diff options
Diffstat (limited to 'BaseTools/Source/Python/Ecc/CLexer.py')
| -rw-r--r-- | BaseTools/Source/Python/Ecc/CLexer.py | 1722 |
1 files changed, 891 insertions, 831 deletions
diff --git a/BaseTools/Source/Python/Ecc/CLexer.py b/BaseTools/Source/Python/Ecc/CLexer.py index cc437e0821..947ac4c8e3 100644 --- a/BaseTools/Source/Python/Ecc/CLexer.py +++ b/BaseTools/Source/Python/Ecc/CLexer.py @@ -1,128 +1,149 @@ -# $ANTLR 3.0.1 C.g 2009-02-16 16:02:51 +# $ANTLR 3.0.1 C.g 2010-02-23 09:58:53 from antlr3 import * from antlr3.compat import set, frozenset +
+## @file
+# The file defines the Lexer for C source files.
+#
+# THIS FILE IS AUTO-GENENERATED. PLEASE DON NOT MODIFY THIS FILE.
+# This file is generated by running:
+# java org.antlr.Tool C.g
+#
+# Copyright (c) 2009 - 2010, Intel Corporation All rights reserved.
+#
+# This program and the accompanying materials are licensed and made available
+# under the terms and conditions of the BSD License which accompanies this
+# distribution. The full text of the license may be found at:
+# http://opensource.org/licenses/bsd-license.php
+#
+# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
+# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
+#
+##
+ # for convenience in actions HIDDEN = BaseRecognizer.HIDDEN # token types -T29=29 -HexDigit=13 -T70=70 -T74=74 -T85=85 -T102=102 T114=114 -T103=103 +T115=115 +T116=116 +T117=117 +FloatTypeSuffix=16 +LETTER=11 +T29=29 +T28=28 +T27=27 +T26=26 +T25=25 +EOF=-1 STRING_LITERAL=9 +FLOATING_POINT_LITERAL=10 +T38=38 +T37=37 +T39=39 +T34=34 +COMMENT=22 +T33=33 +T36=36 +T35=35 +T30=30 T32=32 -T81=81 +T31=31 +LINE_COMMENT=23 +IntegerTypeSuffix=14 +CHARACTER_LITERAL=8 +T49=49 +T48=48 +T100=100 +T43=43 +T42=42 +T102=102 T41=41 -FloatTypeSuffix=16 -T113=113 -T62=62 +T101=101 +T40=40 +T47=47 +T46=46 +T45=45 +T44=44 T109=109 +T107=107 +T108=108 +T105=105 +WS=19 +T106=106 +T103=103 +T104=104 +T50=50 +LINE_COMMAND=24 +T59=59 +T113=113 +T52=52 +T112=112 +T51=51 +T111=111 +T54=54 +T110=110 +EscapeSequence=12 DECIMAL_LITERAL=7 -IntegerTypeSuffix=14 -T68=68 +T53=53 +T56=56 +T55=55 +T58=58 +T57=57 +T75=75 +T76=76 T73=73 -T84=84 -T33=33 -UnicodeVocabulary=21 +T74=74 +T79=79 +T77=77 T78=78 -T115=115 -WS=19 -LINE_COMMAND=24 -T42=42 -T96=96 -T71=71 -LINE_COMMENT=23 +Exponent=15 +HexDigit=13 T72=72 -T94=94 -FLOATING_POINT_LITERAL=10 -T76=76 -UnicodeEscape=18 -T75=75 -T89=89 +T71=71 +T70=70 +T62=62 +T63=63 +T64=64 +T65=65 +T66=66 T67=67 -T31=31 -T60=60 -T82=82 -T100=100 -T49=49 +T68=68 +T69=69 IDENTIFIER=4 -T30=30 -CHARACTER_LITERAL=8 -T79=79 -T36=36 -T58=58 -T93=93 -T35=35 -T107=107 -OCTAL_LITERAL=6 -T83=83 -T61=61 +UnicodeVocabulary=21 HEX_LITERAL=5 -T45=45 -T34=34 -T101=101 -T64=64 -T25=25 -T91=91 -T105=105 -T37=37 -T86=86 -T116=116 -EscapeSequence=12 -T26=26 -T51=51 -T111=111 -T46=46 -T77=77 -T38=38 -T106=106 -T112=112 -T69=69 -T39=39 -T44=44 -T55=55 -LETTER=11 -Exponent=15 -T95=95 -T50=50 -T110=110 -T108=108 +T61=61 +T60=60 +T99=99 +T97=97 BS=20 +T98=98 +T95=95 +T96=96 +OCTAL_LITERAL=6 +T94=94 +Tokens=118 +T93=93 T92=92 -T43=43 -T28=28 -T40=40 -T66=66 -COMMENT=22 +T91=91 +T90=90 T88=88 -T63=63 -T57=57 -T65=65 -T98=98 -T56=56 +T89=89 +T84=84 +T85=85 +T86=86 T87=87 +UnicodeEscape=18 +T81=81 T80=80 -T59=59 -T97=97 -T48=48 -T54=54 -EOF=-1 -T104=104 -T47=47 -Tokens=117 -T53=53 +T83=83 OctalEscape=17 -T99=99 -T27=27 -T52=52 -T90=90 +T82=82 class CLexer(Lexer): @@ -162,8 +183,8 @@ class CLexer(Lexer): try: self.type = T25 - # C.g:7:5: ( ';' ) - # C.g:7:7: ';' + # C.g:27:5: ( ';' ) + # C.g:27:7: ';' self.match(u';') @@ -184,8 +205,8 @@ class CLexer(Lexer): try: self.type = T26 - # C.g:8:5: ( 'typedef' ) - # C.g:8:7: 'typedef' + # C.g:28:5: ( 'typedef' ) + # C.g:28:7: 'typedef' self.match("typedef") @@ -207,8 +228,8 @@ class CLexer(Lexer): try: self.type = T27 - # C.g:9:5: ( ',' ) - # C.g:9:7: ',' + # C.g:29:5: ( ',' ) + # C.g:29:7: ',' self.match(u',') @@ -229,8 +250,8 @@ class CLexer(Lexer): try: self.type = T28 - # C.g:10:5: ( '=' ) - # C.g:10:7: '=' + # C.g:30:5: ( '=' ) + # C.g:30:7: '=' self.match(u'=') @@ -251,8 +272,8 @@ class CLexer(Lexer): try: self.type = T29 - # C.g:11:5: ( 'extern' ) - # C.g:11:7: 'extern' + # C.g:31:5: ( 'extern' ) + # C.g:31:7: 'extern' self.match("extern") @@ -274,8 +295,8 @@ class CLexer(Lexer): try: self.type = T30 - # C.g:12:5: ( 'static' ) - # C.g:12:7: 'static' + # C.g:32:5: ( 'static' ) + # C.g:32:7: 'static' self.match("static") @@ -297,8 +318,8 @@ class CLexer(Lexer): try: self.type = T31 - # C.g:13:5: ( 'auto' ) - # C.g:13:7: 'auto' + # C.g:33:5: ( 'auto' ) + # C.g:33:7: 'auto' self.match("auto") @@ -320,8 +341,8 @@ class CLexer(Lexer): try: self.type = T32 - # C.g:14:5: ( 'register' ) - # C.g:14:7: 'register' + # C.g:34:5: ( 'register' ) + # C.g:34:7: 'register' self.match("register") @@ -343,8 +364,8 @@ class CLexer(Lexer): try: self.type = T33 - # C.g:15:5: ( 'STATIC' ) - # C.g:15:7: 'STATIC' + # C.g:35:5: ( 'STATIC' ) + # C.g:35:7: 'STATIC' self.match("STATIC") @@ -366,8 +387,8 @@ class CLexer(Lexer): try: self.type = T34 - # C.g:16:5: ( 'void' ) - # C.g:16:7: 'void' + # C.g:36:5: ( 'void' ) + # C.g:36:7: 'void' self.match("void") @@ -389,8 +410,8 @@ class CLexer(Lexer): try: self.type = T35 - # C.g:17:5: ( 'char' ) - # C.g:17:7: 'char' + # C.g:37:5: ( 'char' ) + # C.g:37:7: 'char' self.match("char") @@ -412,8 +433,8 @@ class CLexer(Lexer): try: self.type = T36 - # C.g:18:5: ( 'short' ) - # C.g:18:7: 'short' + # C.g:38:5: ( 'short' ) + # C.g:38:7: 'short' self.match("short") @@ -435,8 +456,8 @@ class CLexer(Lexer): try: self.type = T37 - # C.g:19:5: ( 'int' ) - # C.g:19:7: 'int' + # C.g:39:5: ( 'int' ) + # C.g:39:7: 'int' self.match("int") @@ -458,8 +479,8 @@ class CLexer(Lexer): try: self.type = T38 - # C.g:20:5: ( 'long' ) - # C.g:20:7: 'long' + # C.g:40:5: ( 'long' ) + # C.g:40:7: 'long' self.match("long") @@ -481,8 +502,8 @@ class CLexer(Lexer): try: self.type = T39 - # C.g:21:5: ( 'float' ) - # C.g:21:7: 'float' + # C.g:41:5: ( 'float' ) + # C.g:41:7: 'float' self.match("float") @@ -504,8 +525,8 @@ class CLexer(Lexer): try: self.type = T40 - # C.g:22:5: ( 'double' ) - # C.g:22:7: 'double' + # C.g:42:5: ( 'double' ) + # C.g:42:7: 'double' self.match("double") @@ -527,8 +548,8 @@ class CLexer(Lexer): try: self.type = T41 - # C.g:23:5: ( 'signed' ) - # C.g:23:7: 'signed' + # C.g:43:5: ( 'signed' ) + # C.g:43:7: 'signed' self.match("signed") @@ -550,8 +571,8 @@ class CLexer(Lexer): try: self.type = T42 - # C.g:24:5: ( 'unsigned' ) - # C.g:24:7: 'unsigned' + # C.g:44:5: ( 'unsigned' ) + # C.g:44:7: 'unsigned' self.match("unsigned") @@ -573,8 +594,8 @@ class CLexer(Lexer): try: self.type = T43 - # C.g:25:5: ( '{' ) - # C.g:25:7: '{' + # C.g:45:5: ( '{' ) + # C.g:45:7: '{' self.match(u'{') @@ -595,8 +616,8 @@ class CLexer(Lexer): try: self.type = T44 - # C.g:26:5: ( '}' ) - # C.g:26:7: '}' + # C.g:46:5: ( '}' ) + # C.g:46:7: '}' self.match(u'}') @@ -617,8 +638,8 @@ class CLexer(Lexer): try: self.type = T45 - # C.g:27:5: ( 'struct' ) - # C.g:27:7: 'struct' + # C.g:47:5: ( 'struct' ) + # C.g:47:7: 'struct' self.match("struct") @@ -640,8 +661,8 @@ class CLexer(Lexer): try: self.type = T46 - # C.g:28:5: ( 'union' ) - # C.g:28:7: 'union' + # C.g:48:5: ( 'union' ) + # C.g:48:7: 'union' self.match("union") @@ -663,8 +684,8 @@ class CLexer(Lexer): try: self.type = T47 - # C.g:29:5: ( ':' ) - # C.g:29:7: ':' + # C.g:49:5: ( ':' ) + # C.g:49:7: ':' self.match(u':') @@ -685,8 +706,8 @@ class CLexer(Lexer): try: self.type = T48 - # C.g:30:5: ( 'enum' ) - # C.g:30:7: 'enum' + # C.g:50:5: ( 'enum' ) + # C.g:50:7: 'enum' self.match("enum") @@ -708,8 +729,8 @@ class CLexer(Lexer): try: self.type = T49 - # C.g:31:5: ( 'const' ) - # C.g:31:7: 'const' + # C.g:51:5: ( 'const' ) + # C.g:51:7: 'const' self.match("const") @@ -731,8 +752,8 @@ class CLexer(Lexer): try: self.type = T50 - # C.g:32:5: ( 'volatile' ) - # C.g:32:7: 'volatile' + # C.g:52:5: ( 'volatile' ) + # C.g:52:7: 'volatile' self.match("volatile") @@ -754,8 +775,8 @@ class CLexer(Lexer): try: self.type = T51 - # C.g:33:5: ( 'IN' ) - # C.g:33:7: 'IN' + # C.g:53:5: ( 'IN' ) + # C.g:53:7: 'IN' self.match("IN") @@ -777,8 +798,8 @@ class CLexer(Lexer): try: self.type = T52 - # C.g:34:5: ( 'OUT' ) - # C.g:34:7: 'OUT' + # C.g:54:5: ( 'OUT' ) + # C.g:54:7: 'OUT' self.match("OUT") @@ -800,8 +821,8 @@ class CLexer(Lexer): try: self.type = T53 - # C.g:35:5: ( 'OPTIONAL' ) - # C.g:35:7: 'OPTIONAL' + # C.g:55:5: ( 'OPTIONAL' ) + # C.g:55:7: 'OPTIONAL' self.match("OPTIONAL") @@ -823,8 +844,8 @@ class CLexer(Lexer): try: self.type = T54 - # C.g:36:5: ( 'CONST' ) - # C.g:36:7: 'CONST' + # C.g:56:5: ( 'CONST' ) + # C.g:56:7: 'CONST' self.match("CONST") @@ -846,8 +867,8 @@ class CLexer(Lexer): try: self.type = T55 - # C.g:37:5: ( 'UNALIGNED' ) - # C.g:37:7: 'UNALIGNED' + # C.g:57:5: ( 'UNALIGNED' ) + # C.g:57:7: 'UNALIGNED' self.match("UNALIGNED") @@ -869,8 +890,8 @@ class CLexer(Lexer): try: self.type = T56 - # C.g:38:5: ( 'VOLATILE' ) - # C.g:38:7: 'VOLATILE' + # C.g:58:5: ( 'VOLATILE' ) + # C.g:58:7: 'VOLATILE' self.match("VOLATILE") @@ -892,8 +913,8 @@ class CLexer(Lexer): try: self.type = T57 - # C.g:39:5: ( 'GLOBAL_REMOVE_IF_UNREFERENCED' ) - # C.g:39:7: 'GLOBAL_REMOVE_IF_UNREFERENCED' + # C.g:59:5: ( 'GLOBAL_REMOVE_IF_UNREFERENCED' ) + # C.g:59:7: 'GLOBAL_REMOVE_IF_UNREFERENCED' self.match("GLOBAL_REMOVE_IF_UNREFERENCED") @@ -915,8 +936,8 @@ class CLexer(Lexer): try: self.type = T58 - # C.g:40:5: ( 'EFIAPI' ) - # C.g:40:7: 'EFIAPI' + # C.g:60:5: ( 'EFIAPI' ) + # C.g:60:7: 'EFIAPI' self.match("EFIAPI") @@ -938,8 +959,8 @@ class CLexer(Lexer): try: self.type = T59 - # C.g:41:5: ( 'EFI_BOOTSERVICE' ) - # C.g:41:7: 'EFI_BOOTSERVICE' + # C.g:61:5: ( 'EFI_BOOTSERVICE' ) + # C.g:61:7: 'EFI_BOOTSERVICE' self.match("EFI_BOOTSERVICE") @@ -961,8 +982,8 @@ class CLexer(Lexer): try: self.type = T60 - # C.g:42:5: ( 'EFI_RUNTIMESERVICE' ) - # C.g:42:7: 'EFI_RUNTIMESERVICE' + # C.g:62:5: ( 'EFI_RUNTIMESERVICE' ) + # C.g:62:7: 'EFI_RUNTIMESERVICE' self.match("EFI_RUNTIMESERVICE") @@ -984,9 +1005,10 @@ class CLexer(Lexer): try: self.type = T61 - # C.g:43:5: ( '(' ) - # C.g:43:7: '(' - self.match(u'(') + # C.g:63:5: ( 'PACKED' ) + # C.g:63:7: 'PACKED' + self.match("PACKED") + @@ -1006,9 +1028,9 @@ class CLexer(Lexer): try: self.type = T62 - # C.g:44:5: ( ')' ) - # C.g:44:7: ')' - self.match(u')') + # C.g:64:5: ( '(' ) + # C.g:64:7: '(' + self.match(u'(') @@ -1028,9 +1050,9 @@ class CLexer(Lexer): try: self.type = T63 - # C.g:45:5: ( '[' ) - # C.g:45:7: '[' - self.match(u'[') + # C.g:65:5: ( ')' ) + # C.g:65:7: ')' + self.match(u')') @@ -1050,9 +1072,9 @@ class CLexer(Lexer): try: self.type = T64 - # C.g:46:5: ( ']' ) - # C.g:46:7: ']' - self.match(u']') + # C.g:66:5: ( '[' ) + # C.g:66:7: '[' + self.match(u'[') @@ -1072,9 +1094,9 @@ class CLexer(Lexer): try: self.type = T65 - # C.g:47:5: ( '*' ) - # C.g:47:7: '*' - self.match(u'*') + # C.g:67:5: ( ']' ) + # C.g:67:7: ']' + self.match(u']') @@ -1094,10 +1116,9 @@ class CLexer(Lexer): try: self.type = T66 - # C.g:48:5: ( '...' ) - # C.g:48:7: '...' - self.match("...") - + # C.g:68:5: ( '*' ) + # C.g:68:7: '*' + self.match(u'*') @@ -1117,9 +1138,10 @@ class CLexer(Lexer): try: self.type = T67 - # C.g:49:5: ( '+' ) - # C.g:49:7: '+' - self.match(u'+') + # C.g:69:5: ( '...' ) + # C.g:69:7: '...' + self.match("...") + @@ -1139,9 +1161,9 @@ class CLexer(Lexer): try: self.type = T68 - # C.g:50:5: ( '-' ) - # C.g:50:7: '-' - self.match(u'-') + # C.g:70:5: ( '+' ) + # C.g:70:7: '+' + self.match(u'+') @@ -1161,9 +1183,9 @@ class CLexer(Lexer): try: self.type = T69 - # C.g:51:5: ( '/' ) - # C.g:51:7: '/' - self.match(u'/') + # C.g:71:5: ( '-' ) + # C.g:71:7: '-' + self.match(u'-') @@ -1183,9 +1205,9 @@ class CLexer(Lexer): try: self.type = T70 - # C.g:52:5: ( '%' ) - # C.g:52:7: '%' - self.match(u'%') + # C.g:72:5: ( '/' ) + # C.g:72:7: '/' + self.match(u'/') @@ -1205,10 +1227,9 @@ class CLexer(Lexer): try: self.type = T71 - # C.g:53:5: ( '++' ) - # C.g:53:7: '++' - self.match("++") - + # C.g:73:5: ( '%' ) + # C.g:73:7: '%' + self.match(u'%') @@ -1228,9 +1249,9 @@ class CLexer(Lexer): try: self.type = T72 - # C.g:54:5: ( '--' ) - # C.g:54:7: '--' - self.match("--") + # C.g:74:5: ( '++' ) + # C.g:74:7: '++' + self.match("++") @@ -1251,9 +1272,9 @@ class CLexer(Lexer): try: self.type = T73 - # C.g:55:5: ( 'sizeof' ) - # C.g:55:7: 'sizeof' - self.match("sizeof") + # C.g:75:5: ( '--' ) + # C.g:75:7: '--' + self.match("--") @@ -1274,9 +1295,10 @@ class CLexer(Lexer): try: self.type = T74 - # C.g:56:5: ( '.' ) - # C.g:56:7: '.' - self.match(u'.') + # C.g:76:5: ( 'sizeof' ) + # C.g:76:7: 'sizeof' + self.match("sizeof") + @@ -1296,10 +1318,9 @@ class CLexer(Lexer): try: self.type = T75 - # C.g:57:5: ( '->' ) - # C.g:57:7: '->' - self.match("->") - + # C.g:77:5: ( '.' ) + # C.g:77:7: '.' + self.match(u'.') @@ -1319,9 +1340,10 @@ class CLexer(Lexer): try: self.type = T76 - # C.g:58:5: ( '&' ) - # C.g:58:7: '&' - self.match(u'&') + # C.g:78:5: ( '->' ) + # C.g:78:7: '->' + self.match("->") + @@ -1341,9 +1363,9 @@ class CLexer(Lexer): try: self.type = T77 - # C.g:59:5: ( '~' ) - # C.g:59:7: '~' - self.match(u'~') + # C.g:79:5: ( '&' ) + # C.g:79:7: '&' + self.match(u'&') @@ -1363,9 +1385,9 @@ class CLexer(Lexer): try: self.type = T78 - # C.g:60:5: ( '!' ) - # C.g:60:7: '!' - self.match(u'!') + # C.g:80:5: ( '~' ) + # C.g:80:7: '~' + self.match(u'~') @@ -1385,10 +1407,9 @@ class CLexer(Lexer): try: self.type = T79 - # C.g:61:5: ( '*=' ) - # C.g:61:7: '*=' - self.match("*=") - + # C.g:81:5: ( '!' ) + # C.g:81:7: '!' + self.match(u'!') @@ -1408,9 +1429,9 @@ class CLexer(Lexer): try: self.type = T80 - # C.g:62:5: ( '/=' ) - # C.g:62:7: '/=' - self.match("/=") + # C.g:82:5: ( '*=' ) + # C.g:82:7: '*=' + self.match("*=") @@ -1431,9 +1452,9 @@ class CLexer(Lexer): try: self.type = T81 - # C.g:63:5: ( '%=' ) - # C.g:63:7: '%=' - self.match("%=") + # C.g:83:5: ( '/=' ) + # C.g:83:7: '/=' + self.match("/=") @@ -1454,9 +1475,9 @@ class CLexer(Lexer): try: self.type = T82 - # C.g:64:5: ( '+=' ) - # C.g:64:7: '+=' - self.match("+=") + # C.g:84:5: ( '%=' ) + # C.g:84:7: '%=' + self.match("%=") @@ -1477,9 +1498,9 @@ class CLexer(Lexer): try: self.type = T83 - # C.g:65:5: ( '-=' ) - # C.g:65:7: '-=' - self.match("-=") + # C.g:85:5: ( '+=' ) + # C.g:85:7: '+=' + self.match("+=") @@ -1500,9 +1521,9 @@ class CLexer(Lexer): try: self.type = T84 - # C.g:66:5: ( '<<=' ) - # C.g:66:7: '<<=' - self.match("<<=") + # C.g:86:5: ( '-=' ) + # C.g:86:7: '-=' + self.match("-=") @@ -1523,9 +1544,9 @@ class CLexer(Lexer): try: self.type = T85 - # C.g:67:5: ( '>>=' ) - # C.g:67:7: '>>=' - self.match(">>=") + # C.g:87:5: ( '<<=' ) + # C.g:87:7: '<<=' + self.match("<<=") @@ -1546,9 +1567,9 @@ class CLexer(Lexer): try: self.type = T86 - # C.g:68:5: ( '&=' ) - # C.g:68:7: '&=' - self.match("&=") + # C.g:88:5: ( '>>=' ) + # C.g:88:7: '>>=' + self.match(">>=") @@ -1569,9 +1590,9 @@ class CLexer(Lexer): try: self.type = T87 - # C.g:69:5: ( '^=' ) - # C.g:69:7: '^=' - self.match("^=") + # C.g:89:5: ( '&=' ) + # C.g:89:7: '&=' + self.match("&=") @@ -1592,9 +1613,9 @@ class CLexer(Lexer): try: self.type = T88 - # C.g:70:5: ( '|=' ) - # C.g:70:7: '|=' - self.match("|=") + # C.g:90:5: ( '^=' ) + # C.g:90:7: '^=' + self.match("^=") @@ -1615,9 +1636,10 @@ class CLexer(Lexer): try: self.type = T89 - # C.g:71:5: ( '?' ) - # C.g:71:7: '?' - self.match(u'?') + # C.g:91:5: ( '|=' ) + # C.g:91:7: '|=' + self.match("|=") + @@ -1637,10 +1659,9 @@ class CLexer(Lexer): try: self.type = T90 - # C.g:72:5: ( '||' ) - # C.g:72:7: '||' - self.match("||") - + # C.g:92:5: ( '?' ) + # C.g:92:7: '?' + self.match(u'?') @@ -1660,9 +1681,9 @@ class CLexer(Lexer): try: self.type = T91 - # C.g:73:5: ( '&&' ) - # C.g:73:7: '&&' - self.match("&&") + # C.g:93:5: ( '||' ) + # C.g:93:7: '||' + self.match("||") @@ -1683,9 +1704,10 @@ class CLexer(Lexer): try: self.type = T92 - # C.g:74:5: ( '|' ) - # C.g:74:7: '|' - self.match(u'|') + # C.g:94:5: ( '&&' ) + # C.g:94:7: '&&' + self.match("&&") + @@ -1705,9 +1727,9 @@ class CLexer(Lexer): try: self.type = T93 - # C.g:75:5: ( '^' ) - # C.g:75:7: '^' - self.match(u'^') + # C.g:95:5: ( '|' ) + # C.g:95:7: '|' + self.match(u'|') @@ -1727,10 +1749,9 @@ class CLexer(Lexer): try: self.type = T94 - # C.g:76:5: ( '==' ) - # C.g:76:7: '==' - self.match("==") - + # C.g:96:5: ( '^' ) + # C.g:96:7: '^' + self.match(u'^') @@ -1750,9 +1771,9 @@ class CLexer(Lexer): try: self.type = T95 - # C.g:77:5: ( '!=' ) - # C.g:77:7: '!=' - self.match("!=") + # C.g:97:5: ( '==' ) + # C.g:97:7: '==' + self.match("==") @@ -1773,9 +1794,10 @@ class CLexer(Lexer): try: self.type = T96 - # C.g:78:5: ( '<' ) - # C.g:78:7: '<' - self.match(u'<') + # C.g:98:5: ( '!=' ) + # C.g:98:7: '!=' + self.match("!=") + @@ -1795,9 +1817,9 @@ class CLexer(Lexer): try: self.type = T97 - # C.g:79:5: ( '>' ) - # C.g:79:7: '>' - self.match(u'>') + # C.g:99:5: ( '<' ) + # C.g:99:7: '<' + self.match(u'<') @@ -1817,10 +1839,9 @@ class CLexer(Lexer): try: self.type = T98 - # C.g:80:5: ( '<=' ) - # C.g:80:7: '<=' - self.match("<=") - + # C.g:100:5: ( '>' ) + # C.g:100:7: '>' + self.match(u'>') @@ -1840,9 +1861,9 @@ class CLexer(Lexer): try: self.type = T99 - # C.g:81:5: ( '>=' ) - # C.g:81:7: '>=' - self.match(">=") + # C.g:101:5: ( '<=' ) + # C.g:101:7: '<=' + self.match("<=") @@ -1863,9 +1884,9 @@ class CLexer(Lexer): try: self.type = T100 - # C.g:82:6: ( '<<' ) - # C.g:82:8: '<<' - self.match("<<") + # C.g:102:6: ( '>=' ) + # C.g:102:8: '>=' + self.match(">=") @@ -1886,9 +1907,9 @@ class CLexer(Lexer): try: self.type = T101 - # C.g:83:6: ( '>>' ) - # C.g:83:8: '>>' - self.match(">>") + # C.g:103:6: ( '<<' ) + # C.g:103:8: '<<' + self.match("<<") @@ -1909,9 +1930,9 @@ class CLexer(Lexer): try: self.type = T102 - # C.g:84:6: ( '__asm__' ) - # C.g:84:8: '__asm__' - self.match("__asm__") + # C.g:104:6: ( '>>' ) + # C.g:104:8: '>>' + self.match(">>") @@ -1932,9 +1953,9 @@ class CLexer(Lexer): try: self.type = T103 - # C.g:85:6: ( '_asm' ) - # C.g:85:8: '_asm' - self.match("_asm") + # C.g:105:6: ( '__asm__' ) + # C.g:105:8: '__asm__' + self.match("__asm__") @@ -1955,9 +1976,9 @@ class CLexer(Lexer): try: self.type = T104 - # C.g:86:6: ( '__asm' ) - # C.g:86:8: '__asm' - self.match("__asm") + # C.g:106:6: ( '_asm' ) + # C.g:106:8: '_asm' + self.match("_asm") @@ -1978,9 +1999,9 @@ class CLexer(Lexer): try: self.type = T105 - # C.g:87:6: ( 'case' ) - # C.g:87:8: 'case' - self.match("case") + # C.g:107:6: ( '__asm' ) + # C.g:107:8: '__asm' + self.match("__asm") @@ -2001,9 +2022,9 @@ class CLexer(Lexer): try: self.type = T106 - # C.g:88:6: ( 'default' ) - # C.g:88:8: 'default' - self.match("default") + # C.g:108:6: ( 'case' ) + # C.g:108:8: 'case' + self.match("case") @@ -2024,9 +2045,9 @@ class CLexer(Lexer): try: self.type = T107 - # C.g:89:6: ( 'if' ) - # C.g:89:8: 'if' - self.match("if") + # C.g:109:6: ( 'default' ) + # C.g:109:8: 'default' + self.match("default") @@ -2047,9 +2068,9 @@ class CLexer(Lexer): try: self.type = T108 - # C.g:90:6: ( 'else' ) - # C.g:90:8: 'else' - self.match("else") + # C.g:110:6: ( 'if' ) + # C.g:110:8: 'if' + self.match("if") @@ -2070,9 +2091,9 @@ class CLexer(Lexer): try: self.type = T109 - # C.g:91:6: ( 'switch' ) - # C.g:91:8: 'switch' - self.match("switch") + # C.g:111:6: ( 'else' ) + # C.g:111:8: 'else' + self.match("else") @@ -2093,9 +2114,9 @@ class CLexer(Lexer): try: self.type = T110 - # C.g:92:6: ( 'while' ) - # C.g:92:8: 'while' - self.match("while") + # C.g:112:6: ( 'switch' ) + # C.g:112:8: 'switch' + self.match("switch") @@ -2116,9 +2137,9 @@ class CLexer(Lexer): try: self.type = T111 - # C.g:93:6: ( 'do' ) - # C.g:93:8: 'do' - self.match("do") + # C.g:113:6: ( 'while' ) + # C.g:113:8: 'while' + self.match("while") @@ -2139,9 +2160,9 @@ class CLexer(Lexer): try: self.type = T112 - # C.g:94:6: ( 'for' ) - # C.g:94:8: 'for' - self.match("for") + # C.g:114:6: ( 'do' ) + # C.g:114:8: 'do' + self.match("do") @@ -2162,9 +2183,9 @@ class CLexer(Lexer): try: self.type = T113 - # C.g:95:6: ( 'goto' ) - # C.g:95:8: 'goto' - self.match("goto") + # C.g:115:6: ( 'for' ) + # C.g:115:8: 'for' + self.match("for") @@ -2185,9 +2206,9 @@ class CLexer(Lexer): try: self.type = T114 - # C.g:96:6: ( 'continue' ) - # C.g:96:8: 'continue' - self.match("continue") + # C.g:116:6: ( 'goto' ) + # C.g:116:8: 'goto' + self.match("goto") @@ -2208,9 +2229,9 @@ class CLexer(Lexer): try: self.type = T115 - # C.g:97:6: ( 'break' ) - # C.g:97:8: 'break' - self.match("break") + # C.g:117:6: ( 'continue' ) + # C.g:117:8: 'continue' + self.match("continue") @@ -2231,9 +2252,9 @@ class CLexer(Lexer): try: self.type = T116 - # C.g:98:6: ( 'return' ) - # C.g:98:8: 'return' - self.match("return") + # C.g:118:6: ( 'break' ) + # C.g:118:8: 'break' + self.match("break") @@ -2248,17 +2269,40 @@ class CLexer(Lexer): + # $ANTLR start T117 + def mT117(self, ): + + try: + self.type = T117 + + # C.g:119:6: ( 'return' ) + # C.g:119:8: 'return' + self.match("return") + + + + + + + finally: + + pass + + # $ANTLR end T117 + + + # $ANTLR start IDENTIFIER def mIDENTIFIER(self, ): try: self.type = IDENTIFIER - # C.g:533:2: ( LETTER ( LETTER | '0' .. '9' )* ) - # C.g:533:4: LETTER ( LETTER | '0' .. '9' )* + # C.g:586:2: ( LETTER ( LETTER | '0' .. '9' )* ) + # C.g:586:4: LETTER ( LETTER | '0' .. '9' )* self.mLETTER() - # C.g:533:11: ( LETTER | '0' .. '9' )* + # C.g:586:11: ( LETTER | '0' .. '9' )* while True: #loop1 alt1 = 2 LA1_0 = self.input.LA(1) @@ -2300,7 +2344,7 @@ class CLexer(Lexer): def mLETTER(self, ): try: - # C.g:538:2: ( '$' | 'A' .. 'Z' | 'a' .. 'z' | '_' ) + # C.g:591:2: ( '$' | 'A' .. 'Z' | 'a' .. 'z' | '_' ) # C.g: if self.input.LA(1) == u'$' or (u'A' <= self.input.LA(1) <= u'Z') or self.input.LA(1) == u'_' or (u'a' <= self.input.LA(1) <= u'z'): self.input.consume(); @@ -2329,16 +2373,16 @@ class CLexer(Lexer): try: self.type = CHARACTER_LITERAL - # C.g:545:5: ( ( 'L' )? '\\'' ( EscapeSequence | ~ ( '\\'' | '\\\\' ) ) '\\'' ) - # C.g:545:9: ( 'L' )? '\\'' ( EscapeSequence | ~ ( '\\'' | '\\\\' ) ) '\\'' - # C.g:545:9: ( 'L' )? + # C.g:598:5: ( ( 'L' )? '\\'' ( EscapeSequence | ~ ( '\\'' | '\\\\' ) ) '\\'' ) + # C.g:598:9: ( 'L' )? '\\'' ( EscapeSequence | ~ ( '\\'' | '\\\\' ) ) '\\'' + # C.g:598:9: ( 'L' )? alt2 = 2 LA2_0 = self.input.LA(1) if (LA2_0 == u'L') : alt2 = 1 if alt2 == 1: - # C.g:545:10: 'L' + # C.g:598:10: 'L' self.match(u'L') @@ -2346,7 +2390,7 @@ class CLexer(Lexer): self.match(u'\'') - # C.g:545:21: ( EscapeSequence | ~ ( '\\'' | '\\\\' ) ) + # C.g:598:21: ( EscapeSequence | ~ ( '\\'' | '\\\\' ) ) alt3 = 2 LA3_0 = self.input.LA(1) @@ -2355,18 +2399,18 @@ class CLexer(Lexer): elif ((u'\u0000' <= LA3_0 <= u'&') or (u'(' <= LA3_0 <= u'[') or (u']' <= LA3_0 <= u'\uFFFE')) : alt3 = 2 else: - nvae = NoViableAltException("545:21: ( EscapeSequence | ~ ( '\\'' | '\\\\' ) )", 3, 0, self.input) + nvae = NoViableAltException("598:21: ( EscapeSequence | ~ ( '\\'' | '\\\\' ) )", 3, 0, self.input) raise nvae if alt3 == 1: - # C.g:545:23: EscapeSequence + # C.g:598:23: EscapeSequence self.mEscapeSequence() elif alt3 == 2: - # C.g:545:40: ~ ( '\\'' | '\\\\' ) + # C.g:598:40: ~ ( '\\'' | '\\\\' ) if (u'\u0000' <= self.input.LA(1) <= u'&') or (u'(' <= self.input.LA(1) <= u'[') or (u']' <= self.input.LA(1) <= u'\uFFFE'): self.input.consume(); @@ -2399,16 +2443,16 @@ class CLexer(Lexer): try: self.type = STRING_LITERAL - # C.g:549:5: ( ( 'L' )? '\"' ( EscapeSequence | ~ ( '\\\\' | '\"' ) )* '\"' ) - # C.g:549:8: ( 'L' )? '\"' ( EscapeSequence | ~ ( '\\\\' | '\"' ) )* '\"' - # C.g:549:8: ( 'L' )? + # C.g:602:5: ( ( 'L' )? '\"' ( EscapeSequence | ~ ( '\\\\' | '\"' ) )* '\"' ) + # C.g:602:8: ( 'L' )? '\"' ( EscapeSequence | ~ ( '\\\\' | '\"' ) )* '\"' + # C.g:602:8: ( 'L' )? alt4 = 2 LA4_0 = self.input.LA(1) if (LA4_0 == u'L') : alt4 = 1 if alt4 == 1: - # C.g:549:9: 'L' + # C.g:602:9: 'L' self.match(u'L') @@ -2416,7 +2460,7 @@ class CLexer(Lexer): self.match(u'"') - # C.g:549:19: ( EscapeSequence | ~ ( '\\\\' | '\"' ) )* + # C.g:602:19: ( EscapeSequence | ~ ( '\\\\' | '\"' ) )* while True: #loop5 alt5 = 3 LA5_0 = self.input.LA(1) @@ -2428,13 +2472,13 @@ class CLexer(Lexer): if alt5 == 1: - # C.g:549:21: EscapeSequence + # C.g:602:21: EscapeSequence self.mEscapeSequence() elif alt5 == 2: - # C.g:549:38: ~ ( '\\\\' | '\"' ) + # C.g:602:38: ~ ( '\\\\' | '\"' ) if (u'\u0000' <= self.input.LA(1) <= u'!') or (u'#' <= self.input.LA(1) <= u'[') or (u']' <= self.input.LA(1) <= u'\uFFFE'): self.input.consume(); @@ -2470,8 +2514,8 @@ class CLexer(Lexer): try: self.type = HEX_LITERAL - # C.g:552:13: ( '0' ( 'x' | 'X' ) ( HexDigit )+ ( IntegerTypeSuffix )? ) - # C.g:552:15: '0' ( 'x' | 'X' ) ( HexDigit )+ ( IntegerTypeSuffix )? + # C.g:605:13: ( '0' ( 'x' | 'X' ) ( HexDigit )+ ( IntegerTypeSuffix )? ) + # C.g:605:15: '0' ( 'x' | 'X' ) ( HexDigit )+ ( IntegerTypeSuffix )? self.match(u'0') if self.input.LA(1) == u'X' or self.input.LA(1) == u'x': @@ -2483,7 +2527,7 @@ class CLexer(Lexer): raise mse - # C.g:552:29: ( HexDigit )+ + # C.g:605:29: ( HexDigit )+ cnt6 = 0 while True: #loop6 alt6 = 2 @@ -2494,7 +2538,7 @@ class CLexer(Lexer): if alt6 == 1: - # C.g:552:29: HexDigit + # C.g:605:29: HexDigit self.mHexDigit() @@ -2509,14 +2553,14 @@ class CLexer(Lexer): cnt6 += 1 - # C.g:552:39: ( IntegerTypeSuffix )? + # C.g:605:39: ( IntegerTypeSuffix )? alt7 = 2 LA7_0 = self.input.LA(1) if (LA7_0 == u'L' or LA7_0 == u'U' or LA7_0 == u'l' or LA7_0 == u'u') : alt7 = 1 if alt7 == 1: - # C.g:552:39: IntegerTypeSuffix + # C.g:605:39: IntegerTypeSuffix self.mIntegerTypeSuffix() @@ -2540,9 +2584,9 @@ class CLexer(Lexer): try: self.type = DECIMAL_LITERAL - # C.g:554:17: ( ( '0' | '1' .. '9' ( '0' .. '9' )* ) ( IntegerTypeSuffix )? ) - # C.g:554:19: ( '0' | '1' .. '9' ( '0' .. '9' )* ) ( IntegerTypeSuffix )? - # C.g:554:19: ( '0' | '1' .. '9' ( '0' .. '9' )* ) + # C.g:607:17: ( ( '0' | '1' .. '9' ( '0' .. '9' )* ) ( IntegerTypeSuffix )? ) + # C.g:607:19: ( '0' | '1' .. '9' ( '0' .. '9' )* ) ( IntegerTypeSuffix )? + # C.g:607:19: ( '0' | '1' .. '9' ( '0' .. '9' )* ) alt9 = 2 LA9_0 = self.input.LA(1) @@ -2551,21 +2595,21 @@ class CLexer(Lexer): elif ((u'1' <= LA9_0 <= u'9')) : alt9 = 2 else: - nvae = NoViableAltException("554:19: ( '0' | '1' .. '9' ( '0' .. '9' )* )", 9, 0, self.input) + nvae = NoViableAltException("607:19: ( '0' | '1' .. '9' ( '0' .. '9' )* )", 9, 0, self.input) raise nvae if alt9 == 1: - # C.g:554:20: '0' + # C.g:607:20: '0' self.match(u'0') elif alt9 == 2: - # C.g:554:26: '1' .. '9' ( '0' .. '9' )* + # C.g:607:26: '1' .. '9' ( '0' .. '9' )* self.matchRange(u'1', u'9') - # C.g:554:35: ( '0' .. '9' )* + # C.g:607:35: ( '0' .. '9' )* while True: #loop8 alt8 = 2 LA8_0 = self.input.LA(1) @@ -2575,7 +2619,7 @@ class CLexer(Lexer): if alt8 == 1: - # C.g:554:35: '0' .. '9' + # C.g:607:35: '0' .. '9' self.matchRange(u'0', u'9') @@ -2587,14 +2631,14 @@ class CLexer(Lexer): - # C.g:554:46: ( IntegerTypeSuffix )? + # C.g:607:46: ( IntegerTypeSuffix )? alt10 = 2 LA10_0 = self.input.LA(1) if (LA10_0 == u'L' or LA10_0 == u'U' or LA10_0 == u'l' or LA10_0 == u'u') : alt10 = 1 if alt10 == 1: - # C.g:554:46: IntegerTypeSuffix + # C.g:607:46: IntegerTypeSuffix self.mIntegerTypeSuffix() @@ -2618,11 +2662,11 @@ class CLexer(Lexer): try: self.type = OCTAL_LITERAL - # C.g:556:15: ( '0' ( '0' .. '7' )+ ( IntegerTypeSuffix )? ) - # C.g:556:17: '0' ( '0' .. '7' )+ ( IntegerTypeSuffix )? + # C.g:609:15: ( '0' ( '0' .. '7' )+ ( IntegerTypeSuffix )? ) + # C.g:609:17: '0' ( '0' .. '7' )+ ( IntegerTypeSuffix )? self.match(u'0') - # C.g:556:21: ( '0' .. '7' )+ + # C.g:609:21: ( '0' .. '7' )+ cnt11 = 0 while True: #loop11 alt11 = 2 @@ -2633,7 +2677,7 @@ class CLexer(Lexer): if alt11 == 1: - # C.g:556:22: '0' .. '7' + # C.g:609:22: '0' .. '7' self.matchRange(u'0', u'7') @@ -2648,14 +2692,14 @@ class CLexer(Lexer): cnt11 += 1 - # C.g:556:33: ( IntegerTypeSuffix )? + # C.g:609:33: ( IntegerTypeSuffix )? alt12 = 2 LA12_0 = self.input.LA(1) if (LA12_0 == u'L' or LA12_0 == u'U' or LA12_0 == u'l' or LA12_0 == u'u') : alt12 = 1 if alt12 == 1: - # C.g:556:33: IntegerTypeSuffix + # C.g:609:33: IntegerTypeSuffix self.mIntegerTypeSuffix() @@ -2677,8 +2721,8 @@ class CLexer(Lexer): def mHexDigit(self, ): try: - # C.g:559:10: ( ( '0' .. '9' | 'a' .. 'f' | 'A' .. 'F' ) ) - # C.g:559:12: ( '0' .. '9' | 'a' .. 'f' | 'A' .. 'F' ) + # C.g:612:10: ( ( '0' .. '9' | 'a' .. 'f' | 'A' .. 'F' ) ) + # C.g:612:12: ( '0' .. '9' | 'a' .. 'f' | 'A' .. 'F' ) if (u'0' <= self.input.LA(1) <= u'9') or (u'A' <= self.input.LA(1) <= u'F') or (u'a' <= self.input.LA(1) <= u'f'): self.input.consume(); @@ -2704,7 +2748,7 @@ class CLexer(Lexer): def mIntegerTypeSuffix(self, ): try: - # C.g:563:2: ( ( 'u' | 'U' ) | ( 'l' | 'L' ) | ( 'u' | 'U' ) ( 'l' | 'L' ) | ( 'u' | 'U' ) ( 'l' | 'L' ) ( 'l' | 'L' ) ) + # C.g:616:2: ( ( 'u' | 'U' ) | ( 'l' | 'L' ) | ( 'u' | 'U' ) ( 'l' | 'L' ) | ( 'u' | 'U' ) ( 'l' | 'L' ) ( 'l' | 'L' ) ) alt13 = 4 LA13_0 = self.input.LA(1) @@ -2723,12 +2767,12 @@ class CLexer(Lexer): elif (LA13_0 == u'L' or LA13_0 == u'l') : alt13 = 2 else: - nvae = NoViableAltException("561:1: fragment IntegerTypeSuffix : ( ( 'u' | 'U' ) | ( 'l' | 'L' ) | ( 'u' | 'U' ) ( 'l' | 'L' ) | ( 'u' | 'U' ) ( 'l' | 'L' ) ( 'l' | 'L' ) );", 13, 0, self.input) + nvae = NoViableAltException("614:1: fragment IntegerTypeSuffix : ( ( 'u' | 'U' ) | ( 'l' | 'L' ) | ( 'u' | 'U' ) ( 'l' | 'L' ) | ( 'u' | 'U' ) ( 'l' | 'L' ) ( 'l' | 'L' ) );", 13, 0, self.input) raise nvae if alt13 == 1: - # C.g:563:4: ( 'u' | 'U' ) + # C.g:616:4: ( 'u' | 'U' ) if self.input.LA(1) == u'U' or self.input.LA(1) == u'u': self.input.consume(); @@ -2741,7 +2785,7 @@ class CLexer(Lexer): elif alt13 == 2: - # C.g:564:4: ( 'l' | 'L' ) + # C.g:617:4: ( 'l' | 'L' ) if self.input.LA(1) == u'L' or self.input.LA(1) == u'l': self.input.consume(); @@ -2754,7 +2798,7 @@ class CLexer(Lexer): elif alt13 == 3: - # C.g:565:4: ( 'u' | 'U' ) ( 'l' | 'L' ) + # C.g:618:4: ( 'u' | 'U' ) ( 'l' | 'L' ) if self.input.LA(1) == u'U' or self.input.LA(1) == u'u': self.input.consume(); @@ -2776,7 +2820,7 @@ class CLexer(Lexer): elif alt13 == 4: - # C.g:566:4: ( 'u' | 'U' ) ( 'l' | 'L' ) ( 'l' | 'L' ) + # C.g:619:4: ( 'u' | 'U' ) ( 'l' | 'L' ) ( 'l' | 'L' ) if self.input.LA(1) == u'U' or self.input.LA(1) == u'u': self.input.consume(); @@ -2821,12 +2865,12 @@ class CLexer(Lexer): try: self.type = FLOATING_POINT_LITERAL - # C.g:570:5: ( ( '0' .. '9' )+ '.' ( '0' .. '9' )* ( Exponent )? ( FloatTypeSuffix )? | '.' ( '0' .. '9' )+ ( Exponent )? ( FloatTypeSuffix )? | ( '0' .. '9' )+ Exponent ( FloatTypeSuffix )? | ( '0' .. '9' )+ ( Exponent )? FloatTypeSuffix ) + # C.g:623:5: ( ( '0' .. '9' )+ '.' ( '0' .. '9' )* ( Exponent )? ( FloatTypeSuffix )? | '.' ( '0' .. '9' )+ ( Exponent )? ( FloatTypeSuffix )? | ( '0' .. '9' )+ Exponent ( FloatTypeSuffix )? | ( '0' .. '9' )+ ( Exponent )? FloatTypeSuffix ) alt25 = 4 alt25 = self.dfa25.predict(self.input) if alt25 == 1: - # C.g:570:9: ( '0' .. '9' )+ '.' ( '0' .. '9' )* ( Exponent )? ( FloatTypeSuffix )? - # C.g:570:9: ( '0' .. '9' )+ + # C.g:623:9: ( '0' .. '9' )+ '.' ( '0' .. '9' )* ( Exponent )? ( FloatTypeSuffix )? + # C.g:623:9: ( '0' .. '9' )+ cnt14 = 0 while True: #loop14 alt14 = 2 @@ -2837,7 +2881,7 @@ class CLexer(Lexer): if alt14 == 1: - # C.g:570:10: '0' .. '9' + # C.g:623:10: '0' .. '9' self.matchRange(u'0', u'9') @@ -2854,7 +2898,7 @@ class CLexer(Lexer): self.match(u'.') - # C.g:570:25: ( '0' .. '9' )* + # C.g:623:25: ( '0' .. '9' )* while True: #loop15 alt15 = 2 LA15_0 = self.input.LA(1) @@ -2864,7 +2908,7 @@ class CLexer(Lexer): if alt15 == 1: - # C.g:570:26: '0' .. '9' + # C.g:623:26: '0' .. '9' self.matchRange(u'0', u'9') @@ -2873,27 +2917,27 @@ class CLexer(Lexer): break #loop15 - # C.g:570:37: ( Exponent )? + # C.g:623:37: ( Exponent )? alt16 = 2 LA16_0 = self.input.LA(1) if (LA16_0 == u'E' or LA16_0 == u'e') : alt16 = 1 if alt16 == 1: - # C.g:570:37: Exponent + # C.g:623:37: Exponent self.mExponent() - # C.g:570:47: ( FloatTypeSuffix )? + # C.g:623:47: ( FloatTypeSuffix )? alt17 = 2 LA17_0 = self.input.LA(1) if (LA17_0 == u'D' or LA17_0 == u'F' or LA17_0 == u'd' or LA17_0 == u'f') : alt17 = 1 if alt17 == 1: - # C.g:570:47: FloatTypeSuffix + # C.g:623:47: FloatTypeSuffix self.mFloatTypeSuffix() @@ -2902,10 +2946,10 @@ class CLexer(Lexer): elif alt25 == 2: - # C.g:571:9: '.' ( '0' .. '9' )+ ( Exponent )? ( FloatTypeSuffix )? + # C.g:624:9: '.' ( '0' .. '9' )+ ( Exponent )? ( FloatTypeSuffix )? self.match(u'.') - # C.g:571:13: ( '0' .. '9' )+ + # C.g:624:13: ( '0' .. '9' )+ cnt18 = 0 while True: #loop18 alt18 = 2 @@ -2916,7 +2960,7 @@ class CLexer(Lexer): if alt18 == 1: - # C.g:571:14: '0' .. '9' + # C.g:624:14: '0' .. '9' self.matchRange(u'0', u'9') @@ -2931,27 +2975,27 @@ class CLexer(Lexer): cnt18 += 1 - # C.g:571:25: ( Exponent )? + # C.g:624:25: ( Exponent )? alt19 = 2 LA19_0 = self.input.LA(1) if (LA19_0 == u'E' or LA19_0 == u'e') : alt19 = 1 if alt19 == 1: - # C.g:571:25: Exponent + # C.g:624:25: Exponent self.mExponent() - # C.g:571:35: ( FloatTypeSuffix )? + # C.g:624:35: ( FloatTypeSuffix )? alt20 = 2 LA20_0 = self.input.LA(1) if (LA20_0 == u'D' or LA20_0 == u'F' or LA20_0 == u'd' or LA20_0 == u'f') : alt20 = 1 if alt20 == 1: - # C.g:571:35: FloatTypeSuffix + # C.g:624:35: FloatTypeSuffix self.mFloatTypeSuffix() @@ -2960,8 +3004,8 @@ class CLexer(Lexer): elif alt25 == 3: - # C.g:572:9: ( '0' .. '9' )+ Exponent ( FloatTypeSuffix )? - # C.g:572:9: ( '0' .. '9' )+ + # C.g:625:9: ( '0' .. '9' )+ Exponent ( FloatTypeSuffix )? + # C.g:625:9: ( '0' .. '9' )+ cnt21 = 0 while True: #loop21 alt21 = 2 @@ -2972,7 +3016,7 @@ class CLexer(Lexer): if alt21 == 1: - # C.g:572:10: '0' .. '9' + # C.g:625:10: '0' .. '9' self.matchRange(u'0', u'9') @@ -2989,14 +3033,14 @@ class CLexer(Lexer): self.mExponent() - # C.g:572:30: ( FloatTypeSuffix )? + # C.g:625:30: ( FloatTypeSuffix )? alt22 = 2 LA22_0 = self.input.LA(1) if (LA22_0 == u'D' or LA22_0 == u'F' or LA22_0 == u'd' or LA22_0 == u'f') : alt22 = 1 if alt22 == 1: - # C.g:572:30: FloatTypeSuffix + # C.g:625:30: FloatTypeSuffix self.mFloatTypeSuffix() @@ -3005,8 +3049,8 @@ class CLexer(Lexer): elif alt25 == 4: - # C.g:573:9: ( '0' .. '9' )+ ( Exponent )? FloatTypeSuffix - # C.g:573:9: ( '0' .. '9' )+ + # C.g:626:9: ( '0' .. '9' )+ ( Exponent )? FloatTypeSuffix + # C.g:626:9: ( '0' .. '9' )+ cnt23 = 0 while True: #loop23 alt23 = 2 @@ -3017,7 +3061,7 @@ class CLexer(Lexer): if alt23 == 1: - # C.g:573:10: '0' .. '9' + # C.g:626:10: '0' .. '9' self.matchRange(u'0', u'9') @@ -3032,14 +3076,14 @@ class CLexer(Lexer): cnt23 += 1 - # C.g:573:21: ( Exponent )? + # C.g:626:21: ( Exponent )? alt24 = 2 LA24_0 = self.input.LA(1) if (LA24_0 == u'E' or LA24_0 == u'e') : alt24 = 1 if alt24 == 1: - # C.g:573:21: Exponent + # C.g:626:21: Exponent self.mExponent() @@ -3062,8 +3106,8 @@ class CLexer(Lexer): def mExponent(self, ): try: - # C.g:577:10: ( ( 'e' | 'E' ) ( '+' | '-' )? ( '0' .. '9' )+ ) - # C.g:577:12: ( 'e' | 'E' ) ( '+' | '-' )? ( '0' .. '9' )+ + # C.g:630:10: ( ( 'e' | 'E' ) ( '+' | '-' )? ( '0' .. '9' )+ ) + # C.g:630:12: ( 'e' | 'E' ) ( '+' | '-' )? ( '0' .. '9' )+ if self.input.LA(1) == u'E' or self.input.LA(1) == u'e': self.input.consume(); @@ -3073,7 +3117,7 @@ class CLexer(Lexer): raise mse - # C.g:577:22: ( '+' | '-' )? + # C.g:630:22: ( '+' | '-' )? alt26 = 2 LA26_0 = self.input.LA(1) @@ -3093,7 +3137,7 @@ class CLexer(Lexer): - # C.g:577:33: ( '0' .. '9' )+ + # C.g:630:33: ( '0' .. '9' )+ cnt27 = 0 while True: #loop27 alt27 = 2 @@ -3104,7 +3148,7 @@ class CLexer(Lexer): if alt27 == 1: - # C.g:577:34: '0' .. '9' + # C.g:630:34: '0' .. '9' self.matchRange(u'0', u'9') @@ -3135,8 +3179,8 @@ class CLexer(Lexer): def mFloatTypeSuffix(self, ): try: - # C.g:580:17: ( ( 'f' | 'F' | 'd' | 'D' ) ) - # C.g:580:19: ( 'f' | 'F' | 'd' | 'D' ) + # C.g:633:17: ( ( 'f' | 'F' | 'd' | 'D' ) ) + # C.g:633:19: ( 'f' | 'F' | 'd' | 'D' ) if self.input.LA(1) == u'D' or self.input.LA(1) == u'F' or self.input.LA(1) == u'd' or self.input.LA(1) == u'f': self.input.consume(); @@ -3162,7 +3206,7 @@ class CLexer(Lexer): def mEscapeSequence(self, ): try: - # C.g:584:5: ( '\\\\' ( 'b' | 't' | 'n' | 'f' | 'r' | '\\\"' | '\\'' | '\\\\' ) | OctalEscape ) + # C.g:637:5: ( '\\\\' ( 'b' | 't' | 'n' | 'f' | 'r' | '\\\"' | '\\'' | '\\\\' ) | OctalEscape ) alt28 = 2 LA28_0 = self.input.LA(1) @@ -3174,17 +3218,17 @@ class CLexer(Lexer): elif ((u'0' <= LA28_1 <= u'7')) : alt28 = 2 else: - nvae = NoViableAltException("582:1: fragment EscapeSequence : ( '\\\\' ( 'b' | 't' | 'n' | 'f' | 'r' | '\\\"' | '\\'' | '\\\\' ) | OctalEscape );", 28, 1, self.input) + nvae = NoViableAltException("635:1: fragment EscapeSequence : ( '\\\\' ( 'b' | 't' | 'n' | 'f' | 'r' | '\\\"' | '\\'' | '\\\\' ) | OctalEscape );", 28, 1, self.input) raise nvae else: - nvae = NoViableAltException("582:1: fragment EscapeSequence : ( '\\\\' ( 'b' | 't' | 'n' | 'f' | 'r' | '\\\"' | '\\'' | '\\\\' ) | OctalEscape );", 28, 0, self.input) + nvae = NoViableAltException("635:1: fragment EscapeSequence : ( '\\\\' ( 'b' | 't' | 'n' | 'f' | 'r' | '\\\"' | '\\'' | '\\\\' ) | OctalEscape );", 28, 0, self.input) raise nvae if alt28 == 1: - # C.g:584:8: '\\\\' ( 'b' | 't' | 'n' | 'f' | 'r' | '\\\"' | '\\'' | '\\\\' ) + # C.g:637:8: '\\\\' ( 'b' | 't' | 'n' | 'f' | 'r' | '\\\"' | '\\'' | '\\\\' ) self.match(u'\\') if self.input.LA(1) == u'"' or self.input.LA(1) == u'\'' or self.input.LA(1) == u'\\' or self.input.LA(1) == u'b' or self.input.LA(1) == u'f' or self.input.LA(1) == u'n' or self.input.LA(1) == u'r' or self.input.LA(1) == u't': @@ -3199,7 +3243,7 @@ class CLexer(Lexer): elif alt28 == 2: - # C.g:585:9: OctalEscape + # C.g:638:9: OctalEscape self.mOctalEscape() @@ -3217,7 +3261,7 @@ class CLexer(Lexer): def mOctalEscape(self, ): try: - # C.g:590:5: ( '\\\\' ( '0' .. '3' ) ( '0' .. '7' ) ( '0' .. '7' ) | '\\\\' ( '0' .. '7' ) ( '0' .. '7' ) | '\\\\' ( '0' .. '7' ) ) + # C.g:643:5: ( '\\\\' ( '0' .. '3' ) ( '0' .. '7' ) ( '0' .. '7' ) | '\\\\' ( '0' .. '7' ) ( '0' .. '7' ) | '\\\\' ( '0' .. '7' ) ) alt29 = 3 LA29_0 = self.input.LA(1) @@ -3244,35 +3288,35 @@ class CLexer(Lexer): else: alt29 = 3 else: - nvae = NoViableAltException("588:1: fragment OctalEscape : ( '\\\\' ( '0' .. '3' ) ( '0' .. '7' ) ( '0' .. '7' ) | '\\\\' ( '0' .. '7' ) ( '0' .. '7' ) | '\\\\' ( '0' .. '7' ) );", 29, 1, self.input) + nvae = NoViableAltException("641:1: fragment OctalEscape : ( '\\\\' ( '0' .. '3' ) ( '0' .. '7' ) ( '0' .. '7' ) | '\\\\' ( '0' .. '7' ) ( '0' .. '7' ) | '\\\\' ( '0' .. '7' ) );", 29, 1, self.input) raise nvae else: - nvae = NoViableAltException("588:1: fragment OctalEscape : ( '\\\\' ( '0' .. '3' ) ( '0' .. '7' ) ( '0' .. '7' ) | '\\\\' ( '0' .. '7' ) ( '0' .. '7' ) | '\\\\' ( '0' .. '7' ) );", 29, 0, self.input) + nvae = NoViableAltException("641:1: fragment OctalEscape : ( '\\\\' ( '0' .. '3' ) ( '0' .. '7' ) ( '0' .. '7' ) | '\\\\' ( '0' .. '7' ) ( '0' .. '7' ) | '\\\\' ( '0' .. '7' ) );", 29, 0, self.input) raise nvae if alt29 == 1: - # C.g:590:9: '\\\\' ( '0' .. '3' ) ( '0' .. '7' ) ( '0' .. '7' ) + # C.g:643:9: '\\\\' ( '0' .. '3' ) ( '0' .. '7' ) ( '0' .. '7' ) self.match(u'\\') - # C.g:590:14: ( '0' .. '3' ) - # C.g:590:15: '0' .. '3' + # C.g:643:14: ( '0' .. '3' ) + # C.g:643:15: '0' .. '3' self.matchRange(u'0', u'3') - # C.g:590:25: ( '0' .. '7' ) - # C.g:590:26: '0' .. '7' + # C.g:643:25: ( '0' .. '7' ) + # C.g:643:26: '0' .. '7' self.matchRange(u'0', u'7') - # C.g:590:36: ( '0' .. '7' ) - # C.g:590:37: '0' .. '7' + # C.g:643:36: ( '0' .. '7' ) + # C.g:643:37: '0' .. '7' self.matchRange(u'0', u'7') @@ -3281,18 +3325,18 @@ class CLexer(Lexer): elif alt29 == 2: - # C.g:591:9: '\\\\' ( '0' .. '7' ) ( '0' .. '7' ) + # C.g:644:9: '\\\\' ( '0' .. '7' ) ( '0' .. '7' ) self.match(u'\\') - # C.g:591:14: ( '0' .. '7' ) - # C.g:591:15: '0' .. '7' + # C.g:644:14: ( '0' .. '7' ) + # C.g:644:15: '0' .. '7' self.matchRange(u'0', u'7') - # C.g:591:25: ( '0' .. '7' ) - # C.g:591:26: '0' .. '7' + # C.g:644:25: ( '0' .. '7' ) + # C.g:644:26: '0' .. '7' self.matchRange(u'0', u'7') @@ -3301,11 +3345,11 @@ class CLexer(Lexer): elif alt29 == 3: - # C.g:592:9: '\\\\' ( '0' .. '7' ) + # C.g:645:9: '\\\\' ( '0' .. '7' ) self.match(u'\\') - # C.g:592:14: ( '0' .. '7' ) - # C.g:592:15: '0' .. '7' + # C.g:645:14: ( '0' .. '7' ) + # C.g:645:15: '0' .. '7' self.matchRange(u'0', u'7') @@ -3326,8 +3370,8 @@ class CLexer(Lexer): def mUnicodeEscape(self, ): try: - # C.g:597:5: ( '\\\\' 'u' HexDigit HexDigit HexDigit HexDigit ) - # C.g:597:9: '\\\\' 'u' HexDigit HexDigit HexDigit HexDigit + # C.g:650:5: ( '\\\\' 'u' HexDigit HexDigit HexDigit HexDigit ) + # C.g:650:9: '\\\\' 'u' HexDigit HexDigit HexDigit HexDigit self.match(u'\\') self.match(u'u') @@ -3358,8 +3402,8 @@ class CLexer(Lexer): try: self.type = WS - # C.g:600:5: ( ( ' ' | '\\r' | '\\t' | '\\u000C' | '\\n' ) ) - # C.g:600:8: ( ' ' | '\\r' | '\\t' | '\\u000C' | '\\n' ) + # C.g:653:5: ( ( ' ' | '\\r' | '\\t' | '\\u000C' | '\\n' ) ) + # C.g:653:8: ( ' ' | '\\r' | '\\t' | '\\u000C' | '\\n' ) if (u'\t' <= self.input.LA(1) <= u'\n') or (u'\f' <= self.input.LA(1) <= u'\r') or self.input.LA(1) == u' ': self.input.consume(); @@ -3390,10 +3434,10 @@ class CLexer(Lexer): try: self.type = BS - # C.g:604:5: ( ( '\\\\' ) ) - # C.g:604:7: ( '\\\\' ) - # C.g:604:7: ( '\\\\' ) - # C.g:604:8: '\\\\' + # C.g:657:5: ( ( '\\\\' ) ) + # C.g:657:7: ( '\\\\' ) + # C.g:657:7: ( '\\\\' ) + # C.g:657:8: '\\\\' self.match(u'\\') @@ -3420,8 +3464,8 @@ class CLexer(Lexer): try: self.type = UnicodeVocabulary - # C.g:612:5: ( '\\u0003' .. '\\uFFFE' ) - # C.g:612:7: '\\u0003' .. '\\uFFFE' + # C.g:665:5: ( '\\u0003' .. '\\uFFFE' ) + # C.g:665:7: '\\u0003' .. '\\uFFFE' self.matchRange(u'\u0003', u'\uFFFE') @@ -3442,12 +3486,12 @@ class CLexer(Lexer): try: self.type = COMMENT - # C.g:615:5: ( '/*' ( options {greedy=false; } : . )* '*/' ) - # C.g:615:9: '/*' ( options {greedy=false; } : . )* '*/' + # C.g:668:5: ( '/*' ( options {greedy=false; } : . )* '*/' ) + # C.g:668:9: '/*' ( options {greedy=false; } : . )* '*/' self.match("/*") - # C.g:615:14: ( options {greedy=false; } : . )* + # C.g:668:14: ( options {greedy=false; } : . )* while True: #loop30 alt30 = 2 LA30_0 = self.input.LA(1) @@ -3466,7 +3510,7 @@ class CLexer(Lexer): if alt30 == 1: - # C.g:615:42: . + # C.g:668:42: . self.matchAny() @@ -3499,12 +3543,12 @@ class CLexer(Lexer): try: self.type = LINE_COMMENT - # C.g:620:5: ( '//' (~ ( '\\n' | '\\r' ) )* ( '\\r' )? '\\n' ) - # C.g:620:7: '//' (~ ( '\\n' | '\\r' ) )* ( '\\r' )? '\\n' + # C.g:673:5: ( '//' (~ ( '\\n' | '\\r' ) )* ( '\\r' )? '\\n' ) + # C.g:673:7: '//' (~ ( '\\n' | '\\r' ) )* ( '\\r' )? '\\n' self.match("//") - # C.g:620:12: (~ ( '\\n' | '\\r' ) )* + # C.g:673:12: (~ ( '\\n' | '\\r' ) )* while True: #loop31 alt31 = 2 LA31_0 = self.input.LA(1) @@ -3514,7 +3558,7 @@ class CLexer(Lexer): if alt31 == 1: - # C.g:620:12: ~ ( '\\n' | '\\r' ) + # C.g:673:12: ~ ( '\\n' | '\\r' ) if (u'\u0000' <= self.input.LA(1) <= u'\t') or (u'\u000B' <= self.input.LA(1) <= u'\f') or (u'\u000E' <= self.input.LA(1) <= u'\uFFFE'): self.input.consume(); @@ -3530,14 +3574,14 @@ class CLexer(Lexer): break #loop31 - # C.g:620:26: ( '\\r' )? + # C.g:673:26: ( '\\r' )? alt32 = 2 LA32_0 = self.input.LA(1) if (LA32_0 == u'\r') : alt32 = 1 if alt32 == 1: - # C.g:620:26: '\\r' + # C.g:673:26: '\\r' self.match(u'\r') @@ -3566,11 +3610,11 @@ class CLexer(Lexer): try: self.type = LINE_COMMAND - # C.g:625:5: ( '#' (~ ( '\\n' | '\\r' ) )* ( '\\r' )? '\\n' ) - # C.g:625:7: '#' (~ ( '\\n' | '\\r' ) )* ( '\\r' )? '\\n' + # C.g:678:5: ( '#' (~ ( '\\n' | '\\r' ) )* ( '\\r' )? '\\n' ) + # C.g:678:7: '#' (~ ( '\\n' | '\\r' ) )* ( '\\r' )? '\\n' self.match(u'#') - # C.g:625:11: (~ ( '\\n' | '\\r' ) )* + # C.g:678:11: (~ ( '\\n' | '\\r' ) )* while True: #loop33 alt33 = 2 LA33_0 = self.input.LA(1) @@ -3580,7 +3624,7 @@ class CLexer(Lexer): if alt33 == 1: - # C.g:625:11: ~ ( '\\n' | '\\r' ) + # C.g:678:11: ~ ( '\\n' | '\\r' ) if (u'\u0000' <= self.input.LA(1) <= u'\t') or (u'\u000B' <= self.input.LA(1) <= u'\f') or (u'\u000E' <= self.input.LA(1) <= u'\uFFFE'): self.input.consume(); @@ -3596,14 +3640,14 @@ class CLexer(Lexer): break #loop33 - # C.g:625:25: ( '\\r' )? + # C.g:678:25: ( '\\r' )? alt34 = 2 LA34_0 = self.input.LA(1) if (LA34_0 == u'\r') : alt34 = 1 if alt34 == 1: - # C.g:625:25: '\\r' + # C.g:678:25: '\\r' self.match(u'\r') @@ -3627,8 +3671,8 @@ class CLexer(Lexer): def mTokens(self): - # C.g:1:8: ( T25 | T26 | T27 | T28 | T29 | T30 | T31 | T32 | T33 | T34 | T35 | T36 | T37 | T38 | T39 | T40 | T41 | T42 | T43 | T44 | T45 | T46 | T47 | T48 | T49 | T50 | T51 | T52 | T53 | T54 | T55 | T56 | T57 | T58 | T59 | T60 | T61 | T62 | T63 | T64 | T65 | T66 | T67 | T68 | T69 | T70 | T71 | T72 | T73 | T74 | T75 | T76 | T77 | T78 | T79 | T80 | T81 | T82 | T83 | T84 | T85 | T86 | T87 | T88 | T89 | T90 | T91 | T92 | T93 | T94 | T95 | T96 | T97 | T98 | T99 | T100 | T101 | T102 | T103 | T104 | T105 | T106 | T107 | T108 | T109 | T110 | T111 | T112 | T113 | T114 | T115 | T116 | IDENTIFIER | CHARACTER_LITERAL | STRING_LITERAL | HEX_LITERAL | DECIMAL_LITERAL | OCTAL_LITERAL | FLOATING_POINT_LITERAL | WS | BS | UnicodeVocabulary | COMMENT | LINE_COMMENT | LINE_COMMAND ) - alt35 = 105 + # C.g:1:8: ( T25 | T26 | T27 | T28 | T29 | T30 | T31 | T32 | T33 | T34 | T35 | T36 | T37 | T38 | T39 | T40 | T41 | T42 | T43 | T44 | T45 | T46 | T47 | T48 | T49 | T50 | T51 | T52 | T53 | T54 | T55 | T56 | T57 | T58 | T59 | T60 | T61 | T62 | T63 | T64 | T65 | T66 | T67 | T68 | T69 | T70 | T71 | T72 | T73 | T74 | T75 | T76 | T77 | T78 | T79 | T80 | T81 | T82 | T83 | T84 | T85 | T86 | T87 | T88 | T89 | T90 | T91 | T92 | T93 | T94 | T95 | T96 | T97 | T98 | T99 | T100 | T101 | T102 | T103 | T104 | T105 | T106 | T107 | T108 | T109 | T110 | T111 | T112 | T113 | T114 | T115 | T116 | T117 | IDENTIFIER | CHARACTER_LITERAL | STRING_LITERAL | HEX_LITERAL | DECIMAL_LITERAL | OCTAL_LITERAL | FLOATING_POINT_LITERAL | WS | BS | UnicodeVocabulary | COMMENT | LINE_COMMENT | LINE_COMMAND ) + alt35 = 106 alt35 = self.dfa35.predict(self.input) if alt35 == 1: # C.g:1:10: T25 @@ -4183,79 +4227,85 @@ class CLexer(Lexer): elif alt35 == 93: - # C.g:1:395: IDENTIFIER - self.mIDENTIFIER() + # C.g:1:395: T117 + self.mT117() elif alt35 == 94: - # C.g:1:406: CHARACTER_LITERAL - self.mCHARACTER_LITERAL() + # C.g:1:400: IDENTIFIER + self.mIDENTIFIER() elif alt35 == 95: - # C.g:1:424: STRING_LITERAL - self.mSTRING_LITERAL() + # C.g:1:411: CHARACTER_LITERAL + self.mCHARACTER_LITERAL() elif alt35 == 96: - # C.g:1:439: HEX_LITERAL - self.mHEX_LITERAL() + # C.g:1:429: STRING_LITERAL + self.mSTRING_LITERAL() elif alt35 == 97: - # C.g:1:451: DECIMAL_LITERAL - self.mDECIMAL_LITERAL() + # C.g:1:444: HEX_LITERAL + self.mHEX_LITERAL() elif alt35 == 98: - # C.g:1:467: OCTAL_LITERAL - self.mOCTAL_LITERAL() + # C.g:1:456: DECIMAL_LITERAL + self.mDECIMAL_LITERAL() elif alt35 == 99: - # C.g:1:481: FLOATING_POINT_LITERAL - self.mFLOATING_POINT_LITERAL() + # C.g:1:472: OCTAL_LITERAL + self.mOCTAL_LITERAL() elif alt35 == 100: - # C.g:1:504: WS - self.mWS() + # C.g:1:486: FLOATING_POINT_LITERAL + self.mFLOATING_POINT_LITERAL() elif alt35 == 101: - # C.g:1:507: BS - self.mBS() + # C.g:1:509: WS + self.mWS() elif alt35 == 102: - # C.g:1:510: UnicodeVocabulary - self.mUnicodeVocabulary() + # C.g:1:512: BS + self.mBS() elif alt35 == 103: - # C.g:1:528: COMMENT - self.mCOMMENT() + # C.g:1:515: UnicodeVocabulary + self.mUnicodeVocabulary() elif alt35 == 104: - # C.g:1:536: LINE_COMMENT - self.mLINE_COMMENT() + # C.g:1:533: COMMENT + self.mCOMMENT() elif alt35 == 105: - # C.g:1:549: LINE_COMMAND + # C.g:1:541: LINE_COMMENT + self.mLINE_COMMENT() + + + + elif alt35 == 106: + # C.g:1:554: LINE_COMMAND self.mLINE_COMMAND() @@ -4276,15 +4326,15 @@ class CLexer(Lexer): ) DFA25_min = DFA.unpack( - u"\2\56\1\uffff\1\53\2\uffff\2\60\2\uffff" + u"\2\56\2\uffff\1\53\1\uffff\2\60\2\uffff" ) DFA25_max = DFA.unpack( - u"\1\71\1\146\1\uffff\1\71\2\uffff\1\71\1\146\2\uffff" + u"\1\71\1\146\2\uffff\1\71\1\uffff\1\71\1\146\2\uffff" ) DFA25_accept = DFA.unpack( - u"\2\uffff\1\2\1\uffff\1\4\1\1\2\uffff\2\3" + u"\2\uffff\1\2\1\1\1\uffff\1\4\2\uffff\2\3" ) DFA25_special = DFA.unpack( @@ -4294,11 +4344,11 @@ class CLexer(Lexer): DFA25_transition = [ DFA.unpack(u"\1\2\1\uffff\12\1"), - DFA.unpack(u"\1\5\1\uffff\12\1\12\uffff\1\4\1\3\1\4\35\uffff\1\4" - u"\1\3\1\4"), + DFA.unpack(u"\1\3\1\uffff\12\1\12\uffff\1\5\1\4\1\5\35\uffff\1\5" + u"\1\4\1\5"), DFA.unpack(u""), - DFA.unpack(u"\1\6\1\uffff\1\6\2\uffff\12\7"), DFA.unpack(u""), + DFA.unpack(u"\1\6\1\uffff\1\6\2\uffff\12\7"), DFA.unpack(u""), DFA.unpack(u"\12\7"), DFA.unpack(u"\12\7\12\uffff\1\11\1\uffff\1\11\35\uffff\1\11\1\uffff" @@ -4313,230 +4363,234 @@ class CLexer(Lexer): # lookup tables for DFA #35 DFA35_eot = DFA.unpack( - u"\2\uffff\1\75\1\uffff\1\100\14\75\3\uffff\7\75\4\uffff\1\147\1" - u"\151\1\155\1\161\1\165\1\167\1\172\1\uffff\1\175\1\u0080\1\u0083" - u"\1\u0085\1\u0088\1\uffff\5\75\1\uffff\2\72\2\u0092\2\uffff\1\72" - u"\2\uffff\1\75\4\uffff\16\75\1\u00ab\4\75\1\u00b1\2\75\3\uffff\1" - u"\u00b5\7\75\35\uffff\1\u00be\1\uffff\1\u00c0\10\uffff\5\75\4\uffff" - u"\1\u00c6\1\u0092\3\uffff\23\75\1\uffff\1\u00db\1\75\1\u00dd\2\75" - u"\1\uffff\3\75\1\uffff\1\u00e3\6\75\4\uffff\5\75\1\uffff\1\75\1" - u"\u00f1\1\u00f2\7\75\1\u00fa\3\75\1\u00fe\3\75\1\u0102\1\u0103\1" - u"\uffff\1\u0104\1\uffff\5\75\1\uffff\10\75\1\u0113\1\75\1\u0115" - u"\2\75\2\uffff\6\75\1\u011e\1\uffff\3\75\1\uffff\2\75\1\u0124\3" - u"\uffff\1\u0125\3\75\1\u0129\1\75\1\u012b\6\75\1\u0133\1\uffff\1" - u"\u0134\1\uffff\1\u0135\1\75\1\u0137\1\u0138\1\u0139\1\u013a\1\u013b" - u"\1\u013c\1\uffff\1\75\1\u013e\1\u013f\2\75\2\uffff\1\u0142\2\75" - u"\1\uffff\1\75\1\uffff\5\75\1\u014b\1\75\3\uffff\1\u014d\6\uffff" - u"\1\75\2\uffff\2\75\1\uffff\1\u0151\7\75\1\uffff\1\u0159\1\uffff" - u"\1\u015a\1\u015b\1\u015c\1\uffff\1\u015d\1\u015e\1\75\1\u0160\3" - u"\75\6\uffff\1\u0164\1\uffff\3\75\1\uffff\20\75\1\u0178\2\75\1\uffff" - u"\4\75\1\u017f\1\75\1\uffff\11\75\1\u018a\1\uffff" + u"\2\uffff\1\76\1\uffff\1\101\14\76\3\uffff\10\76\4\uffff\1\151\1" + u"\153\1\157\1\163\1\167\1\171\1\174\1\uffff\1\177\1\u0082\1\u0085" + u"\1\u0087\1\u008a\1\uffff\5\76\1\uffff\2\73\2\u0095\2\uffff\1\73" + u"\2\uffff\1\76\4\uffff\16\76\1\u00ad\5\76\1\u00b4\1\76\3\uffff\1" + u"\u00b7\10\76\34\uffff\1\u00c1\2\uffff\1\u00c3\10\uffff\5\76\3\uffff" + u"\1\u00c9\1\uffff\1\u0095\3\uffff\23\76\1\uffff\1\u00de\1\76\1\u00e0" + u"\3\76\1\uffff\2\76\1\uffff\1\76\1\u00e7\6\76\4\uffff\5\76\1\uffff" + u"\1\76\1\u00f5\1\76\1\u00f7\6\76\1\u00fe\4\76\1\u0103\1\u0104\2" + u"\76\1\u0107\1\uffff\1\u0108\1\uffff\6\76\1\uffff\10\76\1\u0118" + u"\1\76\1\u011a\2\76\1\uffff\1\76\1\uffff\5\76\1\u0123\1\uffff\4" + u"\76\2\uffff\1\76\1\u0129\2\uffff\1\u012a\3\76\1\u012e\1\76\1\u0130" + u"\7\76\1\u0139\1\uffff\1\u013a\1\uffff\1\u013b\1\76\1\u013d\1\u013e" + u"\1\u013f\1\u0140\1\u0141\1\u0142\1\uffff\1\76\1\u0144\1\u0145\2" + u"\76\2\uffff\1\76\1\u0149\1\76\1\uffff\1\76\1\uffff\5\76\1\u0151" + u"\1\u0152\1\76\3\uffff\1\u0154\6\uffff\1\76\2\uffff\2\76\1\u0158" + u"\1\uffff\7\76\2\uffff\1\u0160\1\uffff\1\u0161\1\u0162\1\u0163\1" + u"\uffff\1\u0164\1\u0165\1\76\1\u0167\3\76\6\uffff\1\u016b\1\uffff" + u"\3\76\1\uffff\21\76\1\u0180\2\76\1\uffff\3\76\1\u0186\1\76\1\uffff" + u"\11\76\1\u0191\1\uffff" ) DFA35_eof = DFA.unpack( - u"\u018b\uffff" + u"\u0192\uffff" ) DFA35_min = DFA.unpack( u"\1\3\1\uffff\1\171\1\uffff\1\75\1\154\1\150\1\165\1\145\1\124\1" u"\157\1\141\1\146\1\157\1\154\1\145\1\156\3\uffff\1\116\1\120\1" - u"\117\1\116\1\117\1\114\1\106\4\uffff\1\75\1\56\1\53\1\55\1\52\1" - u"\75\1\46\1\uffff\1\75\1\74\3\75\1\uffff\1\137\1\150\1\157\1\162" - u"\1\42\1\uffff\2\0\2\56\2\uffff\1\0\2\uffff\1\160\4\uffff\1\165" - u"\1\163\1\164\1\141\1\151\1\147\1\157\1\164\1\147\1\101\1\151\1" - u"\156\1\163\1\141\1\44\1\164\1\156\1\162\1\157\1\44\1\146\1\151" - u"\3\uffff\1\44\2\124\1\116\1\101\1\114\1\117\1\111\35\uffff\1\75" - u"\1\uffff\1\75\10\uffff\1\141\1\163\1\151\1\164\1\145\4\uffff\2" - u"\56\3\uffff\1\145\1\155\2\145\1\165\2\164\1\156\1\145\1\162\1\157" - u"\1\151\1\165\1\124\1\144\1\141\1\163\1\145\1\162\1\uffff\1\44\1" - u"\147\1\44\1\141\1\142\1\uffff\1\141\1\151\1\157\1\uffff\1\44\1" - u"\111\1\123\1\114\1\101\1\102\1\101\4\uffff\1\163\1\155\1\154\1" - u"\157\1\141\1\uffff\1\144\2\44\1\162\1\143\1\151\1\143\1\145\1\157" - u"\1\164\1\44\1\163\1\162\1\111\1\44\1\164\1\151\1\164\2\44\1\uffff" - u"\1\44\1\uffff\1\164\1\154\1\165\1\147\1\156\1\uffff\1\117\1\124" - u"\1\111\1\124\1\101\1\102\1\120\1\155\1\44\1\145\1\44\1\153\1\145" - u"\2\uffff\1\156\1\164\1\143\1\150\1\144\1\146\1\44\1\uffff\1\164" - u"\1\156\1\103\1\uffff\1\151\1\156\1\44\3\uffff\1\44\1\145\1\154" - u"\1\156\1\44\1\116\1\44\1\107\1\111\1\114\1\117\1\125\1\111\1\44" - u"\1\uffff\1\44\1\uffff\1\44\1\146\6\44\1\uffff\1\145\2\44\1\154" - u"\1\165\2\uffff\1\44\1\164\1\145\1\uffff\1\101\1\uffff\1\116\1\114" - u"\1\137\1\117\1\116\1\44\1\137\3\uffff\1\44\6\uffff\1\162\2\uffff" - u"\2\145\1\uffff\1\44\1\144\1\114\2\105\1\122\2\124\1\uffff\1\44" - u"\1\uffff\3\44\1\uffff\2\44\1\104\1\44\1\105\1\123\1\111\6\uffff" - u"\1\44\1\uffff\1\115\1\105\1\115\1\uffff\1\117\1\122\1\105\2\126" - u"\1\123\1\105\1\111\1\105\1\137\1\103\1\122\1\111\1\105\1\126\1" - u"\106\1\44\1\111\1\137\1\uffff\1\103\1\125\1\105\1\116\1\44\1\122" - u"\1\uffff\1\105\1\106\1\105\1\122\1\105\1\116\1\103\1\105\1\104" - u"\1\44\1\uffff" + u"\117\1\116\1\117\1\114\1\106\1\101\4\uffff\1\75\1\56\1\53\1\55" + u"\1\52\1\75\1\46\1\uffff\1\75\1\74\3\75\1\uffff\1\137\1\150\1\157" + u"\1\162\1\42\1\uffff\2\0\2\56\2\uffff\1\0\2\uffff\1\160\4\uffff" + u"\1\163\1\164\1\165\1\151\1\141\1\147\1\157\1\164\1\147\1\101\1" + u"\151\1\163\1\156\1\141\1\44\1\164\1\156\1\162\1\157\1\146\1\44" + u"\1\151\3\uffff\1\44\2\124\1\116\1\101\1\114\1\117\1\111\1\103\34" + u"\uffff\1\75\2\uffff\1\75\10\uffff\1\141\1\163\1\151\1\164\1\145" + u"\3\uffff\1\56\1\uffff\1\56\3\uffff\3\145\1\155\2\164\1\165\1\145" + u"\1\156\1\162\1\157\1\151\1\165\1\124\1\141\1\144\1\145\1\163\1" + u"\162\1\uffff\1\44\1\147\1\44\2\141\1\142\1\uffff\1\151\1\157\1" + u"\uffff\1\111\1\44\1\123\1\114\1\101\1\102\1\101\1\113\4\uffff\1" + u"\163\1\155\1\154\1\157\1\141\1\uffff\1\144\1\44\1\162\1\44\1\143" + u"\1\151\1\143\1\157\1\145\1\164\1\44\1\163\1\162\1\111\1\164\2\44" + u"\1\151\1\164\1\44\1\uffff\1\44\1\uffff\1\164\1\165\1\154\1\147" + u"\1\156\1\117\1\uffff\1\124\1\111\1\124\1\101\1\102\1\120\1\105" + u"\1\155\1\44\1\145\1\44\1\153\1\145\1\uffff\1\156\1\uffff\1\150" + u"\1\143\1\164\1\146\1\144\1\44\1\uffff\1\164\1\156\1\103\1\151\2" + u"\uffff\1\156\1\44\2\uffff\1\44\1\154\1\145\1\156\1\44\1\116\1\44" + u"\1\107\1\111\1\114\1\125\1\117\1\111\1\104\1\44\1\uffff\1\44\1" + u"\uffff\1\44\1\146\6\44\1\uffff\1\145\2\44\1\154\1\165\2\uffff\1" + u"\164\1\44\1\145\1\uffff\1\101\1\uffff\1\116\1\114\1\137\1\116\1" + u"\117\2\44\1\137\3\uffff\1\44\6\uffff\1\162\2\uffff\2\145\1\44\1" + u"\uffff\1\144\1\114\2\105\1\122\2\124\2\uffff\1\44\1\uffff\3\44" + u"\1\uffff\2\44\1\104\1\44\1\105\1\111\1\123\6\uffff\1\44\1\uffff" + u"\2\115\1\105\1\uffff\1\117\1\105\1\122\1\126\1\123\1\126\2\105" + u"\1\111\1\137\1\122\1\103\1\111\1\126\1\105\1\106\1\111\1\44\1\137" + u"\1\103\1\uffff\1\125\1\105\1\116\1\44\1\122\1\uffff\1\105\1\106" + u"\1\105\1\122\1\105\1\116\1\103\1\105\1\104\1\44\1\uffff" ) DFA35_max = DFA.unpack( u"\1\ufffe\1\uffff\1\171\1\uffff\1\75\1\170\1\167\1\165\1\145\1\124" u"\2\157\1\156\3\157\1\156\3\uffff\1\116\1\125\1\117\1\116\1\117" - u"\1\114\1\106\4\uffff\1\75\1\71\1\75\1\76\3\75\1\uffff\2\75\1\76" - u"\1\75\1\174\1\uffff\1\141\1\150\1\157\1\162\1\47\1\uffff\2\ufffe" - u"\1\170\1\146\2\uffff\1\ufffe\2\uffff\1\160\4\uffff\1\165\1\163" - u"\1\164\1\162\1\151\1\172\1\157\2\164\1\101\1\154\1\156\1\163\1" - u"\141\1\172\1\164\1\156\1\162\1\157\1\172\1\146\1\163\3\uffff\1" - u"\172\2\124\1\116\1\101\1\114\1\117\1\111\35\uffff\1\75\1\uffff" - u"\1\75\10\uffff\1\141\1\163\1\151\1\164\1\145\4\uffff\2\146\3\uffff" - u"\1\145\1\155\2\145\1\165\2\164\1\156\1\145\1\162\1\157\1\151\1" - u"\165\1\124\1\144\1\141\1\164\1\145\1\162\1\uffff\1\172\1\147\1" - u"\172\1\141\1\142\1\uffff\1\141\1\151\1\157\1\uffff\1\172\1\111" - u"\1\123\1\114\1\101\1\102\1\137\4\uffff\1\163\1\155\1\154\1\157" - u"\1\141\1\uffff\1\144\2\172\1\162\1\143\1\151\1\143\1\145\1\157" - u"\1\164\1\172\1\163\1\162\1\111\1\172\1\164\1\151\1\164\2\172\1" - u"\uffff\1\172\1\uffff\1\164\1\154\1\165\1\147\1\156\1\uffff\1\117" - u"\1\124\1\111\1\124\1\101\1\122\1\120\1\155\1\172\1\145\1\172\1" - u"\153\1\145\2\uffff\1\156\1\164\1\143\1\150\1\144\1\146\1\172\1" - u"\uffff\1\164\1\156\1\103\1\uffff\1\151\1\156\1\172\3\uffff\1\172" - u"\1\145\1\154\1\156\1\172\1\116\1\172\1\107\1\111\1\114\1\117\1" - u"\125\1\111\1\172\1\uffff\1\172\1\uffff\1\172\1\146\6\172\1\uffff" - u"\1\145\2\172\1\154\1\165\2\uffff\1\172\1\164\1\145\1\uffff\1\101" - u"\1\uffff\1\116\1\114\1\137\1\117\1\116\1\172\1\137\3\uffff\1\172" - u"\6\uffff\1\162\2\uffff\2\145\1\uffff\1\172\1\144\1\114\2\105\1" - u"\122\2\124\1\uffff\1\172\1\uffff\3\172\1\uffff\2\172\1\104\1\172" - u"\1\105\1\123\1\111\6\uffff\1\172\1\uffff\1\115\1\105\1\115\1\uffff" - u"\1\117\1\122\1\105\2\126\1\123\1\105\1\111\1\105\1\137\1\103\1" - u"\122\1\111\1\105\1\126\1\106\1\172\1\111\1\137\1\uffff\1\103\1" - u"\125\1\105\1\116\1\172\1\122\1\uffff\1\105\1\106\1\105\1\122\1" - u"\105\1\116\1\103\1\105\1\104\1\172\1\uffff" + u"\1\114\1\106\1\101\4\uffff\1\75\1\71\1\75\1\76\3\75\1\uffff\2\75" + u"\1\76\1\75\1\174\1\uffff\1\141\1\150\1\157\1\162\1\47\1\uffff\2" + u"\ufffe\1\170\1\146\2\uffff\1\ufffe\2\uffff\1\160\4\uffff\1\163" + u"\1\164\1\165\1\151\1\162\1\172\1\157\2\164\1\101\1\154\1\163\1" + u"\156\1\141\1\172\1\164\1\156\1\162\1\157\1\146\1\172\1\163\3\uffff" + u"\1\172\2\124\1\116\1\101\1\114\1\117\1\111\1\103\34\uffff\1\75" + u"\2\uffff\1\75\10\uffff\1\141\1\163\1\151\1\164\1\145\3\uffff\1" + u"\146\1\uffff\1\146\3\uffff\3\145\1\155\2\164\1\165\1\145\1\156" + u"\1\162\1\157\1\151\1\165\1\124\1\141\1\144\1\145\1\164\1\162\1" + u"\uffff\1\172\1\147\1\172\2\141\1\142\1\uffff\1\151\1\157\1\uffff" + u"\1\111\1\172\1\123\1\114\1\101\1\102\1\137\1\113\4\uffff\1\163" + u"\1\155\1\154\1\157\1\141\1\uffff\1\144\1\172\1\162\1\172\1\143" + u"\1\151\1\143\1\157\1\145\1\164\1\172\1\163\1\162\1\111\1\164\2" + u"\172\1\151\1\164\1\172\1\uffff\1\172\1\uffff\1\164\1\165\1\154" + u"\1\147\1\156\1\117\1\uffff\1\124\1\111\1\124\1\101\1\122\1\120" + u"\1\105\1\155\1\172\1\145\1\172\1\153\1\145\1\uffff\1\156\1\uffff" + u"\1\150\1\143\1\164\1\146\1\144\1\172\1\uffff\1\164\1\156\1\103" + u"\1\151\2\uffff\1\156\1\172\2\uffff\1\172\1\154\1\145\1\156\1\172" + u"\1\116\1\172\1\107\1\111\1\114\1\125\1\117\1\111\1\104\1\172\1" + u"\uffff\1\172\1\uffff\1\172\1\146\6\172\1\uffff\1\145\2\172\1\154" + u"\1\165\2\uffff\1\164\1\172\1\145\1\uffff\1\101\1\uffff\1\116\1" + u"\114\1\137\1\116\1\117\2\172\1\137\3\uffff\1\172\6\uffff\1\162" + u"\2\uffff\2\145\1\172\1\uffff\1\144\1\114\2\105\1\122\2\124\2\uffff" + u"\1\172\1\uffff\3\172\1\uffff\2\172\1\104\1\172\1\105\1\111\1\123" + u"\6\uffff\1\172\1\uffff\2\115\1\105\1\uffff\1\117\1\105\1\122\1" + u"\126\1\123\1\126\2\105\1\111\1\137\1\122\1\103\1\111\1\126\1\105" + u"\1\106\1\111\1\172\1\137\1\103\1\uffff\1\125\1\105\1\116\1\172" + u"\1\122\1\uffff\1\105\1\106\1\105\1\122\1\105\1\116\1\103\1\105" + u"\1\104\1\172\1\uffff" ) DFA35_accept = DFA.unpack( - u"\1\uffff\1\1\1\uffff\1\3\15\uffff\1\23\1\24\1\27\7\uffff\1\45\1" - u"\46\1\47\1\50\7\uffff\1\65\5\uffff\1\101\5\uffff\1\135\4\uffff" - u"\1\144\1\145\1\uffff\1\146\1\1\1\uffff\1\135\1\3\1\106\1\4\26\uffff" - u"\1\23\1\24\1\27\10\uffff\1\45\1\46\1\47\1\50\1\67\1\51\1\52\1\62" - u"\1\143\1\57\1\72\1\53\1\63\1\73\1\60\1\54\1\70\1\150\1\147\1\55" - u"\1\71\1\56\1\76\1\103\1\64\1\65\1\107\1\66\1\112\1\uffff\1\110" - u"\1\uffff\1\113\1\111\1\77\1\105\1\100\1\102\1\104\1\101\5\uffff" - u"\1\136\1\137\1\140\1\141\2\uffff\1\144\1\145\1\151\23\uffff\1\123" - u"\5\uffff\1\127\3\uffff\1\33\7\uffff\1\74\1\114\1\75\1\115\5\uffff" - u"\1\142\24\uffff\1\15\1\uffff\1\130\5\uffff\1\34\15\uffff\1\30\1" - u"\124\7\uffff\1\7\3\uffff\1\12\3\uffff\1\121\1\13\1\16\16\uffff" - u"\1\117\1\uffff\1\131\10\uffff\1\14\5\uffff\1\31\1\17\3\uffff\1" - u"\26\1\uffff\1\36\7\uffff\1\120\1\126\1\133\1\uffff\1\5\1\25\1\6" - u"\1\125\1\21\1\61\1\uffff\1\134\1\11\2\uffff\1\20\10\uffff\1\42" - u"\1\uffff\1\2\3\uffff\1\122\7\uffff\1\116\1\10\1\32\1\132\1\22\1" - u"\35\1\uffff\1\40\3\uffff\1\37\23\uffff\1\43\6\uffff\1\44\12\uffff" - u"\1\41" + u"\1\uffff\1\1\1\uffff\1\3\15\uffff\1\23\1\24\1\27\10\uffff\1\46" + u"\1\47\1\50\1\51\7\uffff\1\66\5\uffff\1\102\5\uffff\1\136\4\uffff" + u"\1\145\1\146\1\uffff\1\147\1\1\1\uffff\1\136\1\3\1\107\1\4\26\uffff" + u"\1\23\1\24\1\27\11\uffff\1\46\1\47\1\50\1\51\1\70\1\52\1\53\1\63" + u"\1\144\1\73\1\60\1\54\1\74\1\64\1\61\1\55\1\150\1\151\1\71\1\56" + u"\1\72\1\57\1\77\1\104\1\65\1\66\1\110\1\67\1\uffff\1\113\1\111" + u"\1\uffff\1\114\1\112\1\100\1\106\1\103\1\101\1\105\1\102\5\uffff" + u"\1\140\1\137\1\141\1\uffff\1\142\1\uffff\1\145\1\146\1\152\23\uffff" + u"\1\124\6\uffff\1\130\2\uffff\1\33\10\uffff\1\75\1\115\1\76\1\116" + u"\5\uffff\1\143\24\uffff\1\15\1\uffff\1\131\6\uffff\1\34\15\uffff" + u"\1\125\1\uffff\1\30\6\uffff\1\7\4\uffff\1\12\1\122\2\uffff\1\13" + u"\1\16\17\uffff\1\120\1\uffff\1\132\10\uffff\1\14\5\uffff\1\31\1" + u"\17\3\uffff\1\26\1\uffff\1\36\10\uffff\1\121\1\127\1\134\1\uffff" + u"\1\5\1\126\1\6\1\25\1\62\1\21\1\uffff\1\135\1\11\3\uffff\1\20\7" + u"\uffff\1\42\1\45\1\uffff\1\2\3\uffff\1\123\7\uffff\1\117\1\10\1" + u"\32\1\133\1\22\1\35\1\uffff\1\40\3\uffff\1\37\24\uffff\1\43\5\uffff" + u"\1\44\12\uffff\1\41" ) DFA35_special = DFA.unpack( - u"\u018b\uffff" + u"\u0192\uffff" ) DFA35_transition = [ - DFA.unpack(u"\6\72\2\67\1\72\2\67\22\72\1\67\1\47\1\64\1\71\1\62" - u"\1\44\1\45\1\63\1\33\1\34\1\37\1\41\1\3\1\42\1\40\1\43\1\65\11" - u"\66\1\23\1\1\1\50\1\4\1\51\1\54\1\72\2\62\1\26\1\62\1\32\1\62\1" - u"\31\1\62\1\24\2\62\1\61\2\62\1\25\3\62\1\11\1\62\1\27\1\30\4\62" - u"\1\35\1\70\1\36\1\52\1\55\1\72\1\7\1\60\1\13\1\17\1\5\1\16\1\57" - u"\1\62\1\14\2\62\1\15\5\62\1\10\1\6\1\2\1\20\1\12\1\56\3\62\1\21" - u"\1\53\1\22\1\46\uff80\72"), + DFA.unpack(u"\6\73\2\70\1\73\2\70\22\73\1\70\1\50\1\65\1\72\1\63" + u"\1\45\1\46\1\64\1\34\1\35\1\40\1\42\1\3\1\43\1\41\1\44\1\66\11" + u"\67\1\23\1\1\1\51\1\4\1\52\1\55\1\73\2\63\1\26\1\63\1\32\1\63\1" + u"\31\1\63\1\24\2\63\1\62\2\63\1\25\1\33\2\63\1\11\1\63\1\27\1\30" + u"\4\63\1\36\1\71\1\37\1\53\1\56\1\73\1\7\1\61\1\13\1\17\1\5\1\16" + u"\1\60\1\63\1\14\2\63\1\15\5\63\1\10\1\6\1\2\1\20\1\12\1\57\3\63" + u"\1\21\1\54\1\22\1\47\uff80\73"), DFA.unpack(u""), - DFA.unpack(u"\1\74"), + DFA.unpack(u"\1\75"), DFA.unpack(u""), - DFA.unpack(u"\1\77"), - DFA.unpack(u"\1\102\1\uffff\1\101\11\uffff\1\103"), - DFA.unpack(u"\1\107\1\106\12\uffff\1\104\2\uffff\1\105"), - DFA.unpack(u"\1\110"), + DFA.unpack(u"\1\100"), + DFA.unpack(u"\1\102\1\uffff\1\104\11\uffff\1\103"), + DFA.unpack(u"\1\110\1\107\12\uffff\1\106\2\uffff\1\105"), DFA.unpack(u"\1\111"), DFA.unpack(u"\1\112"), DFA.unpack(u"\1\113"), - DFA.unpack(u"\1\115\6\uffff\1\116\6\uffff\1\114"), - DFA.unpack(u"\1\117\7\uffff\1\120"), - DFA.unpack(u"\1\121"), - DFA.unpack(u"\1\123\2\uffff\1\122"), - DFA.unpack(u"\1\125\11\uffff\1\124"), - DFA.unpack(u"\1\126"), + DFA.unpack(u"\1\114"), + DFA.unpack(u"\1\115\6\uffff\1\117\6\uffff\1\116"), + DFA.unpack(u"\1\120\7\uffff\1\121"), + DFA.unpack(u"\1\122"), + DFA.unpack(u"\1\124\2\uffff\1\123"), + DFA.unpack(u"\1\125\11\uffff\1\126"), + DFA.unpack(u"\1\127"), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), - DFA.unpack(u"\1\132"), - DFA.unpack(u"\1\134\4\uffff\1\133"), - DFA.unpack(u"\1\135"), + DFA.unpack(u"\1\133"), + DFA.unpack(u"\1\134\4\uffff\1\135"), DFA.unpack(u"\1\136"), DFA.unpack(u"\1\137"), DFA.unpack(u"\1\140"), DFA.unpack(u"\1\141"), + DFA.unpack(u"\1\142"), + DFA.unpack(u"\1\143"), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), - DFA.unpack(u"\1\146"), - DFA.unpack(u"\1\150\1\uffff\12\152"), - DFA.unpack(u"\1\153\21\uffff\1\154"), - DFA.unpack(u"\1\160\17\uffff\1\157\1\156"), - DFA.unpack(u"\1\164\4\uffff\1\163\15\uffff\1\162"), - DFA.unpack(u"\1\166"), - DFA.unpack(u"\1\171\26\uffff\1\170"), + DFA.unpack(u"\1\150"), + DFA.unpack(u"\1\152\1\uffff\12\154"), + DFA.unpack(u"\1\156\21\uffff\1\155"), + DFA.unpack(u"\1\162\17\uffff\1\160\1\161"), + DFA.unpack(u"\1\164\4\uffff\1\165\15\uffff\1\166"), + DFA.unpack(u"\1\170"), + DFA.unpack(u"\1\173\26\uffff\1\172"), DFA.unpack(u""), - DFA.unpack(u"\1\174"), - DFA.unpack(u"\1\177\1\176"), - DFA.unpack(u"\1\u0082\1\u0081"), - DFA.unpack(u"\1\u0084"), - DFA.unpack(u"\1\u0086\76\uffff\1\u0087"), + DFA.unpack(u"\1\176"), + DFA.unpack(u"\1\u0080\1\u0081"), + DFA.unpack(u"\1\u0084\1\u0083"), + DFA.unpack(u"\1\u0086"), + DFA.unpack(u"\1\u0089\76\uffff\1\u0088"), DFA.unpack(u""), - DFA.unpack(u"\1\u008a\1\uffff\1\u008b"), - DFA.unpack(u"\1\u008c"), - DFA.unpack(u"\1\u008d"), + DFA.unpack(u"\1\u008c\1\uffff\1\u008d"), DFA.unpack(u"\1\u008e"), - DFA.unpack(u"\1\u0090\4\uffff\1\u008f"), + DFA.unpack(u"\1\u008f"), + DFA.unpack(u"\1\u0090"), + DFA.unpack(u"\1\u0091\4\uffff\1\u0092"), DFA.unpack(u""), - DFA.unpack(u"\47\u008f\1\uffff\uffd7\u008f"), - DFA.unpack(u"\uffff\u0090"), - DFA.unpack(u"\1\152\1\uffff\10\u0093\2\152\12\uffff\3\152\21\uffff" - u"\1\u0091\13\uffff\3\152\21\uffff\1\u0091"), - DFA.unpack(u"\1\152\1\uffff\12\u0094\12\uffff\3\152\35\uffff\3\152"), + DFA.unpack(u"\47\u0092\1\uffff\uffd7\u0092"), + DFA.unpack(u"\uffff\u0091"), + DFA.unpack(u"\1\154\1\uffff\10\u0094\2\154\12\uffff\3\154\21\uffff" + u"\1\u0093\13\uffff\3\154\21\uffff\1\u0093"), + DFA.unpack(u"\1\154\1\uffff\12\u0096\12\uffff\3\154\35\uffff\3\154"), DFA.unpack(u""), DFA.unpack(u""), - DFA.unpack(u"\uffff\u0097"), + DFA.unpack(u"\uffff\u0099"), DFA.unpack(u""), DFA.unpack(u""), - DFA.unpack(u"\1\u0098"), + DFA.unpack(u"\1\u009a"), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), - DFA.unpack(u"\1\u0099"), - DFA.unpack(u"\1\u009a"), DFA.unpack(u"\1\u009b"), - DFA.unpack(u"\1\u009d\20\uffff\1\u009c"), + DFA.unpack(u"\1\u009c"), + DFA.unpack(u"\1\u009d"), DFA.unpack(u"\1\u009e"), - DFA.unpack(u"\1\u009f\22\uffff\1\u00a0"), - DFA.unpack(u"\1\u00a1"), - DFA.unpack(u"\1\u00a2"), - DFA.unpack(u"\1\u00a3\14\uffff\1\u00a4"), - DFA.unpack(u"\1\u00a5"), - DFA.unpack(u"\1\u00a6\2\uffff\1\u00a7"), - DFA.unpack(u"\1\u00a8"), - DFA.unpack(u"\1\u00a9"), + DFA.unpack(u"\1\u009f\20\uffff\1\u00a0"), + DFA.unpack(u"\1\u00a2\22\uffff\1\u00a1"), + DFA.unpack(u"\1\u00a3"), + DFA.unpack(u"\1\u00a4"), + DFA.unpack(u"\1\u00a5\14\uffff\1\u00a6"), + DFA.unpack(u"\1\u00a7"), + DFA.unpack(u"\1\u00a9\2\uffff\1\u00a8"), DFA.unpack(u"\1\u00aa"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\u00ab"), DFA.unpack(u"\1\u00ac"), - DFA.unpack(u"\1\u00ad"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u00ae"), DFA.unpack(u"\1\u00af"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\24\75\1\u00b0\5\75"), + DFA.unpack(u"\1\u00b0"), + DFA.unpack(u"\1\u00b1"), DFA.unpack(u"\1\u00b2"), - DFA.unpack(u"\1\u00b4\11\uffff\1\u00b3"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\24\76\1\u00b3\5\76"), + DFA.unpack(u"\1\u00b6\11\uffff\1\u00b5"), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\u00b6"), - DFA.unpack(u"\1\u00b7"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u00b8"), DFA.unpack(u"\1\u00b9"), DFA.unpack(u"\1\u00ba"), DFA.unpack(u"\1\u00bb"), DFA.unpack(u"\1\u00bc"), + DFA.unpack(u"\1\u00bd"), + DFA.unpack(u"\1\u00be"), + DFA.unpack(u"\1\u00bf"), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), @@ -4565,10 +4619,10 @@ class CLexer(Lexer): DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), + DFA.unpack(u"\1\u00c0"), DFA.unpack(u""), - DFA.unpack(u"\1\u00bd"), DFA.unpack(u""), - DFA.unpack(u"\1\u00bf"), + DFA.unpack(u"\1\u00c2"), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), @@ -4577,24 +4631,21 @@ class CLexer(Lexer): DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), - DFA.unpack(u"\1\u00c1"), - DFA.unpack(u"\1\u00c2"), - DFA.unpack(u"\1\u00c3"), DFA.unpack(u"\1\u00c4"), DFA.unpack(u"\1\u00c5"), + DFA.unpack(u"\1\u00c6"), + DFA.unpack(u"\1\u00c7"), + DFA.unpack(u"\1\u00c8"), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), + DFA.unpack(u"\1\154\1\uffff\10\u0094\2\154\12\uffff\3\154\35\uffff" + u"\3\154"), DFA.unpack(u""), - DFA.unpack(u"\1\152\1\uffff\10\u0093\2\152\12\uffff\3\152\35\uffff" - u"\3\152"), - DFA.unpack(u"\1\152\1\uffff\12\u0094\12\uffff\3\152\35\uffff\3\152"), + DFA.unpack(u"\1\154\1\uffff\12\u0096\12\uffff\3\154\35\uffff\3\154"), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), - DFA.unpack(u"\1\u00c7"), - DFA.unpack(u"\1\u00c8"), - DFA.unpack(u"\1\u00c9"), DFA.unpack(u"\1\u00ca"), DFA.unpack(u"\1\u00cb"), DFA.unpack(u"\1\u00cc"), @@ -4608,242 +4659,244 @@ class CLexer(Lexer): DFA.unpack(u"\1\u00d4"), DFA.unpack(u"\1\u00d5"), DFA.unpack(u"\1\u00d6"), - DFA.unpack(u"\1\u00d8\1\u00d7"), + DFA.unpack(u"\1\u00d7"), + DFA.unpack(u"\1\u00d8"), DFA.unpack(u"\1\u00d9"), DFA.unpack(u"\1\u00da"), + DFA.unpack(u"\1\u00dc\1\u00db"), + DFA.unpack(u"\1\u00dd"), DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\u00dc"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\u00de"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u00df"), - DFA.unpack(u""), - DFA.unpack(u"\1\u00e0"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u00e1"), DFA.unpack(u"\1\u00e2"), + DFA.unpack(u"\1\u00e3"), DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), DFA.unpack(u"\1\u00e4"), DFA.unpack(u"\1\u00e5"), + DFA.unpack(u""), DFA.unpack(u"\1\u00e6"), - DFA.unpack(u"\1\u00e7"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u00e8"), - DFA.unpack(u"\1\u00ea\35\uffff\1\u00e9"), + DFA.unpack(u"\1\u00e9"), + DFA.unpack(u"\1\u00ea"), + DFA.unpack(u"\1\u00eb"), + DFA.unpack(u"\1\u00ed\35\uffff\1\u00ec"), + DFA.unpack(u"\1\u00ee"), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), - DFA.unpack(u"\1\u00eb"), - DFA.unpack(u"\1\u00ec"), - DFA.unpack(u"\1\u00ed"), - DFA.unpack(u"\1\u00ee"), DFA.unpack(u"\1\u00ef"), - DFA.unpack(u""), DFA.unpack(u"\1\u00f0"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\u00f1"), + DFA.unpack(u"\1\u00f2"), DFA.unpack(u"\1\u00f3"), + DFA.unpack(u""), DFA.unpack(u"\1\u00f4"), - DFA.unpack(u"\1\u00f5"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u00f6"), - DFA.unpack(u"\1\u00f7"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u00f8"), DFA.unpack(u"\1\u00f9"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\u00fa"), DFA.unpack(u"\1\u00fb"), DFA.unpack(u"\1\u00fc"), DFA.unpack(u"\1\u00fd"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u00ff"), DFA.unpack(u"\1\u0100"), DFA.unpack(u"\1\u0101"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u""), + DFA.unpack(u"\1\u0102"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u0105"), DFA.unpack(u"\1\u0106"), - DFA.unpack(u"\1\u0107"), - DFA.unpack(u"\1\u0108"), - DFA.unpack(u"\1\u0109"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u""), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u""), + DFA.unpack(u"\1\u0109"), DFA.unpack(u"\1\u010a"), DFA.unpack(u"\1\u010b"), DFA.unpack(u"\1\u010c"), DFA.unpack(u"\1\u010d"), DFA.unpack(u"\1\u010e"), - DFA.unpack(u"\1\u010f\17\uffff\1\u0110"), + DFA.unpack(u""), + DFA.unpack(u"\1\u010f"), + DFA.unpack(u"\1\u0110"), DFA.unpack(u"\1\u0111"), DFA.unpack(u"\1\u0112"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\u0114"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\u0114\17\uffff\1\u0113"), + DFA.unpack(u"\1\u0115"), DFA.unpack(u"\1\u0116"), DFA.unpack(u"\1\u0117"), - DFA.unpack(u""), - DFA.unpack(u""), - DFA.unpack(u"\1\u0118"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u0119"), - DFA.unpack(u"\1\u011a"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u011b"), DFA.unpack(u"\1\u011c"), + DFA.unpack(u""), DFA.unpack(u"\1\u011d"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), DFA.unpack(u""), + DFA.unpack(u"\1\u011e"), DFA.unpack(u"\1\u011f"), DFA.unpack(u"\1\u0120"), DFA.unpack(u"\1\u0121"), - DFA.unpack(u""), DFA.unpack(u"\1\u0122"), - DFA.unpack(u"\1\u0123"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u""), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u""), - DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\u0124"), + DFA.unpack(u"\1\u0125"), DFA.unpack(u"\1\u0126"), DFA.unpack(u"\1\u0127"), + DFA.unpack(u""), + DFA.unpack(u""), DFA.unpack(u"\1\u0128"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\u012a"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u""), + DFA.unpack(u""), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\u012b"), DFA.unpack(u"\1\u012c"), DFA.unpack(u"\1\u012d"), - DFA.unpack(u"\1\u012e"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u012f"), - DFA.unpack(u"\1\u0130"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u0131"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\u0132\1" - u"\uffff\32\75"), - DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\u0132"), + DFA.unpack(u"\1\u0133"), + DFA.unpack(u"\1\u0134"), + DFA.unpack(u"\1\u0135"), DFA.unpack(u"\1\u0136"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\u0137"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\u0138\1" + u"\uffff\32\76"), DFA.unpack(u""), - DFA.unpack(u"\1\u013d"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\u0140"), - DFA.unpack(u"\1\u0141"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u""), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\u013c"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), DFA.unpack(u"\1\u0143"), - DFA.unpack(u"\1\u0144"), - DFA.unpack(u""), - DFA.unpack(u"\1\u0145"), - DFA.unpack(u""), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u0146"), DFA.unpack(u"\1\u0147"), + DFA.unpack(u""), + DFA.unpack(u""), DFA.unpack(u"\1\u0148"), - DFA.unpack(u"\1\u0149"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u014a"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\u014c"), - DFA.unpack(u""), DFA.unpack(u""), + DFA.unpack(u"\1\u014b"), DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\u014c"), + DFA.unpack(u"\1\u014d"), + DFA.unpack(u"\1\u014e"), + DFA.unpack(u"\1\u014f"), + DFA.unpack(u"\1\u0150"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\u0153"), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), - DFA.unpack(u"\1\u014e"), DFA.unpack(u""), DFA.unpack(u""), - DFA.unpack(u"\1\u014f"), - DFA.unpack(u"\1\u0150"), DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\u0152"), - DFA.unpack(u"\1\u0153"), - DFA.unpack(u"\1\u0154"), DFA.unpack(u"\1\u0155"), + DFA.unpack(u""), + DFA.unpack(u""), DFA.unpack(u"\1\u0156"), DFA.unpack(u"\1\u0157"), - DFA.unpack(u"\1\u0158"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\u0159"), + DFA.unpack(u"\1\u015a"), + DFA.unpack(u"\1\u015b"), + DFA.unpack(u"\1\u015c"), + DFA.unpack(u"\1\u015d"), + DFA.unpack(u"\1\u015e"), + DFA.unpack(u"\1\u015f"), DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\u015f"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\u0161"), - DFA.unpack(u"\1\u0162"), - DFA.unpack(u"\1\u0163"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u""), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u""), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\u0166"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u"\1\u0168"), + DFA.unpack(u"\1\u0169"), + DFA.unpack(u"\1\u016a"), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), DFA.unpack(u""), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), DFA.unpack(u""), - DFA.unpack(u"\1\u0165"), - DFA.unpack(u"\1\u0166"), - DFA.unpack(u"\1\u0167"), DFA.unpack(u""), - DFA.unpack(u"\1\u0168"), - DFA.unpack(u"\1\u0169"), - DFA.unpack(u"\1\u016a"), - DFA.unpack(u"\1\u016b"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), + DFA.unpack(u""), DFA.unpack(u"\1\u016c"), DFA.unpack(u"\1\u016d"), DFA.unpack(u"\1\u016e"), + DFA.unpack(u""), DFA.unpack(u"\1\u016f"), DFA.unpack(u"\1\u0170"), DFA.unpack(u"\1\u0171"), @@ -4853,30 +4906,37 @@ class CLexer(Lexer): DFA.unpack(u"\1\u0175"), DFA.unpack(u"\1\u0176"), DFA.unpack(u"\1\u0177"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\u0178"), DFA.unpack(u"\1\u0179"), DFA.unpack(u"\1\u017a"), - DFA.unpack(u""), DFA.unpack(u"\1\u017b"), DFA.unpack(u"\1\u017c"), DFA.unpack(u"\1\u017d"), DFA.unpack(u"\1\u017e"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), - DFA.unpack(u"\1\u0180"), - DFA.unpack(u""), + DFA.unpack(u"\1\u017f"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u0181"), DFA.unpack(u"\1\u0182"), + DFA.unpack(u""), DFA.unpack(u"\1\u0183"), DFA.unpack(u"\1\u0184"), DFA.unpack(u"\1\u0185"), - DFA.unpack(u"\1\u0186"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"\1\u0187"), + DFA.unpack(u""), DFA.unpack(u"\1\u0188"), DFA.unpack(u"\1\u0189"), - DFA.unpack(u"\1\75\13\uffff\12\75\7\uffff\32\75\4\uffff\1\75\1\uffff" - u"\32\75"), + DFA.unpack(u"\1\u018a"), + DFA.unpack(u"\1\u018b"), + DFA.unpack(u"\1\u018c"), + DFA.unpack(u"\1\u018d"), + DFA.unpack(u"\1\u018e"), + DFA.unpack(u"\1\u018f"), + DFA.unpack(u"\1\u0190"), + DFA.unpack(u"\1\76\13\uffff\12\76\7\uffff\32\76\4\uffff\1\76\1\uffff" + u"\32\76"), DFA.unpack(u"") ] |