-
+%
% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
module OccName (
-- The NameSpace type; abstact
NameSpace, tcName, clsName, tcClsName, dataName, varName, ipName,
- tvName, uvName, nameSpaceString,
+ tvName, nameSpaceString,
-- The OccName type
OccName, -- Abstract, instance of Outputable
pprOccName,
- mkSrcOccFS, mkSysOcc, mkSysOccFS, mkCCallOcc, mkSrcVarOcc, mkKindOccFS,
+ mkOccFS, mkSysOcc, mkSysOccFS, mkCCallOcc, mkVarOcc, mkKindOccFS,
mkSuperDictSelOcc, mkDFunOcc, mkForeignExportOcc,
mkDictOcc, mkIPOcc, mkWorkerOcc, mkMethodOcc, mkDefaultMethodOcc,
mkDerivedTyConOcc, mkClassTyConOcc, mkClassDataConOcc, mkSpecOcc,
+ mkGenOcc1, mkGenOcc2,
- isTvOcc, isUvOcc, isDataOcc, isDataSymOcc, isSymOcc, isIPOcc, isValOcc,
+ isSysOcc, isTvOcc, isDataOcc, isDataSymOcc, isSymOcc, isIPOcc, isValOcc,
occNameFS, occNameString, occNameUserString, occNameSpace, occNameFlavour,
setOccNameSpace,
#include "HsVersions.h"
-import Char ( isDigit, isAlpha, isUpper, isLower, ISALPHANUM, ord, chr, digitToInt, intToDigit )
+import Char ( isDigit, isUpper, isLower, ISALPHANUM, ord, chr, digitToInt )
import Util ( thenCmp )
import FiniteMap ( FiniteMap, emptyFM, lookupFM, addToFM, elemFM )
import Outputable
pprEncodedFS :: EncodedFS -> SDoc
pprEncodedFS fs
= getPprStyle $ \ sty ->
- if userStyle sty then
- text (decode (_UNPK_ fs))
- else
- ptext fs
+ if userStyle sty
+ -- ptext (decodeFS fs) would needlessly pack the string again
+ then text (decode (_UNPK_ fs))
+ else ptext fs
\end{code}
%************************************************************************
| IPName -- Implicit Parameters
| DataName -- Data constructors
| TvName -- Type variables
- | UvName -- Usage variables
| TcClsName -- Type constructors and classes; Haskell has them
-- in the same name space for now.
deriving( Eq, Ord )
dataName = DataName
tvName = TvName
-uvName = UvName
varName = VarName
ipName = IPName
nameSpaceString VarName = "Variable"
nameSpaceString IPName = "Implicit Param"
nameSpaceString TvName = "Type variable"
-nameSpaceString UvName = "Usage variable"
nameSpaceString TcClsName = "Type constructor or class"
\end{code}
-- But then alreadyEncoded complains about the braces!
mkCCallOcc str = OccName varName (_PK_ str)
--- Kind constructors get a speical function. Uniquely, they are not encoded,
+-- Kind constructors get a special function. Uniquely, they are not encoded,
-- so that they have names like '*'. This means that *even in interface files*
-- we'll get kinds like (* -> (* -> *)). We can't use mkSysOcc because it
-- has an ASSERT that doesn't hold.
*Source-code* things are encoded.
\begin{code}
-mkSrcOccFS :: NameSpace -> UserFS -> OccName
-mkSrcOccFS occ_sp fs = mkSysOccFS occ_sp (encodeFS fs)
+mkOccFS :: NameSpace -> UserFS -> OccName
+mkOccFS occ_sp fs = mkSysOccFS occ_sp (encodeFS fs)
-mkSrcVarOcc :: UserFS -> OccName
-mkSrcVarOcc fs = mkSysOccFS varName (encodeFS fs)
+mkVarOcc :: UserFS -> OccName
+mkVarOcc fs = mkSysOccFS varName (encodeFS fs)
\end{code}
\end{code}
\begin{code}
-isTvOcc, isDataSymOcc, isSymOcc, isUvOcc :: OccName -> Bool
+isTvOcc, isDataSymOcc, isSymOcc :: OccName -> Bool
isTvOcc (OccName TvName _) = True
isTvOcc other = False
-isUvOcc (OccName UvName _) = True
-isUvOcc other = False
-
isValOcc (OccName VarName _) = True
isValOcc (OccName DataName _) = True
isValOcc other = False
mkIPOcc = mk_simple_deriv varName "$i"
mkSpecOcc = mk_simple_deriv varName "$s"
mkForeignExportOcc = mk_simple_deriv varName "$f"
-
+mkGenOcc1 = mk_simple_deriv varName "$gfrom" -- Generics
+mkGenOcc2 = mk_simple_deriv varName "$gto" -- Generics
mk_simple_deriv sp px occ = mk_deriv sp px (occNameString occ)
+
+
+isSysOcc :: OccName -> Bool -- True for all these '$' things
+isSysOcc occ = case occNameUserString occ of
+ ('$' : _ ) -> True
+ other -> False -- We don't care about the ':' ones
+ -- isSysOcc is only called for Ids anyway
\end{code}
\begin{code}
* Tuples (,,,) are coded as Z3T
-* Alphabetic characters (upper and lower), digits, and '_'
+* Alphabetic characters (upper and lower) and digits
all translate to themselves;
except 'Z', which translates to 'ZZ'
and 'z', which translates to 'zz'
We need both so that we can preserve the variable/tycon distinction
-* Most other printable characters translate to 'Zx' for some
+* Most other printable characters translate to 'zx' or 'Zx' for some
alphabetic character x
-* The others translate as 'Zxdd' where 'dd' is exactly two hexadecimal
- digits for the ord of the character
+* The others translate as 'znnnU' where 'nnn' is the decimal number
+ of the character
Before After
--------------------------
Trak Trak
- foo_wib foo_wib
- > Zg
- >1 Zg1
- foo# fooZh
- foo## fooZhZh
- foo##1 fooZhXh1
+ foo_wib foozuwib
+ > zg
+ >1 zg1
+ foo# foozh
+ foo## foozhzh
+ foo##1 foozhzh1
fooZ fooZZ
- :+ ZcZp
+ :+ Zczp
() Z0T
(,,,,) Z4T
alreadyEncoded :: String -> Bool
alreadyEncoded s = all ok s
where
- ok '_' = True
- ok ' ' = True -- This is a bit of a lie; if we really wanted spaces
- -- in names we'd have to encode them. But we do put
- -- spaces in ccall "occurrences", and we don't want to
- -- reject them here
+ ok ' ' = True
+ -- This is a bit of a lie; if we really wanted spaces
+ -- in names we'd have to encode them. But we do put
+ -- spaces in ccall "occurrences", and we don't want to
+ -- reject them here
ok ch = ISALPHANUM ch
alreadyEncodedFS :: FAST_STRING -> Bool
str = _UNPK_ fast_str
unencodedChar :: Char -> Bool -- True for chars that don't need encoding
-unencodedChar '_' = True
unencodedChar 'Z' = False
unencodedChar 'z' = False
unencodedChar c = ISALPHANUM c
encode_ch 'z' = "zz"
encode_ch '&' = "za"
encode_ch '|' = "zb"
+encode_ch '^' = "zc"
encode_ch '$' = "zd"
encode_ch '=' = "ze"
encode_ch '>' = "zg"
encode_ch '\\' = "zr"
encode_ch '/' = "zs"
encode_ch '*' = "zt"
-encode_ch '^' = "zu"
+encode_ch '_' = "zu"
encode_ch '%' = "zv"
-encode_ch c = ['z', 'x', intToDigit hi, intToDigit lo]
- where
- (hi,lo) = ord c `quotRem` 16
+encode_ch c = 'z' : shows (ord c) "U"
\end{code}
Decode is used for user printing.
decode_escape :: EncodedString -> UserString
-decode_escape ('Z' : rest) = 'Z' : decode rest
-decode_escape ('C' : rest) = ':' : decode rest
decode_escape ('L' : rest) = '(' : decode rest
decode_escape ('R' : rest) = ')' : decode rest
decode_escape ('M' : rest) = '[' : decode rest
decode_escape ('N' : rest) = ']' : decode rest
+decode_escape ('C' : rest) = ':' : decode rest
+decode_escape ('Z' : rest) = 'Z' : decode rest
decode_escape ('z' : rest) = 'z' : decode rest
decode_escape ('a' : rest) = '&' : decode rest
decode_escape ('b' : rest) = '|' : decode rest
+decode_escape ('c' : rest) = '^' : decode rest
decode_escape ('d' : rest) = '$' : decode rest
decode_escape ('e' : rest) = '=' : decode rest
decode_escape ('g' : rest) = '>' : decode rest
decode_escape ('r' : rest) = '\\' : decode rest
decode_escape ('s' : rest) = '/' : decode rest
decode_escape ('t' : rest) = '*' : decode rest
-decode_escape ('u' : rest) = '^' : decode rest
+decode_escape ('u' : rest) = '_' : decode rest
decode_escape ('v' : rest) = '%' : decode rest
-decode_escape ('x' : d1 : d2 : rest) = chr (digitToInt d1 * 16 + digitToInt d2) : decode rest
-- Tuples are coded as Z23T
+-- Characters not having a specific code are coded as z224U
decode_escape (c : rest)
| isDigit c = go (digitToInt c) rest
where
go n (c : rest) | isDigit c = go (10*n + digitToInt c) rest
go n ('T' : rest) = '(' : replicate n ',' ++ ')' : decode rest
+ go n ('U' : rest) = chr n : decode rest
go n other = pprPanic "decode_escape" (ppr n <+> text (c:rest))
decode_escape (c : rest) = pprTrace "decode_escape" (char c) (decode rest)
isLexConId cs -- Prefix type or data constructors
| _NULL_ cs = False -- e.g. "Foo", "[]", "(,)"
| cs == SLIT("[]") = True
- | c == '(' = True -- (), (,), (,,), ...
- | otherwise = isUpper c || isUpperISO c
- where
- c = _HEAD_ cs
+ | otherwise = startsConId (_HEAD_ cs)
isLexVarId cs -- Ordinary prefix identifiers
| _NULL_ cs = False -- e.g. "x", "_x"
- | otherwise = isLower c || isLowerISO c || c == '_'
- where
- c = _HEAD_ cs
+ | otherwise = startsVarId (_HEAD_ cs)
isLexConSym cs -- Infix type or data constructors
| _NULL_ cs = False -- e.g. ":-:", ":", "->"
- | otherwise = c == ':'
- || cs == SLIT("->")
- where
- c = _HEAD_ cs
+ | cs == SLIT("->") = True
+ | otherwise = startsConSym (_HEAD_ cs)
isLexVarSym cs -- Infix identifiers
| _NULL_ cs = False -- e.g. "+"
- | otherwise = isSymbolASCII c
- || isSymbolISO c
- where
- c = _HEAD_ cs
+ | otherwise = startsVarSym (_HEAD_ cs)
-------------
+startsVarSym, startsVarId, startsConSym, startsConId :: Char -> Bool
+startsVarSym c = isSymbolASCII c || isSymbolISO c -- Infix Ids
+startsConSym c = c == ':' -- Infix data constructors
+startsVarId c = isLower c || isLowerISO c || c == '_' -- Ordinary Ids
+startsConId c = isUpper c || isUpperISO c || c == '(' -- Ordinary type constructors and data constructors
+
+
isSymbolASCII c = c `elem` "!#$%&*+./<=>?@\\^|~-"
isSymbolISO c = ord c `elem` (0xd7 : 0xf7 : [0xa1 .. 0xbf])
isUpperISO (C# c#) = c# `geChar#` '\xc0'# && c# `leChar#` '\xde'# && c# `neChar#` '\xd7'#