X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Fcompiler%2Ftypecheck%2FTcTyClsDecls.lhs;h=5101ab316405fe829a1947ec2c8270f3ea5b10a3;hb=0171936c9092666692c69a7f93fa75af976330cb;hp=7952aca9bc29a12278556ed032af5130e2b5eb53;hpb=4a91d102be99778efcab80211ca5de3f2cf6619a;p=ghc-hetmet.git diff --git a/ghc/compiler/typecheck/TcTyClsDecls.lhs b/ghc/compiler/typecheck/TcTyClsDecls.lhs index 7952aca..5101ab3 100644 --- a/ghc/compiler/typecheck/TcTyClsDecls.lhs +++ b/ghc/compiler/typecheck/TcTyClsDecls.lhs @@ -10,46 +10,49 @@ module TcTyClsDecls ( #include "HsVersions.h" -import HsSyn ( HsDecl(..), TyClDecl(..), - HsType(..), HsTyVarBndr, - ConDecl(..), ConDetails(..), - Sig(..), HsPred(..), HsTupCon(..), - tyClDeclName, hsTyVarNames, isClassDecl, isSynDecl, isClassOpSig, getBangType +import CmdLineOpts ( DynFlags, DynFlag(..), dopt ) +import HsSyn ( TyClDecl(..), + ConDecl(..), Sig(..), HsPred(..), + tyClDeclName, hsTyVarNames, tyClDeclTyVars, + isIfaceSigDecl, isClassDecl, isSynDecl, isClassOpSig ) -import RnHsSyn ( RenamedHsDecl, RenamedTyClDecl, listTyCon_name ) +import RnHsSyn ( RenamedTyClDecl, tyClDeclFVs ) import BasicTypes ( RecFlag(..), NewOrData(..) ) +import HscTypes ( implicitTyThingIds ) +import Module ( Module ) import TcMonad -import TcEnv ( TcEnv, TyThing(..), TyThingDetails(..), - tcExtendKindEnv, tcLookupGlobal, tcExtendGlobalEnv ) -import TcTyDecls ( tcTyDecl1, kcConDetails, mkNewTyConRep ) -import TcClassDcl ( tcClassDecl1 ) -import TcMonoType ( kcHsTyVars, kcHsType, kcHsBoxedSigType, kcHsContext, mkTyClTyVars ) -import TcType ( TcKind, newKindVar, zonkKindEnv ) - -import TcUnify ( unifyKind ) +import TcEnv ( TcEnv, RecTcEnv, TcTyThing(..), TyThing(..), TyThingDetails(..), + tcExtendKindEnv, tcLookup, tcExtendGlobalEnv, + isLocalThing ) +import TcTyDecls ( tcTyDecl, kcConDetails, checkValidTyCon ) +import TcClassDcl ( tcClassDecl1, checkValidClass ) import TcInstDcls ( tcAddDeclCtxt ) -import Type ( Kind, mkArrowKind, boxedTypeKind, zipFunTys ) +import TcMonoType ( kcHsTyVars, kcHsType, kcHsLiftedSigType, kcHsContext, mkTyClTyVars ) +import TcMType ( newKindVar, zonkKindEnv ) +import TcUnify ( unifyKind ) +import TcType ( Type, Kind, TcKind, mkArrowKind, liftedTypeKind, zipFunTys ) +import Type ( splitTyConApp_maybe ) import Variance ( calcTyConArgVrcs ) import Class ( Class, mkClass, classTyCon ) -import TyCon ( TyCon, tyConKind, ArgVrcs, AlgTyConFlavour(..), - mkSynTyCon, mkAlgTyConRep, mkClassTyCon ) -import DataCon ( isNullaryDataCon ) +import TyCon ( TyCon, ArgVrcs, AlgTyConFlavour(..), DataConDetails(..), visibleDataCons, + tyConKind, tyConTyVars, tyConDataCons, isNewTyCon, + mkSynTyCon, mkAlgTyCon, mkClassTyCon, mkForeignTyCon, + ) +import TysWiredIn ( unitTy ) +import Subst ( substTyWith ) +import DataCon ( dataConOrigArgTys ) import Var ( varName ) import FiniteMap import Digraph ( stronglyConnComp, SCC(..) ) -import Name ( Name, NamedThing(..), NameEnv, getSrcLoc, isTvOcc, nameOccName, - mkNameEnv, lookupNameEnv_NF - ) +import Name ( Name, getSrcLoc, isTyVarName ) +import NameEnv +import NameSet import Outputable -import Maybes ( mapMaybe, catMaybes ) -import UniqSet ( emptyUniqSet, unitUniqSet, unionUniqSets, - unionManyUniqSets, uniqSetToList ) +import Maybes ( mapMaybe ) import ErrUtils ( Message ) -import Unique ( Unique, Uniquable(..) ) import HsDecls ( getClassDeclSysNames ) import Generics ( mkTyConGenInfo ) -import CmdLineOpts ( DynFlags ) \end{code} @@ -62,22 +65,25 @@ import CmdLineOpts ( DynFlags ) The main function ~~~~~~~~~~~~~~~~~ \begin{code} -tcTyAndClassDecls :: TcEnv -- Knot tying stuff - -> [RenamedHsDecl] - -> TcM TcEnv +tcTyAndClassDecls :: RecTcEnv -- Knot tying stuff + -> Module -- Current module + -> [RenamedTyClDecl] + -> TcM [TyThing] -- Returns newly defined things: + -- types, classes and implicit Ids -tcTyAndClassDecls unf_env decls +tcTyAndClassDecls unf_env this_mod decls = sortByDependency decls `thenTc` \ groups -> - tcGroups unf_env groups + tcGroups unf_env this_mod groups -tcGroups unf_env [] +tcGroups unf_env this_mod [] = tcGetEnv `thenNF_Tc` \ env -> - returnTc env + returnTc [] -tcGroups unf_env (group:groups) - = tcGroup unf_env group `thenTc` \ env -> +tcGroups unf_env this_mod (group:groups) + = tcGroup unf_env this_mod group `thenTc` \ (env, new_things1) -> tcSetEnv env $ - tcGroups unf_env groups + tcGroups unf_env this_mod groups `thenTc` \ new_things2 -> + returnTc (new_things1 ++ new_things2) \end{code} Dealing with a group @@ -105,16 +111,31 @@ Step 4: buildTyConOrClass Step 5: tcTyClDecl1 In this environment, walk over the decls, constructing the TyCons and Classes. This uses in a strict way items (a)-(c) above, which is why they must - be constructed in Step 4. - Feed the results back to Step 4. + be constructed in Step 4. Feed the results back to Step 4. + For this step, pass the is-recursive flag as the wimp-out flag + to tcTyClDecl1. + +Step 6: Extend environment + We extend the type environment with bindings not only for the TyCons and Classes, + but also for their "implicit Ids" like data constructors and class selectors + +Step 7: checkValidTyCl + For a recursive group only, check all the decls again, just + to check all the side conditions on validity. We could not + do this before because we were in a mutually recursive knot. + + The knot-tying parameters: @rec_details_list@ is an alist mapping @Name@s to @TyThing@s. @rec_vrcs@ is a finite map from @Name@s to @ArgVrcs@s. \begin{code} -tcGroup :: TcEnv -> SCC RenamedTyClDecl -> TcM TcEnv -tcGroup unf_env scc - = getDOptsTc `thenTc` \ dflags -> +tcGroup :: RecTcEnv -> Module -> SCC RenamedTyClDecl + -> TcM (TcEnv, -- Input env extended by types and classes only + [TyThing]) -- Things defined by this group + +tcGroup unf_env this_mod scc + = getDOptsTc `thenNF_Tc` \ dflags -> -- Step 1 mapNF_Tc getInitialKind decls `thenNF_Tc` \ initial_kinds -> @@ -125,33 +146,50 @@ tcGroup unf_env scc zonkKindEnv initial_kinds `thenNF_Tc` \ final_kinds -> -- Tie the knot - fixTc ( \ ~(rec_details_list, _) -> + traceTc (text "starting" <+> ppr final_kinds) `thenTc_` + fixTc ( \ ~(rec_details_list, _, _) -> -- Step 4 let kind_env = mkNameEnv final_kinds rec_details = mkNameEnv rec_details_list - tyclss, all_tyclss :: [(Name, TyThing)] + tyclss, all_tyclss :: [TyThing] tyclss = map (buildTyConOrClass dflags is_rec kind_env - rec_vrcs rec_details) decls + rec_vrcs rec_details) decls -- Add the tycons that come from the classes -- We want them in the environment because -- they are mentioned in interface files - all_tyclss = [ (getName tycon, ATyCon tycon) | (_, AClass clas) <- tyclss, - let tycon = classTyCon clas - ] ++ tyclss + all_tyclss = [ATyCon (classTyCon clas) | AClass clas <- tyclss] + ++ tyclss -- Calculate variances, and (yes!) feed back into buildTyConOrClass. - rec_vrcs = calcTyConArgVrcs [tc | (_, ATyCon tc) <- all_tyclss] + rec_vrcs = calcTyConArgVrcs [tc | ATyCon tc <- all_tyclss] in -- Step 5 - tcExtendGlobalEnv all_tyclss $ - mapTc (tcTyClDecl1 unf_env) decls `thenTc` \ tycls_details -> - tcGetEnv `thenNF_Tc` \ env -> - returnTc (tycls_details, env) - ) `thenTc` \ (_, env) -> - returnTc env + -- Extend the environment with the final + -- TyCons/Classes and check the decls + tcExtendGlobalEnv all_tyclss $ + mapTc (tcTyClDecl1 unf_env) decls `thenTc` \ tycls_details -> + + -- Return results + tcGetEnv `thenNF_Tc` \ env -> + returnTc (tycls_details, env, all_tyclss) + ) `thenTc` \ (_, env, all_tyclss) -> + + -- Step 7: Check validity + traceTc (text "ready for validity check") `thenTc_` + tcSetEnv env ( + mapTc_ (checkValidTyCl this_mod) decls + ) `thenTc_` + traceTc (text "done") `thenTc_` + + let + implicit_things = [AnId id | id <- implicitTyThingIds all_tyclss] + new_things = all_tyclss ++ implicit_things + in + returnTc (env, new_things) + where is_rec = case scc of AcyclicSCC _ -> NonRecursive @@ -162,11 +200,21 @@ tcGroup unf_env scc CyclicSCC decls -> decls tcTyClDecl1 unf_env decl - = tcAddDeclCtxt decl $ - if isClassDecl decl then - tcClassDecl1 unf_env decl + | isClassDecl decl = tcAddDeclCtxt decl (tcClassDecl1 decl) + | otherwise = tcAddDeclCtxt decl (tcTyDecl unf_env decl) + +-- We do the validity check over declarations, rather than TyThings +-- only so that we can add a nice context with tcAddDeclCtxt +checkValidTyCl this_mod decl + = tcLookup (tcdName decl) `thenNF_Tc` \ (AGlobal thing) -> + if not (isLocalThing this_mod thing) then + -- Don't bother to check validity for non-local things + returnTc () else - tcTyDecl1 decl + tcAddDeclCtxt decl $ + case thing of + ATyCon tc -> checkValidTyCon tc + AClass cl -> checkValidClass cl \end{code} @@ -178,18 +226,10 @@ tcTyClDecl1 unf_env decl \begin{code} getInitialKind :: RenamedTyClDecl -> NF_TcM (Name, TcKind) -getInitialKind (TySynonym name tyvars _ _) - = kcHsTyVars tyvars `thenNF_Tc` \ arg_kinds -> - newKindVar `thenNF_Tc` \ result_kind -> - returnNF_Tc (name, mk_kind arg_kinds result_kind) - -getInitialKind (TyData _ _ name tyvars _ _ _ _ _ _) - = kcHsTyVars tyvars `thenNF_Tc` \ arg_kinds -> - returnNF_Tc (name, mk_kind arg_kinds boxedTypeKind) - -getInitialKind (ClassDecl _ name tyvars _ _ _ _ _ ) - = kcHsTyVars tyvars `thenNF_Tc` \ arg_kinds -> - returnNF_Tc (name, mk_kind arg_kinds boxedTypeKind) +getInitialKind decl + = kcHsTyVars (tyClDeclTyVars decl) `thenNF_Tc` \ arg_kinds -> + newKindVar `thenNF_Tc` \ result_kind -> + returnNF_Tc (tcdName decl, mk_kind arg_kinds result_kind) mk_kind tvs_w_kinds res_kind = foldr (mkArrowKind . snd) res_kind tvs_w_kinds \end{code} @@ -217,54 +257,51 @@ Monad c in bop's type signature means that D must have kind Type->Type. \begin{code} kcTyClDecl :: RenamedTyClDecl -> TcM () -kcTyClDecl decl@(TySynonym tycon_name hs_tyvars rhs loc) - = tcAddDeclCtxt decl $ - kcTyClDeclBody tycon_name hs_tyvars $ \ result_kind -> - kcHsType rhs `thenTc` \ rhs_kind -> +kcTyClDecl decl@(TySynonym {tcdSynRhs = rhs}) + = kcTyClDeclBody decl $ \ result_kind -> + kcHsType rhs `thenTc` \ rhs_kind -> unifyKind result_kind rhs_kind -kcTyClDecl decl@(TyData _ context tycon_name hs_tyvars con_decls _ _ loc _ _) - = tcAddDeclCtxt decl $ - kcTyClDeclBody tycon_name hs_tyvars $ \ result_kind -> +kcTyClDecl (ForeignType {}) = returnTc () + +kcTyClDecl decl@(TyData {tcdND = new_or_data, tcdCtxt = context, tcdCons = con_decls}) + = kcTyClDeclBody decl $ \ result_kind -> kcHsContext context `thenTc_` - mapTc_ kc_con_decl con_decls + mapTc_ kc_con_decl (visibleDataCons con_decls) where kc_con_decl (ConDecl _ _ ex_tvs ex_ctxt details loc) - = tcAddSrcLoc loc $ - kcHsTyVars ex_tvs `thenNF_Tc` \ kind_env -> + = kcHsTyVars ex_tvs `thenNF_Tc` \ kind_env -> tcExtendKindEnv kind_env $ - kcConDetails ex_ctxt details - -kcTyClDecl decl@(ClassDecl context class_name - hs_tyvars fundeps class_sigs - _ _ loc) - = tcAddDeclCtxt decl $ - kcTyClDeclBody class_name hs_tyvars $ \ result_kind -> - kcHsContext context `thenTc_` + kcConDetails new_or_data ex_ctxt details + +kcTyClDecl decl@(ClassDecl {tcdCtxt = context, tcdSigs = class_sigs}) + = kcTyClDeclBody decl $ \ result_kind -> + kcHsContext context `thenTc_` mapTc_ kc_sig (filter isClassOpSig class_sigs) where - kc_sig (ClassOpSig _ _ op_ty loc) = tcAddSrcLoc loc (kcHsBoxedSigType op_ty) + kc_sig (ClassOpSig _ _ op_ty loc) = kcHsLiftedSigType op_ty -kcTyClDeclBody :: Name -> [HsTyVarBndr Name] -- Kind of the tycon/cls and its tyvars - -> (Kind -> TcM a) -- Thing inside - -> TcM a +kcTyClDeclBody :: RenamedTyClDecl -> (Kind -> TcM a) -> TcM a -- Extend the env with bindings for the tyvars, taken from -- the kind of the tycon/class. Give it to the thing inside, and -- check the result kind matches -kcTyClDeclBody tc_name hs_tyvars thing_inside - = tcLookupGlobal tc_name `thenNF_Tc` \ thing -> +kcTyClDeclBody decl thing_inside + = tcAddDeclCtxt decl $ + tcLookup (tcdName decl) `thenNF_Tc` \ thing -> let kind = case thing of - ATyCon tc -> tyConKind tc - AClass cl -> tyConKind (classTyCon cl) + AGlobal (ATyCon tc) -> tyConKind tc + AGlobal (AClass cl) -> tyConKind (classTyCon cl) + AThing kind -> kind -- For some odd reason, a class doesn't include its kind - (tyvars_w_kinds, result_kind) = zipFunTys (hsTyVarNames hs_tyvars) kind + (tyvars_w_kinds, result_kind) = zipFunTys (hsTyVarNames (tyClDeclTyVars decl)) kind in tcExtendKindEnv tyvars_w_kinds (thing_inside result_kind) \end{code} + %************************************************************************ %* * \subsection{Step 4: Building the tycon/class} @@ -276,13 +313,11 @@ buildTyConOrClass :: DynFlags -> RecFlag -> NameEnv Kind -> FiniteMap TyCon ArgVrcs -> NameEnv TyThingDetails - -> RenamedTyClDecl -> (Name, TyThing) - -- Can't fail; the only reason it's in the monad - -- is so it can zonk the kinds + -> RenamedTyClDecl -> TyThing buildTyConOrClass dflags is_rec kenv rec_vrcs rec_details - (TySynonym tycon_name tyvar_names rhs src_loc) - = (tycon_name, ATyCon tycon) + (TySynonym {tcdName = tycon_name, tcdTyVars = tyvar_names}) + = ATyCon tycon where tycon = mkSynTyCon tycon_name tycon_kind arity tyvars rhs_ty argvrcs tycon_kind = lookupNameEnv_NF kenv tycon_name @@ -292,31 +327,46 @@ buildTyConOrClass dflags is_rec kenv rec_vrcs rec_details argvrcs = lookupWithDefaultFM rec_vrcs bogusVrcs tycon buildTyConOrClass dflags is_rec kenv rec_vrcs rec_details - (TyData data_or_new context tycon_name tyvar_names _ nconstrs _ src_loc name1 name2) - = (tycon_name, ATyCon tycon) + (TyData {tcdND = data_or_new, tcdName = tycon_name, + tcdTyVars = tyvar_names, tcdSysNames = sys_names}) + = ATyCon tycon where - tycon = mkAlgTyConRep tycon_name tycon_kind tyvars ctxt argvrcs - data_cons nconstrs - derived_classes + tycon = mkAlgTyCon tycon_name tycon_kind tyvars ctxt argvrcs + data_cons sel_ids flavour is_rec gen_info - gen_info = mkTyConGenInfo dflags tycon name1 name2 - DataTyDetails ctxt data_cons derived_classes = lookupNameEnv_NF rec_details tycon_name + gen_info | not (dopt Opt_Generics dflags) = Nothing + | otherwise = mkTyConGenInfo tycon sys_names + + DataTyDetails ctxt data_cons sel_ids = lookupNameEnv_NF rec_details tycon_name tycon_kind = lookupNameEnv_NF kenv tycon_name tyvars = mkTyClTyVars tycon_kind tyvar_names argvrcs = lookupWithDefaultFM rec_vrcs bogusVrcs tycon + -- Watch out! mkTyConApp asks whether the tycon is a NewType, + -- so flavour has to be able to answer this question without consulting rec_details flavour = case data_or_new of - NewType -> NewTyCon (mkNewTyConRep tycon) - DataType | all isNullaryDataCon data_cons -> EnumTyCon - | otherwise -> DataTyCon + NewType -> NewTyCon (mkNewTyConRep tycon) + DataType | all_nullary data_cons -> EnumTyCon + | otherwise -> DataTyCon + + all_nullary (DataCons cons) = all (null . dataConOrigArgTys) cons + all_nullary other = False -- Safe choice for unknown data types + -- NB (null . dataConOrigArgTys). It used to say isNullaryDataCon + -- but that looks at the *representation* arity, and that in turn + -- depends on deciding whether to unpack the args, and that + -- depends on whether it's a data type or a newtype --- so + -- in the recursive case we can get a loop. This version is simple! + +buildTyConOrClass dflags is_rec kenv rec_vrcs rec_details + (ForeignType {tcdName = tycon_name, tcdExtName = tycon_ext_name}) + = ATyCon (mkForeignTyCon tycon_name tycon_ext_name liftedTypeKind 0 []) buildTyConOrClass dflags is_rec kenv rec_vrcs rec_details - (ClassDecl context class_name - tyvar_names fundeps class_sigs def_methods - name_list src_loc) - = (class_name, AClass clas) + (ClassDecl {tcdName = class_name, tcdTyVars = tyvar_names, + tcdFDs = fundeps, tcdSysNames = name_list} ) + = AClass clas where (tycon_name, _, _, _) = getClassDeclSysNames name_list clas = mkClass class_name tyvars fds @@ -327,16 +377,25 @@ buildTyConOrClass dflags is_rec kenv rec_vrcs rec_details argvrcs dict_con clas -- Yes! It's a dictionary flavour + is_rec + -- A class can be recursive, and in the case of newtypes + -- this matters. For example + -- class C a where { op :: C b => a -> b -> Int } + -- Because C has only one operation, it is represented by + -- a newtype, and it should be a *recursive* newtype. + -- [If we don't make it a recursive newtype, we'll expand the + -- newtype like a synonym, but that will lead toan inifinite type ClassDetails sc_theta sc_sel_ids op_items dict_con = lookupNameEnv_NF rec_details class_name class_kind = lookupNameEnv_NF kenv class_name tyvars = mkTyClTyVars class_kind tyvar_names argvrcs = lookupWithDefaultFM rec_vrcs bogusVrcs tycon - n_fields = length sc_sel_ids + length op_items - flavour | n_fields == 1 = NewTyCon (mkNewTyConRep tycon) - | otherwise = DataTyCon + flavour = case dataConOrigArgTys dict_con of + -- The tyvars in the datacon are the same as in the class + [rep_ty] -> NewTyCon rep_ty + other -> DataTyCon -- We can find the functional dependencies right away, -- and it is vital to do so. Why? Because in the next pass @@ -349,6 +408,38 @@ buildTyConOrClass dflags is_rec kenv rec_vrcs rec_details bogusVrcs = panic "Bogus tycon arg variances" \end{code} +\begin{code} +mkNewTyConRep :: TyCon -- The original type constructor + -> Type -- Chosen representation type + -- (guaranteed not to be another newtype) + +-- Find the representation type for this newtype TyCon +-- +-- The non-recursive newtypes are easy, because they look transparent +-- to splitTyConApp_maybe, but recursive ones really are represented as +-- TyConApps (see TypeRep). +-- +-- The trick is to to deal correctly with recursive newtypes +-- such as newtype T = MkT T + +mkNewTyConRep tc + = go [] tc + where + -- Invariant: tc is a NewTyCon + -- tcs have been seen before + go tcs tc + | tc `elem` tcs = unitTy + | otherwise + = let + rep_ty = head (dataConOrigArgTys (head (tyConDataCons tc))) + in + case splitTyConApp_maybe rep_ty of + Nothing -> rep_ty + Just (tc', tys) | not (isNewTyCon tc') -> rep_ty + | otherwise -> go1 (tc:tcs) tc' tys + + go1 tcs tc tys = substTyWith (tyConTyVars tc) tys (go tcs tc) +\end{code} %************************************************************************ %* * @@ -359,10 +450,10 @@ bogusVrcs = panic "Bogus tycon arg variances" Dependency analysis ~~~~~~~~~~~~~~~~~~~ \begin{code} -sortByDependency :: [RenamedHsDecl] -> TcM [SCC RenamedTyClDecl] +sortByDependency :: [RenamedTyClDecl] -> TcM [SCC RenamedTyClDecl] sortByDependency decls = let -- CHECK FOR CLASS CYCLES - cls_sccs = stronglyConnComp (mapMaybe mk_cls_edges tycl_decls) + cls_sccs = stronglyConnComp (mapMaybe mkClassEdges tycl_decls) cls_cycles = [ decls | CyclicSCC decls <- cls_sccs] in checkTc (null cls_cycles) (classCycleErr cls_cycles) `thenTc_` @@ -380,8 +471,8 @@ sortByDependency decls in returnTc decl_sccs where - tycl_decls = [d | TyClD d <- decls] - edges = map mk_edges tycl_decls + tycl_decls = filter (not . isIfaceSigDecl) decls + edges = map mkEdges tycl_decls is_syn_decl (d, _, _) = isSynDecl d \end{code} @@ -390,84 +481,25 @@ Edges in Type/Class decls ~~~~~~~~~~~~~~~~~~~~~~~~~ \begin{code} +tyClDeclFTVs :: RenamedTyClDecl -> [Name] + -- Find the free non-tyvar vars +tyClDeclFTVs d = foldNameSet add [] (tyClDeclFVs d) + where + add n fvs | isTyVarName n = fvs + | otherwise = n : fvs + ---------------------------------------------------- -- mk_cls_edges looks only at the context of class decls -- Its used when we are figuring out if there's a cycle in the -- superclass hierarchy -mk_cls_edges :: RenamedTyClDecl -> Maybe (RenamedTyClDecl, Unique, [Unique]) +mkClassEdges :: RenamedTyClDecl -> Maybe (RenamedTyClDecl, Name, [Name]) -mk_cls_edges decl@(ClassDecl ctxt name _ _ _ _ _ _) - = Just (decl, getUnique name, map getUnique (catMaybes (map get_clas ctxt))) -mk_cls_edges other_decl - = Nothing +mkClassEdges decl@(ClassDecl {tcdCtxt = ctxt, tcdName = name}) = Just (decl, name, [c | HsClassP c _ <- ctxt]) +mkClassEdges other_decl = Nothing ----------------------------------------------------- -mk_edges :: RenamedTyClDecl -> (RenamedTyClDecl, Unique, [Unique]) - -mk_edges decl@(TyData _ ctxt name _ condecls _ derivs _ _ _) - = (decl, getUnique name, uniqSetToList (get_ctxt ctxt `unionUniqSets` - get_cons condecls `unionUniqSets` - get_deriv derivs)) - -mk_edges decl@(TySynonym name _ rhs _) - = (decl, getUnique name, uniqSetToList (get_ty rhs)) - -mk_edges decl@(ClassDecl ctxt name _ _ sigs _ _ _) - = (decl, getUnique name, uniqSetToList (get_ctxt ctxt `unionUniqSets` - get_sigs sigs)) - - ----------------------------------------------------- -get_ctxt ctxt = unionManyUniqSets (map set_name (catMaybes (map get_clas ctxt))) -get_clas (HsPClass clas _) = Just clas -get_clas _ = Nothing - ----------------------------------------------------- -get_deriv Nothing = emptyUniqSet -get_deriv (Just clss) = unionManyUniqSets (map set_name clss) - ----------------------------------------------------- -get_cons cons = unionManyUniqSets (map get_con cons) - ----------------------------------------------------- -get_con (ConDecl _ _ _ ctxt details _) - = get_ctxt ctxt `unionUniqSets` get_con_details details - ----------------------------------------------------- -get_con_details (VanillaCon btys) = unionManyUniqSets (map get_bty btys) -get_con_details (InfixCon bty1 bty2) = unionUniqSets (get_bty bty1) (get_bty bty2) -get_con_details (RecCon nbtys) = unionManyUniqSets (map (get_bty.snd) nbtys) - ----------------------------------------------------- -get_bty bty = get_ty (getBangType bty) - ----------------------------------------------------- -get_ty (HsTyVar name) | isTvOcc (nameOccName name) = emptyUniqSet - | otherwise = set_name name -get_ty (HsAppTy ty1 ty2) = unionUniqSets (get_ty ty1) (get_ty ty2) -get_ty (HsFunTy ty1 ty2) = unionUniqSets (get_ty ty1) (get_ty ty2) -get_ty (HsListTy ty) = set_name listTyCon_name `unionUniqSets` get_ty ty -get_ty (HsTupleTy (HsTupCon n _) tys) = set_name n `unionUniqSets` get_tys tys -get_ty (HsUsgTy _ ty) = get_ty ty -get_ty (HsUsgForAllTy _ ty) = get_ty ty -get_ty (HsForAllTy _ ctxt mty) = get_ctxt ctxt `unionUniqSets` get_ty mty -get_ty (HsPredTy (HsPClass name _)) = set_name name -get_ty (HsPredTy (HsPIParam _ _)) = emptyUniqSet -- I think - ----------------------------------------------------- -get_tys tys = unionManyUniqSets (map get_ty tys) - ----------------------------------------------------- -get_sigs sigs - = unionManyUniqSets (map get_sig sigs) - where - get_sig (ClassOpSig _ _ ty _) = get_ty ty - get_sig (FixSig _) = emptyUniqSet - get_sig other = panic "TcTyClsDecls:get_sig" - ----------------------------------------------------- -set_name name = unitUniqSet (getUnique name) +mkEdges :: RenamedTyClDecl -> (RenamedTyClDecl, Name, [Name]) +mkEdges decl = (decl, tyClDeclName decl, tyClDeclFTVs decl) \end{code}