%
% (c) The University of Glasgow 2006
% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
\section[TcMovectle]{Typechecking a whole module}
\begin{code}
module TcRnDriver (
#ifdef GHCI
tcRnStmt, tcRnExpr, tcRnType,
tcRnImportDecls,
tcRnLookupRdrName,
getModuleInterface,
tcRnDeclsi,
isGHCiMonad,
#endif
tcRnLookupName,
tcRnGetInfo,
tcRnModule,
tcTopSrcDecls,
tcRnExtCore
) where
#ifdef GHCI
import TcSplice ( tcSpliceDecls )
#endif
import TypeRep
import DynFlags
import StaticFlags
import HsSyn
import PrelNames
import RdrName
import TcHsSyn
import TcExpr
import TcRnMonad
import TcEvidence
import Coercion( pprCoAxiom )
import FamInst
import InstEnv
import FamInstEnv
import TcAnnotations
import TcBinds
import HeaderInfo ( mkPrelImports )
import TcType ( tidyTopType )
import TcDefaults
import TcEnv
import TcRules
import TcForeign
import TcInstDcls
import TcIface
import TcMType
import MkIface
import IfaceSyn
import TcSimplify
import TcTyClsDecls
import LoadIface
import RnNames
import RnEnv
import RnSource
import PprCore
import CoreSyn
import ErrUtils
import Id
import VarEnv
import Var
import Module
import UniqFM
import Name
import NameEnv
import NameSet
import Avail
import TyCon
import SrcLoc
import HscTypes
import ListSetOps
import Outputable
import DataCon
import Type
import Class
import TcType ( orphNamesOfDFunHead )
import Inst ( tcGetInstEnvs )
import Data.List ( sortBy )
import Data.IORef ( readIORef )
import Data.Ord
#ifdef GHCI
import TcType ( isUnitTy, isTauTy )
import TcHsType
import TcMatches
import RnTypes
import RnExpr
import MkId
import BasicTypes
import TidyPgm ( globaliseAndTidyId )
import TysWiredIn ( unitTy, mkListTy )
#endif
import FastString
import Maybes
import Util
import Bag
import Control.Monad
#include "HsVersions.h"
\end{code}
%************************************************************************
%* *
Typecheck and rename a module
%* *
%************************************************************************
\begin{code}
tcRnModule :: HscEnv
-> HscSource
-> Bool
-> HsParsedModule
-> IO (Messages, Maybe TcGblEnv)
tcRnModule hsc_env hsc_src save_rn_syntax
HsParsedModule {
hpm_module =
(L loc (HsModule maybe_mod export_ies
import_decls local_decls mod_deprec
maybe_doc_hdr)),
hpm_src_files =
src_files
}
= do { showPass (hsc_dflags hsc_env) "Renamer/typechecker" ;
let { this_pkg = thisPackage (hsc_dflags hsc_env) ;
(this_mod, prel_imp_loc)
= case maybe_mod of
Nothing
-> (mAIN, srcLocSpan (srcSpanStart loc))
Just (L mod_loc mod)
-> (mkModule this_pkg mod, mod_loc) } ;
initTc hsc_env hsc_src save_rn_syntax this_mod $
setSrcSpan loc $
do {
implicit_prelude <- xoptM Opt_ImplicitPrelude;
let { prel_imports = mkPrelImports (moduleName this_mod) prel_imp_loc
implicit_prelude import_decls } ;
ifWOptM Opt_WarnImplicitPrelude $
when (notNull prel_imports) $ addWarn (implicitPreludeWarn) ;
tcg_env <-
tcRnImports hsc_env this_mod (prel_imports ++ import_decls) ;
let { tcg_env1 = case mod_deprec of
Just txt -> tcg_env { tcg_warns = WarnAll txt }
Nothing -> tcg_env
} ;
setGblEnv tcg_env1 $ do {
boot_iface <- tcHiBootIface hsc_src this_mod ;
traceRn (text "rn1a") ;
tcg_env <- if isHsBoot hsc_src then
tcRnHsBootDecls local_decls
else
tcRnSrcDecls boot_iface local_decls ;
setGblEnv tcg_env $ do {
traceRn (text "rn4a: before exports");
tcg_env <- rnExports (isJust maybe_mod) export_ies tcg_env ;
traceRn (text "rn4b: after exports") ;
checkMainExported tcg_env ;
tcg_env <- checkHiBootIface tcg_env boot_iface ;
tcg_env <- return (tcg_env { tcg_doc_hdr = maybe_doc_hdr }) ;
reportUnusedNames export_ies tcg_env ;
addDependentFiles src_files ;
tcDump tcg_env ;
return tcg_env
}}}}
implicitPreludeWarn :: SDoc
implicitPreludeWarn
= ptext (sLit "Module `Prelude' implicitly imported")
\end{code}
%************************************************************************
%* *
Import declarations
%* *
%************************************************************************
\begin{code}
tcRnImports :: HscEnv -> Module
-> [LImportDecl RdrName] -> TcM TcGblEnv
tcRnImports hsc_env this_mod import_decls
= do { (rn_imports, rdr_env, imports,hpc_info) <- rnImports import_decls ;
; let { dep_mods :: ModuleNameEnv (ModuleName, IsBootInterface)
; dep_mods = listToUFM [(mod_nm, (mod_nm, False)) | mod_nm <- dynFlagDependencies (hsc_dflags hsc_env)]
`plusUFM` imp_dep_mods imports
; want_instances :: ModuleName -> Bool
; want_instances mod = mod `elemUFM` dep_mods
&& mod /= moduleName this_mod
; (home_insts, home_fam_insts) = hptInstances hsc_env
want_instances
} ;
; updateEps_ (\eps -> eps { eps_is_boot = dep_mods }) ;
; updGblEnv ( \ gbl ->
gbl {
tcg_rdr_env = plusOccEnv (tcg_rdr_env gbl) rdr_env,
tcg_imports = tcg_imports gbl `plusImportAvails` imports,
tcg_rn_imports = rn_imports,
tcg_inst_env = extendInstEnvList (tcg_inst_env gbl) home_insts,
tcg_fam_inst_env = extendFamInstEnvList (tcg_fam_inst_env gbl)
home_fam_insts,
tcg_hpc = hpc_info
}) $ do {
; traceRn (text "rn1" <+> ppr (imp_dep_mods imports))
; failIfErrsM
; loadModuleInterfaces (ptext (sLit "Loading orphan modules"))
(imp_orphs imports)
; traceRn (text "rn1: checking family instance consistency")
; let { dir_imp_mods = moduleEnvKeys
. imp_mods
$ imports }
; checkFamInstConsistency (imp_finsts imports) dir_imp_mods ;
; getGblEnv } }
\end{code}
%************************************************************************
%* *
Type-checking external-core modules
%* *
%************************************************************************
\begin{code}
tcRnExtCore :: HscEnv
-> HsExtCore RdrName
-> IO (Messages, Maybe ModGuts)
tcRnExtCore hsc_env (HsExtCore this_mod decls src_binds)
= do { showPass (hsc_dflags hsc_env) "Renamer/typechecker" ;
initTc hsc_env ExtCoreFile False this_mod $ do {
let { ldecls = map noLoc decls } ;
(tc_envs, _bndrs) <- getLocalNonValBinders emptyFsEnv
(mkFakeGroup ldecls) ;
setEnvs tc_envs $ do {
(rn_decls, _fvs) <- checkNoErrs $ rnTyClDecls [] [ldecls] ;
rnDump (ppr rn_decls) ;
tcg_env <- tcTyAndClassDecls emptyModDetails rn_decls ;
safe_mode <- liftIO $ finalSafeMode (hsc_dflags hsc_env) tcg_env ;
dep_files <- liftIO $ readIORef (tcg_dependent_files tcg_env) ;
setGblEnv tcg_env $ do {
core_binds <- initIfaceExtCore (tcExtCoreBindings src_binds) ;
let {
bndrs = bindersOfBinds core_binds ;
my_exports = map (Avail . idName) bndrs ;
mod_guts = ModGuts { mg_module = this_mod,
mg_boot = False,
mg_used_names = emptyNameSet,
mg_used_th = False,
mg_dir_imps = emptyModuleEnv,
mg_deps = noDependencies,
mg_exports = my_exports,
mg_tcs = tcg_tcs tcg_env,
mg_insts = tcg_insts tcg_env,
mg_fam_insts = tcg_fam_insts tcg_env,
mg_inst_env = tcg_inst_env tcg_env,
mg_fam_inst_env = tcg_fam_inst_env tcg_env,
mg_rules = [],
mg_vect_decls = [],
mg_anns = [],
mg_binds = core_binds,
mg_rdr_env = emptyGlobalRdrEnv,
mg_fix_env = emptyFixityEnv,
mg_warns = NoWarnings,
mg_foreign = NoStubs,
mg_hpc_info = emptyHpcInfo False,
mg_modBreaks = emptyModBreaks,
mg_vect_info = noVectInfo,
mg_safe_haskell = safe_mode,
mg_trust_pkg = False,
mg_dependent_files = dep_files
} } ;
tcCoreDump mod_guts ;
return mod_guts
}}}}
mkFakeGroup :: [LTyClDecl a] -> HsGroup a
mkFakeGroup decls
= emptyRdrGroup { hs_tyclds = [decls] }
\end{code}
%************************************************************************
%* *
Type-checking the top level of a module
%* *
%************************************************************************
\begin{code}
tcRnSrcDecls :: ModDetails -> [LHsDecl RdrName] -> TcM TcGblEnv
tcRnSrcDecls boot_iface decls
= do {
((tcg_env, tcl_env), lie) <- captureConstraints $ tc_rn_src_decls boot_iface decls ;
; traceTc "Tc8" empty ;
; setEnvs (tcg_env, tcl_env) $
do {
new_ev_binds <-
simplifyTop lie ;
traceTc "Tc9" empty ;
failIfErrsM ;
let { TcGblEnv { tcg_type_env = type_env,
tcg_binds = binds,
tcg_sigs = sig_ns,
tcg_ev_binds = cur_ev_binds,
tcg_imp_specs = imp_specs,
tcg_rules = rules,
tcg_vects = vects,
tcg_fords = fords } = tcg_env
; all_ev_binds = cur_ev_binds `unionBags` new_ev_binds } ;
(bind_ids, ev_binds', binds', fords', imp_specs', rules', vects')
<-
zonkTopDecls all_ev_binds binds sig_ns rules vects imp_specs fords ;
let { final_type_env = extendTypeEnvWithIds type_env bind_ids
; tcg_env' = tcg_env { tcg_binds = binds',
tcg_ev_binds = ev_binds',
tcg_imp_specs = imp_specs',
tcg_rules = rules',
tcg_vects = vects',
tcg_fords = fords' } } ;
setGlobalTypeEnv tcg_env' final_type_env
} }
tc_rn_src_decls :: ModDetails
-> [LHsDecl RdrName]
-> TcM (TcGblEnv, TcLclEnv)
tc_rn_src_decls boot_details ds
=
do { (first_group, group_tail) <- findSplice ds ;
let { extra_deps = map tyConName (typeEnvTyCons (md_types boot_details)) } ;
(tcg_env, rn_decls) <- rnTopSrcDecls extra_deps first_group ;
(tcg_env, tcl_env) <- setGblEnv tcg_env $
tcTopSrcDecls boot_details rn_decls ;
setEnvs (tcg_env, tcl_env) $
case group_tail of {
Nothing -> do { tcg_env <- checkMain ;
return (tcg_env, tcl_env)
} ;
#ifndef GHCI
Just (SpliceDecl {}, _) -> do {
failWithTc (text "Can't do a top-level splice; need a bootstrapped compiler")
#else
Just (SpliceDecl splice_expr _, rest_ds) -> do {
(rn_splice_expr, splice_fvs) <- checkNoErrs (rnLExpr splice_expr) ;
rnDump (ppr rn_splice_expr) ;
spliced_decls <- tcSpliceDecls rn_splice_expr ;
setGblEnv (tcg_env `addTcgDUs` usesOnly splice_fvs) $
tc_rn_src_decls boot_details (spliced_decls ++ rest_ds)
#endif /* GHCI */
} } }
\end{code}
%************************************************************************
%* *
Compiling hs-boot source files, and
comparing the hi-boot interface with the real thing
%* *
%************************************************************************
\begin{code}
tcRnHsBootDecls :: [LHsDecl RdrName] -> TcM TcGblEnv
tcRnHsBootDecls decls
= do { (first_group, group_tail) <- findSplice decls
; (tcg_env, HsGroup {
hs_tyclds = tycl_decls,
hs_instds = inst_decls,
hs_derivds = deriv_decls,
hs_fords = for_decls,
hs_defds = def_decls,
hs_ruleds = rule_decls,
hs_vects = vect_decls,
hs_annds = _,
hs_valds = val_binds }) <- rnTopSrcDecls [] first_group
; (gbl_env, lie) <- captureConstraints $ setGblEnv tcg_env $ do {
; case group_tail of
Just (SpliceDecl d _, _) -> badBootDecl "splice" d
Nothing -> return ()
; mapM_ (badBootDecl "foreign") for_decls
; mapM_ (badBootDecl "default") def_decls
; mapM_ (badBootDecl "rule") rule_decls
; mapM_ (badBootDecl "vect") vect_decls
; traceTc "Tc2 (boot)" empty
; (tcg_env, inst_infos, _deriv_binds)
<- tcTyClsInstDecls emptyModDetails tycl_decls inst_decls deriv_decls
; setGblEnv tcg_env $ do {
; traceTc "Tc5" empty
; val_ids <- tcHsBootSigs val_binds
; traceTc "Tc7a" empty
; gbl_env <- getGblEnv
; let { type_env0 = tcg_type_env gbl_env
; type_env1 = extendTypeEnvWithIds type_env0 val_ids
; type_env2 = extendTypeEnvWithIds type_env1 dfun_ids
; dfun_ids = map iDFunId inst_infos
}
; setGlobalTypeEnv gbl_env type_env2
}}
; traceTc "boot" (ppr lie); return gbl_env }
badBootDecl :: String -> Located decl -> TcM ()
badBootDecl what (L loc _)
= addErrAt loc (char 'A' <+> text what
<+> ptext (sLit "declaration is not (currently) allowed in a hs-boot file"))
\end{code}
Once we've typechecked the body of the module, we want to compare what
we've found (gathered in a TypeEnv) with the hi-boot details (if any).
\begin{code}
checkHiBootIface :: TcGblEnv -> ModDetails -> TcM TcGblEnv
checkHiBootIface
tcg_env@(TcGblEnv { tcg_src = hs_src, tcg_binds = binds,
tcg_insts = local_insts,
tcg_type_env = local_type_env, tcg_exports = local_exports })
(ModDetails { md_insts = boot_insts, md_fam_insts = boot_fam_insts,
md_types = boot_type_env, md_exports = boot_exports })
| isHsBoot hs_src
= return tcg_env
| otherwise
= do { traceTc "checkHiBootIface" $ vcat
[ ppr boot_type_env, ppr boot_insts, ppr boot_exports]
; mapM_ check_export boot_exports
; unless (null boot_fam_insts) $
panic ("TcRnDriver.checkHiBootIface: Cannot handle family " ++
"instances in boot files yet...")
; mb_dfun_prs <- mapM check_inst boot_insts
; let dfun_prs = catMaybes mb_dfun_prs
boot_dfuns = map fst dfun_prs
dfun_binds = listToBag [ mkVarBind boot_dfun (nlHsVar dfun)
| (boot_dfun, dfun) <- dfun_prs ]
type_env' = extendTypeEnvWithIds local_type_env boot_dfuns
tcg_env' = tcg_env { tcg_binds = binds `unionBags` dfun_binds }
; failIfErrsM
; setGlobalTypeEnv tcg_env' type_env' }
where
check_export boot_avail
| name `elem` dfun_names = return ()
| isWiredInName name = return ()
| not (null missing_names)
= addErrAt (nameSrcSpan (head missing_names))
(missingBootThing (head missing_names) "exported by")
| isNothing mb_boot_thing = return ()
| Just real_thing <- lookupTypeEnv local_type_env name,
Just boot_thing <- mb_boot_thing
= when (not (checkBootDecl boot_thing real_thing))
$ addErrAt (nameSrcSpan (getName boot_thing))
(let boot_decl = tyThingToIfaceDecl
(fromJust mb_boot_thing)
real_decl = tyThingToIfaceDecl real_thing
in bootMisMatch real_thing boot_decl real_decl)
| otherwise
= addErrTc (missingBootThing name "defined in")
where
name = availName boot_avail
mb_boot_thing = lookupTypeEnv boot_type_env name
missing_names = case lookupNameEnv local_export_env name of
Nothing -> [name]
Just avail -> availNames boot_avail `minusList` availNames avail
dfun_names = map getName boot_insts
local_export_env :: NameEnv AvailInfo
local_export_env = availsToNameEnv local_exports
check_inst :: ClsInst -> TcM (Maybe (Id, Id))
check_inst boot_inst
= case [dfun | inst <- local_insts,
let dfun = instanceDFunId inst,
idType dfun `eqType` boot_inst_ty ] of
[] -> do { traceTc "check_inst" (vcat [ text "local_insts" <+> vcat (map (ppr . idType . instanceDFunId) local_insts)
, text "boot_inst" <+> ppr boot_inst
, text "boot_inst_ty" <+> ppr boot_inst_ty
])
; addErrTc (instMisMatch boot_inst); return Nothing }
(dfun:_) -> return (Just (local_boot_dfun, dfun))
where
boot_dfun = instanceDFunId boot_inst
boot_inst_ty = idType boot_dfun
local_boot_dfun = Id.mkExportedLocalId (idName boot_dfun) boot_inst_ty
checkBootDecl :: TyThing -> TyThing -> Bool
checkBootDecl (AnId id1) (AnId id2)
= ASSERT(id1 == id2)
(idType id1 `eqType` idType id2)
checkBootDecl (ATyCon tc1) (ATyCon tc2)
= checkBootTyCon tc1 tc2
checkBootDecl (ADataCon dc1) (ADataCon _)
= pprPanic "checkBootDecl" (ppr dc1)
checkBootDecl _ _ = False
checkBootTyCon :: TyCon -> TyCon -> Bool
checkBootTyCon tc1 tc2
| not (eqKind (tyConKind tc1) (tyConKind tc2))
= False
| Just c1 <- tyConClass_maybe tc1
, Just c2 <- tyConClass_maybe tc2
= let
(clas_tyvars1, clas_fds1, sc_theta1, _, ats1, op_stuff1)
= classExtraBigSig c1
(clas_tyvars2, clas_fds2, sc_theta2, _, ats2, op_stuff2)
= classExtraBigSig c2
env0 = mkRnEnv2 emptyInScopeSet
env = rnBndrs2 env0 clas_tyvars1 clas_tyvars2
eqSig (id1, def_meth1) (id2, def_meth2)
= idName id1 == idName id2 &&
eqTypeX env op_ty1 op_ty2 &&
def_meth1 == def_meth2
where
(_, rho_ty1) = splitForAllTys (idType id1)
op_ty1 = funResultTy rho_ty1
(_, rho_ty2) = splitForAllTys (idType id2)
op_ty2 = funResultTy rho_ty2
eqAT (tc1, def_ats1) (tc2, def_ats2)
= checkBootTyCon tc1 tc2 &&
eqListBy eqATDef def_ats1 def_ats2
eqATDef (ATD tvs1 ty_pats1 ty1 _loc1) (ATD tvs2 ty_pats2 ty2 _loc2)
= eqListBy same_kind tvs1 tvs2 &&
eqListBy (eqTypeX env) ty_pats1 ty_pats2 &&
eqTypeX env ty1 ty2
where env = rnBndrs2 env0 tvs1 tvs2
eqFD (as1,bs1) (as2,bs2) =
eqListBy (eqTypeX env) (mkTyVarTys as1) (mkTyVarTys as2) &&
eqListBy (eqTypeX env) (mkTyVarTys bs1) (mkTyVarTys bs2)
same_kind tv1 tv2 = eqKind (tyVarKind tv1) (tyVarKind tv2)
in
eqListBy same_kind clas_tyvars1 clas_tyvars2 &&
eqListBy eqFD clas_fds1 clas_fds2 &&
(null sc_theta1 && null op_stuff1 && null ats1
||
eqListBy (eqPredX env) sc_theta1 sc_theta2 &&
eqListBy eqSig op_stuff1 op_stuff2 &&
eqListBy eqAT ats1 ats2)
| isSynTyCon tc1 && isSynTyCon tc2
= ASSERT(tc1 == tc2)
let tvs1 = tyConTyVars tc1; tvs2 = tyConTyVars tc2
env = rnBndrs2 env0 tvs1 tvs2
eqSynRhs SynFamilyTyCon SynFamilyTyCon
= True
eqSynRhs (SynonymTyCon t1) (SynonymTyCon t2)
= eqTypeX env t1 t2
eqSynRhs _ _ = False
in
equalLength tvs1 tvs2 &&
eqSynRhs (synTyConRhs tc1) (synTyConRhs tc2)
| isAlgTyCon tc1 && isAlgTyCon tc2
= ASSERT(tc1 == tc2)
eqKind (tyConKind tc1) (tyConKind tc2) &&
eqListBy eqPred (tyConStupidTheta tc1) (tyConStupidTheta tc2) &&
eqAlgRhs (algTyConRhs tc1) (algTyConRhs tc2)
| isForeignTyCon tc1 && isForeignTyCon tc2
= eqKind (tyConKind tc1) (tyConKind tc2) &&
tyConExtName tc1 == tyConExtName tc2
| otherwise = False
where
env0 = mkRnEnv2 emptyInScopeSet
eqAlgRhs (AbstractTyCon dis1) rhs2
| dis1 = isDistinctAlgRhs rhs2
| otherwise = True
eqAlgRhs DataFamilyTyCon{} DataFamilyTyCon{} = True
eqAlgRhs tc1@DataTyCon{} tc2@DataTyCon{} =
eqListBy eqCon (data_cons tc1) (data_cons tc2)
eqAlgRhs tc1@NewTyCon{} tc2@NewTyCon{} =
eqCon (data_con tc1) (data_con tc2)
eqAlgRhs _ _ = False
eqCon c1 c2
= dataConName c1 == dataConName c2
&& dataConIsInfix c1 == dataConIsInfix c2
&& dataConStrictMarks c1 == dataConStrictMarks c2
&& dataConFieldLabels c1 == dataConFieldLabels c2
&& eqType (dataConUserType c1) (dataConUserType c2)
missingBootThing :: Name -> String -> SDoc
missingBootThing name what
= ppr name <+> ptext (sLit "is exported by the hs-boot file, but not")
<+> text what <+> ptext (sLit "the module")
bootMisMatch :: TyThing -> IfaceDecl -> IfaceDecl -> SDoc
bootMisMatch thing boot_decl real_decl
= vcat [ppr thing <+> ptext (sLit "has conflicting definitions in the module and its hs-boot file"),
ptext (sLit "Main module:") <+> ppr real_decl,
ptext (sLit "Boot file: ") <+> ppr boot_decl]
instMisMatch :: ClsInst -> SDoc
instMisMatch inst
= hang (ppr inst)
2 (ptext (sLit "is defined in the hs-boot file, but not in the module itself"))
\end{code}
%************************************************************************
%* *
Type-checking the top level of a module
%* *
%************************************************************************
tcRnGroup takes a bunch of top-level source-code declarations, and
* renames them
* gets supporting declarations from interface files
* typechecks them
* zonks them
* and augments the TcGblEnv with the results
In Template Haskell it may be called repeatedly for each group of
declarations. It expects there to be an incoming TcGblEnv in the
monad; it augments it and returns the new TcGblEnv.
\begin{code}
rnTopSrcDecls :: [Name] -> HsGroup RdrName -> TcM (TcGblEnv, HsGroup Name)
rnTopSrcDecls extra_deps group
= do {
traceTc "rn12" empty ;
(tcg_env, rn_decls) <- checkNoErrs $ rnSrcDecls extra_deps group ;
traceTc "rn13" empty ;
let { tcg_env'
| Just grp <- tcg_rn_decls tcg_env
= tcg_env{ tcg_rn_decls = Just (appendGroups grp rn_decls) }
| otherwise
= tcg_env };
rnDump (ppr rn_decls) ;
return (tcg_env', rn_decls)
}
tcTopSrcDecls :: ModDetails -> HsGroup Name -> TcM (TcGblEnv, TcLclEnv)
tcTopSrcDecls boot_details
(HsGroup { hs_tyclds = tycl_decls,
hs_instds = inst_decls,
hs_derivds = deriv_decls,
hs_fords = foreign_decls,
hs_defds = default_decls,
hs_annds = annotation_decls,
hs_ruleds = rule_decls,
hs_vects = vect_decls,
hs_valds = val_binds })
= do {
traceTc "Tc2 (src)" empty ;
traceTc "Tc3" empty ;
(tcg_env, inst_infos, deriv_binds)
<- tcTyClsInstDecls boot_details tycl_decls inst_decls deriv_decls ;
setGblEnv tcg_env $ do {
traceTc "Tc4" empty ;
(fi_ids, fi_decls) <- tcForeignImports foreign_decls ;
tcExtendGlobalValEnv fi_ids $ do {
traceTc "Tc4a" empty ;
default_tys <- tcDefaults default_decls ;
updGblEnv (\gbl -> gbl { tcg_default = default_tys }) $ do {
tc_envs <- discardWarnings (tcTopBinds deriv_binds) ;
setEnvs tc_envs $ do {
traceTc "Tc5" empty ;
tc_envs@(tcg_env, tcl_env) <- tcTopBinds val_binds;
setEnvs tc_envs $ do {
traceTc "Tc6" empty ;
inst_binds <- tcInstDecls2 (concat tycl_decls) inst_infos ;
traceTc "Tc7" empty ;
(foe_binds, foe_decls) <- tcForeignExports foreign_decls ;
annotations <- tcAnnotations annotation_decls ;
rules <- tcRules rule_decls ;
vects <- tcVectDecls vect_decls ;
traceTc "Tc7a" empty ;
let { all_binds = inst_binds `unionBags`
foe_binds
; sig_names = mkNameSet (collectHsValBinders val_binds)
`minusNameSet` getTypeSigNames val_binds
; tcg_env' = tcg_env { tcg_binds = tcg_binds tcg_env `unionBags` all_binds
, tcg_sigs = tcg_sigs tcg_env `unionNameSets` sig_names
, tcg_rules = tcg_rules tcg_env ++ rules
, tcg_vects = tcg_vects tcg_env ++ vects
, tcg_anns = tcg_anns tcg_env ++ annotations
, tcg_fords = tcg_fords tcg_env ++ foe_decls ++ fi_decls } } ;
return (tcg_env', tcl_env)
}}}}}}
tcTyClsInstDecls :: ModDetails
-> [TyClGroup Name]
-> [LInstDecl Name]
-> [LDerivDecl Name]
-> TcM (TcGblEnv,
[InstInfo Name],
HsValBinds Name)
tcTyClsInstDecls boot_details tycl_decls inst_decls deriv_decls
= tcExtendTcTyThingEnv [(con, APromotionErr FamDataConPE)
| lid <- inst_decls, con <- get_cons lid ] $
do { tcg_env <- tcTyAndClassDecls boot_details tycl_decls ;
; setGblEnv tcg_env $
tcInstDecls1 (concat tycl_decls) inst_decls deriv_decls }
where
get_cons :: LInstDecl Name -> [Name]
get_cons (L _ (FamInstD { lid_inst = fid })) = get_fi_cons fid
get_cons (L _ (ClsInstD { cid_fam_insts = fids })) = concatMap (get_fi_cons . unLoc) fids
get_fi_cons :: FamInstDecl Name -> [Name]
get_fi_cons (FamInstDecl { fid_defn = TyData { td_cons = cons } })
= map (unLoc . con_name . unLoc) cons
get_fi_cons (FamInstDecl {}) = []
\end{code}
Note [AFamDataCon: not promoting data family constructors]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Consider
data family T a
data instance T Int = MkT
data Proxy (a :: k)
data S = MkS (Proxy 'MkT)
Is it ok to use the promoted data family instance constructor 'MkT' in
the data declaration for S? No, we don't allow this. It *might* make
sense, but at least it would mean that we'd have to interleave
typechecking instances and data types, whereas at present we do data
types *then* instances.
So to check for this we put in the TcLclEnv a binding for all the family
constructors, bound to AFamDataCon, so that if we trip over 'MkT' when
type checking 'S' we'll produce a decent error message.
%************************************************************************
%* *
Checking for 'main'
%* *
%************************************************************************
\begin{code}
checkMain :: TcM TcGblEnv
checkMain
= do { tcg_env <- getGblEnv ;
dflags <- getDynFlags ;
check_main dflags tcg_env
}
check_main :: DynFlags -> TcGblEnv -> TcM TcGblEnv
check_main dflags tcg_env
| mod /= main_mod
= traceTc "checkMain not" (ppr main_mod <+> ppr mod) >>
return tcg_env
| otherwise
= do { mb_main <- lookupGlobalOccRn_maybe main_fn
; case mb_main of {
Nothing -> do { traceTc "checkMain fail" (ppr main_mod <+> ppr main_fn)
; complain_no_main
; return tcg_env } ;
Just main_name -> do
{ traceTc "checkMain found" (ppr main_mod <+> ppr main_fn)
; let loc = srcLocSpan (getSrcLoc main_name)
; ioTyCon <- tcLookupTyCon ioTyConName
; res_ty <- newFlexiTyVarTy liftedTypeKind
; main_expr
<- addErrCtxt mainCtxt $
tcMonoExpr (L loc (HsVar main_name)) (mkTyConApp ioTyCon [res_ty])
; run_main_id <- tcLookupId runMainIOName
; let { root_main_name = mkExternalName rootMainKey rOOT_MAIN
(mkVarOccFS (fsLit "main"))
(getSrcSpan main_name)
; root_main_id = Id.mkExportedLocalId root_main_name
(mkTyConApp ioTyCon [res_ty])
; co = mkWpTyApps [res_ty]
; rhs = nlHsApp (mkLHsWrap co (nlHsVar run_main_id)) main_expr
; main_bind = mkVarBind root_main_id rhs }
; return (tcg_env { tcg_main = Just main_name,
tcg_binds = tcg_binds tcg_env
`snocBag` main_bind,
tcg_dus = tcg_dus tcg_env
`plusDU` usesOnly (unitFV main_name)
})
}}}
where
mod = tcg_mod tcg_env
main_mod = mainModIs dflags
main_fn = getMainFun dflags
complain_no_main | ghcLink dflags == LinkInMemory = return ()
| otherwise = failWithTc noMainMsg
mainCtxt = ptext (sLit "When checking the type of the") <+> pp_main_fn
noMainMsg = ptext (sLit "The") <+> pp_main_fn
<+> ptext (sLit "is not defined in module") <+> quotes (ppr main_mod)
pp_main_fn = ppMainFn main_fn
ppMainFn :: RdrName -> SDoc
ppMainFn main_fn
| main_fn == main_RDR_Unqual
= ptext (sLit "function") <+> quotes (ppr main_fn)
| otherwise
= ptext (sLit "main function") <+> quotes (ppr main_fn)
getMainFun :: DynFlags -> RdrName
getMainFun dflags = case (mainFunIs dflags) of
Just fn -> mkRdrUnqual (mkVarOccFS (mkFastString fn))
Nothing -> main_RDR_Unqual
checkMainExported :: TcGblEnv -> TcM ()
checkMainExported tcg_env = do
dflags <- getDynFlags
case tcg_main tcg_env of
Nothing -> return ()
Just main_name -> do
let main_mod = mainModIs dflags
checkTc (main_name `elem` concatMap availNames (tcg_exports tcg_env)) $
ptext (sLit "The") <+> ppMainFn (nameRdrName main_name) <+>
ptext (sLit "is not exported by module") <+> quotes (ppr main_mod)
\end{code}
Note [Root-main Id]
~~~~~~~~~~~~~~~~~~~
The function that the RTS invokes is always :Main.main, which we call
root_main_id. (Because GHC allows the user to have a module not
called Main as the main module, we can't rely on the main function
being called "Main.main". That's why root_main_id has a fixed module
":Main".)
This is unusual: it's a LocalId whose Name has a Module from another
module. Tiresomely, we must filter it out again in MkIface, les we
get two defns for 'main' in the interface file!
%*********************************************************
%* *
GHCi stuff
%* *
%*********************************************************
\begin{code}
setInteractiveContext :: HscEnv -> InteractiveContext -> TcRn a -> TcRn a
setInteractiveContext hsc_env icxt thing_inside
= let
(home_insts, home_fam_insts) = hptInstances hsc_env (\_ -> True)
(ic_insts, ic_finsts) = ic_instances icxt
(tmp_ids, types_n_classes) = partitionWith sel_id (ic_tythings icxt)
where sel_id (AnId id) = Left id
sel_id other = Right other
type_env = mkTypeEnvWithImplicits
(map AnId (ic_sys_vars icxt) ++ types_n_classes)
visible_tmp_ids = filter visible tmp_ids
where visible id = not (null (lookupGRE_Name (ic_rn_gbl_env icxt)
(idName id)))
con_fields = [ (dataConName c, dataConFieldLabels c)
| ATyCon t <- types_n_classes
, c <- tyConDataCons t ]
in
updGblEnv (\env -> env {
tcg_rdr_env = delListFromOccEnv (ic_rn_gbl_env icxt)
(map getOccName visible_tmp_ids)
, tcg_type_env = type_env
, tcg_insts = ic_insts
, tcg_inst_env = extendInstEnvList
(extendInstEnvList (tcg_inst_env env) ic_insts)
home_insts
, tcg_fam_insts = ic_finsts
, tcg_fam_inst_env = extendFamInstEnvList
(extendFamInstEnvList (tcg_fam_inst_env env)
ic_finsts)
home_fam_insts
, tcg_field_env = RecFields (mkNameEnv con_fields)
(mkNameSet (concatMap snd con_fields))
, tcg_fix_env = ic_fix_env icxt
, tcg_default = ic_default icxt
}) $
tcExtendGhciEnv visible_tmp_ids $
thing_inside
#ifdef GHCI
tcRnStmt :: HscEnv -> InteractiveContext -> LStmt RdrName
-> IO (Messages, Maybe ([Id], LHsExpr Id, FixityEnv))
tcRnStmt hsc_env ictxt rdr_stmt
= initTcPrintErrors hsc_env iNTERACTIVE $
setInteractiveContext hsc_env ictxt $ do {
((bound_ids, tc_expr), fix_env) <- tcUserStmt rdr_stmt ;
zonked_expr <- zonkTopLExpr tc_expr ;
zonked_ids <- zonkTopBndrs bound_ids ;
mapM_ bad_unboxed (filter (isUnLiftedType . idType) zonked_ids) ;
traceTc "tcs 1" empty ;
let { global_ids = map globaliseAndTidyId zonked_ids } ;
dumpOptTcRn Opt_D_dump_tc
(vcat [text "Bound Ids" <+> pprWithCommas ppr global_ids,
text "Typechecked expr" <+> ppr zonked_expr]) ;
return (global_ids, zonked_expr, fix_env)
}
where
bad_unboxed id = addErr (sep [ptext (sLit "GHCi can't bind a variable of unlifted type:"),
nest 2 (ppr id <+> dcolon <+> ppr (idType id))])
\end{code}
Note [Interactively-bound Ids in GHCi]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
The Ids bound by previous Stmts in GHCi are currently
a) GlobalIds
b) with an Internal Name (not External)
c) and a tidied type
(a) They must be GlobalIds (not LocalIds) otherwise when we come to
compile an expression using these ids later, the byte code
generator will consider the occurrences to be free rather than
global.
(b) They retain their Internal names becuase we don't have a suitable
Module to name them with. We could revisit this choice.
(c) Their types are tidied. This is important, because :info may ask
to look at them, and :info expects the things it looks up to have
tidy types
--------------------------------------------------------------------------
Typechecking Stmts in GHCi
Here is the grand plan, implemented in tcUserStmt
What you type The IO [HValue] that hscStmt returns
------------- ------------------------------------
let pat = expr ==> let pat = expr in return [coerce HVal x, coerce HVal y, ...]
bindings: [x,y,...]
pat <- expr ==> expr >>= \ pat -> return [coerce HVal x, coerce HVal y, ...]
bindings: [x,y,...]
expr (of IO type) ==> expr >>= \ it -> return [coerce HVal it]
[NB: result not printed] bindings: [it]
expr (of non-IO type, ==> let it = expr in print it >> return [coerce HVal it]
result showable) bindings: [it]
expr (of non-IO type,
result not showable) ==> error
\begin{code}
type PlanResult = ([Id], LHsExpr Id)
type Plan = TcM PlanResult
runPlans :: [Plan] -> TcM PlanResult
runPlans [] = panic "runPlans"
runPlans [p] = p
runPlans (p:ps) = tryTcLIE_ (runPlans ps) p
tcUserStmt :: LStmt RdrName -> TcM (PlanResult, FixityEnv)
tcUserStmt (L loc (ExprStmt expr _ _ _))
= do { (rn_expr, fvs) <- checkNoErrs (rnLExpr expr)
; ghciStep <- getGhciStepIO
; uniq <- newUnique
; interPrintName <- getInteractivePrintName
; let fresh_it = itName uniq loc
matches = [mkMatch [] rn_expr emptyLocalBinds]
the_bind = L loc $ (mkTopFunBind (L loc fresh_it) matches) { bind_fvs = fvs }
let_stmt = L loc $ LetStmt $ HsValBinds $
ValBindsOut [(NonRecursive,unitBag the_bind)] []
bind_stmt = L loc $ BindStmt (L loc (VarPat fresh_it))
(nlHsApp ghciStep rn_expr)
(HsVar bindIOName) noSyntaxExpr
print_it = L loc $ ExprStmt (nlHsApp (nlHsVar interPrintName) (nlHsVar fresh_it))
(HsVar thenIOName) noSyntaxExpr placeHolderType
; plan <- unsetDOptM Opt_DeferTypeErrors $ runPlans [
do { stuff@([it_id], _) <- tcGhciStmts [bind_stmt, print_it]
; it_ty <- zonkTcType (idType it_id)
; when (isUnitTy $ it_ty) failM
; return stuff },
tcGhciStmts [bind_stmt],
do { _ <- checkNoErrs (tcGhciStmts [let_stmt])
; tcGhciStmts [let_stmt, print_it] } ]
; fix_env <- getFixityEnv
; return (plan, fix_env) }
tcUserStmt rdr_stmt@(L loc _)
= do { (([rn_stmt], fix_env), fvs) <- checkNoErrs $
rnStmts GhciStmt [rdr_stmt] $ \_ -> do
fix_env <- getFixityEnv
return (fix_env, emptyFVs)
; traceRn (text "tcRnStmt" <+> vcat [ppr rdr_stmt, ppr rn_stmt, ppr fvs])
; rnDump (ppr rn_stmt) ;
; ghciStep <- getGhciStepIO
; let gi_stmt
| (L loc (BindStmt pat expr op1 op2)) <- rn_stmt
= L loc $ BindStmt pat (nlHsApp ghciStep expr) op1 op2
| otherwise = rn_stmt
; opt_pr_flag <- doptM Opt_PrintBindResult
; let print_result_plan
| opt_pr_flag
, [v] <- collectLStmtBinders gi_stmt
= [mk_print_result_plan gi_stmt v]
| otherwise = []
; plan <- runPlans (print_result_plan ++ [tcGhciStmts [gi_stmt]])
; return (plan, fix_env) }
where
mk_print_result_plan stmt v
= do { stuff@([v_id], _) <- tcGhciStmts [stmt, print_v]
; v_ty <- zonkTcType (idType v_id)
; when (isUnitTy v_ty || not (isTauTy v_ty)) failM
; return stuff }
where
print_v = L loc $ ExprStmt (nlHsApp (nlHsVar printName) (nlHsVar v))
(HsVar thenIOName) noSyntaxExpr placeHolderType
tcGhciStmts :: [LStmt Name] -> TcM PlanResult
tcGhciStmts stmts
= do { ioTyCon <- tcLookupTyCon ioTyConName ;
ret_id <- tcLookupId returnIOName ;
let {
ret_ty = mkListTy unitTy ;
io_ret_ty = mkTyConApp ioTyCon [ret_ty] ;
tc_io_stmts = tcStmtsAndThen GhciStmt tcDoStmt stmts io_ret_ty ;
names = collectLStmtsBinders stmts ;
} ;
traceTc "TcRnDriver.tcGhciStmts: tc stmts" empty ;
((tc_stmts, ids), lie) <- captureConstraints $
tc_io_stmts $ \ _ ->
mapM tcLookupId names ;
traceTc "TcRnDriver.tcGhciStmts: simplify ctxt" empty ;
const_binds <- checkNoErrs (simplifyInteractive lie) ;
traceTc "TcRnDriver.tcGhciStmts: done" empty ;
let {
ret_expr = nlHsApp (nlHsTyApp ret_id [ret_ty])
(noLoc $ ExplicitList unitTy (map mk_item ids)) ;
mk_item id = nlHsApp (nlHsTyApp unsafeCoerceId [idType id, unitTy])
(nlHsVar id) ;
stmts = tc_stmts ++ [noLoc (mkLastStmt ret_expr)]
} ;
return (ids, mkHsDictLet (EvBinds const_binds) $
noLoc (HsDo GhciStmt stmts io_ret_ty))
}
getGhciStepIO :: TcM (LHsExpr Name)
getGhciStepIO = do
ghciTy <- getGHCiMonad
fresh_a <- newUnique
let a_tv = mkTcTyVarName fresh_a (fsLit "a")
ghciM = nlHsAppTy (nlHsTyVar ghciTy) (nlHsTyVar a_tv)
ioM = nlHsAppTy (nlHsTyVar ioTyConName) (nlHsTyVar a_tv)
stepTy :: LHsType Name
stepTy = noLoc $ HsForAllTy Implicit
(HsQTvs { hsq_tvs = [noLoc (UserTyVar a_tv)]
, hsq_kvs = [] })
(noLoc [])
(nlHsFunTy ghciM ioM)
step = noLoc $ ExprWithTySig (nlHsVar ghciStepIoMName) stepTy
return step
isGHCiMonad :: HscEnv -> InteractiveContext -> String -> IO (Messages, Maybe Name)
isGHCiMonad hsc_env ictxt ty
= initTcPrintErrors hsc_env iNTERACTIVE $
setInteractiveContext hsc_env ictxt $ do
rdrEnv <- getGlobalRdrEnv
let occIO = lookupOccEnv rdrEnv (mkOccName tcName ty)
case occIO of
Just [n] -> do
let name = gre_name n
ghciClass <- tcLookupClass ghciIoClassName
userTyCon <- tcLookupTyCon name
let userTy = TyConApp userTyCon []
_ <- tcLookupInstance ghciClass [userTy]
return name
Just _ -> failWithTc $ text "Ambigous type!"
Nothing -> failWithTc $ text ("Can't find type:" ++ ty)
\end{code}
tcRnExpr just finds the type of an expression
\begin{code}
tcRnExpr :: HscEnv
-> InteractiveContext
-> LHsExpr RdrName
-> IO (Messages, Maybe Type)
tcRnExpr hsc_env ictxt rdr_expr
= initTcPrintErrors hsc_env iNTERACTIVE $
setInteractiveContext hsc_env ictxt $ do {
(rn_expr, _fvs) <- rnLExpr rdr_expr ;
failIfErrsM ;
uniq <- newUnique ;
let { fresh_it = itName uniq (getLoc rdr_expr) } ;
(((_tc_expr, res_ty), untch), lie) <- captureConstraints $
captureUntouchables (tcInferRho rn_expr) ;
((qtvs, dicts, _, _), lie_top) <- captureConstraints $
simplifyInfer True
False
[(fresh_it, res_ty)]
(untch,lie) ;
_ <- simplifyInteractive lie_top ;
let { all_expr_ty = mkForAllTys qtvs (mkPiTypes dicts res_ty) } ;
zonkTcType all_expr_ty
}
tcRnImportDecls :: HscEnv
-> [LImportDecl RdrName]
-> IO (Messages, Maybe GlobalRdrEnv)
tcRnImportDecls hsc_env import_decls
= initTcPrintErrors hsc_env iNTERACTIVE $
do { gbl_env <- tcRnImports hsc_env iNTERACTIVE import_decls
; return (tcg_rdr_env gbl_env) }
\end{code}
tcRnType just finds the kind of a type
\begin{code}
tcRnType :: HscEnv
-> InteractiveContext
-> Bool
-> LHsType RdrName
-> IO (Messages, Maybe (Type, Kind))
tcRnType hsc_env ictxt normalise rdr_type
= initTcPrintErrors hsc_env iNTERACTIVE $
setInteractiveContext hsc_env ictxt $ do {
(rn_type, _fvs) <- rnLHsType GHCiCtx rdr_type ;
failIfErrsM ;
ty <- tcHsSigType GhciCtxt rn_type ;
ty' <- if normalise
then do { fam_envs <- tcGetFamInstEnvs
; return (snd (normaliseType fam_envs ty)) }
else return ty ;
return (ty', typeKind ty)
}
\end{code}
tcRnDeclsi exists to allow class, data, and other declarations in GHCi.
\begin{code}
tcRnDeclsi :: HscEnv
-> InteractiveContext
-> [LHsDecl RdrName]
-> IO (Messages, Maybe TcGblEnv)
tcRnDeclsi hsc_env ictxt local_decls =
initTcPrintErrors hsc_env iNTERACTIVE $
setInteractiveContext hsc_env ictxt $ do
((tcg_env, tclcl_env), lie) <-
captureConstraints $ tc_rn_src_decls emptyModDetails local_decls
setEnvs (tcg_env, tclcl_env) $ do
new_ev_binds <- simplifyTop lie
failIfErrsM
let TcGblEnv { tcg_type_env = type_env,
tcg_binds = binds,
tcg_sigs = sig_ns,
tcg_ev_binds = cur_ev_binds,
tcg_imp_specs = imp_specs,
tcg_rules = rules,
tcg_vects = vects,
tcg_fords = fords } = tcg_env
all_ev_binds = cur_ev_binds `unionBags` new_ev_binds
(bind_ids, ev_binds', binds', fords', imp_specs', rules', vects')
<- zonkTopDecls all_ev_binds binds sig_ns rules vects imp_specs fords
let
final_type_env = extendTypeEnvWithIds type_env bind_ids --global_ids
tcg_env' = tcg_env { tcg_binds = binds',
tcg_ev_binds = ev_binds',
tcg_imp_specs = imp_specs',
tcg_rules = rules',
tcg_vects = vects',
tcg_fords = fords' }
tcg_env'' <- setGlobalTypeEnv tcg_env' final_type_env
return tcg_env''
#endif /* GHCi */
\end{code}
%************************************************************************
%* *
More GHCi stuff, to do with browsing and getting info
%* *
%************************************************************************
\begin{code}
#ifdef GHCI
getModuleInterface :: HscEnv -> Module -> IO (Messages, Maybe ModIface)
getModuleInterface hsc_env mod
= initTc hsc_env HsSrcFile False iNTERACTIVE $
loadModuleInterface (ptext (sLit "getModuleInterface")) mod
tcRnLookupRdrName :: HscEnv -> RdrName -> IO (Messages, Maybe [Name])
tcRnLookupRdrName hsc_env rdr_name
= initTcPrintErrors hsc_env iNTERACTIVE $
setInteractiveContext hsc_env (hsc_IC hsc_env) $
lookup_rdr_name rdr_name
lookup_rdr_name :: RdrName -> TcM [Name]
lookup_rdr_name rdr_name = do
let rdr_names = dataTcOccs rdr_name
results <- mapM (tryTcErrs . lookupOccRn) rdr_names
traceRn (text "xx" <+> vcat [ppr rdr_names, ppr (map snd results)])
let (warns_s, good_names) = unzip [ (msgs, name)
| (msgs, Just name) <- results]
errs_s = [msgs | (msgs, Nothing) <- results]
if null good_names
then addMessages (head errs_s) >> failM
else mapM_ addMessages warns_s
return good_names
#endif
tcRnLookupName :: HscEnv -> Name -> IO (Messages, Maybe TyThing)
tcRnLookupName hsc_env name
= initTcPrintErrors hsc_env iNTERACTIVE $
setInteractiveContext hsc_env (hsc_IC hsc_env) $
tcRnLookupName' name
tcRnLookupName' :: Name -> TcRn TyThing
tcRnLookupName' name = do
tcthing <- tcLookup name
case tcthing of
AGlobal thing -> return thing
ATcId{tct_id=id} -> return (AnId id)
_ -> panic "tcRnLookupName'"
tcRnGetInfo :: HscEnv
-> Name
-> IO (Messages, Maybe (TyThing, Fixity, [ClsInst]))
tcRnGetInfo hsc_env name
= initTcPrintErrors hsc_env iNTERACTIVE $
tcRnGetInfo' hsc_env name
tcRnGetInfo' :: HscEnv
-> Name
-> TcRn (TyThing, Fixity, [ClsInst])
tcRnGetInfo' hsc_env name
= let ictxt = hsc_IC hsc_env in
setInteractiveContext hsc_env ictxt $ do
loadUnqualIfaces hsc_env ictxt
thing <- tcRnLookupName' name
fixity <- lookupFixityRn name
ispecs <- lookupInsts thing
return (thing, fixity, ispecs)
lookupInsts :: TyThing -> TcM [ClsInst]
lookupInsts (ATyCon tc)
| Just cls <- tyConClass_maybe tc
= do { inst_envs <- tcGetInstEnvs
; return (classInstances inst_envs cls) }
| otherwise
= do { (pkg_ie, home_ie) <- tcGetInstEnvs
; return [ ispec
| ispec <- instEnvElts home_ie ++ instEnvElts pkg_ie
, let dfun = instanceDFunId ispec
, relevant dfun ] }
where
relevant df = tc_name `elemNameSet` orphNamesOfDFunHead (idType df)
tc_name = tyConName tc
lookupInsts _ = return []
loadUnqualIfaces :: HscEnv -> InteractiveContext -> TcM ()
loadUnqualIfaces hsc_env ictxt
= initIfaceTcRn $ do
mapM_ (loadSysInterface doc) (moduleSetElts (mkModuleSet unqual_mods))
where
this_pkg = thisPackage (hsc_dflags hsc_env)
unqual_mods = filter ((/= this_pkg) . modulePackageId)
[ nameModule name
| gre <- globalRdrEnvElts (ic_rn_gbl_env ictxt),
let name = gre_name gre,
not (isInternalName name),
isTcOcc (nameOccName name),
unQualOK gre ]
doc = ptext (sLit "Need interface for module whose export(s) are in scope unqualified")
\end{code}
%************************************************************************
%* *
Degugging output
%* *
%************************************************************************
\begin{code}
rnDump :: SDoc -> TcRn ()
rnDump doc = do { dumpOptTcRn Opt_D_dump_rn (mkDumpDoc "Renamer" doc) }
tcDump :: TcGblEnv -> TcRn ()
tcDump env
= do { dflags <- getDynFlags ;
when (dopt Opt_D_dump_types dflags || dopt Opt_D_dump_tc dflags)
(dumpTcRn short_dump) ;
dumpOptTcRn Opt_D_dump_tc (mkDumpDoc "Typechecker" full_dump)
}
where
short_dump = pprTcGblEnv env
full_dump = pprLHsBinds (tcg_binds env)
tcCoreDump :: ModGuts -> TcM ()
tcCoreDump mod_guts
= do { dflags <- getDynFlags ;
when (dopt Opt_D_dump_types dflags || dopt Opt_D_dump_tc dflags)
(dumpTcRn (pprModGuts mod_guts)) ;
dumpOptTcRn Opt_D_dump_tc (mkDumpDoc "Typechecker" full_dump) }
where
full_dump = pprCoreBindings (mg_binds mod_guts)
pprTcGblEnv :: TcGblEnv -> SDoc
pprTcGblEnv (TcGblEnv { tcg_type_env = type_env,
tcg_insts = insts,
tcg_fam_insts = fam_insts,
tcg_rules = rules,
tcg_vects = vects,
tcg_imports = imports })
= vcat [ ppr_types insts type_env
, ppr_tycons fam_insts type_env
, ppr_insts insts
, ppr_fam_insts fam_insts
, vcat (map ppr rules)
, vcat (map ppr vects)
, ptext (sLit "Dependent modules:") <+>
ppr (sortBy cmp_mp $ eltsUFM (imp_dep_mods imports))
, ptext (sLit "Dependent packages:") <+>
ppr (sortBy stablePackageIdCmp $ imp_dep_pkgs imports)]
where
cmp_mp (mod_name1, is_boot1) (mod_name2, is_boot2)
= (mod_name1 `stableModuleNameCmp` mod_name2)
`thenCmp`
(is_boot1 `compare` is_boot2)
pprModGuts :: ModGuts -> SDoc
pprModGuts (ModGuts { mg_tcs = tcs
, mg_rules = rules })
= vcat [ ppr_types [] (mkTypeEnv (map ATyCon tcs)),
ppr_rules rules ]
ppr_types :: [ClsInst] -> TypeEnv -> SDoc
ppr_types insts type_env
= text "TYPE SIGNATURES" $$ nest 2 (ppr_sigs ids)
where
dfun_ids = map instanceDFunId insts
ids = [id | id <- typeEnvIds type_env, want_sig id]
want_sig id | opt_PprStyle_Debug = True
| otherwise = isLocalId id &&
isExternalName (idName id) &&
not (id `elem` dfun_ids)
ppr_tycons :: [FamInst] -> TypeEnv -> SDoc
ppr_tycons fam_insts type_env
= vcat [ text "TYPE CONSTRUCTORS"
, nest 2 (ppr_tydecls tycons)
, text "COERCION AXIOMS"
, nest 2 (vcat (map pprCoAxiom (typeEnvCoAxioms type_env))) ]
where
fi_tycons = famInstsRepTyCons fam_insts
tycons = [tycon | tycon <- typeEnvTyCons type_env, want_tycon tycon]
want_tycon tycon | opt_PprStyle_Debug = True
| otherwise = not (isImplicitTyCon tycon) &&
isExternalName (tyConName tycon) &&
not (tycon `elem` fi_tycons)
ppr_insts :: [ClsInst] -> SDoc
ppr_insts [] = empty
ppr_insts ispecs = text "INSTANCES" $$ nest 2 (pprInstances ispecs)
ppr_fam_insts :: [FamInst] -> SDoc
ppr_fam_insts [] = empty
ppr_fam_insts fam_insts =
text "FAMILY INSTANCES" $$ nest 2 (pprFamInsts fam_insts)
ppr_sigs :: [Var] -> SDoc
ppr_sigs ids
= vcat (map ppr_sig (sortBy (comparing getOccName) ids))
where
ppr_sig id = hang (ppr id <+> dcolon) 2 (ppr (tidyTopType (idType id)))
ppr_tydecls :: [TyCon] -> SDoc
ppr_tydecls tycons
= vcat (map ppr_tycon (sortBy (comparing getOccName) tycons))
where
ppr_tycon tycon = vcat [ ppr (tyConName tycon) <+> dcolon <+> ppr (tyConKind tycon)
, ppr (tyThingToIfaceDecl (ATyCon tycon)) ]
ppr_rules :: [CoreRule] -> SDoc
ppr_rules [] = empty
ppr_rules rs = vcat [ptext (sLit "{-# RULES"),
nest 2 (pprRules rs),
ptext (sLit "#-}")]
\end{code}