%
\begin{code}
-{-# OPTIONS -w #-}
--- The above warning supression flag is a temporary kludge.
--- While working on this module you are encouraged to remove it and fix
--- any warnings in the module. See
--- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#Warnings
--- for details
-
module RdrName (
RdrName(..), -- Constructors exported only to BinIface
-- LocalRdrEnv
LocalRdrEnv, emptyLocalRdrEnv, extendLocalRdrEnv,
- lookupLocalRdrEnv, elemLocalRdrEnv,
+ lookupLocalRdrEnv, lookupLocalRdrOcc, elemLocalRdrEnv,
-- GlobalRdrEnv
GlobalRdrEnv, emptyGlobalRdrEnv, mkGlobalRdrEnv, plusGlobalRdrEnv,
\end{code}
\begin{code}
+isRdrDataCon :: RdrName -> Bool
+isRdrTyVar :: RdrName -> Bool
+isRdrTc :: RdrName -> Bool
+
isRdrDataCon rn = isDataOcc (rdrNameOcc rn)
isRdrTyVar rn = isTvOcc (rdrNameOcc rn)
isRdrTc rn = isTcOcc (rdrNameOcc rn)
+isSrcRdrName :: RdrName -> Bool
isSrcRdrName (Unqual _) = True
isSrcRdrName (Qual _ _) = True
isSrcRdrName _ = False
+isUnqual :: RdrName -> Bool
isUnqual (Unqual _) = True
-isUnqual other = False
+isUnqual _ = False
+isQual :: RdrName -> Bool
isQual (Qual _ _) = True
isQual _ = False
+isQual_maybe :: RdrName -> Maybe (ModuleName, OccName)
isQual_maybe (Qual m n) = Just (m,n)
isQual_maybe _ = Nothing
+isOrig :: RdrName -> Bool
isOrig (Orig _ _) = True
isOrig _ = False
+isOrig_maybe :: RdrName -> Maybe (Module, OccName)
isOrig_maybe (Orig m n) = Just (m,n)
isOrig_maybe _ = Nothing
+isExact :: RdrName -> Bool
isExact (Exact _) = True
-isExact other = False
+isExact _ = False
+isExact_maybe :: RdrName -> Maybe Name
isExact_maybe (Exact n) = Just n
-isExact_maybe other = Nothing
+isExact_maybe _ = Nothing
\end{code}
(Orig m1 o1) == (Orig m2 o2) = m1==m2 && o1==o2
(Qual m1 o1) == (Qual m2 o2) = m1==m2 && o1==o2
(Unqual o1) == (Unqual o2) = o1==o2
- r1 == r2 = False
+ _ == _ = False
instance Ord RdrName where
a <= b = case (a `compare` b) of { LT -> True; EQ -> True; GT -> False }
-- <decl involving n1,n2> }
-- I think we can do without this conversion
compare (Exact n1) (Exact n2) = n1 `compare` n2
- compare (Exact n1) n2 = LT
+ compare (Exact _) _ = LT
compare (Unqual _) (Exact _) = GT
compare (Unqual o1) (Unqual o2) = o1 `compare` o2
\begin{code}
type LocalRdrEnv = OccEnv Name
+emptyLocalRdrEnv :: LocalRdrEnv
emptyLocalRdrEnv = emptyOccEnv
extendLocalRdrEnv :: LocalRdrEnv -> [Name] -> LocalRdrEnv
= extendOccEnvList env [(nameOccName n, n) | n <- names]
lookupLocalRdrEnv :: LocalRdrEnv -> RdrName -> Maybe Name
-lookupLocalRdrEnv env (Exact name) = Just name
+lookupLocalRdrEnv _ (Exact name) = Just name
lookupLocalRdrEnv env (Unqual occ) = lookupOccEnv env occ
-lookupLocalRdrEnv env other = Nothing
+lookupLocalRdrEnv _ _ = Nothing
+
+lookupLocalRdrOcc :: LocalRdrEnv -> OccName -> Maybe Name
+lookupLocalRdrOcc env occ = lookupOccEnv env occ
elemLocalRdrEnv :: RdrName -> LocalRdrEnv -> Bool
elemLocalRdrEnv rdr_name env
instance Outputable Parent where
ppr NoParent = empty
- ppr (ParentIs n) = ptext SLIT("parent:") <> ppr n
+ ppr (ParentIs n) = ptext (sLit "parent:") <> ppr n
plusParent :: Parent -> Parent -> Parent
plusParent :: Parent -> Parent -> Parent
plusParent NoParent rel =
ASSERT2( case rel of { NoParent -> True; other -> False },
- ptext SLIT("plusParent[NoParent]: ") <+> ppr rel )
+ ptext (sLit "plusParent[NoParent]: ") <+> ppr rel )
NoParent
plusParent (ParentIs n) rel =
ASSERT2( case rel of { ParentIs m -> n==m; other -> False },
- ptext SLIT("plusParent[ParentIs]:") <+> ppr n <> comma <+> ppr rel )
+ ptext (sLit "plusParent[ParentIs]:") <+> ppr n <> comma <+> ppr rel )
ParentIs n
-}
+emptyGlobalRdrEnv :: GlobalRdrEnv
emptyGlobalRdrEnv = emptyOccEnv
globalRdrEnvElts :: GlobalRdrEnv -> [GlobalRdrElt]
\begin{code}
lookupGlobalRdrEnv :: GlobalRdrEnv -> OccName -> [GlobalRdrElt]
-lookupGlobalRdrEnv env rdr_name = case lookupOccEnv env rdr_name of
+lookupGlobalRdrEnv env occ_name = case lookupOccEnv env occ_name of
Nothing -> []
Just gres -> gres
isLocalGRE :: GlobalRdrElt -> Bool
isLocalGRE (GRE {gre_prov = LocalDef}) = True
-isLocalGRE other = False
+isLocalGRE _ = False
unQualOK :: GlobalRdrElt -> Bool
-- An unqualifed version of this thing is in scope
-- defined, and one might refer to it with a qualified name from
-- the import -- but I'm going to ignore that because it makes
-- the isLocalGRE predicate so much nicer this way
-plusProv LocalDef LocalDef = panic "plusProv"
-plusProv LocalDef p2 = LocalDef
-plusProv p1 LocalDef = LocalDef
+plusProv LocalDef LocalDef = panic "plusProv"
+plusProv LocalDef _ = LocalDef
+plusProv _ LocalDef = LocalDef
plusProv (Imported is1) (Imported is2) = Imported (is1++is2)
pprNameProvenance :: GlobalRdrElt -> SDoc
-- Print out the place where the name was imported
pprNameProvenance (GRE {gre_name = name, gre_prov = LocalDef})
- = ptext SLIT("defined at") <+> ppr (nameSrcLoc name)
+ = ptext (sLit "defined at") <+> ppr (nameSrcLoc name)
pprNameProvenance (GRE {gre_name = name, gre_prov = Imported whys})
= case whys of
- (why:whys) -> sep [ppr why, nest 2 (ppr_defn (nameSrcLoc name))]
+ (why:_) -> sep [ppr why, nest 2 (ppr_defn (nameSrcLoc name))]
[] -> panic "pprNameProvenance"
-- If we know the exact definition point (which we may do with GHCi)
-- then show that too. But not if it's just "imported from X".
-ppr_defn loc | isGoodSrcLoc loc = parens (ptext SLIT("defined at") <+> ppr loc)
+ppr_defn :: SrcLoc -> SDoc
+ppr_defn loc | isGoodSrcLoc loc = parens (ptext (sLit "defined at") <+> ppr loc)
| otherwise = empty
instance Outputable ImportSpec where
ppr imp_spec
- = ptext SLIT("imported from") <+> ppr (importSpecModule imp_spec)
- <+> if isGoodSrcSpan loc then ptext SLIT("at") <+> ppr loc
+ = ptext (sLit "imported from") <+> ppr (importSpecModule imp_spec)
+ <+> if isGoodSrcSpan loc then ptext (sLit "at") <+> ppr loc
else empty
where
loc = importSpecLoc imp_spec