tidyNameOcc,
hashName, localiseName,
- nameSrcLoc,
+ nameSrcLoc, nameSrcSpan, pprNameLoc,
isSystemName, isInternalName, isExternalName,
isTyVarName, isTyConName, isWiredInName, isBuiltInSyntax,
-- Class NamedThing and overloaded friends
NamedThing(..),
- getSrcLoc, getOccString
+ getSrcLoc, getSrcSpan, getOccString,
+ pprInfixName, pprPrefixName
) where
-#include "HsVersions.h"
-
import {-# SOURCE #-} TypeRep( TyThing )
import OccName
import Module
import SrcLoc
-import UniqFM
import Unique
import Maybes
import Binary
-import FastMutInt
+import FastTypes
import FastString
import Outputable
-import Data.IORef
-import GHC.Exts
import Data.Array
\end{code}
data Name = Name {
n_sort :: NameSort, -- What sort of name it is
n_occ :: !OccName, -- Its occurrence name
- n_uniq :: Int#, -- UNPACK doesn't work, recursive type
- n_loc :: !SrcLoc -- Definition site
+ n_uniq :: FastInt, -- UNPACK doesn't work, recursive type
+--(note later when changing Int# -> FastInt: is that still true about UNPACK?)
+ n_loc :: !SrcSpan -- Definition site
}
-- NOTE: we make the n_loc field strict to eliminate some potential
nameOccName :: Name -> OccName
nameModule :: Name -> Module
nameSrcLoc :: Name -> SrcLoc
+nameSrcSpan :: Name -> SrcSpan
-nameUnique name = mkUniqueGrimily (I# (n_uniq name))
+nameUnique name = mkUniqueGrimily (iBox (n_uniq name))
nameOccName name = n_occ name
-nameSrcLoc name = n_loc name
+nameSrcLoc name = srcSpanStart (n_loc name)
+nameSrcSpan name = n_loc name
\end{code}
\begin{code}
isWiredInName :: Name -> Bool
isWiredInName (Name {n_sort = WiredIn _ _ _}) = True
-isWiredInName other = False
+isWiredInName _ = False
wiredInNameTyThing_maybe :: Name -> Maybe TyThing
wiredInNameTyThing_maybe (Name {n_sort = WiredIn _ thing _}) = Just thing
-wiredInNameTyThing_maybe other = Nothing
+wiredInNameTyThing_maybe _ = Nothing
+isBuiltInSyntax :: Name -> Bool
isBuiltInSyntax (Name {n_sort = WiredIn _ _ BuiltInSyntax}) = True
-isBuiltInSyntax other = False
+isBuiltInSyntax _ = False
isExternalName (Name {n_sort = External _}) = True
isExternalName (Name {n_sort = WiredIn _ _ _}) = True
-isExternalName other = False
+isExternalName _ = False
isInternalName name = not (isExternalName name)
nameModule name = nameModule_maybe name `orElse` pprPanic "nameModule" (ppr name)
+nameModule_maybe :: Name -> Maybe Module
nameModule_maybe (Name { n_sort = External mod}) = Just mod
nameModule_maybe (Name { n_sort = WiredIn mod _ _}) = Just mod
-nameModule_maybe name = Nothing
+nameModule_maybe _ = Nothing
nameIsLocalOrFrom from name
| isExternalName name = from == nameModule name
isTyConName name = isTcOcc (nameOccName name)
isSystemName (Name {n_sort = System}) = True
-isSystemName other = False
+isSystemName _ = False
\end{code}
%************************************************************************
\begin{code}
-mkInternalName :: Unique -> OccName -> SrcLoc -> Name
-mkInternalName uniq occ loc = Name { n_uniq = getKey# uniq, n_sort = Internal, n_occ = occ, n_loc = loc }
+mkInternalName :: Unique -> OccName -> SrcSpan -> Name
+mkInternalName uniq occ loc = Name { n_uniq = getKeyFastInt uniq, n_sort = Internal, n_occ = occ, n_loc = loc }
-- NB: You might worry that after lots of huffing and
-- puffing we might end up with two local names with distinct
-- uniques, but the same OccName. Indeed we can, but that's ok
-- * for interface files we tidyCore first, which puts the uniques
-- into the print name (see setNameVisibility below)
-mkExternalName :: Unique -> Module -> OccName -> SrcLoc -> Name
+mkExternalName :: Unique -> Module -> OccName -> SrcSpan -> Name
mkExternalName uniq mod occ loc
- = Name { n_uniq = getKey# uniq, n_sort = External mod,
+ = Name { n_uniq = getKeyFastInt uniq, n_sort = External mod,
n_occ = occ, n_loc = loc }
mkWiredInName :: Module -> OccName -> Unique -> TyThing -> BuiltInSyntax
-> Name
mkWiredInName mod occ uniq thing built_in
- = Name { n_uniq = getKey# uniq,
+ = Name { n_uniq = getKeyFastInt uniq,
n_sort = WiredIn mod thing built_in,
- n_occ = occ, n_loc = wiredInSrcLoc }
+ n_occ = occ, n_loc = wiredInSrcSpan }
mkSystemName :: Unique -> OccName -> Name
-mkSystemName uniq occ = Name { n_uniq = getKey# uniq, n_sort = System,
- n_occ = occ, n_loc = noSrcLoc }
+mkSystemName uniq occ = Name { n_uniq = getKeyFastInt uniq, n_sort = System,
+ n_occ = occ, n_loc = noSrcSpan }
mkSystemVarName :: Unique -> FastString -> Name
mkSystemVarName uniq fs = mkSystemName uniq (mkVarOccFS fs)
mkFCallName :: Unique -> String -> Name
-- The encoded string completely describes the ccall
-mkFCallName uniq str = Name { n_uniq = getKey# uniq, n_sort = Internal,
- n_occ = mkVarOcc str, n_loc = noSrcLoc }
+mkFCallName uniq str = Name { n_uniq = getKeyFastInt uniq, n_sort = Internal,
+ n_occ = mkVarOcc str, n_loc = noSrcSpan }
mkTickBoxOpName :: Unique -> String -> Name
mkTickBoxOpName uniq str
- = Name { n_uniq = getKey# uniq, n_sort = Internal,
- n_occ = mkVarOcc str, n_loc = noSrcLoc }
+ = Name { n_uniq = getKeyFastInt uniq, n_sort = Internal,
+ n_occ = mkVarOcc str, n_loc = noSrcSpan }
mkIPName :: Unique -> OccName -> Name
mkIPName uniq occ
- = Name { n_uniq = getKey# uniq,
+ = Name { n_uniq = getKeyFastInt uniq,
n_sort = Internal,
n_occ = occ,
- n_loc = noSrcLoc }
+ n_loc = noSrcSpan }
\end{code}
\begin{code}
-- able to change a Name's Unique to match the cached
-- one in the thing it's the name of. If you know what I mean.
setNameUnique :: Name -> Unique -> Name
-setNameUnique name uniq = name {n_uniq = getKey# uniq}
+setNameUnique name uniq = name {n_uniq = getKeyFastInt uniq}
tidyNameOcc :: Name -> OccName -> Name
-- We set the OccName of a Name when tidying
%************************************************************************
\begin{code}
-hashName :: Name -> Int
-hashName name = getKey (nameUnique name)
+hashName :: Name -> Int -- ToDo: should really be Word
+hashName name = getKey (nameUnique name) + 1
+ -- The +1 avoids keys with lots of zeros in the ls bits, which
+ -- interacts badly with the cheap and cheerful multiplication in
+ -- hashExpr
\end{code}
%************************************************************************
\begin{code}
-cmpName n1 n2 = I# (n_uniq n1) `compare` I# (n_uniq n2)
+cmpName :: Name -> Name -> Ordering
+cmpName n1 n2 = iBox (n_uniq n1) `compare` iBox (n_uniq n2)
\end{code}
\begin{code}
\begin{code}
instance Binary Name where
- put_ bh name = do
- case getUserData bh of {
- UserData { ud_symtab_map = symtab_map_ref,
- ud_symtab_next = symtab_next } -> do
- symtab_map <- readIORef symtab_map_ref
- case lookupUFM symtab_map name of
- Just (off,_) -> put_ bh off
- Nothing -> do
- off <- readFastMutInt symtab_next
- writeFastMutInt symtab_next (off+1)
- writeIORef symtab_map_ref
- $! addToUFM symtab_map name (off,name)
- put_ bh off
- }
+ put_ bh name =
+ case getUserData bh of
+ UserData{ ud_put_name = put_name } -> put_name bh name
get bh = do
i <- get bh
instance OutputableBndr Name where
pprBndr _ name = pprName name
-pprName name@(Name {n_sort = sort, n_uniq = u#, n_occ = occ})
+pprName :: Name -> SDoc
+pprName (Name {n_sort = sort, n_uniq = u, n_occ = occ})
= getPprStyle $ \ sty ->
case sort of
WiredIn mod _ builtin -> pprExternal sty uniq mod occ True builtin
External mod -> pprExternal sty uniq mod occ False UserSyntax
System -> pprSystem sty uniq occ
Internal -> pprInternal sty uniq occ
- where uniq = mkUniqueGrimily (I# u#)
+ where uniq = mkUniqueGrimily (iBox u)
+pprExternal :: PprStyle -> Unique -> Module -> OccName -> Bool -> BuiltInSyntax -> SDoc
pprExternal sty uniq mod occ is_wired is_builtin
| codeStyle sty = ppr mod <> char '_' <> ppr_z_occ_name occ
-- In code style, always qualify
-- ToDo: maybe we could print all wired-in things unqualified
-- in code style, to reduce symbol table bloat?
| debugStyle sty = ppr mod <> dot <> ppr_occ_name occ
- <> braces (hsep [if is_wired then ptext SLIT("(w)") else empty,
+ <> braces (hsep [if is_wired then ptext (sLit "(w)") else empty,
pprNameSpaceBrief (occNameSpace occ),
pprUnique uniq])
| BuiltInSyntax <- is_builtin = ppr_occ_name occ
-- never qualify builtin syntax
- | Just mod <- qualName sty mod occ = ppr mod <> dot <> ppr_occ_name occ
- -- the PrintUnqualified tells us how to qualify this Name, if at all
+ | NameQual modname <- qual_name = ppr modname <> dot <> ppr_occ_name occ
+ -- see HscTypes.mkPrintUnqualified and Outputable.QualifyName:
+ | NameNotInScope1 <- qual_name = ppr mod <> dot <> ppr_occ_name occ
+ | NameNotInScope2 <- qual_name = ppr (modulePackageId mod) <> char ':' <>
+ ppr (moduleName mod) <> dot <> ppr_occ_name occ
| otherwise = ppr_occ_name occ
+ where qual_name = qualName sty mod occ
+pprInternal :: PprStyle -> Unique -> OccName -> SDoc
pprInternal sty uniq occ
| codeStyle sty = pprUnique uniq
| debugStyle sty = ppr_occ_name occ <> braces (hsep [pprNameSpaceBrief (occNameSpace occ),
| otherwise = ppr_occ_name occ -- User style
-- Like Internal, except that we only omit the unique in Iface style
+pprSystem :: PprStyle -> Unique -> OccName -> SDoc
pprSystem sty uniq occ
| codeStyle sty = pprUnique uniq
| debugStyle sty = ppr_occ_name occ <> char '_' <> pprUnique uniq
-- is unlikely to be informative (like 's'),
-- so print the unique
+ppr_occ_name :: OccName -> SDoc
ppr_occ_name occ = ftext (occNameFS occ)
-- Don't use pprOccName; instead, just print the string of the OccName;
-- we print the namespace in the debug stuff above
-- In code style, we Z-encode the strings. The results of Z-encoding each FastString are
-- cached behind the scenes in the FastString implementation.
+ppr_z_occ_name :: OccName -> SDoc
ppr_z_occ_name occ = ftext (zEncodeFS (occNameFS occ))
+
+-- Prints (if mod information is available) "Defined at <loc>" or
+-- "Defined in <mod>" information for a Name.
+pprNameLoc :: Name -> SDoc
+pprNameLoc name
+ | isGoodSrcSpan loc = pprDefnLoc loc
+ | isInternalName name || isSystemName name
+ = ptext (sLit "<no location info>")
+ | otherwise = ptext (sLit "Defined in ") <> ppr (nameModule name)
+ where loc = nameSrcSpan name
\end{code}
%************************************************************************
\begin{code}
getSrcLoc :: NamedThing a => a -> SrcLoc
+getSrcSpan :: NamedThing a => a -> SrcSpan
getOccString :: NamedThing a => a -> String
getSrcLoc = nameSrcLoc . getName
+getSrcSpan = nameSrcSpan . getName
getOccString = occNameString . getOccName
+
+pprInfixName, pprPrefixName :: (Outputable a, NamedThing a) => a -> SDoc
+-- See Outputable.pprPrefixVar, pprInfixVar;
+-- add parens or back-quotes as appropriate
+pprInfixName n = pprInfixVar (isSymOcc (getOccName n)) (ppr n)
+pprPrefixName n = pprPrefixVar (isSymOcc (getOccName n)) (ppr n)
\end{code}