\begin{code}
module TcEnv(
- TcId, TcIdSet, tcInstId,
- tcLookupDataCon,
+ TcId, TcIdSet,
+ TyThing(..), TyThingDetails(..), TcTyThing(..),
- TcEnv, ValueEnv, TyThing(..), TyThingDetails(..), tyThingKind,
-
- initEnv, getEnvTyCons, getEnvClasses,
+ -- Getting stuff from the environment
+ TcEnv, initTcEnv,
+ tcEnvTyCons, tcEnvClasses, tcEnvIds, tcEnvTcIds, tcEnvTyVars,
+ getTcGEnv,
- tcExtendUVarEnv, tcLookupUVar,
-
- tcExtendKindEnv, tcExtendTyVarEnv,
- tcExtendTyVarEnvForMeths, tcExtendTypeEnv, tcGetInScopeTyVars,
-
- tcLookupTy,
- tcLookupTyConByKey,
- tcLookupClassByKey, tcLookupClassByKey_maybe,
-
- tcExtendGlobalValEnv, tcExtendLocalValEnv,
- tcGetValueEnv, tcSetValueEnv,
- tcAddImportedIdInfo,
+ -- Instance environment, and InstInfo type
+ tcGetInstEnv, tcSetInstEnv,
+ InstInfo(..), pprInstInfo,
+ simpleInstInfoTy, simpleInstInfoTyCon, isLocalInst,
+
+ -- Global environment
+ tcExtendGlobalEnv, tcExtendGlobalValEnv,
+ tcLookupTyCon, tcLookupClass, tcLookupGlobalId, tcLookupDataCon,
+ tcLookupGlobal_maybe, tcLookupGlobal,
+
+ -- Local environment
+ tcExtendKindEnv,
+ tcExtendTyVarEnv, tcExtendTyVarEnvForMeths,
+ tcExtendLocalValEnv, tcLookup,
+
+ -- Global type variables
+ tcGetGlobalTyVars, tcExtendGlobalTyVars,
- tcLookupValue, tcLookupValueMaybe,
- tcLookupValueByKey, tcLookupValueByKeyMaybe,
- explicitLookupValueByKey, explicitLookupValue,
- valueEnvIds,
+ -- Random useful things
+ tcAddImportedIdInfo, tcInstId,
+ -- New Ids
newLocalId, newSpecPragmaId,
newDefaultMethodName, newDFunName,
- tcGetGlobalTyVars, tcExtendGlobalTyVars,
-
- InstEnv, emptyInstEnv, addToInstEnv,
- lookupInstEnv, InstLookupResult(..),
- tcGetInstEnv, tcSetInstEnv, classInstEnv,
- badCon, badPrimOp
+ -- Misc
+ isLocalThing, tcSetEnv, explicitLookupId
) where
#include "HsVersions.h"
-import Id ( mkUserLocal, isDataConWrapId_maybe )
-import MkId ( mkSpecPragmaId )
-import Var ( TyVar, Id, setVarName,
- idType, lazySetIdInfo, idInfo, tyVarKind, UVar,
- )
-import TcType ( TcType, TcTyVar, TcTyVarSet, TcThetaType,
- tcInstTyVars, zonkTcTyVars,
- TcKind,
- )
-import VarSet
-import Type ( Kind, Type, superKind,
- tyVarsOfType, tyVarsOfTypes,
- splitForAllTys, splitRhoTy, splitFunTys,
- splitAlgTyConApp_maybe, getTyVar, getDFunTyKey
- )
-import Subst ( substTy )
-import UsageSPUtils ( unannotTy )
-import DataCon ( DataCon )
-import TyCon ( TyCon, tyConKind, tyConArity, isSynTyCon )
-import Class ( Class, ClassOpItem, ClassContext, classTyCon )
-
+import RnHsSyn ( RenamedMonoBinds, RenamedSig )
import TcMonad
-
+import TcType ( TcKind, TcType, TcTyVar, TcTyVarSet, TcThetaType,
+ tcInstTyVars, zonkTcTyVars,
+ )
+import Id ( mkUserLocal, isDataConWrapId_maybe )
import IdInfo ( vanillaIdInfo )
-import Name ( Name, OccName, Provenance(..), ExportFlag(..), NamedThing(..),
+import MkId ( mkSpecPragmaId )
+import Var ( TyVar, Id, idType, lazySetIdInfo, idInfo )
+import VarSet
+import Type ( Type, ThetaType,
+ tyVarsOfTypes,
+ splitForAllTys, splitRhoTy,
+ getDFunTyKey, splitTyConApp_maybe
+ )
+import DataCon ( DataCon )
+import TyCon ( TyCon )
+import Class ( Class, ClassOpItem, ClassContext )
+import Subst ( substTy )
+import Name ( Name, OccName, NamedThing(..),
nameOccName, nameModule, getSrcLoc, mkGlobalName,
- maybeWiredInTyConName, maybeWiredInIdName, isLocallyDefined,
- NameEnv, emptyNameEnv, lookupNameEnv, nameEnvElts,
- extendNameEnv, extendNameEnvList
+ isLocallyDefined, nameModule_maybe,
+ NameEnv, lookupNameEnv, nameEnvElts,
+ extendNameEnvList, emptyNameEnv
)
import OccName ( mkDFunOcc, mkDefaultMethodOcc, occNameString )
+import HscTypes ( DFunId, TypeEnv, HomeSymbolTable, PackageTypeEnv )
import Module ( Module )
-import Unify ( unifyTyListsX, matchTys )
-import Unique ( pprUnique10, Unique, Uniquable(..) )
-import UniqFM
-import Unique ( Uniquable(..) )
-import Util ( zipEqual, zipWith3Equal, mapAccumL )
-import VarEnv ( TyVarSubstEnv )
+import InstEnv ( InstEnv, emptyInstEnv )
+import HscTypes ( lookupType, TyThing(..) )
+import Util ( zipEqual )
import SrcLoc ( SrcLoc )
-import FastString ( FastString )
-import Maybes
import Outputable
+
+import IOExts ( newIORef )
\end{code}
%************************************************************************
%* *
-\subsection{TcId}
+\subsection{TcEnv}
%* *
%************************************************************************
-
\begin{code}
type TcId = Id -- Type may be a TcType
type TcIdSet = IdSet
-tcLookupDataCon :: Name -> TcM s (DataCon, [TcType], TcType)
-tcLookupDataCon con_name
- = tcLookupValue con_name `thenNF_Tc` \ con_id ->
- case isDataConWrapId_maybe con_id of {
- Nothing -> failWithTc (badCon con_id);
- Just data_con ->
-
- tcInstId con_id `thenNF_Tc` \ (_, _, con_tau) ->
- -- Ignore the con_theta; overloaded constructors only
- -- behave differently when called, not when used for
- -- matching.
- let
- (arg_tys, result_ty) = splitFunTys con_tau
- in
- ASSERT( maybeToBool (splitAlgTyConApp_maybe result_ty) )
- returnTc (data_con, arg_tys, result_ty) }
+data TcEnv
+ = TcEnv {
+ tcGST :: Name -> Maybe TyThing, -- The type environment at the moment we began this compilation
+
+ tcInsts :: InstEnv, -- All instances (both imported and in this module)
+
+ tcGEnv :: TypeEnv, -- The global type environment we've accumulated while
+ {- NameEnv TyThing-} -- compiling this module:
+ -- types and classes (both imported and local)
+ -- imported Ids
+ -- (Ids defined in this module are in the local envt)
+
+ tcLEnv :: NameEnv TcTyThing, -- The local type environment: Ids and TyVars
+ -- defined in this module
+
+ tcTyVars :: TcRef TcTyVarSet -- The "global tyvars"
+ -- Namely, the in-scope TyVars bound in tcLEnv, plus the tyvars
+ -- mentioned in the types of Ids bound in tcLEnv
+ -- Why mutable? see notes with tcGetGlobalTyVars
+ }
+
+\end{code}
+
+The Global-Env/Local-Env story
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+During type checking, we keep in the GlobalEnv
+ * All types and classes
+ * All Ids derived from types and classes (constructors, selectors)
+ * Imported Ids
+
+At the end of type checking, we zonk the local bindings,
+and as we do so we add to the GlobalEnv
+ * Locally defined top-level Ids
+
+Why? Because they are now Ids not TcIds. This final GlobalEnv is
+used thus:
+ a) fed back (via the knot) to typechecking the
+ unfoldings of interface signatures
+
+ b) used to augment the GlobalSymbolTable
+
+
+\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 ;
+ return (TcEnv { tcGST = lookup,
+ tcGEnv = emptyNameEnv,
+ tcInsts = emptyInstEnv,
+ tcLEnv = emptyNameEnv,
+ tcTyVars = gtv_var
+ })}
+ where
+ lookup name = 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)]
+
+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] [Class]
+ | ClassDetails ClassContext [Id] [ClassOpItem] DataCon
+\end{code}
+
+
+%************************************************************************
+%* *
+\subsection{Basic lookups}
+%* *
+%************************************************************************
+\begin{code}
+lookup_global :: TcEnv -> Name -> Maybe TyThing
+ -- Try the global envt and then the global symbol table
+lookup_global env name
+ = case lookupNameEnv (tcGEnv env) name of
+ Just thing -> Just thing
+ Nothing -> tcGST env name
+
+lookup_local :: TcEnv -> Name -> Maybe TcTyThing
+ -- Try the local envt and then try the global
+lookup_local env name
+ = case lookupNameEnv (tcLEnv env) name of
+ Just thing -> Just thing
+ Nothing -> case lookup_global env name of
+ Just thing -> Just (AGlobal thing)
+ Nothing -> Nothing
+
+explicitLookupId :: TcEnv -> Name -> Maybe Id
+explicitLookupId env name = case lookup_global env name of
+ Just (AnId id) -> Just id
+ other -> Nothing
+\end{code}
+
+
+%************************************************************************
+%* *
+\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 s ([TcTyVar], -- It's instantiated type
+ -> NF_TcM ([TcTyVar], -- It's instantiated type
TcThetaType, --
TcType) --
tcInstId id
= let
- (tyvars, rho) = splitForAllTys (unannotTy (idType id))
+ (tyvars, rho) = splitForAllTys (idType id)
in
tcInstTyVars tyvars `thenNF_Tc` \ (tyvars', arg_tys, tenv) ->
let
(theta', tau') = splitRhoTy rho'
in
returnNF_Tc (tyvars', theta', tau')
-\end{code}
-Between the renamer and the first invocation of the UsageSP inference,
-identifiers read from interface files will have usage information in
-their types, whereas other identifiers will not. The unannotTy here
-in @tcInstId@ prevents this information from pointlessly propagating
-further prior to the first usage inference.
+tcAddImportedIdInfo :: TcEnv -> Id -> Id
+tcAddImportedIdInfo unf_env id
+ | isLocallyDefined id -- Don't look up locally defined Ids, because they
+ -- have explicit local definitions, so we get a black hole!
+ = id
+ | otherwise
+ = id `lazySetIdInfo` new_info
+ -- The Id must be returned without a data dependency on maybe_id
+ where
+ new_info = case explicitLookupId unf_env (getName id) of
+ Nothing -> vanillaIdInfo
+ Just imported_id -> idInfo imported_id
+ -- ToDo: could check that types are the same
+\end{code}
%************************************************************************
%* *
-\subsection{TcEnv}
+\subsection{Making new Ids}
%* *
%************************************************************************
-Data type declarations
-~~~~~~~~~~~~~~~~~~~~~
+Constructing new Ids
\begin{code}
-data TcEnv = TcEnv
- UsageEnv
- TypeEnv
- ValueEnv
- InstEnv
- (TcTyVarSet, -- The in-scope TyVars
- TcRef TcTyVarSet) -- Free type variables of the value env
- -- ...why mutable? see notes with tcGetGlobalTyVars
- -- Includes the in-scope tyvars
-
-type UsageEnv = NameEnv UVar
-type TypeEnv = NameEnv TyThing
-type ValueEnv = NameEnv Id
-
-valueEnvIds :: ValueEnv -> [Id]
-valueEnvIds ve = nameEnvElts ve
-
-data TyThing = ATyVar TyVar
- | ATyCon TyCon
- | AClass Class
- | AThing TcKind -- Used temporarily, during kind checking
--- For example, when 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
+newLocalId :: OccName -> TcType -> SrcLoc -> NF_TcM TcId
+newLocalId name ty loc
+ = tcGetUnique `thenNF_Tc` \ uniq ->
+ returnNF_Tc (mkUserLocal name uniq ty loc)
-tyThingKind :: TyThing -> TcKind
-tyThingKind (ATyVar tv) = tyVarKind tv
-tyThingKind (ATyCon tc) = tyConKind tc
-tyThingKind (AClass cl) = tyConKind (classTyCon cl) -- For some odd reason,
- -- a class doesn't include its kind
-tyThingKind (AThing k) = k
+newSpecPragmaId :: Name -> TcType -> NF_TcM TcId
+newSpecPragmaId name ty
+ = tcGetUnique `thenNF_Tc` \ uniq ->
+ returnNF_Tc (mkSpecPragmaId (nameOccName name) uniq ty (getSrcLoc name))
+\end{code}
-data TyThingDetails = SynTyDetails Type
- | DataTyDetails ClassContext [DataCon] [Class]
- | ClassDetails ClassContext [Id] [ClassOpItem] DataCon
+Make a name for the dict fun for an instance decl
+
+\begin{code}
+newDFunName :: Module -> Class -> [Type] -> SrcLoc -> NF_TcM Name
+newDFunName mod clas (ty:_) loc
+ = tcGetDFunUniq dfun_string `thenNF_Tc` \ inst_uniq ->
+ tcGetUnique `thenNF_Tc` \ uniq ->
+ returnNF_Tc (mkGlobalName uniq mod
+ (mkDFunOcc dfun_string inst_uniq)
+ loc)
+ where
+ -- Any string that is somewhat unique will do
+ dfun_string = occNameString (getOccName clas) ++ occNameString (getDFunTyKey ty)
-initEnv :: TcRef TcTyVarSet -> TcEnv
-initEnv mut = TcEnv emptyNameEnv emptyNameEnv emptyNameEnv emptyInstEnv (emptyVarSet, mut)
+newDefaultMethodName :: Name -> SrcLoc -> NF_TcM Name
+newDefaultMethodName op_name loc
+ = tcGetUnique `thenNF_Tc` \ uniq ->
+ returnNF_Tc (mkGlobalName uniq (nameModule op_name)
+ (mkDefaultMethodOcc (getOccName op_name))
+ loc)
+\end{code}
-getEnvClasses (TcEnv _ te _ _ _) = [cl | AClass cl <- nameEnvElts te]
-getEnvTyCons (TcEnv _ te _ _ _) = [tc | ATyCon tc <- nameEnvElts te]
+\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
\end{code}
%************************************************************************
%* *
-\subsection{The usage environment}
+\subsection{The global environment}
%* *
%************************************************************************
-Extending the usage environment
+\begin{code}
+tcExtendGlobalEnv :: [(Name, TyThing)] -> TcM r -> TcM r
+tcExtendGlobalEnv bindings thing_inside
+ = tcGetEnv `thenNF_Tc` \ env ->
+ let
+ ge' = extendNameEnvList (tcGEnv env) bindings
+ in
+ tcSetEnv (env {tcGEnv = ge'}) thing_inside
+
+tcExtendGlobalValEnv :: [Id] -> TcM a -> TcM a
+tcExtendGlobalValEnv ids thing_inside
+ = tcExtendGlobalEnv [(getName id, AnId id) | id <- ids] thing_inside
+\end{code}
+
\begin{code}
-tcExtendUVarEnv :: Name -> UVar -> TcM s r -> TcM s r
-tcExtendUVarEnv uv_name uv scope
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
- tcSetEnv (TcEnv (extendNameEnv ue uv_name uv) te ve ie gtvs) scope
+tcLookupGlobal_maybe :: Name -> NF_TcM (Maybe TyThing)
+tcLookupGlobal_maybe name
+ = tcGetEnv `thenNF_Tc` \ env ->
+ returnNF_Tc (lookup_global env name)
\end{code}
-Looking up in the environments.
+A variety of global lookups, when we know what we are looking for.
\begin{code}
-tcLookupUVar :: Name -> NF_TcM s UVar
-tcLookupUVar uv_name
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve _ gtvs) ->
- case lookupNameEnv ue uv_name of
- Just uv -> returnNF_Tc uv
- Nothing -> failWithTc (uvNameOutOfScope uv_name)
-\end{code}
+tcLookupGlobal :: Name -> NF_TcM TyThing
+tcLookupGlobal name
+ = tcLookupGlobal_maybe name `thenNF_Tc` \ maybe_thing ->
+ case maybe_thing of
+ Just thing -> returnNF_Tc thing
+ other -> notFound "tcLookupGlobal" name
+
+tcLookupGlobalId :: Name -> NF_TcM Id
+tcLookupGlobalId name
+ = tcLookupGlobal_maybe name `thenNF_Tc` \ maybe_id ->
+ case maybe_id of
+ Just (AnId clas) -> returnNF_Tc clas
+ other -> notFound "tcLookupGlobalId" name
+
+tcLookupDataCon :: Name -> TcM DataCon
+tcLookupDataCon con_name
+ = tcLookupGlobalId con_name `thenNF_Tc` \ con_id ->
+ case isDataConWrapId_maybe con_id of
+ Just data_con -> returnTc data_con
+ Nothing -> failWithTc (badCon con_id)
+
+
+tcLookupClass :: Name -> NF_TcM Class
+tcLookupClass name
+ = tcLookupGlobal_maybe name `thenNF_Tc` \ maybe_clas ->
+ case maybe_clas of
+ Just (AClass clas) -> returnNF_Tc clas
+ other -> notFound "tcLookupClass" name
+
+tcLookupTyCon :: Name -> NF_TcM TyCon
+tcLookupTyCon name
+ = tcLookupGlobal_maybe name `thenNF_Tc` \ maybe_tc ->
+ case maybe_tc of
+ Just (ATyCon tc) -> returnNF_Tc tc
+ other -> notFound "tcLookupTyCon" name
+\end{code}
%************************************************************************
%* *
-\subsection{The type environment}
+\subsection{The local environment}
%* *
%************************************************************************
\begin{code}
-tcExtendKindEnv :: [(Name,TcKind)] -> TcM s r -> TcM s r
-tcExtendKindEnv pairs scope
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
+tcLookup_maybe :: Name -> NF_TcM (Maybe TcTyThing)
+tcLookup_maybe name
+ = tcGetEnv `thenNF_Tc` \ env ->
+ returnNF_Tc (lookup_local env name)
+
+tcLookup :: Name -> NF_TcM TcTyThing
+tcLookup name
+ = tcLookup_maybe name `thenNF_Tc` \ maybe_thing ->
+ case maybe_thing of
+ Just thing -> returnNF_Tc thing
+ other -> notFound "tcLookup" name
+ -- Extract the IdInfo from an IfaceSig imported from an interface file
+\end{code}
+
+
+\begin{code}
+tcExtendKindEnv :: [(Name,TcKind)] -> TcM r -> TcM r
+tcExtendKindEnv pairs thing_inside
+ = tcGetEnv `thenNF_Tc` \ env ->
let
- te' = extendNameEnvList te [(n, AThing k) | (n,k) <- pairs]
+ le' = extendNameEnvList (tcLEnv env) [(n, AThing k) | (n,k) <- pairs]
-- No need to extend global tyvars for kind checking
in
- tcSetEnv (TcEnv ue te' ve ie gtvs) scope
+ tcSetEnv (env {tcLEnv = le'}) thing_inside
-tcExtendTyVarEnv :: [TyVar] -> TcM s r -> TcM s r
-tcExtendTyVarEnv tyvars scope
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie (in_scope_tvs, gtvs)) ->
+tcExtendTyVarEnv :: [TyVar] -> TcM r -> TcM r
+tcExtendTyVarEnv tyvars thing_inside
+ = tcGetEnv `thenNF_Tc` \ env@(TcEnv {tcLEnv = le, tcTyVars = gtvs}) ->
let
- te' = extendNameEnvList te [ (getName tv, ATyVar tv) | tv <- tyvars]
- new_tv_set = mkVarSet tyvars
- in_scope_tvs' = in_scope_tvs `unionVarSet` new_tv_set
+ le' = extendNameEnvList le [ (getName tv, ATyVar tv) | tv <- tyvars]
+ new_tv_set = mkVarSet tyvars
in
-- It's important to add the in-scope tyvars to the global tyvar set
-- as well. Consider
-- class and instance decls, when we mustn't generalise the class tyvars
-- when typechecking the methods.
tc_extend_gtvs gtvs new_tv_set `thenNF_Tc` \ gtvs' ->
- tcSetEnv (TcEnv ue te' ve ie (in_scope_tvs', gtvs')) scope
+ tcSetEnv (env {tcLEnv = le', tcTyVars = gtvs'}) thing_inside
-- This variant, tcExtendTyVarEnvForMeths, takes *two* bunches of tyvars:
-- the signature tyvars contain the original names
-- It's needed when typechecking the method bindings of class and instance decls
-- It does *not* extend the global tyvars; tcMethodBind does that for itself
-tcExtendTyVarEnvForMeths :: [TyVar] -> [TcTyVar] -> TcM s r -> TcM s r
+tcExtendTyVarEnvForMeths :: [TyVar] -> [TcTyVar] -> TcM r -> TcM r
tcExtendTyVarEnvForMeths sig_tyvars inst_tyvars thing_inside
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
- let
- te' = extendNameEnvList te stuff
- in
- tcSetEnv (TcEnv ue te' ve ie gtvs) thing_inside
- where
- stuff = [ (getName sig_tv, ATyVar inst_tv)
- | (sig_tv, inst_tv) <- zipEqual "tcMeth" sig_tyvars inst_tyvars
- ]
-
-tcExtendGlobalTyVars extra_global_tvs scope
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie (in_scope,gtvs)) ->
- tc_extend_gtvs gtvs extra_global_tvs `thenNF_Tc` \ gtvs' ->
- tcSetEnv (TcEnv ue te ve ie (in_scope,gtvs')) scope
-
-tc_extend_gtvs gtvs extra_global_tvs
- = tcReadMutVar gtvs `thenNF_Tc` \ global_tvs ->
- let
- new_global_tyvars = global_tvs `unionVarSet` extra_global_tvs
- in
- tcNewMutVar new_global_tyvars
-\end{code}
-
-@tcGetGlobalTyVars@ returns a fully-zonked set of tyvars free in the environment.
-To improve subsequent calls to the same function it writes the zonked set back into
-the environment.
-
-\begin{code}
-tcGetGlobalTyVars :: NF_TcM s TcTyVarSet
-tcGetGlobalTyVars
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie (_,gtvs)) ->
- tcReadMutVar gtvs `thenNF_Tc` \ global_tvs ->
- zonkTcTyVars (varSetElems global_tvs) `thenNF_Tc` \ global_tys' ->
+ = tcGetEnv `thenNF_Tc` \ env ->
let
- global_tvs' = (tyVarsOfTypes global_tys')
+ le' = extendNameEnvList (tcLEnv env) stuff
+ stuff = [ (getName sig_tv, ATyVar inst_tv)
+ | (sig_tv, inst_tv) <- zipEqual "tcMeth" sig_tyvars inst_tyvars
+ ]
in
- tcWriteMutVar gtvs global_tvs' `thenNF_Tc_`
- returnNF_Tc global_tvs'
-
-tcGetInScopeTyVars :: NF_TcM s [TcTyVar]
-tcGetInScopeTyVars
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie (in_scope_tvs, gtvs)) ->
- returnNF_Tc (varSetElems in_scope_tvs)
+ tcSetEnv (env {tcLEnv = le'}) thing_inside
\end{code}
-Type constructors and classes
-
\begin{code}
-tcExtendTypeEnv :: [(Name, TyThing)] -> TcM s r -> TcM s r
-tcExtendTypeEnv bindings scope
- = ASSERT( null [tv | (_, ATyVar tv) <- bindings] )
- -- Not for tyvars; use tcExtendTyVarEnv
- tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
+tcExtendLocalValEnv :: [(Name,TcId)] -> TcM a -> TcM a
+tcExtendLocalValEnv names_w_ids thing_inside
+ = tcGetEnv `thenNF_Tc` \ env ->
let
- te' = extendNameEnvList te bindings
+ extra_global_tyvars = tyVarsOfTypes [idType id | (name,id) <- names_w_ids]
+ extra_env = [(name, ATcId id) | (name,id) <- names_w_ids]
+ le' = extendNameEnvList (tcLEnv env) extra_env
in
- tcSetEnv (TcEnv ue te' ve ie gtvs) scope
-\end{code}
-
-
-Looking up in the environments.
-
-\begin{code}
-tcLookupTy :: Name -> NF_TcM s TyThing
-tcLookupTy name
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
- case lookupNameEnv te name of {
- Just thing -> returnNF_Tc thing ;
- Nothing ->
-
- case maybeWiredInTyConName name of
- Just tc -> returnNF_Tc (ATyCon tc)
-
- Nothing -> -- This can happen if an interface-file
- -- unfolding is screwed up
- failWithTc (tyNameOutOfScope name)
- }
-
-tcLookupClassByKey :: Unique -> NF_TcM s Class
-tcLookupClassByKey key
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
- case lookupUFM_Directly te key of
- Just (AClass cl) -> returnNF_Tc cl
- other -> pprPanic "tcLookupClassByKey:" (pprUnique10 key)
-
-tcLookupClassByKey_maybe :: Unique -> NF_TcM s (Maybe Class)
-tcLookupClassByKey_maybe key
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
- case lookupUFM_Directly te key of
- Just (AClass cl) -> returnNF_Tc (Just cl)
- other -> returnNF_Tc Nothing
-
-tcLookupTyConByKey :: Unique -> NF_TcM s TyCon
-tcLookupTyConByKey key
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
- case lookupUFM_Directly te key of
- Just (ATyCon tc) -> returnNF_Tc tc
- other -> pprPanic "tcLookupTyConByKey:" (pprUnique10 key)
+ tc_extend_gtvs (tcTyVars env) extra_global_tyvars `thenNF_Tc` \ gtvs' ->
+ tcSetEnv (env {tcLEnv = le', tcTyVars = gtvs'}) thing_inside
\end{code}
-
-
%************************************************************************
%* *
-\subsection{The value environment}
+\subsection{The global tyvars}
%* *
%************************************************************************
\begin{code}
-tcExtendGlobalValEnv :: [Id] -> TcM s a -> TcM s a
-tcExtendGlobalValEnv ids scope
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
- let
- ve' = addListToUFM_Directly ve [(getUnique id, id) | id <- ids]
- in
- tcSetEnv (TcEnv ue te ve' ie gtvs) scope
-
-tcExtendLocalValEnv :: [(Name,TcId)] -> TcM s a -> TcM s a
-tcExtendLocalValEnv names_w_ids scope
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie (in_scope_tvs,gtvs)) ->
- tcReadMutVar gtvs `thenNF_Tc` \ global_tvs ->
- let
- ve' = extendNameEnvList ve names_w_ids
- extra_global_tyvars = tyVarsOfTypes (map (idType . snd) names_w_ids)
- in
- tc_extend_gtvs gtvs extra_global_tyvars `thenNF_Tc` \ gtvs' ->
- tcSetEnv (TcEnv ue te ve' ie (in_scope_tvs,gtvs')) scope
-\end{code}
+tcExtendGlobalTyVars extra_global_tvs thing_inside
+ = tcGetEnv `thenNF_Tc` \ env ->
+ tc_extend_gtvs (tcTyVars env) extra_global_tvs `thenNF_Tc` \ gtvs' ->
+ tcSetEnv (env {tcTyVars = gtvs'}) thing_inside
-
-\begin{code}
-tcLookupValue :: Name -> NF_TcM s Id -- Panics if not found
-tcLookupValue name
- = case maybeWiredInIdName name of
- Just id -> returnNF_Tc id
- Nothing -> tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
- returnNF_Tc (lookupWithDefaultUFM ve def name)
- where
- def = pprPanic "tcLookupValue:" (ppr name)
-
-tcLookupValueMaybe :: Name -> NF_TcM s (Maybe Id)
-tcLookupValueMaybe name
- = case maybeWiredInIdName name of
- Just id -> returnNF_Tc (Just id)
- Nothing -> tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
- returnNF_Tc (lookupNameEnv ve name)
-
-tcLookupValueByKey :: Unique -> NF_TcM s Id -- Panics if not found
-tcLookupValueByKey key
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
- returnNF_Tc (explicitLookupValueByKey ve key)
-
-tcLookupValueByKeyMaybe :: Unique -> NF_TcM s (Maybe Id)
-tcLookupValueByKeyMaybe key
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
- returnNF_Tc (lookupUFM_Directly ve key)
-
-tcGetValueEnv :: NF_TcM s ValueEnv
-tcGetValueEnv
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie gtvs) ->
- returnNF_Tc ve
-
-
-tcSetValueEnv :: ValueEnv -> TcM s a -> TcM s a
-tcSetValueEnv ve scope
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te _ ie gtvs) ->
- tcSetEnv (TcEnv ue te ve ie gtvs) scope
-
--- Non-monadic version, environment given explicitly
-explicitLookupValueByKey :: ValueEnv -> Unique -> Id
-explicitLookupValueByKey ve key
- = lookupWithDefaultUFM_Directly ve def key
- where
- def = pprPanic "lookupValueByKey:" (pprUnique10 key)
-
-explicitLookupValue :: ValueEnv -> Name -> Maybe Id
-explicitLookupValue ve name
- = case maybeWiredInIdName name of
- Just id -> Just id
- Nothing -> lookupNameEnv ve name
-
- -- Extract the IdInfo from an IfaceSig imported from an interface file
-tcAddImportedIdInfo :: ValueEnv -> Id -> Id
-tcAddImportedIdInfo unf_env id
- | isLocallyDefined id -- Don't look up locally defined Ids, because they
- -- have explicit local definitions, so we get a black hole!
- = id
- | otherwise
- = id `lazySetIdInfo` new_info
- -- The Id must be returned without a data dependency on maybe_id
- where
- new_info = case explicitLookupValue unf_env (getName id) of
- Nothing -> vanillaIdInfo
- Just imported_id -> idInfo imported_id
- -- ToDo: could check that types are the same
+tc_extend_gtvs gtvs extra_global_tvs
+ = tcReadMutVar gtvs `thenNF_Tc` \ global_tvs ->
+ tcNewMutVar (global_tvs `unionVarSet` extra_global_tvs)
\end{code}
-Constructing new Ids
+@tcGetGlobalTyVars@ returns a fully-zonked set of tyvars free in the environment.
+To improve subsequent calls to the same function it writes the zonked set back into
+the environment.
\begin{code}
-newLocalId :: OccName -> TcType -> SrcLoc -> NF_TcM s TcId
-newLocalId name ty loc
- = tcGetUnique `thenNF_Tc` \ uniq ->
- returnNF_Tc (mkUserLocal name uniq ty loc)
-
-newSpecPragmaId :: Name -> TcType -> NF_TcM s TcId
-newSpecPragmaId name ty
- = tcGetUnique `thenNF_Tc` \ uniq ->
- returnNF_Tc (mkSpecPragmaId (nameOccName name) uniq ty (getSrcLoc name))
+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'
\end{code}
%************************************************************************
\begin{code}
-tcGetInstEnv :: NF_TcM s InstEnv
-tcGetInstEnv = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve ie (_,gtvs)) ->
- returnNF_Tc ie
-
-tcSetInstEnv :: InstEnv -> TcM s a -> TcM s a
-tcSetInstEnv ie scope
- = tcGetEnv `thenNF_Tc` \ (TcEnv ue te ve _ gtvs) ->
- tcSetEnv (TcEnv ue te ve ie gtvs) scope
+tcGetInstEnv :: NF_TcM InstEnv
+tcGetInstEnv = tcGetEnv `thenNF_Tc` \ env ->
+ returnNF_Tc (tcInsts env)
+
+tcSetInstEnv :: InstEnv -> TcM a -> TcM a
+tcSetInstEnv ie thing_inside
+ = tcGetEnv `thenNF_Tc` \ env ->
+ tcSetEnv (env {tcInsts = ie}) thing_inside
\end{code}
-\begin{code}
-type InstEnv = UniqFM ClsInstEnv -- Maps Class to instances for that class
-type ClsInstEnv = [(TyVarSet, [Type], Id)] -- The instances for a particular class
-
-classInstEnv :: InstEnv -> Class -> ClsInstEnv
-classInstEnv env cls = lookupWithDefaultUFM env [] cls
-\end{code}
-
-A @ClsInstEnv@ lives inside a class, and identifies all the instances
-of that class. The @Id@ inside a ClsInstEnv mapping is the dfun for
-that instance.
-
-If class C maps to a list containing the item ([a,b], [t1,t2,t3], dfun), then
-
- forall a b, C t1 t2 t3 can be constructed by dfun
-
-or, to put it another way, we have
-
- instance (...) => C t1 t2 t3, witnessed by dfun
-
-There is an important consistency constraint in the elements of a ClsInstEnv:
-
- * [a,b] must be a superset of the free vars of [t1,t2,t3]
-
- * The dfun must itself be quantified over [a,b]
-
-Thus, the @ClassInstEnv@ for @Eq@ might contain the following entry:
- [a] ===> dfun_Eq_List :: forall a. Eq a => Eq [a]
-The "a" in the pattern must be one of the forall'd variables in
-the dfun type.
-
-
-
-Notes on overlapping instances
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-In some ClsInstEnvs, overlap is prohibited; that is, no pair of templates unify.
-
-In others, overlap is permitted, but only in such a way that one can make
-a unique choice when looking up. That is, overlap is only permitted if
-one template matches the other, or vice versa. So this is ok:
-
- [a] [Int]
-
-but this is not
-
- (Int,a) (b,Int)
-
-If overlap is permitted, the list is kept most specific first, so that
-the first lookup is the right choice.
-
-
-For now we just use association lists.
-
-\subsection{Avoiding a problem with overlapping}
-
-Consider this little program:
-
-\begin{pseudocode}
- class C a where c :: a
- class C a => D a where d :: a
-
- instance C Int where c = 17
- instance D Int where d = 13
-
- instance C a => C [a] where c = [c]
- instance ({- C [a], -} D a) => D [a] where d = c
-
- instance C [Int] where c = [37]
-
- main = print (d :: [Int])
-\end{pseudocode}
-
-What do you think `main' prints (assuming we have overlapping instances, and
-all that turned on)? Well, the instance for `D' at type `[a]' is defined to
-be `c' at the same type, and we've got an instance of `C' at `[Int]', so the
-answer is `[37]', right? (the generic `C [a]' instance shouldn't apply because
-the `C [Int]' instance is more specific).
-
-Ghc-4.04 gives `[37]', while ghc-4.06 gives `[17]', so 4.06 is wrong. That
-was easy ;-) Let's just consult hugs for good measure. Wait - if I use old
-hugs (pre-September99), I get `[17]', and stranger yet, if I use hugs98, it
-doesn't even compile! What's going on!?
-
-What hugs complains about is the `D [a]' instance decl.
-
-\begin{pseudocode}
- ERROR "mj.hs" (line 10): Cannot build superclass instance
- *** Instance : D [a]
- *** Context supplied : D a
- *** Required superclass : C [a]
-\end{pseudocode}
-
-You might wonder what hugs is complaining about. It's saying that you
-need to add `C [a]' to the context of the `D [a]' instance (as appears
-in comments). But there's that `C [a]' instance decl one line above
-that says that I can reduce the need for a `C [a]' instance to the
-need for a `C a' instance, and in this case, I already have the
-necessary `C a' instance (since we have `D a' explicitly in the
-context, and `C' is a superclass of `D').
-
-Unfortunately, the above reasoning indicates a premature commitment to the
-generic `C [a]' instance. I.e., it prematurely rules out the more specific
-instance `C [Int]'. This is the mistake that ghc-4.06 makes. The fix is to
-add the context that hugs suggests (uncomment the `C [a]'), effectively
-deferring the decision about which instance to use.
-
-Now, interestingly enough, 4.04 has this same bug, but it's covered up
-in this case by a little known `optimization' that was disabled in
-4.06. Ghc-4.04 silently inserts any missing superclass context into
-an instance declaration. In this case, it silently inserts the `C
-[a]', and everything happens to work out.
-
-(See `basicTypes/MkId:mkDictFunId' for the code in question. Search for
-`Mark Jones', although Mark claims no credit for the `optimization' in
-question, and would rather it stopped being called the `Mark Jones
-optimization' ;-)
-
-So, what's the fix? I think hugs has it right. Here's why. Let's try
-something else out with ghc-4.04. Let's add the following line:
-
- d' :: D a => [a]
- d' = c
-
-Everyone raise their hand who thinks that `d :: [Int]' should give a
-different answer from `d' :: [Int]'. Well, in ghc-4.04, it does. The
-`optimization' only applies to instance decls, not to regular
-bindings, giving inconsistent behavior.
-
-Old hugs had this same bug. Here's how we fixed it: like GHC, the
-list of instances for a given class is ordered, so that more specific
-instances come before more generic ones. For example, the instance
-list for C might contain:
- ..., C Int, ..., C a, ...
-When we go to look for a `C Int' instance we'll get that one first.
-But what if we go looking for a `C b' (`b' is unconstrained)? We'll
-pass the `C Int' instance, and keep going. But if `b' is
-unconstrained, then we don't know yet if the more specific instance
-will eventually apply. GHC keeps going, and matches on the generic `C
-a'. The fix is to, at each step, check to see if there's a reverse
-match, and if so, abort the search. This prevents hugs from
-prematurely chosing a generic instance when a more specific one
-exists.
-
---Jeff
+%************************************************************************
+%* *
+\subsection{The InstInfo type}
+%* *
+%************************************************************************
-\begin{code}
-emptyInstEnv :: InstEnv
-emptyInstEnv = emptyUFM
-\end{code}
+The InstInfo type summarises the information in an instance declaration
-@lookupInstEnv@ looks up in a @InstEnv@, using a one-way match. Since
-the env is kept ordered, the first match must be the only one. The
-thing we are looking up can have an arbitrary "flexi" part.
+ instance c => k (t tvs) where b
\begin{code}
-lookupInstEnv :: InstEnv -- The envt
- -> Class -> [Type] -- Key
- -> InstLookupResult
-
-data InstLookupResult
- = FoundInst -- There is a (template,substitution) pair
- -- that makes the template match the key,
- -- and no template is an instance of the key
- TyVarSubstEnv Id
-
- | NoMatch Bool -- Boolean is true iff there is at least one
- -- template that matches the key.
- -- (but there are other template(s) that are
- -- instances of the key, so we don't report
- -- FoundInst)
- -- The NoMatch True case happens when we look up
- -- Foo [a]
- -- in an InstEnv that has entries for
- -- Foo [Int]
- -- Foo [b]
- -- Then which we choose would depend on the way in which 'a'
- -- is instantiated. So we say there is no match, but identify
- -- it as ambiguous case in the hope of giving a better error msg.
- -- See the notes above from Jeff Lewis
-
-lookupInstEnv env key_cls key_tys
- = find (classInstEnv env key_cls)
- where
- key_vars = tyVarsOfTypes key_tys
-
- find [] = NoMatch False
- find ((tpl_tyvars, tpl, val) : rest)
- = case matchTys tpl_tyvars tpl key_tys of
- Nothing ->
- case matchTys key_vars key_tys tpl of
- Nothing -> find rest
- Just (_, _) -> NoMatch (any_match rest)
- Just (subst, leftovers) -> ASSERT( null leftovers )
- FoundInst subst val
-
- any_match rest = or [ maybeToBool (matchTys tvs tpl key_tys)
- | (tvs,tpl,_) <- rest
- ]
-\end{code}
-
-@addToClsInstEnv@ extends a @ClsInstEnv@, checking for overlaps.
-
-A boolean flag controls overlap reporting.
-
-True => overlap is permitted, but only if one template matches the other;
- not if they unify but neither is
+data InstInfo
+ = InstInfo {
+ iClass :: Class, -- Class, k
+ iTyVars :: [TyVar], -- Type variables, tvs
+ iTys :: [Type], -- The types at which the class is being instantiated
+ iTheta :: ThetaType, -- inst_decl_theta: the original context, c, from the
+ -- instance declaration. It constrains (some of)
+ -- the TyVars above
+ iLocal :: Bool, -- True <=> it's defined in this module
+ iDFunId :: DFunId, -- The dfun id
+ iBinds :: RenamedMonoBinds, -- Bindings, b
+ iLoc :: SrcLoc, -- Source location assoc'd with this instance's defn
+ iPrags :: [RenamedSig] -- User pragmas recorded for generating specialised instances
+ }
-\begin{code}
-addToInstEnv :: Bool -- True <=> overlap permitted
- -> InstEnv -- Envt
- -> Class -> [TyVar] -> [Type] -> Id -- New item
- -> MaybeErr InstEnv -- Success...
- ([Type], Id) -- Failure: Offending overlap
-
-addToInstEnv overlap_ok inst_env clas ins_tvs ins_tys value
- = case insert_into (classInstEnv inst_env clas) of
- Failed stuff -> Failed stuff
- Succeeded new_env -> Succeeded (addToUFM inst_env clas new_env)
-
- where
- ins_tv_set = mkVarSet ins_tvs
- ins_item = (ins_tv_set, ins_tys, value)
-
- insert_into [] = returnMaB [ins_item]
- insert_into env@(cur_item@(tpl_tvs, tpl_tys, val) : rest)
-
- -- FAIL if:
- -- (a) they are the same, or
- -- (b) they unify, and any sort of overlap is prohibited,
- -- (c) they unify but neither is more specific than t'other
- | identical
- || (unifiable && not overlap_ok)
- || (unifiable && not (ins_item_more_specific || cur_item_more_specific))
- = failMaB (tpl_tys, val)
-
- -- New item is an instance of current item, so drop it here
- | ins_item_more_specific = returnMaB (ins_item : env)
-
- -- Otherwise carry on
- | otherwise = insert_into rest `thenMaB` \ rest' ->
- returnMaB (cur_item : rest')
- where
- unifiable = maybeToBool (unifyTyListsX (ins_tv_set `unionVarSet` tpl_tvs) tpl_tys ins_tys)
- ins_item_more_specific = maybeToBool (matchTys tpl_tvs tpl_tys ins_tys)
- cur_item_more_specific = maybeToBool (matchTys ins_tv_set ins_tys tpl_tys)
- identical = ins_item_more_specific && cur_item_more_specific
-\end{code}
+pprInstInfo info = vcat [ptext SLIT("InstInfo:") <+> ppr (idType (iDFunId info)),
+ nest 4 (ppr (iBinds info))]
-Make a name for the dict fun for an instance decl
+simpleInstInfoTy :: InstInfo -> Type
+simpleInstInfoTy (InstInfo {iTys = [ty]}) = ty
-\begin{code}
-newDFunName :: Module -> Class -> [Type] -> SrcLoc -> NF_TcM s Name
-newDFunName mod clas (ty:_) loc
- = tcGetDFunUniq dfun_string `thenNF_Tc` \ inst_uniq ->
- tcGetUnique `thenNF_Tc` \ uniq ->
- returnNF_Tc (mkGlobalName uniq mod
- (mkDFunOcc dfun_string inst_uniq)
- (LocalDef loc Exported))
- where
- -- Any string that is somewhat unique will do
- dfun_string = occNameString (getOccName clas) ++ occNameString (getDFunTyKey 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
+ = case splitTyConApp_maybe (simpleInstInfoTy inst) of
+ Just (tycon, _) -> tycon
-newDefaultMethodName :: Name -> SrcLoc -> NF_TcM s Name
-newDefaultMethodName op_name loc
- = tcGetUnique `thenNF_Tc` \ uniq ->
- returnNF_Tc (mkGlobalName uniq (nameModule op_name)
- (mkDefaultMethodOcc (getOccName op_name))
- (LocalDef loc Exported))
+isLocalInst :: Module -> InstInfo -> Bool
+isLocalInst mod info = isLocalThing mod (iDFunId info)
\end{code}
%************************************************************************
\begin{code}
-badCon con_id
- = quotes (ppr con_id) <+> ptext SLIT("is not a data constructor")
-badPrimOp op
- = quotes (ppr op) <+> ptext SLIT("is not a primop")
-
-uvNameOutOfScope name
- = ptext SLIT("UVar") <+> quotes (ppr name) <+> ptext SLIT("is not in scope")
+badCon con_id = quotes (ppr con_id) <+> ptext SLIT("is not a data constructor")
-tyNameOutOfScope name
- = quotes (ppr name) <+> ptext SLIT("is not in scope")
+notFound wheRe name = failWithTc (text wheRe <> colon <+> quotes (ppr name) <+>
+ ptext SLIT("is not in scope"))
\end{code}
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