\section[MkIface]{Print an interface for a module}
\begin{code}
-module MkIface ( completeIface ) where
+module MkIface (
+ mkModDetails, mkModDetailsFromIface, completeIface,
+ writeIface, pprIface
+ ) where
#include "HsVersions.h"
import HsSyn
-import HsCore ( HsIdInfo(..), toUfExpr, ifaceSigName )
+import HsCore ( HsIdInfo(..), UfExpr(..), toUfExpr, toUfBndr )
import HsTypes ( toHsTyVars )
import BasicTypes ( Fixity(..), NewOrData(..),
- Version, bumpVersion, isLoopBreaker
+ Version, initialVersion, bumpVersion,
)
import RnMonad
-import RnHsSyn ( RenamedInstDecl, RenamedTyClDecl, RenamedRuleDecl, RenamedIfaceSig )
-import HscTypes ( VersionInfo(..), IfaceDecls(..), ModIface(..), ModDetails(..),
- TyThing(..), DFunId )
+import RnHsSyn ( RenamedInstDecl, RenamedTyClDecl )
+import TcHsSyn ( TypecheckedRuleDecl )
+import HscTypes ( VersionInfo(..), ModIface(..), ModDetails(..),
+ IfaceDecls, mkIfaceDecls, dcl_tycl, dcl_rules, dcl_insts,
+ TyThing(..), DFunId, TypeEnv, Avails,
+ WhatsImported(..), GenAvailInfo(..),
+ ImportVersion, AvailInfo, Deprecations(..),
+ extendTypeEnvList
+ )
import CmdLineOpts
-import Id ( Id, idType, idInfo, omitIfaceSigForId, isUserExportedId, hasNoBinding,
- idSpecialisation
+import Id ( idType, idInfo, isImplicitId, isDictFunId,
+ idSpecialisation, isLocalId, idName, hasNoBinding
)
import Var ( isId )
import VarSet
-import DataCon ( StrictnessMark(..), dataConSig, dataConFieldLabels, dataConStrictMarks )
-import IdInfo ( IdInfo, StrictnessInfo(..), ArityInfo(..),
- CprInfo(..), CafInfo(..),
- inlinePragInfo, arityInfo, arityLowerBound,
- strictnessInfo, isBottomingStrictness,
- cafInfo, specInfo, cprInfo,
- occInfo, isNeverInlinePrag,
- workerInfo, WorkerInfo(..)
- )
-import CoreSyn ( CoreExpr, CoreBind, Bind(..), isBuiltinRule, rulesRules, rulesRhsFreeVars )
-import CoreFVs ( exprSomeFreeVars, ruleSomeLhsFreeVars, ruleSomeFreeVars )
-import CoreUnfold ( okToUnfoldInHiFile, couldBeSmallEnoughToInline )
-import Name ( isLocallyDefined, getName, nameModule,
- Name, NamedThing(..),
- plusNameEnv, lookupNameEnv, emptyNameEnv, extendNameEnv, lookupNameEnv_NF, nameEnvElts
+import DataCon ( StrictnessMark(..), dataConId, dataConSig, dataConFieldLabels, dataConStrictMarks )
+import IdInfo -- Lots
+import CoreSyn ( CoreBind, CoreRule(..), IdCoreRule,
+ isBuiltinRule, rulesRules,
+ bindersOf, bindersOfBinds
)
-import TyCon ( TyCon, getSynTyConDefn, isSynTyCon, isNewTyCon, isAlgTyCon,
- tyConTheta, tyConTyVars, tyConDataCons, tyConFamilySize
+import CoreFVs ( ruleSomeLhsFreeVars )
+import CoreUnfold ( neverUnfold, unfoldingTemplate )
+import Name ( getName, nameModule, Name, NamedThing(..) )
+import Name -- Env
+import OccName ( pprOccName )
+import TyCon ( TyCon, getSynTyConDefn, isSynTyCon, isNewTyCon, isAlgTyCon, tyConGenIds,
+ tyConTheta, tyConTyVars, tyConDataCons, tyConFamilySize, isClassTyCon
)
-import Class ( classExtraBigSig, DefMeth(..) )
+import Class ( classExtraBigSig, classTyCon, DefMeth(..) )
import FieldLabel ( fieldLabelType )
import Type ( splitSigmaTy, tidyTopType, deNoteType )
-
-import Rules ( ProtoCoreRule(..) )
-
-import Bag ( bagToList )
-import UniqFM ( lookupUFM, listToUFM )
import SrcLoc ( noSrcLoc )
-import Bag
import Outputable
+import Module ( ModuleName )
-import List ( partition )
+import IO ( IOMode(..), openFile, hClose )
\end{code}
%************************************************************************
\begin{code}
-completeModDetails :: ModDetails
- -> [CoreBind] -> [Id] -- Final bindings, plus the top-level Ids from the
- -- code generator; they have authoritative arity info
- -> [ProtoCoreRule] -- Tidy orphan rules
- -> ModDetails
+mkModDetails :: TypeEnv -- From typechecker
+ -> [CoreBind] -- Final bindings
+ -- they have authoritative arity info
+ -> [IdCoreRule] -- Tidy orphan rules
+ -> ModDetails
+mkModDetails type_env tidy_binds orphan_rules
+ = ModDetails { md_types = new_type_env,
+ md_rules = rule_dcls,
+ md_insts = filter isDictFunId final_ids }
+ where
+ -- The competed type environment is gotten from
+ -- a) keeping the types and classes
+ -- b) removing all Ids,
+ -- c) adding Ids with correct IdInfo, including unfoldings,
+ -- gotten from the bindings
+ -- From (c) we keep only those Ids with Global names;
+ -- the CoreTidy pass makes sure these are all and only
+ -- the externally-accessible ones
+ -- This truncates the type environment to include only the
+ -- exported Ids and things needed from them, which saves space
+ --
+ -- However, we do keep things like constructors, which should not appear
+ -- in interface files, because they are needed by importing modules when
+ -- using the compilation manager
+ new_type_env = extendTypeEnvList (filterNameEnv keep_it type_env)
+ (map AnId final_ids)
+
+ -- We keep constructor workers, because they won't appear
+ -- in the bindings from which final_ids are derived!
+ keep_it (AnId id) = hasNoBinding id
+ keep_it other = True
+
+ final_ids = [id | bind <- tidy_binds
+ , id <- bindersOf bind
+ , isGlobalName (idName id)]
+
+ -- The complete rules are gotten by combining
+ -- a) the orphan rules
+ -- b) rules embedded in the top-level Ids
+ rule_dcls | opt_OmitInterfacePragmas = []
+ | otherwise = getRules orphan_rules tidy_binds (mkVarSet final_ids)
+
+-- This version is used when we are re-linking a module
+-- so we've only run the type checker on its previous interface
+mkModDetailsFromIface :: TypeEnv
+ -> [TypecheckedRuleDecl]
+ -> ModDetails
+mkModDetailsFromIface type_env rules
+ = ModDetails { md_types = type_env,
+ md_rules = rule_dcls,
+ md_insts = dfun_ids }
+ where
+ dfun_ids = [dfun_id | AnId dfun_id <- nameEnvElts type_env, isDictFunId dfun_id]
+ rule_dcls = [(id,rule) | IfaceRuleOut id rule <- rules]
+ -- All the rules from an interface are of the IfaceRuleOut form
+\end{code}
+
+\begin{code}
+getRules :: [IdCoreRule] -- Orphan rules
+ -> [CoreBind] -- Bindings, with rules in the top-level Ids
+ -> IdSet -- Ids that are exported, so we need their rules
+ -> [IdCoreRule]
+getRules orphan_rules binds emitted
+ = orphan_rules ++ local_rules
+ where
+ local_rules = [ (fn, rule)
+ | fn <- bindersOfBinds binds,
+ fn `elemVarSet` emitted,
+ rule <- rulesRules (idSpecialisation fn),
+ not (isBuiltinRule rule),
+ -- We can't print builtin rules in interface files
+ -- Since they are built in, an importing module
+ -- will have access to them anyway
+
+ -- Sept 00: I've disabled this test. It doesn't stop many, if any, rules
+ -- from coming out, and to make it work properly we need to add ????
+ -- (put it back in for now)
+ all (`elemVarSet` emitted) (varSetElems (ruleSomeLhsFreeVars interestingId rule))
+ -- Spit out a rule only if all its lhs free vars are emitted
+ -- This is a good reason not to do it when we emit the Id itself
+ ]
+
+interestingId id = isId id && isLocalId id
+\end{code}
+
+
+%************************************************************************
+%* *
+\subsection{Completing an interface}
+%* *
+%************************************************************************
+\begin{code}
completeIface :: Maybe ModIface -- The old interface, if we have it
-> ModIface -- The new one, minus the decls and versions
-> ModDetails -- The ModDetails for this module
- -> Maybe (ModIface, SDoc) -- The new one, complete with decls and versions
+ -> (ModIface, Maybe SDoc) -- The new one, complete with decls and versions
-- The SDoc is a debug document giving differences
-- Nothing => no change
-- NB: 'Nothing' means that even the usages havn't changed, so there's no
-- need to write a new interface file. But even if the usages have
-- changed, the module version may not have.
- --
- -- The IO in the type is solely for debug output
- -- In particular, dumping a record of what has changed
completeIface maybe_old_iface new_iface mod_details
- tidy_binds final_ids tidy_orphan_rules
- = let
- new_decls = declsFromDetails mod_details tidy_binds final_ids tidy_orphan_rules
- in
- addVersionInfo maybe_old_iface (new_iface { mi_decls = new_decls })
-
-declsFromDetails :: ModDetails -> [CoreBind] -> [Id] -> [ProtoCoreRule] -> IfaceDecls
-declsFromDetails details tidy_binds final_ids tidy_orphan_rules
- = IfaceDecls { dcl_tycl = ty_cls_dcls ++ bagToList val_dcls,
- dcl_insts = inst_dcls,
- dcl_rules = rule_dcls }
- where
- dfun_ids = md_insts details
- inst_dcls = map ifaceInstance dfun_ids
- ty_cls_dcls = map ifaceTyCls (filter emitTyCls (nameEnvElts (md_types details)))
-
- (val_dcls, emitted_ids) = ifaceBinds (mkVarSet dfun_ids `unionVarSet` orphan_rule_ids)
- final_ids tidy_binds
-
- rule_dcls | opt_OmitInterfacePragmas = []
- | otherwise = ifaceRules tidy_orphan_rules emitted_ids
-
- orphan_rule_ids = unionVarSets [ ruleSomeFreeVars interestingId rule
- | ProtoCoreRule _ _ rule <- tidy_orphan_rules]
-
+ = addVersionInfo maybe_old_iface (new_iface { mi_decls = new_decls })
+ where
+ new_decls = mkIfaceDecls ty_cls_dcls rule_dcls inst_dcls
+ inst_dcls = map ifaceInstance (md_insts mod_details)
+ ty_cls_dcls = foldNameEnv ifaceTyCls [] (md_types mod_details)
+ rule_dcls = map ifaceRule (md_rules mod_details)
\end{code}
-%************************************************************************
-%* *
-\subsection{Types and classes}
-%* *
-%************************************************************************
\begin{code}
-emitTyCls :: TyThing -> Bool
-emitTyCls (ATyCon tc) = True -- Could filter out wired in ones, but it's not
- -- strictly necessary, and it costs extra time
-emitTyCls (AClass cl) = True
-emitTyCls (AnId _) = False
-
-
-ifaceTyCls :: TyThing -> RenamedTyClDecl
-ifaceTyCls (AClass clas)
- = ClassDecl (toHsContext sc_theta)
- (getName clas)
- (toHsTyVars clas_tyvars)
- (toHsFDs clas_fds)
- (map toClassOpSig op_stuff)
- EmptyMonoBinds
- [] noSrcLoc
+ifaceTyCls :: TyThing -> [RenamedTyClDecl] -> [RenamedTyClDecl]
+ifaceTyCls (AClass clas) so_far
+ = cls_decl : so_far
where
- (clas_tyvars, clas_fds, sc_theta, _, op_stuff) = classExtraBigSig clas
-
- toClassOpSig (sel_id, def_meth)
+ cls_decl = ClassDecl { tcdCtxt = toHsContext sc_theta,
+ tcdName = getName clas,
+ tcdTyVars = toHsTyVars clas_tyvars,
+ tcdFDs = toHsFDs clas_fds,
+ tcdSigs = map toClassOpSig op_stuff,
+ tcdMeths = Nothing,
+ tcdSysNames = sys_names,
+ tcdLoc = noSrcLoc }
+
+ (clas_tyvars, clas_fds, sc_theta, sc_sels, op_stuff) = classExtraBigSig clas
+ tycon = classTyCon clas
+ data_con = head (tyConDataCons tycon)
+ sys_names = mkClassDeclSysNames (getName tycon, getName data_con,
+ getName (dataConId data_con), map getName sc_sels)
+
+ toClassOpSig (sel_id, def_meth)
= ASSERT(sel_tyvars == clas_tyvars)
- ClassOpSig (getName sel_id) (Just def_meth') (toHsType op_ty) noSrcLoc
+ ClassOpSig (getName sel_id) def_meth' (toHsType op_ty) noSrcLoc
where
(sel_tyvars, _, op_ty) = splitSigmaTy (idType sel_id)
def_meth' = case def_meth of
GenDefMeth -> GenDefMeth
DefMeth id -> DefMeth (getName id)
-ifaceTyCls (ATyCon tycon)
- | isSynTyCon tycon
- = TySynonym (getName tycon)(toHsTyVars tyvars) (toHsType ty) noSrcLoc
- where
- (tyvars, ty) = getSynTyConDefn tycon
-
-ifaceTyCls (ATyCon tycon)
- | isAlgTyCon tycon
- = TyData new_or_data (toHsContext (tyConTheta tycon))
- (getName tycon)
- (toHsTyVars tyvars)
- (map ifaceConDecl (tyConDataCons tycon))
- (tyConFamilySize tycon)
- Nothing noSrcLoc (panic "gen1") (panic "gen2")
+ifaceTyCls (ATyCon tycon) so_far
+ | isClassTyCon tycon = so_far
+ | otherwise = ty_decl : so_far
where
- tyvars = tyConTyVars tycon
+ ty_decl | isSynTyCon tycon
+ = TySynonym { tcdName = getName tycon,
+ tcdTyVars = toHsTyVars tyvars,
+ tcdSynRhs = toHsType syn_ty,
+ tcdLoc = noSrcLoc }
+
+ | isAlgTyCon tycon
+ = TyData { tcdND = new_or_data,
+ tcdCtxt = toHsContext (tyConTheta tycon),
+ tcdName = getName tycon,
+ tcdTyVars = toHsTyVars tyvars,
+ tcdCons = map ifaceConDecl (tyConDataCons tycon),
+ tcdNCons = tyConFamilySize tycon,
+ tcdDerivs = Nothing,
+ tcdSysNames = map getName (tyConGenIds tycon),
+ tcdLoc = noSrcLoc }
+
+ | otherwise = pprPanic "ifaceTyCls" (ppr tycon)
+
+ tyvars = tyConTyVars tycon
+ (_, syn_ty) = getSynTyConDefn tycon
new_or_data | isNewTyCon tycon = NewType
| otherwise = DataType
ifaceConDecl data_con
- = ConDecl (getName data_con) (error "ifaceConDecl")
+ = ConDecl (getName data_con) (getName (dataConId data_con))
(toHsTyVars ex_tyvars)
(toHsContext ex_theta)
details noSrcLoc
mk_field strict_mark field_label
= ([getName field_label], mk_bang_ty strict_mark (fieldLabelType field_label))
-ifaceTyCls (ATyCon tycon) = pprPanic "ifaceTyCls" (ppr tycon)
-\end{code}
-
-
-%************************************************************************
-%* *
-\subsection{Instances and rules}
-%* *
-%************************************************************************
-
-\begin{code}
-ifaceInstance :: DFunId -> RenamedInstDecl
-ifaceInstance dfun_id
- = InstDecl (toHsType tidy_ty) EmptyMonoBinds [] (Just (getName dfun_id)) noSrcLoc
+ifaceTyCls (AnId id) so_far
+ | isImplicitId id = so_far
+ | otherwise = iface_sig : so_far
where
- tidy_ty = tidyTopType (deNoteType (idType dfun_id))
- -- 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.
-\end{code}
+ iface_sig = IfaceSig { tcdName = getName id,
+ tcdType = toHsType id_type,
+ tcdIdInfo = hs_idinfo,
+ tcdLoc = noSrcLoc }
-\begin{code}
-ifaceRules :: [ProtoCoreRule] -> IdSet -> [RenamedRuleDecl]
-ifaceRules rules emitted
- = orphan_rules ++ local_rules
- where
- orphan_rules = [ toHsRule fn rule | ProtoCoreRule _ fn rule <- rules ]
- local_rules = [ toHsRule fn rule
- | fn <- varSetElems emitted,
- rule <- rulesRules (idSpecialisation fn),
- not (isBuiltinRule rule),
- -- We can't print builtin rules in interface files
- -- Since they are built in, an importing module
- -- will have access to them anyway
-
- -- Sept 00: I've disabled this test. It doesn't stop many, if any, rules
- -- from coming out, and to make it work properly we need to add ????
- -- (put it back in for now)
- all (`elemVarSet` emitted) (varSetElems (ruleSomeLhsFreeVars interestingId rule))
- -- Spit out a rule only if all its lhs free vars are emitted
- -- This is a good reason not to do it when we emit the Id itself
- ]
-\end{code}
-
-
-%************************************************************************
-%* *
-\subsection{Value bindings}
-%* *
-%************************************************************************
-
-\begin{code}
-ifaceBinds :: IdSet -- These Ids are needed already
- -> [Id] -- Ids used at code-gen time; they have better pragma info!
- -> [CoreBind] -- In dependency order, later depend on earlier
- -> (Bag RenamedIfaceSig, IdSet) -- Set of Ids actually spat out
-
-ifaceBinds needed_ids final_ids binds
- = go needed_ids (reverse binds) emptyBag emptyVarSet
- -- Reverse so that later things will
- -- provoke earlier ones to be emitted
- where
- final_id_map = listToUFM [(id,id) | id <- final_ids]
- get_idinfo id = case lookupUFM final_id_map id of
- Just id' -> idInfo id'
- Nothing -> pprTrace "ifaceBinds not found:" (ppr id) $
- idInfo id
-
- -- The 'needed' set contains the 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
- need_id needed_set id = id `elemVarSet` needed_set || isUserExportedId id
-
- go needed [] decls emitted
- | not (isEmptyVarSet needed) = pprTrace "ifaceBinds: free vars:"
- (sep (map ppr (varSetElems needed)))
- (decls, emitted)
- | otherwise = (decls, emitted)
-
- go needed (NonRec id rhs : binds) decls emitted
- | need_id needed id
- = if omitIfaceSigForId id then
- go (needed `delVarSet` id) binds decls (emitted `extendVarSet` id)
- else
- go ((needed `unionVarSet` extras) `delVarSet` id)
- binds
- (decl `consBag` decls)
- (emitted `extendVarSet` id)
- | otherwise
- = go needed binds decls emitted
- where
- (decl, extras) = ifaceId get_idinfo False id rhs
-
- -- 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. We don't want necessarily them all,
- -- because without -O we may only need the first one (if we don't emit
- -- its unfolding)
- go needed (Rec pairs : binds) decls emitted
- = go needed' binds decls' emitted'
- where
- (new_decls, new_emitted, extras) = go_rec needed pairs
- decls' = new_decls `unionBags` decls
- needed' = (needed `unionVarSet` extras) `minusVarSet` mkVarSet (map fst pairs)
- emitted' = emitted `unionVarSet` new_emitted
-
- go_rec :: IdSet -> [(Id,CoreExpr)] -> (Bag RenamedIfaceSig, IdSet, IdSet)
- go_rec needed pairs
- | null decls = (emptyBag, emptyVarSet, emptyVarSet)
- | otherwise = (more_decls `unionBags` listToBag decls,
- more_emitted `unionVarSet` mkVarSet (map fst needed_prs),
- more_extras `unionVarSet` extras)
- where
- (needed_prs,leftover_prs) = partition is_needed pairs
- (decls, extras_s) = unzip [ifaceId get_idinfo True id rhs
- | (id,rhs) <- needed_prs, not (omitIfaceSigForId id)]
- extras = unionVarSets extras_s
- (more_decls, more_emitted, more_extras) = go_rec extras leftover_prs
- is_needed (id,_) = need_id needed id
-\end{code}
-
-
-\begin{code}
-ifaceId :: (Id -> IdInfo) -- This function "knows" the extra info added
- -- by the STG passes. Sigh
- -> Bool -- True <=> recursive, so don't print unfolding
- -> Id
- -> CoreExpr -- The Id's right hand side
- -> (RenamedTyClDecl, IdSet) -- The emitted stuff, plus any *extra* needed Ids
-
-ifaceId get_idinfo is_rec id rhs
- = (IfaceSig (getName id) (toHsType id_type) hs_idinfo noSrcLoc, new_needed_ids)
- where
- id_type = idType id
- core_idinfo = idInfo id
- stg_idinfo = get_idinfo id
+ id_type = idType id
+ id_info = idInfo id
hs_idinfo | opt_OmitInterfacePragmas = []
| otherwise = arity_hsinfo ++ caf_hsinfo ++ cpr_hsinfo ++
strict_hsinfo ++ wrkr_hsinfo ++ unfold_hsinfo
------------ Arity --------------
- arity_info = arityInfo stg_idinfo
- stg_arity = arityLowerBound arity_info
- arity_hsinfo = case arityInfo stg_idinfo of
+ arity_hsinfo = case arityInfo id_info of
a@(ArityExactly n) -> [HsArity a]
other -> []
------------ Caf Info --------------
- caf_hsinfo = case cafInfo stg_idinfo of
+ caf_hsinfo = case cafInfo id_info of
NoCafRefs -> [HsNoCafRefs]
otherwise -> []
------------ CPR Info --------------
- cpr_hsinfo = case cprInfo core_idinfo of
+ cpr_hsinfo = case cprInfo id_info of
ReturnsCPR -> [HsCprInfo]
NoCPRInfo -> []
------------ Strictness --------------
- strict_info = strictnessInfo core_idinfo
- bottoming_fn = isBottomingStrictness strict_info
- strict_hsinfo = case strict_info of
+ strict_hsinfo = case strictnessInfo id_info of
NoStrictnessInfo -> []
info -> [HsStrictness info]
-
------------ Worker --------------
- -- We only treat a function as having a worker if
- -- the exported arity (which is now the number of visible lambdas)
- -- is the same as the arity at the moment of the w/w split
- -- If so, we can safely omit the unfolding inside the wrapper, and
- -- instead re-generate it from the type/arity/strictness info
- -- But if the arity has changed, we just take the simple path and
- -- put the unfolding into the interface file, forgetting the fact
- -- that it's a wrapper.
- --
- -- How can this happen? Sometimes we get
- -- f = coerce t (\x y -> $wf x y)
- -- at the moment of w/w split; but the eta reducer turns it into
- -- f = coerce t $wf
- -- which is perfectly fine except that the exposed arity so far as
- -- the code generator is concerned (zero) differs from the arity
- -- when we did the split (2).
- --
- -- All this arises because we use 'arity' to mean "exactly how many
- -- top level lambdas are there" in interface files; but during the
- -- compilation of this module it means "how many things can I apply
- -- this to".
- work_info = workerInfo core_idinfo
- HasWorker work_id _ = work_info
-
- has_worker = case work_info of
- HasWorker work_id wrap_arity
- | wrap_arity == stg_arity -> True
- | otherwise -> pprTrace "ifaceId: arity change:" (ppr id)
- False
-
- other -> False
-
- wrkr_hsinfo | has_worker = [HsWorker (getName work_id)]
- | otherwise = []
+ work_info = workerInfo id_info
+ has_worker = case work_info of { HasWorker _ _ -> True; other -> False }
+ wrkr_hsinfo = case work_info of
+ HasWorker work_id wrap_arity -> [HsWorker (getName work_id)]
+ NoWorker -> []
------------ Unfolding --------------
- inline_pragma = inlinePragInfo core_idinfo
- dont_inline = isNeverInlinePrag inline_pragma
-
- unfold_hsinfo | show_unfold = [HsUnfold inline_pragma (toUfExpr rhs)]
- | otherwise = []
-
- 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 opt_UF_HiFileThreshold rhs
-
- ------------ Specialisations --------------
- spec_info = specInfo core_idinfo
-
- ------------ Occ info --------------
- loop_breaker = isLoopBreaker (occInfo core_idinfo)
-
- ------------ Extra free Ids --------------
- 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
+ -- The unfolding is redundant if there is a worker
+ unfold_info = unfoldingInfo id_info
+ inline_prag = inlinePragInfo id_info
+ rhs = unfoldingTemplate unfold_info
+ unfold_hsinfo | neverUnfold unfold_info
+ || has_worker = []
+ | otherwise = [HsUnfold inline_prag (toUfExpr rhs)]
+\end{code}
- spec_ids = filterVarSet interestingId (rulesRhsFreeVars spec_info)
+\begin{code}
+ifaceInstance :: DFunId -> RenamedInstDecl
+ifaceInstance dfun_id
+ = InstDecl (toHsType tidy_ty) EmptyMonoBinds [] (Just (getName dfun_id)) noSrcLoc
+ where
+ tidy_ty = tidyTopType (deNoteType (idType dfun_id))
+ -- 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.
- unfold_ids | show_unfold = find_fvs rhs
- | otherwise = emptyVarSet
+ifaceRule (id, BuiltinRule _)
+ = pprTrace "toHsRule: builtin" (ppr id) (bogusIfaceRule id)
- find_fvs expr = exprSomeFreeVars interestingId expr
+ifaceRule (id, Rule name bndrs args rhs)
+ = IfaceRule name (map toUfBndr bndrs) (getName id)
+ (map toUfExpr args) (toUfExpr rhs) noSrcLoc
-interestingId id = isId id && isLocallyDefined id && not (hasNoBinding id)
+bogusIfaceRule id
+ = IfaceRule SLIT("bogus") [] (getName id) [] (UfVar (getName id)) noSrcLoc
\end{code}
\begin{code}
addVersionInfo :: Maybe ModIface -- The old interface, read from M.hi
-> ModIface -- The new interface decls
- -> Maybe (ModIface, SDoc) -- Nothing => no change; no need to write new Iface
+ -> (ModIface, Maybe SDoc) -- Nothing => no change; no need to write new Iface
-- Just mi => Here is the new interface to write
-- with correct version numbers
addVersionInfo Nothing new_iface
-- No old interface, so definitely write a new one!
- = Just (new_iface, text "No old interface available")
+ = (new_iface, Just (text "No old interface available"))
-addVersionInfo (Just old_iface@(ModIface { mi_version = old_version,
- mi_decls = old_decls,
- mi_fixities = old_fixities }))
- new_iface@(ModIface { mi_decls = new_decls,
- mi_fixities = new_fixities })
+addVersionInfo (Just old_iface@(ModIface { mi_version = old_version,
+ mi_decls = old_decls,
+ mi_fixities = old_fixities,
+ mi_deprecs = old_deprecs }))
+ new_iface@(ModIface { mi_decls = new_decls,
+ mi_fixities = new_fixities,
+ mi_deprecs = new_deprecs })
| no_output_change && no_usage_change
- = Nothing
+ = (new_iface, Nothing)
+ -- don't return the old iface because it may not have an
+ -- mi_globals field set to anything reasonable.
| otherwise -- Add updated version numbers
- = Just (final_iface, pp_tc_diffs $$ pp_sig_diffs)
+ = --pprTrace "completeIface" (ppr (dcl_tycl old_decls))
+ (final_iface, Just pp_diffs)
where
final_iface = new_iface { mi_version = new_version }
new_version = VersionInfo { vers_module = bumpVersion no_output_change (vers_module old_version),
vers_exports = bumpVersion no_export_change (vers_exports old_version),
vers_rules = bumpVersion no_rule_change (vers_rules old_version),
- vers_decls = sig_vers `plusNameEnv` tc_vers }
+ vers_decls = tc_vers }
- no_output_change = no_tc_change && no_rule_change && no_export_change
+ no_output_change = no_tc_change && no_rule_change && no_export_change && no_deprec_change
no_usage_change = mi_usages old_iface == mi_usages new_iface
no_export_change = mi_exports old_iface == mi_exports new_iface -- Kept sorted
no_rule_change = dcl_rules old_decls == dcl_rules new_decls -- Ditto
+ no_deprec_change = old_deprecs == new_deprecs
-- Fill in the version number on the new declarations by looking at the old declarations.
-- Set the flag if anything changes.
-- Assumes that the decls are sorted by hsDeclName.
old_vers_decls = vers_decls old_version
- (no_tc_change, pp_tc_diffs, tc_vers) = diffDecls old_vers_decls (dcl_tycl old_decls) (dcl_tycl new_decls)
-
-
+ (no_tc_change, pp_tc_diffs, tc_vers) = diffDecls old_vers_decls old_fixities new_fixities
+ (dcl_tycl old_decls) (dcl_tycl new_decls)
+ pp_diffs = vcat [pp_tc_diffs,
+ pp_change no_export_change "Export list",
+ pp_change no_rule_change "Rules",
+ pp_change no_deprec_change "Deprecations",
+ pp_change no_usage_change "Usages"]
+ pp_change True what = empty
+ pp_change False what = text what <+> ptext SLIT("changed")
diffDecls :: NameEnv Version -- Old version map
+ -> NameEnv Fixity -> NameEnv Fixity -- Old and new fixities
-> [RenamedTyClDecl] -> [RenamedTyClDecl] -- Old and new decls
-> (Bool, -- True <=> no change
SDoc, -- Record of differences
NameEnv Version) -- New version
-diffDecls old_vers old new
+diffDecls old_vers old_fixities new_fixities old new
= diff True empty emptyNameEnv old new
where
-- When seeing if two decls are the same,
same_fixity n = lookupNameEnv old_fixities n == lookupNameEnv new_fixities n
diff ok_so_far pp new_vers [] [] = (ok_so_far, pp, new_vers)
- diff ok_so_far pp new_vers old [] = (False, pp, new_vers)
+ diff ok_so_far pp new_vers (od:ods) [] = diff False (pp $$ only_old od) new_vers ods []
diff ok_so_far pp new_vers [] (nd:nds) = diff False (pp $$ only_new nd) new_vers [] nds
diff ok_so_far pp new_vers (od:ods) (nd:nds)
= case od_name `compare` nd_name of
LT -> diff False (pp $$ only_old od) new_vers ods (nd:nds)
GT -> diff False (pp $$ only_new nd) new_vers (od:ods) nds
- EQ | od `eq` nd -> diff ok_so_far pp new_vers ods nds
- | otherwise -> diff False (pp $$ changed od nd) new_vers' ods nds
+ EQ | od `eq_tc` nd -> diff ok_so_far pp new_vers ods nds
+ | otherwise -> diff False (pp $$ changed od nd) new_vers' ods nds
where
- od_name = get_name od
- nd_name = get_name nd
+ od_name = tyClDeclName od
+ nd_name = tyClDeclName nd
new_vers' = extendNameEnv new_vers nd_name
- (bumpVersion True (lookupNameEnv_NF old_vers od_name))
+ (bumpVersion False (lookupNameEnv_NF old_vers od_name))
+
+ only_old d = ptext SLIT("Only in old iface:") <+> ppr d
+ only_new d = ptext SLIT("Only in new iface:") <+> ppr d
+ changed od nd = ptext SLIT("Changed in iface: ") <+> ((ptext SLIT("Old:") <+> ppr od) $$
+ (ptext SLIT("New:") <+> ppr nd))
+\end{code}
+
+
- only_old d = ptext SLIT("Only in old iface:") <+> ppr d
- only_new d = ptext SLIT("Only in new iface:") <+> ppr d
- changed d nd = ptext SLIT("Changed in iface: ") <+> ((ptext SLIT("Old:") <+> ppr d) $$
- (ptext SLIT("New:") <+> ppr nd))
+%************************************************************************
+%* *
+\subsection{Writing an interface file}
+%* *
+%************************************************************************
+
+\begin{code}
+writeIface :: FilePath -> ModIface -> IO ()
+writeIface hi_path mod_iface
+ = do { if_hdl <- openFile hi_path WriteMode
+ ; printForIface if_hdl from_this_mod (pprIface mod_iface)
+ ; hClose if_hdl
+ }
+ where
+ -- Print names unqualified if they are from this module
+ from_this_mod n = nameModule n == this_mod
+ this_mod = mi_module mod_iface
+
+pprIface :: ModIface -> SDoc
+pprIface iface
+ = vcat [ ptext SLIT("__interface")
+ <+> doubleQuotes (ptext opt_InPackage)
+ <+> ppr (mi_module iface) <+> ppr (vers_module version_info)
+ <+> pp_sub_vers
+ <+> (if mi_orphan iface then char '!' else empty)
+ <+> int opt_HiVersion
+ <+> ptext SLIT("where")
+
+ , vcat (map pprExport (mi_exports iface))
+ , vcat (map pprUsage (mi_usages iface))
+
+ , pprFixities (mi_fixities iface) (dcl_tycl decls)
+ , pprIfaceDecls (vers_decls version_info) decls
+ , pprDeprecs (mi_deprecs iface)
+ ]
+ where
+ version_info = mi_version iface
+ decls = mi_decls iface
+ exp_vers = vers_exports version_info
+ rule_vers = vers_rules version_info
+
+ pp_sub_vers | exp_vers == initialVersion && rule_vers == initialVersion = empty
+ | otherwise = brackets (ppr exp_vers <+> ppr rule_vers)
+\end{code}
+
+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
+
+\begin{code}
+pprExport :: (ModuleName, Avails) -> SDoc
+pprExport (mod, items)
+ = hsep [ ptext SLIT("__export "), ppr mod, hsep (map pp_avail items) ] <> semi
+ where
+ pp_avail :: AvailInfo -> SDoc
+ pp_avail (Avail name) = pprOcc name
+ pp_avail (AvailTC n []) = empty
+ pp_avail (AvailTC n (n':ns)) | n==n' = pprOcc n <> pp_export ns
+ | otherwise = pprOcc n <> char '|' <> pp_export (n':ns)
+
+ pp_export [] = empty
+ pp_export names = braces (hsep (map pprOcc names))
+
+pprOcc :: Name -> SDoc -- Print the occurrence name only
+pprOcc n = pprOccName (nameOccName n)
+\end{code}
+
+
+\begin{code}
+pprUsage :: ImportVersion Name -> SDoc
+pprUsage (m, has_orphans, is_boot, whats_imported)
+ = hsep [ptext SLIT("import"), ppr m,
+ pp_orphan, pp_boot,
+ pp_versions whats_imported
+ ] <> semi
+ where
+ pp_orphan | has_orphans = char '!'
+ | otherwise = empty
+ pp_boot | is_boot = char '@'
+ | otherwise = empty
+
+ -- Importing the whole module is indicated by an empty list
+ pp_versions NothingAtAll = empty
+ pp_versions (Everything v) = dcolon <+> int v
+ pp_versions (Specifically vm ve nvs vr) = dcolon <+> int vm <+> pp_export_version ve <+> int vr
+ <+> hsep [ pprOcc n <+> int v | (n,v) <- nvs ]
+
+ pp_export_version Nothing = empty
+ pp_export_version (Just v) = int v
+\end{code}
+
+\begin{code}
+pprIfaceDecls version_map decls
+ = vcat [ vcat [ppr i <+> semi | i <- dcl_insts decls]
+ , vcat (map ppr_decl (dcl_tycl decls))
+ , pprRules (dcl_rules decls)
+ ]
+ where
+ ppr_decl d = ppr_vers d <+> ppr d <> semi
+
+ -- Print the version for the decl
+ ppr_vers d = case lookupNameEnv version_map (tyClDeclName d) of
+ Nothing -> empty
+ Just v -> int v
+\end{code}
+
+\begin{code}
+pprFixities fixity_map decls
+ = hsep [ ppr fix <+> ppr n
+ | d <- decls,
+ (n,_) <- tyClDeclNames d,
+ Just fix <- [lookupNameEnv fixity_map n]] <> semi
+
+pprRules [] = empty
+pprRules rules = hsep [ptext SLIT("{-## __R"), vcat (map ppr rules), ptext SLIT("##-}")]
+
+pprDeprecs NoDeprecs = empty
+pprDeprecs deprecs = ptext SLIT("{-## __D") <+> guts <+> ptext SLIT("##-}")
+ where
+ guts = case deprecs of
+ DeprecAll txt -> doubleQuotes (ptext txt)
+ DeprecSome env -> pp_deprecs env
+
+pp_deprecs env = vcat (punctuate semi (map pp_deprec (nameEnvElts env)))
+ where
+ pp_deprec (name, txt) = pprOcc name <+> doubleQuotes (ptext txt)
\end{code}
projects / ghc-hetmet.git / blobdiff