-- Getting stuff from the environment
TcEnv, initTcEnv,
- tcEnvTyCons, tcEnvClasses, tcEnvIds, tcEnvTcIds, tcEnvTyVars,
+ tcEnvTyCons, tcEnvClasses, tcEnvIds, tcLEnvElts,
getTcGEnv,
-- Instance environment, and InstInfo type
simpleInstInfoTy, simpleInstInfoTyCon,
-- Global environment
- tcExtendGlobalEnv, tcExtendGlobalValEnv,
+ tcExtendGlobalEnv, tcExtendGlobalValEnv, tcExtendGlobalTypeEnv,
tcLookupTyCon, tcLookupClass, tcLookupGlobalId, tcLookupDataCon,
tcLookupGlobal_maybe, tcLookupGlobal,
-- Local environment
- tcExtendKindEnv,
+ tcExtendKindEnv, tcLookupLocalIds, tcInLocalScope,
tcExtendTyVarEnv, tcExtendTyVarEnvForMeths,
- tcExtendLocalValEnv, tcLookup,
+ tcExtendLocalValEnv, tcLookup, tcLookup_maybe, tcLookupId,
-- Global type variables
tcGetGlobalTyVars, tcExtendGlobalTyVars,
-- Random useful things
- RecTcEnv, tcAddImportedIdInfo, tcLookupRecId, tcLookupRecId_maybe, tcInstId,
+ RecTcEnv, tcLookupRecId, tcLookupRecId_maybe,
-- New Ids
- newLocalId, newSpecPragmaId,
- newDFunName,
+ newLocalName, newDFunName,
-- Misc
isLocalThing, tcSetEnv
import RnHsSyn ( RenamedMonoBinds, RenamedSig )
import TcMonad
-import TcType ( TcKind, TcType, TcTyVar, TcTyVarSet, TcThetaType,
- tcInstTyVars, zonkTcTyVars,
+import TcMType ( zonkTcTyVarsAndFV )
+import TcType ( Type, ThetaType, TcKind, TcTyVar, TcTyVarSet,
+ tyVarsOfTypes, tcSplitDFunTy,
+ getDFunTyKey, tcTyConAppTyCon
)
-import Id ( idName, mkUserLocal, isDataConWrapId_maybe )
-import IdInfo ( constantIdInfo )
-import MkId ( mkSpecPragmaId )
-import Var ( TyVar, Id, idType, lazySetIdInfo, idInfo )
+import Id ( isDataConWrapId_maybe )
+import Var ( TyVar, Id, idType )
import VarSet
-import Type ( Type,
- tyVarsOfTypes, splitDFunTy,
- splitForAllTys, splitRhoTy,
- getDFunTyKey, tyConAppTyCon
- )
import DataCon ( DataCon )
import TyCon ( TyCon )
-import Class ( Class, ClassOpItem, ClassContext )
-import Subst ( substTy )
-import Name ( Name, OccName, NamedThing(..),
- nameOccName, getSrcLoc, mkLocalName,
- isLocalName, nameModule_maybe
+import Class ( Class, ClassOpItem )
+import Name ( Name, NamedThing(..),
+ getSrcLoc, mkLocalName, isLocalName, nameIsLocalOrFrom
)
-import Name ( NameEnv, lookupNameEnv, nameEnvElts, extendNameEnvList, emptyNameEnv )
+import NameEnv ( NameEnv, lookupNameEnv, nameEnvElts, elemNameEnv,
+ extendNameEnvList, emptyNameEnv, plusNameEnv )
import OccName ( mkDFunOcc, occNameString )
-import HscTypes ( DFunId, TypeEnv, HomeSymbolTable, PackageTypeEnv )
+import HscTypes ( DFunId,
+ PackageTypeEnv, TypeEnv,
+ extendTypeEnvList, extendTypeEnvWithIds,
+ typeEnvTyCons, typeEnvClasses, typeEnvIds,
+ HomeSymbolTable
+ )
import Module ( Module )
import InstEnv ( InstEnv, emptyInstEnv )
import HscTypes ( lookupType, TyThing(..) )
{- NameEnv TyThing-} -- compiling this module:
-- types and classes (both imported and local)
-- imported Ids
- -- (Ids defined in this module are in the local envt)
+ -- (Ids defined in this module start in the local envt,
+ -- though they move to the global envt during zonking)
tcLEnv :: NameEnv TcTyThing, -- The local type environment: Ids and TyVars
-- defined in this module
\begin{code}
-data TcTyThing
- = AGlobal TyThing -- Used only in the return type of a lookup
- | ATcId TcId -- Ids defined in this module
- | ATyVar TyVar -- Type variables
- | AThing TcKind -- Used temporarily, during kind checking
--- Here's an example of how the AThing guy is used
--- Suppose we are checking (forall a. T a Int):
--- 1. We first bind (a -> AThink kv), where kv is a kind variable.
--- 2. Then we kind-check the (T a Int) part.
--- 3. Then we zonk the kind variable.
--- 4. Now we know the kind for 'a', and we add (a -> ATyVar a::K) to the environment
-
initTcEnv :: HomeSymbolTable -> PackageTypeEnv -> IO TcEnv
initTcEnv hst pte
= do { gtv_var <- newIORef emptyVarSet ;
| otherwise = lookupType hst pte name
-tcEnvClasses env = [cl | AClass cl <- nameEnvElts (tcGEnv env)]
-tcEnvTyCons env = [tc | ATyCon tc <- nameEnvElts (tcGEnv env)]
-tcEnvIds env = [id | AnId id <- nameEnvElts (tcGEnv env)]
-tcEnvTyVars env = [tv | ATyVar tv <- nameEnvElts (tcLEnv env)]
-tcEnvTcIds env = [id | ATcId id <- nameEnvElts (tcLEnv env)]
+tcEnvClasses env = typeEnvClasses (tcGEnv env)
+tcEnvTyCons env = typeEnvTyCons (tcGEnv env)
+tcEnvIds env = typeEnvIds (tcGEnv env)
+tcLEnvElts env = nameEnvElts (tcLEnv env)
getTcGEnv (TcEnv { tcGEnv = genv }) = genv
--- This data type is used to help tie the knot
--- when type checking type and class declarations
-data TyThingDetails = SynTyDetails Type
- | DataTyDetails ClassContext [DataCon] [Id]
- | ClassDetails ClassContext [Id] [ClassOpItem] DataCon
+tcInLocalScope :: TcEnv -> Name -> Bool
+tcInLocalScope env v = v `elemNameEnv` (tcLEnv env)
\end{code}
+\begin{code}
+data TcTyThing
+ = AGlobal TyThing -- Used only in the return type of a lookup
+ | ATcId TcId -- Ids defined in this module
+ | ATyVar TyVar -- Type variables
+ | AThing TcKind -- Used temporarily, during kind checking
+-- Here's an example of how the AThing guy is used
+-- Suppose we are checking (forall a. T a Int):
+-- 1. We first bind (a -> AThink kv), where kv is a kind variable.
+-- 2. Then we kind-check the (T a Int) part.
+-- 3. Then we zonk the kind variable.
+-- 4. Now we know the kind for 'a', and we add (a -> ATyVar a::K) to the environment
+
+\end{code}
+
+This data type is used to help tie the knot
+ when type checking type and class declarations
+
+\begin{code}
+data TyThingDetails = SynTyDetails Type
+ | DataTyDetails ThetaType [DataCon] [Id]
+ | ClassDetails ThetaType [Id] [ClassOpItem] DataCon
+ | ForeignTyDetails -- Nothing yet
+\end{code}
%************************************************************************
%* *
-- on imported things and for looking up Ids in unfoldings
-- The environment doesn't have any local Ids in it
-tcAddImportedIdInfo :: RecTcEnv -> Id -> Id
-tcAddImportedIdInfo env id
- = id `lazySetIdInfo` new_info
- -- The Id must be returned without a data dependency on maybe_id
- where
- new_info = case tcLookupRecId_maybe env (idName id) of
- Nothing -> constantIdInfo
- Just imported_id -> idInfo imported_id
- -- ToDo: could check that types are the same
-
tcLookupRecId_maybe :: RecTcEnv -> Name -> Maybe Id
tcLookupRecId_maybe env name = case lookup_global env name of
Just (AnId id) -> Just id
%************************************************************************
%* *
-\subsection{Random useful functions}
-%* *
-%************************************************************************
-
-
-\begin{code}
--- A useful function that takes an occurrence of a global thing
--- and instantiates its type with fresh type variables
-tcInstId :: Id
- -> NF_TcM ([TcTyVar], -- It's instantiated type
- TcThetaType, --
- TcType) --
-tcInstId id
- = let
- (tyvars, rho) = splitForAllTys (idType id)
- in
- tcInstTyVars tyvars `thenNF_Tc` \ (tyvars', arg_tys, tenv) ->
- let
- rho' = substTy tenv rho
- (theta', tau') = splitRhoTy rho'
- in
- returnNF_Tc (tyvars', theta', tau')
-\end{code}
-
-
-%************************************************************************
-%* *
\subsection{Making new Ids}
%* *
%************************************************************************
Constructing new Ids
\begin{code}
-newLocalId :: OccName -> TcType -> SrcLoc -> NF_TcM TcId
-newLocalId name ty loc
+newLocalName :: Name -> NF_TcM Name
+newLocalName name -- Make a clone
= tcGetUnique `thenNF_Tc` \ uniq ->
- returnNF_Tc (mkUserLocal name uniq ty loc)
-
-newSpecPragmaId :: Name -> TcType -> NF_TcM TcId
-newSpecPragmaId name ty
- = tcGetUnique `thenNF_Tc` \ uniq ->
- returnNF_Tc (mkSpecPragmaId (nameOccName name) uniq ty (getSrcLoc name))
+ returnNF_Tc (mkLocalName uniq (getOccName name) (getSrcLoc name))
\end{code}
Make a name for the dict fun for an instance decl.
\begin{code}
isLocalThing :: NamedThing a => Module -> a -> Bool
- -- True if the thing has a Local name,
- -- or a Global name from the specified module
-isLocalThing mod thing = case nameModule_maybe (getName thing) of
- Nothing -> True -- A local name
- Just m -> m == mod -- A global thing
+isLocalThing mod thing = nameIsLocalOrFrom mod (getName thing)
\end{code}
%************************************************************************
tcExtendGlobalEnv things thing_inside
= tcGetEnv `thenNF_Tc` \ env ->
let
- ge' = extendNameEnvList (tcGEnv env) [(getName thing, thing) | thing <- things]
+ ge' = extendTypeEnvList (tcGEnv env) things
+ in
+ tcSetEnv (env {tcGEnv = ge'}) thing_inside
+
+
+tcExtendGlobalTypeEnv :: TypeEnv -> TcM r -> TcM r
+tcExtendGlobalTypeEnv extra_env thing_inside
+ = tcGetEnv `thenNF_Tc` \ env ->
+ let
+ ge' = tcGEnv env `plusNameEnv` extra_env
in
tcSetEnv (env {tcGEnv = ge'}) thing_inside
tcExtendGlobalValEnv ids thing_inside
= tcGetEnv `thenNF_Tc` \ env ->
let
- ge' = extendNameEnvList (tcGEnv env) [(getName id, AnId id) | id <- ids]
+ ge' = extendTypeEnvWithIds (tcGEnv env) ids
in
tcSetEnv (env {tcGEnv = ge'}) thing_inside
\end{code}
tcLookupGlobalId name
= tcLookupGlobal_maybe name `thenNF_Tc` \ maybe_id ->
case maybe_id of
- Just (AnId clas) -> returnNF_Tc clas
- other -> notFound "tcLookupGlobalId" name
+ Just (AnId id) -> returnNF_Tc id
+ other -> notFound "tcLookupGlobalId" name
tcLookupDataCon :: Name -> TcM DataCon
tcLookupDataCon con_name
case maybe_tc of
Just (ATyCon tc) -> returnNF_Tc tc
other -> notFound "tcLookupTyCon" name
+
+tcLookupId :: Name -> NF_TcM Id
+tcLookupId name
+ = tcLookup name `thenNF_Tc` \ thing ->
+ case thing of
+ ATcId tc_id -> returnNF_Tc tc_id
+ AGlobal (AnId id) -> returnNF_Tc id
+ other -> pprPanic "tcLookupId" (ppr name)
+
+tcLookupLocalIds :: [Name] -> NF_TcM [TcId]
+tcLookupLocalIds ns
+ = tcGetEnv `thenNF_Tc` \ env ->
+ returnNF_Tc (map (lookup (tcLEnv env)) ns)
+ where
+ lookup lenv name = case lookupNameEnv lenv name of
+ Just (ATcId id) -> id
+ other -> pprPanic "tcLookupLocalIds" (ppr name)
\end{code}
tcGetGlobalTyVars :: NF_TcM TcTyVarSet
tcGetGlobalTyVars
= tcGetEnv `thenNF_Tc` \ (TcEnv {tcTyVars = gtv_var}) ->
- tcReadMutVar gtv_var `thenNF_Tc` \ global_tvs ->
- zonkTcTyVars (varSetElems global_tvs) `thenNF_Tc` \ global_tys' ->
- let
- global_tvs' = (tyVarsOfTypes global_tys')
- in
- tcWriteMutVar gtv_var global_tvs' `thenNF_Tc_`
- returnNF_Tc global_tvs'
+ tcReadMutVar gtv_var `thenNF_Tc` \ gbl_tvs ->
+ zonkTcTyVarsAndFV (varSetElems gbl_tvs) `thenNF_Tc` \ gbl_tvs' ->
+ tcWriteMutVar gtv_var gbl_tvs' `thenNF_Tc_`
+ returnNF_Tc gbl_tvs'
\end{code}
instance c => k (t tvs) where b
+It is used just for *local* instance decls (not ones from interface files).
+But local instance decls includes
+ - derived ones
+ - generic ones
+as well as explicit user written ones.
+
\begin{code}
data InstInfo
= InstInfo {
- iLocal :: Bool, -- True <=> it's defined in this module
iDFunId :: DFunId, -- The dfun id
iBinds :: RenamedMonoBinds, -- Bindings, b
iPrags :: [RenamedSig] -- User pragmas recorded for generating specialised instances
}
-pprInstInfo info = vcat [ptext SLIT("InstInfo:") <+> ppr (idType (iDFunId info)),
- nest 4 (ppr (iBinds info))]
+ | NewTypeDerived { -- Used for deriving instances of newtypes, where the
+ -- witness dictionary is identical to the argument dictionary
+ -- Hence no bindings.
+ iDFunId :: DFunId -- The dfun id
+ }
+
+pprInstInfo info = vcat [ptext SLIT("InstInfo:") <+> ppr (idType (iDFunId info))]
simpleInstInfoTy :: InstInfo -> Type
-simpleInstInfoTy info = case splitDFunTy (idType (iDFunId info)) of
+simpleInstInfoTy info = case tcSplitDFunTy (idType (iDFunId info)) of
(_, _, _, [ty]) -> ty
simpleInstInfoTyCon :: InstInfo -> TyCon
-- Gets the type constructor for a simple instance declaration,
-- i.e. one of the form instance (...) => C (T a b c) where ...
-simpleInstInfoTyCon inst = tyConAppTyCon (simpleInstInfoTy inst)
+simpleInstInfoTyCon inst = tcTyConAppTyCon (simpleInstInfoTy inst)
\end{code}