package hu.bme.mit.inf.dslreasoner.faulttree.components.parser.antlr.internal; // Hack: Use our own Lexer superclass by means of import. // Currently there is no other way to specify the superclass for the lexer. import org.eclipse.xtext.parser.antlr.Lexer; import org.antlr.runtime.*; import java.util.Stack; import java.util.List; import java.util.ArrayList; @SuppressWarnings("all") public class InternalCftLanguageLexer extends Lexer { public static final int RULE_STRING=8; public static final int RULE_SL_COMMENT=10; public static final int T__19=19; public static final int T__15=15; public static final int T__37=37; public static final int T__16=16; public static final int T__38=38; public static final int T__17=17; public static final int T__39=39; public static final int T__18=18; public static final int T__33=33; public static final int T__34=34; public static final int RULE_T_DOUBLE=7; public static final int T__13=13; public static final int T__35=35; public static final int T__14=14; public static final int T__36=36; public static final int EOF=-1; public static final int T__30=30; public static final int T__31=31; public static final int T__32=32; public static final int RULE_OF_INT=5; public static final int RULE_ID=6; public static final int RULE_WS=11; public static final int RULE_ANY_OTHER=12; public static final int T__26=26; public static final int T__27=27; public static final int T__28=28; public static final int RULE_INT=4; public static final int T__29=29; public static final int T__22=22; public static final int RULE_ML_COMMENT=9; public static final int T__23=23; public static final int T__24=24; public static final int T__25=25; public static final int T__40=40; public static final int T__20=20; public static final int T__21=21; // delegates // delegators public InternalCftLanguageLexer() {;} public InternalCftLanguageLexer(CharStream input) { this(input, new RecognizerSharedState()); } public InternalCftLanguageLexer(CharStream input, RecognizerSharedState state) { super(input,state); } public String getGrammarFileName() { return "InternalCftLanguage.g"; } // $ANTLR start "T__13" public final void mT__13() throws RecognitionException { try { int _type = T__13; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:11:7: ( 'package' ) // InternalCftLanguage.g:11:9: 'package' { match("package"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__13" // $ANTLR start "T__14" public final void mT__14() throws RecognitionException { try { int _type = T__14; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:12:7: ( ';' ) // InternalCftLanguage.g:12:9: ';' { match(';'); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__14" // $ANTLR start "T__15" public final void mT__15() throws RecognitionException { try { int _type = T__15; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:13:7: ( 'import' ) // InternalCftLanguage.g:13:9: 'import' { match("import"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__15" // $ANTLR start "T__16" public final void mT__16() throws RecognitionException { try { int _type = T__16; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:14:7: ( 'cft' ) // InternalCftLanguage.g:14:9: 'cft' { match("cft"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__16" // $ANTLR start "T__17" public final void mT__17() throws RecognitionException { try { int _type = T__17; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:15:7: ( '{' ) // InternalCftLanguage.g:15:9: '{' { match('{'); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__17" // $ANTLR start "T__18" public final void mT__18() throws RecognitionException { try { int _type = T__18; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:16:7: ( 'in' ) // InternalCftLanguage.g:16:9: 'in' { match("in"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__18" // $ANTLR start "T__19" public final void mT__19() throws RecognitionException { try { int _type = T__19; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:17:7: ( 'out' ) // InternalCftLanguage.g:17:9: 'out' { match("out"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__19" // $ANTLR start "T__20" public final void mT__20() throws RecognitionException { try { int _type = T__20; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:18:7: ( '}' ) // InternalCftLanguage.g:18:9: '}' { match('}'); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__20" // $ANTLR start "T__21" public final void mT__21() throws RecognitionException { try { int _type = T__21; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:19:7: ( '[]' ) // InternalCftLanguage.g:19:9: '[]' { match("[]"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__21" // $ANTLR start "T__22" public final void mT__22() throws RecognitionException { try { int _type = T__22; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:20:7: ( 'prob' ) // InternalCftLanguage.g:20:9: 'prob' { match("prob"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__22" // $ANTLR start "T__23" public final void mT__23() throws RecognitionException { try { int _type = T__23; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:21:7: ( '=' ) // InternalCftLanguage.g:21:9: '=' { match('='); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__23" // $ANTLR start "T__24" public final void mT__24() throws RecognitionException { try { int _type = T__24; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:22:7: ( 'lambda' ) // InternalCftLanguage.g:22:9: 'lambda' { match("lambda"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__24" // $ANTLR start "T__25" public final void mT__25() throws RecognitionException { try { int _type = T__25; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:23:7: ( 'and' ) // InternalCftLanguage.g:23:9: 'and' { match("and"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__25" // $ANTLR start "T__26" public final void mT__26() throws RecognitionException { try { int _type = T__26; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:24:7: ( 'or' ) // InternalCftLanguage.g:24:9: 'or' { match("or"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__26" // $ANTLR start "T__27" public final void mT__27() throws RecognitionException { try { int _type = T__27; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:25:7: ( 'of' ) // InternalCftLanguage.g:25:9: 'of' { match("of"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__27" // $ANTLR start "T__28" public final void mT__28() throws RecognitionException { try { int _type = T__28; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:26:7: ( 'transformation' ) // InternalCftLanguage.g:26:9: 'transformation' { match("transformation"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__28" // $ANTLR start "T__29" public final void mT__29() throws RecognitionException { try { int _type = T__29; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:27:7: ( 'toplevel' ) // InternalCftLanguage.g:27:9: 'toplevel' { match("toplevel"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__29" // $ANTLR start "T__30" public final void mT__30() throws RecognitionException { try { int _type = T__30; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:28:7: ( 'mapping' ) // InternalCftLanguage.g:28:9: 'mapping' { match("mapping"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__30" // $ANTLR start "T__31" public final void mT__31() throws RecognitionException { try { int _type = T__31; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:29:7: ( '(' ) // InternalCftLanguage.g:29:9: '(' { match('('); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__31" // $ANTLR start "T__32" public final void mT__32() throws RecognitionException { try { int _type = T__32; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:30:7: ( ',' ) // InternalCftLanguage.g:30:9: ',' { match(','); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__32" // $ANTLR start "T__33" public final void mT__33() throws RecognitionException { try { int _type = T__33; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:31:7: ( ')' ) // InternalCftLanguage.g:31:9: ')' { match(')'); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__33" // $ANTLR start "T__34" public final void mT__34() throws RecognitionException { try { int _type = T__34; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:32:7: ( 'lookup' ) // InternalCftLanguage.g:32:9: 'lookup' { match("lookup"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__34" // $ANTLR start "T__35" public final void mT__35() throws RecognitionException { try { int _type = T__35; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:33:7: ( 'as' ) // InternalCftLanguage.g:33:9: 'as' { match("as"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__35" // $ANTLR start "T__36" public final void mT__36() throws RecognitionException { try { int _type = T__36; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:34:7: ( '+=' ) // InternalCftLanguage.g:34:9: '+=' { match("+="); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__36" // $ANTLR start "T__37" public final void mT__37() throws RecognitionException { try { int _type = T__37; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:35:7: ( ':=' ) // InternalCftLanguage.g:35:9: ':=' { match(":="); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__37" // $ANTLR start "T__38" public final void mT__38() throws RecognitionException { try { int _type = T__38; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:36:7: ( '.' ) // InternalCftLanguage.g:36:9: '.' { match('.'); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__38" // $ANTLR start "T__39" public final void mT__39() throws RecognitionException { try { int _type = T__39; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:37:7: ( '=>' ) // InternalCftLanguage.g:37:9: '=>' { match("=>"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__39" // $ANTLR start "T__40" public final void mT__40() throws RecognitionException { try { int _type = T__40; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:38:7: ( '*' ) // InternalCftLanguage.g:38:9: '*' { match('*'); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "T__40" // $ANTLR start "RULE_OF_INT" public final void mRULE_OF_INT() throws RecognitionException { try { int _type = RULE_OF_INT; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:1672:13: ( 'o' 'f' ( '0' .. '9' )+ ) // InternalCftLanguage.g:1672:15: 'o' 'f' ( '0' .. '9' )+ { match('o'); match('f'); // InternalCftLanguage.g:1672:23: ( '0' .. '9' )+ int cnt1=0; loop1: do { int alt1=2; int LA1_0 = input.LA(1); if ( ((LA1_0>='0' && LA1_0<='9')) ) { alt1=1; } switch (alt1) { case 1 : // InternalCftLanguage.g:1672:24: '0' .. '9' { matchRange('0','9'); } break; default : if ( cnt1 >= 1 ) break loop1; EarlyExitException eee = new EarlyExitException(1, input); throw eee; } cnt1++; } while (true); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "RULE_OF_INT" // $ANTLR start "RULE_T_DOUBLE" public final void mRULE_T_DOUBLE() throws RecognitionException { try { int _type = RULE_T_DOUBLE; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:1674:15: ( ( '0' .. '9' )+ ( '.' ( '0' .. '9' )+ | ( '.' ( '0' .. '9' )+ )? ( 'e' | 'E' ) ( '+' | '-' )? ( '0' .. '9' )+ ) ) // InternalCftLanguage.g:1674:17: ( '0' .. '9' )+ ( '.' ( '0' .. '9' )+ | ( '.' ( '0' .. '9' )+ )? ( 'e' | 'E' ) ( '+' | '-' )? ( '0' .. '9' )+ ) { // InternalCftLanguage.g:1674:17: ( '0' .. '9' )+ int cnt2=0; loop2: do { int alt2=2; int LA2_0 = input.LA(1); if ( ((LA2_0>='0' && LA2_0<='9')) ) { alt2=1; } switch (alt2) { case 1 : // InternalCftLanguage.g:1674:18: '0' .. '9' { matchRange('0','9'); } break; default : if ( cnt2 >= 1 ) break loop2; EarlyExitException eee = new EarlyExitException(2, input); throw eee; } cnt2++; } while (true); // InternalCftLanguage.g:1674:29: ( '.' ( '0' .. '9' )+ | ( '.' ( '0' .. '9' )+ )? ( 'e' | 'E' ) ( '+' | '-' )? ( '0' .. '9' )+ ) int alt8=2; alt8 = dfa8.predict(input); switch (alt8) { case 1 : // InternalCftLanguage.g:1674:30: '.' ( '0' .. '9' )+ { match('.'); // InternalCftLanguage.g:1674:34: ( '0' .. '9' )+ int cnt3=0; loop3: do { int alt3=2; int LA3_0 = input.LA(1); if ( ((LA3_0>='0' && LA3_0<='9')) ) { alt3=1; } switch (alt3) { case 1 : // InternalCftLanguage.g:1674:35: '0' .. '9' { matchRange('0','9'); } break; default : if ( cnt3 >= 1 ) break loop3; EarlyExitException eee = new EarlyExitException(3, input); throw eee; } cnt3++; } while (true); } break; case 2 : // InternalCftLanguage.g:1674:46: ( '.' ( '0' .. '9' )+ )? ( 'e' | 'E' ) ( '+' | '-' )? ( '0' .. '9' )+ { // InternalCftLanguage.g:1674:46: ( '.' ( '0' .. '9' )+ )? int alt5=2; int LA5_0 = input.LA(1); if ( (LA5_0=='.') ) { alt5=1; } switch (alt5) { case 1 : // InternalCftLanguage.g:1674:47: '.' ( '0' .. '9' )+ { match('.'); // InternalCftLanguage.g:1674:51: ( '0' .. '9' )+ int cnt4=0; loop4: do { int alt4=2; int LA4_0 = input.LA(1); if ( ((LA4_0>='0' && LA4_0<='9')) ) { alt4=1; } switch (alt4) { case 1 : // InternalCftLanguage.g:1674:52: '0' .. '9' { matchRange('0','9'); } break; default : if ( cnt4 >= 1 ) break loop4; EarlyExitException eee = new EarlyExitException(4, input); throw eee; } cnt4++; } while (true); } break; } if ( input.LA(1)=='E'||input.LA(1)=='e' ) { input.consume(); } else { MismatchedSetException mse = new MismatchedSetException(null,input); recover(mse); throw mse;} // InternalCftLanguage.g:1674:75: ( '+' | '-' )? int alt6=2; int LA6_0 = input.LA(1); if ( (LA6_0=='+'||LA6_0=='-') ) { alt6=1; } switch (alt6) { case 1 : // InternalCftLanguage.g: { if ( input.LA(1)=='+'||input.LA(1)=='-' ) { input.consume(); } else { MismatchedSetException mse = new MismatchedSetException(null,input); recover(mse); throw mse;} } break; } // InternalCftLanguage.g:1674:86: ( '0' .. '9' )+ int cnt7=0; loop7: do { int alt7=2; int LA7_0 = input.LA(1); if ( ((LA7_0>='0' && LA7_0<='9')) ) { alt7=1; } switch (alt7) { case 1 : // InternalCftLanguage.g:1674:87: '0' .. '9' { matchRange('0','9'); } break; default : if ( cnt7 >= 1 ) break loop7; EarlyExitException eee = new EarlyExitException(7, input); throw eee; } cnt7++; } while (true); } break; } } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "RULE_T_DOUBLE" // $ANTLR start "RULE_ID" public final void mRULE_ID() throws RecognitionException { try { int _type = RULE_ID; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:1676:9: ( ( '^' )? ( 'a' .. 'z' | 'A' .. 'Z' | '_' ) ( 'a' .. 'z' | 'A' .. 'Z' | '_' | '0' .. '9' )* ) // InternalCftLanguage.g:1676:11: ( '^' )? ( 'a' .. 'z' | 'A' .. 'Z' | '_' ) ( 'a' .. 'z' | 'A' .. 'Z' | '_' | '0' .. '9' )* { // InternalCftLanguage.g:1676:11: ( '^' )? int alt9=2; int LA9_0 = input.LA(1); if ( (LA9_0=='^') ) { alt9=1; } switch (alt9) { case 1 : // InternalCftLanguage.g:1676:11: '^' { match('^'); } break; } if ( (input.LA(1)>='A' && input.LA(1)<='Z')||input.LA(1)=='_'||(input.LA(1)>='a' && input.LA(1)<='z') ) { input.consume(); } else { MismatchedSetException mse = new MismatchedSetException(null,input); recover(mse); throw mse;} // InternalCftLanguage.g:1676:40: ( 'a' .. 'z' | 'A' .. 'Z' | '_' | '0' .. '9' )* loop10: do { int alt10=2; int LA10_0 = input.LA(1); if ( ((LA10_0>='0' && LA10_0<='9')||(LA10_0>='A' && LA10_0<='Z')||LA10_0=='_'||(LA10_0>='a' && LA10_0<='z')) ) { alt10=1; } switch (alt10) { case 1 : // InternalCftLanguage.g: { if ( (input.LA(1)>='0' && input.LA(1)<='9')||(input.LA(1)>='A' && input.LA(1)<='Z')||input.LA(1)=='_'||(input.LA(1)>='a' && input.LA(1)<='z') ) { input.consume(); } else { MismatchedSetException mse = new MismatchedSetException(null,input); recover(mse); throw mse;} } break; default : break loop10; } } while (true); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "RULE_ID" // $ANTLR start "RULE_INT" public final void mRULE_INT() throws RecognitionException { try { int _type = RULE_INT; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:1678:10: ( ( '0' .. '9' )+ ) // InternalCftLanguage.g:1678:12: ( '0' .. '9' )+ { // InternalCftLanguage.g:1678:12: ( '0' .. '9' )+ int cnt11=0; loop11: do { int alt11=2; int LA11_0 = input.LA(1); if ( ((LA11_0>='0' && LA11_0<='9')) ) { alt11=1; } switch (alt11) { case 1 : // InternalCftLanguage.g:1678:13: '0' .. '9' { matchRange('0','9'); } break; default : if ( cnt11 >= 1 ) break loop11; EarlyExitException eee = new EarlyExitException(11, input); throw eee; } cnt11++; } while (true); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "RULE_INT" // $ANTLR start "RULE_STRING" public final void mRULE_STRING() throws RecognitionException { try { int _type = RULE_STRING; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:1680:13: ( ( '\"' ( '\\\\' . | ~ ( ( '\\\\' | '\"' ) ) )* '\"' | '\\'' ( '\\\\' . | ~ ( ( '\\\\' | '\\'' ) ) )* '\\'' ) ) // InternalCftLanguage.g:1680:15: ( '\"' ( '\\\\' . | ~ ( ( '\\\\' | '\"' ) ) )* '\"' | '\\'' ( '\\\\' . | ~ ( ( '\\\\' | '\\'' ) ) )* '\\'' ) { // InternalCftLanguage.g:1680:15: ( '\"' ( '\\\\' . | ~ ( ( '\\\\' | '\"' ) ) )* '\"' | '\\'' ( '\\\\' . | ~ ( ( '\\\\' | '\\'' ) ) )* '\\'' ) int alt14=2; int LA14_0 = input.LA(1); if ( (LA14_0=='\"') ) { alt14=1; } else if ( (LA14_0=='\'') ) { alt14=2; } else { NoViableAltException nvae = new NoViableAltException("", 14, 0, input); throw nvae; } switch (alt14) { case 1 : // InternalCftLanguage.g:1680:16: '\"' ( '\\\\' . | ~ ( ( '\\\\' | '\"' ) ) )* '\"' { match('\"'); // InternalCftLanguage.g:1680:20: ( '\\\\' . | ~ ( ( '\\\\' | '\"' ) ) )* loop12: do { int alt12=3; int LA12_0 = input.LA(1); if ( (LA12_0=='\\') ) { alt12=1; } else if ( ((LA12_0>='\u0000' && LA12_0<='!')||(LA12_0>='#' && LA12_0<='[')||(LA12_0>=']' && LA12_0<='\uFFFF')) ) { alt12=2; } switch (alt12) { case 1 : // InternalCftLanguage.g:1680:21: '\\\\' . { match('\\'); matchAny(); } break; case 2 : // InternalCftLanguage.g:1680:28: ~ ( ( '\\\\' | '\"' ) ) { if ( (input.LA(1)>='\u0000' && input.LA(1)<='!')||(input.LA(1)>='#' && input.LA(1)<='[')||(input.LA(1)>=']' && input.LA(1)<='\uFFFF') ) { input.consume(); } else { MismatchedSetException mse = new MismatchedSetException(null,input); recover(mse); throw mse;} } break; default : break loop12; } } while (true); match('\"'); } break; case 2 : // InternalCftLanguage.g:1680:48: '\\'' ( '\\\\' . | ~ ( ( '\\\\' | '\\'' ) ) )* '\\'' { match('\''); // InternalCftLanguage.g:1680:53: ( '\\\\' . | ~ ( ( '\\\\' | '\\'' ) ) )* loop13: do { int alt13=3; int LA13_0 = input.LA(1); if ( (LA13_0=='\\') ) { alt13=1; } else if ( ((LA13_0>='\u0000' && LA13_0<='&')||(LA13_0>='(' && LA13_0<='[')||(LA13_0>=']' && LA13_0<='\uFFFF')) ) { alt13=2; } switch (alt13) { case 1 : // InternalCftLanguage.g:1680:54: '\\\\' . { match('\\'); matchAny(); } break; case 2 : // InternalCftLanguage.g:1680:61: ~ ( ( '\\\\' | '\\'' ) ) { if ( (input.LA(1)>='\u0000' && input.LA(1)<='&')||(input.LA(1)>='(' && input.LA(1)<='[')||(input.LA(1)>=']' && input.LA(1)<='\uFFFF') ) { input.consume(); } else { MismatchedSetException mse = new MismatchedSetException(null,input); recover(mse); throw mse;} } break; default : break loop13; } } while (true); match('\''); } break; } } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "RULE_STRING" // $ANTLR start "RULE_ML_COMMENT" public final void mRULE_ML_COMMENT() throws RecognitionException { try { int _type = RULE_ML_COMMENT; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:1682:17: ( '/*' ( options {greedy=false; } : . )* '*/' ) // InternalCftLanguage.g:1682:19: '/*' ( options {greedy=false; } : . )* '*/' { match("/*"); // InternalCftLanguage.g:1682:24: ( options {greedy=false; } : . )* loop15: do { int alt15=2; int LA15_0 = input.LA(1); if ( (LA15_0=='*') ) { int LA15_1 = input.LA(2); if ( (LA15_1=='/') ) { alt15=2; } else if ( ((LA15_1>='\u0000' && LA15_1<='.')||(LA15_1>='0' && LA15_1<='\uFFFF')) ) { alt15=1; } } else if ( ((LA15_0>='\u0000' && LA15_0<=')')||(LA15_0>='+' && LA15_0<='\uFFFF')) ) { alt15=1; } switch (alt15) { case 1 : // InternalCftLanguage.g:1682:52: . { matchAny(); } break; default : break loop15; } } while (true); match("*/"); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "RULE_ML_COMMENT" // $ANTLR start "RULE_SL_COMMENT" public final void mRULE_SL_COMMENT() throws RecognitionException { try { int _type = RULE_SL_COMMENT; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:1684:17: ( '//' (~ ( ( '\\n' | '\\r' ) ) )* ( ( '\\r' )? '\\n' )? ) // InternalCftLanguage.g:1684:19: '//' (~ ( ( '\\n' | '\\r' ) ) )* ( ( '\\r' )? '\\n' )? { match("//"); // InternalCftLanguage.g:1684:24: (~ ( ( '\\n' | '\\r' ) ) )* loop16: do { int alt16=2; int LA16_0 = input.LA(1); if ( ((LA16_0>='\u0000' && LA16_0<='\t')||(LA16_0>='\u000B' && LA16_0<='\f')||(LA16_0>='\u000E' && LA16_0<='\uFFFF')) ) { alt16=1; } switch (alt16) { case 1 : // InternalCftLanguage.g:1684:24: ~ ( ( '\\n' | '\\r' ) ) { if ( (input.LA(1)>='\u0000' && input.LA(1)<='\t')||(input.LA(1)>='\u000B' && input.LA(1)<='\f')||(input.LA(1)>='\u000E' && input.LA(1)<='\uFFFF') ) { input.consume(); } else { MismatchedSetException mse = new MismatchedSetException(null,input); recover(mse); throw mse;} } break; default : break loop16; } } while (true); // InternalCftLanguage.g:1684:40: ( ( '\\r' )? '\\n' )? int alt18=2; int LA18_0 = input.LA(1); if ( (LA18_0=='\n'||LA18_0=='\r') ) { alt18=1; } switch (alt18) { case 1 : // InternalCftLanguage.g:1684:41: ( '\\r' )? '\\n' { // InternalCftLanguage.g:1684:41: ( '\\r' )? int alt17=2; int LA17_0 = input.LA(1); if ( (LA17_0=='\r') ) { alt17=1; } switch (alt17) { case 1 : // InternalCftLanguage.g:1684:41: '\\r' { match('\r'); } break; } match('\n'); } break; } } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "RULE_SL_COMMENT" // $ANTLR start "RULE_WS" public final void mRULE_WS() throws RecognitionException { try { int _type = RULE_WS; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:1686:9: ( ( ' ' | '\\t' | '\\r' | '\\n' )+ ) // InternalCftLanguage.g:1686:11: ( ' ' | '\\t' | '\\r' | '\\n' )+ { // InternalCftLanguage.g:1686:11: ( ' ' | '\\t' | '\\r' | '\\n' )+ int cnt19=0; loop19: do { int alt19=2; int LA19_0 = input.LA(1); if ( ((LA19_0>='\t' && LA19_0<='\n')||LA19_0=='\r'||LA19_0==' ') ) { alt19=1; } switch (alt19) { case 1 : // InternalCftLanguage.g: { if ( (input.LA(1)>='\t' && input.LA(1)<='\n')||input.LA(1)=='\r'||input.LA(1)==' ' ) { input.consume(); } else { MismatchedSetException mse = new MismatchedSetException(null,input); recover(mse); throw mse;} } break; default : if ( cnt19 >= 1 ) break loop19; EarlyExitException eee = new EarlyExitException(19, input); throw eee; } cnt19++; } while (true); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "RULE_WS" // $ANTLR start "RULE_ANY_OTHER" public final void mRULE_ANY_OTHER() throws RecognitionException { try { int _type = RULE_ANY_OTHER; int _channel = DEFAULT_TOKEN_CHANNEL; // InternalCftLanguage.g:1688:16: ( . ) // InternalCftLanguage.g:1688:18: . { matchAny(); } state.type = _type; state.channel = _channel; } finally { } } // $ANTLR end "RULE_ANY_OTHER" public void mTokens() throws RecognitionException { // InternalCftLanguage.g:1:8: ( T__13 | T__14 | T__15 | T__16 | T__17 | T__18 | T__19 | T__20 | T__21 | T__22 | T__23 | T__24 | T__25 | T__26 | T__27 | T__28 | T__29 | T__30 | T__31 | T__32 | T__33 | T__34 | T__35 | T__36 | T__37 | T__38 | T__39 | T__40 | RULE_OF_INT | RULE_T_DOUBLE | RULE_ID | RULE_INT | RULE_STRING | RULE_ML_COMMENT | RULE_SL_COMMENT | RULE_WS | RULE_ANY_OTHER ) int alt20=37; alt20 = dfa20.predict(input); switch (alt20) { case 1 : // InternalCftLanguage.g:1:10: T__13 { mT__13(); } break; case 2 : // InternalCftLanguage.g:1:16: T__14 { mT__14(); } break; case 3 : // InternalCftLanguage.g:1:22: T__15 { mT__15(); } break; case 4 : // InternalCftLanguage.g:1:28: T__16 { mT__16(); } break; case 5 : // InternalCftLanguage.g:1:34: T__17 { mT__17(); } break; case 6 : // InternalCftLanguage.g:1:40: T__18 { mT__18(); } break; case 7 : // InternalCftLanguage.g:1:46: T__19 { mT__19(); } break; case 8 : // InternalCftLanguage.g:1:52: T__20 { mT__20(); } break; case 9 : // InternalCftLanguage.g:1:58: T__21 { mT__21(); } break; case 10 : // InternalCftLanguage.g:1:64: T__22 { mT__22(); } break; case 11 : // InternalCftLanguage.g:1:70: T__23 { mT__23(); } break; case 12 : // InternalCftLanguage.g:1:76: T__24 { mT__24(); } break; case 13 : // InternalCftLanguage.g:1:82: T__25 { mT__25(); } break; case 14 : // InternalCftLanguage.g:1:88: T__26 { mT__26(); } break; case 15 : // InternalCftLanguage.g:1:94: T__27 { mT__27(); } break; case 16 : // InternalCftLanguage.g:1:100: T__28 { mT__28(); } break; case 17 : // InternalCftLanguage.g:1:106: T__29 { mT__29(); } break; case 18 : // InternalCftLanguage.g:1:112: T__30 { mT__30(); } break; case 19 : // InternalCftLanguage.g:1:118: T__31 { mT__31(); } break; case 20 : // InternalCftLanguage.g:1:124: T__32 { mT__32(); } break; case 21 : // InternalCftLanguage.g:1:130: T__33 { mT__33(); } break; case 22 : // InternalCftLanguage.g:1:136: T__34 { mT__34(); } break; case 23 : // InternalCftLanguage.g:1:142: T__35 { mT__35(); } break; case 24 : // InternalCftLanguage.g:1:148: T__36 { mT__36(); } break; case 25 : // InternalCftLanguage.g:1:154: T__37 { mT__37(); } break; case 26 : // InternalCftLanguage.g:1:160: T__38 { mT__38(); } break; case 27 : // InternalCftLanguage.g:1:166: T__39 { mT__39(); } break; case 28 : // InternalCftLanguage.g:1:172: T__40 { mT__40(); } break; case 29 : // InternalCftLanguage.g:1:178: RULE_OF_INT { mRULE_OF_INT(); } break; case 30 : // InternalCftLanguage.g:1:190: RULE_T_DOUBLE { mRULE_T_DOUBLE(); } break; case 31 : // InternalCftLanguage.g:1:204: RULE_ID { mRULE_ID(); } break; case 32 : // InternalCftLanguage.g:1:212: RULE_INT { mRULE_INT(); } break; case 33 : // InternalCftLanguage.g:1:221: RULE_STRING { mRULE_STRING(); } break; case 34 : // InternalCftLanguage.g:1:233: RULE_ML_COMMENT { mRULE_ML_COMMENT(); } break; case 35 : // InternalCftLanguage.g:1:249: RULE_SL_COMMENT { mRULE_SL_COMMENT(); } break; case 36 : // InternalCftLanguage.g:1:265: RULE_WS { mRULE_WS(); } break; case 37 : // InternalCftLanguage.g:1:273: RULE_ANY_OTHER { mRULE_ANY_OTHER(); } break; } } protected DFA8 dfa8 = new DFA8(this); protected DFA20 dfa20 = new DFA20(this); static final String DFA8_eotS = "\3\uffff\1\4\1\uffff"; static final String DFA8_eofS = "\5\uffff"; static final String DFA8_minS = "\1\56\1\60\1\uffff\1\60\1\uffff"; static final String DFA8_maxS = "\1\145\1\71\1\uffff\1\145\1\uffff"; static final String DFA8_acceptS = "\2\uffff\1\2\1\uffff\1\1"; static final String DFA8_specialS = "\5\uffff}>"; static final String[] DFA8_transitionS = { "\1\1\26\uffff\1\2\37\uffff\1\2", "\12\3", "", "\12\3\13\uffff\1\2\37\uffff\1\2", "" }; static final short[] DFA8_eot = DFA.unpackEncodedString(DFA8_eotS); static final short[] DFA8_eof = DFA.unpackEncodedString(DFA8_eofS); static final char[] DFA8_min = DFA.unpackEncodedStringToUnsignedChars(DFA8_minS); static final char[] DFA8_max = DFA.unpackEncodedStringToUnsignedChars(DFA8_maxS); static final short[] DFA8_accept = DFA.unpackEncodedString(DFA8_acceptS); static final short[] DFA8_special = DFA.unpackEncodedString(DFA8_specialS); static final short[][] DFA8_transition; static { int numStates = DFA8_transitionS.length; DFA8_transition = new short[numStates][]; for (int i=0; i='\u0000' && LA20_25<='\uFFFF')) ) {s = 61;} else s = 28; if ( s>=0 ) return s; break; case 1 : int LA20_0 = input.LA(1); s = -1; if ( (LA20_0=='p') ) {s = 1;} else if ( (LA20_0==';') ) {s = 2;} else if ( (LA20_0=='i') ) {s = 3;} else if ( (LA20_0=='c') ) {s = 4;} else if ( (LA20_0=='{') ) {s = 5;} else if ( (LA20_0=='o') ) {s = 6;} else if ( (LA20_0=='}') ) {s = 7;} else if ( (LA20_0=='[') ) {s = 8;} else if ( (LA20_0=='=') ) {s = 9;} else if ( (LA20_0=='l') ) {s = 10;} else if ( (LA20_0=='a') ) {s = 11;} else if ( (LA20_0=='t') ) {s = 12;} else if ( (LA20_0=='m') ) {s = 13;} else if ( (LA20_0=='(') ) {s = 14;} else if ( (LA20_0==',') ) {s = 15;} else if ( (LA20_0==')') ) {s = 16;} else if ( (LA20_0=='+') ) {s = 17;} else if ( (LA20_0==':') ) {s = 18;} else if ( (LA20_0=='.') ) {s = 19;} else if ( (LA20_0=='*') ) {s = 20;} else if ( ((LA20_0>='0' && LA20_0<='9')) ) {s = 21;} else if ( (LA20_0=='^') ) {s = 22;} else if ( ((LA20_0>='A' && LA20_0<='Z')||LA20_0=='_'||LA20_0=='b'||(LA20_0>='d' && LA20_0<='h')||(LA20_0>='j' && LA20_0<='k')||LA20_0=='n'||(LA20_0>='q' && LA20_0<='s')||(LA20_0>='u' && LA20_0<='z')) ) {s = 23;} else if ( (LA20_0=='\"') ) {s = 24;} else if ( (LA20_0=='\'') ) {s = 25;} else if ( (LA20_0=='/') ) {s = 26;} else if ( ((LA20_0>='\t' && LA20_0<='\n')||LA20_0=='\r'||LA20_0==' ') ) {s = 27;} else if ( ((LA20_0>='\u0000' && LA20_0<='\b')||(LA20_0>='\u000B' && LA20_0<='\f')||(LA20_0>='\u000E' && LA20_0<='\u001F')||LA20_0=='!'||(LA20_0>='#' && LA20_0<='&')||LA20_0=='-'||LA20_0=='<'||(LA20_0>='>' && LA20_0<='@')||(LA20_0>='\\' && LA20_0<=']')||LA20_0=='`'||LA20_0=='|'||(LA20_0>='~' && LA20_0<='\uFFFF')) ) {s = 28;} if ( s>=0 ) return s; break; case 2 : int LA20_24 = input.LA(1); s = -1; if ( ((LA20_24>='\u0000' && LA20_24<='\uFFFF')) ) {s = 61;} else s = 28; if ( s>=0 ) return s; break; } NoViableAltException nvae = new NoViableAltException(getDescription(), 20, _s, input); error(nvae); throw nvae; } } }