%
-% (c) The GRASP/AQUA Project, Glasgow University, 1993-1996
+% (c) The GRASP/AQUA Project, Glasgow University, 1993-1998
%
\section[MkIface]{Print an interface for a module}
\begin{code}
-#include "HsVersions.h"
-
module MkIface (
- startIface, endIface,
- ifaceMain, ifaceInstances,
- ifaceDecls
+ startIface, endIface, ifaceDecls
) where
-IMP_Ubiq(){-uitous-}
-IMPORT_1_3(IO(Handle,hPutStr,openFile,hClose,IOMode(..)))
+#include "HsVersions.h"
+
+import IO ( Handle, hPutStr, openFile,
+ hClose, hPutStrLn, IOMode(..) )
import HsSyn
-import RdrHsSyn ( RdrName(..) )
-import RnHsSyn ( SYN_IE(RenamedHsModule) )
+import BasicTypes ( Fixity(..), FixityDirection(..), NewOrData(..) )
import RnMonad
+import RnEnv ( availName )
import TcInstUtil ( InstInfo(..) )
import CmdLineOpts
-import Id ( idType, dataConRawArgTys, dataConFieldLabels, isDataCon,
- getIdInfo, idWantsToBeINLINEd, wantIdSigInIface,
- dataConStrictMarks, StrictnessMark(..),
- SYN_IE(IdSet), idSetToList, unionIdSets, unitIdSet, minusIdSet,
- isEmptyIdSet, elementOfIdSet, emptyIdSet, mkIdSet,
- GenId{-instance NamedThing/Outputable-}
+import Id ( Id, idType, idInfo, omitIfaceSigForId, isUserExportedId,
+ getIdSpecialisation
)
-import IdInfo ( StrictnessInfo, ArityInfo, Unfolding,
- arityInfo, ppArityInfo, strictnessInfo, ppStrictnessInfo,
- getWorkerId_maybe, bottomIsGuaranteed
+import Var ( isId )
+import VarSet
+import DataCon ( StrictnessMark(..), dataConSig, dataConFieldLabels, dataConStrictMarks )
+import IdInfo ( IdInfo, StrictnessInfo(..), ArityInfo, InlinePragInfo(..), inlinePragInfo,
+ arityInfo, ppArityInfo, arityLowerBound,
+ strictnessInfo, ppStrictnessInfo, isBottomingStrictness,
+ cafInfo, ppCafInfo, specInfo,
+ cprInfo, ppCprInfo, pprInlinePragInfo,
+ occInfo, OccInfo(..),
+ workerExists, workerInfo, ppWorkerInfo
)
-import CoreSyn ( SYN_IE(CoreExpr), SYN_IE(CoreBinding), GenCoreExpr, GenCoreBinding(..) )
-import CoreUnfold ( calcUnfoldingGuidance, UnfoldingGuidance(..) )
-import FreeVars ( addExprFVs )
-import Name ( isLocallyDefined, isWiredInName, modAndOcc, getName, pprOccName,
- OccName, occNameString, nameOccName, nameString, isExported, pprNonSym,
- Name {-instance NamedThing-}, Provenance
+import CoreSyn ( CoreExpr, CoreBind, Bind(..), rulesRules, rulesRhsFreeVars )
+import CoreFVs ( exprSomeFreeVars, ruleSomeLhsFreeVars, ruleSomeFreeVars )
+import CoreUnfold ( calcUnfoldingGuidance, okToUnfoldInHiFile, couldBeSmallEnoughToInline )
+import Module ( moduleString, pprModule, pprModuleName )
+import Name ( isLocallyDefined, isWiredInName, nameRdrName, nameModule,
+ Name, NamedThing(..)
)
-import TyCon ( TyCon(..){-instance NamedThing-}, NewOrData(..) )
-import Class ( GenClass(..){-instance NamedThing-}, GenClassOp, classOpLocalType )
-import FieldLabel ( FieldLabel{-instance NamedThing-} )
-import Type ( mkSigmaTy, mkDictTy, getAppTyCon, splitForAllTy )
-import TyVar ( GenTyVar {- instance Eq -} )
-import Unique ( Unique {- instance Eq -} )
-
-import PprEnv -- not sure how much...
-import PprStyle ( PprStyle(..) )
-import PprType
-import PprCore ( pprIfaceUnfolding )
-import Pretty
-import Unpretty -- ditto
+import OccName ( OccName, pprOccName )
+import TyCon ( TyCon, getSynTyConDefn, isSynTyCon, isNewTyCon, isAlgTyCon,
+ tyConTheta, tyConTyVars, tyConDataCons
+ )
+import Class ( Class, classExtraBigSig )
+import FieldLabel ( fieldLabelName, fieldLabelType )
+import Type ( mkSigmaTy, splitSigmaTy, mkDictTy, tidyTopType,
+ deNoteType, classesToPreds,
+ Type, ThetaType, PredType(..), ClassContext
+ )
+import PprType
+import PprCore ( pprIfaceUnfolding, pprCoreRule )
+import FunDeps ( pprFundeps )
+import Rules ( pprProtoCoreRule, ProtoCoreRule(..) )
-import Bag ( bagToList )
+import Bag ( bagToList, isEmptyBag )
import Maybes ( catMaybes, maybeToBool )
-import FiniteMap ( emptyFM, addToFM, lookupFM, fmToList, eltsFM, FiniteMap )
-import UniqFM ( UniqFM, lookupUFM, listToUFM )
-import Util ( sortLt, zipWithEqual, zipWith3Equal, mapAccumL,
- assertPanic, panic{-ToDo:rm-}, pprTrace )
-
+import FiniteMap ( emptyFM, addToFM, addToFM_C, fmToList, FiniteMap )
+import UniqFM ( lookupUFM, listToUFM )
+import UniqSet ( uniqSetToList )
+import Util ( sortLt, mapAccumL )
+import Bag
+import Outputable
\end{code}
We have a function @startIface@ to open the output file and put
@ifaceExportList@ produces the @__exports__@ section; it appends
to the handle provided by @startIface@.
+NOTE: ALWAYS remember that ghc-iface.lprl rewrites the interface file,
+so you have to keep it in synch with the code below. Otherwise you'll
+lose the happiest years of your life, believe me... -- SUP
+
\begin{code}
-startIface :: Module
+startIface :: Module -> InterfaceDetails
-> IO (Maybe Handle) -- Nothing <=> don't do an interface
-ifaceMain :: Maybe Handle
- -> InterfaceDetails
- -> IO ()
-
-ifaceInstances :: Maybe Handle -> Bag InstInfo -> IO ()
-
ifaceDecls :: Maybe Handle
- -> RenamedHsModule
+ -> [TyCon] -> [Class]
+ -> Bag InstInfo
-> [Id] -- Ids used at code-gen time; they have better pragma info!
- -> [CoreBinding] -- In dependency order, later depend on earlier
+ -> [CoreBind] -- In dependency order, later depend on earlier
+ -> [ProtoCoreRule] -- Rules
+ -> [Deprecation Name]
-> IO ()
endIface :: Maybe Handle -> IO ()
\end{code}
\begin{code}
-startIface mod
+startIface mod (InterfaceDetails has_orphans import_usages (ExportEnv avails fixities _) _)
= case opt_ProduceHi of
- Nothing -> return Nothing -- not producing any .hi file
- Just fn ->
- openFile fn WriteMode >>= \ if_hdl ->
- hPutStr if_hdl ("{-# GHC_PRAGMA INTERFACE VERSION 20 #-}\n_interface_ "++ _UNPK_ mod ++ "\n") >>
+ Nothing -> return Nothing ; -- not producing any .hi file
+
+ Just fn -> do
+ if_hdl <- openFile fn WriteMode
+ hPutStr if_hdl ("__interface " ++ moduleString mod)
+ hPutStr if_hdl (' ' : show (opt_HiVersion :: Int) ++ orphan_indicator)
+ hPutStrLn if_hdl " where"
+ ifaceExports if_hdl avails
+ ifaceImports if_hdl import_usages
+ ifaceFixities if_hdl fixities
return (Just if_hdl)
+ where
+ orphan_indicator | has_orphans = " !"
+ | otherwise = ""
endIface Nothing = return ()
endIface (Just if_hdl) = hPutStr if_hdl "\n" >> hClose if_hdl
\begin{code}
-ifaceMain Nothing iface_stuff = return ()
-ifaceMain (Just if_hdl)
- (import_usages, ExportEnv avails fixities, instance_modules)
- =
- ifaceInstanceModules if_hdl instance_modules >>
- ifaceUsages if_hdl import_usages >>
- ifaceExports if_hdl avails >>
- ifaceFixities if_hdl fixities >>
- return ()
-
-ifaceDecls Nothing rn_mod final_ids simplified = return ()
-ifaceDecls (Just hdl)
- (HsModule _ _ _ _ _ decls _)
- final_ids binds
- | null decls = return ()
+ifaceDecls Nothing tycons classes inst_info final_ids simplified rules _ = return ()
+ifaceDecls (Just hdl)
+ tycons classes
+ inst_infos
+ final_ids
+ binds
+ orphan_rules -- Rules defined locally for an Id that is *not* defined locally
+ deprecations
+ | null_decls = return ()
-- You could have a module with just (re-)exports/instances in it
| otherwise
- = hPutStr hdl "_declarations_\n" >>
- ifaceTCDecls hdl decls >>
- ifaceBinds hdl final_ids binds >>
- return ()
+ = ifaceClasses hdl classes >>
+ ifaceInstances hdl inst_infos >>= \ inst_ids ->
+ ifaceTyCons hdl tycons >>
+ ifaceBinds hdl (inst_ids `unionVarSet` orphan_rule_ids)
+ final_ids binds >>= \ emitted_ids ->
+ ifaceRules hdl orphan_rules emitted_ids >>
+ ifaceDeprecations hdl deprecations
+ where
+ orphan_rule_ids = unionVarSets [ ruleSomeFreeVars interestingId rule
+ | ProtoCoreRule _ _ rule <- orphan_rules]
+
+ null_decls = null binds &&
+ null tycons &&
+ null classes &&
+ isEmptyBag inst_infos &&
+ null orphan_rules &&
+ null deprecations
\end{code}
\begin{code}
-ifaceUsages if_hdl import_usages
- = hPutStr if_hdl "_usages_\n" >>
- hPutCol if_hdl upp_uses (sortLt lt_imp_vers import_usages)
+ifaceImports :: Handle -> VersionInfo Name -> IO ()
+ifaceImports if_hdl import_usages
+ = hPutCol if_hdl upp_uses (sortLt lt_imp_vers import_usages)
where
- upp_uses (m, mv, versions)
- = uppBesides [upp_module m, uppSP, uppInt mv, uppPStr SLIT(" :: "),
- upp_import_versions (sort_versions versions), uppSemi]
+ upp_uses (m, mv, has_orphans, whats_imported)
+ = hsep [ptext SLIT("import"), pprModuleName m,
+ int mv, pp_orphan,
+ upp_import_versions whats_imported
+ ] <> semi
+ where
+ pp_orphan | has_orphans = ptext SLIT("!")
+ | otherwise = empty
+
+ -- Importing the whole module is indicated by an empty list
+ upp_import_versions Everything = empty
-- For imported versions we do print the version number
- upp_import_versions nvs
- = uppIntersperse uppSP [ uppCat [ppr_unqual_name n, uppInt v] | (n,v) <- nvs ]
-
-
-ifaceInstanceModules if_hdl [] = return ()
-ifaceInstanceModules if_hdl imods
- = hPutStr if_hdl "_instance_modules_\n" >>
- hPutStr if_hdl (uppShow 0 (uppCat (map uppPStr imods))) >>
+ upp_import_versions (Specifically nvs)
+ = dcolon <+> hsep [ hsep [ppr_unqual_name n, int v] | (n,v) <- sort_versions nvs ]
+
+{- SUP: What's this??
+ifaceModuleDeps if_hdl [] = return ()
+ifaceModuleDeps if_hdl mod_deps
+ = let
+ lines = map ppr_mod_dep mod_deps
+ ppr_mod_dep (mod, contains_orphans)
+ | contains_orphans = pprModuleName mod <+> ptext SLIT("!")
+ | otherwise = pprModuleName mod
+ in
+ printForIface if_hdl (ptext SLIT("__depends") <+> vcat lines <> ptext SLIT(" ;")) >>
hPutStr if_hdl "\n"
+-}
+ifaceExports :: Handle -> Avails -> IO ()
ifaceExports if_hdl [] = return ()
ifaceExports if_hdl avails
- = hPutStr if_hdl "_exports_\n" >>
- hPutCol if_hdl upp_avail (sortLt lt_avail avails)
-
+ = hPutCol if_hdl do_one_module (fmToList export_fm)
+ where
+ -- Sort them into groups by module
+ export_fm :: FiniteMap Module [AvailInfo]
+ export_fm = foldr insert emptyFM avails
+
+ insert avail efm = addToFM_C (++) efm mod [avail]
+ where
+ mod = nameModule (availName avail)
+
+ -- Print one module's worth of stuff
+ do_one_module :: (Module, [AvailInfo]) -> SDoc
+ do_one_module (mod_name, avails@(avail1:_))
+ = ptext SLIT("__export ") <>
+ hsep [pprModule mod_name,
+ hsep (map upp_avail (sortLt lt_avail avails))
+ ] <> semi
+
+ifaceFixities :: Handle -> Fixities -> IO ()
ifaceFixities if_hdl [] = return ()
ifaceFixities if_hdl fixities
- = hPutStr if_hdl "_fixities_\n" >>
- hPutCol if_hdl upp_fixity fixities
+ = hPutCol if_hdl upp_fixity fixities
-ifaceTCDecls if_hdl decls
- = hPutCol if_hdl ppr_decl tc_decls_for_iface
+ifaceRules :: Handle -> [ProtoCoreRule] -> IdSet -> IO ()
+ifaceRules if_hdl rules emitted
+ | null orphan_rule_pretties && null local_id_pretties
+ = return ()
+ | otherwise
+ = printForIface if_hdl (vcat [
+ ptext SLIT("{-## __R"),
+ vcat orphan_rule_pretties,
+ vcat local_id_pretties,
+ ptext SLIT("##-}")
+ ])
where
- tc_decls_for_iface = sortLt lt_decl (filter for_iface decls)
- for_iface decl@(ClD _) = for_iface_name (hsDeclName decl)
- for_iface decl@(TyD _) = for_iface_name (hsDeclName decl)
- for_iface other_decl = False
-
- for_iface_name name = isLocallyDefined name &&
- not (isWiredInName name)
-
- lt_decl d1 d2 = hsDeclName d1 < hsDeclName d2
-\end{code}
+ orphan_rule_pretties = [ pprCoreRule (Just fn) rule
+ | ProtoCoreRule _ fn rule <- rules
+ ]
+ local_id_pretties = [ pprCoreRule (Just fn) rule
+ | fn <- varSetElems emitted,
+ rule <- rulesRules (getIdSpecialisation fn),
+ all (`elemVarSet` emitted) (varSetElems (ruleSomeLhsFreeVars interestingId rule))
+ -- Spit out a rule only if all its lhs free vars are emitted
+ ]
+
+ifaceDeprecations :: Handle -> [Deprecation Name] -> IO ()
+ifaceDeprecations if_hdl [] = return ()
+ifaceDeprecations if_hdl deprecations
+ = printForIface if_hdl (vcat [
+ ptext SLIT("{-## __D"),
+ vcat [ pprIfaceDeprec d <> semi | d <- deprecations ],
+ ptext SLIT("##-}")
+ ])
+ where
+ -- SUP: TEMPORARY HACK, ignoring module deprecations and constructors for now
+ pprIfaceDeprec (Deprecation (IEModuleContents _) txt) = doubleQuotes (ppr txt)
+ pprIfaceDeprec (Deprecation (IEVar n) txt) = ppr n <+> doubleQuotes (ppr txt)
+\end{code}
%************************************************************************
%* *
\begin{code}
-ifaceInstances Nothing{-no iface handle-} _ = return ()
-
-ifaceInstances (Just if_hdl) inst_infos
- | null togo_insts = return ()
- | otherwise = hPutStr if_hdl "_instances_\n" >>
- hPutCol if_hdl pp_inst (sortLt lt_inst togo_insts)
+ifaceInstances :: Handle -> Bag InstInfo -> IO IdSet -- The IdSet is the needed dfuns
+ifaceInstances if_hdl inst_infos
+ | null togo_insts = return emptyVarSet
+ | otherwise = hPutCol if_hdl pp_inst (sortLt lt_inst togo_insts) >>
+ return needed_ids
where
togo_insts = filter is_togo_inst (bagToList inst_infos)
- is_togo_inst (InstInfo _ _ _ _ _ dfun_id _ _ _) = isLocallyDefined dfun_id
+ needed_ids = mkVarSet [dfun_id | InstInfo _ _ _ _ dfun_id _ _ _ <- togo_insts]
+ is_togo_inst (InstInfo _ _ _ _ dfun_id _ _ _) = isLocallyDefined dfun_id
-------
- lt_inst (InstInfo _ _ _ _ _ dfun_id1 _ _ _)
- (InstInfo _ _ _ _ _ dfun_id2 _ _ _)
+ lt_inst (InstInfo _ _ _ _ dfun_id1 _ _ _)
+ (InstInfo _ _ _ _ dfun_id2 _ _ _)
= getOccName dfun_id1 < getOccName dfun_id2
-- The dfuns are assigned names df1, df2, etc, in order of original textual
-- occurrence, and this makes as good a sort order as any
-------
- pp_inst (InstInfo clas tvs ty theta _ dfun_id _ _ _)
+ pp_inst (InstInfo clas tvs tys theta dfun_id _ _ _)
= let
- forall_ty = mkSigmaTy tvs theta (mkDictTy clas ty)
- renumbered_ty = renumber_ty forall_ty
+ -- The deNoteType is very important. It removes all type
+ -- synonyms from the instance type in interface files.
+ -- That in turn makes sure that when reading in instance decls
+ -- from interface files that the 'gating' mechanism works properly.
+ -- Otherwise you could have
+ -- type Tibble = T Int
+ -- instance Foo Tibble where ...
+ -- and this instance decl wouldn't get imported into a module
+ -- that mentioned T but not Tibble.
+ forall_ty = mkSigmaTy tvs (classesToPreds theta)
+ (deNoteType (mkDictTy clas tys))
+ renumbered_ty = tidyTopType forall_ty
in
- uppBesides [uppPStr SLIT("instance "), ppr_ty renumbered_ty,
- uppPStr SLIT(" = "), ppr_unqual_name dfun_id, uppSemi]
+ hcat [ptext SLIT("instance "), pprType renumbered_ty,
+ ptext SLIT(" = "), ppr_unqual_name dfun_id, semi]
\end{code}
-> IdSet -- Set of Ids that are needed by earlier interface
-- file emissions. If the Id isn't in this set, and isn't
-- exported, there's no need to emit anything
+ -> Bool -- True <=> recursive, so don't print unfolding
-> Id
-> CoreExpr -- The Id's right hand side
- -> Maybe (Pretty, IdSet) -- The emitted stuff, plus a possibly-augmented set of needed Ids
+ -> Maybe (SDoc, IdSet) -- The emitted stuff, plus any *extra* needed Ids
-ifaceId get_idinfo needed_ids id rhs
- | not (wantIdSigInIface (id `elementOfIdSet` needed_ids)
- opt_OmitInterfacePragmas
- id)
+ifaceId get_idinfo needed_ids is_rec id rhs
+ | not (id `elemVarSet` needed_ids || -- Needed [no id in needed_ids has omitIfaceSigForId]
+ (isUserExportedId id && not (omitIfaceSigForId id))) -- or exported and not to be omitted
= Nothing -- Well, that was easy!
-ifaceId get_idinfo needed_ids id rhs
- = Just (ppCat [sig_pretty, prag_pretty, ppSemi], new_needed_ids)
+ifaceId get_idinfo needed_ids is_rec id rhs
+ = ASSERT2( arity_matches_strictness, ppr id )
+ Just (hsep [sig_pretty, prag_pretty, char ';'], new_needed_ids)
where
- idinfo = get_idinfo id
- ty_pretty = pprType PprInterface (initNmbr (nmbrType (idType id)))
- sig_pretty = ppBesides [ppr PprInterface (getOccName id), ppPStr SLIT(" :: "), ty_pretty]
-
- prag_pretty | opt_OmitInterfacePragmas = ppNil
- | otherwise = ppCat [arity_pretty, strict_pretty, unfold_pretty]
+ core_idinfo = idInfo id
+ stg_idinfo = get_idinfo id
+
+ ty_pretty = pprType (idType id)
+ sig_pretty = hsep [ppr (getOccName id), dcolon, ty_pretty]
+
+ prag_pretty
+ | opt_OmitInterfacePragmas = empty
+ | otherwise = hsep [ptext SLIT("{-##"),
+ arity_pretty,
+ caf_pretty,
+ cpr_pretty,
+ strict_pretty,
+ wrkr_pretty,
+ unfold_pretty,
+ ptext SLIT("##-}")]
------------ Arity --------------
- arity_pretty = ppArityInfo PprInterface (arityInfo idinfo)
+ arity_info = arityInfo stg_idinfo
+ arity_pretty = ppArityInfo arity_info
+
+ ------------ Caf Info --------------
+ caf_pretty = ppCafInfo (cafInfo stg_idinfo)
+
+ ------------ CPR Info --------------
+ cpr_pretty = ppCprInfo (cprInfo core_idinfo)
------------ Strictness --------------
- strict_info = strictnessInfo idinfo
- maybe_worker = getWorkerId_maybe strict_info
- strict_pretty = ppStrictnessInfo PprInterface strict_info
+ strict_info = strictnessInfo core_idinfo
+ bottoming_fn = isBottomingStrictness strict_info
+ strict_pretty = ppStrictnessInfo strict_info
+
+ ------------ Worker --------------
+ work_info = workerInfo core_idinfo
+ has_worker = workerExists work_info
+ wrkr_pretty = ppWorkerInfo work_info
+ Just work_id = work_info
+
+
+ ------------ Occ info --------------
+ loop_breaker = case occInfo core_idinfo of
+ IAmALoopBreaker -> True
+ other -> False
------------ Unfolding --------------
- unfold_pretty | show_unfold = ppCat [ppStr "_U_", pprIfaceUnfolding rhs]
- | otherwise = ppNil
+ inline_pragma = inlinePragInfo core_idinfo
+ dont_inline = case inline_pragma of
+ IMustNotBeINLINEd False Nothing -> True -- Unconditional NOINLINE
+ other -> False
- show_unfold = not (maybeToBool maybe_worker) && -- Unfolding is implicit
- not (bottomIsGuaranteed strict_info) && -- Ditto
- case guidance of -- Small enough to show
- UnfoldNever -> False
- other -> True
- guidance = calcUnfoldingGuidance (idWantsToBeINLINEd id)
- opt_InterfaceUnfoldThreshold
- rhs
+ unfold_pretty | show_unfold = ptext SLIT("__U") <> pprInlinePragInfo inline_pragma <+> pprIfaceUnfolding rhs
+ | otherwise = empty
+ show_unfold = not has_worker && -- Not unnecessary
+ not bottoming_fn && -- Not necessary
+ not dont_inline &&
+ not loop_breaker &&
+ rhs_is_small && -- Small enough
+ okToUnfoldInHiFile rhs -- No casms etc
+
+ rhs_is_small = couldBeSmallEnoughToInline (calcUnfoldingGuidance opt_UF_HiFileThreshold rhs)
+
+ ------------ Specialisations --------------
+ spec_info = specInfo core_idinfo
------------ Extra free Ids --------------
- new_needed_ids = (needed_ids `minusIdSet` unitIdSet id) `unionIdSets`
- extra_ids
-
- extra_ids | opt_OmitInterfacePragmas = emptyIdSet
- | otherwise = worker_ids `unionIdSets`
- unfold_ids
-
- worker_ids = case maybe_worker of
- Just wkr -> unitIdSet wkr
- Nothing -> emptyIdSet
-
- unfold_ids | show_unfold = free_vars
- | otherwise = emptyIdSet
- where
- (_,free_vars) = addExprFVs interesting emptyIdSet rhs
- interesting bound id = not (id `elementOfIdSet` bound) &&
- not (isDataCon id) &&
- not (isWiredInName (getName id)) &&
- isLocallyDefined id
+ new_needed_ids | opt_OmitInterfacePragmas = emptyVarSet
+ | otherwise = worker_ids `unionVarSet`
+ unfold_ids `unionVarSet`
+ spec_ids
+
+ worker_ids | has_worker && interestingId work_id = unitVarSet work_id
+ -- Conceivably, the worker might come from
+ -- another module
+ | otherwise = emptyVarSet
+
+ spec_ids = filterVarSet interestingId (rulesRhsFreeVars spec_info)
+
+ unfold_ids | show_unfold = find_fvs rhs
+ | otherwise = emptyVarSet
+
+ find_fvs expr = exprSomeFreeVars interestingId expr
+
+ ------------ Sanity checking --------------
+ -- The arity of a wrapper function should match its strictness,
+ -- or else an importing module will get very confused indeed.
+ -- [later: actually all that is necessary is for strictness to exceed arity]
+ arity_matches_strictness
+ = not has_worker ||
+ case strict_info of
+ StrictnessInfo ds _ -> length ds >= arityLowerBound arity_info
+ other -> True
+
+interestingId id = isId id && isLocallyDefined id &&
+ not (omitIfaceSigForId id)
\end{code}
\begin{code}
ifaceBinds :: Handle
+ -> IdSet -- These Ids are needed already
-> [Id] -- Ids used at code-gen time; they have better pragma info!
- -> [CoreBinding] -- In dependency order, later depend on earlier
- -> IO ()
+ -> [CoreBind] -- In dependency order, later depend on earlier
+ -> IO IdSet -- Set of Ids actually spat out
-ifaceBinds hdl final_ids binds
- = hPutStr hdl (uppShow 0 (prettyToUn (ppAboves pretties))) >>
- hPutStr hdl "\n"
+ifaceBinds hdl needed_ids final_ids binds
+ = mapIO (printForIface hdl) (bagToList pretties) >>
+ hPutStr hdl "\n" >>
+ return emitted
where
final_id_map = listToUFM [(id,id) | id <- final_ids]
get_idinfo id = case lookupUFM final_id_map id of
- Just id' -> getIdInfo id'
- Nothing -> pprTrace "ifaceBinds not found:" (ppr PprDebug id) $
- getIdInfo id
-
- pretties = go emptyIdSet (reverse binds) -- Reverse so that later things will
- -- provoke earlier ones to be emitted
- go needed [] = if not (isEmptyIdSet needed) then
- pprTrace "ifaceBinds: free vars:"
- (ppSep (map (ppr PprDebug) (idSetToList needed))) $
- []
- else
- []
-
- go needed (NonRec id rhs : binds)
- = case ifaceId get_idinfo needed id rhs of
- Nothing -> go needed binds
- Just (pretty, needed') -> pretty : go needed' binds
+ Just id' -> idInfo id'
+ Nothing -> pprTrace "ifaceBinds not found:" (ppr id) $
+ idInfo id
+
+ (pretties, emitted) = go needed_ids (reverse binds) emptyBag emptyVarSet
+ -- Reverse so that later things will
+ -- provoke earlier ones to be emitted
+ go needed [] pretties emitted
+ | not (isEmptyVarSet needed) = pprTrace "ifaceBinds: free vars:"
+ (sep (map ppr (varSetElems needed)))
+ (pretties, emitted)
+ | otherwise = (pretties, emitted)
+
+ go needed (NonRec id rhs : binds) pretties emitted
+ = case ifaceId get_idinfo needed False id rhs of
+ Nothing -> go needed binds pretties emitted
+ Just (pretty, extras) -> let
+ needed' = (needed `unionVarSet` extras) `delVarSet` id
+ -- 'extras' can include the Id itself via a rule
+ emitted' = emitted `extendVarSet` id
+ in
+ go needed' binds (pretty `consBag` pretties) emitted'
-- Recursive groups are a bit more of a pain. We may only need one to
-- start with, but it may call out the next one, and so on. So we
-- have to look for a fixed point.
- go needed (Rec pairs : binds)
- = pretties ++ go needed'' binds
+ go needed (Rec pairs : binds) pretties emitted
+ = go needed' binds pretties' emitted'
where
- (needed', pretties) = go_rec needed pairs
- needed'' = needed' `minusIdSet` mkIdSet (map fst pairs)
- -- Later ones may spuriously cause earlier ones to be "needed" again
+ (new_pretties, new_emitted, extras) = go_rec needed pairs
+ pretties' = new_pretties `unionBags` pretties
+ needed' = (needed `unionVarSet` extras) `minusVarSet` mkVarSet (map fst pairs)
+ emitted' = emitted `unionVarSet` new_emitted
- go_rec :: IdSet -> [(Id,CoreExpr)] -> (IdSet, [Pretty])
+ go_rec :: IdSet -> [(Id,CoreExpr)] -> (Bag SDoc, IdSet, IdSet)
go_rec needed pairs
- | null pretties = (needed, [])
- | otherwise = (final_needed, more_pretties ++ pretties)
+ | null pretties = (emptyBag, emptyVarSet, emptyVarSet)
+ | otherwise = (more_pretties `unionBags` listToBag pretties,
+ more_emitted `unionVarSet` mkVarSet emitted,
+ more_extras `unionVarSet` extras)
where
- reduced_pairs = [pair | (pair,Nothing) <- pairs `zip` maybes]
- pretties = catMaybes maybes
- (needed', maybes) = mapAccumL do_one needed pairs
- (final_needed, more_pretties) = go_rec needed' reduced_pairs
-
- do_one needed (id,rhs) = case ifaceId get_idinfo needed id rhs of
- Nothing -> (needed, Nothing)
- Just (pretty, needed') -> (needed', Just pretty)
+ maybes = map do_one pairs
+ emitted = [id | ((id,_), Just _) <- pairs `zip` maybes]
+ reduced_pairs = [pair | (pair, Nothing) <- pairs `zip` maybes]
+ (pretties, extras_s) = unzip (catMaybes maybes)
+ extras = unionVarSets extras_s
+ (more_pretties, more_emitted, more_extras) = go_rec extras reduced_pairs
+
+ do_one (id,rhs) = ifaceId get_idinfo needed True id rhs
\end{code}
\subsection{Random small things}
%* *
%************************************************************************
-
+
\begin{code}
-upp_avail NotAvailable = uppNil
-upp_avail (Avail name ns) = uppBesides [upp_module mod, uppSP,
- upp_occname occ, uppSP,
- upp_export ns]
- where
- (mod,occ) = modAndOcc name
+ifaceTyCons hdl tycons = hPutCol hdl upp_tycon (sortLt (<) (filter (for_iface_name . getName) tycons))
+ifaceClasses hdl classes = hPutCol hdl upp_class (sortLt (<) (filter (for_iface_name . getName) classes))
-upp_export [] = uppNil
-upp_export names = uppBesides [uppStr "(",
- uppIntersperse uppSP (map (upp_occname . getOccName) names),
- uppStr ")"]
+for_iface_name name = isLocallyDefined name &&
+ not (isWiredInName name)
-upp_fixity (occ, Fixity prec dir, prov) = uppBesides [upp_dir dir, uppSP,
- uppInt prec, uppSP,
- upp_occname occ, uppSemi]
-upp_dir InfixR = uppStr "infixr"
-upp_dir InfixL = uppStr "infixl"
-upp_dir InfixN = uppStr "infix"
+upp_tycon tycon = ifaceTyCon tycon
+upp_class clas = ifaceClass clas
+\end{code}
-ppr_unqual_name :: NamedThing a => a -> Unpretty -- Just its occurrence name
-ppr_unqual_name name = upp_occname (getOccName name)
-ppr_name :: NamedThing a => a -> Unpretty -- Its full name
-ppr_name n = uppPStr (nameString (getName n))
+\begin{code}
+ifaceTyCon :: TyCon -> SDoc
+ifaceTyCon tycon
+ | isSynTyCon tycon
+ = hsep [ ptext SLIT("type"),
+ ppr (getName tycon),
+ pprTyVarBndrs tyvars,
+ ptext SLIT("="),
+ ppr ty,
+ semi
+ ]
+ where
+ (tyvars, ty) = getSynTyConDefn tycon
+
+ifaceTyCon tycon
+ | isAlgTyCon tycon
+ = hsep [ ptext keyword,
+ ppr_decl_class_context (tyConTheta tycon),
+ ppr (getName tycon),
+ pprTyVarBndrs (tyConTyVars tycon),
+ ptext SLIT("="),
+ hsep (punctuate (ptext SLIT(" | ")) (map ppr_con (tyConDataCons tycon))),
+ semi
+ ]
+ where
+ keyword | isNewTyCon tycon = SLIT("newtype")
+ | otherwise = SLIT("data")
+
+ tyvars = tyConTyVars tycon
+
+ ppr_con data_con
+ | null field_labels
+ = ASSERT( tycon == tycon1 && tyvars == tyvars1 )
+ hsep [ ppr_ex ex_tyvars ex_theta,
+ ppr name,
+ hsep (map ppr_arg_ty (strict_marks `zip` arg_tys))
+ ]
+
+ | otherwise
+ = hsep [ ppr_ex ex_tyvars ex_theta,
+ ppr name,
+ braces $ hsep $ punctuate comma (map ppr_field (strict_marks `zip` field_labels))
+ ]
+ where
+ (tyvars1, theta1, ex_tyvars, ex_theta, arg_tys, tycon1) = dataConSig data_con
+ field_labels = dataConFieldLabels data_con
+ strict_marks = dataConStrictMarks data_con
+ name = getName data_con
+
+ ppr_ex [] ex_theta = ASSERT( null ex_theta ) empty
+ ppr_ex ex_tvs ex_theta = ptext SLIT("__forall") <+> brackets (pprTyVarBndrs ex_tvs)
+ <+> pprIfaceClasses ex_theta <+> ptext SLIT("=>")
+
+ ppr_arg_ty (strict_mark, ty) = ppr_strict_mark strict_mark <> pprParendType ty
+
+ ppr_strict_mark NotMarkedStrict = empty
+ ppr_strict_mark (MarkedUnboxed _ _) = ptext SLIT("! ! ")
+ ppr_strict_mark MarkedStrict = ptext SLIT("! ")
+
+ ppr_field (strict_mark, field_label)
+ = hsep [ ppr (fieldLabelName field_label),
+ dcolon,
+ ppr_strict_mark strict_mark <> pprParendType (fieldLabelType field_label)
+ ]
+
+ifaceTyCon tycon
+ = pprPanic "pprIfaceTyDecl" (ppr tycon)
+
+ifaceClass clas
+ = hsep [ptext SLIT("class"),
+ ppr_decl_class_context sc_theta,
+ ppr clas, -- Print the name
+ pprTyVarBndrs clas_tyvars,
+ pprFundeps clas_fds,
+ pp_ops,
+ semi
+ ]
+ where
+ (clas_tyvars, clas_fds, sc_theta, _, op_stuff) = classExtraBigSig clas
+
+ pp_ops | null op_stuff = empty
+ | otherwise = hsep [ptext SLIT("where"),
+ braces (hsep (punctuate semi (map ppr_classop op_stuff)))
+ ]
+
+ ppr_classop (sel_id, dm_id, explicit_dm)
+ = ASSERT( sel_tyvars == clas_tyvars)
+ hsep [ppr (getOccName sel_id),
+ if explicit_dm then equals else empty,
+ dcolon,
+ ppr op_ty
+ ]
+ where
+ (sel_tyvars, _, op_ty) = splitSigmaTy (idType sel_id)
+
+ppr_decl_context :: ThetaType -> SDoc
+ppr_decl_context [] = empty
+ppr_decl_context theta = pprIfaceTheta theta <+> ptext SLIT(" =>")
-upp_occname :: OccName -> Unpretty
-upp_occname occ = uppPStr (occNameString occ)
+ppr_decl_class_context :: ClassContext -> SDoc
+ppr_decl_class_context [] = empty
+ppr_decl_class_context ctxt = pprIfaceClasses ctxt <+> ptext SLIT(" =>")
-upp_module :: Module -> Unpretty
-upp_module mod = uppPStr mod
+pprIfaceTheta :: ThetaType -> SDoc -- Use braces rather than parens in interface files
+pprIfaceTheta [] = empty
+pprIfaceTheta theta = braces (hsep (punctuate comma [pprIfacePred p | p <- theta]))
-uppSemid x = uppBeside (prettyToUn (ppr PprInterface x)) uppSemi -- micro util
+-- ZZ - not sure who uses this - i.e. whether IParams really show up or not
+-- (it's not used to print normal value signatures)
+pprIfacePred :: PredType -> SDoc
+pprIfacePred (Class clas tys) = pprConstraint clas tys
+pprIfacePred (IParam n ty) = char '?' <> ppr n <+> ptext SLIT("::") <+> ppr ty
-ppr_ty ty = prettyToUn (pprType PprInterface ty)
-ppr_tyvar tv = prettyToUn (ppr PprInterface tv)
-ppr_tyvar_bndr tv = prettyToUn (pprTyVarBndr PprInterface tv)
+pprIfaceClasses :: ClassContext -> SDoc
+pprIfaceClasses [] = empty
+pprIfaceClasses theta = braces (hsep (punctuate comma [pprConstraint c tys | (c,tys) <- theta]))
+\end{code}
+
+%************************************************************************
+%* *
+\subsection{Random small things}
+%* *
+%************************************************************************
-ppr_decl decl = prettyToUn (ppr PprInterface decl) `uppBeside` uppSemi
+When printing export lists, we print like this:
+ Avail f f
+ AvailTC C [C, x, y] C(x,y)
+ AvailTC C [x, y] C!(x,y) -- Exporting x, y but not C
-renumber_ty ty = initNmbr (nmbrType ty)
+\begin{code}
+upp_avail :: AvailInfo -> SDoc
+upp_avail (Avail name) = pprOccName (getOccName name)
+upp_avail (AvailTC name []) = empty
+upp_avail (AvailTC name ns) = hcat [pprOccName (getOccName name), bang, upp_export ns']
+ where
+ bang | name `elem` ns = empty
+ | otherwise = char '|'
+ ns' = filter (/= name) ns
+
+upp_export :: [Name] -> SDoc
+upp_export [] = empty
+upp_export names = braces (hsep (map (pprOccName . getOccName) names))
+
+upp_fixity :: (Name, Fixity) -> SDoc
+upp_fixity (name, fixity) = hsep [ptext SLIT("0"), ppr fixity, ppr name, semi]
+ -- Dummy version number!
+
+ppr_unqual_name :: NamedThing a => a -> SDoc -- Just its occurrence name
+ppr_unqual_name name = pprOccName (getOccName name)
\end{code}
%************************************************************************
%* *
-\subsection{Comparisons
+\subsection{Comparisons}
%* *
%************************************************************************
\begin{code}
lt_avail :: AvailInfo -> AvailInfo -> Bool
-NotAvailable `lt_avail` (Avail _ _) = True
-(Avail n1 _) `lt_avail` (Avail n2 _) = n1 `lt_name` n2
-any `lt_avail` NotAvailable = False
+a1 `lt_avail` a2 = availName a1 `lt_name` availName a2
lt_name :: Name -> Name -> Bool
-n1 `lt_name` n2 = modAndOcc n1 < modAndOcc n2
+n1 `lt_name` n2 = nameRdrName n1 < nameRdrName n2
lt_lexical :: NamedThing a => a -> a -> Bool
lt_lexical a1 a2 = getName a1 `lt_name` getName a2
lt_imp_vers :: ImportVersion a -> ImportVersion a -> Bool
-lt_imp_vers (m1,_,_) (m2,_,_) = m1 < m2
+lt_imp_vers (m1,_,_,_) (m2,_,_,_) = m1 < m2
sort_versions vs = sortLt lt_vers vs
\begin{code}
hPutCol :: Handle
- -> (a -> Unpretty)
+ -> (a -> SDoc)
-> [a]
-> IO ()
-hPutCol hdl fmt xs = hPutStr hdl (uppShow 0 (uppAboves (map fmt xs))) >>
- hPutStr hdl "\n"
+hPutCol hdl fmt xs = mapIO (printForIface hdl . fmt) xs
+
+mapIO :: (a -> IO b) -> [a] -> IO ()
+mapIO f [] = return ()
+mapIO f (x:xs) = f x >> mapIO f xs
\end{code}