X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Fcompiler%2Ftypecheck%2FTcModule.lhs;h=110804259a06c0d1436486de33c95750677e14b8;hb=d68887047bcfb9021151f768fe1a22df2d3fbe1e;hp=382984fc8d02218452357949441b90397c7ad8c5;hpb=1bba522f5ec82c43abd2ba4e84127b9c915dd020;p=ghc-hetmet.git diff --git a/ghc/compiler/typecheck/TcModule.lhs b/ghc/compiler/typecheck/TcModule.lhs index 382984f..1108042 100644 --- a/ghc/compiler/typecheck/TcModule.lhs +++ b/ghc/compiler/typecheck/TcModule.lhs @@ -5,228 +5,378 @@ \begin{code} module TcModule ( - typecheckModule, + typecheckModule, typecheckIface, typecheckStmt, typecheckExpr, TcResults(..) ) where #include "HsVersions.h" -import CmdLineOpts ( opt_D_dump_tc, opt_D_dump_types, opt_PprStyle_Debug ) -import HsSyn ( HsModule(..), HsBinds(..), MonoBinds(..), HsDecl(..) ) -import HsTypes ( toHsType ) -import RnHsSyn ( RenamedHsModule ) -import TcHsSyn ( TypecheckedMonoBinds, +import CmdLineOpts ( DynFlag(..), DynFlags, dopt ) +import HsSyn ( HsBinds(..), MonoBinds(..), HsDecl(..), HsExpr(..), + Stmt(..), InPat(..), HsMatchContext(..), RuleDecl(..), + isIfaceRuleDecl, nullBinds, andMonoBindList, mkSimpleMatch + ) +import PrelNames ( SyntaxMap, mAIN_Name, mainName, ioTyConName, printName, + returnIOName, bindIOName, failIOName, + itName + ) +import MkId ( unsafeCoerceId ) +import RnHsSyn ( RenamedHsBinds, RenamedHsDecl, RenamedStmt, + RenamedHsExpr ) +import TcHsSyn ( TypecheckedMonoBinds, TypecheckedHsExpr, TypecheckedForeignDecl, TypecheckedRuleDecl, - zonkTopBinds, zonkForeignExports, zonkRules + zonkTopBinds, zonkForeignExports, zonkRules, mkHsLet, + zonkExpr, zonkIdBndr ) +import MkIface ( pprModDetails ) +import TcExpr ( tcMonoExpr ) import TcMonad +import TcType ( newTyVarTy, zonkTcType, tcInstType ) +import TcMatches ( tcStmtsAndThen ) +import TcUnify ( unifyTauTy ) import Inst ( emptyLIE, plusLIE ) -import TcBinds ( tcTopBindsAndThen ) -import TcClassDcl ( tcClassDecls2, mkImplicitClassBinds ) -import TcDefaults ( tcDefaults ) -import TcEnv ( tcExtendGlobalValEnv, - getEnvTyCons, getEnvClasses, tcLookupValueByKeyMaybe, - tcSetValueEnv, tcSetInstEnv, initEnv, - ValueEnv, +import TcBinds ( tcTopBinds ) +import TcClassDcl ( tcClassDecls2 ) +import TcDefaults ( tcDefaults, defaultDefaultTys ) +import TcEnv ( TcEnv, RecTcEnv, InstInfo(iDFunId), tcExtendGlobalValEnv, tcLookup_maybe, + isLocalThing, tcSetEnv, tcSetInstEnv, initTcEnv, getTcGEnv, + tcExtendGlobalTypeEnv, tcLookupGlobalId, tcLookupTyCon, + TcTyThing(..), tcLookupId ) -import TcRules ( tcRules ) +import TcRules ( tcIfaceRules, tcSourceRules ) import TcForeign ( tcForeignImports, tcForeignExports ) import TcIfaceSig ( tcInterfaceSigs ) import TcInstDcls ( tcInstDecls1, tcInstDecls2 ) -import TcInstUtil ( buildInstanceEnv, InstInfo ) -import TcSimplify ( tcSimplifyTop ) +import TcSimplify ( tcSimplifyTop, tcSimplifyInfer ) import TcTyClsDecls ( tcTyAndClassDecls ) -import TcTyDecls ( mkImplicitDataBinds ) - -import RnMonad ( RnNameSupply, FixityEnv ) -import Bag ( isEmptyBag ) -import ErrUtils ( printErrorsAndWarnings, dumpIfSet ) -import Id ( idType, idName ) -import Module ( pprModuleName, mkThisModule ) -import Name ( nameOccName, isLocallyDefined, isGlobalName, - toRdrName, nameEnvElts, - ) -import OccName ( isSysOcc ) -import TyCon ( TyCon, tyConClass_maybe ) -import Class ( Class ) -import PrelInfo ( mAIN_Name ) -import Unique ( mainKey ) -import UniqSupply ( UniqSupply ) -import Maybes ( maybeToBool ) -import Util -import Bag ( Bag, isEmptyBag ) + +import CoreUnfold ( unfoldingTemplate, hasUnfolding ) +import TysWiredIn ( mkListTy, unitTy ) +import Type +import ErrUtils ( printErrorsAndWarnings, errorsFound, + dumpIfSet_dyn, dumpIfSet_dyn_or, showPass ) +import Id ( Id, idType, idUnfolding ) +import Module ( Module, moduleName ) +import Name ( Name ) +import NameEnv ( nameEnvElts, lookupNameEnv ) +import TyCon ( tyConGenInfo ) +import BasicTypes ( EP(..), Fixity, RecFlag(..) ) +import SrcLoc ( noSrcLoc ) import Outputable +import IO ( stdout ) +import HscTypes ( PersistentCompilerState(..), HomeSymbolTable, + PackageTypeEnv, ModIface(..), + ModDetails(..), DFunId, + TypeEnv, extendTypeEnvList, + TyThing(..), implicitTyThingIds, + mkTypeEnv + ) +import VarSet \end{code} -Outside-world interface: + +%************************************************************************ +%* * +\subsection{The stmt interface} +%* * +%************************************************************************ + \begin{code} +typecheckStmt + :: DynFlags + -> PersistentCompilerState + -> HomeSymbolTable + -> TypeEnv -- The interactive context's type envt + -> PrintUnqualified -- For error printing + -> Module -- Is this really needed + -> [Name] -- Names bound by the Stmt (empty for expressions) + -> (SyntaxMap, + RenamedStmt, -- The stmt itself + [RenamedHsDecl]) -- Plus extra decls it sucked in from interface files + -> IO (Maybe (PersistentCompilerState, + TypecheckedHsExpr, + [Id], + Type)) + -- The returned [Id] is the same as the input except for + -- ExprStmt, in which case the returned [Name] is [itName] + +typecheckStmt dflags pcs hst ic_type_env unqual this_mod names (syn_map, stmt, iface_decls) + = typecheck dflags syn_map pcs hst unqual $ + + -- use the default default settings, i.e. [Integer, Double] + tcSetDefaultTys defaultDefaultTys $ + + -- Typecheck the extra declarations + fixTc (\ ~(unf_env, _, _, _, _) -> + tcImports unf_env pcs hst get_fixity this_mod iface_decls + ) `thenTc` \ (env, new_pcs, local_inst_info, deriv_binds, local_rules) -> + ASSERT( null local_inst_info && nullBinds deriv_binds && null local_rules ) + + tcSetEnv env $ + tcExtendGlobalTypeEnv ic_type_env $ + + -- The real work is done here + tcUserStmt names stmt `thenTc` \ (expr, bound_ids) -> + + traceTc (text "tcs 1") `thenNF_Tc_` + zonkExpr expr `thenNF_Tc` \ zonked_expr -> + mapNF_Tc zonkIdBndr bound_ids `thenNF_Tc` \ zonked_ids -> + + ioToTc (dumpIfSet_dyn dflags Opt_D_dump_tc "Bound Ids" (vcat (map ppr zonked_ids))) `thenNF_Tc_` + ioToTc (dumpIfSet_dyn dflags Opt_D_dump_tc "Typechecked" (ppr zonked_expr)) `thenNF_Tc_` + + returnTc (new_pcs, zonked_expr, zonked_ids, error "typecheckStmt: no type") + + where + get_fixity :: Name -> Maybe Fixity + get_fixity n = pprPanic "typecheckStmt" (ppr n) +\end{code} + +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 >>= \ v -> return [v] + [NB: result not printed] bindings: [it] + + + expr (of non-IO type, + result showable) ==> let v = expr in print v >> return [v] + bindings: [it] + + expr (of non-IO type, + result not showable) ==> error + + +\begin{code} +tcUserStmt :: [Name] -> RenamedStmt -> TcM (TypecheckedHsExpr, [Id]) + +tcUserStmt names (ExprStmt expr loc) + = ASSERT( null names ) + tcGetUnique `thenNF_Tc` \ uniq -> + let + fresh_it = itName uniq + the_bind = FunMonoBind fresh_it False + [ mkSimpleMatch [] expr Nothing loc ] loc + in + tryTc_ (traceTc (text "tcs 1b") `thenNF_Tc_` + tc_stmts [fresh_it] [ + LetStmt (MonoBind the_bind [] NonRecursive), + ExprStmt (HsApp (HsVar printName) (HsVar fresh_it)) loc]) + ( traceTc (text "tcs 1a") `thenNF_Tc_` + tc_stmts [fresh_it] [BindStmt (VarPatIn fresh_it) expr loc]) + +tcUserStmt names stmt + = tc_stmts names [stmt] + + +tc_stmts names stmts + = tcLookupGlobalId returnIOName `thenNF_Tc` \ return_id -> + tcLookupGlobalId bindIOName `thenNF_Tc` \ bind_id -> + tcLookupGlobalId failIOName `thenNF_Tc` \ fail_id -> + tcLookupTyCon ioTyConName `thenNF_Tc` \ ioTyCon -> + newTyVarTy liftedTypeKind `thenNF_Tc` \ res_ty -> + let + io_ty = (\ ty -> mkTyConApp ioTyCon [ty], res_ty) + + -- mk_return builds the expression + -- returnIO @ [()] [coerce () x, .., coerce () z] + mk_return ids = HsApp (TyApp (HsVar return_id) [mkListTy unitTy]) + (ExplicitListOut unitTy (map mk_item ids)) + + mk_item id = HsApp (TyApp (HsVar unsafeCoerceId) [idType id, unitTy]) + (HsVar id) + in + + traceTc (text "tcs 2") `thenNF_Tc_` + tcStmtsAndThen combine DoExpr io_ty stmts ( + -- Look up the names right in the middle, + -- where they will all be in scope + mapNF_Tc tcLookupId names `thenNF_Tc` \ ids -> + returnTc ((ids, [ExprStmt (mk_return ids) noSrcLoc]), emptyLIE) + ) `thenTc` \ ((ids, tc_stmts), lie) -> + + -- Simplify the context right here, so that we fail + -- if there aren't enough instances. Notably, when we see + -- e + -- we use tryTc_ to try it <- e + -- and then let it = e + -- It's the simplify step that rejects the first. + + traceTc (text "tcs 3") `thenNF_Tc_` + tcSimplifyTop lie `thenTc` \ const_binds -> + traceTc (text "tcs 4") `thenNF_Tc_` + + returnTc (mkHsLet const_binds $ + HsDoOut DoExpr tc_stmts return_id bind_id fail_id + (mkTyConApp ioTyCon [mkListTy unitTy]) noSrcLoc, + ids) + where + combine stmt (ids, stmts) = (ids, stmt:stmts) +\end{code} + +%************************************************************************ +%* * +\subsection{Typechecking an expression} +%* * +%************************************************************************ + +\begin{code} +typecheckExpr :: DynFlags + -> PersistentCompilerState + -> HomeSymbolTable + -> TypeEnv -- The interactive context's type envt + -> PrintUnqualified -- For error printing + -> Module + -> (SyntaxMap, + RenamedHsExpr, -- The expression itself + [RenamedHsDecl]) -- Plus extra decls it sucked in from interface files + -> IO (Maybe (PersistentCompilerState, + TypecheckedHsExpr, + [Id], -- always empty (matches typecheckStmt) + Type)) + +typecheckExpr dflags pcs hst ic_type_env unqual this_mod (syn_map, expr, decls) + = typecheck dflags syn_map pcs hst unqual $ + + -- use the default default settings, i.e. [Integer, Double] + tcSetDefaultTys defaultDefaultTys $ + + -- Typecheck the extra declarations + fixTc (\ ~(unf_env, _, _, _, _) -> + tcImports unf_env pcs hst get_fixity this_mod decls + ) `thenTc` \ (env, new_pcs, local_inst_info, deriv_binds, local_rules) -> + ASSERT( null local_inst_info && nullBinds deriv_binds && null local_rules ) + + -- Now typecheck the expression + tcSetEnv env $ + tcExtendGlobalTypeEnv ic_type_env $ + + newTyVarTy openTypeKind `thenTc` \ ty -> + tcMonoExpr expr ty `thenTc` \ (e', lie) -> + tcSimplifyInfer smpl_doc (varSetElems (tyVarsOfType ty)) lie + `thenTc` \ (qtvs, lie_free, dict_binds, dict_ids) -> + tcSimplifyTop lie_free `thenTc` \ const_binds -> + + let all_expr = mkHsLet const_binds $ + TyLam qtvs $ + DictLam dict_ids $ + mkHsLet dict_binds $ + e' + + all_expr_ty = mkForAllTys qtvs $ + mkFunTys (map idType dict_ids) $ + ty + in + + zonkExpr all_expr `thenNF_Tc` \ zonked_expr -> + zonkTcType all_expr_ty `thenNF_Tc` \ zonked_ty -> + ioToTc (dumpIfSet_dyn dflags + Opt_D_dump_tc "Typechecked" (ppr zonked_expr)) `thenNF_Tc_` + returnTc (new_pcs, zonked_expr, [], zonked_ty) + + where + get_fixity :: Name -> Maybe Fixity + get_fixity n = pprPanic "typecheckExpr" (ppr n) + + smpl_doc = ptext SLIT("main expression") +\end{code} + +%************************************************************************ +%* * +\subsection{Typechecking a module} +%* * +%************************************************************************ + +\begin{code} +typecheckModule + :: DynFlags + -> PersistentCompilerState + -> HomeSymbolTable + -> ModIface -- Iface for this module + -> PrintUnqualified -- For error printing + -> (SyntaxMap, [RenamedHsDecl]) + -> IO (Maybe (PersistentCompilerState, TcResults)) + -- The new PCS is Augmented with imported information, + -- (but not stuff from this module) --- Convenient type synonyms first: data TcResults = TcResults { - tc_binds :: TypecheckedMonoBinds, - tc_tycons :: [TyCon], - tc_classes :: [Class], - tc_insts :: Bag InstInfo, -- Instance declaration information - tc_fords :: [TypecheckedForeignDecl], -- Foreign import & exports. + -- All these fields have info *just for this module* + tc_env :: TypeEnv, -- The top level TypeEnv + tc_insts :: [DFunId], -- Instances tc_rules :: [TypecheckedRuleDecl], -- Transformation rules - tc_env :: ValueEnv + tc_binds :: TypecheckedMonoBinds, -- Bindings + tc_fords :: [TypecheckedForeignDecl] -- Foreign import & exports. } ---------------- -typecheckModule - :: UniqSupply - -> RnNameSupply - -> FixityEnv - -> RenamedHsModule - -> IO (Maybe TcResults) - -typecheckModule us rn_name_supply fixity_env mod - = initTc us initEnv (tcModule rn_name_supply fixity_env mod) >>= \ (maybe_result, warns, errs) -> - - printErrorsAndWarnings errs warns >> - - (case maybe_result of - Nothing -> return () - Just results -> dumpIfSet opt_D_dump_types "Type signatures" (dump_sigs results) >> - dumpIfSet opt_D_dump_tc "Typechecked" (dump_tc results) - ) >> - - return (if isEmptyBag errs then - maybe_result - else - Nothing) - -dump_tc results - = ppr (tc_binds results) $$ pp_rules (tc_rules results) - -dump_sigs results -- Print type signatures - = -- Convert to HsType so that we get source-language style printing - -- And sort by RdrName - vcat $ map ppr_sig $ sortLt lt_sig $ - [(toRdrName id, toHsType (idType id)) | id <- nameEnvElts (tc_env results), - want_sig id - ] + +typecheckModule dflags pcs hst mod_iface unqual (syn_map, decls) + = do { maybe_tc_result <- typecheck dflags syn_map pcs hst unqual $ + tcModule pcs hst get_fixity this_mod decls + ; printTcDump dflags unqual maybe_tc_result + ; return maybe_tc_result } where - lt_sig (n1,_) (n2,_) = n1 < n2 - ppr_sig (n,t) = ppr n <+> dcolon <+> ppr t - - want_sig id | opt_PprStyle_Debug = True - | otherwise = isLocallyDefined n && - isGlobalName n && - not (isSysOcc (nameOccName n)) - where - n = idName id - -pp_rules [] = empty -pp_rules rs = vcat [ptext SLIT("{-# RULES"), - nest 4 (vcat (map ppr rs)), - ptext SLIT("#-}")] -\end{code} + this_mod = mi_module mod_iface + fixity_env = mi_fixities mod_iface -The internal monster: -\begin{code} -tcModule :: RnNameSupply -- for renaming derivings - -> FixityEnv -- needed for Show/Read derivings. - -> RenamedHsModule -- input - -> TcM s TcResults -- output - -tcModule rn_name_supply fixities - (HsModule mod_name _ _ _ decls _ src_loc) - = tcAddSrcLoc src_loc $ -- record where we're starting - - fixTc (\ ~(unf_env ,_) -> - -- unf_env is used for type-checking interface pragmas - -- which is done lazily [ie failure just drops the pragma - -- without having any global-failure effect]. - -- - -- unf_env is also used to get the pragam info - -- for imported dfuns and default methods - - -- Type-check the type and class decls - tcTyAndClassDecls unf_env decls `thenTc` \ env -> - - -- Typecheck the instance decls, includes deriving - tcSetEnv env $ + get_fixity :: Name -> Maybe Fixity + get_fixity nm = lookupNameEnv fixity_env nm - tcInstDecls1 unf_env decls - (mkThisModule mod_name) - fixities rn_name_supply `thenTc` \ (inst_info, deriv_binds) -> - - buildInstanceEnv inst_info `thenNF_Tc` \ inst_env -> - - tcSetInstEnv inst_env $ - let - classes = getEnvClasses env - tycons = getEnvTyCons env -- INCLUDES tycons derived from classes - local_classes = filter isLocallyDefined classes - local_tycons = [ tc | tc <- tycons, - isLocallyDefined tc, - Nothing <- [tyConClass_maybe tc] - ] - -- For local_tycons, filter out the ones derived from classes - -- Otherwise the latter show up in interface files - in - - -- Default declarations - tcDefaults decls `thenTc` \ defaulting_tys -> - tcSetDefaultTys defaulting_tys $ - - -- Interface type signatures - -- We tie a knot so that the Ids read out of interfaces are in scope - -- when we read their pragmas. - -- What we rely on is that pragmas are typechecked lazily; if - -- any type errors are found (ie there's an inconsistency) - -- we silently discard the pragma - -- We must do this before mkImplicitDataBinds (which comes next), since - -- the latter looks up unpackCStringId, for example, which is usually - -- imported - tcInterfaceSigs unf_env decls `thenTc` \ sig_ids -> - tcExtendGlobalValEnv sig_ids $ - - -- Create any necessary record selector Ids and their bindings - -- "Necessary" includes data and newtype declarations - -- We don't create bindings for dictionary constructors; - -- they are always fully applied, and the bindings are just there - -- to support partial applications - mkImplicitDataBinds tycons `thenTc` \ (data_ids, imp_data_binds) -> - mkImplicitClassBinds classes `thenNF_Tc` \ (cls_ids, imp_cls_binds) -> - - -- Extend the global value environment with - -- (a) constructors - -- (b) record selectors - -- (c) class op selectors - -- (d) default-method ids... where? I can't see where these are - -- put into the envt, and I'm worried that the zonking phase - -- will find they aren't there and complain. - tcExtendGlobalValEnv data_ids $ - tcExtendGlobalValEnv cls_ids $ - - -- foreign import declarations next. - tcForeignImports decls `thenTc` \ (fo_ids, foi_decls) -> - tcExtendGlobalValEnv fo_ids $ - -- Value declarations next. - -- We also typecheck any extra binds that came out of the "deriving" process - tcTopBindsAndThen - (\ is_rec binds1 (binds2, thing) -> (binds1 `AndMonoBinds` binds2, thing)) - (get_val_decls decls `ThenBinds` deriv_binds) - ( tcGetEnv `thenNF_Tc` \ env -> - tcGetUnique `thenNF_Tc` \ uniq -> - returnTc ((EmptyMonoBinds, env), emptyLIE) - ) `thenTc` \ ((val_binds, final_env), lie_valdecls) -> - tcSetEnv final_env $ +tcModule :: PersistentCompilerState + -> HomeSymbolTable + -> (Name -> Maybe Fixity) + -> Module + -> [RenamedHsDecl] + -> TcM (PersistentCompilerState, TcResults) - -- foreign export declarations next. - tcForeignExports decls `thenTc` \ (lie_fodecls, foe_binds, foe_decls) -> +tcModule pcs hst get_fixity this_mod decls + = fixTc (\ ~(unf_env, _, _) -> + -- Loop back the final environment, including the fully zonkec + -- versions of bindings from this module. In the presence of mutual + -- recursion, interface type signatures may mention variables defined + -- in this module, which is why the knot is so big - -- Second pass over class and instance declarations, - -- to compile the bindings themselves. - tcInstDecls2 inst_info `thenNF_Tc` \ (lie_instdecls, inst_binds) -> - tcClassDecls2 decls `thenNF_Tc` \ (lie_clasdecls, cls_dm_binds) -> - tcRules decls `thenNF_Tc` \ (lie_rules, rules) -> + -- Type-check the type and class decls, and all imported decls + tcImports unf_env pcs hst get_fixity this_mod decls + `thenTc` \ (env, new_pcs, local_insts, deriv_binds, local_rules) -> + tcSetEnv env $ + + -- Foreign import declarations next + traceTc (text "Tc4") `thenNF_Tc_` + tcForeignImports decls `thenTc` \ (fo_ids, foi_decls) -> + tcExtendGlobalValEnv fo_ids $ + + -- Default declarations + tcDefaults decls `thenTc` \ defaulting_tys -> + tcSetDefaultTys defaulting_tys $ + + -- Value declarations next. + -- We also typecheck any extra binds that came out of the "deriving" process + traceTc (text "Default types" <+> ppr defaulting_tys) `thenNF_Tc_` + traceTc (text "Tc5") `thenNF_Tc_` + tcTopBinds (val_binds `ThenBinds` deriv_binds) `thenTc` \ ((val_binds, env), lie_valdecls) -> + + -- Second pass over class and instance declarations, + -- plus rules and foreign exports, to generate bindings + tcSetEnv env $ + tcInstDecls2 local_insts `thenNF_Tc` \ (lie_instdecls, inst_binds) -> + tcClassDecls2 this_mod tycl_decls `thenNF_Tc` \ (lie_clasdecls, cls_dm_binds) -> + tcForeignExports decls `thenTc` \ (lie_fodecls, foe_binds, foe_decls) -> + tcSourceRules source_rules `thenNF_Tc` \ (lie_rules, more_local_rules) -> + + -- CHECK THAT main IS DEFINED WITH RIGHT TYPE, IF REQUIRED + traceTc (text "Tc6") `thenNF_Tc_` + tcCheckMain this_mod `thenTc_` -- Deal with constant or ambiguous InstIds. How could -- there be ambiguous ones? They can only arise if a @@ -234,60 +384,346 @@ tcModule rn_name_supply fixities -- restriction, and no subsequent decl instantiates its -- type. (Usually, ambiguous type variables are resolved -- during the generalisation step.) + -- + -- Note that we must do this *after* tcCheckMain, because of the + -- following bizarre case: + -- main = return () + -- Here, we infer main :: forall a. m a, where m is a free + -- type variable. tcCheckMain will unify it with IO, and that + -- must happen before tcSimplifyTop, since the latter will report + -- m as ambiguous let - lie_alldecls = lie_valdecls `plusLIE` + lie_alldecls = lie_valdecls `plusLIE` lie_instdecls `plusLIE` lie_clasdecls `plusLIE` lie_fodecls `plusLIE` lie_rules in - tcSimplifyTop lie_alldecls `thenTc` \ const_inst_binds -> - - -- Check that Main defines main - (if mod_name == mAIN_Name then - tcLookupValueByKeyMaybe mainKey `thenNF_Tc` \ maybe_main -> - checkTc (maybeToBool maybe_main) noMainErr - else - returnTc () - ) `thenTc_` - + tcSimplifyTop lie_alldecls `thenTc` \ const_inst_binds -> + -- Backsubstitution. This must be done last. -- Even tcSimplifyTop may do some unification. let - all_binds = imp_data_binds `AndMonoBinds` - imp_cls_binds `AndMonoBinds` - val_binds `AndMonoBinds` - inst_binds `AndMonoBinds` - cls_dm_binds `AndMonoBinds` - const_inst_binds `AndMonoBinds` - foe_binds + all_binds = val_binds `AndMonoBinds` + inst_binds `AndMonoBinds` + cls_dm_binds `AndMonoBinds` + const_inst_binds `AndMonoBinds` + foe_binds in - zonkTopBinds all_binds `thenNF_Tc` \ (all_binds', really_final_env) -> - tcSetValueEnv really_final_env $ - zonkForeignExports foe_decls `thenNF_Tc` \ foe_decls' -> - zonkRules rules `thenNF_Tc` \ rules' -> - - returnTc (really_final_env, - (TcResults { tc_binds = all_binds', - tc_tycons = local_tycons, - tc_classes = local_classes, - tc_insts = inst_info, - tc_fords = foi_decls ++ foe_decls', - tc_rules = rules', - tc_env = really_final_env - })) - - -- End of outer fix loop - ) `thenTc` \ (final_env, stuff) -> - returnTc stuff - -get_val_decls decls = foldr ThenBinds EmptyBinds [binds | ValD binds <- decls] + traceTc (text "Tc7") `thenNF_Tc_` + zonkTopBinds all_binds `thenNF_Tc` \ (all_binds', final_env) -> + tcSetEnv final_env $ + -- zonkTopBinds puts all the top-level Ids into the tcGEnv + traceTc (text "Tc8") `thenNF_Tc_` + zonkForeignExports foe_decls `thenNF_Tc` \ foe_decls' -> + traceTc (text "Tc9") `thenNF_Tc_` + zonkRules more_local_rules `thenNF_Tc` \ more_local_rules' -> + + + let local_things = filter (isLocalThing this_mod) (nameEnvElts (getTcGEnv final_env)) + + -- Create any necessary "implicit" bindings (data constructors etc) + -- Should we create bindings for dictionary constructors? + -- They are always fully applied, and the bindings are just there + -- to support partial applications. But it's easier to let them through. + implicit_binds = andMonoBindList [ CoreMonoBind id (unfoldingTemplate unf) + | id <- implicitTyThingIds local_things + , let unf = idUnfolding id + , hasUnfolding unf + ] + + local_type_env :: TypeEnv + local_type_env = mkTypeEnv local_things + + all_local_rules = local_rules ++ more_local_rules' + in + traceTc (text "Tc10") `thenNF_Tc_` + returnTc (final_env, + new_pcs, + TcResults { tc_env = local_type_env, + tc_insts = map iDFunId local_insts, + tc_binds = implicit_binds `AndMonoBinds` all_binds', + tc_fords = foi_decls ++ foe_decls', + tc_rules = all_local_rules + } + ) + ) `thenTc` \ (_, pcs, tc_result) -> + returnTc (pcs, tc_result) + where + tycl_decls = [d | TyClD d <- decls] + val_binds = foldr ThenBinds EmptyBinds [binds | ValD binds <- decls] + source_rules = [d | RuleD d <- decls, not (isIfaceRuleDecl d)] +\end{code} + + +%************************************************************************ +%* * +\subsection{Typechecking interface decls} +%* * +%************************************************************************ + +\begin{code} +typecheckIface + :: DynFlags + -> PersistentCompilerState + -> HomeSymbolTable + -> ModIface -- Iface for this module (just module & fixities) + -> (SyntaxMap, [RenamedHsDecl]) + -> IO (Maybe (PersistentCompilerState, ModDetails)) + -- The new PCS is Augmented with imported information, + -- (but not stuff from this module). + +typecheckIface dflags pcs hst mod_iface (syn_map, decls) + = do { maybe_tc_stuff <- typecheck dflags syn_map pcs hst alwaysQualify $ + tcIfaceImports pcs hst get_fixity this_mod decls + ; printIfaceDump dflags maybe_tc_stuff + ; return maybe_tc_stuff } + where + this_mod = mi_module mod_iface + fixity_env = mi_fixities mod_iface + + get_fixity :: Name -> Maybe Fixity + get_fixity nm = lookupNameEnv fixity_env nm + + tcIfaceImports pcs hst get_fixity this_mod decls + = fixTc (\ ~(unf_env, _, _, _, _) -> + tcImports unf_env pcs hst get_fixity this_mod decls + ) `thenTc` \ (env, new_pcs, local_inst_info, + deriv_binds, local_rules) -> + ASSERT(nullBinds deriv_binds) + let + local_things = filter (isLocalThing this_mod) (nameEnvElts (getTcGEnv env)) + + mod_details = ModDetails { md_types = mkTypeEnv local_things, + md_insts = map iDFunId local_inst_info, + md_rules = [(id,rule) | IfaceRuleOut id rule <- local_rules], + md_binds = [] } + -- All the rules from an interface are of the IfaceRuleOut form + in + returnTc (new_pcs, mod_details) + +tcImports :: RecTcEnv + -> PersistentCompilerState + -> HomeSymbolTable + -> (Name -> Maybe Fixity) + -> Module + -> [RenamedHsDecl] + -> TcM (TcEnv, PersistentCompilerState, [InstInfo], + RenamedHsBinds, [TypecheckedRuleDecl]) + +-- tcImports is a slight mis-nomer. +-- It deals with everything that could be an import: +-- type and class decls +-- interface signatures (checked lazily) +-- instance decls +-- rule decls +-- These can occur in source code too, of course + +tcImports unf_env pcs hst get_fixity this_mod decls + -- (unf_env :: RecTcEnv) is used for type-checking interface pragmas + -- which is done lazily [ie failure just drops the pragma + -- without having any global-failure effect]. + -- + -- unf_env is also used to get the pragama info + -- for imported dfuns and default methods + + = checkNoErrsTc $ + -- tcImports recovers internally, but if anything gave rise to + -- an error we'd better stop now, to avoid a cascade + + traceTc (text "Tc1") `thenNF_Tc_` + tcTyAndClassDecls unf_env tycl_decls `thenTc` \ env -> + tcSetEnv env $ + + -- Typecheck the instance decls, includes deriving + traceTc (text "Tc2") `thenNF_Tc_` + tcInstDecls1 (pcs_insts pcs) (pcs_PRS pcs) + hst unf_env get_fixity this_mod + decls `thenTc` \ (new_pcs_insts, inst_env, local_insts, deriv_binds) -> + tcSetInstEnv inst_env $ + + -- Interface type signatures + -- We tie a knot so that the Ids read out of interfaces are in scope + -- when we read their pragmas. + -- What we rely on is that pragmas are typechecked lazily; if + -- any type errors are found (ie there's an inconsistency) + -- we silently discard the pragma + traceTc (text "Tc3") `thenNF_Tc_` + tcInterfaceSigs unf_env this_mod tycl_decls `thenTc` \ sig_ids -> + tcExtendGlobalValEnv sig_ids $ + + + tcIfaceRules (pcs_rules pcs) this_mod iface_rules `thenNF_Tc` \ (new_pcs_rules, local_rules) -> + -- When relinking this module from its interface-file decls + -- we'll have IfaceRules that are in fact local to this module + -- That's the reason we we get any local_rules out here + + tcGetEnv `thenTc` \ unf_env -> + let + all_things = nameEnvElts (getTcGEnv unf_env) + + -- sometimes we're compiling in the context of a package module + -- (on the GHCi command line, for example). In this case, we + -- want to treat everything we pulled in as an imported thing. + imported_things + = filter (not . isLocalThing this_mod) all_things + + new_pte :: PackageTypeEnv + new_pte = extendTypeEnvList (pcs_PTE pcs) imported_things + + new_pcs :: PersistentCompilerState + new_pcs = pcs { pcs_PTE = new_pte, + pcs_insts = new_pcs_insts, + pcs_rules = new_pcs_rules + } + in + returnTc (unf_env, new_pcs, local_insts, deriv_binds, local_rules) + where + tycl_decls = [d | TyClD d <- decls] + iface_rules = [d | RuleD d <- decls, isIfaceRuleDecl d] +\end{code} + + +%************************************************************************ +%* * +\subsection{Checking the type of main} +%* * +%************************************************************************ + +We must check that in module Main, + a) main is defined + b) main :: forall a1...an. IO t, for some type t + +If we have + main = error "Urk" +then the type of main will be + main :: forall a. a +and that should pass the test too. + +So we just instantiate the type and unify with IO t, and declare +victory if doing so succeeds. + +\begin{code} +tcCheckMain :: Module -> TcM () +tcCheckMain this_mod + | not (moduleName this_mod == mAIN_Name ) + = returnTc () + + | otherwise + = -- First unify the main_id with IO t, for any old t + tcLookup_maybe mainName `thenNF_Tc` \ maybe_thing -> + case maybe_thing of + Just (ATcId main_id) -> check_main_ty (idType main_id) + other -> addErrTc noMainErr + where + check_main_ty main_ty + = tcInstType main_ty `thenNF_Tc` \ (tvs, theta, main_tau) -> + newTyVarTy liftedTypeKind `thenNF_Tc` \ arg_ty -> + tcLookupTyCon ioTyConName `thenNF_Tc` \ ioTyCon -> + tcAddErrCtxtM (mainTypeCtxt main_ty) $ + if not (null theta) then + failWithTc empty -- Context has the error message + else + unifyTauTy main_tau (mkTyConApp ioTyCon [arg_ty]) + +mainTypeCtxt main_ty tidy_env + = zonkTcType main_ty `thenNF_Tc` \ main_ty' -> + returnNF_Tc (tidy_env, ptext SLIT("`main' has the illegal type") <+> + quotes (ppr (tidyType tidy_env main_ty'))) + +noMainErr = hsep [ptext SLIT("Module") <+> quotes (ppr mAIN_Name), + ptext SLIT("must include a definition for") <+> quotes (ptext SLIT("main"))] \end{code} +%************************************************************************ +%* * +\subsection{Interfacing the Tc monad to the IO monad} +%* * +%************************************************************************ + \begin{code} -noMainErr - = hsep [ptext SLIT("Module"), quotes (pprModuleName mAIN_Name), - ptext SLIT("must include a definition for"), quotes (ptext SLIT("main"))] +typecheck :: DynFlags + -> SyntaxMap + -> PersistentCompilerState + -> HomeSymbolTable + -> PrintUnqualified -- For error printing + -> TcM r + -> IO (Maybe r) + +typecheck dflags syn_map pcs hst unqual thing_inside + = do { showPass dflags "Typechecker"; + ; env <- initTcEnv syn_map hst (pcs_PTE pcs) + + ; (maybe_tc_result, errs) <- initTc dflags env thing_inside + + ; printErrorsAndWarnings unqual errs + + ; if errorsFound errs then + return Nothing + else + return maybe_tc_result + } \end{code} + +%************************************************************************ +%* * +\subsection{Dumping output} +%* * +%************************************************************************ + +\begin{code} +printTcDump dflags unqual Nothing = return () +printTcDump dflags unqual (Just (_, results)) + = do if dopt Opt_D_dump_types dflags || dopt Opt_D_dump_tc dflags then + printForUser stdout unqual (dump_tc_iface dflags results) + else return () + + dumpIfSet_dyn dflags Opt_D_dump_tc + "Typechecked" (ppr (tc_binds results)) + + +printIfaceDump dflags Nothing = return () +printIfaceDump dflags (Just (_, details)) + = dumpIfSet_dyn_or dflags [Opt_D_dump_types, Opt_D_dump_tc] + "Interface" (pprModDetails details) + +dump_tc_iface dflags results + = vcat [pprModDetails (ModDetails {md_types = tc_env results, + md_insts = tc_insts results, + md_rules = [], md_binds = []}) , + ppr_rules (tc_rules results), + + if dopt Opt_Generics dflags then + ppr_gen_tycons [tc | ATyCon tc <- nameEnvElts (tc_env results)] + else + empty + ] + +ppr_rules [] = empty +ppr_rules rs = vcat [ptext SLIT("{-# RULES"), + nest 4 (vcat (map ppr rs)), + ptext SLIT("#-}")] + +ppr_gen_tycons tcs = vcat [ptext SLIT("{-# Generic type constructor details"), + vcat (map ppr_gen_tycon tcs), + ptext SLIT("#-}") + ] + +-- x&y are now Id's, not CoreExpr's +ppr_gen_tycon tycon + | Just ep <- tyConGenInfo tycon + = (ppr tycon <> colon) $$ nest 4 (ppr_ep ep) + + | otherwise = ppr tycon <> colon <+> ptext SLIT("Not derivable") + +ppr_ep (EP from to) + = vcat [ ptext SLIT("Rep type:") <+> ppr (funResultTy from_tau), + ptext SLIT("From:") <+> ppr (unfoldingTemplate (idUnfolding from)), + ptext SLIT("To:") <+> ppr (unfoldingTemplate (idUnfolding to)) + ] + where + (_,from_tau) = splitForAllTys (idType from) + +\end{code}