Type checking of type signatures in interface files
\begin{code}
-{-# OPTIONS -w #-}
--- The above warning supression flag is a temporary kludge.
--- While working on this module you are encouraged to remove it and fix
--- any warnings in the module. See
--- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#Warnings
--- for details
-
module TcIface (
tcImportDecl, checkWiredInTyCon, tcHiBootIface, typecheckIface,
tcIfaceDecl, tcIfaceInst, tcIfaceFamInst, tcIfaceRules,
- tcIfaceVectInfo, tcIfaceGlobal, tcExtCoreBindings
+ tcIfaceVectInfo, tcIfaceAnnotations, tcIfaceGlobal, tcExtCoreBindings
) where
#include "HsVersions.h"
import Type
import TypeRep
import HscTypes
+import Annotations
import InstEnv
import FamInstEnv
import CoreSyn
import VarEnv
import Name
import NameEnv
-import OccName
import Module
import LazyUniqFM
import UniqSupply
import SrcLoc
import DynFlags
import Util
-import Control.Monad
+import FastString
+import BasicTypes (Arity)
+import Control.Monad
import Data.List
-import Data.Maybe
\end{code}
This module takes
An IfaceDecl is populated with RdrNames, and these are not renamed to
Names before typechecking, because there should be no scope errors etc.
- -- For (b) consider: f = $(...h....)
+ -- For (b) consider: f = \$(...h....)
-- where h is imported, and calls f via an hi-boot file.
-- This is bad! But it is not seen as a staging error, because h
-- is indeed imported. We don't want the type-checker to black-hole
-- Entry point for *source-code* uses of importDecl
tcImportDecl name
| Just thing <- wiredInNameTyThing_maybe name
- = do { initIfaceTcRn (loadWiredInHomeIface name)
- -- See Note [Loading instances] in LoadIface
+ = do { when (needWiredInHomeIface thing)
+ (initIfaceTcRn (loadWiredInHomeIface name))
+ -- See Note [Loading instances for wired-in things]
; return thing }
| otherwise
= do { traceIf (text "tcImportDecl" <+> ppr name)
Succeeded thing -> return thing
Failed err -> failWithTc err }
-checkWiredInTyCon :: TyCon -> TcM ()
--- Ensure that the home module of the TyCon (and hence its instances)
--- are loaded. See See Note [Loading instances] in LoadIface
--- It might not be a wired-in tycon (see the calls in TcUnify),
--- in which case this is a no-op.
-checkWiredInTyCon tc
- | not (isWiredInName tc_name)
- = return ()
- | otherwise
- = do { mod <- getModule
- ; unless (mod == nameModule tc_name)
- (initIfaceTcRn (loadWiredInHomeIface tc_name))
- -- Don't look for (non-existent) Float.hi when
- -- compiling Float.lhs, which mentions Float of course
- -- A bit yukky to call initIfaceTcRn here
- }
- where
- tc_name = tyConName tc
-
importDecl :: Name -> IfM lcl (MaybeErr Message TyThing)
-- Get the TyThing for this Name from an interface file
-- It's not a wired-in thing -- the caller caught that
do { traceIf nd_doc
-- Load the interface, which should populate the PTE
- ; mb_iface <- loadInterface nd_doc (nameModule name) ImportBySystem
+ ; mb_iface <- ASSERT2( isExternalName name, ppr name )
+ loadInterface nd_doc (nameModule name) ImportBySystem
; case mb_iface of {
Failed err_msg -> return (Failed err_msg) ;
- Succeeded iface -> do
+ Succeeded _ -> do
-- Now look it up again; this time we should find it
{ eps <- getEps
Nothing -> return (Failed not_found_msg)
}}}
where
- nd_doc = ptext SLIT("Need decl for") <+> ppr name
- not_found_msg = hang (ptext SLIT("Can't find interface-file declaration for") <+>
+ nd_doc = ptext (sLit "Need decl for") <+> ppr name
+ not_found_msg = hang (ptext (sLit "Can't find interface-file declaration for") <+>
pprNameSpace (occNameSpace (nameOccName name)) <+> ppr name)
- 2 (vcat [ptext SLIT("Probable cause: bug in .hi-boot file, or inconsistent .hi file"),
- ptext SLIT("Use -ddump-if-trace to get an idea of which file caused the error")])
+ 2 (vcat [ptext (sLit "Probable cause: bug in .hi-boot file, or inconsistent .hi file"),
+ ptext (sLit "Use -ddump-if-trace to get an idea of which file caused the error")])
+\end{code}
+
+%************************************************************************
+%* *
+ Checks for wired-in things
+%* *
+%************************************************************************
+
+Note [Loading instances for wired-in things]
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+We need to make sure that we have at least *read* the interface files
+for any module with an instance decl or RULE that we might want.
+
+* If the instance decl is an orphan, we have a whole separate mechanism
+ (loadOprhanModules)
+
+* If the instance decl not an orphan, then the act of looking at the
+ TyCon or Class will force in the defining module for the
+ TyCon/Class, and hence the instance decl
+
+* BUT, if the TyCon is a wired-in TyCon, we don't really need its interface;
+ but we must make sure we read its interface in case it has instances or
+ rules. That is what LoadIface.loadWiredInHomeInterface does. It's called
+ from TcIface.{tcImportDecl, checkWiredInTyCon, ifCheckWiredInThing}
+
+* HOWEVER, only do this for TyCons. There are no wired-in Classes. There
+ are some wired-in Ids, but we don't want to load their interfaces. For
+ example, Control.Exception.Base.recSelError is wired in, but that module
+ is compiled late in the base library, and we don't want to force it to
+ load before it's been compiled!
+
+All of this is done by the type checker. The renamer plays no role.
+(It used to, but no longer.)
+
+
+\begin{code}
+checkWiredInTyCon :: TyCon -> TcM ()
+-- Ensure that the home module of the TyCon (and hence its instances)
+-- are loaded. See Note [Loading instances for wired-in things]
+-- It might not be a wired-in tycon (see the calls in TcUnify),
+-- in which case this is a no-op.
+checkWiredInTyCon tc
+ | not (isWiredInName tc_name)
+ = return ()
+ | otherwise
+ = do { mod <- getModule
+ ; ASSERT( isExternalName tc_name )
+ when (mod /= nameModule tc_name)
+ (initIfaceTcRn (loadWiredInHomeIface tc_name))
+ -- Don't look for (non-existent) Float.hi when
+ -- compiling Float.lhs, which mentions Float of course
+ -- A bit yukky to call initIfaceTcRn here
+ }
+ where
+ tc_name = tyConName tc
+
+ifCheckWiredInThing :: TyThing -> IfL ()
+-- Even though we are in an interface file, we want to make
+-- sure the instances of a wired-in thing are loaded (imagine f :: Double -> Double)
+-- Ditto want to ensure that RULES are loaded too
+-- See Note [Loading instances for wired-in things]
+ifCheckWiredInThing thing
+ = do { mod <- getIfModule
+ -- Check whether we are typechecking the interface for this
+ -- very module. E.g when compiling the base library in --make mode
+ -- we may typecheck GHC.Base.hi. At that point, GHC.Base is not in
+ -- the HPT, so without the test we'll demand-load it into the PIT!
+ -- C.f. the same test in checkWiredInTyCon above
+ ; let name = getName thing
+ ; ASSERT2( isExternalName name, ppr name )
+ when (needWiredInHomeIface thing && mod /= nameModule name)
+ (loadWiredInHomeIface name) }
+
+needWiredInHomeIface :: TyThing -> Bool
+-- Only for TyCons; see Note [Loading instances for wired-in things]
+needWiredInHomeIface (ATyCon {}) = True
+needWiredInHomeIface _ = False
\end{code}
%************************************************************************
; let type_env = mkNameEnv names_w_things
; writeMutVar tc_env_var type_env
- -- Now do those rules and instances
+ -- Now do those rules, instances and annotations
; insts <- mapM tcIfaceInst (mi_insts iface)
; fam_insts <- mapM tcIfaceFamInst (mi_fam_insts iface)
; rules <- tcIfaceRules ignore_prags (mi_rules iface)
+ ; anns <- tcIfaceAnnotations (mi_anns iface)
-- Vectorisation information
; vect_info <- tcIfaceVectInfo (mi_module iface) type_env
, md_insts = insts
, md_fam_insts = fam_insts
, md_rules = rules
+ , md_anns = anns
, md_vect_info = vect_info
, md_exports = exports
}
; case lookupUFM hpt (moduleName mod) of
Just info | mi_boot (hm_iface info)
-> return (hm_details info)
- other -> return emptyModDetails }
+ _ -> return emptyModDetails }
else do
-- OK, so we're in one-shot mode.
Succeeded (iface, _path) -> typecheckIface iface
}}}}
where
- need = ptext SLIT("Need the hi-boot interface for") <+> ppr mod
- <+> ptext SLIT("to compare against the Real Thing")
+ need = ptext (sLit "Need the hi-boot interface for") <+> ppr mod
+ <+> ptext (sLit "to compare against the Real Thing")
- moduleLoop = ptext SLIT("Circular imports: module") <+> quotes (ppr mod)
- <+> ptext SLIT("depends on itself")
+ moduleLoop = ptext (sLit "Circular imports: module") <+> quotes (ppr mod)
+ <+> ptext (sLit "depends on itself")
- elaborate err = hang (ptext SLIT("Could not find hi-boot interface for") <+>
+ elaborate err = hang (ptext (sLit "Could not find hi-boot interface for") <+>
quotes (ppr mod) <> colon) 4 err
\end{code}
-> IfaceDecl
-> IfL TyThing
-tcIfaceDecl ignore_prags (IfaceId {ifName = occ_name, ifType = iface_type, ifIdInfo = info})
+tcIfaceDecl ignore_prags (IfaceId {ifName = occ_name, ifType = iface_type,
+ ifIdDetails = details, ifIdInfo = info})
= do { name <- lookupIfaceTop occ_name
; ty <- tcIfaceType iface_type
+ ; details <- tcIdDetails details
; info <- tcIdInfo ignore_prags name ty info
- ; return (AnId (mkVanillaGlobal name ty info)) }
-
-tcIfaceDecl ignore_prags
- (IfaceData {ifName = occ_name,
- ifTyVars = tv_bndrs,
- ifCtxt = ctxt, ifGadtSyntax = gadt_syn,
- ifCons = rdr_cons,
- ifRec = is_rec,
- ifGeneric = want_generic,
- ifFamInst = mb_family })
- = do { tc_name <- lookupIfaceTop occ_name
- ; bindIfaceTyVars tv_bndrs $ \ tyvars -> do
-
- { tycon <- fixM ( \ tycon -> do
+ ; return (AnId (mkGlobalId details name ty info)) }
+
+tcIfaceDecl _ (IfaceData {ifName = occ_name,
+ ifTyVars = tv_bndrs,
+ ifCtxt = ctxt, ifGadtSyntax = gadt_syn,
+ ifCons = rdr_cons,
+ ifRec = is_rec,
+ ifGeneric = want_generic,
+ ifFamInst = mb_family })
+ = bindIfaceTyVars_AT tv_bndrs $ \ tyvars -> do
+ { tc_name <- lookupIfaceTop occ_name
+ ; tycon <- fixM ( \ tycon -> do
{ stupid_theta <- tcIfaceCtxt ctxt
- ; famInst <-
- case mb_family of
- Nothing -> return Nothing
- Just (fam, tys) ->
- do { famTyCon <- tcIfaceTyCon fam
- ; insttys <- mapM tcIfaceType tys
- ; return $ Just (famTyCon, insttys)
- }
+ ; mb_fam_inst <- tcFamInst mb_family
; cons <- tcIfaceDataCons tc_name tycon tyvars rdr_cons
; buildAlgTyCon tc_name tyvars stupid_theta
- cons is_rec want_generic gadt_syn famInst
+ cons is_rec want_generic gadt_syn mb_fam_inst
})
- ; traceIf (text "tcIfaceDecl4" <+> ppr tycon)
- ; return (ATyCon tycon)
- }}
-
-tcIfaceDecl ignore_prags
- (IfaceSyn {ifName = occ_name, ifTyVars = tv_bndrs,
- ifOpenSyn = isOpen, ifSynRhs = rdr_rhs_ty,
- ifFamInst = mb_family})
- = bindIfaceTyVars tv_bndrs $ \ tyvars -> do
+ ; traceIf (text "tcIfaceDecl4" <+> ppr tycon)
+ ; return (ATyCon tycon) }
+
+tcIfaceDecl _ (IfaceSyn {ifName = occ_name, ifTyVars = tv_bndrs,
+ ifSynRhs = mb_rhs_ty,
+ ifSynKind = kind, ifFamInst = mb_family})
+ = bindIfaceTyVars_AT tv_bndrs $ \ tyvars -> do
{ tc_name <- lookupIfaceTop occ_name
- ; rhs_tyki <- tcIfaceType rdr_rhs_ty
- ; let rhs = if isOpen then OpenSynTyCon rhs_tyki Nothing
- else SynonymTyCon rhs_tyki
- ; famInst <- case mb_family of
- Nothing -> return Nothing
- Just (fam, tys) ->
- do { famTyCon <- tcIfaceTyCon fam
- ; insttys <- mapM tcIfaceType tys
- ; return $ Just (famTyCon, insttys)
- }
- ; tycon <- buildSynTyCon tc_name tyvars rhs famInst
+ ; rhs_kind <- tcIfaceType kind -- Note [Synonym kind loop]
+ ; ~(rhs, fam) <- forkM (mk_doc tc_name) $
+ do { rhs <- tc_syn_rhs rhs_kind mb_rhs_ty
+ ; fam <- tcFamInst mb_family
+ ; return (rhs, fam) }
+ ; tycon <- buildSynTyCon tc_name tyvars rhs rhs_kind fam
; return $ ATyCon tycon
}
+ where
+ mk_doc n = ptext (sLit "Type syonym") <+> ppr n
+ tc_syn_rhs kind Nothing = return (OpenSynTyCon kind Nothing)
+ tc_syn_rhs _ (Just ty) = do { rhs_ty <- tcIfaceType ty
+ ; return (SynonymTyCon rhs_ty) }
tcIfaceDecl ignore_prags
(IfaceClass {ifCtxt = rdr_ctxt, ifName = occ_name,
; sigs <- mapM tc_sig rdr_sigs
; fds <- mapM tc_fd rdr_fds
; ats' <- mapM (tcIfaceDecl ignore_prags) rdr_ats
- ; let ats = zipWith setTyThingPoss ats' (map ifTyVars rdr_ats)
+ ; let ats = map (setAssocFamilyPermutation tyvars) ats'
; cls <- buildClass ignore_prags cls_name tyvars ctxt fds ats sigs tc_isrec
; return (AClass cls) }
where
-- it mentions unless it's necessray to do so
; return (op_name, dm, op_ty) }
- mk_doc op_name op_ty = ptext SLIT("Class op") <+> sep [ppr op_name, ppr op_ty]
+ mk_doc op_name op_ty = ptext (sLit "Class op") <+> sep [ppr op_name, ppr op_ty]
tc_fd (tvs1, tvs2) = do { tvs1' <- mapM tcIfaceTyVar tvs1
; tvs2' <- mapM tcIfaceTyVar tvs2
; return (tvs1', tvs2') }
- -- For each AT argument compute the position of the corresponding class
- -- parameter in the class head. This will later serve as a permutation
- -- vector when checking the validity of instance declarations.
- setTyThingPoss (ATyCon tycon) atTyVars =
- let classTyVars = map fst tv_bndrs
- poss = catMaybes
- . map ((`elemIndex` classTyVars) . fst)
- $ atTyVars
- -- There will be no Nothing, as we already passed renaming
- in
- ATyCon (setTyConArgPoss tycon poss)
- setTyThingPoss _ _ = panic "TcIface.setTyThingPoss"
-
-tcIfaceDecl ignore_prags (IfaceForeign {ifName = rdr_name, ifExtName = ext_name})
+tcIfaceDecl _ (IfaceForeign {ifName = rdr_name, ifExtName = ext_name})
= do { name <- lookupIfaceTop rdr_name
; return (ATyCon (mkForeignTyCon name ext_name
liftedTypeKind 0)) }
-tcIfaceDataCons tycon_name tycon tc_tyvars if_cons
+tcFamInst :: Maybe (IfaceTyCon, [IfaceType]) -> IfL (Maybe (TyCon, [Type]))
+tcFamInst Nothing = return Nothing
+tcFamInst (Just (fam, tys)) = do { famTyCon <- tcIfaceTyCon fam
+ ; insttys <- mapM tcIfaceType tys
+ ; return $ Just (famTyCon, insttys) }
+
+tcIfaceDataCons :: Name -> TyCon -> [TyVar] -> IfaceConDecls -> IfL AlgTyConRhs
+tcIfaceDataCons tycon_name tycon _ if_cons
= case if_cons of
IfAbstractTyCon -> return mkAbstractTyConRhs
IfOpenDataTyCon -> return mkOpenDataTyConRhs
; arg_tys <- forkM (mk_doc name) (mapM tcIfaceType args)
; lbl_names <- mapM lookupIfaceTop field_lbls
+ -- Remember, tycon is the representation tycon
+ ; let orig_res_ty = mkFamilyTyConApp tycon
+ (substTyVars (mkTopTvSubst eq_spec) univ_tyvars)
+
; buildDataCon name is_infix {- Not infix -}
stricts lbl_names
univ_tyvars ex_tyvars
eq_spec theta
- arg_tys tycon
+ arg_tys orig_res_ty tycon
}
- mk_doc con_name = ptext SLIT("Constructor") <+> ppr con_name
+ mk_doc con_name = ptext (sLit "Constructor") <+> ppr con_name
+tcIfaceEqSpec :: [(OccName, IfaceType)] -> IfL [(TyVar, Type)]
tcIfaceEqSpec spec
= mapM do_item spec
where
; return (tv,ty) }
\end{code}
+Note [Synonym kind loop]
+~~~~~~~~~~~~~~~~~~~~~~~~
+Notice that we eagerly grab the *kind* from the interface file, but
+build a forkM thunk for the *rhs* (and family stuff). To see why,
+consider this (Trac #2412)
+
+M.hs: module M where { import X; data T = MkT S }
+X.hs: module X where { import {-# SOURCE #-} M; type S = T }
+M.hs-boot: module M where { data T }
+
+When kind-checking M.hs we need S's kind. But we do not want to
+find S's kind from (typeKind S-rhs), because we don't want to look at
+S-rhs yet! Since S is imported from X.hi, S gets just one chance to
+be defined, and we must not do that until we've finished with M.T.
+
+Solution: record S's kind in the interface file; now we can safely
+look at it.
%************************************************************************
%* *
\begin{code}
tcIfaceInst :: IfaceInst -> IfL Instance
tcIfaceInst (IfaceInst { ifDFun = dfun_occ, ifOFlag = oflag,
- ifInstCls = cls, ifInstTys = mb_tcs,
- ifInstOrph = orph })
- = do { dfun <- forkM (ptext SLIT("Dict fun") <+> ppr dfun_occ) $
+ ifInstCls = cls, ifInstTys = mb_tcs })
+ = do { dfun <- forkM (ptext (sLit "Dict fun") <+> ppr dfun_occ) $
tcIfaceExtId dfun_occ
; let mb_tcs' = map (fmap ifaceTyConName) mb_tcs
; return (mkImportedInstance cls mb_tcs' dfun oflag) }
tcIfaceFamInst :: IfaceFamInst -> IfL FamInst
tcIfaceFamInst (IfaceFamInst { ifFamInstTyCon = tycon,
ifFamInstFam = fam, ifFamInstTys = mb_tcs })
--- { tycon' <- forkM (ptext SLIT("Inst tycon") <+> ppr tycon) $
--- ^^^this line doesn't work, but vvv this does => CPP in Haskell = evil!
+-- { tycon' <- forkM (ptext (sLit "Inst tycon") <+> ppr tycon) $
+-- the above line doesn't work, but this below does => CPP in Haskell = evil!
= do tycon' <- forkM (text ("Inst tycon") <+> ppr tycon) $
tcIfaceTyCon tycon
let mb_tcs' = map (fmap ifaceTyConName) mb_tcs
tcIfaceRule :: IfaceRule -> IfL CoreRule
tcIfaceRule (IfaceRule {ifRuleName = name, ifActivation = act, ifRuleBndrs = bndrs,
- ifRuleHead = fn, ifRuleArgs = args, ifRuleRhs = rhs,
- ifRuleOrph = orph })
+ ifRuleHead = fn, ifRuleArgs = args, ifRuleRhs = rhs })
= do { ~(bndrs', args', rhs') <-
-- Typecheck the payload lazily, in the hope it'll never be looked at
- forkM (ptext SLIT("Rule") <+> ftext name) $
+ forkM (ptext (sLit "Rule") <+> ftext name) $
bindIfaceBndrs bndrs $ \ bndrs' ->
do { args' <- mapM tcIfaceExpr args
; rhs' <- tcIfaceExpr rhs
-- to write them out in coreRuleToIfaceRule
ifTopFreeName :: IfaceExpr -> Maybe Name
ifTopFreeName (IfaceType (IfaceTyConApp tc _ )) = Just (ifaceTyConName tc)
- ifTopFreeName (IfaceApp f a) = ifTopFreeName f
+ ifTopFreeName (IfaceApp f _) = ifTopFreeName f
ifTopFreeName (IfaceExt n) = Just n
- ifTopFreeName other = Nothing
+ ifTopFreeName _ = Nothing
+\end{code}
+
+
+%************************************************************************
+%* *
+ Annotations
+%* *
+%************************************************************************
+
+\begin{code}
+tcIfaceAnnotations :: [IfaceAnnotation] -> IfL [Annotation]
+tcIfaceAnnotations = mapM tcIfaceAnnotation
+
+tcIfaceAnnotation :: IfaceAnnotation -> IfL Annotation
+tcIfaceAnnotation (IfaceAnnotation target serialized) = do
+ target' <- tcIfaceAnnTarget target
+ return $ Annotation {
+ ann_target = target',
+ ann_value = serialized
+ }
+
+tcIfaceAnnTarget :: IfaceAnnTarget -> IfL (AnnTarget Name)
+tcIfaceAnnTarget (NamedTarget occ) = do
+ name <- lookupIfaceTop occ
+ return $ NamedTarget name
+tcIfaceAnnTarget (ModuleTarget mod) = do
+ return $ ModuleTarget mod
+
\end{code}
tcIfaceType (IfaceForAllTy tv t) = bindIfaceTyVar tv $ \ tv' -> do { t' <- tcIfaceType t; return (ForAllTy tv' t') }
tcIfaceType (IfacePredTy st) = do { st' <- tcIfacePredType st; return (PredTy st') }
+tcIfaceTypes :: [IfaceType] -> IfL [Type]
tcIfaceTypes tys = mapM tcIfaceType tys
-----------------------------------------
IfaceCoreNote n -> return (Note (CoreNote n) expr')
-------------------------
+tcIfaceAlt :: CoreExpr -> (TyCon, [Type])
+ -> (IfaceConAlt, [FastString], IfaceExpr)
+ -> IfL (AltCon, [TyVar], CoreExpr)
tcIfaceAlt _ _ (IfaceDefault, names, rhs)
= ASSERT( null names ) do
rhs' <- tcIfaceExpr rhs
(failIfM (ppr scrut $$ ppr con $$ ppr tycon $$ ppr (tyConDataCons tycon)))
; tcIfaceDataAlt con inst_tys arg_strs rhs }
-tcIfaceAlt _ (tycon, inst_tys) (IfaceTupleAlt boxity, arg_occs, rhs)
+tcIfaceAlt _ (tycon, inst_tys) (IfaceTupleAlt _boxity, arg_occs, rhs)
= ASSERT( isTupleTyCon tycon )
do { let [data_con] = tyConDataCons tycon
; tcIfaceDataAlt data_con inst_tys arg_occs rhs }
+tcIfaceDataAlt :: DataCon -> [Type] -> [FastString] -> IfaceExpr
+ -> IfL (AltCon, [TyVar], CoreExpr)
tcIfaceDataAlt con inst_tys arg_strs rhs
= do { us <- newUniqueSupply
; let uniqs = uniqsFromSupply us
%************************************************************************
\begin{code}
+tcIdDetails :: IfaceIdDetails -> IfL IdDetails
+tcIdDetails IfVanillaId = return VanillaId
+tcIdDetails IfDFunId = return DFunId
+tcIdDetails (IfRecSelId tc naughty)
+ = do { tc' <- tcIfaceTyCon tc
+ ; return (RecSelId { sel_tycon = tc', sel_naughty = naughty }) }
+
tcIdInfo :: Bool -> Name -> Type -> IfaceIdInfo -> IfL IdInfo
tcIdInfo ignore_prags name ty info
| ignore_prags = return vanillaIdInfo
-- we start; default assumption is that it has CAFs
init_info = vanillaIdInfo
+ tcPrag :: IdInfo -> IfaceInfoItem -> IfL IdInfo
tcPrag info HsNoCafRefs = return (info `setCafInfo` NoCafRefs)
tcPrag info (HsArity arity) = return (info `setArityInfo` arity)
tcPrag info (HsStrictness str) = return (info `setAllStrictnessInfo` Just str)
\end{code}
\begin{code}
+tcWorkerInfo :: Type -> IdInfo -> Name -> Arity -> IfL IdInfo
tcWorkerInfo ty info wkr arity
= do { mb_wkr_id <- forkM_maybe doc (tcIfaceExtId wkr)
tcIfaceGlobal name
| Just thing <- wiredInNameTyThing_maybe name
-- Wired-in things include TyCons, DataCons, and Ids
- = do { ifCheckWiredInThing name; return thing }
+ = do { ifCheckWiredInThing thing; return thing }
| otherwise
= do { env <- getGblEnv
; case if_rec_types env of { -- Note [Tying the knot]
{ type_env <- setLclEnv () get_type_env -- yuk
; case lookupNameEnv type_env name of
Just thing -> return thing
- Nothing -> pprPanic "tcIfaceGlobal (local): not found:"
+ Nothing -> pprPanic "tcIfaceGlobal (local): not found:"
(ppr name $$ ppr type_env) }
- ; other -> do
+ ; _ -> do
- { (eps,hpt) <- getEpsAndHpt
- ; dflags <- getDOpts
- ; case lookupType dflags hpt (eps_PTE eps) name of {
+ { hsc_env <- getTopEnv
+ ; mb_thing <- liftIO (lookupTypeHscEnv hsc_env name)
+ ; case mb_thing of {
Just thing -> return thing ;
Nothing -> do
-- Because if M.hs also has M.hs-boot, M.T will *already be* in the HPT, but in its
-- emasculated form (e.g. lacking data constructors).
-ifCheckWiredInThing :: Name -> IfL ()
--- Even though we are in an interface file, we want to make
--- sure the instances of a wired-in thing are loaded (imagine f :: Double -> Double)
--- Ditto want to ensure that RULES are loaded too
--- See Note [Loading instances] in LoadIface
-ifCheckWiredInThing name
- = do { mod <- getIfModule
- -- Check whether we are typechecking the interface for this
- -- very module. E.g when compiling the base library in --make mode
- -- we may typecheck GHC.Base.hi. At that point, GHC.Base is not in
- -- the HPT, so without the test we'll demand-load it into the PIT!
- -- C.f. the same test in checkWiredInTyCon above
- ; unless (mod == nameModule name)
- (loadWiredInHomeIface name) }
-
tcIfaceTyCon :: IfaceTyCon -> IfL TyCon
tcIfaceTyCon IfaceIntTc = tcWiredInTyCon intTyCon
tcIfaceTyCon IfaceBoolTc = tcWiredInTyCon boolTyCon
check_tc tc
| debugIsOn = case toIfaceTyCon tc of
IfaceTc _ -> tc
- other -> pprTrace "check_tc" (ppr tc) tc
+ _ -> pprTrace "check_tc" (ppr tc) tc
| otherwise = tc
-- we should be okay just returning Kind constructors without extra loading
tcIfaceTyCon IfaceLiftedTypeKindTc = return liftedTypeKindTyCon
-- sure the instances and RULES of this tycon are loaded
-- Imagine: f :: Double -> Double
tcWiredInTyCon :: TyCon -> IfL TyCon
-tcWiredInTyCon tc = do { ifCheckWiredInThing (tyConName tc)
+tcWiredInTyCon tc = do { ifCheckWiredInThing (ATyCon tc)
; return tc }
tcIfaceClass :: Name -> IfL Class
tcIfaceDataCon name = do { thing <- tcIfaceGlobal name
; case thing of
ADataCon dc -> return dc
- other -> pprPanic "tcIfaceExtDC" (ppr name$$ ppr thing) }
+ _ -> pprPanic "tcIfaceExtDC" (ppr name$$ ppr thing) }
tcIfaceExtId :: Name -> IfL Id
tcIfaceExtId name = do { thing <- tcIfaceGlobal name
; case thing of
AnId id -> return id
- other -> pprPanic "tcIfaceExtId" (ppr name$$ ppr thing) }
+ _ -> pprPanic "tcIfaceExtId" (ppr name$$ ppr thing) }
\end{code}
%************************************************************************
bindIfaceBndrs bs $ \ bs' ->
thing_inside (b':bs')
+
-----------------------
+tcIfaceLetBndr :: IfaceLetBndr -> IfL Id
tcIfaceLetBndr (IfLetBndr fs ty info)
= do { name <- newIfaceName (mkVarOccFS fs)
; ty' <- tcIfaceType ty
-----------------------
bindIfaceTyVar :: IfaceTvBndr -> (TyVar -> IfL a) -> IfL a
bindIfaceTyVar (occ,kind) thing_inside
- = do { name <- newIfaceName (mkTyVarOcc occ)
+ = do { name <- newIfaceName (mkTyVarOccFS occ)
; tyvar <- mk_iface_tyvar name kind
; extendIfaceTyVarEnv [tyvar] (thing_inside tyvar) }
bindIfaceTyVars :: [IfaceTvBndr] -> ([TyVar] -> IfL a) -> IfL a
bindIfaceTyVars bndrs thing_inside
- = do { names <- newIfaceNames (map mkTyVarOcc occs)
+ = do { names <- newIfaceNames (map mkTyVarOccFS occs)
; tyvars <- zipWithM mk_iface_tyvar names kinds
; extendIfaceTyVarEnv tyvars (thing_inside tyvars) }
where
return (Var.mkCoVar name kind)
else
return (Var.mkTyVar name kind) }
-\end{code}
+
+bindIfaceTyVars_AT :: [IfaceTvBndr] -> ([TyVar] -> IfL a) -> IfL a
+-- Used for type variable in nested associated data/type declarations
+-- where some of the type variables are already in scope
+-- class C a where { data T a b }
+-- Here 'a' is in scope when we look at the 'data T'
+bindIfaceTyVars_AT [] thing_inside
+ = thing_inside []
+bindIfaceTyVars_AT (b@(tv_occ,_) : bs) thing_inside
+ = bindIfaceTyVars_AT bs $ \ bs' ->
+ do { mb_tv <- lookupIfaceTyVar tv_occ
+ ; case mb_tv of
+ Just b' -> thing_inside (b':bs')
+ Nothing -> bindIfaceTyVar b $ \ b' ->
+ thing_inside (b':bs') }
+\end{code}