2 % (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
4 \section[RnMonad]{The monad used by the renamer}
21 #include "HsVersions.h"
23 #if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 302
24 import PrelIOBase ( fixIO ) -- Should be in GlaExts
26 import IOBase ( fixIO )
28 import IOExts ( IORef, newIORef, readIORef, writeIORef, unsafePerformIO )
32 import RnHsSyn ( RenamedFixitySig )
33 import BasicTypes ( Version )
34 import SrcLoc ( noSrcLoc )
35 import ErrUtils ( addShortErrLocLine, addShortWarnLocLine,
36 pprBagOfErrors, ErrMsg, WarnMsg, Message
38 import Name ( Name, OccName, NamedThing(..),
39 isLocallyDefinedName, nameModule, nameOccName,
42 import Module ( Module, ModuleName, ModuleHiMap, SearchPath, WhereFrom,
43 mkModuleHiMaps, moduleName, mkVanillaModule, mkSearchPath
46 import RdrName ( RdrName, dummyRdrVarName, rdrNameOcc )
47 import CmdLineOpts ( opt_D_dump_rn_trace, opt_HiMap )
48 import PrelInfo ( builtinNames )
49 import TysWiredIn ( boolTyCon )
50 import SrcLoc ( SrcLoc, mkGeneratedSrcLoc )
51 import Unique ( Unique, getUnique, unboundKey )
52 import UniqFM ( UniqFM )
53 import FiniteMap ( FiniteMap, emptyFM, bagToFM, lookupFM, addToFM, addListToFM,
54 addListToFM_C, addToFM_C, eltsFM, fmToList
56 import Bag ( Bag, mapBag, emptyBag, isEmptyBag, snocBag )
57 import Maybes ( mapMaybe )
64 infixr 9 `thenRn`, `thenRn_`
68 %************************************************************************
70 \subsection{Somewhat magical interface to other monads}
72 %************************************************************************
75 ioToRnM :: IO r -> RnM d (Either IOError r)
76 ioToRnM io rn_down g_down = (io >>= \ ok -> return (Right ok))
78 (\ err -> return (Left err))
80 traceRn :: SDoc -> RnM d ()
81 traceRn msg | opt_D_dump_rn_trace = putDocRn msg
82 | otherwise = returnRn ()
84 putDocRn :: SDoc -> RnM d ()
85 putDocRn msg = ioToRnM (printErrs msg) `thenRn_`
90 %************************************************************************
92 \subsection{Data types}
94 %************************************************************************
96 %===================================================
97 \subsubsection{ MONAD TYPES}
98 %===================================================
101 type RnM d r = RnDown -> d -> IO r
102 type RnMS r = RnM SDown r -- Renaming source
103 type RnMG r = RnM () r -- Getting global names etc
106 data RnDown = RnDown {
107 rn_mod :: ModuleName,
109 rn_ns :: IORef RnNameSupply,
110 rn_errs :: IORef (Bag WarnMsg, Bag ErrMsg),
111 rn_ifaces :: IORef Ifaces,
112 rn_hi_maps :: (ModuleHiMap, -- for .hi files
113 ModuleHiMap) -- for .hi-boot files
116 -- For renaming source code
120 rn_genv :: GlobalRdrEnv,
121 -- Global envt; the fixity component gets extended
122 -- with local fixity decls
124 rn_lenv :: LocalRdrEnv, -- Local name envt
125 -- Does *not* include global name envt; may shadow it
126 -- Includes both ordinary variables and type variables;
127 -- they are kept distinct because tyvar have a different
128 -- occurrence contructor (Name.TvOcc)
129 -- We still need the unsullied global name env so that
130 -- we can look up record field names
132 rn_fixenv :: FixityEnv -- Local fixities
133 -- The global ones are held in the
137 data RnMode = SourceMode -- Renaming source code
138 | InterfaceMode -- Renaming interface declarations.
141 %===================================================
142 \subsubsection{ ENVIRONMENTS}
143 %===================================================
146 --------------------------------
147 type RdrNameEnv a = FiniteMap RdrName a
148 type GlobalRdrEnv = RdrNameEnv [Name] -- The list is because there may be name clashes
149 -- These only get reported on lookup,
150 -- not on construction
151 type LocalRdrEnv = RdrNameEnv Name
153 emptyRdrEnv :: RdrNameEnv a
154 lookupRdrEnv :: RdrNameEnv a -> RdrName -> Maybe a
155 addListToRdrEnv :: RdrNameEnv a -> [(RdrName,a)] -> RdrNameEnv a
156 extendRdrEnv :: RdrNameEnv a -> RdrName -> a -> RdrNameEnv a
158 emptyRdrEnv = emptyFM
159 lookupRdrEnv = lookupFM
160 addListToRdrEnv = addListToFM
162 extendRdrEnv = addToFM
163 rdrEnvToList = fmToList
165 --------------------------------
166 type NameEnv a = UniqFM a -- Domain is Name
168 emptyNameEnv :: NameEnv a
169 nameEnvElts :: NameEnv a -> [a]
170 addToNameEnv_C :: (a->a->a) -> NameEnv a -> Name -> a -> NameEnv a
171 addToNameEnv :: NameEnv a -> Name -> a -> NameEnv a
172 plusNameEnv :: NameEnv a -> NameEnv a -> NameEnv a
173 extendNameEnv :: NameEnv a -> [(Name,a)] -> NameEnv a
174 lookupNameEnv :: NameEnv a -> Name -> Maybe a
175 delFromNameEnv :: NameEnv a -> Name -> NameEnv a
176 elemNameEnv :: Name -> NameEnv a -> Bool
178 emptyNameEnv = emptyUFM
179 nameEnvElts = eltsUFM
180 addToNameEnv_C = addToUFM_C
181 addToNameEnv = addToUFM
182 plusNameEnv = plusUFM
183 extendNameEnv = addListToUFM
184 lookupNameEnv = lookupUFM
185 delFromNameEnv = delFromUFM
186 elemNameEnv = elemUFM
188 --------------------------------
189 type FixityEnv = NameEnv RenamedFixitySig
190 -- We keep the whole fixity sig so that we
191 -- can report line-number info when there is a duplicate
192 -- fixity declaration
196 --------------------------------
200 , FiniteMap String Int
201 -- This is used as a name supply for dictionary functions
202 -- From the inst decl we derive a string, usually by glomming together
203 -- the class and tycon name -- but it doesn't matter exactly how;
204 -- this map then gives a unique int for each inst decl with that
205 -- string. (In Haskell 98 there can only be one,
206 -- but not so in more extended versions; also class CC type T
207 -- and class C type TT might both give the string CCT
209 -- We could just use one Int for all the instance decls, but this
210 -- way the uniques change less when you add an instance decl,
211 -- hence less recompilation
213 , FiniteMap (ModuleName, OccName) Name
214 -- Ensures that one (module,occname) pair gets one unique
218 --------------------------------
219 data ExportEnv = ExportEnv Avails Fixities
220 type Avails = [AvailInfo]
221 type Fixities = [(Name, Fixity)]
223 type ExportAvails = (FiniteMap ModuleName Avails,
224 -- Used to figure out "module M" export specifiers
225 -- Includes avails only from *unqualified* imports
226 -- (see 1.4 Report Section 5.1.1)
228 NameEnv AvailInfo) -- Used to figure out all other export specifiers.
229 -- Maps a Name to the AvailInfo that contains it
232 data GenAvailInfo name = Avail name -- An ordinary identifier
233 | AvailTC name -- The name of the type or class
234 [name] -- The available pieces of type/class.
235 -- NB: If the type or class is itself
236 -- to be in scope, it must be in this list.
237 -- Thus, typically: AvailTC Eq [Eq, ==, /=]
239 type AvailInfo = GenAvailInfo Name
240 type RdrAvailInfo = GenAvailInfo OccName
243 %===================================================
244 \subsubsection{ INTERFACE FILE STUFF}
245 %===================================================
248 type ExportItem = (ModuleName, [RdrAvailInfo])
249 type VersionInfo name = [ImportVersion name]
251 type ImportVersion name = (ModuleName, Version, WhetherHasOrphans, WhatsImported name)
253 type WhetherHasOrphans = Bool
255 -- * an instance decl in a module other than the defn module for
256 -- one of the tycons or classes in the instance head
257 -- * a transformation rule in a module other than the one defining
258 -- the function in the head of the rule.
260 data WhatsImported name = Everything
261 | Specifically [LocalVersion name] -- List guaranteed non-empty
263 -- ("M", hif, ver, Everything) means there was a "module M" in
264 -- this module's export list, so we just have to go by M's version, "ver",
265 -- not the list of LocalVersions.
268 type LocalVersion name = (name, Version)
272 pi_mod :: Version, -- Module version number
273 pi_orphan :: WhetherHasOrphans, -- Whether this module has orphans
274 pi_usages :: [ImportVersion OccName], -- Usages
275 pi_exports :: [ExportItem], -- Exports
276 pi_decls :: [(Version, RdrNameHsDecl)], -- Local definitions
277 pi_insts :: [RdrNameInstDecl], -- Local instance declarations
278 pi_rules :: [RdrNameRuleDecl] -- Rules
281 type InterfaceDetails = (WhetherHasOrphans,
282 VersionInfo Name, -- Version information for what this module imports
283 ExportEnv) -- What modules this one depends on
286 -- needed by Main to fish out the fixities assoc list.
287 getIfaceFixities :: InterfaceDetails -> Fixities
288 getIfaceFixities (_, _, ExportEnv _ fs) = fs
291 type RdrNamePragma = () -- Fudge for now
294 data Ifaces = Ifaces {
295 iImpModInfo :: ImportedModuleInfo,
296 -- Modules this one depends on: that is, the union
297 -- of the modules its *direct* imports depend on.
298 -- NB: The direct imports have .hi files that enumerate *all* the
299 -- dependencies (direct or not) of the imported module.
301 iDecls :: DeclsMap, -- A single, global map of Names to decls
303 iFixes :: FixityEnv, -- A single, global map of Names to fixities
306 -- All the names (whether "big" or "small", whether wired-in or not,
307 -- whether locally defined or not) that have been slurped in so far.
309 iVSlurp :: [(Name,Version)],
310 -- All the (a) non-wired-in (b) "big" (c) non-locally-defined
311 -- names that have been slurped in so far, with their versions.
312 -- This is used to generate the "usage" information for this module.
313 -- Subset of the previous field.
315 iInsts :: Bag GatedDecl,
316 -- The as-yet un-slurped instance decls; this bag is depleted when we
317 -- slurp an instance decl so that we don't slurp the same one twice.
318 -- Each is 'gated' by the names that must be available before
319 -- this instance decl is needed.
321 iRules :: Bag GatedDecl
322 -- Ditto transformation rules
325 type GatedDecl = (NameSet, (Module, RdrNameHsDecl))
327 type ImportedModuleInfo
328 = FiniteMap ModuleName (Version, Bool, Maybe (Module, Bool, Avails))
329 -- Suppose the domain element is module 'A'
331 -- The first Bool is True if A contains
332 -- 'orphan' rules or instance decls
334 -- The second Bool is true if the interface file actually
335 -- read was an .hi-boot file
337 -- Nothing => A's interface not yet read, but this module has
338 -- imported a module, B, that itself depends on A
340 -- Just xx => A's interface has been read. The Module in
341 -- the Just has the correct Dll flag
343 -- This set is used to decide whether to look for
344 -- A.hi or A.hi-boot when importing A.f.
345 -- Basically, we look for A.hi if A is in the map, and A.hi-boot
348 type DeclsMap = NameEnv (Version, AvailInfo, Bool, (Module, RdrNameHsDecl))
349 -- A DeclsMap contains a binding for each Name in the declaration
350 -- including the constructors of a type decl etc.
351 -- The Bool is True just for the 'main' Name.
355 %************************************************************************
357 \subsection{Main monad code}
359 %************************************************************************
362 initRn :: ModuleName -> UniqSupply -> SearchPath -> SrcLoc
364 -> IO (r, Bag ErrMsg, Bag WarnMsg)
366 initRn mod us dirs loc do_rn = do
367 himaps <- mkModuleHiMaps dirs
368 names_var <- newIORef (us, emptyFM, builtins)
369 errs_var <- newIORef (emptyBag,emptyBag)
370 iface_var <- newIORef emptyIfaces
372 rn_down = RnDown { rn_loc = loc, rn_ns = names_var,
375 rn_ifaces = iface_var,
379 res <- do_rn rn_down ()
381 -- grab errors and return
382 (warns, errs) <- readIORef errs_var
384 return (res, errs, warns)
387 initRnMS :: GlobalRdrEnv -> FixityEnv -> RnMode -> RnMS r -> RnM d r
388 initRnMS rn_env fixity_env mode thing_inside rn_down g_down
390 s_down = SDown { rn_genv = rn_env, rn_lenv = emptyRdrEnv,
391 rn_fixenv = fixity_env, rn_mode = mode }
393 thing_inside rn_down s_down
395 initIfaceRnMS :: Module -> RnMS r -> RnM d r
396 initIfaceRnMS mod thing_inside
397 = initRnMS emptyRdrEnv emptyNameEnv InterfaceMode $
398 setModuleRn (moduleName mod) thing_inside
400 emptyIfaces :: Ifaces
401 emptyIfaces = Ifaces { iImpModInfo = emptyFM,
402 iDecls = emptyNameEnv,
403 iFixes = emptyNameEnv,
404 iSlurp = unitNameSet (mkUnboundName dummyRdrVarName),
405 -- Pretend that the dummy unbound name has already been
406 -- slurped. This is what's returned for an out-of-scope name,
407 -- and we don't want thereby to try to suck it in!
413 -- mkUnboundName makes a place-holder Name; it shouldn't be looked at except possibly
414 -- during compiler debugging.
415 mkUnboundName :: RdrName -> Name
416 mkUnboundName rdr_name = mkLocalName unboundKey (rdrNameOcc rdr_name) noSrcLoc
418 isUnboundName :: Name -> Bool
419 isUnboundName name = getUnique name == unboundKey
421 builtins :: FiniteMap (ModuleName,OccName) Name
424 mapBag (\ name -> ((moduleName (nameModule name), nameOccName name), name))
428 @renameSourceCode@ is used to rename stuff ``out-of-line'';
429 that is, not as part of the main renamer.
430 Sole examples: derived definitions,
431 which are only generated in the type checker.
433 The @RnNameSupply@ includes a @UniqueSupply@, so if you call it more than
434 once you must either split it, or install a fresh unique supply.
437 renameSourceCode :: ModuleName
442 renameSourceCode mod_name name_supply m
444 -- It's not really unsafe! When renaming source code we
445 -- only do any I/O if we need to read in a fixity declaration;
446 -- and that doesn't happen in pragmas etc
448 mkModuleHiMaps (mkSearchPath opt_HiMap) >>= \ himaps ->
449 newIORef name_supply >>= \ names_var ->
450 newIORef (emptyBag,emptyBag) >>= \ errs_var ->
452 rn_down = RnDown { rn_loc = mkGeneratedSrcLoc, rn_ns = names_var,
453 rn_errs = errs_var, rn_hi_maps = himaps,
455 s_down = SDown { rn_mode = InterfaceMode,
456 -- So that we can refer to PrelBase.True etc
457 rn_genv = emptyRdrEnv, rn_lenv = emptyRdrEnv,
458 rn_fixenv = emptyNameEnv }
460 m rn_down s_down >>= \ result ->
462 readIORef errs_var >>= \ (warns,errs) ->
464 (if not (isEmptyBag errs) then
465 pprTrace "Urk! renameSourceCode found errors" (display errs)
467 else if not (isEmptyBag warns) then
468 pprTrace "Note: renameSourceCode found warnings" (display warns)
476 display errs = pprBagOfErrors errs
478 {-# INLINE thenRn #-}
479 {-# INLINE thenRn_ #-}
480 {-# INLINE returnRn #-}
483 returnRn :: a -> RnM d a
484 thenRn :: RnM d a -> (a -> RnM d b) -> RnM d b
485 thenRn_ :: RnM d a -> RnM d b -> RnM d b
486 andRn :: (a -> a -> a) -> RnM d a -> RnM d a -> RnM d a
487 mapRn :: (a -> RnM d b) -> [a] -> RnM d [b]
488 mapRn_ :: (a -> RnM d b) -> [a] -> RnM d ()
489 mapMaybeRn :: (a -> RnM d (Maybe b)) -> [a] -> RnM d [b]
490 sequenceRn :: [RnM d a] -> RnM d [a]
491 foldlRn :: (b -> a -> RnM d b) -> b -> [a] -> RnM d b
492 mapAndUnzipRn :: (a -> RnM d (b,c)) -> [a] -> RnM d ([b],[c])
493 fixRn :: (a -> RnM d a) -> RnM d a
495 returnRn v gdown ldown = return v
496 thenRn m k gdown ldown = m gdown ldown >>= \ r -> k r gdown ldown
497 thenRn_ m k gdown ldown = m gdown ldown >> k gdown ldown
498 fixRn m gdown ldown = fixIO (\r -> m r gdown ldown)
499 andRn combiner m1 m2 gdown ldown
500 = m1 gdown ldown >>= \ res1 ->
501 m2 gdown ldown >>= \ res2 ->
502 return (combiner res1 res2)
504 sequenceRn [] = returnRn []
505 sequenceRn (m:ms) = m `thenRn` \ r ->
506 sequenceRn ms `thenRn` \ rs ->
509 mapRn f [] = returnRn []
511 = f x `thenRn` \ r ->
512 mapRn f xs `thenRn` \ rs ->
515 mapRn_ f [] = returnRn ()
520 foldlRn k z [] = returnRn z
521 foldlRn k z (x:xs) = k z x `thenRn` \ z' ->
524 mapAndUnzipRn f [] = returnRn ([],[])
525 mapAndUnzipRn f (x:xs)
526 = f x `thenRn` \ (r1, r2) ->
527 mapAndUnzipRn f xs `thenRn` \ (rs1, rs2) ->
528 returnRn (r1:rs1, r2:rs2)
530 mapAndUnzip3Rn f [] = returnRn ([],[],[])
531 mapAndUnzip3Rn f (x:xs)
532 = f x `thenRn` \ (r1, r2, r3) ->
533 mapAndUnzip3Rn f xs `thenRn` \ (rs1, rs2, rs3) ->
534 returnRn (r1:rs1, r2:rs2, r3:rs3)
536 mapMaybeRn f [] = returnRn []
537 mapMaybeRn f (x:xs) = f x `thenRn` \ maybe_r ->
538 mapMaybeRn f xs `thenRn` \ rs ->
540 Nothing -> returnRn rs
541 Just r -> returnRn (r:rs)
546 %************************************************************************
548 \subsection{Boring plumbing for common part}
550 %************************************************************************
554 \subsubsection{ Errors and warnings}
555 %=====================
558 failWithRn :: a -> Message -> RnM d a
559 failWithRn res msg (RnDown {rn_errs = errs_var, rn_loc = loc}) l_down
560 = readIORef errs_var >>= \ (warns,errs) ->
561 writeIORef errs_var (warns, errs `snocBag` err) >>
564 err = addShortErrLocLine loc msg
566 warnWithRn :: a -> Message -> RnM d a
567 warnWithRn res msg (RnDown {rn_errs = errs_var, rn_loc = loc}) l_down
568 = readIORef errs_var >>= \ (warns,errs) ->
569 writeIORef errs_var (warns `snocBag` warn, errs) >>
572 warn = addShortWarnLocLine loc msg
574 addErrRn :: Message -> RnM d ()
575 addErrRn err = failWithRn () err
577 checkRn :: Bool -> Message -> RnM d () -- Check that a condition is true
578 checkRn False err = addErrRn err
579 checkRn True err = returnRn ()
581 warnCheckRn :: Bool -> Message -> RnM d () -- Check that a condition is true
582 warnCheckRn False err = addWarnRn err
583 warnCheckRn True err = returnRn ()
585 addWarnRn :: Message -> RnM d ()
586 addWarnRn warn = warnWithRn () warn
588 checkErrsRn :: RnM d Bool -- True <=> no errors so far
589 checkErrsRn (RnDown {rn_errs = errs_var}) l_down
590 = readIORef errs_var >>= \ (warns,errs) ->
591 return (isEmptyBag errs)
596 \subsubsection{ Source location}
597 %=====================
600 pushSrcLocRn :: SrcLoc -> RnM d a -> RnM d a
601 pushSrcLocRn loc' m down l_down
602 = m (down {rn_loc = loc'}) l_down
604 getSrcLocRn :: RnM d SrcLoc
605 getSrcLocRn down l_down
606 = return (rn_loc down)
610 \subsubsection{ Name supply}
611 %=====================
614 getNameSupplyRn :: RnM d RnNameSupply
615 getNameSupplyRn rn_down l_down
616 = readIORef (rn_ns rn_down)
618 setNameSupplyRn :: RnNameSupply -> RnM d ()
619 setNameSupplyRn names' (RnDown {rn_ns = names_var}) l_down
620 = writeIORef names_var names'
622 -- See comments with RnNameSupply above.
623 newInstUniq :: String -> RnM d Int
624 newInstUniq key (RnDown {rn_ns = names_var}) l_down
625 = readIORef names_var >>= \ (us, mapInst, cache) ->
627 uniq = case lookupFM mapInst key of
630 mapInst' = addToFM mapInst key uniq
632 writeIORef names_var (us, mapInst', cache) >>
635 getUniqRn :: RnM d Unique
636 getUniqRn (RnDown {rn_ns = names_var}) l_down
637 = readIORef names_var >>= \ (us, mapInst, cache) ->
639 (us1,us') = splitUniqSupply us
641 writeIORef names_var (us', mapInst, cache) >>
642 return (uniqFromSupply us1)
646 \subsubsection{ Module}
647 %=====================
650 getModuleRn :: RnM d ModuleName
651 getModuleRn (RnDown {rn_mod = mod_name}) l_down
654 setModuleRn :: ModuleName -> RnM d a -> RnM d a
655 setModuleRn new_mod enclosed_thing rn_down l_down
656 = enclosed_thing (rn_down {rn_mod = new_mod}) l_down
660 %************************************************************************
662 \subsection{Plumbing for rename-source part}
664 %************************************************************************
667 \subsubsection{ RnEnv}
668 %=====================
671 getNameEnvs :: RnMS (GlobalRdrEnv, LocalRdrEnv)
672 getNameEnvs rn_down (SDown {rn_genv = global_env, rn_lenv = local_env})
673 = return (global_env, local_env)
675 getLocalNameEnv :: RnMS LocalRdrEnv
676 getLocalNameEnv rn_down (SDown {rn_lenv = local_env})
679 setLocalNameEnv :: LocalRdrEnv -> RnMS a -> RnMS a
680 setLocalNameEnv local_env' m rn_down l_down
681 = m rn_down (l_down {rn_lenv = local_env'})
683 getFixityEnv :: RnMS FixityEnv
684 getFixityEnv rn_down (SDown {rn_fixenv = fixity_env})
687 extendFixityEnv :: [(Name, RenamedFixitySig)] -> RnMS a -> RnMS a
688 extendFixityEnv fixes enclosed_scope
689 rn_down l_down@(SDown {rn_fixenv = fixity_env})
691 new_fixity_env = extendNameEnv fixity_env fixes
693 enclosed_scope rn_down (l_down {rn_fixenv = new_fixity_env})
697 \subsubsection{ Mode}
698 %=====================
701 getModeRn :: RnMS RnMode
702 getModeRn rn_down (SDown {rn_mode = mode})
705 setModeRn :: RnMode -> RnMS a -> RnMS a
706 setModeRn new_mode thing_inside rn_down l_down
707 = thing_inside rn_down (l_down {rn_mode = new_mode})
711 %************************************************************************
713 \subsection{Plumbing for rename-globals part}
715 %************************************************************************
718 getIfacesRn :: RnM d Ifaces
719 getIfacesRn (RnDown {rn_ifaces = iface_var}) _
720 = readIORef iface_var
722 setIfacesRn :: Ifaces -> RnM d ()
723 setIfacesRn ifaces (RnDown {rn_ifaces = iface_var}) _
724 = writeIORef iface_var ifaces
726 getHiMaps :: RnM d (ModuleHiMap, ModuleHiMap)
727 getHiMaps (RnDown {rn_hi_maps = himaps}) _
732 lookupModuleRn :: ModuleName -> RnM d Module
734 getHiMaps `thenRn` \ (himap, _) ->
735 case lookupFM himap x of
736 Nothing -> returnRn (mkVanillaModule x)
737 Just (_,x) -> returnRn x