (decls1, needed1) ->
- closeDecls decls1 needed1
-
- | otherwise
- = getImportedRules `thenRn` \ rule_decls ->
- case rule_decls of
- [] -> returnRn decls -- No new rules, so we are done
- other -> rnIfaceDecls decls emptyFVs rule_decls `thenRn` \ (decls1, needed1) ->
- closeDecls decls1 needed1
-
-
--------------------------------------------------------
-rnIfaceDecls :: [RenamedHsDecl] -> FreeVars
- -> [(Module, RdrNameHsDecl)]
- -> RnM d ([RenamedHsDecl], FreeVars)
-rnIfaceDecls decls fvs [] = returnRn (decls, fvs)
-rnIfaceDecls decls fvs (d:ds) = rnIfaceDecl d `thenRn` \ (new_decl, fvs1) ->
- rnIfaceDecls (new_decl:decls) (fvs1 `plusFV` fvs) ds
-
-rnIfaceDecl (mod, decl) = initIfaceRnMS mod (rnDecl decl)
-
-
--------------------------------------------------------
--- Augment decls with any decls needed by needed.
--- Return also free vars of the new decls (only)
-slurpDecls decls needed
- = go decls emptyFVs (nameSetToList needed)
- where
- go decls fvs [] = returnRn (decls, fvs)
- go decls fvs (ref:refs) = slurpDecl decls fvs ref `thenRn` \ (decls1, fvs1) ->
- go decls1 fvs1 refs
-
--------------------------------------------------------
-slurpDecl decls fvs wanted_name
- = importDecl wanted_name `thenRn` \ maybe_decl ->
- case maybe_decl of
- -- No declaration... (wired in thing)
- Nothing -> returnRn (decls, fvs)
-
- -- Found a declaration... rename it
- Just decl -> rnIfaceDecl decl `thenRn` \ (new_decl, fvs1) ->
- returnRn (new_decl:decls, fvs1 `plusFV` fvs)
-\end{code}
-
-
-%*********************************************************
-%* *
-\subsection{Extracting the 'gates'}
-%* *
-%*********************************************************
-
-When we import a declaration like
-
- data T = T1 Wibble | T2 Wobble
-
-we don't want to treat Wibble and Wobble as gates *unless* T1, T2
-respectively are mentioned by the user program. If only T is mentioned
-we want only T to be a gate; that way we don't suck in useless instance
-decls for (say) Eq Wibble, when they can't possibly be useful.
-
-@getGates@ takes a newly imported (and renamed) decl, and the free
-vars of the source program, and extracts from the decl the gate names.
-
-\begin{code}
-getGates source_fvs (SigD (IfaceSig _ ty _ _))
- = extractHsTyNames ty
-
-getGates source_fvs (TyClD (ClassDecl ctxt cls tvs sigs _ _ _ _ _ _))
- = delListFromNameSet (foldr (plusFV . get) (extractHsCtxtTyNames ctxt) sigs)
- (map getTyVarName tvs)
- `addOneToNameSet` cls
- where
- get (ClassOpSig n _ ty _)
- | n `elemNameSet` source_fvs = extractHsTyNames ty
- | otherwise = emptyFVs
-
-getGates source_fvs (TyClD (TySynonym tycon tvs ty _))
- = delListFromNameSet (extractHsTyNames ty)
- (map getTyVarName tvs)
- -- A type synonym type constructor isn't a "gate" for instance decls
-
-getGates source_fvs (TyClD (TyData _ ctxt tycon tvs cons _ _ _))
- = delListFromNameSet (foldr (plusFV . get) (extractHsCtxtTyNames ctxt) cons)
- (map getTyVarName tvs)
- `addOneToNameSet` tycon
- where
- get (ConDecl n tvs ctxt details _)
- | n `elemNameSet` source_fvs
- -- If the constructor is method, get fvs from all its fields
- = delListFromNameSet (get_details details `plusFV`
- extractHsCtxtTyNames ctxt)
- (map getTyVarName tvs)
- get (ConDecl n tvs ctxt (RecCon fields) _)
- -- Even if the constructor isn't mentioned, the fields
- -- might be, as selectors. They can't mention existentially
- -- bound tyvars (typechecker checks for that) so no need for
- -- the deleteListFromNameSet part
- = foldr (plusFV . get_field) emptyFVs fields
-
- get other_con = emptyFVs
-
- get_details (VanillaCon tys) = plusFVs (map get_bang tys)
- get_details (InfixCon t1 t2) = get_bang t1 `plusFV` get_bang t2
- get_details (RecCon fields) = plusFVs [get_bang t | (_, t) <- fields]
- get_details (NewCon t _) = extractHsTyNames t
-
- get_field (fs,t) | any (`elemNameSet` source_fvs) fs = get_bang t
- | otherwise = emptyFVs
-
- get_bang (Banged t) = extractHsTyNames t
- get_bang (Unbanged t) = extractHsTyNames t
- get_bang (Unpacked t) = extractHsTyNames t
-
-getGates source_fvs other_decl = emptyFVs
-\end{code}
-
-getWiredInGates is just like getGates, but it sees a wired-in Name
-rather than a declaration.
-
-\begin{code}
-getWiredInGates :: Name -> FreeVars
-getWiredInGates name -- No classes are wired in
- | is_id = getWiredInGates_s (namesOfType (idType the_id))
- | isSynTyCon the_tycon = getWiredInGates_s (delListFromNameSet (namesOfType ty) (map getName tyvars))
- | otherwise = unitFV name
- where
- maybe_wired_in_id = maybeWiredInIdName name
- is_id = maybeToBool maybe_wired_in_id
- maybe_wired_in_tycon = maybeWiredInTyConName name
- Just the_id = maybe_wired_in_id
- Just the_tycon = maybe_wired_in_tycon
- (tyvars,ty) = getSynTyConDefn the_tycon
-
-getWiredInGates_s names = foldr (plusFV . getWiredInGates) emptyFVs (nameSetToList names)
-\end{code}
-
-\begin{code}
-getInstDeclGates (InstD (InstDecl inst_ty _ _ _ _)) = extractHsTyNames inst_ty
-getInstDeclGates other = emptyFVs
-\end{code}
-
-
-%*********************************************************
-%* *
-\subsection{Unused names}
-%* *
-%*********************************************************
-
-\begin{code}
-reportUnusedNames gbl_env avail_env (ExportEnv export_avails _) mentioned_names
- | not (opt_WarnUnusedBinds || opt_WarnUnusedImports)
- = returnRn ()
-
- | otherwise
- = let
- used_names = mentioned_names `unionNameSets` availsToNameSet export_avails
-
- -- Now, a use of C implies a use of T,
- -- if C was brought into scope by T(..) or T(C)
- really_used_names = used_names `unionNameSets`
- mkNameSet [ availName avail
- | sub_name <- nameSetToList used_names,
- let avail = case lookupNameEnv avail_env sub_name of
- Just avail -> avail
- Nothing -> pprTrace "r.u.n" (ppr sub_name) $
- Avail sub_name
- ]
-
- defined_names = mkNameSet (concat (rdrEnvElts gbl_env))
- defined_but_not_used = nameSetToList (defined_names `minusNameSet` really_used_names)
-
- -- Filter out the ones only defined implicitly
- bad_guys = filter reportableUnusedName defined_but_not_used
- in
- warnUnusedTopNames bad_guys `thenRn_`
- returnRn ()
-
-reportableUnusedName :: Name -> Bool
-reportableUnusedName name
- = explicitlyImported (getNameProvenance name) &&
- not (startsWithUnderscore (occNameUserString (nameOccName name)))
- where
- explicitlyImported (LocalDef _ _) = True -- Report unused defns of local vars
- explicitlyImported (NonLocalDef (UserImport _ _ expl) _) = expl -- Report unused explicit imports
- explicitlyImported other = False -- Don't report others
-
- -- Haskell 98 encourages compilers to suppress warnings about
- -- unused names in a pattern if they start with "_".
- startsWithUnderscore ('_' : _) = True -- Suppress warnings for names starting
- startsWithUnderscore other = False -- with an underscore
-
-rnStats :: [RenamedHsDecl] -> RnMG ()
-rnStats imp_decls
- | opt_D_dump_rn_trace ||
- opt_D_dump_rn_stats ||
- opt_D_dump_rn
- = getRnStats imp_decls `thenRn` \ msg ->
- ioToRnM (printErrs msg) `thenRn_`
- returnRn ()
-
- | otherwise = returnRn ()
-\end{code}
-
-
-
-%*********************************************************
-%* *
-\subsection{Statistics}
-%* *
-%*********************************************************
-
-\begin{code}
-getRnStats :: [RenamedHsDecl] -> RnMG SDoc
-getRnStats imported_decls
- = getIfacesRn `thenRn` \ ifaces ->
- let
- n_mods = length [() | (_, _, Just _) <- eltsFM (iImpModInfo ifaces)]
-
- decls_read = [decl | (_, avail, True, (_,decl)) <- nameEnvElts (iDecls ifaces),
- -- Data, newtype, and class decls are in the decls_fm
- -- under multiple names; the tycon/class, and each
- -- constructor/class op too.
- -- The 'True' selects just the 'main' decl
- not (isLocallyDefined (availName avail))
- ]
-
- (cd_rd, dd_rd, nd_rd, sd_rd, vd_rd, _) = count_decls decls_read
- (cd_sp, dd_sp, nd_sp, sd_sp, vd_sp, id_sp) = count_decls imported_decls
-
- unslurped_insts = iInsts ifaces
- inst_decls_unslurped = length (bagToList unslurped_insts)
- inst_decls_read = id_sp + inst_decls_unslurped
-
- stats = vcat
- [int n_mods <+> text "interfaces read",
- hsep [ int cd_sp, text "class decls imported, out of",
- int cd_rd, text "read"],
- hsep [ int dd_sp, text "data decls imported, out of",
- int dd_rd, text "read"],
- hsep [ int nd_sp, text "newtype decls imported, out of",
- int nd_rd, text "read"],
- hsep [int sd_sp, text "type synonym decls imported, out of",
- int sd_rd, text "read"],
- hsep [int vd_sp, text "value signatures imported, out of",
- int vd_rd, text "read"],
- hsep [int id_sp, text "instance decls imported, out of",
- int inst_decls_read, text "read"],
- text "cls dcls slurp" <+> fsep (map (ppr . tyClDeclName)
- [d | TyClD d <- imported_decls, isClassDecl d]),
- text "cls dcls read" <+> fsep (map (ppr . tyClDeclName)
- [d | TyClD d <- decls_read, isClassDecl d])]
- in
- returnRn (hcat [text "Renamer stats: ", stats])
-
-count_decls decls
- = (class_decls,
- data_decls,
- newtype_decls,
- syn_decls,
- val_decls,
- inst_decls)
- where
- tycl_decls = [d | TyClD d <- decls]
- (class_decls, data_decls, newtype_decls, syn_decls) = countTyClDecls tycl_decls
-
- val_decls = length [() | SigD _ <- decls]
- inst_decls = length [() | InstD _ <- decls]
-\end{code}
-
+%\r
+% (c) The GRASP Project, Glasgow University, 1992-1998\r
+%\r
+\section[Rename]{Renaming and dependency analysis passes}\r
+\r
+\begin{code}\r
+module Rename ( renameModule ) where\r
+\r
+#include "HsVersions.h"\r
+\r
+import HsSyn\r
+import RdrHsSyn ( RdrNameHsModule )\r
+import RnHsSyn ( RenamedHsModule, RenamedHsDecl, \r
+ extractHsTyNames, extractHsCtxtTyNames\r
+ )\r
+\r
+import CmdLineOpts ( opt_HiMap, opt_D_dump_rn_trace,\r
+ opt_D_dump_rn, opt_D_dump_rn_stats,\r
+ opt_WarnUnusedBinds, opt_WarnUnusedImports\r
+ )\r
+import RnMonad\r
+import RnNames ( getGlobalNames )\r
+import RnSource ( rnSourceDecls, rnDecl )\r
+import RnIfaces ( getImportedInstDecls, importDecl, getImportVersions,\r
+ getImportedRules, loadHomeInterface, getSlurped\r
+ )\r
+import RnEnv ( availName, availNames, availsToNameSet, \r
+ warnUnusedTopNames, mapFvRn,\r
+ FreeVars, plusFVs, plusFV, unitFV, emptyFVs, isEmptyFVs\r
+ )\r
+import Module ( Module, ModuleName, pprModule, mkSearchPath, mkThisModule )\r
+import Name ( Name, isLocallyDefined,\r
+ NamedThing(..), ImportReason(..), Provenance(..),\r
+ pprOccName, nameOccName,\r
+ getNameProvenance, occNameUserString, \r
+ maybeWiredInTyConName, maybeWiredInIdName, isWiredInName\r
+ )\r
+import Id ( idType )\r
+import DataCon ( dataConTyCon, dataConType )\r
+import TyCon ( TyCon, tyConDataCons, isSynTyCon, getSynTyConDefn )\r
+import RdrName ( RdrName )\r
+import NameSet\r
+import PrelMods ( mAIN_Name, pREL_MAIN_Name )\r
+import TysWiredIn ( unitTyCon, intTyCon, doubleTyCon, boolTyCon )\r
+import PrelInfo ( ioTyCon_NAME, thinAirIdNames )\r
+import Type ( namesOfType, funTyCon )\r
+import ErrUtils ( pprBagOfErrors, pprBagOfWarnings,\r
+ doIfSet, dumpIfSet, ghcExit\r
+ )\r
+import BasicTypes ( NewOrData(..) )\r
+import Bag ( isEmptyBag, bagToList )\r
+import FiniteMap ( fmToList, delListFromFM, addToFM, sizeFM, eltsFM )\r
+import UniqSupply ( UniqSupply )\r
+import Util ( equivClasses )\r
+import Maybes ( maybeToBool )\r
+import Outputable\r
+\end{code}\r
+\r
+\r
+\r
+\begin{code}\r
+renameModule :: UniqSupply\r
+ -> RdrNameHsModule\r
+ -> IO (Maybe \r
+ ( Module\r
+ , RenamedHsModule -- Output, after renaming\r
+ , InterfaceDetails -- Interface; for interface file generation\r
+ , RnNameSupply -- Final env; for renaming derivings\r
+ , [ModuleName] -- Imported modules; for profiling\r
+ ))\r
+\r
+renameModule us this_mod@(HsModule mod_name vers exports imports local_decls loc)\r
+ = -- Initialise the renamer monad\r
+ initRn mod_name us (mkSearchPath opt_HiMap) loc\r
+ (rename this_mod) >>=\r
+ \ (maybe_rn_stuff, rn_errs_bag, rn_warns_bag) ->\r
+\r
+ -- Check for warnings\r
+ doIfSet (not (isEmptyBag rn_warns_bag))\r
+ (printErrs (pprBagOfWarnings rn_warns_bag)) >>\r
+\r
+ -- Check for errors; exit if so\r
+ doIfSet (not (isEmptyBag rn_errs_bag))\r
+ (printErrs (pprBagOfErrors rn_errs_bag) >>\r
+ ghcExit 1\r
+ ) >>\r
+\r
+ -- Dump output, if any\r
+ (case maybe_rn_stuff of\r
+ Nothing -> return ()\r
+ Just results@(_, rn_mod, _, _, _)\r
+ -> dumpIfSet opt_D_dump_rn "Renamer:"\r
+ (ppr rn_mod)\r
+ ) >>\r
+\r
+ -- Return results\r
+ return maybe_rn_stuff\r
+\end{code}\r
+\r
+\r
+\begin{code}\r
+rename this_mod@(HsModule mod_name vers exports imports local_decls loc)\r
+ = -- FIND THE GLOBAL NAME ENVIRONMENT\r
+ getGlobalNames this_mod `thenRn` \ maybe_stuff ->\r
+\r
+ -- CHECK FOR EARLY EXIT\r
+ if not (maybeToBool maybe_stuff) then\r
+ -- Everything is up to date; no need to recompile further\r
+ rnStats [] `thenRn_`\r
+ returnRn Nothing\r
+ else\r
+ let\r
+ Just (export_env, gbl_env, fixity_env, global_avail_env) = maybe_stuff\r
+ in\r
+\r
+ -- RENAME THE SOURCE\r
+ initRnMS gbl_env fixity_env SourceMode (\r
+ rnSourceDecls local_decls\r
+ ) `thenRn` \ (rn_local_decls, source_fvs) ->\r
+\r
+ -- SLURP IN ALL THE NEEDED DECLARATIONS\r
+ let\r
+ real_source_fvs = implicitFVs mod_name `plusFV` source_fvs\r
+ -- It's important to do the "plus" this way round, so that\r
+ -- when compiling the prelude, locally-defined (), Bool, etc\r
+ -- override the implicit ones. \r
+ in\r
+ slurpImpDecls real_source_fvs `thenRn` \ rn_imp_decls ->\r
+\r
+ -- EXIT IF ERRORS FOUND\r
+ checkErrsRn `thenRn` \ no_errs_so_far ->\r
+ if not no_errs_so_far then\r
+ -- Found errors already, so exit now\r
+ rnStats [] `thenRn_`\r
+ returnRn Nothing\r
+ else\r
+\r
+ -- GENERATE THE VERSION/USAGE INFO\r
+ getImportVersions mod_name exports `thenRn` \ my_usages ->\r
+ getNameSupplyRn `thenRn` \ name_supply ->\r
+\r
+ -- REPORT UNUSED NAMES\r
+ reportUnusedNames gbl_env global_avail_env\r
+ export_env\r
+ source_fvs `thenRn_`\r
+\r
+ -- RETURN THE RENAMED MODULE\r
+ let\r
+ has_orphans = any isOrphanDecl rn_local_decls\r
+ direct_import_mods = [mod | ImportDecl mod _ _ _ _ _ <- imports]\r
+ rn_all_decls = rn_imp_decls ++ rn_local_decls \r
+ renamed_module = HsModule mod_name vers \r
+ trashed_exports trashed_imports\r
+ rn_all_decls\r
+ loc\r
+ in\r
+ rnStats rn_imp_decls `thenRn_`\r
+ returnRn (Just (mkThisModule mod_name,\r
+ renamed_module, \r
+ (has_orphans, my_usages, export_env),\r
+ name_supply,\r
+ direct_import_mods))\r
+ where\r
+ trashed_exports = {-trace "rnSource:trashed_exports"-} Nothing\r
+ trashed_imports = {-trace "rnSource:trashed_imports"-} []\r
+\end{code}\r
+\r
+@implicitFVs@ forces the renamer to slurp in some things which aren't\r
+mentioned explicitly, but which might be needed by the type checker.\r
+\r
+\begin{code}\r
+implicitFVs mod_name\r
+ = implicit_main `plusFV` \r
+ mkNameSet default_tys `plusFV`\r
+ mkNameSet thinAirIdNames\r
+ where\r
+ -- Add occurrences for Int, Double, and (), because they\r
+ -- are the types to which ambigious type variables may be defaulted by\r
+ -- the type checker; so they won't always appear explicitly.\r
+ -- [The () one is a GHC extension for defaulting CCall results.]\r
+ -- ALSO: funTyCon, since it occurs implicitly everywhere!\r
+ -- (we don't want to be bothered with making funTyCon a\r
+ -- free var at every function application!)\r
+ default_tys = [getName intTyCon, getName doubleTyCon,\r
+ getName unitTyCon, getName funTyCon, getName boolTyCon]\r
+\r
+ -- Add occurrences for IO or PrimIO\r
+ implicit_main | mod_name == mAIN_Name\r
+ || mod_name == pREL_MAIN_Name = unitFV ioTyCon_NAME\r
+ | otherwise = emptyFVs\r
+\end{code}\r
+\r
+\begin{code}\r
+isOrphanDecl (InstD (InstDecl inst_ty _ _ _ _))\r
+ = not (foldNameSet ((||) . isLocallyDefined) False (extractHsTyNames inst_ty))\r
+isOrphanDecl (RuleD (RuleDecl _ _ _ lhs _ _))\r
+ = check lhs\r
+ where\r
+ check (HsVar v) = not (isLocallyDefined v)\r
+ check (HsApp f a) = check f && check a\r
+ check other = True\r
+isOrphanDecl other = False\r
+\end{code}\r
+\r
+\r
+%*********************************************************\r
+%* *\r
+\subsection{Slurping declarations}\r
+%* *\r
+%*********************************************************\r
+\r
+\begin{code}\r
+-------------------------------------------------------\r
+slurpImpDecls source_fvs\r
+ = traceRn (text "slurpImp" <+> fsep (map ppr (nameSetToList source_fvs))) `thenRn_`\r
+\r
+ -- The current slurped-set records all local things\r
+ getSlurped `thenRn` \ source_binders ->\r
+ slurpSourceRefs source_binders source_fvs `thenRn` \ (decls1, needed1, inst_gates) ->\r
+\r
+ -- Now we can get the instance decls\r
+ slurpInstDecls decls1 needed1 inst_gates `thenRn` \ (decls2, needed2) ->\r
+\r
+ -- And finally get everything else\r
+ closeDecls decls2 needed2\r
+\r
+-------------------------------------------------------\r
+slurpSourceRefs :: NameSet -- Variables defined in source\r
+ -> FreeVars -- Variables referenced in source\r
+ -> RnMG ([RenamedHsDecl],\r
+ FreeVars, -- Un-satisfied needs\r
+ FreeVars) -- "Gates"\r
+-- The declaration (and hence home module) of each gate has\r
+-- already been loaded\r
+\r
+slurpSourceRefs source_binders source_fvs\r
+ = go [] -- Accumulating decls\r
+ emptyFVs -- Unsatisfied needs\r
+ source_fvs -- Accumulating gates\r
+ (nameSetToList source_fvs) -- Gates whose defn hasn't been loaded yet\r
+ where\r
+ go decls fvs gates []\r
+ = returnRn (decls, fvs, gates)\r
+\r
+ go decls fvs gates (wanted_name:refs) \r
+ | isWiredInName wanted_name\r
+ = load_home wanted_name `thenRn_`\r
+ go decls fvs (gates `plusFV` getWiredInGates wanted_name) refs\r
+\r
+ | otherwise\r
+ = importDecl wanted_name `thenRn` \ maybe_decl ->\r
+ case maybe_decl of\r
+ -- No declaration... (already slurped, or local)\r
+ Nothing -> go decls fvs gates refs\r
+ Just decl -> rnIfaceDecl decl `thenRn` \ (new_decl, fvs1) ->\r
+ let\r
+ new_gates = getGates source_fvs new_decl\r
+ in\r
+ go (new_decl : decls)\r
+ (fvs1 `plusFV` fvs)\r
+ (gates `plusFV` new_gates)\r
+ (nameSetToList new_gates ++ refs)\r
+\r
+ -- When we find a wired-in name we must load its\r
+ -- home module so that we find any instance decls therein\r
+ load_home name \r
+ | name `elemNameSet` source_binders = returnRn ()\r
+ -- When compiling the prelude, a wired-in thing may\r
+ -- be defined in this module, in which case we don't\r
+ -- want to load its home module!\r
+ -- Using 'isLocallyDefined' doesn't work because some of\r
+ -- the free variables returned are simply 'listTyCon_Name',\r
+ -- with a system provenance. We could look them up every time\r
+ -- but that seems a waste.\r
+ | otherwise = loadHomeInterface doc name `thenRn_`\r
+ returnRn ()\r
+ where\r
+ doc = ptext SLIT("need home module for wired in thing") <+> ppr name\r
+\r
+-------------------------------------------------------\r
+-- slurpInstDecls imports appropriate instance decls.\r
+-- It has to incorporate a loop, because consider\r
+-- instance Foo a => Baz (Maybe a) where ...\r
+-- It may be that Baz and Maybe are used in the source module,\r
+-- but not Foo; so we need to chase Foo too.\r
+\r
+slurpInstDecls decls needed gates\r
+ | isEmptyFVs gates\r
+ = returnRn (decls, needed)\r
+\r
+ | otherwise\r
+ = getImportedInstDecls gates `thenRn` \ inst_decls ->\r
+ rnInstDecls decls needed emptyFVs inst_decls `thenRn` \ (decls1, needed1, gates1) ->\r
+ slurpInstDecls decls1 needed1 gates1\r
+ where\r
+ rnInstDecls decls fvs gates []\r
+ = returnRn (decls, fvs, gates)\r
+ rnInstDecls decls fvs gates (d:ds) \r
+ = rnIfaceDecl d `thenRn` \ (new_decl, fvs1) ->\r
+ rnInstDecls (new_decl:decls) \r
+ (fvs1 `plusFV` fvs)\r
+ (gates `plusFV` getInstDeclGates new_decl)\r
+ ds\r
+ \r
+\r
+-------------------------------------------------------\r
+-- closeDecls keeps going until the free-var set is empty\r
+closeDecls decls needed\r
+ | not (isEmptyFVs needed)\r
+ = slurpDecls decls needed `thenRn` \ (decls1, needed1) ->\r
+ closeDecls decls1 needed1\r
+\r
+ | otherwise\r
+ = getImportedRules `thenRn` \ rule_decls ->\r
+ case rule_decls of\r
+ [] -> returnRn decls -- No new rules, so we are done\r
+ other -> rnIfaceDecls decls emptyFVs rule_decls `thenRn` \ (decls1, needed1) ->\r
+ closeDecls decls1 needed1\r
+ \r
+\r
+-------------------------------------------------------\r
+rnIfaceDecls :: [RenamedHsDecl] -> FreeVars\r
+ -> [(Module, RdrNameHsDecl)]\r
+ -> RnM d ([RenamedHsDecl], FreeVars)\r
+rnIfaceDecls decls fvs [] = returnRn (decls, fvs)\r
+rnIfaceDecls decls fvs (d:ds) = rnIfaceDecl d `thenRn` \ (new_decl, fvs1) ->\r
+ rnIfaceDecls (new_decl:decls) (fvs1 `plusFV` fvs) ds\r
+\r
+rnIfaceDecl (mod, decl) = initIfaceRnMS mod (rnDecl decl) \r
+ \r
+\r
+-------------------------------------------------------\r
+-- Augment decls with any decls needed by needed.\r
+-- Return also free vars of the new decls (only)\r
+slurpDecls decls needed\r
+ = go decls emptyFVs (nameSetToList needed) \r
+ where\r
+ go decls fvs [] = returnRn (decls, fvs)\r
+ go decls fvs (ref:refs) = slurpDecl decls fvs ref `thenRn` \ (decls1, fvs1) ->\r
+ go decls1 fvs1 refs\r
+\r
+-------------------------------------------------------\r
+slurpDecl decls fvs wanted_name\r
+ = importDecl wanted_name `thenRn` \ maybe_decl ->\r
+ case maybe_decl of\r
+ -- No declaration... (wired in thing)\r
+ Nothing -> returnRn (decls, fvs)\r
+\r
+ -- Found a declaration... rename it\r
+ Just decl -> rnIfaceDecl decl `thenRn` \ (new_decl, fvs1) ->\r
+ returnRn (new_decl:decls, fvs1 `plusFV` fvs)\r
+\end{code}\r
+\r
+\r
+%*********************************************************\r
+%* *\r
+\subsection{Extracting the 'gates'}\r
+%* *\r
+%*********************************************************\r
+\r
+When we import a declaration like\r
+\r
+ data T = T1 Wibble | T2 Wobble\r
+\r
+we don't want to treat Wibble and Wobble as gates *unless* T1, T2\r
+respectively are mentioned by the user program. If only T is mentioned\r
+we want only T to be a gate; that way we don't suck in useless instance\r
+decls for (say) Eq Wibble, when they can't possibly be useful.\r
+\r
+@getGates@ takes a newly imported (and renamed) decl, and the free\r
+vars of the source program, and extracts from the decl the gate names.\r
+\r
+\begin{code}\r
+getGates source_fvs (SigD (IfaceSig _ ty _ _))\r
+ = extractHsTyNames ty\r
+\r
+getGates source_fvs (TyClD (ClassDecl ctxt cls tvs sigs _ _ _ _ _ _))\r
+ = delListFromNameSet (foldr (plusFV . get) (extractHsCtxtTyNames ctxt) sigs)\r
+ (map getTyVarName tvs)\r
+ `addOneToNameSet` cls\r
+ where\r
+ get (ClassOpSig n _ ty _) \r
+ | n `elemNameSet` source_fvs = extractHsTyNames ty\r
+ | otherwise = emptyFVs\r
+\r
+getGates source_fvs (TyClD (TySynonym tycon tvs ty _))\r
+ = delListFromNameSet (extractHsTyNames ty)\r
+ (map getTyVarName tvs)\r
+ -- A type synonym type constructor isn't a "gate" for instance decls\r
+\r
+getGates source_fvs (TyClD (TyData _ ctxt tycon tvs cons _ _ _))\r
+ = delListFromNameSet (foldr (plusFV . get) (extractHsCtxtTyNames ctxt) cons)\r
+ (map getTyVarName tvs)\r
+ `addOneToNameSet` tycon\r
+ where\r
+ get (ConDecl n tvs ctxt details _)\r
+ | n `elemNameSet` source_fvs\r
+ -- If the constructor is method, get fvs from all its fields\r
+ = delListFromNameSet (get_details details `plusFV` \r
+ extractHsCtxtTyNames ctxt)\r
+ (map getTyVarName tvs)\r
+ get (ConDecl n tvs ctxt (RecCon fields) _)\r
+ -- Even if the constructor isn't mentioned, the fields\r
+ -- might be, as selectors. They can't mention existentially\r
+ -- bound tyvars (typechecker checks for that) so no need for \r
+ -- the deleteListFromNameSet part\r
+ = foldr (plusFV . get_field) emptyFVs fields\r
+ \r
+ get other_con = emptyFVs\r
+\r
+ get_details (VanillaCon tys) = plusFVs (map get_bang tys)\r
+ get_details (InfixCon t1 t2) = get_bang t1 `plusFV` get_bang t2\r
+ get_details (RecCon fields) = plusFVs [get_bang t | (_, t) <- fields]\r
+ get_details (NewCon t _) = extractHsTyNames t\r
+\r
+ get_field (fs,t) | any (`elemNameSet` source_fvs) fs = get_bang t\r
+ | otherwise = emptyFVs\r
+\r
+ get_bang (Banged t) = extractHsTyNames t\r
+ get_bang (Unbanged t) = extractHsTyNames t\r
+ get_bang (Unpacked t) = extractHsTyNames t\r
+\r
+getGates source_fvs other_decl = emptyFVs\r
+\end{code}\r
+\r
+getWiredInGates is just like getGates, but it sees a wired-in Name\r
+rather than a declaration.\r
+\r
+\begin{code}\r
+getWiredInGates :: Name -> FreeVars\r
+getWiredInGates name -- No classes are wired in\r
+ | is_id = getWiredInGates_s (namesOfType (idType the_id))\r
+ | isSynTyCon the_tycon = getWiredInGates_s (delListFromNameSet (namesOfType ty) (map getName tyvars))\r
+ | otherwise = unitFV name\r
+ where\r
+ maybe_wired_in_id = maybeWiredInIdName name\r
+ is_id = maybeToBool maybe_wired_in_id\r
+ maybe_wired_in_tycon = maybeWiredInTyConName name\r
+ Just the_id = maybe_wired_in_id\r
+ Just the_tycon = maybe_wired_in_tycon\r
+ (tyvars,ty) = getSynTyConDefn the_tycon\r
+\r
+getWiredInGates_s names = foldr (plusFV . getWiredInGates) emptyFVs (nameSetToList names)\r
+\end{code}\r
+\r
+\begin{code}\r
+getInstDeclGates (InstD (InstDecl inst_ty _ _ _ _)) = extractHsTyNames inst_ty\r
+getInstDeclGates other = emptyFVs\r
+\end{code}\r
+\r
+\r
+%*********************************************************\r
+%* *\r
+\subsection{Unused names}\r
+%* *\r
+%*********************************************************\r
+\r
+\begin{code}\r
+reportUnusedNames gbl_env avail_env (ExportEnv export_avails _) mentioned_names\r
+ | not (opt_WarnUnusedBinds || opt_WarnUnusedImports)\r
+ = returnRn ()\r
+\r
+ | otherwise\r
+ = let\r
+ used_names = mentioned_names `unionNameSets` availsToNameSet export_avails\r
+\r
+ -- Now, a use of C implies a use of T,\r
+ -- if C was brought into scope by T(..) or T(C)\r
+ really_used_names = used_names `unionNameSets`\r
+ mkNameSet [ availName avail \r
+ | sub_name <- nameSetToList used_names,\r
+ let avail = case lookupNameEnv avail_env sub_name of\r
+ Just avail -> avail\r
+ Nothing -> pprTrace "r.u.n" (ppr sub_name) $\r
+ Avail sub_name\r
+ ]\r
+\r
+ defined_names = mkNameSet (concat (rdrEnvElts gbl_env))\r
+ defined_but_not_used = nameSetToList (defined_names `minusNameSet` really_used_names)\r
+\r
+ -- Filter out the ones only defined implicitly\r
+ bad_guys = filter reportableUnusedName defined_but_not_used\r
+ in\r
+ warnUnusedTopNames bad_guys `thenRn_`\r
+ returnRn ()\r
+\r
+reportableUnusedName :: Name -> Bool\r
+reportableUnusedName name\r
+ = explicitlyImported (getNameProvenance name) &&\r
+ not (startsWithUnderscore (occNameUserString (nameOccName name)))\r
+ where\r
+ explicitlyImported (LocalDef _ _) = True -- Report unused defns of local vars\r
+ explicitlyImported (NonLocalDef (UserImport _ _ expl) _) = expl -- Report unused explicit imports\r
+ explicitlyImported other = False -- Don't report others\r
+ \r
+ -- Haskell 98 encourages compilers to suppress warnings about\r
+ -- unused names in a pattern if they start with "_".\r
+ startsWithUnderscore ('_' : _) = True -- Suppress warnings for names starting\r
+ startsWithUnderscore other = False -- with an underscore\r
+\r
+rnStats :: [RenamedHsDecl] -> RnMG ()\r
+rnStats imp_decls\r
+ | opt_D_dump_rn_trace || \r
+ opt_D_dump_rn_stats ||\r
+ opt_D_dump_rn \r
+ = getRnStats imp_decls `thenRn` \ msg ->\r
+ ioToRnM (printErrs msg) `thenRn_`\r
+ returnRn ()\r
+\r
+ | otherwise = returnRn ()\r
+\end{code}\r
+\r
+\r
+\r
+%*********************************************************\r
+%* *\r
+\subsection{Statistics}\r
+%* *\r
+%*********************************************************\r
+\r
+\begin{code}\r
+getRnStats :: [RenamedHsDecl] -> RnMG SDoc\r
+getRnStats imported_decls\r
+ = getIfacesRn `thenRn` \ ifaces ->\r
+ let\r
+ n_mods = length [() | (_, _, Just _) <- eltsFM (iImpModInfo ifaces)]\r
+\r
+ decls_read = [decl | (_, avail, True, (_,decl)) <- nameEnvElts (iDecls ifaces),\r
+ -- Data, newtype, and class decls are in the decls_fm\r
+ -- under multiple names; the tycon/class, and each\r
+ -- constructor/class op too.\r
+ -- The 'True' selects just the 'main' decl\r
+ not (isLocallyDefined (availName avail))\r
+ ]\r
+\r
+ (cd_rd, dd_rd, nd_rd, sd_rd, vd_rd, _) = count_decls decls_read\r
+ (cd_sp, dd_sp, nd_sp, sd_sp, vd_sp, id_sp) = count_decls imported_decls\r
+\r
+ unslurped_insts = iInsts ifaces\r
+ inst_decls_unslurped = length (bagToList unslurped_insts)\r
+ inst_decls_read = id_sp + inst_decls_unslurped\r
+\r
+ stats = vcat \r
+ [int n_mods <+> text "interfaces read",\r
+ hsep [ int cd_sp, text "class decls imported, out of", \r
+ int cd_rd, text "read"],\r
+ hsep [ int dd_sp, text "data decls imported, out of", \r
+ int dd_rd, text "read"],\r
+ hsep [ int nd_sp, text "newtype decls imported, out of", \r
+ int nd_rd, text "read"],\r
+ hsep [int sd_sp, text "type synonym decls imported, out of", \r
+ int sd_rd, text "read"],\r
+ hsep [int vd_sp, text "value signatures imported, out of", \r
+ int vd_rd, text "read"],\r
+ hsep [int id_sp, text "instance decls imported, out of", \r
+ int inst_decls_read, text "read"],\r
+ text "cls dcls slurp" <+> fsep (map (ppr . tyClDeclName) \r
+ [d | TyClD d <- imported_decls, isClassDecl d]),\r
+ text "cls dcls read" <+> fsep (map (ppr . tyClDeclName) \r
+ [d | TyClD d <- decls_read, isClassDecl d])]\r
+ in\r
+ returnRn (hcat [text "Renamer stats: ", stats])\r
+\r
+count_decls decls\r
+ = (class_decls, \r
+ data_decls, \r
+ newtype_decls,\r
+ syn_decls, \r
+ val_decls, \r
+ inst_decls)\r
+ where\r
+ tycl_decls = [d | TyClD d <- decls]\r
+ (class_decls, data_decls, newtype_decls, syn_decls) = countTyClDecls tycl_decls\r
+\r
+ val_decls = length [() | SigD _ <- decls]\r
+ inst_decls = length [() | InstD _ <- decls]\r
+\end{code} \r
+\r
-%
-% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
-%
-\section[RnBinds]{Renaming and dependency analysis of bindings}
-
-This module does renaming and dependency analysis on value bindings in
-the abstract syntax. It does {\em not} do cycle-checks on class or
-type-synonym declarations; those cannot be done at this stage because
-they may be affected by renaming (which isn't fully worked out yet).
-
-\begin{code}
-module RnBinds (
- rnTopBinds, rnTopMonoBinds,
- rnMethodBinds, renameSigs,
- rnBinds,
- unknownSigErr
- ) where
-
-#include "HsVersions.h"
-
-import {-# SOURCE #-} RnSource ( rnHsSigType )
-
-import HsSyn
-import HsBinds ( sigsForMe )
-import RdrHsSyn
-import RnHsSyn
-import RnMonad
-import RnExpr ( rnMatch, rnGRHSs, rnPat, checkPrecMatch )
-import RnEnv ( bindLocatedLocalsRn, lookupBndrRn, lookupGlobalOccRn,
- warnUnusedLocalBinds, mapFvRn,
- FreeVars, emptyFVs, plusFV, plusFVs, unitFV, addOneFV,
- unknownNameErr
- )
-import CmdLineOpts ( opt_WarnMissingSigs )
-import Digraph ( stronglyConnComp, SCC(..) )
-import Name ( OccName, Name, nameOccName )
-import NameSet
-import RdrName ( RdrName, rdrNameOcc )
-import BasicTypes ( RecFlag(..), TopLevelFlag(..) )
-import Util ( thenCmp, removeDups )
-import List ( partition )
-import ListSetOps ( minusList )
-import Bag ( bagToList )
-import FiniteMap ( lookupFM, listToFM )
-import Maybe ( isJust )
-import Outputable
-\end{code}
-
--- ToDo: Put the annotations into the monad, so that they arrive in the proper
--- place and can be used when complaining.
-
-The code tree received by the function @rnBinds@ contains definitions
-in where-clauses which are all apparently mutually recursive, but which may
-not really depend upon each other. For example, in the top level program
-\begin{verbatim}
-f x = y where a = x
- y = x
-\end{verbatim}
-the definitions of @a@ and @y@ do not depend on each other at all.
-Unfortunately, the typechecker cannot always check such definitions.
-\footnote{Mycroft, A. 1984. Polymorphic type schemes and recursive
-definitions. In Proceedings of the International Symposium on Programming,
-Toulouse, pp. 217-39. LNCS 167. Springer Verlag.}
-However, the typechecker usually can check definitions in which only the
-strongly connected components have been collected into recursive bindings.
-This is precisely what the function @rnBinds@ does.
-
-ToDo: deal with case where a single monobinds binds the same variable
-twice.
-
-The vertag tag is a unique @Int@; the tags only need to be unique
-within one @MonoBinds@, so that unique-Int plumbing is done explicitly
-(heavy monad machinery not needed).
-
-\begin{code}
-type VertexTag = Int
-type Cycle = [VertexTag]
-type Edge = (VertexTag, VertexTag)
-\end{code}
-
-%************************************************************************
-%* *
-%* naming conventions *
-%* *
-%************************************************************************
-
-\subsection[name-conventions]{Name conventions}
-
-The basic algorithm involves walking over the tree and returning a tuple
-containing the new tree plus its free variables. Some functions, such
-as those walking polymorphic bindings (HsBinds) and qualifier lists in
-list comprehensions (@Quals@), return the variables bound in local
-environments. These are then used to calculate the free variables of the
-expression evaluated in these environments.
-
-Conventions for variable names are as follows:
-\begin{itemize}
-\item
-new code is given a prime to distinguish it from the old.
-
-\item
-a set of variables defined in @Exp@ is written @dvExp@
-
-\item
-a set of variables free in @Exp@ is written @fvExp@
-\end{itemize}
-
-%************************************************************************
-%* *
-%* analysing polymorphic bindings (HsBinds, Bind, MonoBinds) *
-%* *
-%************************************************************************
-
-\subsubsection[dep-HsBinds]{Polymorphic bindings}
-
-Non-recursive expressions are reconstructed without any changes at top
-level, although their component expressions may have to be altered.
-However, non-recursive expressions are currently not expected as
-\Haskell{} programs, and this code should not be executed.
-
-Monomorphic bindings contain information that is returned in a tuple
-(a @FlatMonoBindsInfo@) containing:
-
-\begin{enumerate}
-\item
-a unique @Int@ that serves as the ``vertex tag'' for this binding.
-
-\item
-the name of a function or the names in a pattern. These are a set
-referred to as @dvLhs@, the defined variables of the left hand side.
-
-\item
-the free variables of the body. These are referred to as @fvBody@.
-
-\item
-the definition's actual code. This is referred to as just @code@.
-\end{enumerate}
-
-The function @nonRecDvFv@ returns two sets of variables. The first is
-the set of variables defined in the set of monomorphic bindings, while the
-second is the set of free variables in those bindings.
-
-The set of variables defined in a non-recursive binding is just the
-union of all of them, as @union@ removes duplicates. However, the
-free variables in each successive set of cumulative bindings is the
-union of those in the previous set plus those of the newest binding after
-the defined variables of the previous set have been removed.
-
-@rnMethodBinds@ deals only with the declarations in class and
-instance declarations. It expects only to see @FunMonoBind@s, and
-it expects the global environment to contain bindings for the binders
-(which are all class operations).
-
-%************************************************************************
-%* *
-%* Top-level bindings
-%* *
-%************************************************************************
-
-@rnTopBinds@ assumes that the environment already
-contains bindings for the binders of this particular binding.
-
-\begin{code}
-rnTopBinds :: RdrNameHsBinds -> RnMS (RenamedHsBinds, FreeVars)
-
-rnTopBinds EmptyBinds = returnRn (EmptyBinds, emptyFVs)
-rnTopBinds (MonoBind bind sigs _) = rnTopMonoBinds bind sigs
- -- The parser doesn't produce other forms
-
-
-rnTopMonoBinds EmptyMonoBinds sigs
- = returnRn (EmptyBinds, emptyFVs)
-
-rnTopMonoBinds mbinds sigs
- = mapRn lookupBndrRn binder_rdr_names `thenRn` \ binder_names ->
- let
- binder_set = mkNameSet binder_names
- binder_occ_fm = listToFM [(nameOccName x,x) | x <- binder_names]
- in
- renameSigs opt_WarnMissingSigs binder_set
- (lookupSigOccRn binder_occ_fm) sigs `thenRn` \ (siglist, sig_fvs) ->
- rn_mono_binds siglist mbinds `thenRn` \ (final_binds, bind_fvs) ->
- returnRn (final_binds, bind_fvs `plusFV` sig_fvs)
- where
- binder_rdr_names = map fst (bagToList (collectMonoBinders mbinds))
-
--- the names appearing in the sigs have to be bound by
--- this group's binders.
-lookupSigOccRn binder_occ_fm rdr_name
- = case lookupFM binder_occ_fm (rdrNameOcc rdr_name) of
- Nothing -> failWithRn (mkUnboundName rdr_name)
- (unknownNameErr rdr_name)
- Just x -> returnRn x
-\end{code}
-
-%************************************************************************
-%* *
-%* Nested binds
-%* *
-%************************************************************************
-
-@rnMonoBinds@
- - collects up the binders for this declaration group,
- - checks that they form a set
- - extends the environment to bind them to new local names
- - calls @rnMonoBinds@ to do the real work
-
-\begin{code}
-rnBinds :: RdrNameHsBinds
- -> (RenamedHsBinds -> RnMS (result, FreeVars))
- -> RnMS (result, FreeVars)
-
-rnBinds EmptyBinds thing_inside = thing_inside EmptyBinds
-rnBinds (MonoBind bind sigs _) thing_inside = rnMonoBinds bind sigs thing_inside
- -- the parser doesn't produce other forms
-
-
-rnMonoBinds :: RdrNameMonoBinds
- -> [RdrNameSig]
- -> (RenamedHsBinds -> RnMS (result, FreeVars))
- -> RnMS (result, FreeVars)
-
-rnMonoBinds EmptyMonoBinds sigs thing_inside = thing_inside EmptyBinds
-
-rnMonoBinds mbinds sigs thing_inside -- Non-empty monobinds
- = -- Extract all the binders in this group,
- -- and extend current scope, inventing new names for the new binders
- -- This also checks that the names form a set
- bindLocatedLocalsRn (text "a binding group") mbinders_w_srclocs $ \ new_mbinders ->
- let
- binder_set = mkNameSet new_mbinders
-
- -- Weed out the fixity declarations that do not
- -- apply to any of the binders in this group.
- (sigs_for_me, fixes_not_for_me) = partition forLocalBind sigs
-
- forLocalBind (FixSig sig@(FixitySig name _ _ )) =
- isJust (lookupFM binder_occ_fm (rdrNameOcc name))
- forLocalBind _ = True
-
- binder_occ_fm = listToFM [(nameOccName x,x) | x <- new_mbinders]
-
- in
- -- Report the fixity declarations in this group that
- -- don't refer to any of the group's binders.
- --
- mapRn_ (unknownSigErr) fixes_not_for_me `thenRn_`
- renameSigs False binder_set
- (lookupSigOccRn binder_occ_fm) sigs_for_me `thenRn` \ (siglist, sig_fvs) ->
- let
- fixity_sigs = [(name,sig) | FixSig sig@(FixitySig name _ _) <- siglist ]
- in
- -- Install the fixity declarations that do apply here and go.
- extendFixityEnv fixity_sigs (
- rn_mono_binds siglist mbinds
- ) `thenRn` \ (binds, bind_fvs) ->
-
- -- Now do the "thing inside", and deal with the free-variable calculations
- thing_inside binds `thenRn` \ (result,result_fvs) ->
- let
- all_fvs = result_fvs `plusFV` bind_fvs `plusFV` sig_fvs
- unused_binders = nameSetToList (binder_set `minusNameSet` all_fvs)
- in
- warnUnusedLocalBinds unused_binders `thenRn_`
- returnRn (result, delListFromNameSet all_fvs new_mbinders)
- where
- mbinders_w_srclocs = bagToList (collectMonoBinders mbinds)
-\end{code}
-
-
-%************************************************************************
-%* *
-%* MonoBinds -- the main work is done here
-%* *
-%************************************************************************
-
-@rn_mono_binds@ is used by *both* top-level and nested bindings. It
-assumes that all variables bound in this group are already in scope.
-This is done *either* by pass 3 (for the top-level bindings), *or* by
-@rnMonoBinds@ (for the nested ones).
-
-\begin{code}
-rn_mono_binds :: [RenamedSig] -- Signatures attached to this group
- -> RdrNameMonoBinds
- -> RnMS (RenamedHsBinds, --
- FreeVars) -- Free variables
-
-rn_mono_binds siglist mbinds
- =
- -- Rename the bindings, returning a MonoBindsInfo
- -- which is a list of indivisible vertices so far as
- -- the strongly-connected-components (SCC) analysis is concerned
- flattenMonoBinds siglist mbinds `thenRn` \ mbinds_info ->
-
- -- Do the SCC analysis
- let
- edges = mkEdges (mbinds_info `zip` [(0::Int)..])
- scc_result = stronglyConnComp edges
- final_binds = foldr1 ThenBinds (map reconstructCycle scc_result)
-
- -- Deal with bound and free-var calculation
- rhs_fvs = plusFVs [fvs | (_,fvs,_,_) <- mbinds_info]
- in
- returnRn (final_binds, rhs_fvs)
-\end{code}
-
-@flattenMonoBinds@ is ever-so-slightly magical in that it sticks
-unique ``vertex tags'' on its output; minor plumbing required.
-
-Sigh - need to pass along the signatures for the group of bindings,
-in case any of them
-
-\begin{code}
-flattenMonoBinds :: [RenamedSig] -- Signatures
- -> RdrNameMonoBinds
- -> RnMS [FlatMonoBindsInfo]
-
-flattenMonoBinds sigs EmptyMonoBinds = returnRn []
-
-flattenMonoBinds sigs (AndMonoBinds bs1 bs2)
- = flattenMonoBinds sigs bs1 `thenRn` \ flat1 ->
- flattenMonoBinds sigs bs2 `thenRn` \ flat2 ->
- returnRn (flat1 ++ flat2)
-
-flattenMonoBinds sigs (PatMonoBind pat grhss locn)
- = pushSrcLocRn locn $
- rnPat pat `thenRn` \ (pat', pat_fvs) ->
-
- -- Find which things are bound in this group
- let
- names_bound_here = mkNameSet (collectPatBinders pat')
- sigs_for_me = sigsForMe (`elemNameSet` names_bound_here) sigs
- in
- rnGRHSs grhss `thenRn` \ (grhss', fvs) ->
- returnRn
- [(names_bound_here,
- fvs `plusFV` pat_fvs,
- PatMonoBind pat' grhss' locn,
- sigs_for_me
- )]
-
-flattenMonoBinds sigs (FunMonoBind name inf matches locn)
- = pushSrcLocRn locn $
- lookupBndrRn name `thenRn` \ new_name ->
- let
- sigs_for_me = sigsForMe (new_name ==) sigs
- in
- mapFvRn rnMatch matches `thenRn` \ (new_matches, fvs) ->
- mapRn_ (checkPrecMatch inf new_name) new_matches `thenRn_`
- returnRn
- [(unitNameSet new_name,
- fvs,
- FunMonoBind new_name inf new_matches locn,
- sigs_for_me
- )]
-\end{code}
-
-
-@rnMethodBinds@ is used for the method bindings of a class and an instance
-declaration. like @rnMonoBinds@ but without dependency analysis.
-
-\begin{code}
-rnMethodBinds :: RdrNameMonoBinds -> RnMS (RenamedMonoBinds, FreeVars)
-
-rnMethodBinds EmptyMonoBinds = returnRn (EmptyMonoBinds, emptyFVs)
-
-rnMethodBinds (AndMonoBinds mb1 mb2)
- = rnMethodBinds mb1 `thenRn` \ (mb1', fvs1) ->
- rnMethodBinds mb2 `thenRn` \ (mb2', fvs2) ->
- returnRn (mb1' `AndMonoBinds` mb2', fvs1 `plusFV` fvs2)
-
-rnMethodBinds (FunMonoBind name inf matches locn)
- = pushSrcLocRn locn $
-
- lookupGlobalOccRn name `thenRn` \ sel_name ->
- -- We use the selector name as the binder
-
- mapFvRn rnMatch matches `thenRn` \ (new_matches, fvs) ->
- mapRn_ (checkPrecMatch inf sel_name) new_matches `thenRn_`
- returnRn (FunMonoBind sel_name inf new_matches locn, fvs)
-
-rnMethodBinds (PatMonoBind (VarPatIn name) grhss locn)
- = pushSrcLocRn locn $
- lookupGlobalOccRn name `thenRn` \ sel_name ->
- rnGRHSs grhss `thenRn` \ (grhss', fvs) ->
- returnRn (PatMonoBind (VarPatIn sel_name) grhss' locn, fvs)
-
--- Can't handle method pattern-bindings which bind multiple methods.
-rnMethodBinds mbind@(PatMonoBind other_pat _ locn)
- = pushSrcLocRn locn $
- failWithRn (EmptyMonoBinds, emptyFVs) (methodBindErr mbind)
-\end{code}
-
-
-%************************************************************************
-%* *
-\subsection[reconstruct-deps]{Reconstructing dependencies}
-%* *
-%************************************************************************
-
-This @MonoBinds@- and @ClassDecls@-specific code is segregated here,
-as the two cases are similar.
-
-\begin{code}
-reconstructCycle :: SCC FlatMonoBindsInfo
- -> RenamedHsBinds
-
-reconstructCycle (AcyclicSCC (_, _, binds, sigs))
- = MonoBind binds sigs NonRecursive
-
-reconstructCycle (CyclicSCC cycle)
- = MonoBind this_gp_binds this_gp_sigs Recursive
- where
- this_gp_binds = foldr1 AndMonoBinds [binds | (_, _, binds, _) <- cycle]
- this_gp_sigs = foldr1 (++) [sigs | (_, _, _, sigs) <- cycle]
-\end{code}
-
-%************************************************************************
-%* *
-%* Manipulating FlatMonoBindInfo *
-%* *
-%************************************************************************
-
-During analysis a @MonoBinds@ is flattened to a @FlatMonoBindsInfo@.
-The @RenamedMonoBinds@ is always an empty bind, a pattern binding or
-a function binding, and has itself been dependency-analysed and
-renamed.
-
-\begin{code}
-type FlatMonoBindsInfo
- = (NameSet, -- Set of names defined in this vertex
- NameSet, -- Set of names used in this vertex
- RenamedMonoBinds,
- [RenamedSig]) -- Signatures, if any, for this vertex
-
-mkEdges :: [(FlatMonoBindsInfo, VertexTag)] -> [(FlatMonoBindsInfo, VertexTag, [VertexTag])]
-
-mkEdges flat_info
- = [ (info, tag, dest_vertices (nameSetToList names_used))
- | (info@(names_defined, names_used, mbind, sigs), tag) <- flat_info
- ]
- where
- -- An edge (v,v') indicates that v depends on v'
- dest_vertices src_mentions = [ target_vertex
- | ((names_defined, _, _, _), target_vertex) <- flat_info,
- mentioned_name <- src_mentions,
- mentioned_name `elemNameSet` names_defined
- ]
-\end{code}
-
-
-%************************************************************************
-%* *
-\subsubsection[dep-Sigs]{Signatures (and user-pragmas for values)}
-%* *
-%************************************************************************
-
-@renameSigs@ checks for: (a)~more than one sig for one thing;
-(b)~signatures given for things not bound here; (c)~with suitably
-flaggery, that all top-level things have type signatures.
-
-At the moment we don't gather free-var info from the types in
-signatures. We'd only need this if we wanted to report unused tyvars.
-
-\begin{code}
-renameSigs :: Bool -- True => warn if (required) type signatures are missing.
- -> NameSet -- Set of names bound in this group
- -> (RdrName -> RnMS Name)
- -> [RdrNameSig]
- -> RnMS ([RenamedSig], FreeVars) -- List of Sig constructors
-
-renameSigs sigs_required binders lookup_occ_nm sigs
- = -- Rename the signatures
- mapFvRn (renameSig lookup_occ_nm) sigs `thenRn` \ (sigs', fvs) ->
-
- -- Check for (a) duplicate signatures
- -- (b) signatures for things not in this group
- -- (c) optionally, bindings with no signature
- let
- (goodies, dups) = removeDups cmp_sig (sigsForMe (not . isUnboundName) sigs')
- not_this_group = sigsForMe (not . (`elemNameSet` binders)) goodies
- type_sig_vars = [n | Sig n _ _ <- goodies]
- un_sigd_binders | sigs_required = nameSetToList binders `minusList` type_sig_vars
- | otherwise = []
- in
- mapRn_ dupSigDeclErr dups `thenRn_`
- mapRn_ unknownSigErr not_this_group `thenRn_`
- mapRn_ (addWarnRn.missingSigWarn) un_sigd_binders `thenRn_`
- returnRn (sigs', fvs)
- -- bad ones and all:
- -- we need bindings of *some* sort for every name
-
--- We use lookupOccRn in the signatures, which is a little bit unsatisfactory
--- because this won't work for:
--- instance Foo T where
--- {-# INLINE op #-}
--- Baz.op = ...
--- We'll just rename the INLINE prag to refer to whatever other 'op'
--- is in scope. (I'm assuming that Baz.op isn't in scope unqualified.)
--- Doesn't seem worth much trouble to sort this.
-
-renameSig lookup_occ_nm (Sig v ty src_loc)
- = pushSrcLocRn src_loc $
- lookup_occ_nm v `thenRn` \ new_v ->
- rnHsSigType (quotes (ppr v)) ty `thenRn` \ (new_ty,fvs) ->
- returnRn (Sig new_v new_ty src_loc, fvs `addOneFV` new_v)
-
-renameSig _ (SpecInstSig ty src_loc)
- = pushSrcLocRn src_loc $
- rnHsSigType (text "A SPECIALISE instance pragma") ty `thenRn` \ (new_ty, fvs) ->
- returnRn (SpecInstSig new_ty src_loc, fvs)
-
-renameSig lookup_occ_nm (SpecSig v ty src_loc)
- = pushSrcLocRn src_loc $
- lookup_occ_nm v `thenRn` \ new_v ->
- rnHsSigType (quotes (ppr v)) ty `thenRn` \ (new_ty,fvs) ->
- returnRn (SpecSig new_v new_ty src_loc, fvs `addOneFV` new_v)
-
-renameSig lookup_occ_nm (InlineSig v src_loc)
- = pushSrcLocRn src_loc $
- lookup_occ_nm v `thenRn` \ new_v ->
- returnRn (InlineSig new_v src_loc, unitFV new_v)
-
-renameSig lookup_occ_nm (FixSig (FixitySig v fix src_loc))
- = pushSrcLocRn src_loc $
- lookup_occ_nm v `thenRn` \ new_v ->
- returnRn (FixSig (FixitySig new_v fix src_loc), unitFV new_v)
-
-renameSig lookup_occ_nm (NoInlineSig v src_loc)
- = pushSrcLocRn src_loc $
- lookup_occ_nm v `thenRn` \ new_v ->
- returnRn (NoInlineSig new_v src_loc, unitFV new_v)
-\end{code}
-
-Checking for distinct signatures; oh, so boring
-
-\begin{code}
-cmp_sig :: RenamedSig -> RenamedSig -> Ordering
-cmp_sig (Sig n1 _ _) (Sig n2 _ _) = n1 `compare` n2
-cmp_sig (InlineSig n1 _) (InlineSig n2 _) = n1 `compare` n2
-cmp_sig (NoInlineSig n1 _) (NoInlineSig n2 _) = n1 `compare` n2
-cmp_sig (SpecInstSig ty1 _) (SpecInstSig ty2 _) = cmpHsType compare ty1 ty2
-cmp_sig (SpecSig n1 ty1 _) (SpecSig n2 ty2 _)
- = -- may have many specialisations for one value;
- -- but not ones that are exactly the same...
- thenCmp (n1 `compare` n2) (cmpHsType compare ty1 ty2)
-
-cmp_sig other_1 other_2 -- Tags *must* be different
- | (sig_tag other_1) _LT_ (sig_tag other_2) = LT
- | otherwise = GT
-
-sig_tag (Sig n1 _ _) = (ILIT(1) :: FAST_INT)
-sig_tag (SpecSig n1 _ _) = ILIT(2)
-sig_tag (InlineSig n1 _) = ILIT(3)
-sig_tag (NoInlineSig n1 _) = ILIT(4)
-sig_tag (SpecInstSig _ _) = ILIT(5)
-sig_tag (FixSig _) = ILIT(6)
-sig_tag _ = panic# "tag(RnBinds)"
-\end{code}
-
-%************************************************************************
-%* *
-\subsection{Error messages}
-%* *
-%************************************************************************
-
-\begin{code}
-dupSigDeclErr (sig:sigs)
- = pushSrcLocRn loc $
- addErrRn (sep [ptext SLIT("Duplicate") <+> ptext what_it_is <> colon,
- ppr sig])
- where
- (what_it_is, loc) = sig_doc sig
-
-unknownSigErr sig
- = pushSrcLocRn loc $
- addErrRn (sep [ptext SLIT("Misplaced"),
- ptext what_it_is <> colon,
- ppr sig])
- where
- (what_it_is, loc) = sig_doc sig
-
-sig_doc (Sig _ _ loc) = (SLIT("type signature"),loc)
-sig_doc (ClassOpSig _ _ _ loc) = (SLIT("class-method type signature"), loc)
-sig_doc (SpecSig _ _ loc) = (SLIT("SPECIALISE pragma"),loc)
-sig_doc (InlineSig _ loc) = (SLIT("INLINE pragma"),loc)
-sig_doc (NoInlineSig _ loc) = (SLIT("NOINLINE pragma"),loc)
-sig_doc (SpecInstSig _ loc) = (SLIT("SPECIALISE instance pragma"),loc)
-sig_doc (FixSig (FixitySig _ _ loc)) = (SLIT("fixity declaration"), loc)
-
-missingSigWarn var
- = sep [ptext SLIT("definition but no type signature for"), quotes (ppr var)]
-
-methodBindErr mbind
- = hang (ptext SLIT("Can't handle multiple methods defined by one pattern binding"))
- 4 (ppr mbind)
-\end{code}
+%\r
+% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998\r
+%\r
+\section[RnBinds]{Renaming and dependency analysis of bindings}\r
+\r
+This module does renaming and dependency analysis on value bindings in\r
+the abstract syntax. It does {\em not} do cycle-checks on class or\r
+type-synonym declarations; those cannot be done at this stage because\r
+they may be affected by renaming (which isn't fully worked out yet).\r
+\r
+\begin{code}\r
+module RnBinds (\r
+ rnTopBinds, rnTopMonoBinds,\r
+ rnMethodBinds, renameSigs,\r
+ rnBinds,\r
+ unknownSigErr\r
+ ) where\r
+\r
+#include "HsVersions.h"\r
+\r
+import {-# SOURCE #-} RnSource ( rnHsSigType )\r
+\r
+import HsSyn\r
+import HsBinds ( sigsForMe )\r
+import RdrHsSyn\r
+import RnHsSyn\r
+import RnMonad\r
+import RnExpr ( rnMatch, rnGRHSs, rnPat, checkPrecMatch )\r
+import RnEnv ( bindLocatedLocalsRn, lookupBndrRn, lookupGlobalOccRn,\r
+ warnUnusedLocalBinds, mapFvRn, \r
+ FreeVars, emptyFVs, plusFV, plusFVs, unitFV, addOneFV,\r
+ unknownNameErr\r
+ )\r
+import CmdLineOpts ( opt_WarnMissingSigs )\r
+import Digraph ( stronglyConnComp, SCC(..) )\r
+import Name ( OccName, Name, nameOccName )\r
+import NameSet\r
+import RdrName ( RdrName, rdrNameOcc )\r
+import BasicTypes ( RecFlag(..), TopLevelFlag(..) )\r
+import Util ( thenCmp, removeDups )\r
+import List ( partition )\r
+import ListSetOps ( minusList )\r
+import Bag ( bagToList )\r
+import FiniteMap ( lookupFM, listToFM )\r
+import Maybe ( isJust )\r
+import Outputable\r
+\end{code}\r
+\r
+-- ToDo: Put the annotations into the monad, so that they arrive in the proper\r
+-- place and can be used when complaining.\r
+\r
+The code tree received by the function @rnBinds@ contains definitions\r
+in where-clauses which are all apparently mutually recursive, but which may\r
+not really depend upon each other. For example, in the top level program\r
+\begin{verbatim}\r
+f x = y where a = x\r
+ y = x\r
+\end{verbatim}\r
+the definitions of @a@ and @y@ do not depend on each other at all.\r
+Unfortunately, the typechecker cannot always check such definitions.\r
+\footnote{Mycroft, A. 1984. Polymorphic type schemes and recursive\r
+definitions. In Proceedings of the International Symposium on Programming,\r
+Toulouse, pp. 217-39. LNCS 167. Springer Verlag.}\r
+However, the typechecker usually can check definitions in which only the\r
+strongly connected components have been collected into recursive bindings.\r
+This is precisely what the function @rnBinds@ does.\r
+\r
+ToDo: deal with case where a single monobinds binds the same variable\r
+twice.\r
+\r
+The vertag tag is a unique @Int@; the tags only need to be unique\r
+within one @MonoBinds@, so that unique-Int plumbing is done explicitly\r
+(heavy monad machinery not needed).\r
+\r
+\begin{code}\r
+type VertexTag = Int\r
+type Cycle = [VertexTag]\r
+type Edge = (VertexTag, VertexTag)\r
+\end{code}\r
+\r
+%************************************************************************\r
+%* *\r
+%* naming conventions *\r
+%* *\r
+%************************************************************************\r
+\r
+\subsection[name-conventions]{Name conventions}\r
+\r
+The basic algorithm involves walking over the tree and returning a tuple\r
+containing the new tree plus its free variables. Some functions, such\r
+as those walking polymorphic bindings (HsBinds) and qualifier lists in\r
+list comprehensions (@Quals@), return the variables bound in local\r
+environments. These are then used to calculate the free variables of the\r
+expression evaluated in these environments.\r
+\r
+Conventions for variable names are as follows:\r
+\begin{itemize}\r
+\item\r
+new code is given a prime to distinguish it from the old.\r
+\r
+\item\r
+a set of variables defined in @Exp@ is written @dvExp@\r
+\r
+\item\r
+a set of variables free in @Exp@ is written @fvExp@\r
+\end{itemize}\r
+\r
+%************************************************************************\r
+%* *\r
+%* analysing polymorphic bindings (HsBinds, Bind, MonoBinds) *\r
+%* *\r
+%************************************************************************\r
+\r
+\subsubsection[dep-HsBinds]{Polymorphic bindings}\r
+\r
+Non-recursive expressions are reconstructed without any changes at top\r
+level, although their component expressions may have to be altered.\r
+However, non-recursive expressions are currently not expected as\r
+\Haskell{} programs, and this code should not be executed.\r
+\r
+Monomorphic bindings contain information that is returned in a tuple\r
+(a @FlatMonoBindsInfo@) containing:\r
+\r
+\begin{enumerate}\r
+\item\r
+a unique @Int@ that serves as the ``vertex tag'' for this binding.\r
+\r
+\item\r
+the name of a function or the names in a pattern. These are a set\r
+referred to as @dvLhs@, the defined variables of the left hand side.\r
+\r
+\item\r
+the free variables of the body. These are referred to as @fvBody@.\r
+\r
+\item\r
+the definition's actual code. This is referred to as just @code@.\r
+\end{enumerate}\r
+\r
+The function @nonRecDvFv@ returns two sets of variables. The first is\r
+the set of variables defined in the set of monomorphic bindings, while the\r
+second is the set of free variables in those bindings.\r
+\r
+The set of variables defined in a non-recursive binding is just the\r
+union of all of them, as @union@ removes duplicates. However, the\r
+free variables in each successive set of cumulative bindings is the\r
+union of those in the previous set plus those of the newest binding after\r
+the defined variables of the previous set have been removed.\r
+\r
+@rnMethodBinds@ deals only with the declarations in class and\r
+instance declarations. It expects only to see @FunMonoBind@s, and\r
+it expects the global environment to contain bindings for the binders\r
+(which are all class operations).\r
+\r
+%************************************************************************\r
+%* *\r
+%* Top-level bindings\r
+%* *\r
+%************************************************************************\r
+\r
+@rnTopBinds@ assumes that the environment already\r
+contains bindings for the binders of this particular binding.\r
+\r
+\begin{code}\r
+rnTopBinds :: RdrNameHsBinds -> RnMS (RenamedHsBinds, FreeVars)\r
+\r
+rnTopBinds EmptyBinds = returnRn (EmptyBinds, emptyFVs)\r
+rnTopBinds (MonoBind bind sigs _) = rnTopMonoBinds bind sigs\r
+ -- The parser doesn't produce other forms\r
+\r
+\r
+rnTopMonoBinds EmptyMonoBinds sigs \r
+ = returnRn (EmptyBinds, emptyFVs)\r
+\r
+rnTopMonoBinds mbinds sigs\r
+ = mapRn lookupBndrRn binder_rdr_names `thenRn` \ binder_names ->\r
+ let\r
+ binder_set = mkNameSet binder_names\r
+ binder_occ_fm = listToFM [(nameOccName x,x) | x <- binder_names]\r
+ in\r
+ renameSigs opt_WarnMissingSigs binder_set\r
+ (lookupSigOccRn binder_occ_fm) sigs `thenRn` \ (siglist, sig_fvs) ->\r
+ rn_mono_binds siglist mbinds `thenRn` \ (final_binds, bind_fvs) ->\r
+ returnRn (final_binds, bind_fvs `plusFV` sig_fvs)\r
+ where\r
+ binder_rdr_names = map fst (bagToList (collectMonoBinders mbinds))\r
+\r
+-- the names appearing in the sigs have to be bound by \r
+-- this group's binders.\r
+lookupSigOccRn binder_occ_fm rdr_name\r
+ = case lookupFM binder_occ_fm (rdrNameOcc rdr_name) of\r
+ Nothing -> failWithRn (mkUnboundName rdr_name)\r
+ (unknownNameErr rdr_name)\r
+ Just x -> returnRn x\r
+\end{code}\r
+\r
+%************************************************************************\r
+%* *\r
+%* Nested binds\r
+%* *\r
+%************************************************************************\r
+\r
+@rnMonoBinds@\r
+ - collects up the binders for this declaration group,\r
+ - checks that they form a set\r
+ - extends the environment to bind them to new local names\r
+ - calls @rnMonoBinds@ to do the real work\r
+\r
+\begin{code}\r
+rnBinds :: RdrNameHsBinds \r
+ -> (RenamedHsBinds -> RnMS (result, FreeVars))\r
+ -> RnMS (result, FreeVars)\r
+\r
+rnBinds EmptyBinds thing_inside = thing_inside EmptyBinds\r
+rnBinds (MonoBind bind sigs _) thing_inside = rnMonoBinds bind sigs thing_inside\r
+ -- the parser doesn't produce other forms\r
+\r
+\r
+rnMonoBinds :: RdrNameMonoBinds \r
+ -> [RdrNameSig]\r
+ -> (RenamedHsBinds -> RnMS (result, FreeVars))\r
+ -> RnMS (result, FreeVars)\r
+\r
+rnMonoBinds EmptyMonoBinds sigs thing_inside = thing_inside EmptyBinds\r
+\r
+rnMonoBinds mbinds sigs thing_inside -- Non-empty monobinds\r
+ = -- Extract all the binders in this group,\r
+ -- and extend current scope, inventing new names for the new binders\r
+ -- This also checks that the names form a set\r
+ bindLocatedLocalsRn (text "a binding group") mbinders_w_srclocs $ \ new_mbinders ->\r
+ let\r
+ binder_set = mkNameSet new_mbinders\r
+\r
+ -- Weed out the fixity declarations that do not\r
+ -- apply to any of the binders in this group.\r
+ (sigs_for_me, fixes_not_for_me) = partition forLocalBind sigs\r
+\r
+ forLocalBind (FixSig sig@(FixitySig name _ _ )) =\r
+ isJust (lookupFM binder_occ_fm (rdrNameOcc name))\r
+ forLocalBind _ = True\r
+\r
+ binder_occ_fm = listToFM [(nameOccName x,x) | x <- new_mbinders]\r
+\r
+ in\r
+ -- Report the fixity declarations in this group that \r
+ -- don't refer to any of the group's binders.\r
+ --\r
+ mapRn_ (unknownSigErr) fixes_not_for_me `thenRn_`\r
+ renameSigs False binder_set\r
+ (lookupSigOccRn binder_occ_fm) sigs_for_me `thenRn` \ (siglist, sig_fvs) ->\r
+ let\r
+ fixity_sigs = [(name,sig) | FixSig sig@(FixitySig name _ _) <- siglist ]\r
+ in\r
+ -- Install the fixity declarations that do apply here and go.\r
+ extendFixityEnv fixity_sigs (\r
+ rn_mono_binds siglist mbinds\r
+ ) `thenRn` \ (binds, bind_fvs) ->\r
+\r
+ -- Now do the "thing inside", and deal with the free-variable calculations\r
+ thing_inside binds `thenRn` \ (result,result_fvs) ->\r
+ let\r
+ all_fvs = result_fvs `plusFV` bind_fvs `plusFV` sig_fvs\r
+ unused_binders = nameSetToList (binder_set `minusNameSet` all_fvs)\r
+ in\r
+ warnUnusedLocalBinds unused_binders `thenRn_`\r
+ returnRn (result, delListFromNameSet all_fvs new_mbinders)\r
+ where\r
+ mbinders_w_srclocs = bagToList (collectMonoBinders mbinds)\r
+\end{code}\r
+\r
+\r
+%************************************************************************\r
+%* *\r
+%* MonoBinds -- the main work is done here\r
+%* *\r
+%************************************************************************\r
+\r
+@rn_mono_binds@ is used by *both* top-level and nested bindings. It\r
+assumes that all variables bound in this group are already in scope.\r
+This is done *either* by pass 3 (for the top-level bindings), *or* by\r
+@rnMonoBinds@ (for the nested ones).\r
+\r
+\begin{code}\r
+rn_mono_binds :: [RenamedSig] -- Signatures attached to this group\r
+ -> RdrNameMonoBinds \r
+ -> RnMS (RenamedHsBinds, -- \r
+ FreeVars) -- Free variables\r
+\r
+rn_mono_binds siglist mbinds\r
+ =\r
+ -- Rename the bindings, returning a MonoBindsInfo\r
+ -- which is a list of indivisible vertices so far as\r
+ -- the strongly-connected-components (SCC) analysis is concerned\r
+ flattenMonoBinds siglist mbinds `thenRn` \ mbinds_info ->\r
+\r
+ -- Do the SCC analysis\r
+ let \r
+ edges = mkEdges (mbinds_info `zip` [(0::Int)..])\r
+ scc_result = stronglyConnComp edges\r
+ final_binds = foldr1 ThenBinds (map reconstructCycle scc_result)\r
+\r
+ -- Deal with bound and free-var calculation\r
+ rhs_fvs = plusFVs [fvs | (_,fvs,_,_) <- mbinds_info]\r
+ in\r
+ returnRn (final_binds, rhs_fvs)\r
+\end{code}\r
+\r
+@flattenMonoBinds@ is ever-so-slightly magical in that it sticks\r
+unique ``vertex tags'' on its output; minor plumbing required.\r
+\r
+Sigh - need to pass along the signatures for the group of bindings,\r
+in case any of them \r
+\r
+\begin{code}\r
+flattenMonoBinds :: [RenamedSig] -- Signatures\r
+ -> RdrNameMonoBinds\r
+ -> RnMS [FlatMonoBindsInfo]\r
+\r
+flattenMonoBinds sigs EmptyMonoBinds = returnRn []\r
+\r
+flattenMonoBinds sigs (AndMonoBinds bs1 bs2)\r
+ = flattenMonoBinds sigs bs1 `thenRn` \ flat1 ->\r
+ flattenMonoBinds sigs bs2 `thenRn` \ flat2 ->\r
+ returnRn (flat1 ++ flat2)\r
+\r
+flattenMonoBinds sigs (PatMonoBind pat grhss locn)\r
+ = pushSrcLocRn locn $\r
+ rnPat pat `thenRn` \ (pat', pat_fvs) ->\r
+\r
+ -- Find which things are bound in this group\r
+ let\r
+ names_bound_here = mkNameSet (collectPatBinders pat')\r
+ sigs_for_me = sigsForMe (`elemNameSet` names_bound_here) sigs\r
+ in\r
+ rnGRHSs grhss `thenRn` \ (grhss', fvs) ->\r
+ returnRn \r
+ [(names_bound_here,\r
+ fvs `plusFV` pat_fvs,\r
+ PatMonoBind pat' grhss' locn,\r
+ sigs_for_me\r
+ )]\r
+\r
+flattenMonoBinds sigs (FunMonoBind name inf matches locn)\r
+ = pushSrcLocRn locn $\r
+ lookupBndrRn name `thenRn` \ new_name ->\r
+ let\r
+ sigs_for_me = sigsForMe (new_name ==) sigs\r
+ in\r
+ mapFvRn rnMatch matches `thenRn` \ (new_matches, fvs) ->\r
+ mapRn_ (checkPrecMatch inf new_name) new_matches `thenRn_`\r
+ returnRn\r
+ [(unitNameSet new_name,\r
+ fvs,\r
+ FunMonoBind new_name inf new_matches locn,\r
+ sigs_for_me\r
+ )]\r
+\end{code}\r
+\r
+\r
+@rnMethodBinds@ is used for the method bindings of a class and an instance\r
+declaration. like @rnMonoBinds@ but without dependency analysis.\r
+\r
+NOTA BENE: we record each *binder* of a method-bind group as a free variable.\r
+That's crucial when dealing with an instance decl:\r
+ instance Foo (T a) where\r
+ op x = ...\r
+This might be the *sole* occurrence of 'op' for an imported class Foo,\r
+and unless op occurs we won't treat the type signature of op in the class\r
+decl for Foo as a source of instance-decl gates. But we should! Indeed,\r
+in many ways the op in an instance decl is just like an occurrence, not\r
+a binder.\r
+\r
+\begin{code}\r
+rnMethodBinds :: RdrNameMonoBinds -> RnMS (RenamedMonoBinds, FreeVars)\r
+\r
+rnMethodBinds EmptyMonoBinds = returnRn (EmptyMonoBinds, emptyFVs)\r
+\r
+rnMethodBinds (AndMonoBinds mb1 mb2)\r
+ = rnMethodBinds mb1 `thenRn` \ (mb1', fvs1) ->\r
+ rnMethodBinds mb2 `thenRn` \ (mb2', fvs2) ->\r
+ returnRn (mb1' `AndMonoBinds` mb2', fvs1 `plusFV` fvs2)\r
+\r
+rnMethodBinds (FunMonoBind name inf matches locn)\r
+ = pushSrcLocRn locn $\r
+\r
+ lookupGlobalOccRn name `thenRn` \ sel_name -> \r
+ -- We use the selector name as the binder\r
+\r
+ mapFvRn rnMatch matches `thenRn` \ (new_matches, fvs) ->\r
+ mapRn_ (checkPrecMatch inf sel_name) new_matches `thenRn_`\r
+ returnRn (FunMonoBind sel_name inf new_matches locn, fvs `addOneFV` sel_name)\r
+\r
+rnMethodBinds (PatMonoBind (VarPatIn name) grhss locn)\r
+ = pushSrcLocRn locn $\r
+ lookupGlobalOccRn name `thenRn` \ sel_name -> \r
+ rnGRHSs grhss `thenRn` \ (grhss', fvs) ->\r
+ returnRn (PatMonoBind (VarPatIn sel_name) grhss' locn, fvs `addOneFV` sel_name)\r
+\r
+-- Can't handle method pattern-bindings which bind multiple methods.\r
+rnMethodBinds mbind@(PatMonoBind other_pat _ locn)\r
+ = pushSrcLocRn locn $\r
+ failWithRn (EmptyMonoBinds, emptyFVs) (methodBindErr mbind)\r
+\end{code}\r
+\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection[reconstruct-deps]{Reconstructing dependencies}\r
+%* *\r
+%************************************************************************\r
+\r
+This @MonoBinds@- and @ClassDecls@-specific code is segregated here,\r
+as the two cases are similar.\r
+\r
+\begin{code}\r
+reconstructCycle :: SCC FlatMonoBindsInfo\r
+ -> RenamedHsBinds\r
+\r
+reconstructCycle (AcyclicSCC (_, _, binds, sigs))\r
+ = MonoBind binds sigs NonRecursive\r
+\r
+reconstructCycle (CyclicSCC cycle)\r
+ = MonoBind this_gp_binds this_gp_sigs Recursive\r
+ where\r
+ this_gp_binds = foldr1 AndMonoBinds [binds | (_, _, binds, _) <- cycle]\r
+ this_gp_sigs = foldr1 (++) [sigs | (_, _, _, sigs) <- cycle]\r
+\end{code}\r
+\r
+%************************************************************************\r
+%* *\r
+%* Manipulating FlatMonoBindInfo *\r
+%* *\r
+%************************************************************************\r
+\r
+During analysis a @MonoBinds@ is flattened to a @FlatMonoBindsInfo@.\r
+The @RenamedMonoBinds@ is always an empty bind, a pattern binding or\r
+a function binding, and has itself been dependency-analysed and\r
+renamed.\r
+\r
+\begin{code}\r
+type FlatMonoBindsInfo\r
+ = (NameSet, -- Set of names defined in this vertex\r
+ NameSet, -- Set of names used in this vertex\r
+ RenamedMonoBinds,\r
+ [RenamedSig]) -- Signatures, if any, for this vertex\r
+\r
+mkEdges :: [(FlatMonoBindsInfo, VertexTag)] -> [(FlatMonoBindsInfo, VertexTag, [VertexTag])]\r
+\r
+mkEdges flat_info\r
+ = [ (info, tag, dest_vertices (nameSetToList names_used))\r
+ | (info@(names_defined, names_used, mbind, sigs), tag) <- flat_info\r
+ ]\r
+ where\r
+ -- An edge (v,v') indicates that v depends on v'\r
+ dest_vertices src_mentions = [ target_vertex\r
+ | ((names_defined, _, _, _), target_vertex) <- flat_info,\r
+ mentioned_name <- src_mentions,\r
+ mentioned_name `elemNameSet` names_defined\r
+ ]\r
+\end{code}\r
+\r
+\r
+%************************************************************************\r
+%* *\r
+\subsubsection[dep-Sigs]{Signatures (and user-pragmas for values)}\r
+%* *\r
+%************************************************************************\r
+\r
+@renameSigs@ checks for: (a)~more than one sig for one thing;\r
+(b)~signatures given for things not bound here; (c)~with suitably\r
+flaggery, that all top-level things have type signatures.\r
+\r
+At the moment we don't gather free-var info from the types in\r
+signatures. We'd only need this if we wanted to report unused tyvars.\r
+\r
+\begin{code}\r
+renameSigs :: Bool -- True => warn if (required) type signatures are missing.\r
+ -> NameSet -- Set of names bound in this group\r
+ -> (RdrName -> RnMS Name)\r
+ -> [RdrNameSig]\r
+ -> RnMS ([RenamedSig], FreeVars) -- List of Sig constructors\r
+\r
+renameSigs sigs_required binders lookup_occ_nm sigs\r
+ = -- Rename the signatures\r
+ mapFvRn (renameSig lookup_occ_nm) sigs `thenRn` \ (sigs', fvs) ->\r
+\r
+ -- Check for (a) duplicate signatures\r
+ -- (b) signatures for things not in this group\r
+ -- (c) optionally, bindings with no signature\r
+ let\r
+ (goodies, dups) = removeDups cmp_sig (sigsForMe (not . isUnboundName) sigs')\r
+ not_this_group = sigsForMe (not . (`elemNameSet` binders)) goodies\r
+ type_sig_vars = [n | Sig n _ _ <- goodies]\r
+ un_sigd_binders | sigs_required = nameSetToList binders `minusList` type_sig_vars\r
+ | otherwise = []\r
+ in\r
+ mapRn_ dupSigDeclErr dups `thenRn_`\r
+ mapRn_ unknownSigErr not_this_group `thenRn_`\r
+ mapRn_ (addWarnRn.missingSigWarn) un_sigd_binders `thenRn_`\r
+ returnRn (sigs', fvs) \r
+ -- bad ones and all:\r
+ -- we need bindings of *some* sort for every name\r
+\r
+-- We use lookupOccRn in the signatures, which is a little bit unsatisfactory\r
+-- because this won't work for:\r
+-- instance Foo T where\r
+-- {-# INLINE op #-}\r
+-- Baz.op = ...\r
+-- We'll just rename the INLINE prag to refer to whatever other 'op'\r
+-- is in scope. (I'm assuming that Baz.op isn't in scope unqualified.)\r
+-- Doesn't seem worth much trouble to sort this.\r
+\r
+renameSig lookup_occ_nm (Sig v ty src_loc)\r
+ = pushSrcLocRn src_loc $\r
+ lookup_occ_nm v `thenRn` \ new_v ->\r
+ rnHsSigType (quotes (ppr v)) ty `thenRn` \ (new_ty,fvs) ->\r
+ returnRn (Sig new_v new_ty src_loc, fvs `addOneFV` new_v)\r
+\r
+renameSig _ (SpecInstSig ty src_loc)\r
+ = pushSrcLocRn src_loc $\r
+ rnHsSigType (text "A SPECIALISE instance pragma") ty `thenRn` \ (new_ty, fvs) ->\r
+ returnRn (SpecInstSig new_ty src_loc, fvs)\r
+\r
+renameSig lookup_occ_nm (SpecSig v ty src_loc)\r
+ = pushSrcLocRn src_loc $\r
+ lookup_occ_nm v `thenRn` \ new_v ->\r
+ rnHsSigType (quotes (ppr v)) ty `thenRn` \ (new_ty,fvs) ->\r
+ returnRn (SpecSig new_v new_ty src_loc, fvs `addOneFV` new_v)\r
+\r
+renameSig lookup_occ_nm (InlineSig v src_loc)\r
+ = pushSrcLocRn src_loc $\r
+ lookup_occ_nm v `thenRn` \ new_v ->\r
+ returnRn (InlineSig new_v src_loc, unitFV new_v)\r
+\r
+renameSig lookup_occ_nm (FixSig (FixitySig v fix src_loc))\r
+ = pushSrcLocRn src_loc $\r
+ lookup_occ_nm v `thenRn` \ new_v ->\r
+ returnRn (FixSig (FixitySig new_v fix src_loc), unitFV new_v)\r
+\r
+renameSig lookup_occ_nm (NoInlineSig v src_loc)\r
+ = pushSrcLocRn src_loc $\r
+ lookup_occ_nm v `thenRn` \ new_v ->\r
+ returnRn (NoInlineSig new_v src_loc, unitFV new_v)\r
+\end{code}\r
+\r
+Checking for distinct signatures; oh, so boring\r
+\r
+\begin{code}\r
+cmp_sig :: RenamedSig -> RenamedSig -> Ordering\r
+cmp_sig (Sig n1 _ _) (Sig n2 _ _) = n1 `compare` n2\r
+cmp_sig (InlineSig n1 _) (InlineSig n2 _) = n1 `compare` n2\r
+cmp_sig (NoInlineSig n1 _) (NoInlineSig n2 _) = n1 `compare` n2\r
+cmp_sig (SpecInstSig ty1 _) (SpecInstSig ty2 _) = cmpHsType compare ty1 ty2\r
+cmp_sig (SpecSig n1 ty1 _) (SpecSig n2 ty2 _) \r
+ = -- may have many specialisations for one value;\r
+ -- but not ones that are exactly the same...\r
+ thenCmp (n1 `compare` n2) (cmpHsType compare ty1 ty2)\r
+\r
+cmp_sig other_1 other_2 -- Tags *must* be different\r
+ | (sig_tag other_1) _LT_ (sig_tag other_2) = LT \r
+ | otherwise = GT\r
+\r
+sig_tag (Sig n1 _ _) = (ILIT(1) :: FAST_INT)\r
+sig_tag (SpecSig n1 _ _) = ILIT(2)\r
+sig_tag (InlineSig n1 _) = ILIT(3)\r
+sig_tag (NoInlineSig n1 _) = ILIT(4)\r
+sig_tag (SpecInstSig _ _) = ILIT(5)\r
+sig_tag (FixSig _) = ILIT(6)\r
+sig_tag _ = panic# "tag(RnBinds)"\r
+\end{code}\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection{Error messages}\r
+%* *\r
+%************************************************************************\r
+\r
+\begin{code}\r
+dupSigDeclErr (sig:sigs)\r
+ = pushSrcLocRn loc $\r
+ addErrRn (sep [ptext SLIT("Duplicate") <+> ptext what_it_is <> colon,\r
+ ppr sig])\r
+ where\r
+ (what_it_is, loc) = sig_doc sig\r
+\r
+unknownSigErr sig\r
+ = pushSrcLocRn loc $\r
+ addErrRn (sep [ptext SLIT("Misplaced"),\r
+ ptext what_it_is <> colon,\r
+ ppr sig])\r
+ where\r
+ (what_it_is, loc) = sig_doc sig\r
+\r
+sig_doc (Sig _ _ loc) = (SLIT("type signature"),loc)\r
+sig_doc (ClassOpSig _ _ _ loc) = (SLIT("class-method type signature"), loc)\r
+sig_doc (SpecSig _ _ loc) = (SLIT("SPECIALISE pragma"),loc)\r
+sig_doc (InlineSig _ loc) = (SLIT("INLINE pragma"),loc)\r
+sig_doc (NoInlineSig _ loc) = (SLIT("NOINLINE pragma"),loc)\r
+sig_doc (SpecInstSig _ loc) = (SLIT("SPECIALISE instance pragma"),loc)\r
+sig_doc (FixSig (FixitySig _ _ loc)) = (SLIT("fixity declaration"), loc)\r
+\r
+missingSigWarn var\r
+ = sep [ptext SLIT("definition but no type signature for"), quotes (ppr var)]\r
+\r
+methodBindErr mbind\r
+ = hang (ptext SLIT("Can't handle multiple methods defined by one pattern binding"))\r
+ 4 (ppr mbind)\r
+\end{code}\r
-%
-% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
-%
-\section[RnMonad]{The monad used by the renamer}
-
-\begin{code}
-module RnMonad(
- module RnMonad,
- Module,
- FiniteMap,
- Bag,
- Name,
- RdrNameHsDecl,
- RdrNameInstDecl,
- Version,
- NameSet,
- OccName,
- Fixity
- ) where
-
-#include "HsVersions.h"
-
-import PrelIOBase ( fixIO ) -- Should be in GlaExts
-import IOExts ( IORef, newIORef, readIORef, writeIORef, unsafePerformIO )
-
-import HsSyn
-import RdrHsSyn
-import RnHsSyn ( RenamedFixitySig )
-import BasicTypes ( Version )
-import SrcLoc ( noSrcLoc )
-import ErrUtils ( addShortErrLocLine, addShortWarnLocLine,
- pprBagOfErrors, ErrMsg, WarnMsg, Message
- )
-import Name ( Name, OccName, NamedThing(..),
- isLocallyDefinedName, nameModule, nameOccName,
- decode, mkLocalName
- )
-import Module ( Module, ModuleName, ModuleHiMap, SearchPath, WhereFrom,
- mkModuleHiMaps, moduleName
- )
-import NameSet
-import RdrName ( RdrName, dummyRdrVarName, rdrNameOcc )
-import CmdLineOpts ( opt_D_dump_rn_trace, opt_IgnoreIfacePragmas )
-import PrelInfo ( builtinNames )
-import TysWiredIn ( boolTyCon )
-import SrcLoc ( SrcLoc, mkGeneratedSrcLoc )
-import Unique ( Unique, getUnique, unboundKey )
-import UniqFM ( UniqFM )
-import FiniteMap ( FiniteMap, emptyFM, bagToFM, lookupFM, addToFM, addListToFM,
- addListToFM_C, addToFM_C, eltsFM, fmToList
- )
-import Bag ( Bag, mapBag, emptyBag, isEmptyBag, snocBag )
-import Maybes ( mapMaybe )
-import UniqSet
-import UniqFM
-import UniqSupply
-import Util
-import Outputable
-
-infixr 9 `thenRn`, `thenRn_`
-\end{code}
-
-
-%************************************************************************
-%* *
-\subsection{Somewhat magical interface to other monads}
-%* *
-%************************************************************************
-
-\begin{code}
-ioToRnM :: IO r -> RnM d (Either IOError r)
-ioToRnM io rn_down g_down = (io >>= \ ok -> return (Right ok))
- `catch`
- (\ err -> return (Left err))
-
-traceRn :: SDoc -> RnM d ()
-traceRn msg | opt_D_dump_rn_trace = putDocRn msg
- | otherwise = returnRn ()
-
-putDocRn :: SDoc -> RnM d ()
-putDocRn msg = ioToRnM (printErrs msg) `thenRn_`
- returnRn ()
-\end{code}
-
-
-%************************************************************************
-%* *
-\subsection{Data types}
-%* *
-%************************************************************************
-
-===================================================
- MONAD TYPES
-===================================================
-
-\begin{code}
-type RnM d r = RnDown -> d -> IO r
-type RnMS r = RnM SDown r -- Renaming source
-type RnMG r = RnM () r -- Getting global names etc
-
- -- Common part
-data RnDown = RnDown {
- rn_mod :: ModuleName,
- rn_loc :: SrcLoc,
- rn_omit :: Name -> Bool, -- True <=> omit qualifier when printing
- rn_ns :: IORef RnNameSupply,
- rn_errs :: IORef (Bag WarnMsg, Bag ErrMsg),
- rn_ifaces :: IORef Ifaces,
- rn_hi_maps :: (ModuleHiMap, -- for .hi files
- ModuleHiMap) -- for .hi-boot files
- }
-
- -- For renaming source code
-data SDown = SDown {
- rn_mode :: RnMode,
-
- rn_genv :: GlobalRdrEnv, -- Global envt; the fixity component gets extended
- -- with local fixity decls
-
- rn_lenv :: LocalRdrEnv, -- Local name envt
- -- Does *not* includes global name envt; may shadow it
- -- Includes both ordinary variables and type variables;
- -- they are kept distinct because tyvar have a different
- -- occurrence contructor (Name.TvOcc)
- -- We still need the unsullied global name env so that
- -- we can look up record field names
-
- rn_fixenv :: FixityEnv -- Local fixities
- -- The global ones are held in the
- -- rn_ifaces field
- }
-
-data RnMode = SourceMode -- Renaming source code
- | InterfaceMode -- Renaming interface declarations.
-\end{code}
-
-===================================================
- ENVIRONMENTS
-===================================================
-
-\begin{code}
---------------------------------
-type RdrNameEnv a = FiniteMap RdrName a
-type GlobalRdrEnv = RdrNameEnv [Name] -- The list is because there may be name clashes
- -- These only get reported on lookup,
- -- not on construction
-type LocalRdrEnv = RdrNameEnv Name
-
-emptyRdrEnv :: RdrNameEnv a
-lookupRdrEnv :: RdrNameEnv a -> RdrName -> Maybe a
-addListToRdrEnv :: RdrNameEnv a -> [(RdrName,a)] -> RdrNameEnv a
-extendRdrEnv :: RdrNameEnv a -> RdrName -> a -> RdrNameEnv a
-
-emptyRdrEnv = emptyFM
-lookupRdrEnv = lookupFM
-addListToRdrEnv = addListToFM
-rdrEnvElts = eltsFM
-extendRdrEnv = addToFM
-rdrEnvToList = fmToList
-
---------------------------------
-type NameEnv a = UniqFM a -- Domain is Name
-
-emptyNameEnv :: NameEnv a
-nameEnvElts :: NameEnv a -> [a]
-addToNameEnv_C :: (a->a->a) -> NameEnv a -> Name -> a -> NameEnv a
-addToNameEnv :: NameEnv a -> Name -> a -> NameEnv a
-plusNameEnv :: NameEnv a -> NameEnv a -> NameEnv a
-extendNameEnv :: NameEnv a -> [(Name,a)] -> NameEnv a
-lookupNameEnv :: NameEnv a -> Name -> Maybe a
-delFromNameEnv :: NameEnv a -> Name -> NameEnv a
-elemNameEnv :: Name -> NameEnv a -> Bool
-
-emptyNameEnv = emptyUFM
-nameEnvElts = eltsUFM
-addToNameEnv_C = addToUFM_C
-addToNameEnv = addToUFM
-plusNameEnv = plusUFM
-extendNameEnv = addListToUFM
-lookupNameEnv = lookupUFM
-delFromNameEnv = delFromUFM
-elemNameEnv = elemUFM
-
---------------------------------
-type FixityEnv = NameEnv RenamedFixitySig
- -- We keep the whole fixity sig so that we
- -- can report line-number info when there is a duplicate
- -- fixity declaration
-\end{code}
-
-\begin{code}
---------------------------------
-type RnNameSupply
- = ( UniqSupply
-
- , FiniteMap (OccName, OccName) Int
- -- This is used as a name supply for dictionary functions
- -- From the inst decl we derive a (class, tycon) pair;
- -- this map then gives a unique int for each inst decl with that
- -- (class, tycon) pair. (In Haskell 98 there can only be one,
- -- but not so in more extended versions.)
- --
- -- We could just use one Int for all the instance decls, but this
- -- way the uniques change less when you add an instance decl,
- -- hence less recompilation
-
- , FiniteMap (ModuleName, OccName) Name
- -- Ensures that one (module,occname) pair gets one unique
- )
-
-
---------------------------------
-data ExportEnv = ExportEnv Avails Fixities
-type Avails = [AvailInfo]
-type Fixities = [(Name, Fixity)]
-
-type ExportAvails = (FiniteMap ModuleName Avails, -- Used to figure out "module M" export specifiers
- -- Includes avails only from *unqualified* imports
- -- (see 1.4 Report Section 5.1.1)
-
- NameEnv AvailInfo) -- Used to figure out all other export specifiers.
- -- Maps a Name to the AvailInfo that contains it
-
-
-data GenAvailInfo name = Avail name -- An ordinary identifier
- | AvailTC name -- The name of the type or class
- [name] -- The available pieces of type/class. NB: If the type or
- -- class is itself to be in scope, it must be in this list.
- -- Thus, typically: AvailTC Eq [Eq, ==, /=]
-type AvailInfo = GenAvailInfo Name
-type RdrAvailInfo = GenAvailInfo OccName
-\end{code}
-
-===================================================
- INTERFACE FILE STUFF
-===================================================
-
-\begin{code}
-type ExportItem = (ModuleName, [RdrAvailInfo])
-type VersionInfo name = [ImportVersion name]
-
-type ImportVersion name = (ModuleName, Version, WhetherHasOrphans, WhatsImported name)
-
-type WhetherHasOrphans = Bool
- -- An "orphan" is
- -- * an instance decl in a module other than the defn module for
- -- one of the tycons or classes in the instance head
- -- * a transformation rule in a module other than the one defining
- -- the function in the head of the rule.
-
-data WhatsImported name = Everything
- | Specifically [LocalVersion name] -- List guaranteed non-empty
-
- -- ("M", hif, ver, Everything) means there was a "module M" in
- -- this module's export list, so we just have to go by M's version, "ver",
- -- not the list of LocalVersions.
-
-
-type LocalVersion name = (name, Version)
-
-data ParsedIface
- = ParsedIface {
- pi_mod :: Version, -- Module version number
- pi_orphan :: WhetherHasOrphans, -- Whether this module has orphans
- pi_usages :: [ImportVersion OccName], -- Usages
- pi_exports :: [ExportItem], -- Exports
- pi_decls :: [(Version, RdrNameHsDecl)], -- Local definitions
- pi_insts :: [RdrNameInstDecl], -- Local instance declarations
- pi_rules :: [RdrNameRuleDecl] -- Rules
- }
-
-type InterfaceDetails = (WhetherHasOrphans,
- VersionInfo Name, -- Version information for what this module imports
- ExportEnv) -- What modules this one depends on
-
-
--- needed by Main to fish out the fixities assoc list.
-getIfaceFixities :: InterfaceDetails -> Fixities
-getIfaceFixities (_, _, ExportEnv _ fs) = fs
-
-
-type RdrNamePragma = () -- Fudge for now
--------------------
-
-data Ifaces = Ifaces {
- iImpModInfo :: ImportedModuleInfo,
- -- Modules this one depends on: that is, the union
- -- of the modules its direct imports depend on.
-
- iDecls :: DeclsMap, -- A single, global map of Names to decls
-
- iFixes :: FixityEnv, -- A single, global map of Names to fixities
-
- iSlurp :: NameSet, -- All the names (whether "big" or "small", whether wired-in or not,
- -- whether locally defined or not) that have been slurped in so far.
-
- iVSlurp :: [(Name,Version)], -- All the (a) non-wired-in (b) "big" (c) non-locally-defined
- -- names that have been slurped in so far, with their versions.
- -- This is used to generate the "usage" information for this module.
- -- Subset of the previous field.
-
- iInsts :: Bag GatedDecl,
- -- The as-yet un-slurped instance decls; this bag is depleted when we
- -- slurp an instance decl so that we don't slurp the same one twice.
- -- Each is 'gated' by the names that must be available before
- -- this instance decl is needed.
-
- iRules :: Bag GatedDecl
- -- Ditto transformation rules
- }
-
-type GatedDecl = (NameSet, (Module, RdrNameHsDecl))
-
-type ImportedModuleInfo
- = FiniteMap ModuleName (Version, Bool, Maybe (Module, Bool, Avails))
- -- Suppose the domain element is module 'A'
- --
- -- The first Bool is True if A contains
- -- 'orphan' rules or instance decls
-
- -- The second Bool is true if the interface file actually
- -- read was an .hi-boot file
-
- -- Nothing => A's interface not yet read, but this module has
- -- imported a module, B, that itself depends on A
- --
- -- Just xx => A's interface has been read. The Module in
- -- the Just has the correct Dll flag
-
- -- This set is used to decide whether to look for
- -- A.hi or A.hi-boot when importing A.f.
- -- Basically, we look for A.hi if A is in the map, and A.hi-boot
- -- otherwise
-
-type DeclsMap = NameEnv (Version, AvailInfo, Bool, (Module, RdrNameHsDecl))
- -- A DeclsMap contains a binding for each Name in the declaration
- -- including the constructors of a type decl etc.
- -- The Bool is True just for the 'main' Name.
-\end{code}
-
-
-%************************************************************************
-%* *
-\subsection{Main monad code}
-%* *
-%************************************************************************
-
-\begin{code}
-initRn :: ModuleName -> UniqSupply -> SearchPath -> SrcLoc
- -> RnMG r
- -> IO (r, Bag ErrMsg, Bag WarnMsg)
-
-initRn mod us dirs loc do_rn = do
- himaps <- mkModuleHiMaps dirs
- names_var <- newIORef (us, emptyFM, builtins)
- errs_var <- newIORef (emptyBag,emptyBag)
- iface_var <- newIORef emptyIfaces
- let
- rn_down = RnDown { rn_loc = loc, rn_omit = \n -> False, rn_ns = names_var,
- rn_errs = errs_var,
- rn_hi_maps = himaps,
- rn_ifaces = iface_var,
- rn_mod = mod }
-
- -- do the business
- res <- do_rn rn_down ()
-
- -- grab errors and return
- (warns, errs) <- readIORef errs_var
-
- return (res, errs, warns)
-
-
-initRnMS :: GlobalRdrEnv -> FixityEnv -> RnMode -> RnMS r -> RnM d r
-initRnMS rn_env fixity_env mode thing_inside rn_down g_down
- = let
- s_down = SDown { rn_genv = rn_env, rn_lenv = emptyRdrEnv,
- rn_fixenv = fixity_env, rn_mode = mode }
- in
- thing_inside rn_down s_down
-
-initIfaceRnMS :: Module -> RnMS r -> RnM d r
-initIfaceRnMS mod thing_inside
- = initRnMS emptyRdrEnv emptyNameEnv InterfaceMode $
- setModuleRn (moduleName mod) thing_inside
-
-emptyIfaces :: Ifaces
-emptyIfaces = Ifaces { iImpModInfo = emptyFM,
- iDecls = emptyNameEnv,
- iFixes = emptyNameEnv,
- iSlurp = unitNameSet (mkUnboundName dummyRdrVarName),
- -- Pretend that the dummy unbound name has already been
- -- slurped. This is what's returned for an out-of-scope name,
- -- and we don't want thereby to try to suck it in!
- iVSlurp = [],
- iInsts = emptyBag,
- iRules = emptyBag
- }
-
--- mkUnboundName makes a place-holder Name; it shouldn't be looked at except possibly
--- during compiler debugging.
-mkUnboundName :: RdrName -> Name
-mkUnboundName rdr_name = mkLocalName unboundKey (rdrNameOcc rdr_name) noSrcLoc
-
-isUnboundName :: Name -> Bool
-isUnboundName name = getUnique name == unboundKey
-
-builtins :: FiniteMap (ModuleName,OccName) Name
-builtins =
- bagToFM (
- mapBag (\ name -> ((moduleName (nameModule name), nameOccName name), name))
- builtinNames)
-\end{code}
-
-@renameSourceCode@ is used to rename stuff "out-of-line"; that is, not as part of
-the main renamer. Sole examples: derived definitions, which are only generated
-in the type checker.
-
-The @RnNameSupply@ includes a @UniqueSupply@, so if you call it more than
-once you must either split it, or install a fresh unique supply.
-
-\begin{code}
-renameSourceCode :: ModuleName
- -> RnNameSupply
- -> RnMS r
- -> r
-
-renameSourceCode mod_name name_supply m
- = unsafePerformIO (
- -- It's not really unsafe! When renaming source code we
- -- only do any I/O if we need to read in a fixity declaration;
- -- and that doesn't happen in pragmas etc
-
- newIORef name_supply >>= \ names_var ->
- newIORef (emptyBag,emptyBag) >>= \ errs_var ->
- let
- rn_down = RnDown { rn_loc = mkGeneratedSrcLoc, rn_ns = names_var,
- rn_errs = errs_var,
- rn_mod = mod_name }
- s_down = SDown { rn_mode = InterfaceMode, -- So that we can refer to PrelBase.True etc
- rn_genv = emptyRdrEnv, rn_lenv = emptyRdrEnv,
- rn_fixenv = emptyNameEnv }
- in
- m rn_down s_down >>= \ result ->
-
- readIORef errs_var >>= \ (warns,errs) ->
-
- (if not (isEmptyBag errs) then
- pprTrace "Urk! renameSourceCode found errors" (display errs)
-#ifdef DEBUG
- else if not (isEmptyBag warns) then
- pprTrace "Note: renameSourceCode found warnings" (display warns)
-#endif
- else
- id) $
-
- return result
- )
- where
- display errs = pprBagOfErrors errs
-
-{-# INLINE thenRn #-}
-{-# INLINE thenRn_ #-}
-{-# INLINE returnRn #-}
-{-# INLINE andRn #-}
-
-returnRn :: a -> RnM d a
-thenRn :: RnM d a -> (a -> RnM d b) -> RnM d b
-thenRn_ :: RnM d a -> RnM d b -> RnM d b
-andRn :: (a -> a -> a) -> RnM d a -> RnM d a -> RnM d a
-mapRn :: (a -> RnM d b) -> [a] -> RnM d [b]
-mapRn_ :: (a -> RnM d b) -> [a] -> RnM d ()
-mapMaybeRn :: (a -> RnM d (Maybe b)) -> [a] -> RnM d [b]
-sequenceRn :: [RnM d a] -> RnM d [a]
-foldlRn :: (b -> a -> RnM d b) -> b -> [a] -> RnM d b
-mapAndUnzipRn :: (a -> RnM d (b,c)) -> [a] -> RnM d ([b],[c])
-fixRn :: (a -> RnM d a) -> RnM d a
-
-returnRn v gdown ldown = return v
-thenRn m k gdown ldown = m gdown ldown >>= \ r -> k r gdown ldown
-thenRn_ m k gdown ldown = m gdown ldown >> k gdown ldown
-fixRn m gdown ldown = fixIO (\r -> m r gdown ldown)
-andRn combiner m1 m2 gdown ldown
- = m1 gdown ldown >>= \ res1 ->
- m2 gdown ldown >>= \ res2 ->
- return (combiner res1 res2)
-
-sequenceRn [] = returnRn []
-sequenceRn (m:ms) = m `thenRn` \ r ->
- sequenceRn ms `thenRn` \ rs ->
- returnRn (r:rs)
-
-mapRn f [] = returnRn []
-mapRn f (x:xs)
- = f x `thenRn` \ r ->
- mapRn f xs `thenRn` \ rs ->
- returnRn (r:rs)
-
-mapRn_ f [] = returnRn ()
-mapRn_ f (x:xs) =
- f x `thenRn_`
- mapRn_ f xs
-
-foldlRn k z [] = returnRn z
-foldlRn k z (x:xs) = k z x `thenRn` \ z' ->
- foldlRn k z' xs
-
-mapAndUnzipRn f [] = returnRn ([],[])
-mapAndUnzipRn f (x:xs)
- = f x `thenRn` \ (r1, r2) ->
- mapAndUnzipRn f xs `thenRn` \ (rs1, rs2) ->
- returnRn (r1:rs1, r2:rs2)
-
-mapAndUnzip3Rn f [] = returnRn ([],[],[])
-mapAndUnzip3Rn f (x:xs)
- = f x `thenRn` \ (r1, r2, r3) ->
- mapAndUnzip3Rn f xs `thenRn` \ (rs1, rs2, rs3) ->
- returnRn (r1:rs1, r2:rs2, r3:rs3)
-
-mapMaybeRn f [] = returnRn []
-mapMaybeRn f (x:xs) = f x `thenRn` \ maybe_r ->
- mapMaybeRn f xs `thenRn` \ rs ->
- case maybe_r of
- Nothing -> returnRn rs
- Just r -> returnRn (r:rs)
-\end{code}
-
-
-
-%************************************************************************
-%* *
-\subsection{Boring plumbing for common part}
-%* *
-%************************************************************************
-
-
-================ Errors and warnings =====================
-
-\begin{code}
-failWithRn :: a -> Message -> RnM d a
-failWithRn res msg (RnDown {rn_errs = errs_var, rn_loc = loc}) l_down
- = readIORef errs_var >>= \ (warns,errs) ->
- writeIORef errs_var (warns, errs `snocBag` err) >>
- return res
- where
- err = addShortErrLocLine loc msg
-
-warnWithRn :: a -> Message -> RnM d a
-warnWithRn res msg (RnDown {rn_errs = errs_var, rn_loc = loc}) l_down
- = readIORef errs_var >>= \ (warns,errs) ->
- writeIORef errs_var (warns `snocBag` warn, errs) >>
- return res
- where
- warn = addShortWarnLocLine loc msg
-
-addErrRn :: Message -> RnM d ()
-addErrRn err = failWithRn () err
-
-checkRn :: Bool -> Message -> RnM d () -- Check that a condition is true
-checkRn False err = addErrRn err
-checkRn True err = returnRn ()
-
-warnCheckRn :: Bool -> Message -> RnM d () -- Check that a condition is true
-warnCheckRn False err = addWarnRn err
-warnCheckRn True err = returnRn ()
-
-addWarnRn :: Message -> RnM d ()
-addWarnRn warn = warnWithRn () warn
-
-checkErrsRn :: RnM d Bool -- True <=> no errors so far
-checkErrsRn (RnDown {rn_errs = errs_var}) l_down
- = readIORef errs_var >>= \ (warns,errs) ->
- return (isEmptyBag errs)
-\end{code}
-
-
-================ Source location =====================
-
-\begin{code}
-pushSrcLocRn :: SrcLoc -> RnM d a -> RnM d a
-pushSrcLocRn loc' m down l_down
- = m (down {rn_loc = loc'}) l_down
-
-getSrcLocRn :: RnM d SrcLoc
-getSrcLocRn down l_down
- = return (rn_loc down)
-\end{code}
-
-================ Name supply =====================
-
-\begin{code}
-getNameSupplyRn :: RnM d RnNameSupply
-getNameSupplyRn rn_down l_down
- = readIORef (rn_ns rn_down)
-
-setNameSupplyRn :: RnNameSupply -> RnM d ()
-setNameSupplyRn names' (RnDown {rn_ns = names_var}) l_down
- = writeIORef names_var names'
-
--- See comments with RnNameSupply above.
-newInstUniq :: (OccName, OccName) -> RnM d Int
-newInstUniq key (RnDown {rn_ns = names_var}) l_down
- = readIORef names_var >>= \ (us, mapInst, cache) ->
- let
- uniq = case lookupFM mapInst key of
- Just x -> x+1
- Nothing -> 0
- mapInst' = addToFM mapInst key uniq
- in
- writeIORef names_var (us, mapInst', cache) >>
- return uniq
-
-getUniqRn :: RnM d Unique
-getUniqRn (RnDown {rn_ns = names_var}) l_down
- = readIORef names_var >>= \ (us, mapInst, cache) ->
- let
- (us1,us') = splitUniqSupply us
- in
- writeIORef names_var (us', mapInst, cache) >>
- return (uniqFromSupply us1)
-\end{code}
-
-================ Module =====================
-
-\begin{code}
-getModuleRn :: RnM d ModuleName
-getModuleRn (RnDown {rn_mod = mod_name}) l_down
- = return mod_name
-
-setModuleRn :: ModuleName -> RnM d a -> RnM d a
-setModuleRn new_mod enclosed_thing rn_down l_down
- = enclosed_thing (rn_down {rn_mod = new_mod}) l_down
-\end{code}
-
-\begin{code}
-setOmitQualFn :: (Name -> Bool) -> RnM d a -> RnM d a
-setOmitQualFn fn m g_down l_down = m (g_down { rn_omit = fn }) l_down
-
-getOmitQualFn :: RnM d (Name -> Bool)
-getOmitQualFn (RnDown {rn_omit = omit_fn}) l_down
- = return omit_fn
-\end{code}
-
-%************************************************************************
-%* *
-\subsection{Plumbing for rename-source part}
-%* *
-%************************************************************************
-
-================ RnEnv =====================
-
-\begin{code}
-getNameEnvs :: RnMS (GlobalRdrEnv, LocalRdrEnv)
-getNameEnvs rn_down (SDown {rn_genv = global_env, rn_lenv = local_env})
- = return (global_env, local_env)
-
-getLocalNameEnv :: RnMS LocalRdrEnv
-getLocalNameEnv rn_down (SDown {rn_lenv = local_env})
- = return local_env
-
-setLocalNameEnv :: LocalRdrEnv -> RnMS a -> RnMS a
-setLocalNameEnv local_env' m rn_down l_down
- = m rn_down (l_down {rn_lenv = local_env'})
-
-getFixityEnv :: RnMS FixityEnv
-getFixityEnv rn_down (SDown {rn_fixenv = fixity_env})
- = return fixity_env
-
-extendFixityEnv :: [(Name, RenamedFixitySig)] -> RnMS a -> RnMS a
-extendFixityEnv fixes enclosed_scope
- rn_down l_down@(SDown {rn_fixenv = fixity_env})
- = let
- new_fixity_env = extendNameEnv fixity_env fixes
- in
- enclosed_scope rn_down (l_down {rn_fixenv = new_fixity_env})
-\end{code}
-
-================ Mode =====================
-
-\begin{code}
-getModeRn :: RnMS RnMode
-getModeRn rn_down (SDown {rn_mode = mode})
- = return mode
-
-setModeRn :: RnMode -> RnMS a -> RnMS a
-setModeRn new_mode thing_inside rn_down l_down
- = thing_inside rn_down (l_down {rn_mode = new_mode})
-\end{code}
-
-
-%************************************************************************
-%* *
-\subsection{Plumbing for rename-globals part}
-%* *
-%************************************************************************
-
-\begin{code}
-getIfacesRn :: RnM d Ifaces
-getIfacesRn (RnDown {rn_ifaces = iface_var}) _
- = readIORef iface_var
-
-setIfacesRn :: Ifaces -> RnM d ()
-setIfacesRn ifaces (RnDown {rn_ifaces = iface_var}) _
- = writeIORef iface_var ifaces
-
-getHiMaps :: RnM d (ModuleHiMap, ModuleHiMap)
-getHiMaps (RnDown {rn_hi_maps = himaps}) _
- = return himaps
-\end{code}
+%\r
+% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998\r
+%\r
+\section[RnMonad]{The monad used by the renamer}\r
+\r
+\begin{code}\r
+module RnMonad(\r
+ module RnMonad,\r
+ Module,\r
+ FiniteMap,\r
+ Bag,\r
+ Name,\r
+ RdrNameHsDecl,\r
+ RdrNameInstDecl,\r
+ Version,\r
+ NameSet,\r
+ OccName,\r
+ Fixity\r
+ ) where\r
+\r
+#include "HsVersions.h"\r
+\r
+import PrelIOBase ( fixIO ) -- Should be in GlaExts\r
+import IOExts ( IORef, newIORef, readIORef, writeIORef, unsafePerformIO )\r
+ \r
+import HsSyn \r
+import RdrHsSyn\r
+import RnHsSyn ( RenamedFixitySig )\r
+import BasicTypes ( Version )\r
+import SrcLoc ( noSrcLoc )\r
+import ErrUtils ( addShortErrLocLine, addShortWarnLocLine,\r
+ pprBagOfErrors, ErrMsg, WarnMsg, Message\r
+ )\r
+import Name ( Name, OccName, NamedThing(..),\r
+ isLocallyDefinedName, nameModule, nameOccName,\r
+ decode, mkLocalName\r
+ )\r
+import Module ( Module, ModuleName, ModuleHiMap, SearchPath, WhereFrom,\r
+ mkModuleHiMaps, moduleName\r
+ )\r
+import NameSet \r
+import RdrName ( RdrName, dummyRdrVarName, rdrNameOcc )\r
+import CmdLineOpts ( opt_D_dump_rn_trace, opt_IgnoreIfacePragmas )\r
+import PrelInfo ( builtinNames )\r
+import TysWiredIn ( boolTyCon )\r
+import SrcLoc ( SrcLoc, mkGeneratedSrcLoc )\r
+import Unique ( Unique, getUnique, unboundKey )\r
+import UniqFM ( UniqFM )\r
+import FiniteMap ( FiniteMap, emptyFM, bagToFM, lookupFM, addToFM, addListToFM, \r
+ addListToFM_C, addToFM_C, eltsFM, fmToList\r
+ )\r
+import Bag ( Bag, mapBag, emptyBag, isEmptyBag, snocBag )\r
+import Maybes ( mapMaybe )\r
+import UniqSet\r
+import UniqFM\r
+import UniqSupply\r
+import Util\r
+import Outputable\r
+\r
+infixr 9 `thenRn`, `thenRn_`\r
+\end{code}\r
+\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection{Somewhat magical interface to other monads}\r
+%* *\r
+%************************************************************************\r
+\r
+\begin{code}\r
+ioToRnM :: IO r -> RnM d (Either IOError r)\r
+ioToRnM io rn_down g_down = (io >>= \ ok -> return (Right ok)) \r
+ `catch` \r
+ (\ err -> return (Left err))\r
+ \r
+traceRn :: SDoc -> RnM d ()\r
+traceRn msg | opt_D_dump_rn_trace = putDocRn msg\r
+ | otherwise = returnRn ()\r
+\r
+putDocRn :: SDoc -> RnM d ()\r
+putDocRn msg = ioToRnM (printErrs msg) `thenRn_`\r
+ returnRn ()\r
+\end{code}\r
+\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection{Data types}\r
+%* *\r
+%************************************************************************\r
+\r
+===================================================\r
+ MONAD TYPES\r
+===================================================\r
+\r
+\begin{code}\r
+type RnM d r = RnDown -> d -> IO r\r
+type RnMS r = RnM SDown r -- Renaming source\r
+type RnMG r = RnM () r -- Getting global names etc\r
+\r
+ -- Common part\r
+data RnDown = RnDown {\r
+ rn_mod :: ModuleName,\r
+ rn_loc :: SrcLoc,\r
+ rn_ns :: IORef RnNameSupply,\r
+ rn_errs :: IORef (Bag WarnMsg, Bag ErrMsg),\r
+ rn_ifaces :: IORef Ifaces,\r
+ rn_hi_maps :: (ModuleHiMap, -- for .hi files\r
+ ModuleHiMap) -- for .hi-boot files\r
+ }\r
+\r
+ -- For renaming source code\r
+data SDown = SDown {\r
+ rn_mode :: RnMode,\r
+\r
+ rn_genv :: GlobalRdrEnv, -- Global envt; the fixity component gets extended\r
+ -- with local fixity decls\r
+\r
+ rn_lenv :: LocalRdrEnv, -- Local name envt\r
+ -- Does *not* includes global name envt; may shadow it\r
+ -- Includes both ordinary variables and type variables;\r
+ -- they are kept distinct because tyvar have a different\r
+ -- occurrence contructor (Name.TvOcc)\r
+ -- We still need the unsullied global name env so that\r
+ -- we can look up record field names\r
+\r
+ rn_fixenv :: FixityEnv -- Local fixities\r
+ -- The global ones are held in the\r
+ -- rn_ifaces field\r
+ }\r
+\r
+data RnMode = SourceMode -- Renaming source code\r
+ | InterfaceMode -- Renaming interface declarations. \r
+\end{code}\r
+\r
+===================================================\r
+ ENVIRONMENTS\r
+===================================================\r
+\r
+\begin{code}\r
+--------------------------------\r
+type RdrNameEnv a = FiniteMap RdrName a\r
+type GlobalRdrEnv = RdrNameEnv [Name] -- The list is because there may be name clashes\r
+ -- These only get reported on lookup,\r
+ -- not on construction\r
+type LocalRdrEnv = RdrNameEnv Name\r
+\r
+emptyRdrEnv :: RdrNameEnv a\r
+lookupRdrEnv :: RdrNameEnv a -> RdrName -> Maybe a\r
+addListToRdrEnv :: RdrNameEnv a -> [(RdrName,a)] -> RdrNameEnv a\r
+extendRdrEnv :: RdrNameEnv a -> RdrName -> a -> RdrNameEnv a\r
+\r
+emptyRdrEnv = emptyFM\r
+lookupRdrEnv = lookupFM\r
+addListToRdrEnv = addListToFM\r
+rdrEnvElts = eltsFM\r
+extendRdrEnv = addToFM\r
+rdrEnvToList = fmToList\r
+\r
+--------------------------------\r
+type NameEnv a = UniqFM a -- Domain is Name\r
+\r
+emptyNameEnv :: NameEnv a\r
+nameEnvElts :: NameEnv a -> [a]\r
+addToNameEnv_C :: (a->a->a) -> NameEnv a -> Name -> a -> NameEnv a\r
+addToNameEnv :: NameEnv a -> Name -> a -> NameEnv a\r
+plusNameEnv :: NameEnv a -> NameEnv a -> NameEnv a\r
+extendNameEnv :: NameEnv a -> [(Name,a)] -> NameEnv a\r
+lookupNameEnv :: NameEnv a -> Name -> Maybe a\r
+delFromNameEnv :: NameEnv a -> Name -> NameEnv a\r
+elemNameEnv :: Name -> NameEnv a -> Bool\r
+\r
+emptyNameEnv = emptyUFM\r
+nameEnvElts = eltsUFM\r
+addToNameEnv_C = addToUFM_C\r
+addToNameEnv = addToUFM\r
+plusNameEnv = plusUFM\r
+extendNameEnv = addListToUFM\r
+lookupNameEnv = lookupUFM\r
+delFromNameEnv = delFromUFM\r
+elemNameEnv = elemUFM\r
+\r
+--------------------------------\r
+type FixityEnv = NameEnv RenamedFixitySig\r
+ -- We keep the whole fixity sig so that we\r
+ -- can report line-number info when there is a duplicate\r
+ -- fixity declaration\r
+\end{code}\r
+\r
+\begin{code}\r
+--------------------------------\r
+type RnNameSupply\r
+ = ( UniqSupply\r
+\r
+ , FiniteMap (OccName, OccName) Int\r
+ -- This is used as a name supply for dictionary functions\r
+ -- From the inst decl we derive a (class, tycon) pair;\r
+ -- this map then gives a unique int for each inst decl with that\r
+ -- (class, tycon) pair. (In Haskell 98 there can only be one,\r
+ -- but not so in more extended versions.)\r
+ -- \r
+ -- We could just use one Int for all the instance decls, but this\r
+ -- way the uniques change less when you add an instance decl, \r
+ -- hence less recompilation\r
+\r
+ , FiniteMap (ModuleName, OccName) Name\r
+ -- Ensures that one (module,occname) pair gets one unique\r
+ )\r
+\r
+\r
+--------------------------------\r
+data ExportEnv = ExportEnv Avails Fixities\r
+type Avails = [AvailInfo]\r
+type Fixities = [(Name, Fixity)]\r
+\r
+type ExportAvails = (FiniteMap ModuleName Avails, -- Used to figure out "module M" export specifiers\r
+ -- Includes avails only from *unqualified* imports\r
+ -- (see 1.4 Report Section 5.1.1)\r
+\r
+ NameEnv AvailInfo) -- Used to figure out all other export specifiers.\r
+ -- Maps a Name to the AvailInfo that contains it\r
+\r
+\r
+data GenAvailInfo name = Avail name -- An ordinary identifier\r
+ | AvailTC name -- The name of the type or class\r
+ [name] -- The available pieces of type/class. NB: If the type or\r
+ -- class is itself to be in scope, it must be in this list.\r
+ -- Thus, typically: AvailTC Eq [Eq, ==, /=]\r
+type AvailInfo = GenAvailInfo Name\r
+type RdrAvailInfo = GenAvailInfo OccName\r
+\end{code}\r
+\r
+===================================================\r
+ INTERFACE FILE STUFF\r
+===================================================\r
+\r
+\begin{code}\r
+type ExportItem = (ModuleName, [RdrAvailInfo])\r
+type VersionInfo name = [ImportVersion name]\r
+\r
+type ImportVersion name = (ModuleName, Version, WhetherHasOrphans, WhatsImported name)\r
+\r
+type WhetherHasOrphans = Bool\r
+ -- An "orphan" is \r
+ -- * an instance decl in a module other than the defn module for \r
+ -- one of the tycons or classes in the instance head\r
+ -- * a transformation rule in a module other than the one defining\r
+ -- the function in the head of the rule.\r
+\r
+data WhatsImported name = Everything \r
+ | Specifically [LocalVersion name] -- List guaranteed non-empty\r
+\r
+ -- ("M", hif, ver, Everything) means there was a "module M" in \r
+ -- this module's export list, so we just have to go by M's version, "ver",\r
+ -- not the list of LocalVersions.\r
+\r
+\r
+type LocalVersion name = (name, Version)\r
+\r
+data ParsedIface\r
+ = ParsedIface {\r
+ pi_mod :: Version, -- Module version number\r
+ pi_orphan :: WhetherHasOrphans, -- Whether this module has orphans\r
+ pi_usages :: [ImportVersion OccName], -- Usages\r
+ pi_exports :: [ExportItem], -- Exports\r
+ pi_decls :: [(Version, RdrNameHsDecl)], -- Local definitions\r
+ pi_insts :: [RdrNameInstDecl], -- Local instance declarations\r
+ pi_rules :: [RdrNameRuleDecl] -- Rules\r
+ }\r
+\r
+type InterfaceDetails = (WhetherHasOrphans,\r
+ VersionInfo Name, -- Version information for what this module imports\r
+ ExportEnv) -- What modules this one depends on\r
+\r
+\r
+-- needed by Main to fish out the fixities assoc list.\r
+getIfaceFixities :: InterfaceDetails -> Fixities\r
+getIfaceFixities (_, _, ExportEnv _ fs) = fs\r
+\r
+\r
+type RdrNamePragma = () -- Fudge for now\r
+-------------------\r
+\r
+data Ifaces = Ifaces {\r
+ iImpModInfo :: ImportedModuleInfo,\r
+ -- Modules this one depends on: that is, the union \r
+ -- of the modules its direct imports depend on.\r
+\r
+ iDecls :: DeclsMap, -- A single, global map of Names to decls\r
+\r
+ iFixes :: FixityEnv, -- A single, global map of Names to fixities\r
+\r
+ iSlurp :: NameSet, -- All the names (whether "big" or "small", whether wired-in or not,\r
+ -- whether locally defined or not) that have been slurped in so far.\r
+\r
+ iVSlurp :: [(Name,Version)], -- All the (a) non-wired-in (b) "big" (c) non-locally-defined \r
+ -- names that have been slurped in so far, with their versions. \r
+ -- This is used to generate the "usage" information for this module.\r
+ -- Subset of the previous field.\r
+\r
+ iInsts :: Bag GatedDecl,\r
+ -- The as-yet un-slurped instance decls; this bag is depleted when we\r
+ -- slurp an instance decl so that we don't slurp the same one twice.\r
+ -- Each is 'gated' by the names that must be available before\r
+ -- this instance decl is needed.\r
+\r
+ iRules :: Bag GatedDecl\r
+ -- Ditto transformation rules\r
+ }\r
+\r
+type GatedDecl = (NameSet, (Module, RdrNameHsDecl))\r
+\r
+type ImportedModuleInfo \r
+ = FiniteMap ModuleName (Version, Bool, Maybe (Module, Bool, Avails))\r
+ -- Suppose the domain element is module 'A'\r
+ --\r
+ -- The first Bool is True if A contains \r
+ -- 'orphan' rules or instance decls\r
+\r
+ -- The second Bool is true if the interface file actually\r
+ -- read was an .hi-boot file\r
+\r
+ -- Nothing => A's interface not yet read, but this module has\r
+ -- imported a module, B, that itself depends on A\r
+ --\r
+ -- Just xx => A's interface has been read. The Module in \r
+ -- the Just has the correct Dll flag\r
+\r
+ -- This set is used to decide whether to look for\r
+ -- A.hi or A.hi-boot when importing A.f.\r
+ -- Basically, we look for A.hi if A is in the map, and A.hi-boot\r
+ -- otherwise\r
+\r
+type DeclsMap = NameEnv (Version, AvailInfo, Bool, (Module, RdrNameHsDecl))\r
+ -- A DeclsMap contains a binding for each Name in the declaration\r
+ -- including the constructors of a type decl etc.\r
+ -- The Bool is True just for the 'main' Name.\r
+\end{code}\r
+\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection{Main monad code}\r
+%* *\r
+%************************************************************************\r
+\r
+\begin{code}\r
+initRn :: ModuleName -> UniqSupply -> SearchPath -> SrcLoc\r
+ -> RnMG r\r
+ -> IO (r, Bag ErrMsg, Bag WarnMsg)\r
+\r
+initRn mod us dirs loc do_rn = do\r
+ himaps <- mkModuleHiMaps dirs\r
+ names_var <- newIORef (us, emptyFM, builtins)\r
+ errs_var <- newIORef (emptyBag,emptyBag)\r
+ iface_var <- newIORef emptyIfaces \r
+ let\r
+ rn_down = RnDown { rn_loc = loc, rn_ns = names_var, \r
+ rn_errs = errs_var, \r
+ rn_hi_maps = himaps, \r
+ rn_ifaces = iface_var,\r
+ rn_mod = mod }\r
+\r
+ -- do the business\r
+ res <- do_rn rn_down ()\r
+\r
+ -- grab errors and return\r
+ (warns, errs) <- readIORef errs_var\r
+\r
+ return (res, errs, warns)\r
+\r
+\r
+initRnMS :: GlobalRdrEnv -> FixityEnv -> RnMode -> RnMS r -> RnM d r\r
+initRnMS rn_env fixity_env mode thing_inside rn_down g_down\r
+ = let\r
+ s_down = SDown { rn_genv = rn_env, rn_lenv = emptyRdrEnv, \r
+ rn_fixenv = fixity_env, rn_mode = mode }\r
+ in\r
+ thing_inside rn_down s_down\r
+\r
+initIfaceRnMS :: Module -> RnMS r -> RnM d r\r
+initIfaceRnMS mod thing_inside \r
+ = initRnMS emptyRdrEnv emptyNameEnv InterfaceMode $\r
+ setModuleRn (moduleName mod) thing_inside\r
+\r
+emptyIfaces :: Ifaces\r
+emptyIfaces = Ifaces { iImpModInfo = emptyFM,\r
+ iDecls = emptyNameEnv,\r
+ iFixes = emptyNameEnv,\r
+ iSlurp = unitNameSet (mkUnboundName dummyRdrVarName),\r
+ -- Pretend that the dummy unbound name has already been\r
+ -- slurped. This is what's returned for an out-of-scope name,\r
+ -- and we don't want thereby to try to suck it in!\r
+ iVSlurp = [],\r
+ iInsts = emptyBag,\r
+ iRules = emptyBag\r
+ }\r
+\r
+-- mkUnboundName makes a place-holder Name; it shouldn't be looked at except possibly\r
+-- during compiler debugging.\r
+mkUnboundName :: RdrName -> Name\r
+mkUnboundName rdr_name = mkLocalName unboundKey (rdrNameOcc rdr_name) noSrcLoc\r
+\r
+isUnboundName :: Name -> Bool\r
+isUnboundName name = getUnique name == unboundKey\r
+\r
+builtins :: FiniteMap (ModuleName,OccName) Name\r
+builtins = \r
+ bagToFM (\r
+ mapBag (\ name -> ((moduleName (nameModule name), nameOccName name), name))\r
+ builtinNames)\r
+\end{code}\r
+\r
+@renameSourceCode@ is used to rename stuff "out-of-line"; that is, not as part of\r
+the main renamer. Sole examples: derived definitions, which are only generated\r
+in the type checker.\r
+\r
+The @RnNameSupply@ includes a @UniqueSupply@, so if you call it more than\r
+once you must either split it, or install a fresh unique supply.\r
+\r
+\begin{code}\r
+renameSourceCode :: ModuleName\r
+ -> RnNameSupply\r
+ -> RnMS r\r
+ -> r\r
+\r
+renameSourceCode mod_name name_supply m\r
+ = unsafePerformIO (\r
+ -- It's not really unsafe! When renaming source code we\r
+ -- only do any I/O if we need to read in a fixity declaration;\r
+ -- and that doesn't happen in pragmas etc\r
+\r
+ newIORef name_supply >>= \ names_var ->\r
+ newIORef (emptyBag,emptyBag) >>= \ errs_var ->\r
+ let\r
+ rn_down = RnDown { rn_loc = mkGeneratedSrcLoc, rn_ns = names_var,\r
+ rn_errs = errs_var,\r
+ rn_mod = mod_name }\r
+ s_down = SDown { rn_mode = InterfaceMode, -- So that we can refer to PrelBase.True etc\r
+ rn_genv = emptyRdrEnv, rn_lenv = emptyRdrEnv,\r
+ rn_fixenv = emptyNameEnv }\r
+ in\r
+ m rn_down s_down >>= \ result ->\r
+ \r
+ readIORef errs_var >>= \ (warns,errs) ->\r
+\r
+ (if not (isEmptyBag errs) then\r
+ pprTrace "Urk! renameSourceCode found errors" (display errs) \r
+#ifdef DEBUG\r
+ else if not (isEmptyBag warns) then\r
+ pprTrace "Note: renameSourceCode found warnings" (display warns)\r
+#endif\r
+ else\r
+ id) $\r
+\r
+ return result\r
+ )\r
+ where\r
+ display errs = pprBagOfErrors errs\r
+\r
+{-# INLINE thenRn #-}\r
+{-# INLINE thenRn_ #-}\r
+{-# INLINE returnRn #-}\r
+{-# INLINE andRn #-}\r
+\r
+returnRn :: a -> RnM d a\r
+thenRn :: RnM d a -> (a -> RnM d b) -> RnM d b\r
+thenRn_ :: RnM d a -> RnM d b -> RnM d b\r
+andRn :: (a -> a -> a) -> RnM d a -> RnM d a -> RnM d a\r
+mapRn :: (a -> RnM d b) -> [a] -> RnM d [b]\r
+mapRn_ :: (a -> RnM d b) -> [a] -> RnM d ()\r
+mapMaybeRn :: (a -> RnM d (Maybe b)) -> [a] -> RnM d [b]\r
+sequenceRn :: [RnM d a] -> RnM d [a]\r
+foldlRn :: (b -> a -> RnM d b) -> b -> [a] -> RnM d b\r
+mapAndUnzipRn :: (a -> RnM d (b,c)) -> [a] -> RnM d ([b],[c])\r
+fixRn :: (a -> RnM d a) -> RnM d a\r
+\r
+returnRn v gdown ldown = return v\r
+thenRn m k gdown ldown = m gdown ldown >>= \ r -> k r gdown ldown\r
+thenRn_ m k gdown ldown = m gdown ldown >> k gdown ldown\r
+fixRn m gdown ldown = fixIO (\r -> m r gdown ldown)\r
+andRn combiner m1 m2 gdown ldown\r
+ = m1 gdown ldown >>= \ res1 ->\r
+ m2 gdown ldown >>= \ res2 ->\r
+ return (combiner res1 res2)\r
+\r
+sequenceRn [] = returnRn []\r
+sequenceRn (m:ms) = m `thenRn` \ r ->\r
+ sequenceRn ms `thenRn` \ rs ->\r
+ returnRn (r:rs)\r
+\r
+mapRn f [] = returnRn []\r
+mapRn f (x:xs)\r
+ = f x `thenRn` \ r ->\r
+ mapRn f xs `thenRn` \ rs ->\r
+ returnRn (r:rs)\r
+\r
+mapRn_ f [] = returnRn ()\r
+mapRn_ f (x:xs) = \r
+ f x `thenRn_`\r
+ mapRn_ f xs\r
+\r
+foldlRn k z [] = returnRn z\r
+foldlRn k z (x:xs) = k z x `thenRn` \ z' ->\r
+ foldlRn k z' xs\r
+\r
+mapAndUnzipRn f [] = returnRn ([],[])\r
+mapAndUnzipRn f (x:xs)\r
+ = f x `thenRn` \ (r1, r2) ->\r
+ mapAndUnzipRn f xs `thenRn` \ (rs1, rs2) ->\r
+ returnRn (r1:rs1, r2:rs2)\r
+\r
+mapAndUnzip3Rn f [] = returnRn ([],[],[])\r
+mapAndUnzip3Rn f (x:xs)\r
+ = f x `thenRn` \ (r1, r2, r3) ->\r
+ mapAndUnzip3Rn f xs `thenRn` \ (rs1, rs2, rs3) ->\r
+ returnRn (r1:rs1, r2:rs2, r3:rs3)\r
+\r
+mapMaybeRn f [] = returnRn []\r
+mapMaybeRn f (x:xs) = f x `thenRn` \ maybe_r ->\r
+ mapMaybeRn f xs `thenRn` \ rs ->\r
+ case maybe_r of\r
+ Nothing -> returnRn rs\r
+ Just r -> returnRn (r:rs)\r
+\end{code}\r
+\r
+\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection{Boring plumbing for common part}\r
+%* *\r
+%************************************************************************\r
+\r
+\r
+================ Errors and warnings =====================\r
+\r
+\begin{code}\r
+failWithRn :: a -> Message -> RnM d a\r
+failWithRn res msg (RnDown {rn_errs = errs_var, rn_loc = loc}) l_down\r
+ = readIORef errs_var >>= \ (warns,errs) ->\r
+ writeIORef errs_var (warns, errs `snocBag` err) >> \r
+ return res\r
+ where\r
+ err = addShortErrLocLine loc msg\r
+\r
+warnWithRn :: a -> Message -> RnM d a\r
+warnWithRn res msg (RnDown {rn_errs = errs_var, rn_loc = loc}) l_down\r
+ = readIORef errs_var >>= \ (warns,errs) ->\r
+ writeIORef errs_var (warns `snocBag` warn, errs) >> \r
+ return res\r
+ where\r
+ warn = addShortWarnLocLine loc msg\r
+\r
+addErrRn :: Message -> RnM d ()\r
+addErrRn err = failWithRn () err\r
+\r
+checkRn :: Bool -> Message -> RnM d () -- Check that a condition is true\r
+checkRn False err = addErrRn err\r
+checkRn True err = returnRn ()\r
+\r
+warnCheckRn :: Bool -> Message -> RnM d () -- Check that a condition is true\r
+warnCheckRn False err = addWarnRn err\r
+warnCheckRn True err = returnRn ()\r
+\r
+addWarnRn :: Message -> RnM d ()\r
+addWarnRn warn = warnWithRn () warn\r
+\r
+checkErrsRn :: RnM d Bool -- True <=> no errors so far\r
+checkErrsRn (RnDown {rn_errs = errs_var}) l_down\r
+ = readIORef errs_var >>= \ (warns,errs) ->\r
+ return (isEmptyBag errs)\r
+\end{code}\r
+\r
+\r
+================ Source location =====================\r
+\r
+\begin{code}\r
+pushSrcLocRn :: SrcLoc -> RnM d a -> RnM d a\r
+pushSrcLocRn loc' m down l_down\r
+ = m (down {rn_loc = loc'}) l_down\r
+\r
+getSrcLocRn :: RnM d SrcLoc\r
+getSrcLocRn down l_down\r
+ = return (rn_loc down)\r
+\end{code}\r
+\r
+================ Name supply =====================\r
+\r
+\begin{code}\r
+getNameSupplyRn :: RnM d RnNameSupply\r
+getNameSupplyRn rn_down l_down\r
+ = readIORef (rn_ns rn_down)\r
+\r
+setNameSupplyRn :: RnNameSupply -> RnM d ()\r
+setNameSupplyRn names' (RnDown {rn_ns = names_var}) l_down\r
+ = writeIORef names_var names'\r
+\r
+-- See comments with RnNameSupply above.\r
+newInstUniq :: (OccName, OccName) -> RnM d Int\r
+newInstUniq key (RnDown {rn_ns = names_var}) l_down\r
+ = readIORef names_var >>= \ (us, mapInst, cache) ->\r
+ let\r
+ uniq = case lookupFM mapInst key of\r
+ Just x -> x+1\r
+ Nothing -> 0\r
+ mapInst' = addToFM mapInst key uniq\r
+ in\r
+ writeIORef names_var (us, mapInst', cache) >>\r
+ return uniq\r
+\r
+getUniqRn :: RnM d Unique\r
+getUniqRn (RnDown {rn_ns = names_var}) l_down\r
+ = readIORef names_var >>= \ (us, mapInst, cache) ->\r
+ let\r
+ (us1,us') = splitUniqSupply us\r
+ in\r
+ writeIORef names_var (us', mapInst, cache) >>\r
+ return (uniqFromSupply us1)\r
+\end{code}\r
+\r
+================ Module =====================\r
+\r
+\begin{code}\r
+getModuleRn :: RnM d ModuleName\r
+getModuleRn (RnDown {rn_mod = mod_name}) l_down\r
+ = return mod_name\r
+\r
+setModuleRn :: ModuleName -> RnM d a -> RnM d a\r
+setModuleRn new_mod enclosed_thing rn_down l_down\r
+ = enclosed_thing (rn_down {rn_mod = new_mod}) l_down\r
+\end{code}\r
+\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection{Plumbing for rename-source part}\r
+%* *\r
+%************************************************************************\r
+\r
+================ RnEnv =====================\r
+\r
+\begin{code}\r
+getNameEnvs :: RnMS (GlobalRdrEnv, LocalRdrEnv)\r
+getNameEnvs rn_down (SDown {rn_genv = global_env, rn_lenv = local_env})\r
+ = return (global_env, local_env)\r
+\r
+getLocalNameEnv :: RnMS LocalRdrEnv\r
+getLocalNameEnv rn_down (SDown {rn_lenv = local_env})\r
+ = return local_env\r
+\r
+setLocalNameEnv :: LocalRdrEnv -> RnMS a -> RnMS a\r
+setLocalNameEnv local_env' m rn_down l_down\r
+ = m rn_down (l_down {rn_lenv = local_env'})\r
+\r
+getFixityEnv :: RnMS FixityEnv\r
+getFixityEnv rn_down (SDown {rn_fixenv = fixity_env})\r
+ = return fixity_env\r
+\r
+extendFixityEnv :: [(Name, RenamedFixitySig)] -> RnMS a -> RnMS a\r
+extendFixityEnv fixes enclosed_scope\r
+ rn_down l_down@(SDown {rn_fixenv = fixity_env})\r
+ = let\r
+ new_fixity_env = extendNameEnv fixity_env fixes\r
+ in\r
+ enclosed_scope rn_down (l_down {rn_fixenv = new_fixity_env})\r
+\end{code}\r
+\r
+================ Mode =====================\r
+\r
+\begin{code}\r
+getModeRn :: RnMS RnMode\r
+getModeRn rn_down (SDown {rn_mode = mode})\r
+ = return mode\r
+\r
+setModeRn :: RnMode -> RnMS a -> RnMS a\r
+setModeRn new_mode thing_inside rn_down l_down\r
+ = thing_inside rn_down (l_down {rn_mode = new_mode})\r
+\end{code}\r
+\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection{Plumbing for rename-globals part}\r
+%* *\r
+%************************************************************************\r
+\r
+\begin{code}\r
+getIfacesRn :: RnM d Ifaces\r
+getIfacesRn (RnDown {rn_ifaces = iface_var}) _\r
+ = readIORef iface_var\r
+\r
+setIfacesRn :: Ifaces -> RnM d ()\r
+setIfacesRn ifaces (RnDown {rn_ifaces = iface_var}) _\r
+ = writeIORef iface_var ifaces\r
+\r
+getHiMaps :: RnM d (ModuleHiMap, ModuleHiMap)\r
+getHiMaps (RnDown {rn_hi_maps = himaps}) _ \r
+ = return himaps\r
+\end{code}\r
-%
-% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
-%
-\section[RnNames]{Extracting imported and top-level names in scope}
-
-\begin{code}
-module RnNames (
- getGlobalNames
- ) where
-
-#include "HsVersions.h"
-
-import CmdLineOpts ( opt_NoImplicitPrelude, opt_WarnDuplicateExports,
- opt_SourceUnchanged, opt_WarnUnusedBinds
- )
-
-import HsSyn ( HsModule(..), HsDecl(..), TyClDecl(..),
- IE(..), ieName,
- ForeignDecl(..), ForKind(..), isDynamic,
- FixitySig(..), Sig(..), ImportDecl(..),
- collectTopBinders
- )
-import RdrHsSyn ( RdrNameIE, RdrNameImportDecl,
- RdrNameHsModule, RdrNameHsDecl
- )
-import RnIfaces ( getInterfaceExports, getDeclBinders,
- recordSlurp, checkUpToDate
- )
-import RnEnv
-import RnMonad
-
-import FiniteMap
-import PrelMods
-import PrelInfo ( main_RDR )
-import UniqFM ( lookupUFM )
-import Bag ( bagToList )
-import Maybes ( maybeToBool )
-import Module ( ModuleName, mkThisModule, pprModuleName, WhereFrom(..) )
-import NameSet
-import Name ( Name, ExportFlag(..), ImportReason(..), Provenance(..),
- isLocallyDefined, setNameProvenance,
- nameOccName, getSrcLoc, pprProvenance, getNameProvenance
- )
-import RdrName ( RdrName, rdrNameOcc, mkRdrQual, mkRdrUnqual, isQual )
-import SrcLoc ( SrcLoc )
-import NameSet ( elemNameSet, emptyNameSet )
-import Outputable
-import Unique ( getUnique )
-import Util ( removeDups, equivClassesByUniq, sortLt )
-import List ( partition )
-\end{code}
-
-
-
-%************************************************************************
-%* *
-\subsection{Get global names}
-%* *
-%************************************************************************
-
-\begin{code}
-getGlobalNames :: RdrNameHsModule
- -> RnMG (Maybe (ExportEnv,
- GlobalRdrEnv,
- FixityEnv, -- Fixities for local decls only
- NameEnv AvailInfo -- Maps a name to its parent AvailInfo
- -- Just for in-scope things only
- ))
- -- Nothing => no need to recompile
-
-getGlobalNames (HsModule this_mod _ exports imports decls mod_loc)
- = -- These two fix-loops are to get the right
- -- provenance information into a Name
- fixRn (\ ~(rec_gbl_env, rec_exported_avails, _) ->
-
--- fixRn (\ ~(rec_rn_env, _) ->
- let
- rec_unqual_fn :: Name -> Bool -- Is this chap in scope unqualified?
- rec_unqual_fn = unQualInScope rec_gbl_env
-
- rec_exp_fn :: Name -> ExportFlag
- rec_exp_fn = mk_export_fn (availsToNameSet rec_exported_avails)
- in
--- setOmitQualFn rec_unqual_fn $
- setModuleRn this_mod $
-
- -- PROCESS LOCAL DECLS
- -- Do these *first* so that the correct provenance gets
- -- into the global name cache.
- importsFromLocalDecls this_mod rec_exp_fn decls `thenRn` \ (local_gbl_env, local_mod_avails) ->
-
- -- PROCESS IMPORT DECLS
- -- Do the non {- SOURCE -} ones first, so that we get a helpful
- -- warning for {- SOURCE -} ones that are unnecessary
- let
- (source, ordinary) = partition is_source_import all_imports
- is_source_import (ImportDecl _ ImportByUserSource _ _ _ _) = True
- is_source_import other = False
- in
- mapAndUnzipRn (importsFromImportDecl rec_unqual_fn) ordinary `thenRn` \ (imp_gbl_envs1, imp_avails_s1) ->
- mapAndUnzipRn (importsFromImportDecl rec_unqual_fn) source `thenRn` \ (imp_gbl_envs2, imp_avails_s2) ->
-
- -- COMBINE RESULTS
- -- We put the local env second, so that a local provenance
- -- "wins", even if a module imports itself.
- let
- gbl_env :: GlobalRdrEnv
- imp_gbl_env = foldr plusGlobalRdrEnv emptyRdrEnv (imp_gbl_envs2 ++ imp_gbl_envs1)
- gbl_env = imp_gbl_env `plusGlobalRdrEnv` local_gbl_env
-
- all_avails :: ExportAvails
- all_avails = foldr plusExportAvails local_mod_avails (imp_avails_s2 ++ imp_avails_s1)
- in
--- returnRn (gbl_env, all_avails)
--- ) `thenRn` \ (gbl_env, all_avails) ->
-
- -- TRY FOR EARLY EXIT
- -- We can't go for an early exit before this because we have to check
- -- for name clashes. Consider:
- --
- -- module A where module B where
- -- import B h = True
- -- f = h
- --
- -- Suppose I've compiled everything up, and then I add a
- -- new definition to module B, that defines "f".
- --
- -- Then I must detect the name clash in A before going for an early
- -- exit. The early-exit code checks what's actually needed from B
- -- to compile A, and of course that doesn't include B.f. That's
- -- why we wait till after the plusEnv stuff to do the early-exit.
- checkEarlyExit this_mod `thenRn` \ up_to_date ->
- if up_to_date then
- returnRn (gbl_env, junk_exp_fn, Nothing)
- else
-
- -- RECORD BETTER PROVENANCES IN THE CACHE
- -- The names in the envirnoment have better provenances (e.g. imported on line x)
- -- than the names in the name cache. We update the latter now, so that we
- -- we start renaming declarations we'll get the good names
- -- The isQual is because the qualified name is always in scope
- updateProvenances (concat [names | (rdr_name, names) <- rdrEnvToList imp_gbl_env,
- isQual rdr_name]) `thenRn_`
-
- -- PROCESS EXPORT LISTS
- exportsFromAvail this_mod exports all_avails gbl_env `thenRn` \ exported_avails ->
-
- -- DONE
- returnRn (gbl_env, exported_avails, Just all_avails)
- ) `thenRn` \ (gbl_env, exported_avails, maybe_stuff) ->
-
- case maybe_stuff of {
- Nothing -> returnRn Nothing ;
- Just all_avails ->
-
- traceRn (text "updateProv" <+> fsep (map ppr (rdrEnvElts gbl_env))) `thenRn_`
-
- -- DEAL WITH FIXITIES
- fixitiesFromLocalDecls gbl_env decls `thenRn` \ local_fixity_env ->
- let
- -- Export only those fixities that are for names that are
- -- (a) defined in this module
- -- (b) exported
- exported_fixities :: [(Name,Fixity)]
- exported_fixities = [(name,fixity) | FixitySig name fixity _ <- nameEnvElts local_fixity_env,
- isLocallyDefined name
- ]
- in
- traceRn (text "fixity env" <+> vcat (map ppr (nameEnvElts local_fixity_env))) `thenRn_`
-
- --- TIDY UP
- let
- export_env = ExportEnv exported_avails exported_fixities
- (_, global_avail_env) = all_avails
- in
- returnRn (Just (export_env, gbl_env, local_fixity_env, global_avail_env))
- }
- where
- junk_exp_fn = error "RnNames:export_fn"
-
- all_imports = prel_imports ++ imports
-
- -- NB: opt_NoImplicitPrelude is slightly different to import Prelude ();
- -- because the former doesn't even look at Prelude.hi for instance declarations,
- -- whereas the latter does.
- prel_imports | this_mod == pRELUDE_Name ||
- explicit_prelude_import ||
- opt_NoImplicitPrelude
- = []
-
- | otherwise = [ImportDecl pRELUDE_Name
- ImportByUser
- False {- Not qualified -}
- Nothing {- No "as" -}
- Nothing {- No import list -}
- mod_loc]
-
- explicit_prelude_import
- = not (null [ () | (ImportDecl mod _ _ _ _ _) <- imports, mod == pRELUDE_Name ])
-\end{code}
-
-\begin{code}
-checkEarlyExit mod
- = checkErrsRn `thenRn` \ no_errs_so_far ->
- if not no_errs_so_far then
- -- Found errors already, so exit now
- returnRn True
- else
-
- traceRn (text "Considering whether compilation is required...") `thenRn_`
- if not opt_SourceUnchanged then
- -- Source code changed and no errors yet... carry on
- traceRn (nest 4 (text "source file changed or recompilation check turned off")) `thenRn_`
- returnRn False
- else
-
- -- Unchanged source, and no errors yet; see if usage info
- -- up to date, and exit if so
- checkUpToDate mod `thenRn` \ up_to_date ->
- putDocRn (text "Compilation" <+>
- text (if up_to_date then "IS NOT" else "IS") <+>
- text "required") `thenRn_`
- returnRn up_to_date
-\end{code}
-
-\begin{code}
-importsFromImportDecl :: (Name -> Bool) -- OK to omit qualifier
- -> RdrNameImportDecl
- -> RnMG (GlobalRdrEnv,
- ExportAvails)
-
-importsFromImportDecl is_unqual (ImportDecl imp_mod_name from qual_only as_mod import_spec iloc)
- = pushSrcLocRn iloc $
- getInterfaceExports imp_mod_name from `thenRn` \ (imp_mod, avails) ->
-
- if null avails then
- -- If there's an error in getInterfaceExports, (e.g. interface
- -- file not found) we get lots of spurious errors from 'filterImports'
- returnRn (emptyRdrEnv, mkEmptyExportAvails imp_mod_name)
- else
-
- filterImports imp_mod_name import_spec avails `thenRn` \ (filtered_avails, hides, explicits) ->
-
- -- We 'improve' the provenance by setting
- -- (a) the import-reason field, so that the Name says how it came into scope
- -- including whether it's explicitly imported
- -- (b) the print-unqualified field
- -- But don't fiddle with wired-in things or we get in a twist
- let
- improve_prov name = setNameProvenance name (NonLocalDef (UserImport imp_mod iloc (is_explicit name))
- (is_unqual name))
- is_explicit name = name `elemNameSet` explicits
- in
- qualifyImports imp_mod_name
- (not qual_only) -- Maybe want unqualified names
- as_mod hides
- filtered_avails improve_prov `thenRn` \ (rdr_name_env, mod_avails) ->
-
- returnRn (rdr_name_env, mod_avails)
-\end{code}
-
-
-\begin{code}
-importsFromLocalDecls mod_name rec_exp_fn decls
- = mapRn (getLocalDeclBinders newLocalName) decls `thenRn` \ avails_s ->
-
- let
- avails = concat avails_s
-
- all_names :: [Name] -- All the defns; no dups eliminated
- all_names = [name | avail <- avails, name <- availNames avail]
-
- dups :: [[Name]]
- dups = filter non_singleton (equivClassesByUniq getUnique all_names)
- where
- non_singleton (x1:x2:xs) = True
- non_singleton other = False
- in
- -- Check for duplicate definitions
- mapRn_ (addErrRn . dupDeclErr) dups `thenRn_`
-
- -- Record that locally-defined things are available
- mapRn_ (recordSlurp Nothing) avails `thenRn_`
-
- -- Build the environment
- qualifyImports mod_name
- True -- Want unqualified names
- Nothing -- no 'as M'
- [] -- Hide nothing
- avails
- (\n -> n)
-
- where
- newLocalName rdr_name loc = newLocalTopBinder mod (rdrNameOcc rdr_name)
- rec_exp_fn loc
- mod = mkThisModule mod_name
-
-getLocalDeclBinders :: (RdrName -> SrcLoc -> RnMG Name) -- New-name function
- -> RdrNameHsDecl
- -> RnMG Avails
-getLocalDeclBinders new_name (ValD binds)
- = mapRn do_one (bagToList (collectTopBinders binds))
- where
- do_one (rdr_name, loc) = new_name rdr_name loc `thenRn` \ name ->
- returnRn (Avail name)
-
- -- foreign declarations
-getLocalDeclBinders new_name (ForD (ForeignDecl nm kind _ dyn _ loc))
- | binds_haskell_name kind dyn
- = new_name nm loc `thenRn` \ name ->
- returnRn [Avail name]
-
- | otherwise
- = returnRn []
-
-getLocalDeclBinders new_name decl
- = getDeclBinders new_name decl `thenRn` \ maybe_avail ->
- case maybe_avail of
- Nothing -> returnRn [] -- Instance decls and suchlike
- Just avail -> returnRn [avail]
-
-binds_haskell_name (FoImport _) _ = True
-binds_haskell_name FoLabel _ = True
-binds_haskell_name FoExport ext_nm = isDynamic ext_nm
-
-fixitiesFromLocalDecls :: GlobalRdrEnv -> [RdrNameHsDecl] -> RnMG FixityEnv
-fixitiesFromLocalDecls gbl_env decls
- = foldlRn getFixities emptyNameEnv decls
- where
- getFixities :: FixityEnv -> RdrNameHsDecl -> RnMG FixityEnv
- getFixities acc (FixD fix)
- = fix_decl acc fix
-
- getFixities acc (TyClD (ClassDecl _ _ _ sigs _ _ _ _ _ _))
- = foldlRn fix_decl acc [sig | FixSig sig <- sigs]
- -- Get fixities from class decl sigs too.
- getFixities acc other_decl
- = returnRn acc
-
- fix_decl acc sig@(FixitySig rdr_name fixity loc)
- = -- Check for fixity decl for something not declared
- case lookupRdrEnv gbl_env rdr_name of {
- Nothing | opt_WarnUnusedBinds
- -> pushSrcLocRn loc (addWarnRn (unusedFixityDecl rdr_name fixity)) `thenRn_`
- returnRn acc
- | otherwise -> returnRn acc ;
-
- Just (name:_) ->
-
- -- Check for duplicate fixity decl
- case lookupNameEnv acc name of {
- Just (FixitySig _ _ loc') -> addErrRn (dupFixityDecl rdr_name loc loc') `thenRn_`
- returnRn acc ;
-
- Nothing -> returnRn (addToNameEnv acc name (FixitySig name fixity loc))
- }}
-\end{code}
-
-%************************************************************************
-%* *
-\subsection{Filtering imports}
-%* *
-%************************************************************************
-
-@filterImports@ takes the @ExportEnv@ telling what the imported module makes
-available, and filters it through the import spec (if any).
-
-\begin{code}
-filterImports :: ModuleName -- The module being imported
- -> Maybe (Bool, [RdrNameIE]) -- Import spec; True => hiding
- -> [AvailInfo] -- What's available
- -> RnMG ([AvailInfo], -- What's actually imported
- [AvailInfo], -- What's to be hidden (the unqualified version, that is)
- NameSet) -- What was imported explicitly
-
- -- Complains if import spec mentions things that the module doesn't export
- -- Warns/informs if import spec contains duplicates.
-filterImports mod Nothing imports
- = returnRn (imports, [], emptyNameSet)
-
-filterImports mod (Just (want_hiding, import_items)) avails
- = mapMaybeRn check_item import_items `thenRn` \ avails_w_explicits ->
- let
- (item_avails, explicits_s) = unzip avails_w_explicits
- explicits = foldl addListToNameSet emptyNameSet explicits_s
- in
- if want_hiding
- then
- -- All imported; item_avails to be hidden
- returnRn (avails, item_avails, emptyNameSet)
- else
- -- Just item_avails imported; nothing to be hidden
- returnRn (item_avails, [], explicits)
- where
- import_fm :: FiniteMap OccName AvailInfo
- import_fm = listToFM [ (nameOccName name, avail)
- | avail <- avails,
- name <- availNames avail]
- -- Even though availNames returns data constructors too,
- -- they won't make any difference because naked entities like T
- -- in an import list map to TcOccs, not VarOccs.
-
- check_item item@(IEModuleContents _)
- = addErrRn (badImportItemErr mod item) `thenRn_`
- returnRn Nothing
-
- check_item item
- | not (maybeToBool maybe_in_import_avails) ||
- not (maybeToBool maybe_filtered_avail)
- = addErrRn (badImportItemErr mod item) `thenRn_`
- returnRn Nothing
-
- | dodgy_import = addWarnRn (dodgyImportWarn mod item) `thenRn_`
- returnRn (Just (filtered_avail, explicits))
-
- | otherwise = returnRn (Just (filtered_avail, explicits))
-
- where
- wanted_occ = rdrNameOcc (ieName item)
- maybe_in_import_avails = lookupFM import_fm wanted_occ
-
- Just avail = maybe_in_import_avails
- maybe_filtered_avail = filterAvail item avail
- Just filtered_avail = maybe_filtered_avail
- explicits | dot_dot = [availName filtered_avail]
- | otherwise = availNames filtered_avail
-
- dot_dot = case item of
- IEThingAll _ -> True
- other -> False
-
- dodgy_import = case (item, avail) of
- (IEThingAll _, AvailTC _ [n]) -> True
- -- This occurs when you import T(..), but
- -- only export T abstractly. The single [n]
- -- in the AvailTC is the type or class itself
-
- other -> False
-\end{code}
-
-
-
-%************************************************************************
-%* *
-\subsection{Qualifiying imports}
-%* *
-%************************************************************************
-
-@qualifyImports@ takes the @ExportEnv@ after filtering through the import spec
-of an import decl, and deals with producing an @RnEnv@ with the
-right qualified names. It also turns the @Names@ in the @ExportEnv@ into
-fully fledged @Names@.
-
-\begin{code}
-qualifyImports :: ModuleName -- Imported module
- -> Bool -- True <=> want unqualified import
- -> Maybe ModuleName -- Optional "as M" part
- -> [AvailInfo] -- What's to be hidden
- -> Avails -- Whats imported and how
- -> (Name -> Name) -- Improves the provenance on imported things
- -> RnMG (GlobalRdrEnv, ExportAvails)
- -- NB: the Names in ExportAvails don't have the improve-provenance
- -- function applied to them
- -- We could fix that, but I don't think it matters
-
-qualifyImports this_mod unqual_imp as_mod hides
- avails improve_prov
- =
- -- Make the name environment. We're talking about a
- -- single module here, so there must be no name clashes.
- -- In practice there only ever will be if it's the module
- -- being compiled.
- let
- -- Add the things that are available
- name_env1 = foldl add_avail emptyRdrEnv avails
-
- -- Delete things that are hidden
- name_env2 = foldl del_avail name_env1 hides
-
- -- Create the export-availability info
- export_avails = mkExportAvails qual_mod unqual_imp name_env2 avails
- in
- returnRn (name_env2, export_avails)
-
- where
- qual_mod = case as_mod of
- Nothing -> this_mod
- Just another_name -> another_name
-
- add_avail :: GlobalRdrEnv -> AvailInfo -> GlobalRdrEnv
- add_avail env avail = foldl add_name env (availNames avail)
-
- add_name env name
- | unqual_imp = env2
- | otherwise = env1
- where
- env1 = addOneToGlobalRdrEnv env (mkRdrQual qual_mod occ) better_name
- env2 = addOneToGlobalRdrEnv env1 (mkRdrUnqual occ) better_name
- occ = nameOccName name
- better_name = improve_prov name
-
- del_avail env avail = foldl delOneFromGlobalRdrEnv env rdr_names
- where
- rdr_names = map (mkRdrUnqual . nameOccName) (availNames avail)
-\end{code}
-
-
-%************************************************************************
-%* *
-\subsection{Export list processing
-%* *
-%************************************************************************
-
-Processing the export list.
-
-You might think that we should record things that appear in the export list as
-``occurrences'' (using addOccurrenceName), but you'd be wrong. We do check (here)
-that they are in scope, but there is no need to slurp in their actual declaration
-(which is what addOccurrenceName forces). Indeed, doing so would big trouble when
-compiling PrelBase, because it re-exports GHC, which includes takeMVar#, whose type
-includes ConcBase.StateAndSynchVar#, and so on...
-
-\begin{code}
-type ExportAccum -- The type of the accumulating parameter of
- -- the main worker function in exportsFromAvail
- = ([ModuleName], -- 'module M's seen so far
- ExportOccMap, -- Tracks exported occurrence names
- NameEnv AvailInfo) -- The accumulated exported stuff, kept in an env
- -- so we can common-up related AvailInfos
-
-type ExportOccMap = FiniteMap OccName (Name, RdrNameIE)
- -- Tracks what a particular exported OccName
- -- in an export list refers to, and which item
- -- it came from. It's illegal to export two distinct things
- -- that have the same occurrence name
-
-
-exportsFromAvail :: ModuleName
- -> Maybe [RdrNameIE] -- Export spec
- -> ExportAvails
- -> GlobalRdrEnv
- -> RnMG Avails
- -- Complains if two distinct exports have same OccName
- -- Warns about identical exports.
- -- Complains about exports items not in scope
-exportsFromAvail this_mod Nothing export_avails global_name_env
- = exportsFromAvail this_mod true_exports export_avails global_name_env
- where
- true_exports = Just $ if this_mod == mAIN_Name
- then [IEVar main_RDR]
- -- export Main.main *only* unless otherwise specified,
- else [IEModuleContents this_mod]
- -- but for all other modules export everything.
-
-exportsFromAvail this_mod (Just export_items)
- (mod_avail_env, entity_avail_env)
- global_name_env
- = foldlRn exports_from_item
- ([], emptyFM, emptyNameEnv) export_items `thenRn` \ (_, _, export_avail_map) ->
- let
- export_avails :: [AvailInfo]
- export_avails = nameEnvElts export_avail_map
- in
- returnRn export_avails
-
- where
- exports_from_item :: ExportAccum -> RdrNameIE -> RnMG ExportAccum
-
- exports_from_item acc@(mods, occs, avails) ie@(IEModuleContents mod)
- | mod `elem` mods -- Duplicate export of M
- = warnCheckRn opt_WarnDuplicateExports
- (dupModuleExport mod) `thenRn_`
- returnRn acc
-
- | otherwise
- = case lookupFM mod_avail_env mod of
- Nothing -> failWithRn acc (modExportErr mod)
- Just mod_avails -> foldlRn (check_occs ie) occs mod_avails `thenRn` \ occs' ->
- let
- avails' = foldl add_avail avails mod_avails
- in
- returnRn (mod:mods, occs', avails')
-
- exports_from_item acc@(mods, occs, avails) ie
- | not (maybeToBool maybe_in_scope)
- = failWithRn acc (unknownNameErr (ieName ie))
-
- | not (null dup_names)
- = addNameClashErrRn rdr_name (name:dup_names) `thenRn_`
- returnRn acc
-
-#ifdef DEBUG
- -- I can't see why this should ever happen; if the thing is in scope
- -- at all it ought to have some availability
- | not (maybeToBool maybe_avail)
- = pprTrace "exportsFromAvail: curious Nothing:" (ppr name)
- returnRn acc
-#endif
-
- | not enough_avail
- = failWithRn acc (exportItemErr ie)
-
- | otherwise -- Phew! It's OK! Now to check the occurrence stuff!
- = check_occs ie occs export_avail `thenRn` \ occs' ->
- returnRn (mods, occs', add_avail avails export_avail)
-
- where
- rdr_name = ieName ie
- maybe_in_scope = lookupFM global_name_env rdr_name
- Just (name:dup_names) = maybe_in_scope
- maybe_avail = lookupUFM entity_avail_env name
- Just avail = maybe_avail
- maybe_export_avail = filterAvail ie avail
- enough_avail = maybeToBool maybe_export_avail
- Just export_avail = maybe_export_avail
-
-add_avail avails avail = addToNameEnv_C plusAvail avails (availName avail) avail
-
-check_occs :: RdrNameIE -> ExportOccMap -> AvailInfo -> RnMG ExportOccMap
-check_occs ie occs avail
- = foldlRn check occs (availNames avail)
- where
- check occs name
- = case lookupFM occs name_occ of
- Nothing -> returnRn (addToFM occs name_occ (name, ie))
- Just (name', ie')
- | name == name' -> -- Duplicate export
- warnCheckRn opt_WarnDuplicateExports
- (dupExportWarn name_occ ie ie') `thenRn_`
- returnRn occs
-
- | otherwise -> -- Same occ name but different names: an error
- failWithRn occs (exportClashErr name_occ ie ie')
- where
- name_occ = nameOccName name
-
-mk_export_fn :: NameSet -> (Name -> ExportFlag)
-mk_export_fn exported_names
- = \name -> if name `elemNameSet` exported_names
- then Exported
- else NotExported
-\end{code}
-
-%************************************************************************
-%* *
-\subsection{Errors}
-%* *
-%************************************************************************
-
-\begin{code}
-badImportItemErr mod ie
- = sep [ptext SLIT("Module"), quotes (pprModuleName mod),
- ptext SLIT("does not export"), quotes (ppr ie)]
-
-dodgyImportWarn mod (IEThingAll tc)
- = sep [ptext SLIT("Module") <+> quotes (pprModuleName mod) <+> ptext SLIT("exports") <+> quotes (ppr tc),
- ptext SLIT("with no constructors/class operations;"),
- ptext SLIT("yet it is imported with a (..)")]
-
-modExportErr mod
- = hsep [ ptext SLIT("Unknown module in export list: module"), quotes (pprModuleName mod)]
-
-exportItemErr export_item
- = sep [ ptext SLIT("Bad export item"), quotes (ppr export_item)]
-
-exportClashErr occ_name ie1 ie2
- = hsep [ptext SLIT("The export items"), quotes (ppr ie1), ptext SLIT("and"), quotes (ppr ie2),
- ptext SLIT("create conflicting exports for"), quotes (ppr occ_name)]
-
-dupDeclErr (n:ns)
- = vcat [ptext SLIT("Multiple declarations of") <+> quotes (ppr n),
- nest 4 (vcat (map pp sorted_ns))]
- where
- sorted_ns = sortLt occ'ed_before (n:ns)
-
- occ'ed_before a b = LT == compare (getSrcLoc a) (getSrcLoc b)
-
- pp n = pprProvenance (getNameProvenance n)
-
-dupExportWarn occ_name ie1 ie2
- = hsep [quotes (ppr occ_name),
- ptext SLIT("is exported by"), quotes (ppr ie1),
- ptext SLIT("and"), quotes (ppr ie2)]
-
-dupModuleExport mod
- = hsep [ptext SLIT("Duplicate"),
- quotes (ptext SLIT("Module") <+> pprModuleName mod),
- ptext SLIT("in export list")]
-
-unusedFixityDecl rdr_name fixity
- = hsep [ptext SLIT("Unused fixity declaration for"), quotes (ppr rdr_name)]
-
-dupFixityDecl rdr_name loc1 loc2
- = vcat [ptext SLIT("Multiple fixity declarations for") <+> quotes (ppr rdr_name),
- ptext SLIT("at ") <+> ppr loc1,
- ptext SLIT("and") <+> ppr loc2]
-
-\end{code}
+%\r
+% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998\r
+%\r
+\section[RnNames]{Extracting imported and top-level names in scope}\r
+\r
+\begin{code}\r
+module RnNames (\r
+ getGlobalNames\r
+ ) where\r
+\r
+#include "HsVersions.h"\r
+\r
+import CmdLineOpts ( opt_NoImplicitPrelude, opt_WarnDuplicateExports, \r
+ opt_SourceUnchanged, opt_WarnUnusedBinds\r
+ )\r
+\r
+import HsSyn ( HsModule(..), HsDecl(..), TyClDecl(..),\r
+ IE(..), ieName, \r
+ ForeignDecl(..), ForKind(..), isDynamic,\r
+ FixitySig(..), Sig(..), ImportDecl(..),\r
+ collectTopBinders\r
+ )\r
+import RdrHsSyn ( RdrNameIE, RdrNameImportDecl,\r
+ RdrNameHsModule, RdrNameHsDecl\r
+ )\r
+import RnIfaces ( getInterfaceExports, getDeclBinders,\r
+ recordSlurp, checkUpToDate\r
+ )\r
+import RnEnv\r
+import RnMonad\r
+\r
+import FiniteMap\r
+import PrelMods\r
+import PrelInfo ( main_RDR )\r
+import UniqFM ( lookupUFM )\r
+import Bag ( bagToList )\r
+import Maybes ( maybeToBool )\r
+import Module ( ModuleName, mkThisModule, pprModuleName, WhereFrom(..) )\r
+import NameSet\r
+import Name ( Name, ExportFlag(..), ImportReason(..), Provenance(..),\r
+ isLocallyDefined, setNameProvenance,\r
+ nameOccName, getSrcLoc, pprProvenance, getNameProvenance\r
+ )\r
+import RdrName ( RdrName, rdrNameOcc, mkRdrQual, mkRdrUnqual, isQual )\r
+import SrcLoc ( SrcLoc )\r
+import NameSet ( elemNameSet, emptyNameSet )\r
+import Outputable\r
+import Unique ( getUnique )\r
+import Util ( removeDups, equivClassesByUniq, sortLt )\r
+import List ( partition )\r
+\end{code}\r
+\r
+\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection{Get global names}\r
+%* *\r
+%************************************************************************\r
+\r
+\begin{code}\r
+getGlobalNames :: RdrNameHsModule\r
+ -> RnMG (Maybe (ExportEnv, \r
+ GlobalRdrEnv,\r
+ FixityEnv, -- Fixities for local decls only\r
+ NameEnv AvailInfo -- Maps a name to its parent AvailInfo\r
+ -- Just for in-scope things only\r
+ ))\r
+ -- Nothing => no need to recompile\r
+\r
+getGlobalNames (HsModule this_mod _ exports imports decls mod_loc)\r
+ = -- These two fix-loops are to get the right\r
+ -- provenance information into a Name\r
+ fixRn (\ ~(rec_gbl_env, rec_exported_avails, _) ->\r
+\r
+ let\r
+ rec_unqual_fn :: Name -> Bool -- Is this chap in scope unqualified?\r
+ rec_unqual_fn = unQualInScope rec_gbl_env\r
+\r
+ rec_exp_fn :: Name -> ExportFlag\r
+ rec_exp_fn = mk_export_fn (availsToNameSet rec_exported_avails)\r
+ in\r
+ setModuleRn this_mod $\r
+\r
+ -- PROCESS LOCAL DECLS\r
+ -- Do these *first* so that the correct provenance gets\r
+ -- into the global name cache.\r
+ importsFromLocalDecls this_mod rec_exp_fn decls `thenRn` \ (local_gbl_env, local_mod_avails) ->\r
+\r
+ -- PROCESS IMPORT DECLS\r
+ -- Do the non {- SOURCE -} ones first, so that we get a helpful\r
+ -- warning for {- SOURCE -} ones that are unnecessary\r
+ let\r
+ (source, ordinary) = partition is_source_import all_imports\r
+ is_source_import (ImportDecl _ ImportByUserSource _ _ _ _) = True\r
+ is_source_import other = False\r
+ in\r
+ mapAndUnzipRn (importsFromImportDecl rec_unqual_fn) ordinary `thenRn` \ (imp_gbl_envs1, imp_avails_s1) ->\r
+ mapAndUnzipRn (importsFromImportDecl rec_unqual_fn) source `thenRn` \ (imp_gbl_envs2, imp_avails_s2) ->\r
+\r
+ -- COMBINE RESULTS\r
+ -- We put the local env second, so that a local provenance\r
+ -- "wins", even if a module imports itself.\r
+ let\r
+ gbl_env :: GlobalRdrEnv\r
+ imp_gbl_env = foldr plusGlobalRdrEnv emptyRdrEnv (imp_gbl_envs2 ++ imp_gbl_envs1)\r
+ gbl_env = imp_gbl_env `plusGlobalRdrEnv` local_gbl_env\r
+\r
+ all_avails :: ExportAvails\r
+ all_avails = foldr plusExportAvails local_mod_avails (imp_avails_s2 ++ imp_avails_s1)\r
+ in\r
+\r
+ -- TRY FOR EARLY EXIT\r
+ -- We can't go for an early exit before this because we have to check\r
+ -- for name clashes. Consider:\r
+ --\r
+ -- module A where module B where\r
+ -- import B h = True\r
+ -- f = h\r
+ --\r
+ -- Suppose I've compiled everything up, and then I add a\r
+ -- new definition to module B, that defines "f".\r
+ --\r
+ -- Then I must detect the name clash in A before going for an early\r
+ -- exit. The early-exit code checks what's actually needed from B\r
+ -- to compile A, and of course that doesn't include B.f. That's\r
+ -- why we wait till after the plusEnv stuff to do the early-exit.\r
+ checkEarlyExit this_mod `thenRn` \ up_to_date ->\r
+ if up_to_date then\r
+ returnRn (gbl_env, junk_exp_fn, Nothing)\r
+ else\r
+ \r
+ -- RECORD BETTER PROVENANCES IN THE CACHE\r
+ -- The names in the envirnoment have better provenances (e.g. imported on line x)\r
+ -- than the names in the name cache. We update the latter now, so that we\r
+ -- we start renaming declarations we'll get the good names\r
+ -- The isQual is because the qualified name is always in scope\r
+ updateProvenances (concat [names | (rdr_name, names) <- rdrEnvToList imp_gbl_env, \r
+ isQual rdr_name]) `thenRn_`\r
+\r
+ -- PROCESS EXPORT LISTS\r
+ exportsFromAvail this_mod exports all_avails gbl_env `thenRn` \ exported_avails ->\r
+\r
+ -- DONE\r
+ returnRn (gbl_env, exported_avails, Just all_avails)\r
+ ) `thenRn` \ (gbl_env, exported_avails, maybe_stuff) ->\r
+\r
+ case maybe_stuff of {\r
+ Nothing -> returnRn Nothing ;\r
+ Just all_avails ->\r
+\r
+ traceRn (text "updateProv" <+> fsep (map ppr (rdrEnvElts gbl_env))) `thenRn_`\r
+ \r
+ -- DEAL WITH FIXITIES\r
+ fixitiesFromLocalDecls gbl_env decls `thenRn` \ local_fixity_env ->\r
+ let\r
+ -- Export only those fixities that are for names that are\r
+ -- (a) defined in this module\r
+ -- (b) exported\r
+ exported_fixities :: [(Name,Fixity)]\r
+ exported_fixities = [(name,fixity) | FixitySig name fixity _ <- nameEnvElts local_fixity_env,\r
+ isLocallyDefined name\r
+ ]\r
+ in\r
+ traceRn (text "fixity env" <+> vcat (map ppr (nameEnvElts local_fixity_env))) `thenRn_`\r
+\r
+ --- TIDY UP \r
+ let\r
+ export_env = ExportEnv exported_avails exported_fixities\r
+ (_, global_avail_env) = all_avails\r
+ in\r
+ returnRn (Just (export_env, gbl_env, local_fixity_env, global_avail_env))\r
+ }\r
+ where\r
+ junk_exp_fn = error "RnNames:export_fn"\r
+\r
+ all_imports = prel_imports ++ imports\r
+\r
+ -- NB: opt_NoImplicitPrelude is slightly different to import Prelude ();\r
+ -- because the former doesn't even look at Prelude.hi for instance declarations,\r
+ -- whereas the latter does.\r
+ prel_imports | this_mod == pRELUDE_Name ||\r
+ explicit_prelude_import ||\r
+ opt_NoImplicitPrelude\r
+ = []\r
+\r
+ | otherwise = [ImportDecl pRELUDE_Name\r
+ ImportByUser\r
+ False {- Not qualified -}\r
+ Nothing {- No "as" -}\r
+ Nothing {- No import list -}\r
+ mod_loc]\r
+ \r
+ explicit_prelude_import\r
+ = not (null [ () | (ImportDecl mod _ _ _ _ _) <- imports, mod == pRELUDE_Name ])\r
+\end{code}\r
+ \r
+\begin{code}\r
+checkEarlyExit mod\r
+ = checkErrsRn `thenRn` \ no_errs_so_far ->\r
+ if not no_errs_so_far then\r
+ -- Found errors already, so exit now\r
+ returnRn True\r
+ else\r
+\r
+ traceRn (text "Considering whether compilation is required...") `thenRn_`\r
+ if not opt_SourceUnchanged then\r
+ -- Source code changed and no errors yet... carry on \r
+ traceRn (nest 4 (text "source file changed or recompilation check turned off")) `thenRn_` \r
+ returnRn False\r
+ else\r
+\r
+ -- Unchanged source, and no errors yet; see if usage info\r
+ -- up to date, and exit if so\r
+ checkUpToDate mod `thenRn` \ up_to_date ->\r
+ putDocRn (text "Compilation" <+> \r
+ text (if up_to_date then "IS NOT" else "IS") <+>\r
+ text "required") `thenRn_`\r
+ returnRn up_to_date\r
+\end{code}\r
+ \r
+\begin{code}\r
+importsFromImportDecl :: (Name -> Bool) -- OK to omit qualifier\r
+ -> RdrNameImportDecl\r
+ -> RnMG (GlobalRdrEnv, \r
+ ExportAvails) \r
+\r
+importsFromImportDecl is_unqual (ImportDecl imp_mod_name from qual_only as_mod import_spec iloc)\r
+ = pushSrcLocRn iloc $\r
+ getInterfaceExports imp_mod_name from `thenRn` \ (imp_mod, avails) ->\r
+\r
+ if null avails then\r
+ -- If there's an error in getInterfaceExports, (e.g. interface\r
+ -- file not found) we get lots of spurious errors from 'filterImports'\r
+ returnRn (emptyRdrEnv, mkEmptyExportAvails imp_mod_name)\r
+ else\r
+\r
+ filterImports imp_mod_name import_spec avails `thenRn` \ (filtered_avails, hides, explicits) ->\r
+\r
+ -- We 'improve' the provenance by setting\r
+ -- (a) the import-reason field, so that the Name says how it came into scope\r
+ -- including whether it's explicitly imported\r
+ -- (b) the print-unqualified field\r
+ -- But don't fiddle with wired-in things or we get in a twist\r
+ let\r
+ improve_prov name = setNameProvenance name (NonLocalDef (UserImport imp_mod iloc (is_explicit name)) \r
+ (is_unqual name))\r
+ is_explicit name = name `elemNameSet` explicits\r
+ in\r
+ qualifyImports imp_mod_name\r
+ (not qual_only) -- Maybe want unqualified names\r
+ as_mod hides\r
+ filtered_avails improve_prov `thenRn` \ (rdr_name_env, mod_avails) ->\r
+\r
+ returnRn (rdr_name_env, mod_avails)\r
+\end{code}\r
+\r
+\r
+\begin{code}\r
+importsFromLocalDecls mod_name rec_exp_fn decls\r
+ = mapRn (getLocalDeclBinders newLocalName) decls `thenRn` \ avails_s ->\r
+\r
+ let\r
+ avails = concat avails_s\r
+\r
+ all_names :: [Name] -- All the defns; no dups eliminated\r
+ all_names = [name | avail <- avails, name <- availNames avail]\r
+\r
+ dups :: [[Name]]\r
+ dups = filter non_singleton (equivClassesByUniq getUnique all_names)\r
+ where\r
+ non_singleton (x1:x2:xs) = True\r
+ non_singleton other = False\r
+ in\r
+ -- Check for duplicate definitions\r
+ mapRn_ (addErrRn . dupDeclErr) dups `thenRn_` \r
+\r
+ -- Record that locally-defined things are available\r
+ mapRn_ (recordSlurp Nothing) avails `thenRn_`\r
+\r
+ -- Build the environment\r
+ qualifyImports mod_name \r
+ True -- Want unqualified names\r
+ Nothing -- no 'as M'\r
+ [] -- Hide nothing\r
+ avails\r
+ (\n -> n)\r
+\r
+ where\r
+ newLocalName rdr_name loc = newLocalTopBinder mod (rdrNameOcc rdr_name)\r
+ rec_exp_fn loc\r
+ mod = mkThisModule mod_name\r
+\r
+getLocalDeclBinders :: (RdrName -> SrcLoc -> RnMG Name) -- New-name function\r
+ -> RdrNameHsDecl\r
+ -> RnMG Avails\r
+getLocalDeclBinders new_name (ValD binds)\r
+ = mapRn do_one (bagToList (collectTopBinders binds))\r
+ where\r
+ do_one (rdr_name, loc) = new_name rdr_name loc `thenRn` \ name ->\r
+ returnRn (Avail name)\r
+\r
+ -- foreign declarations\r
+getLocalDeclBinders new_name (ForD (ForeignDecl nm kind _ dyn _ loc))\r
+ | binds_haskell_name kind dyn\r
+ = new_name nm loc `thenRn` \ name ->\r
+ returnRn [Avail name]\r
+\r
+ | otherwise\r
+ = returnRn []\r
+\r
+getLocalDeclBinders new_name decl\r
+ = getDeclBinders new_name decl `thenRn` \ maybe_avail ->\r
+ case maybe_avail of\r
+ Nothing -> returnRn [] -- Instance decls and suchlike\r
+ Just avail -> returnRn [avail]\r
+\r
+binds_haskell_name (FoImport _) _ = True\r
+binds_haskell_name FoLabel _ = True\r
+binds_haskell_name FoExport ext_nm = isDynamic ext_nm\r
+\r
+fixitiesFromLocalDecls :: GlobalRdrEnv -> [RdrNameHsDecl] -> RnMG FixityEnv\r
+fixitiesFromLocalDecls gbl_env decls\r
+ = foldlRn getFixities emptyNameEnv decls\r
+ where\r
+ getFixities :: FixityEnv -> RdrNameHsDecl -> RnMG FixityEnv\r
+ getFixities acc (FixD fix)\r
+ = fix_decl acc fix\r
+\r
+ getFixities acc (TyClD (ClassDecl _ _ _ sigs _ _ _ _ _ _))\r
+ = foldlRn fix_decl acc [sig | FixSig sig <- sigs]\r
+ -- Get fixities from class decl sigs too.\r
+ getFixities acc other_decl\r
+ = returnRn acc\r
+\r
+ fix_decl acc sig@(FixitySig rdr_name fixity loc)\r
+ = -- Check for fixity decl for something not declared\r
+ case lookupRdrEnv gbl_env rdr_name of {\r
+ Nothing | opt_WarnUnusedBinds \r
+ -> pushSrcLocRn loc (addWarnRn (unusedFixityDecl rdr_name fixity)) `thenRn_`\r
+ returnRn acc \r
+ | otherwise -> returnRn acc ;\r
+ \r
+ Just (name:_) ->\r
+\r
+ -- Check for duplicate fixity decl\r
+ case lookupNameEnv acc name of {\r
+ Just (FixitySig _ _ loc') -> addErrRn (dupFixityDecl rdr_name loc loc') `thenRn_`\r
+ returnRn acc ;\r
+\r
+ Nothing -> returnRn (addToNameEnv acc name (FixitySig name fixity loc))\r
+ }}\r
+\end{code}\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection{Filtering imports}\r
+%* *\r
+%************************************************************************\r
+\r
+@filterImports@ takes the @ExportEnv@ telling what the imported module makes\r
+available, and filters it through the import spec (if any).\r
+\r
+\begin{code}\r
+filterImports :: ModuleName -- The module being imported\r
+ -> Maybe (Bool, [RdrNameIE]) -- Import spec; True => hiding\r
+ -> [AvailInfo] -- What's available\r
+ -> RnMG ([AvailInfo], -- What's actually imported\r
+ [AvailInfo], -- What's to be hidden (the unqualified version, that is)\r
+ NameSet) -- What was imported explicitly\r
+\r
+ -- Complains if import spec mentions things that the module doesn't export\r
+ -- Warns/informs if import spec contains duplicates.\r
+filterImports mod Nothing imports\r
+ = returnRn (imports, [], emptyNameSet)\r
+\r
+filterImports mod (Just (want_hiding, import_items)) avails\r
+ = mapMaybeRn check_item import_items `thenRn` \ avails_w_explicits ->\r
+ let\r
+ (item_avails, explicits_s) = unzip avails_w_explicits\r
+ explicits = foldl addListToNameSet emptyNameSet explicits_s\r
+ in\r
+ if want_hiding \r
+ then \r
+ -- All imported; item_avails to be hidden\r
+ returnRn (avails, item_avails, emptyNameSet)\r
+ else\r
+ -- Just item_avails imported; nothing to be hidden\r
+ returnRn (item_avails, [], explicits)\r
+ where\r
+ import_fm :: FiniteMap OccName AvailInfo\r
+ import_fm = listToFM [ (nameOccName name, avail) \r
+ | avail <- avails,\r
+ name <- availNames avail]\r
+ -- Even though availNames returns data constructors too,\r
+ -- they won't make any difference because naked entities like T\r
+ -- in an import list map to TcOccs, not VarOccs.\r
+\r
+ check_item item@(IEModuleContents _)\r
+ = addErrRn (badImportItemErr mod item) `thenRn_`\r
+ returnRn Nothing\r
+\r
+ check_item item\r
+ | not (maybeToBool maybe_in_import_avails) ||\r
+ not (maybeToBool maybe_filtered_avail)\r
+ = addErrRn (badImportItemErr mod item) `thenRn_`\r
+ returnRn Nothing\r
+\r
+ | dodgy_import = addWarnRn (dodgyImportWarn mod item) `thenRn_`\r
+ returnRn (Just (filtered_avail, explicits))\r
+\r
+ | otherwise = returnRn (Just (filtered_avail, explicits))\r
+ \r
+ where\r
+ wanted_occ = rdrNameOcc (ieName item)\r
+ maybe_in_import_avails = lookupFM import_fm wanted_occ\r
+\r
+ Just avail = maybe_in_import_avails\r
+ maybe_filtered_avail = filterAvail item avail\r
+ Just filtered_avail = maybe_filtered_avail\r
+ explicits | dot_dot = [availName filtered_avail]\r
+ | otherwise = availNames filtered_avail\r
+\r
+ dot_dot = case item of \r
+ IEThingAll _ -> True\r
+ other -> False\r
+\r
+ dodgy_import = case (item, avail) of\r
+ (IEThingAll _, AvailTC _ [n]) -> True\r
+ -- This occurs when you import T(..), but\r
+ -- only export T abstractly. The single [n]\r
+ -- in the AvailTC is the type or class itself\r
+ \r
+ other -> False\r
+\end{code}\r
+\r
+\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection{Qualifiying imports}\r
+%* *\r
+%************************************************************************\r
+\r
+@qualifyImports@ takes the @ExportEnv@ after filtering through the import spec\r
+of an import decl, and deals with producing an @RnEnv@ with the \r
+right qualified names. It also turns the @Names@ in the @ExportEnv@ into\r
+fully fledged @Names@.\r
+\r
+\begin{code}\r
+qualifyImports :: ModuleName -- Imported module\r
+ -> Bool -- True <=> want unqualified import\r
+ -> Maybe ModuleName -- Optional "as M" part \r
+ -> [AvailInfo] -- What's to be hidden\r
+ -> Avails -- Whats imported and how\r
+ -> (Name -> Name) -- Improves the provenance on imported things\r
+ -> RnMG (GlobalRdrEnv, ExportAvails)\r
+ -- NB: the Names in ExportAvails don't have the improve-provenance\r
+ -- function applied to them\r
+ -- We could fix that, but I don't think it matters\r
+\r
+qualifyImports this_mod unqual_imp as_mod hides\r
+ avails improve_prov\r
+ = \r
+ -- Make the name environment. We're talking about a \r
+ -- single module here, so there must be no name clashes.\r
+ -- In practice there only ever will be if it's the module\r
+ -- being compiled.\r
+ let\r
+ -- Add the things that are available\r
+ name_env1 = foldl add_avail emptyRdrEnv avails\r
+\r
+ -- Delete things that are hidden\r
+ name_env2 = foldl del_avail name_env1 hides\r
+\r
+ -- Create the export-availability info\r
+ export_avails = mkExportAvails qual_mod unqual_imp name_env2 avails\r
+ in\r
+ returnRn (name_env2, export_avails)\r
+\r
+ where\r
+ qual_mod = case as_mod of\r
+ Nothing -> this_mod\r
+ Just another_name -> another_name\r
+\r
+ add_avail :: GlobalRdrEnv -> AvailInfo -> GlobalRdrEnv\r
+ add_avail env avail = foldl add_name env (availNames avail)\r
+\r
+ add_name env name\r
+ | unqual_imp = env2\r
+ | otherwise = env1\r
+ where\r
+ env1 = addOneToGlobalRdrEnv env (mkRdrQual qual_mod occ) better_name\r
+ env2 = addOneToGlobalRdrEnv env1 (mkRdrUnqual occ) better_name\r
+ occ = nameOccName name\r
+ better_name = improve_prov name\r
+\r
+ del_avail env avail = foldl delOneFromGlobalRdrEnv env rdr_names\r
+ where\r
+ rdr_names = map (mkRdrUnqual . nameOccName) (availNames avail)\r
+\end{code}\r
+\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection{Export list processing\r
+%* *\r
+%************************************************************************\r
+\r
+Processing the export list.\r
+\r
+You might think that we should record things that appear in the export list as\r
+``occurrences'' (using addOccurrenceName), but you'd be wrong. We do check (here)\r
+that they are in scope, but there is no need to slurp in their actual declaration\r
+(which is what addOccurrenceName forces). Indeed, doing so would big trouble when\r
+compiling PrelBase, because it re-exports GHC, which includes takeMVar#, whose type\r
+includes ConcBase.StateAndSynchVar#, and so on...\r
+\r
+\begin{code}\r
+type ExportAccum -- The type of the accumulating parameter of\r
+ -- the main worker function in exportsFromAvail\r
+ = ([ModuleName], -- 'module M's seen so far\r
+ ExportOccMap, -- Tracks exported occurrence names\r
+ NameEnv AvailInfo) -- The accumulated exported stuff, kept in an env\r
+ -- so we can common-up related AvailInfos\r
+\r
+type ExportOccMap = FiniteMap OccName (Name, RdrNameIE)\r
+ -- Tracks what a particular exported OccName\r
+ -- in an export list refers to, and which item\r
+ -- it came from. It's illegal to export two distinct things\r
+ -- that have the same occurrence name\r
+\r
+\r
+exportsFromAvail :: ModuleName\r
+ -> Maybe [RdrNameIE] -- Export spec\r
+ -> ExportAvails\r
+ -> GlobalRdrEnv \r
+ -> RnMG Avails\r
+ -- Complains if two distinct exports have same OccName\r
+ -- Warns about identical exports.\r
+ -- Complains about exports items not in scope\r
+exportsFromAvail this_mod Nothing export_avails global_name_env\r
+ = exportsFromAvail this_mod true_exports export_avails global_name_env\r
+ where\r
+ true_exports = Just $ if this_mod == mAIN_Name\r
+ then [IEVar main_RDR]\r
+ -- export Main.main *only* unless otherwise specified,\r
+ else [IEModuleContents this_mod]\r
+ -- but for all other modules export everything.\r
+\r
+exportsFromAvail this_mod (Just export_items) \r
+ (mod_avail_env, entity_avail_env)\r
+ global_name_env\r
+ = foldlRn exports_from_item\r
+ ([], emptyFM, emptyNameEnv) export_items `thenRn` \ (_, _, export_avail_map) ->\r
+ let\r
+ export_avails :: [AvailInfo]\r
+ export_avails = nameEnvElts export_avail_map\r
+ in\r
+ returnRn export_avails\r
+\r
+ where\r
+ exports_from_item :: ExportAccum -> RdrNameIE -> RnMG ExportAccum\r
+\r
+ exports_from_item acc@(mods, occs, avails) ie@(IEModuleContents mod)\r
+ | mod `elem` mods -- Duplicate export of M\r
+ = warnCheckRn opt_WarnDuplicateExports\r
+ (dupModuleExport mod) `thenRn_`\r
+ returnRn acc\r
+\r
+ | otherwise\r
+ = case lookupFM mod_avail_env mod of\r
+ Nothing -> failWithRn acc (modExportErr mod)\r
+ Just mod_avails -> foldlRn (check_occs ie) occs mod_avails `thenRn` \ occs' ->\r
+ let\r
+ avails' = foldl add_avail avails mod_avails\r
+ in\r
+ returnRn (mod:mods, occs', avails')\r
+\r
+ exports_from_item acc@(mods, occs, avails) ie\r
+ | not (maybeToBool maybe_in_scope) \r
+ = failWithRn acc (unknownNameErr (ieName ie))\r
+\r
+ | not (null dup_names)\r
+ = addNameClashErrRn rdr_name (name:dup_names) `thenRn_`\r
+ returnRn acc\r
+\r
+#ifdef DEBUG\r
+ -- I can't see why this should ever happen; if the thing is in scope\r
+ -- at all it ought to have some availability\r
+ | not (maybeToBool maybe_avail)\r
+ = pprTrace "exportsFromAvail: curious Nothing:" (ppr name)\r
+ returnRn acc\r
+#endif\r
+\r
+ | not enough_avail\r
+ = failWithRn acc (exportItemErr ie)\r
+\r
+ | otherwise -- Phew! It's OK! Now to check the occurrence stuff!\r
+ = check_occs ie occs export_avail `thenRn` \ occs' ->\r
+ returnRn (mods, occs', add_avail avails export_avail)\r
+\r
+ where\r
+ rdr_name = ieName ie\r
+ maybe_in_scope = lookupFM global_name_env rdr_name\r
+ Just (name:dup_names) = maybe_in_scope\r
+ maybe_avail = lookupUFM entity_avail_env name\r
+ Just avail = maybe_avail\r
+ maybe_export_avail = filterAvail ie avail\r
+ enough_avail = maybeToBool maybe_export_avail\r
+ Just export_avail = maybe_export_avail\r
+\r
+add_avail avails avail = addToNameEnv_C plusAvail avails (availName avail) avail\r
+\r
+check_occs :: RdrNameIE -> ExportOccMap -> AvailInfo -> RnMG ExportOccMap\r
+check_occs ie occs avail \r
+ = foldlRn check occs (availNames avail)\r
+ where\r
+ check occs name\r
+ = case lookupFM occs name_occ of\r
+ Nothing -> returnRn (addToFM occs name_occ (name, ie))\r
+ Just (name', ie') \r
+ | name == name' -> -- Duplicate export\r
+ warnCheckRn opt_WarnDuplicateExports\r
+ (dupExportWarn name_occ ie ie') `thenRn_`\r
+ returnRn occs\r
+\r
+ | otherwise -> -- Same occ name but different names: an error\r
+ failWithRn occs (exportClashErr name_occ ie ie')\r
+ where\r
+ name_occ = nameOccName name\r
+ \r
+mk_export_fn :: NameSet -> (Name -> ExportFlag)\r
+mk_export_fn exported_names\r
+ = \name -> if name `elemNameSet` exported_names\r
+ then Exported\r
+ else NotExported\r
+\end{code}\r
+\r
+%************************************************************************\r
+%* *\r
+\subsection{Errors}\r
+%* *\r
+%************************************************************************\r
+\r
+\begin{code}\r
+badImportItemErr mod ie\r
+ = sep [ptext SLIT("Module"), quotes (pprModuleName mod), \r
+ ptext SLIT("does not export"), quotes (ppr ie)]\r
+\r
+dodgyImportWarn mod (IEThingAll tc)\r
+ = sep [ptext SLIT("Module") <+> quotes (pprModuleName mod) <+> ptext SLIT("exports") <+> quotes (ppr tc), \r
+ ptext SLIT("with no constructors/class operations;"),\r
+ ptext SLIT("yet it is imported with a (..)")]\r
+\r
+modExportErr mod\r
+ = hsep [ ptext SLIT("Unknown module in export list: module"), quotes (pprModuleName mod)]\r
+\r
+exportItemErr export_item\r
+ = sep [ ptext SLIT("Bad export item"), quotes (ppr export_item)]\r
+\r
+exportClashErr occ_name ie1 ie2\r
+ = hsep [ptext SLIT("The export items"), quotes (ppr ie1), ptext SLIT("and"), quotes (ppr ie2),\r
+ ptext SLIT("create conflicting exports for"), quotes (ppr occ_name)]\r
+\r
+dupDeclErr (n:ns)\r
+ = vcat [ptext SLIT("Multiple declarations of") <+> quotes (ppr n),\r
+ nest 4 (vcat (map pp sorted_ns))]\r
+ where\r
+ sorted_ns = sortLt occ'ed_before (n:ns)\r
+\r
+ occ'ed_before a b = LT == compare (getSrcLoc a) (getSrcLoc b)\r
+\r
+ pp n = pprProvenance (getNameProvenance n)\r
+\r
+dupExportWarn occ_name ie1 ie2\r
+ = hsep [quotes (ppr occ_name), \r
+ ptext SLIT("is exported by"), quotes (ppr ie1),\r
+ ptext SLIT("and"), quotes (ppr ie2)]\r
+\r
+dupModuleExport mod\r
+ = hsep [ptext SLIT("Duplicate"),\r
+ quotes (ptext SLIT("Module") <+> pprModuleName mod), \r
+ ptext SLIT("in export list")]\r
+\r
+unusedFixityDecl rdr_name fixity\r
+ = hsep [ptext SLIT("Unused fixity declaration for"), quotes (ppr rdr_name)]\r
+\r
+dupFixityDecl rdr_name loc1 loc2\r
+ = vcat [ptext SLIT("Multiple fixity declarations for") <+> quotes (ppr rdr_name),\r
+ ptext SLIT("at ") <+> ppr loc1,\r
+ ptext SLIT("and") <+> ppr loc2]\r
+\r
+\end{code}\r