-- Monad for parser
Token(..), lexer, ParseResult(..), PState(..),
- checkVersion,
+ checkVersion, ExtFlags(..), mkPState,
StringBuffer,
P, thenP, thenP_, returnP, mapP, failP, failMsgP,
import Char ( isSpace, toUpper )
import List ( isSuffixOf )
-import IdInfo ( InlinePragInfo(..) )
import PrelNames ( mkTupNameStr )
import CmdLineOpts ( opt_HiVersion, opt_NoHiCheck )
import ForeignCall ( Safety(..) )
-import Demand ( Demand(..) {- instance Read -} )
+import NewDemand ( StrictSig(..), Demand(..), Demands(..),
+ DmdResult(..), mkTopDmdType, evalDmd, lazyDmd )
import UniqFM ( listToUFM, lookupUFM )
import BasicTypes ( Boxity(..) )
import SrcLoc ( SrcLoc, incSrcLine, srcLocFile, srcLocLine,
import Ctype
import Char ( chr, ord )
import PrelRead ( readRational__ ) -- Glasgow non-std
+import PrelBits ( Bits(..) ) -- non-std
\end{code}
%************************************************************************
| ITexport
| ITlabel
| ITdynamic
+ | ITsafe
| ITunsafe
| ITwith
| ITstdcallconv
| ITarity
| ITspecialise
| ITnocaf
- | ITunfold InlinePragInfo
- | ITstrict ([Demand], Bool)
+ | ITunfold
+ | ITstrict StrictSig
| ITrules
| ITcprinfo
| ITdeprecated
| ITdarrow
| ITminus
| ITbang
+ | ITstar
| ITdot
| ITbiglam -- GHC-extension symbols
| ITccurlybar -- |}, for type applications
| ITvccurly
| ITobrack
+ | ITopabrack -- [:, for parallel arrays with -fparr
+ | ITcpabrack -- :], for parallel arrays with -fparr
| ITcbrack
| IToparen
| ITcparen
| ITqvarsym (FAST_STRING,FAST_STRING)
| ITqconsym (FAST_STRING,FAST_STRING)
- | ITipvarid FAST_STRING -- GHC extension: implicit param: ?x
+ | ITdupipvarid FAST_STRING -- GHC extension: implicit param: ?x
+ | ITsplitipvarid FAST_STRING -- GHC extension: implicit param: %x
| ITpragma StringBuffer
isSpecial ITexport = True
isSpecial ITlabel = True
isSpecial ITdynamic = True
+isSpecial ITsafe = True
isSpecial ITunsafe = True
isSpecial ITwith = True
isSpecial ITccallconv = True
( "export", ITexport ),
( "label", ITlabel ),
( "dynamic", ITdynamic ),
+ ( "safe", ITunsafe ),
( "unsafe", ITunsafe ),
( "with", ITwith ),
( "stdcall", ITstdcallconv),
("__C", ITnocaf),
("__R", ITrules),
("__D", ITdeprecated),
- ("__U", ITunfold NoInlinePragInfo),
+ ("__U", ITunfold),
("__ccall", ITccall (False, False, PlayRisky)),
("__ccall_GC", ITccall (False, False, PlaySafe)),
,("=>", ITdarrow)
,("-", ITminus)
,("!", ITbang)
+ ,("*", ITstar)
,(".", ITdot) -- sadly, for 'forall a . t'
]
\end{code}
Lexer state:
- - (glaexts) lexing an interface file or -fglasgow-exts
+ - (exts) lexing a source with extensions, eg, an interface file or
+ with -fglasgow-exts
- (bol) pointer to beginning of line (for column calculations)
- (buf) pointer to beginning of token
- (buf) pointer to current char
lexer :: (Token -> P a) -> P a
lexer cont buf s@(PState{
loc = loc,
- glasgow_exts = glaexts,
+ extsBitmap = exts,
bol = bol,
atbol = atbol,
context = ctx
where
line = srcLocLine loc
- tab y bol atbol buf = -- trace ("tab: " ++ show (I# y) ++ " : " ++ show (currentChar buf)) $
+ tab y bol atbol buf = --trace ("tab: " ++ show (I# y) ++ " : " ++ show (currentChar buf)) $
case currentChar# buf of
'\NUL'# ->
let lexeme = mkFastString -- ToDo: too slow
(map toUpper (lexemeToString buf2)) in
case lookupUFM pragmaKeywordsFM lexeme of
+ -- ignore RULES pragmas when -fglasgow-exts is off
+ Just ITrules_prag | not (glaExtsEnabled exts) ->
+ skip_to_end (stepOnBy# buf 2#) s'
Just ITline_prag ->
line_prag skip_to_end buf2 s'
Just other -> is_a_token
else skip_to_end (stepOnBy# buf 2#) s'
where
- skip_to_end = nested_comment (lexer cont)
+ skip_to_end = skipNestedComment (lexer cont)
-- special GHC extension: we grok cpp-style #line pragmas
'#'# | lexemeIndex buf ==# bol -> -- the '#' must be in column 0
- case expandWhile# is_space (stepOn buf) of { buf1 ->
- if is_digit (currentChar# buf1)
- then line_prag next_line buf1 s'
+ let buf1 | lookAhead# buf 1# `eqChar#` 'l'# &&
+ lookAhead# buf 2# `eqChar#` 'i'# &&
+ lookAhead# buf 3# `eqChar#` 'n'# &&
+ lookAhead# buf 4# `eqChar#` 'e'# = stepOnBy# buf 5#
+ | otherwise = stepOn buf
+ in
+ case expandWhile# is_space buf1 of { buf2 ->
+ if is_digit (currentChar# buf2)
+ then line_prag next_line buf2 s'
else is_a_token
}
where
atbol = atbol}
is_a_token | atbol /=# 0# = lexBOL cont buf s'
- | otherwise = lexToken cont glaexts buf s'
+ | otherwise = lexToken cont exts buf s'
-- {-# LINE .. #-} pragmas. yeuch.
line_prag cont buf s@PState{loc=loc} =
_other -> cont (stepOverLexeme buf3) s{loc = replaceSrcLine loc l}
}}}}
-nested_comment :: P a -> P a
-nested_comment cont buf = loop buf
+skipNestedComment :: P a -> P a
+skipNestedComment cont buf state = skipNestedComment' (loc state) cont buf state
+
+skipNestedComment' :: SrcLoc -> P a -> P a
+skipNestedComment' orig_loc cont buf = loop buf
where
loop buf =
case currentChar# buf of
- '\NUL'# | bufferExhausted (stepOn buf) ->
- lexError "unterminated `{-'" buf -- -}
- '-'# | lookAhead# buf 1# `eqChar#` '}'# ->
- cont (stepOnBy# buf 2#)
+ '-'# | lookAhead# buf 1# `eqChar#` '}'# -> cont (stepOnBy# buf 2#)
'{'# | lookAhead# buf 1# `eqChar#` '-'# ->
- nested_comment (nested_comment cont) (stepOnBy# buf 2#)
+ skipNestedComment
+ (skipNestedComment' orig_loc cont)
+ (stepOnBy# buf 2#)
'\n'# -> \ s@PState{loc=loc} ->
let buf' = stepOn buf in
- nested_comment cont buf'
- s{loc = incSrcLine loc, bol = currentIndex# buf',
- atbol = 1#}
+ loop buf' s{loc = incSrcLine loc,
+ bol = currentIndex# buf',
+ atbol = 1#}
+
+ -- pass the original SrcLoc to lexError so that the error is
+ -- reported at the line it was originally on, not the line at
+ -- the end of the file.
+ '\NUL'# | bufferExhausted (stepOn buf) ->
+ \s -> lexError "unterminated `{-'" buf s{loc=orig_loc} -- -}
- _ -> nested_comment cont (stepOn buf)
+ _ -> loop (stepOn buf)
-- When we are lexing the first token of a line, check whether we need to
-- insert virtual semicolons or close braces due to layout.
lexBOL :: (Token -> P a) -> P a
lexBOL cont buf s@(PState{
loc = loc,
- glasgow_exts = glaexts,
+ extsBitmap = exts,
bol = bol,
atbol = atbol,
context = ctx
--trace ("col = " ++ show (I# col) ++ ", layout: inserting ';'") $
cont ITsemi buf s{atbol = 0#}
else
- lexToken cont glaexts buf s{atbol = 0#}
+ lexToken cont exts buf s{atbol = 0#}
where
col = currentIndex# buf -# bol
lexToken :: (Token -> P a) -> Int# -> P a
-lexToken cont glaexts buf =
- -- trace "lexToken" $
+lexToken cont exts buf =
+-- trace "lexToken" $
case currentChar# buf of
-- special symbols ----------------------------------------------------
- '('# | flag glaexts && lookAhead# buf 1# `eqChar#` '#'#
+ '('# | glaExtsEnabled exts && lookAhead# buf 1# `eqChar#` '#'#
-> cont IToubxparen (setCurrentPos# buf 2#)
| otherwise
-> cont IToparen (incLexeme buf)
')'# -> cont ITcparen (incLexeme buf)
- '['# -> cont ITobrack (incLexeme buf)
+ '['# | parrEnabled exts && lookAhead# buf 1# `eqChar#` ':'# ->
+ cont ITopabrack (setCurrentPos# buf 2#)
+ | otherwise ->
+ cont ITobrack (incLexeme buf)
']'# -> cont ITcbrack (incLexeme buf)
','# -> cont ITcomma (incLexeme buf)
';'# -> cont ITsemi (incLexeme buf)
(_:ctx') -> cont ITccurly (incLexeme buf) s{context=ctx'}
_ -> lexError "too many '}'s" buf s
'|'# -> case lookAhead# buf 1# of
- '}'# | flag glaexts -> cont ITccurlybar
- (setCurrentPos# buf 2#)
- _ -> lex_sym cont (incLexeme buf)
+ '}'# | glaExtsEnabled exts -> cont ITccurlybar
+ (setCurrentPos# buf 2#)
+ _ -> lex_sym cont (incLexeme buf)
+ ':'# -> case lookAhead# buf 1# of
+ ']'# | parrEnabled exts -> cont ITcpabrack
+ (setCurrentPos# buf 2#)
+ _ -> lex_sym cont (incLexeme buf)
'#'# -> case lookAhead# buf 1# of
- ')'# | flag glaexts -> cont ITcubxparen (setCurrentPos# buf 2#)
+ ')'# | glaExtsEnabled exts
+ -> cont ITcubxparen (setCurrentPos# buf 2#)
'-'# -> case lookAhead# buf 2# of
'}'# -> cont ITclose_prag (setCurrentPos# buf 3#)
_ -> lex_sym cont (incLexeme buf)
_ -> lex_sym cont (incLexeme buf)
- '`'# | flag glaexts && lookAhead# buf 1# `eqChar#` '`'#
+ '`'# | glaExtsEnabled exts && lookAhead# buf 1# `eqChar#` '`'#
-> lex_cstring cont (setCurrentPos# buf 2#)
| otherwise
-> cont ITbackquote (incLexeme buf)
- '{'# -> -- look for "{-##" special iface pragma
+ '{'# -> -- look for "{-##" special iface pragma -- for Emacs: -}
case lookAhead# buf 1# of
- '|'# | flag glaexts
+ '|'# | glaExtsEnabled exts
-> cont ITocurlybar (setCurrentPos# buf 2#)
'-'# -> case lookAhead# buf 2# of
'#'# -> case lookAhead# buf 3# of
'#'# ->
- let (lexeme, buf')
- = doDiscard 0# (stepOnBy# (stepOverLexeme buf) 4#) in
- cont (ITpragma lexeme) buf'
+ lexPragma
+ cont
+ (\ cont lexeme buf' -> cont (ITpragma lexeme) buf')
+ 0#
+ (stepOnBy# (stepOverLexeme buf) 4#)
_ -> lex_prag cont (setCurrentPos# buf 3#)
_ -> cont ITocurly (incLexeme buf)
_ -> (layoutOff `thenP_` cont ITocurly) (incLexeme buf)
-- strings/characters -------------------------------------------------
- '\"'#{-"-} -> lex_string cont glaexts [] (incLexeme buf)
- '\''# -> lex_char (char_end cont) glaexts (incLexeme buf)
+ '\"'#{-"-} -> lex_string cont exts [] (incLexeme buf)
+ '\''# -> lex_char (char_end cont) exts (incLexeme buf)
-- strictness and cpr pragmas and __scc treated specially.
- '_'# | flag glaexts ->
+ '_'# | glaExtsEnabled exts ->
case lookAhead# buf 1# of
'_'# -> case lookAhead# buf 2# of
'S'# ->
's'# ->
case prefixMatch (stepOnBy# buf 3#) "cc" of
Just buf' -> lex_scc cont (stepOverLexeme buf')
- Nothing -> lex_id cont glaexts buf
- _ -> lex_id cont glaexts buf
- _ -> lex_id cont glaexts buf
+ Nothing -> lex_id cont exts buf
+ _ -> lex_id cont exts buf
+ _ -> lex_id cont exts buf
-- Hexadecimal and octal constants
'0'# | (ch `eqChar#` 'x'# || ch `eqChar#` 'X'#) && is_hexdigit ch2
- -> readNum (after_lexnum cont glaexts) buf' is_hexdigit 16 hex
+ -> readNum (after_lexnum cont exts) buf' is_hexdigit 16 hex
| (ch `eqChar#` 'o'# || ch `eqChar#` 'O'#) && is_octdigit ch2
- -> readNum (after_lexnum cont glaexts) buf' is_octdigit 8 oct_or_dec
+ -> readNum (after_lexnum cont exts) buf' is_octdigit 8 oct_or_dec
where ch = lookAhead# buf 1#
ch2 = lookAhead# buf 2#
buf' = setCurrentPos# buf 2#
trace "lexIface: misplaced NUL?" $
cont (ITunknown "\NUL") (stepOn buf)
- '?'# | flag glaexts && is_lower (lookAhead# buf 1#) ->
- lex_ip cont (incLexeme buf)
- c | is_digit c -> lex_num cont glaexts 0 buf
+ '?'# | glaExtsEnabled exts && is_lower (lookAhead# buf 1#) ->
+ lex_ip ITdupipvarid cont (incLexeme buf)
+ '%'# | glaExtsEnabled exts && is_lower (lookAhead# buf 1#) ->
+ lex_ip ITsplitipvarid cont (incLexeme buf)
+ c | is_digit c -> lex_num cont exts 0 buf
| is_symbol c -> lex_sym cont buf
- | is_upper c -> lex_con cont glaexts buf buf
- | is_ident c -> lex_id cont glaexts buf
+ | is_upper c -> lex_con cont exts buf
+ | is_ident c -> lex_id cont exts buf
| otherwise -> lexError "illegal character" buf
-- Int# is unlifted, and therefore faster than Bool for flags.
-------------------------------------------------------------------------------
-- Strings & Chars
-lex_string cont glaexts s buf
+lex_string cont exts s buf
= case currentChar# buf of
'"'#{-"-} ->
let buf' = incLexeme buf
s' = mkFastStringNarrow (map chr (reverse s))
in case currentChar# buf' of
- '#'# | flag glaexts -> if all (<= 0xFF) s
+ '#'# | glaExtsEnabled exts -> if all (<= 0xFF) s
then cont (ITprimstring s') (incLexeme buf')
else lexError "primitive string literal must contain only characters <= \'\\xFF\'" buf'
_ -> cont (ITstring s') buf'
-- ignore \& in a string, deal with string gaps
'\\'# | next_ch `eqChar#` '&'#
- -> lex_string cont glaexts s buf'
+ -> lex_string cont exts s buf'
| is_space next_ch
- -> lex_stringgap cont glaexts s (incLexeme buf)
+ -> lex_stringgap cont exts s (incLexeme buf)
where next_ch = lookAhead# buf 1#
buf' = setCurrentPos# buf 2#
- _ -> lex_char (lex_next_string cont s) glaexts buf
+ _ -> lex_char (lex_next_string cont s) exts buf
-lex_stringgap cont glaexts s buf
+lex_stringgap cont exts s buf
= let buf' = incLexeme buf in
case currentChar# buf of
- '\n'# -> \st@PState{loc = loc} -> lex_stringgap cont glaexts s buf'
+ '\n'# -> \st@PState{loc = loc} -> lex_stringgap cont exts s buf'
st{loc = incSrcLine loc}
- '\\'# -> lex_string cont glaexts s buf'
- c | is_space c -> lex_stringgap cont glaexts s buf'
+ '\\'# -> lex_string cont exts s buf'
+ c | is_space c -> lex_stringgap cont exts s buf'
other -> charError buf'
-lex_next_string cont s glaexts c buf = lex_string cont glaexts (c:s) buf
+lex_next_string cont s exts c buf = lex_string cont exts (c:s) buf
lex_char :: (Int# -> Int -> P a) -> Int# -> P a
-lex_char cont glaexts buf
+lex_char cont exts buf
= case currentChar# buf of
- '\\'# -> lex_escape (cont glaexts) (incLexeme buf)
- c | is_any c -> cont glaexts (I# (ord# c)) (incLexeme buf)
+ '\\'# -> lex_escape (cont exts) (incLexeme buf)
+ c | is_any c -> cont exts (I# (ord# c)) (incLexeme buf)
other -> charError buf
-char_end cont glaexts c buf
+char_end cont exts c buf
= case currentChar# buf of
'\''# -> let buf' = incLexeme buf in
case currentChar# buf' of
- '#'# | flag glaexts
+ '#'# | glaExtsEnabled exts
-> cont (ITprimchar c) (incLexeme buf')
_ -> cont (ITchar c) buf'
_ -> charError buf
lex_demand cont buf =
case read_em [] buf of { (ls,buf') ->
case currentChar# buf' of
- 'B'# -> cont (ITstrict (ls, True )) (incLexeme buf')
- _ -> cont (ITstrict (ls, False)) buf'
+ 'b'# -> cont (ITstrict (StrictSig (mkTopDmdType ls BotRes))) (incLexeme buf')
+ 'm'# -> cont (ITstrict (StrictSig (mkTopDmdType ls RetCPR))) (incLexeme buf')
+ _ -> cont (ITstrict (StrictSig (mkTopDmdType ls TopRes))) buf'
}
where
- -- code snatched from Demand.lhs
read_em acc buf =
case currentChar# buf of
- 'L'# -> read_em (WwLazy False : acc) (stepOn buf)
- 'A'# -> read_em (WwLazy True : acc) (stepOn buf)
- 'S'# -> read_em (WwStrict : acc) (stepOn buf)
- 'P'# -> read_em (WwPrim : acc) (stepOn buf)
- 'E'# -> read_em (WwEnum : acc) (stepOn buf)
- ')'# -> (reverse acc, stepOn buf)
- 'U'# -> do_unpack True acc (stepOnBy# buf 2#)
- 'u'# -> do_unpack False acc (stepOnBy# buf 2#)
- _ -> (reverse acc, buf)
+ 'T'# -> read_em (Top : acc) (stepOn buf)
+ 'L'# -> read_em (lazyDmd : acc) (stepOn buf)
+ 'A'# -> read_em (Abs : acc) (stepOn buf)
+ 'V'# -> read_em (evalDmd : acc) (stepOn buf) -- Temporary, until
+ -- we've recompiled prelude etc
+ 'C'# -> do_unary Call acc (stepOnBy# buf 2#) -- Skip 'C('
- do_unpack wrapper_unpacks acc buf
- = case read_em [] buf of
- (stuff, rest) -> read_em (WwUnpack wrapper_unpacks stuff : acc) rest
+ 'U'# -> do_seq1 Eval acc (stepOnBy# buf 1#)
+ 'D'# -> do_seq1 Defer acc (stepOnBy# buf 1#)
+ 'S'# -> do_seq1 (Box . Eval) acc (stepOnBy# buf 1#)
+ _ -> (reverse acc, buf)
+
+ do_seq1 fn acc buf
+ = case currentChar# buf of
+ '('# -> do_seq2 fn acc (stepOnBy# buf 1#)
+ _ -> read_em (fn (Poly Abs) : acc) buf
+
+ do_seq2 fn acc buf
+ = case read_em [] buf of { (dmds, buf) ->
+ case currentChar# buf of
+ ')'# -> read_em (fn (Prod dmds) : acc)
+ (stepOn buf)
+ '*'# -> ASSERT( length dmds == 1 )
+ read_em (fn (Poly (head dmds)) : acc)
+ (stepOnBy# buf 2#) -- Skip '*)'
+ }
+
+ do_unary fn acc buf
+ = case read_em [] buf of
+ ([dmd], rest) -> read_em (fn dmd : acc) (stepOn rest) -- Skip ')'
------------------
lex_scc cont buf =
-- Numbers
lex_num :: (Token -> P a) -> Int# -> Integer -> P a
-lex_num cont glaexts acc buf =
+lex_num cont exts acc buf =
case scanNumLit acc buf of
(acc',buf') ->
case currentChar# buf' of
v = readRational__ (lexemeToString l)
in case currentChar# l of -- glasgow exts only
- '#'# | flag glaexts -> let l' = incLexeme l in
+ '#'# | glaExtsEnabled exts -> let l' = incLexeme l in
case currentChar# l' of
'#'# -> cont (ITprimdouble v) (incLexeme l')
_ -> cont (ITprimfloat v) l'
_ -> cont (ITrational v) l
- _ -> after_lexnum cont glaexts acc' buf'
+ _ -> after_lexnum cont exts acc' buf'
-after_lexnum cont glaexts i buf
+after_lexnum cont exts i buf
= case currentChar# buf of
- '#'# | flag glaexts -> cont (ITprimint i) (incLexeme buf)
- _ -> cont (ITinteger i) buf
+ '#'# | glaExtsEnabled exts -> cont (ITprimint i) (incLexeme buf)
+ _ -> cont (ITinteger i) buf
-----------------------------------------------------------------------------
-- C "literal literal"s (i.e. things like ``NULL'', ``stdout'' etc.)
-----------------------------------------------------------------------------
-- identifiers, symbols etc.
-lex_ip cont buf =
+lex_ip ip_constr cont buf =
case expandWhile# is_ident buf of
- buf' -> cont (ITipvarid lexeme) buf'
- where lexeme = lexemeToFastString buf'
+ buf' -> cont (ip_constr (tailFS lexeme)) buf'
+ where lexeme = lexemeToFastString buf'
-lex_id cont glaexts buf =
+lex_id cont exts buf =
let buf1 = expandWhile# is_ident buf in
seq buf1 $
- case (if flag glaexts
+ case (if glaExtsEnabled exts
then expandWhile# (eqChar# '#'#) buf1 -- slurp trailing hashes
else buf1) of { buf' ->
let var_token = cont (ITvarid lexeme) buf' in
- if not (flag glaexts)
+ if not (glaExtsEnabled exts)
then var_token
else
-- lex_con recursively collects components of a qualified identifer.
--- The argument modbuf is the StringBuffer representing the lexeme
--- identified so far. The buf argument is an empty StringBuffer pointing
--- to the next character to be examined.
+-- The argument buf is the StringBuffer representing the lexeme
+-- identified so far, where the next character is upper-case.
-lex_con cont glaexts modbuf buf =
+lex_con cont exts buf =
-- trace ("con: "{-++unpackFS lexeme-}) $
- case expandWhile# is_ident buf of { buf1 ->
- case slurp_trailing_hashes buf1 glaexts of { buf' ->
-
- case currentChar# buf' of
- '.'# -> maybe_qualified cont glaexts modbuf' mod_lexeme
- (incLexeme buf') just_a_conid
+ let empty_buf = stepOverLexeme buf in
+ case expandWhile# is_ident empty_buf of { buf1 ->
+ case slurp_trailing_hashes buf1 exts of { con_buf ->
+
+ let all_buf = mergeLexemes buf con_buf
+
+ con_lexeme = lexemeToFastString con_buf
+ mod_lexeme = lexemeToFastString (decLexeme buf)
+ all_lexeme = lexemeToFastString all_buf
+
+ just_a_conid
+ | emptyLexeme buf = cont (ITconid con_lexeme) all_buf
+ | otherwise = cont (ITqconid (mod_lexeme,con_lexeme)) all_buf
+ in
+
+ case currentChar# all_buf of
+ '.'# -> maybe_qualified cont exts all_lexeme
+ (incLexeme all_buf) just_a_conid
_ -> just_a_conid
- where
- mod_lexeme = lexemeToFastString modbuf'
- modbuf' = mergeLexemes modbuf buf'
-
- just_a_conid
- | emptyLexeme modbuf = cont (ITconid mod_lexeme) buf'
- | otherwise = cont (ITqconid (lexemeToFastString modbuf,
- lexemeToFastString buf')) buf'
}}
-maybe_qualified cont glaexts modbuf mod buf just_a_conid =
+maybe_qualified cont exts mod buf just_a_conid =
-- trace ("qid: "{-++unpackFS lexeme-}) $
case currentChar# buf of
'['# -> -- Special case for []
'('# -> -- Special case for (,,,)
-- This *is* necessary to deal with e.g. "instance C PrelBase.(,,)"
case lookAhead# buf 1# of
- '#'# | flag glaexts -> case lookAhead# buf 2# of
+ '#'# | glaExtsEnabled exts -> case lookAhead# buf 2# of
','# -> lex_ubx_tuple cont mod (setCurrentPos# buf 3#)
just_a_conid
_ -> just_a_conid
'-'# -> case lookAhead# buf 1# of
'>'# -> cont (ITqconid (mod,SLIT("(->)"))) (setCurrentPos# buf 2#)
- _ -> lex_id3 cont glaexts modbuf mod buf just_a_conid
+ _ -> lex_id3 cont exts mod buf just_a_conid
- _ -> lex_id3 cont glaexts modbuf mod buf just_a_conid
+ _ -> lex_id3 cont exts mod buf just_a_conid
-lex_id3 cont glaexts modbuf mod buf just_a_conid
+lex_id3 cont exts mod buf just_a_conid
| is_upper (currentChar# buf) =
- lex_con cont glaexts modbuf (stepOverLexeme buf)
+ lex_con cont exts buf
| is_symbol (currentChar# buf) =
let
then just_a_conid
else
- case slurp_trailing_hashes buf1 glaexts of { buf' ->
+ case slurp_trailing_hashes buf1 exts of { buf' ->
let
lexeme = lexemeToFastString buf'
-> just_a_conid -- avoid M.where etc.
}}}
-slurp_trailing_hashes buf glaexts
- | flag glaexts = expandWhile# (`eqChar#` '#'#) buf
- | otherwise = buf
+slurp_trailing_hashes buf exts
+ | glaExtsEnabled exts = expandWhile# (`eqChar#` '#'#) buf
+ | otherwise = buf
mk_var_token pk_str
\end{code}
-----------------------------------------------------------------------------
-doDiscard rips along really fast, looking for a '##-}',
+'lexPragma' rips along really fast, looking for a '##-}',
indicating the end of the pragma we're skipping
\begin{code}
-doDiscard inStr buf =
+lexPragma cont contf inStr buf =
case currentChar# buf of
'#'# | inStr ==# 0# ->
case lookAhead# buf 1# of { '#'# ->
case lookAhead# buf 2# of { '-'# ->
case lookAhead# buf 3# of { '}'# ->
- (lexemeToBuffer buf, stepOverLexeme (setCurrentPos# buf 4#));
- _ -> doDiscard inStr (incLexeme buf) };
- _ -> doDiscard inStr (incLexeme buf) };
- _ -> doDiscard inStr (incLexeme buf) }
+ contf cont (lexemeToBuffer buf)
+ (stepOverLexeme (setCurrentPos# buf 4#));
+ _ -> lexPragma cont contf inStr (incLexeme buf) };
+ _ -> lexPragma cont contf inStr (incLexeme buf) };
+ _ -> lexPragma cont contf inStr (incLexeme buf) }
'"'# ->
let
'\\'# -> -- escaping something..
if odd_slashes buf True (negateInt# 2#)
then -- odd number of slashes, " is escaped.
- doDiscard inStr (incLexeme buf)
+ lexPragma cont contf inStr (incLexeme buf)
else -- even number of slashes, \ is escaped.
- doDiscard not_inStr (incLexeme buf)
- _ -> doDiscard not_inStr (incLexeme buf)
+ lexPragma cont contf not_inStr (incLexeme buf)
+ _ -> lexPragma cont contf not_inStr (incLexeme buf)
'\''# | inStr ==# 0# ->
case lookAhead# buf 1# of { '"'# ->
case lookAhead# buf 2# of { '\''# ->
- doDiscard inStr (setCurrentPos# buf 3#);
- _ -> doDiscard inStr (incLexeme buf) };
- _ -> doDiscard inStr (incLexeme buf) }
+ lexPragma cont contf inStr (setCurrentPos# buf 3#);
+ _ -> lexPragma cont contf inStr (incLexeme buf) };
+ _ -> lexPragma cont contf inStr (incLexeme buf) }
+
+ -- a sign that the input is ill-formed, since pragmas are
+ -- assumed to always be properly closed (in .hi files).
+ '\NUL'# -> trace "lexPragma: unexpected end-of-file" $
+ cont (ITunknown "\NUL") buf
- _ -> doDiscard inStr (incLexeme buf)
+ _ -> lexPragma cont contf inStr (incLexeme buf)
\end{code}
| PFailed Message
data PState = PState {
- loc :: SrcLoc,
- glasgow_exts :: Int#,
- bol :: Int#,
- atbol :: Int#,
- context :: [LayoutContext]
+ loc :: SrcLoc,
+ extsBitmap :: Int#, -- bitmap that determines permitted extensions
+ bol :: Int#,
+ atbol :: Int#,
+ context :: [LayoutContext]
}
type P a = StringBuffer -- Input string
| "hi-boot" `isSuffixOf` (_UNPK_ (srcLocFile loc)) = POk s ()
| otherwise = PFailed (ifaceVersionErr mb loc ([]::[Token]){-Todo-})
+
+-- for reasons of efficiency, flags indicating language extensions (eg,
+-- -fglasgow-exts or -fparr) are represented by a bitmap stored in an unboxed
+-- integer
+
+glaExtsBit, ffiBit, parrBit :: Int
+glaExtsBit = 0
+ffiBit = 1 -- FIXME: not used yet; still part of `glaExtsBit'
+parrBit = 2
+
+glaExtsEnabled, ffiEnabled, parrEnabled :: Int# -> Bool
+glaExtsEnabled flags = testBit (I# flags) glaExtsBit
+ffiEnabled flags = testBit (I# flags) ffiBit
+parrEnabled flags = testBit (I# flags) parrBit
+
+-- convenient record-based bitmap for the interface to the rest of the world
+--
+data ExtFlags = ExtFlags {
+ glasgowExtsEF :: Bool,
+-- ffiEF :: Bool, -- commented out to avoid warnings
+ parrEF :: Bool -- while not used yet
+ }
+
+-- create a parse state
+--
+mkPState :: SrcLoc -> ExtFlags -> PState
+mkPState loc exts = PState {
+ loc = loc,
+ extsBitmap = case bitmap of {I# bits -> bits},
+ bol = 0#,
+ atbol = 1#,
+ context = []
+ }
+ where
+ bitmap = glaExtsBit `setBitIf` glasgowExtsEF exts
+-- .|. ffiBit `setBitIf` ffiEF exts
+ .|. parrBit `setBitIf` parrEF exts
+ --
+ b `setBitIf` cond | cond = bit b
+ | otherwise = 0
+
+
-----------------------------------------------------------------
ifaceParseErr :: StringBuffer -> SrcLoc -> Message