// $ANTLR 3.2 Sep 23, 2009 12:02:23 ooa.g 2013-10-10 13:45:31 // The variable 'variable' is assigned but its value is never used. #pragma warning disable 168, 219 // Unreachable code detected. #pragma warning disable 162 /* Ulysses OO-Action System Parser Copyright Willibald Krenn 2009 */ using System; using Antlr.Runtime; using IList = System.Collections.IList; using ArrayList = System.Collections.ArrayList; using Stack = Antlr.Runtime.Collections.StackList; namespace TUG.Mogentes { public partial class ooaParser : Parser { public static readonly string[] tokenNames = new string[] { "", "", "", "", "T_CONSTS", "T_TYPES", "T_SYSTEM", "T_SEMICOLON", "T_IDENTIFIER", "T_EQUAL", "T_PRIO", "T_NONDET", "T_LPAREN", "T_RPAREN", "T_LIST", "T_LSQPAREN", "T_INTNUMBER", "T_RSQPAREN", "T_OF", "T_COMMA", "T_MAP", "T_TO", "T_QUANTITY", "T_MINUS", "T_INFTY", "T_BOOL", "T_INT", "T_RANGETO", "T_FLOAT", "T_FLOATNUMBER", "T_CHAR", "T_CBRL", "T_CBRR", "T_AUTOCONS", "T_VAR", "T_METHODS", "T_ACTIONS", "T_DO", "T_OD", "T_STATIC", "T_OBS", "T_CTRL", "T_COLON", "T_END", "T_CONT", "T_REQUIRES", "T_DERIV", "T_SUM", "T_DIFF", "T_PROD", "T_FOLDLR", "T_FOLDRL", "T_SKIP", "T_ABORT", "T_KILL", "T_SELF", "T_ASSIGNMENT", "T_WITH", "T_BIIMPLIES", "T_GREATER", "T_GREATEREQUAL", "T_LESS", "T_LESSEQUAL", "T_NOTEQUAL", "T_IMPLIES", "T_IN", "T_SET", "T_NOT", "T_SUBSET", "T_OR", "T_DIV", "T_IDIV", "T_MOD", "T_UNION", "T_INTER", "T_AND", "T_POW", "T_CONC", "T_DOMRESBY", "T_DOMRESTO", "T_RNGRESBY", "T_RNGRESTO", "T_MUNION", "T_SEQMOD_MAPOVERRIDE", "T_POINT", "T_IF", "T_THEN", "T_ELSE", "T_FORALL", "T_EXISTS", "T_TRUE", "T_FALSE", "T_NIL", "T_STRINGLITERAL", "T_NEW", "T_BAR", "T_MAPS", "T_PRIMED", "T_ABS", "T_CARD", "T_DCONC", "T_DINTER", "T_DUNION", "T_ELEMS", "T_HEAD", "T_INDS", "T_LEN", "T_TAIL", "T_DOM", "T_RNG", "T_MERGE", "T_WS", "T_COMMENT", "LINE_COMMENT", "T_DIGIT", "FLOAT_OR_INT_OR_RANGE", "T_LETTER", "'|['", "']|'", "'begin'", "'&'", "'as'", "'qval'", "'steady'", "'inc'", "'dec'", "'::'" }; public const int T_FLOATNUMBER = 29; public const int T_SYSTEM = 6; public const int T_ELSE = 87; public const int T_LPAREN = 12; public const int T_DUNION = 102; public const int T_BOOL = 25; public const int T_METHODS = 35; public const int T_INDS = 105; public const int T_OR = 69; public const int EOF = -1; public const int T_OD = 38; public const int T_AND = 75; public const int T_OF = 18; public const int T_STRINGLITERAL = 93; public const int T_SET = 66; public const int T_SKIP = 52; public const int T_WITH = 57; public const int T_DOM = 108; public const int T_WS = 111; public const int T_VAR = 34; public const int T_SUM = 47; public const int T_REQUIRES = 45; public const int T_DINTER = 101; public const int T_HEAD = 104; public const int T_AUTOCONS = 33; public const int T_END = 43; public const int T_TRUE = 90; public const int T_LSQPAREN = 15; public const int T_PRIMED = 97; public const int T_MAPS = 96; public const int T_NIL = 92; public const int T_INFTY = 24; public const int T_IF = 85; public const int LINE_COMMENT = 113; public const int T_THEN = 86; public const int T_FLOAT = 28; public const int T_TAIL = 107; public const int T_SELF = 55; public const int T_MERGE = 110; public const int T_DIFF = 48; public const int T_FOLDRL = 51; public const int T_QUANTITY = 22; public const int T_IN = 65; public const int T_MUNION = 82; public const int T__126 = 126; public const int T__125 = 125; public const int T_INTER = 74; public const int T_SEMICOLON = 7; public const int T_FOLDLR = 50; public const int T_CARD = 99; public const int T_FALSE = 91; public const int T_CONT = 44; public const int T_SUBSET = 68; public const int T_COMMA = 19; public const int T_RANGETO = 27; public const int T_MINUS = 23; public const int T_CONC = 77; public const int T_IDIV = 71; public const int T_FORALL = 88; public const int T_DERIV = 46; public const int T_CONSTS = 4; public const int T_TYPES = 5; public const int T_GREATEREQUAL = 60; public const int T__118 = 118; public const int T_RNG = 109; public const int T__119 = 119; public const int T_MOD = 72; public const int T__117 = 117; public const int T_SEQMOD_MAPOVERRIDE = 83; public const int T__124 = 124; public const int T__123 = 123; public const int T_ELEMS = 103; public const int T__122 = 122; public const int T__121 = 121; public const int T_IMPLIES = 64; public const int T__120 = 120; public const int T_EXISTS = 89; public const int T_POW = 76; public const int T_COMMENT = 112; public const int T_RPAREN = 13; public const int T_PRIO = 10; public const int T_RNGRESBY = 80; public const int T_ABS = 98; public const int T_DIV = 70; public const int T_LIST = 14; public const int T_CBRL = 31; public const int T_DCONC = 100; public const int T_ABORT = 53; public const int T_CHAR = 30; public const int T_POINT = 84; public const int T_STATIC = 39; public const int T_CBRR = 32; public const int T_INT = 26; public const int T_COLON = 42; public const int T_PROD = 49; public const int T_ACTIONS = 36; public const int T_DIGIT = 114; public const int T_LESS = 61; public const int T_BAR = 95; public const int T_TO = 21; public const int T_NONDET = 11; public const int T_DOMRESBY = 78; public const int T_DOMRESTO = 79; public const int T_EQUAL = 9; public const int T_GREATER = 59; public const int T_KILL = 54; public const int T_RNGRESTO = 81; public const int T_RSQPAREN = 17; public const int T_NEW = 94; public const int T_INTNUMBER = 16; public const int T_UNION = 73; public const int T_OBS = 40; public const int T_BIIMPLIES = 58; public const int T_NOTEQUAL = 63; public const int T_IDENTIFIER = 8; public const int T_DO = 37; public const int FLOAT_OR_INT_OR_RANGE = 115; public const int T_LEN = 106; public const int T_NOT = 67; public const int T_ASSIGNMENT = 56; public const int T_LETTER = 116; public const int T_MAP = 20; public const int T_LESSEQUAL = 62; public const int T_CTRL = 41; // delegates // delegators public ooaParser(ITokenStream input) : this(input, new RecognizerSharedState()) { } public ooaParser(ITokenStream input, RecognizerSharedState state) : base(input, state) { InitializeCyclicDFAs(); } override public string[] TokenNames { get { return ooaParser.tokenNames; } } override public string GrammarFileName { get { return "ooa.g"; } } // $ANTLR start "ooActionSystems" // ooa.g:137:1: ooActionSystems : ( T_CONSTS namedConstList )? T_TYPES namedTypeList T_SYSTEM comp= asTypeComposition[null] ; public void ooActionSystems() // throws RecognitionException [1] { IdentifierList comp = default(IdentifierList); try { // ooa.g:138:2: ( ( T_CONSTS namedConstList )? T_TYPES namedTypeList T_SYSTEM comp= asTypeComposition[null] ) // ooa.g:138:4: ( T_CONSTS namedConstList )? T_TYPES namedTypeList T_SYSTEM comp= asTypeComposition[null] { initializeTopLevelParserState(); // ooa.g:140:11: ( T_CONSTS namedConstList )? int alt1 = 2; int LA1_0 = input.LA(1); if ( (LA1_0 == T_CONSTS) ) { alt1 = 1; } switch (alt1) { case 1 : // ooa.g:140:12: T_CONSTS namedConstList { Match(input,T_CONSTS,FOLLOW_T_CONSTS_in_ooActionSystems93); PushFollow(FOLLOW_namedConstList_in_ooActionSystems95); namedConstList(); state.followingStackPointer--; } break; } Match(input,T_TYPES,FOLLOW_T_TYPES_in_ooActionSystems105); PushFollow(FOLLOW_namedTypeList_in_ooActionSystems113); namedTypeList(); state.followingStackPointer--; Match(input,T_SYSTEM,FOLLOW_T_SYSTEM_in_ooActionSystems118); PushFollow(FOLLOW_asTypeComposition_in_ooActionSystems125); comp = asTypeComposition(null); state.followingStackPointer--; fixUpRun(comp); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "ooActionSystems" // $ANTLR start "namedConstList" // ooa.g:155:1: namedConstList : namedConst ( T_SEMICOLON namedConst )* ; public void namedConstList() // throws RecognitionException [1] { try { // ooa.g:156:2: ( namedConst ( T_SEMICOLON namedConst )* ) // ooa.g:156:4: namedConst ( T_SEMICOLON namedConst )* { PushFollow(FOLLOW_namedConst_in_namedConstList148); namedConst(); state.followingStackPointer--; // ooa.g:156:15: ( T_SEMICOLON namedConst )* do { int alt2 = 2; int LA2_0 = input.LA(1); if ( (LA2_0 == T_SEMICOLON) ) { alt2 = 1; } switch (alt2) { case 1 : // ooa.g:156:16: T_SEMICOLON namedConst { Match(input,T_SEMICOLON,FOLLOW_T_SEMICOLON_in_namedConstList151); PushFollow(FOLLOW_namedConst_in_namedConstList153); namedConst(); state.followingStackPointer--; } break; default: goto loop2; } } while (true); loop2: ; // Stops C# compiler whining that label 'loop2' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "namedConstList" // $ANTLR start "namedConst" // ooa.g:159:1: namedConst : aName= T_IDENTIFIER T_EQUAL anExpr= expression ; public void namedConst() // throws RecognitionException [1] { IToken aName = null; Expression anExpr = default(Expression); try { // ooa.g:160:2: (aName= T_IDENTIFIER T_EQUAL anExpr= expression ) // ooa.g:160:4: aName= T_IDENTIFIER T_EQUAL anExpr= expression { aName=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_namedConst169); Match(input,T_EQUAL,FOLLOW_T_EQUAL_in_namedConst173); PushFollow(FOLLOW_expression_in_namedConst179); anExpr = expression(); state.followingStackPointer--; addNamedConst(aName,anExpr); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "namedConst" // $ANTLR start "namedTypeList" // ooa.g:170:1: namedTypeList : namedType ( T_SEMICOLON namedType )* ; public void namedTypeList() // throws RecognitionException [1] { try { // ooa.g:171:2: ( namedType ( T_SEMICOLON namedType )* ) // ooa.g:171:4: namedType ( T_SEMICOLON namedType )* { PushFollow(FOLLOW_namedType_in_namedTypeList199); namedType(); state.followingStackPointer--; // ooa.g:171:14: ( T_SEMICOLON namedType )* do { int alt3 = 2; int LA3_0 = input.LA(1); if ( (LA3_0 == T_SEMICOLON) ) { alt3 = 1; } switch (alt3) { case 1 : // ooa.g:171:15: T_SEMICOLON namedType { Match(input,T_SEMICOLON,FOLLOW_T_SEMICOLON_in_namedTypeList202); PushFollow(FOLLOW_namedType_in_namedTypeList204); namedType(); state.followingStackPointer--; } break; default: goto loop3; } } while (true); loop3: ; // Stops C# compiler whining that label 'loop3' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "namedTypeList" // $ANTLR start "namedType" // ooa.g:174:1: namedType : aName= T_IDENTIFIER T_EQUAL (aType= complexType | anOoaType= ooActionSystem ) ; public void namedType() // throws RecognitionException [1] { IToken aName = null; UlyssesType aType = default(UlyssesType); OoActionSystemType anOoaType = default(OoActionSystemType); try { // ooa.g:175:2: (aName= T_IDENTIFIER T_EQUAL (aType= complexType | anOoaType= ooActionSystem ) ) // ooa.g:175:4: aName= T_IDENTIFIER T_EQUAL (aType= complexType | anOoaType= ooActionSystem ) { aName=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_namedType220); Match(input,T_EQUAL,FOLLOW_T_EQUAL_in_namedType225); // ooa.g:177:3: (aType= complexType | anOoaType= ooActionSystem ) int alt4 = 2; alt4 = dfa4.Predict(input); switch (alt4) { case 1 : // ooa.g:178:4: aType= complexType { PushFollow(FOLLOW_complexType_in_namedType237); aType = complexType(); state.followingStackPointer--; createNamedType(aName,aType); } break; case 2 : // ooa.g:179:5: anOoaType= ooActionSystem { PushFollow(FOLLOW_ooActionSystem_in_namedType249); anOoaType = ooActionSystem(); state.followingStackPointer--; createNamedType(aName,anOoaType); } break; } } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "namedType" // $ANTLR start "asTypeComposition" // ooa.g:185:1: asTypeComposition[IdentifierList top] returns [IdentifierList prioList] : asTypeCompositionParallel[prioList] ( T_PRIO asTypeCompositionParallel[prioList] )* ; public IdentifierList asTypeComposition(IdentifierList top) // throws RecognitionException [1] { IdentifierList prioList = default(IdentifierList); try { // ooa.g:187:2: ( asTypeCompositionParallel[prioList] ( T_PRIO asTypeCompositionParallel[prioList] )* ) // ooa.g:187:6: asTypeCompositionParallel[prioList] ( T_PRIO asTypeCompositionParallel[prioList] )* { prioList = new PrioIdentifierList(top); PushFollow(FOLLOW_asTypeCompositionParallel_in_asTypeComposition285); asTypeCompositionParallel(prioList); state.followingStackPointer--; // ooa.g:188:40: ( T_PRIO asTypeCompositionParallel[prioList] )* do { int alt5 = 2; int LA5_0 = input.LA(1); if ( (LA5_0 == T_PRIO) ) { alt5 = 1; } switch (alt5) { case 1 : // ooa.g:188:41: T_PRIO asTypeCompositionParallel[prioList] { Match(input,T_PRIO,FOLLOW_T_PRIO_in_asTypeComposition290); PushFollow(FOLLOW_asTypeCompositionParallel_in_asTypeComposition292); asTypeCompositionParallel(prioList); state.followingStackPointer--; } break; default: goto loop5; } } while (true); loop5: ; // Stops C# compiler whining that label 'loop5' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return prioList; } // $ANTLR end "asTypeComposition" // $ANTLR start "asTypeCompositionParallel" // ooa.g:191:1: asTypeCompositionParallel[IdentifierList top] : asTypeCompositionSequential[parList] ( T_NONDET asTypeCompositionSequential[parList] )* ; public void asTypeCompositionParallel(IdentifierList top) // throws RecognitionException [1] { try { // ooa.g:192:2: ( asTypeCompositionSequential[parList] ( T_NONDET asTypeCompositionSequential[parList] )* ) // ooa.g:192:6: asTypeCompositionSequential[parList] ( T_NONDET asTypeCompositionSequential[parList] )* { IdentifierList parList = new NondetIdentifierList(top); PushFollow(FOLLOW_asTypeCompositionSequential_in_asTypeCompositionParallel315); asTypeCompositionSequential(parList); state.followingStackPointer--; // ooa.g:193:40: ( T_NONDET asTypeCompositionSequential[parList] )* do { int alt6 = 2; int LA6_0 = input.LA(1); if ( (LA6_0 == T_NONDET) ) { alt6 = 1; } switch (alt6) { case 1 : // ooa.g:193:41: T_NONDET asTypeCompositionSequential[parList] { Match(input,T_NONDET,FOLLOW_T_NONDET_in_asTypeCompositionParallel319); PushFollow(FOLLOW_asTypeCompositionSequential_in_asTypeCompositionParallel321); asTypeCompositionSequential(parList); state.followingStackPointer--; } break; default: goto loop6; } } while (true); loop6: ; // Stops C# compiler whining that label 'loop6' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "asTypeCompositionParallel" // $ANTLR start "asTypeCompositionSequential" // ooa.g:196:1: asTypeCompositionSequential[IdentifierList top] : asTypeCompositionBlockParen[seqList] ; public void asTypeCompositionSequential(IdentifierList top) // throws RecognitionException [1] { try { // ooa.g:197:2: ( asTypeCompositionBlockParen[seqList] ) // ooa.g:197:6: asTypeCompositionBlockParen[seqList] { IdentifierList seqList = new SeqIdentifierList(top); PushFollow(FOLLOW_asTypeCompositionBlockParen_in_asTypeCompositionSequential343); asTypeCompositionBlockParen(seqList); state.followingStackPointer--; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "asTypeCompositionSequential" // $ANTLR start "asTypeCompositionBlockParen" // ooa.g:201:1: asTypeCompositionBlockParen[IdentifierList top] : ( T_LPAREN asTypeComposition[top] T_RPAREN | aName= T_IDENTIFIER ); public void asTypeCompositionBlockParen(IdentifierList top) // throws RecognitionException [1] { IToken aName = null; try { // ooa.g:202:2: ( T_LPAREN asTypeComposition[top] T_RPAREN | aName= T_IDENTIFIER ) int alt7 = 2; int LA7_0 = input.LA(1); if ( (LA7_0 == T_LPAREN) ) { alt7 = 1; } else if ( (LA7_0 == T_IDENTIFIER) ) { alt7 = 2; } else { NoViableAltException nvae_d7s0 = new NoViableAltException("", 7, 0, input); throw nvae_d7s0; } switch (alt7) { case 1 : // ooa.g:202:4: T_LPAREN asTypeComposition[top] T_RPAREN { Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_asTypeCompositionBlockParen358); PushFollow(FOLLOW_asTypeComposition_in_asTypeCompositionBlockParen360); asTypeComposition(top); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_asTypeCompositionBlockParen363); } break; case 2 : // ooa.g:203:4: aName= T_IDENTIFIER { aName=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_asTypeCompositionBlockParen370); addToIdentifierList(top,aName); } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "asTypeCompositionBlockParen" // $ANTLR start "complexType" // ooa.g:211:1: complexType returns [UlyssesType aTypeSymbol] : ( T_LIST T_LSQPAREN numOfElements= ( T_INTNUMBER | T_IDENTIFIER ) T_RSQPAREN T_OF innertype= complexType | T_LSQPAREN alistelem= T_IDENTIFIER ( T_COMMA otherlistelem= T_IDENTIFIER )* T_RSQPAREN | T_MAP ( T_LSQPAREN numOfElements= ( T_INTNUMBER | T_IDENTIFIER ) T_RSQPAREN )? mapfromtype= simpleType T_TO maptotype= complexType | T_QUANTITY T_OF T_LSQPAREN (alandmark= T_IDENTIFIER | alandmark= T_MINUS T_INFTY ) ( T_COMMA (otherlandmark= T_IDENTIFIER | otherlandmark= T_INFTY ) )* T_RSQPAREN | T_LPAREN aType= complexType ( T_COMMA anotherType= complexType )* T_RPAREN | r= simpleType ); public UlyssesType complexType() // throws RecognitionException [1] { UlyssesType aTypeSymbol = default(UlyssesType); IToken numOfElements = null; IToken alistelem = null; IToken otherlistelem = null; IToken alandmark = null; IToken otherlandmark = null; UlyssesType innertype = default(UlyssesType); UlyssesType mapfromtype = default(UlyssesType); UlyssesType maptotype = default(UlyssesType); UlyssesType aType = default(UlyssesType); UlyssesType anotherType = default(UlyssesType); UlyssesType r = default(UlyssesType); aTypeSymbol = null; alandmark = null; try { // ooa.g:217:2: ( T_LIST T_LSQPAREN numOfElements= ( T_INTNUMBER | T_IDENTIFIER ) T_RSQPAREN T_OF innertype= complexType | T_LSQPAREN alistelem= T_IDENTIFIER ( T_COMMA otherlistelem= T_IDENTIFIER )* T_RSQPAREN | T_MAP ( T_LSQPAREN numOfElements= ( T_INTNUMBER | T_IDENTIFIER ) T_RSQPAREN )? mapfromtype= simpleType T_TO maptotype= complexType | T_QUANTITY T_OF T_LSQPAREN (alandmark= T_IDENTIFIER | alandmark= T_MINUS T_INFTY ) ( T_COMMA (otherlandmark= T_IDENTIFIER | otherlandmark= T_INFTY ) )* T_RSQPAREN | T_LPAREN aType= complexType ( T_COMMA anotherType= complexType )* T_RPAREN | r= simpleType ) int alt14 = 6; alt14 = dfa14.Predict(input); switch (alt14) { case 1 : // ooa.g:217:4: T_LIST T_LSQPAREN numOfElements= ( T_INTNUMBER | T_IDENTIFIER ) T_RSQPAREN T_OF innertype= complexType { Match(input,T_LIST,FOLLOW_T_LIST_in_complexType401); Match(input,T_LSQPAREN,FOLLOW_T_LSQPAREN_in_complexType404); numOfElements = (IToken)input.LT(1); if ( input.LA(1) == T_IDENTIFIER || input.LA(1) == T_INTNUMBER ) { input.Consume(); state.errorRecovery = false; } else { MismatchedSetException mse = new MismatchedSetException(null,input); throw mse; } Match(input,T_RSQPAREN,FOLLOW_T_RSQPAREN_in_complexType414); Match(input,T_OF,FOLLOW_T_OF_in_complexType416); PushFollow(FOLLOW_complexType_in_complexType421); innertype = complexType(); state.followingStackPointer--; aTypeSymbol = createListType(numOfElements,innertype); } break; case 2 : // ooa.g:221:4: T_LSQPAREN alistelem= T_IDENTIFIER ( T_COMMA otherlistelem= T_IDENTIFIER )* T_RSQPAREN { Match(input,T_LSQPAREN,FOLLOW_T_LSQPAREN_in_complexType436); alistelem=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_complexType440); aTypeSymbol = createListEnumType(alistelem); // ooa.g:222:4: ( T_COMMA otherlistelem= T_IDENTIFIER )* do { int alt8 = 2; int LA8_0 = input.LA(1); if ( (LA8_0 == T_COMMA) ) { alt8 = 1; } switch (alt8) { case 1 : // ooa.g:222:5: T_COMMA otherlistelem= T_IDENTIFIER { Match(input,T_COMMA,FOLLOW_T_COMMA_in_complexType449); otherlistelem=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_complexType453); addToListEnumType(aTypeSymbol,otherlistelem); } break; default: goto loop8; } } while (true); loop8: ; // Stops C# compiler whining that label 'loop8' has no statements Match(input,T_RSQPAREN,FOLLOW_T_RSQPAREN_in_complexType459); } break; case 3 : // ooa.g:225:4: T_MAP ( T_LSQPAREN numOfElements= ( T_INTNUMBER | T_IDENTIFIER ) T_RSQPAREN )? mapfromtype= simpleType T_TO maptotype= complexType { Match(input,T_MAP,FOLLOW_T_MAP_in_complexType469); // ooa.g:225:12: ( T_LSQPAREN numOfElements= ( T_INTNUMBER | T_IDENTIFIER ) T_RSQPAREN )? int alt9 = 2; int LA9_0 = input.LA(1); if ( (LA9_0 == T_LSQPAREN) ) { alt9 = 1; } switch (alt9) { case 1 : // ooa.g:225:13: T_LSQPAREN numOfElements= ( T_INTNUMBER | T_IDENTIFIER ) T_RSQPAREN { Match(input,T_LSQPAREN,FOLLOW_T_LSQPAREN_in_complexType474); numOfElements = (IToken)input.LT(1); if ( input.LA(1) == T_IDENTIFIER || input.LA(1) == T_INTNUMBER ) { input.Consume(); state.errorRecovery = false; } else { MismatchedSetException mse = new MismatchedSetException(null,input); throw mse; } Match(input,T_RSQPAREN,FOLLOW_T_RSQPAREN_in_complexType484); } break; } PushFollow(FOLLOW_simpleType_in_complexType490); mapfromtype = simpleType(); state.followingStackPointer--; Match(input,T_TO,FOLLOW_T_TO_in_complexType492); PushFollow(FOLLOW_complexType_in_complexType496); maptotype = complexType(); state.followingStackPointer--; aTypeSymbol = createMapType(numOfElements,mapfromtype,maptotype); } break; case 4 : // ooa.g:228:4: T_QUANTITY T_OF T_LSQPAREN (alandmark= T_IDENTIFIER | alandmark= T_MINUS T_INFTY ) ( T_COMMA (otherlandmark= T_IDENTIFIER | otherlandmark= T_INFTY ) )* T_RSQPAREN { Match(input,T_QUANTITY,FOLLOW_T_QUANTITY_in_complexType510); Match(input,T_OF,FOLLOW_T_OF_in_complexType512); Match(input,T_LSQPAREN,FOLLOW_T_LSQPAREN_in_complexType514); // ooa.g:228:31: (alandmark= T_IDENTIFIER | alandmark= T_MINUS T_INFTY ) int alt10 = 2; int LA10_0 = input.LA(1); if ( (LA10_0 == T_IDENTIFIER) ) { alt10 = 1; } else if ( (LA10_0 == T_MINUS) ) { alt10 = 2; } else { NoViableAltException nvae_d10s0 = new NoViableAltException("", 10, 0, input); throw nvae_d10s0; } switch (alt10) { case 1 : // ooa.g:228:32: alandmark= T_IDENTIFIER { alandmark=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_complexType519); } break; case 2 : // ooa.g:228:56: alandmark= T_MINUS T_INFTY { alandmark=(IToken)Match(input,T_MINUS,FOLLOW_T_MINUS_in_complexType524); Match(input,T_INFTY,FOLLOW_T_INFTY_in_complexType526); } break; } aTypeSymbol = createQrType(alandmark); // ooa.g:229:4: ( T_COMMA (otherlandmark= T_IDENTIFIER | otherlandmark= T_INFTY ) )* do { int alt12 = 2; int LA12_0 = input.LA(1); if ( (LA12_0 == T_COMMA) ) { alt12 = 1; } switch (alt12) { case 1 : // ooa.g:229:5: T_COMMA (otherlandmark= T_IDENTIFIER | otherlandmark= T_INFTY ) { Match(input,T_COMMA,FOLLOW_T_COMMA_in_complexType536); // ooa.g:229:13: (otherlandmark= T_IDENTIFIER | otherlandmark= T_INFTY ) int alt11 = 2; int LA11_0 = input.LA(1); if ( (LA11_0 == T_IDENTIFIER) ) { alt11 = 1; } else if ( (LA11_0 == T_INFTY) ) { alt11 = 2; } else { NoViableAltException nvae_d11s0 = new NoViableAltException("", 11, 0, input); throw nvae_d11s0; } switch (alt11) { case 1 : // ooa.g:229:14: otherlandmark= T_IDENTIFIER { otherlandmark=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_complexType541); } break; case 2 : // ooa.g:229:41: otherlandmark= T_INFTY { otherlandmark=(IToken)Match(input,T_INFTY,FOLLOW_T_INFTY_in_complexType545); } break; } addToQrType(aTypeSymbol,otherlandmark); } break; default: goto loop12; } } while (true); loop12: ; // Stops C# compiler whining that label 'loop12' has no statements Match(input,T_RSQPAREN,FOLLOW_T_RSQPAREN_in_complexType552); } break; case 5 : // ooa.g:231:5: T_LPAREN aType= complexType ( T_COMMA anotherType= complexType )* T_RPAREN { Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_complexType562); PushFollow(FOLLOW_complexType_in_complexType566); aType = complexType(); state.followingStackPointer--; aTypeSymbol = createTupleType(aType); // ooa.g:232:4: ( T_COMMA anotherType= complexType )* do { int alt13 = 2; int LA13_0 = input.LA(1); if ( (LA13_0 == T_COMMA) ) { alt13 = 1; } switch (alt13) { case 1 : // ooa.g:232:5: T_COMMA anotherType= complexType { Match(input,T_COMMA,FOLLOW_T_COMMA_in_complexType575); PushFollow(FOLLOW_complexType_in_complexType579); anotherType = complexType(); state.followingStackPointer--; addToTupleType(aTypeSymbol,anotherType); } break; default: goto loop13; } } while (true); loop13: ; // Stops C# compiler whining that label 'loop13' has no statements Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_complexType586); } break; case 6 : // ooa.g:235:4: r= simpleType { PushFollow(FOLLOW_simpleType_in_complexType599); r = simpleType(); state.followingStackPointer--; aTypeSymbol = r; } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { fixupComplexType(aTypeSymbol); } return aTypeSymbol; } // $ANTLR end "complexType" // $ANTLR start "simpleType" // ooa.g:241:1: simpleType returns [UlyssesType aTypeSymbol] : ( T_BOOL | T_INT T_LSQPAREN rangeLow= ( T_INTNUMBER | T_INFTY | T_IDENTIFIER ) T_RANGETO rangeHigh= ( T_INTNUMBER | T_INFTY | T_IDENTIFIER ) T_RSQPAREN | T_FLOAT T_LSQPAREN rangeLow= ( T_FLOATNUMBER | T_INFTY | T_IDENTIFIER ) T_RANGETO rangeHigh= ( T_FLOATNUMBER | T_INFTY | T_IDENTIFIER ) T_RSQPAREN | T_CHAR | T_CBRL aRangeValue= T_IDENTIFIER ( T_EQUAL optVal= T_INTNUMBER )? ( T_COMMA otherRangeValue= T_IDENTIFIER ( T_EQUAL otherOptVal= T_INTNUMBER )? )* T_CBRR | aType= T_IDENTIFIER ); public UlyssesType simpleType() // throws RecognitionException [1] { UlyssesType aTypeSymbol = default(UlyssesType); IToken rangeLow = null; IToken rangeHigh = null; IToken aRangeValue = null; IToken optVal = null; IToken otherRangeValue = null; IToken otherOptVal = null; IToken aType = null; aTypeSymbol = null; try { // ooa.g:246:2: ( T_BOOL | T_INT T_LSQPAREN rangeLow= ( T_INTNUMBER | T_INFTY | T_IDENTIFIER ) T_RANGETO rangeHigh= ( T_INTNUMBER | T_INFTY | T_IDENTIFIER ) T_RSQPAREN | T_FLOAT T_LSQPAREN rangeLow= ( T_FLOATNUMBER | T_INFTY | T_IDENTIFIER ) T_RANGETO rangeHigh= ( T_FLOATNUMBER | T_INFTY | T_IDENTIFIER ) T_RSQPAREN | T_CHAR | T_CBRL aRangeValue= T_IDENTIFIER ( T_EQUAL optVal= T_INTNUMBER )? ( T_COMMA otherRangeValue= T_IDENTIFIER ( T_EQUAL otherOptVal= T_INTNUMBER )? )* T_CBRR | aType= T_IDENTIFIER ) int alt18 = 6; switch ( input.LA(1) ) { case T_BOOL: { alt18 = 1; } break; case T_INT: { alt18 = 2; } break; case T_FLOAT: { alt18 = 3; } break; case T_CHAR: { alt18 = 4; } break; case T_CBRL: { alt18 = 5; } break; case T_IDENTIFIER: { alt18 = 6; } break; default: NoViableAltException nvae_d18s0 = new NoViableAltException("", 18, 0, input); throw nvae_d18s0; } switch (alt18) { case 1 : // ooa.g:246:4: T_BOOL { Match(input,T_BOOL,FOLLOW_T_BOOL_in_simpleType632); aTypeSymbol = createBoolType(); } break; case 2 : // ooa.g:249:4: T_INT T_LSQPAREN rangeLow= ( T_INTNUMBER | T_INFTY | T_IDENTIFIER ) T_RANGETO rangeHigh= ( T_INTNUMBER | T_INFTY | T_IDENTIFIER ) T_RSQPAREN { Match(input,T_INT,FOLLOW_T_INT_in_simpleType645); Match(input,T_LSQPAREN,FOLLOW_T_LSQPAREN_in_simpleType647); rangeLow = (IToken)input.LT(1); if ( input.LA(1) == T_IDENTIFIER || input.LA(1) == T_INTNUMBER || input.LA(1) == T_INFTY ) { input.Consume(); state.errorRecovery = false; } else { MismatchedSetException mse = new MismatchedSetException(null,input); throw mse; } Match(input,T_RANGETO,FOLLOW_T_RANGETO_in_simpleType659); rangeHigh = (IToken)input.LT(1); if ( input.LA(1) == T_IDENTIFIER || input.LA(1) == T_INTNUMBER || input.LA(1) == T_INFTY ) { input.Consume(); state.errorRecovery = false; } else { MismatchedSetException mse = new MismatchedSetException(null,input); throw mse; } Match(input,T_RSQPAREN,FOLLOW_T_RSQPAREN_in_simpleType671); aTypeSymbol = createIntType(rangeLow,rangeHigh); } break; case 3 : // ooa.g:253:4: T_FLOAT T_LSQPAREN rangeLow= ( T_FLOATNUMBER | T_INFTY | T_IDENTIFIER ) T_RANGETO rangeHigh= ( T_FLOATNUMBER | T_INFTY | T_IDENTIFIER ) T_RSQPAREN { Match(input,T_FLOAT,FOLLOW_T_FLOAT_in_simpleType690); Match(input,T_LSQPAREN,FOLLOW_T_LSQPAREN_in_simpleType693); rangeLow = (IToken)input.LT(1); if ( input.LA(1) == T_IDENTIFIER || input.LA(1) == T_INFTY || input.LA(1) == T_FLOATNUMBER ) { input.Consume(); state.errorRecovery = false; } else { MismatchedSetException mse = new MismatchedSetException(null,input); throw mse; } Match(input,T_RANGETO,FOLLOW_T_RANGETO_in_simpleType705); rangeHigh = (IToken)input.LT(1); if ( input.LA(1) == T_IDENTIFIER || input.LA(1) == T_INFTY || input.LA(1) == T_FLOATNUMBER ) { input.Consume(); state.errorRecovery = false; } else { MismatchedSetException mse = new MismatchedSetException(null,input); throw mse; } Match(input,T_RSQPAREN,FOLLOW_T_RSQPAREN_in_simpleType717); aTypeSymbol = createFloatType(rangeLow,rangeHigh); } break; case 4 : // ooa.g:257:4: T_CHAR { Match(input,T_CHAR,FOLLOW_T_CHAR_in_simpleType735); aTypeSymbol = createCharType(); } break; case 5 : // ooa.g:261:4: T_CBRL aRangeValue= T_IDENTIFIER ( T_EQUAL optVal= T_INTNUMBER )? ( T_COMMA otherRangeValue= T_IDENTIFIER ( T_EQUAL otherOptVal= T_INTNUMBER )? )* T_CBRR { Match(input,T_CBRL,FOLLOW_T_CBRL_in_simpleType751); aRangeValue=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_simpleType755); // ooa.g:261:36: ( T_EQUAL optVal= T_INTNUMBER )? int alt15 = 2; int LA15_0 = input.LA(1); if ( (LA15_0 == T_EQUAL) ) { alt15 = 1; } switch (alt15) { case 1 : // ooa.g:261:37: T_EQUAL optVal= T_INTNUMBER { Match(input,T_EQUAL,FOLLOW_T_EQUAL_in_simpleType758); optVal=(IToken)Match(input,T_INTNUMBER,FOLLOW_T_INTNUMBER_in_simpleType762); } break; } aTypeSymbol = createEnumType(aRangeValue, optVal); // ooa.g:262:4: ( T_COMMA otherRangeValue= T_IDENTIFIER ( T_EQUAL otherOptVal= T_INTNUMBER )? )* do { int alt17 = 2; int LA17_0 = input.LA(1); if ( (LA17_0 == T_COMMA) ) { alt17 = 1; } switch (alt17) { case 1 : // ooa.g:262:5: T_COMMA otherRangeValue= T_IDENTIFIER ( T_EQUAL otherOptVal= T_INTNUMBER )? { Match(input,T_COMMA,FOLLOW_T_COMMA_in_simpleType773); otherRangeValue=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_simpleType777); // ooa.g:262:42: ( T_EQUAL otherOptVal= T_INTNUMBER )? int alt16 = 2; int LA16_0 = input.LA(1); if ( (LA16_0 == T_EQUAL) ) { alt16 = 1; } switch (alt16) { case 1 : // ooa.g:262:43: T_EQUAL otherOptVal= T_INTNUMBER { Match(input,T_EQUAL,FOLLOW_T_EQUAL_in_simpleType780); otherOptVal=(IToken)Match(input,T_INTNUMBER,FOLLOW_T_INTNUMBER_in_simpleType784); } break; } addToEnumType(aTypeSymbol,otherRangeValue,otherOptVal); otherOptVal=null; } break; default: goto loop17; } } while (true); loop17: ; // Stops C# compiler whining that label 'loop17' has no statements Match(input,T_CBRR,FOLLOW_T_CBRR_in_simpleType792); } break; case 6 : // ooa.g:264:4: aType= T_IDENTIFIER { aType=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_simpleType803); aTypeSymbol = getNamedType(aType); } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { fixupSimpleType(aTypeSymbol); } return aTypeSymbol; } // $ANTLR end "simpleType" // $ANTLR start "ooActionSystem" // ooa.g:274:1: ooActionSystem returns [OoActionSystemType aTypeSymbol] : ( T_AUTOCONS )? T_SYSTEM ( T_LPAREN refinesSystemName= T_IDENTIFIER T_RPAREN )? '|[' ( T_VAR attrList )? ( T_METHODS methodList )? ( T_ACTIONS namedActionList )? ( T_DO (bl= actionBlock[null] )? T_OD )? ']|' ; public OoActionSystemType ooActionSystem() // throws RecognitionException [1] { OoActionSystemType aTypeSymbol = default(OoActionSystemType); IToken refinesSystemName = null; Block bl = default(Block); bool autoCons = false; aTypeSymbol = null; refinesSystemName = null; try { // ooa.g:281:2: ( ( T_AUTOCONS )? T_SYSTEM ( T_LPAREN refinesSystemName= T_IDENTIFIER T_RPAREN )? '|[' ( T_VAR attrList )? ( T_METHODS methodList )? ( T_ACTIONS namedActionList )? ( T_DO (bl= actionBlock[null] )? T_OD )? ']|' ) // ooa.g:281:9: ( T_AUTOCONS )? T_SYSTEM ( T_LPAREN refinesSystemName= T_IDENTIFIER T_RPAREN )? '|[' ( T_VAR attrList )? ( T_METHODS methodList )? ( T_ACTIONS namedActionList )? ( T_DO (bl= actionBlock[null] )? T_OD )? ']|' { // ooa.g:281:9: ( T_AUTOCONS )? int alt19 = 2; int LA19_0 = input.LA(1); if ( (LA19_0 == T_AUTOCONS) ) { alt19 = 1; } switch (alt19) { case 1 : // ooa.g:281:10: T_AUTOCONS { Match(input,T_AUTOCONS,FOLLOW_T_AUTOCONS_in_ooActionSystem846); autoCons = true; } break; } Match(input,T_SYSTEM,FOLLOW_T_SYSTEM_in_ooActionSystem855); // ooa.g:282:12: ( T_LPAREN refinesSystemName= T_IDENTIFIER T_RPAREN )? int alt20 = 2; int LA20_0 = input.LA(1); if ( (LA20_0 == T_LPAREN) ) { alt20 = 1; } switch (alt20) { case 1 : // ooa.g:282:13: T_LPAREN refinesSystemName= T_IDENTIFIER T_RPAREN { Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_ooActionSystem858); refinesSystemName=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_ooActionSystem862); Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_ooActionSystem864); } break; } aTypeSymbol = createOoaType(refinesSystemName,autoCons); Match(input,117,FOLLOW_117_in_ooActionSystem877); // ooa.g:285:4: ( T_VAR attrList )? int alt21 = 2; int LA21_0 = input.LA(1); if ( (LA21_0 == T_VAR) ) { alt21 = 1; } switch (alt21) { case 1 : // ooa.g:285:5: T_VAR attrList { Match(input,T_VAR,FOLLOW_T_VAR_in_ooActionSystem883); PushFollow(FOLLOW_attrList_in_ooActionSystem885); attrList(); state.followingStackPointer--; } break; } // ooa.g:286:4: ( T_METHODS methodList )? int alt22 = 2; int LA22_0 = input.LA(1); if ( (LA22_0 == T_METHODS) ) { alt22 = 1; } switch (alt22) { case 1 : // ooa.g:286:5: T_METHODS methodList { Match(input,T_METHODS,FOLLOW_T_METHODS_in_ooActionSystem893); PushFollow(FOLLOW_methodList_in_ooActionSystem895); methodList(); state.followingStackPointer--; } break; } // ooa.g:287:4: ( T_ACTIONS namedActionList )? int alt23 = 2; int LA23_0 = input.LA(1); if ( (LA23_0 == T_ACTIONS) ) { alt23 = 1; } switch (alt23) { case 1 : // ooa.g:287:5: T_ACTIONS namedActionList { Match(input,T_ACTIONS,FOLLOW_T_ACTIONS_in_ooActionSystem903); PushFollow(FOLLOW_namedActionList_in_ooActionSystem905); namedActionList(); state.followingStackPointer--; } break; } // ooa.g:288:4: ( T_DO (bl= actionBlock[null] )? T_OD )? int alt25 = 2; int LA25_0 = input.LA(1); if ( (LA25_0 == T_DO) ) { alt25 = 1; } switch (alt25) { case 1 : // ooa.g:288:5: T_DO (bl= actionBlock[null] )? T_OD { Match(input,T_DO,FOLLOW_T_DO_in_ooActionSystem913); // ooa.g:288:10: (bl= actionBlock[null] )? int alt24 = 2; int LA24_0 = input.LA(1); if ( (LA24_0 == T_IDENTIFIER || LA24_0 == T_LPAREN || LA24_0 == T_VAR || (LA24_0 >= T_CONT && LA24_0 <= T_REQUIRES) || LA24_0 == T_SKIP) ) { alt24 = 1; } switch (alt24) { case 1 : // ooa.g:288:11: bl= actionBlock[null] { PushFollow(FOLLOW_actionBlock_in_ooActionSystem918); bl = actionBlock(null); state.followingStackPointer--; addActionBlock(aTypeSymbol,bl); } break; } Match(input,T_OD,FOLLOW_T_OD_in_ooActionSystem925); } break; } Match(input,118,FOLLOW_118_in_ooActionSystem931); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { fixupOoaType(aTypeSymbol); } return aTypeSymbol; } // $ANTLR end "ooActionSystem" // $ANTLR start "attrList" // ooa.g:300:1: attrList : attr ( T_SEMICOLON attr )* ; public void attrList() // throws RecognitionException [1] { try { // ooa.g:301:2: ( attr ( T_SEMICOLON attr )* ) // ooa.g:301:4: attr ( T_SEMICOLON attr )* { BeginParsingAttributes(); PushFollow(FOLLOW_attr_in_attrList962); attr(); state.followingStackPointer--; // ooa.g:302:9: ( T_SEMICOLON attr )* do { int alt26 = 2; int LA26_0 = input.LA(1); if ( (LA26_0 == T_SEMICOLON) ) { alt26 = 1; } switch (alt26) { case 1 : // ooa.g:302:10: T_SEMICOLON attr { Match(input,T_SEMICOLON,FOLLOW_T_SEMICOLON_in_attrList965); PushFollow(FOLLOW_attr_in_attrList967); attr(); state.followingStackPointer--; } break; default: goto loop26; } } while (true); loop26: ; // Stops C# compiler whining that label 'loop26' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { EndParsingAttributes(); } return ; } // $ANTLR end "attrList" // $ANTLR start "attr" // ooa.g:308:1: attr : ( T_STATIC )? ( T_OBS | T_CTRL )? varname= T_IDENTIFIER T_COLON aType= complexType ( T_EQUAL anExpr= expression )? ; public void attr() // throws RecognitionException [1] { IToken varname = null; UlyssesType aType = default(UlyssesType); Expression anExpr = default(Expression); bool isStatic = false; bool isCtr = false; bool isObs = false; try { // ooa.g:315:2: ( ( T_STATIC )? ( T_OBS | T_CTRL )? varname= T_IDENTIFIER T_COLON aType= complexType ( T_EQUAL anExpr= expression )? ) // ooa.g:315:5: ( T_STATIC )? ( T_OBS | T_CTRL )? varname= T_IDENTIFIER T_COLON aType= complexType ( T_EQUAL anExpr= expression )? { // ooa.g:315:5: ( T_STATIC )? int alt27 = 2; int LA27_0 = input.LA(1); if ( (LA27_0 == T_STATIC) ) { alt27 = 1; } switch (alt27) { case 1 : // ooa.g:315:6: T_STATIC { Match(input,T_STATIC,FOLLOW_T_STATIC_in_attr992); isStatic = true; } break; } // ooa.g:315:36: ( T_OBS | T_CTRL )? int alt28 = 3; int LA28_0 = input.LA(1); if ( (LA28_0 == T_OBS) ) { alt28 = 1; } else if ( (LA28_0 == T_CTRL) ) { alt28 = 2; } switch (alt28) { case 1 : // ooa.g:315:37: T_OBS { Match(input,T_OBS,FOLLOW_T_OBS_in_attr999); isObs = true; } break; case 2 : // ooa.g:315:61: T_CTRL { Match(input,T_CTRL,FOLLOW_T_CTRL_in_attr1005); isCtr = true; } break; } varname=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_attr1016); Match(input,T_COLON,FOLLOW_T_COLON_in_attr1019); PushFollow(FOLLOW_complexType_in_attr1023); aType = complexType(); state.followingStackPointer--; // ooa.g:316:51: ( T_EQUAL anExpr= expression )? int alt29 = 2; int LA29_0 = input.LA(1); if ( (LA29_0 == T_EQUAL) ) { alt29 = 1; } switch (alt29) { case 1 : // ooa.g:316:52: T_EQUAL anExpr= expression { Match(input,T_EQUAL,FOLLOW_T_EQUAL_in_attr1026); PushFollow(FOLLOW_expression_in_attr1030); anExpr = expression(); state.followingStackPointer--; } break; } createAttribute(varname, isStatic, isObs, isCtr, aType, anExpr); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "attr" // $ANTLR start "methodList" // ooa.g:323:1: methodList : method ( T_SEMICOLON method )* ; public void methodList() // throws RecognitionException [1] { try { // ooa.g:324:2: ( method ( T_SEMICOLON method )* ) // ooa.g:324:5: method ( T_SEMICOLON method )* { PushFollow(FOLLOW_method_in_methodList1052); method(); state.followingStackPointer--; // ooa.g:324:12: ( T_SEMICOLON method )* do { int alt30 = 2; int LA30_0 = input.LA(1); if ( (LA30_0 == T_SEMICOLON) ) { alt30 = 1; } switch (alt30) { case 1 : // ooa.g:324:13: T_SEMICOLON method { Match(input,T_SEMICOLON,FOLLOW_T_SEMICOLON_in_methodList1055); PushFollow(FOLLOW_method_in_methodList1057); method(); state.followingStackPointer--; } break; default: goto loop30; } } while (true); loop30: ; // Stops C# compiler whining that label 'loop30' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "methodList" // $ANTLR start "method" // ooa.g:327:1: method : mname= T_IDENTIFIER ( T_LPAREN methodParameterList[newMethod] T_RPAREN )? ( T_COLON rt= complexType )? T_EQUAL ( T_VAR localActionVars[newMethod] 'begin' )? statements= actionBody[null] T_END ; public void method() // throws RecognitionException [1] { IToken mname = null; UlyssesType rt = default(UlyssesType); Block statements = default(Block); FunctionIdentifier newMethod = null; try { // ooa.g:331:2: (mname= T_IDENTIFIER ( T_LPAREN methodParameterList[newMethod] T_RPAREN )? ( T_COLON rt= complexType )? T_EQUAL ( T_VAR localActionVars[newMethod] 'begin' )? statements= actionBody[null] T_END ) // ooa.g:331:4: mname= T_IDENTIFIER ( T_LPAREN methodParameterList[newMethod] T_RPAREN )? ( T_COLON rt= complexType )? T_EQUAL ( T_VAR localActionVars[newMethod] 'begin' )? statements= actionBody[null] T_END { mname=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_method1079); newMethod = createMethodSymbol(mname); // ooa.g:332:3: ( T_LPAREN methodParameterList[newMethod] T_RPAREN )? int alt31 = 2; int LA31_0 = input.LA(1); if ( (LA31_0 == T_LPAREN) ) { alt31 = 1; } switch (alt31) { case 1 : // ooa.g:332:4: T_LPAREN methodParameterList[newMethod] T_RPAREN { Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_method1087); PushFollow(FOLLOW_methodParameterList_in_method1089); methodParameterList(newMethod); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_method1093); } break; } // ooa.g:333:3: ( T_COLON rt= complexType )? int alt32 = 2; int LA32_0 = input.LA(1); if ( (LA32_0 == T_COLON) ) { alt32 = 1; } switch (alt32) { case 1 : // ooa.g:333:4: T_COLON rt= complexType { Match(input,T_COLON,FOLLOW_T_COLON_in_method1101); PushFollow(FOLLOW_complexType_in_method1105); rt = complexType(); state.followingStackPointer--; setMethodReturnType(newMethod,rt); } break; } Match(input,T_EQUAL,FOLLOW_T_EQUAL_in_method1115); // ooa.g:335:4: ( T_VAR localActionVars[newMethod] 'begin' )? int alt33 = 2; int LA33_0 = input.LA(1); if ( (LA33_0 == T_VAR) ) { alt33 = 1; } switch (alt33) { case 1 : // ooa.g:335:5: T_VAR localActionVars[newMethod] 'begin' { Match(input,T_VAR,FOLLOW_T_VAR_in_method1122); PushFollow(FOLLOW_localActionVars_in_method1124); localActionVars(newMethod); state.followingStackPointer--; Match(input,119,FOLLOW_119_in_method1127); } break; } PushFollow(FOLLOW_actionBody_in_method1136); statements = actionBody(null); state.followingStackPointer--; addMethodBody(newMethod,statements); Match(input,T_END,FOLLOW_T_END_in_method1144); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { popResolveStack(newMethod); } return ; } // $ANTLR end "method" // $ANTLR start "methodParameterList" // ooa.g:342:1: methodParameterList[FunctionIdentifier newMethod] : paramName= T_IDENTIFIER T_COLON atype= complexType ( T_COMMA otherparam= T_IDENTIFIER T_COLON othertype= complexType )* ; public void methodParameterList(FunctionIdentifier newMethod) // throws RecognitionException [1] { IToken paramName = null; IToken otherparam = null; UlyssesType atype = default(UlyssesType); UlyssesType othertype = default(UlyssesType); try { // ooa.g:343:2: (paramName= T_IDENTIFIER T_COLON atype= complexType ( T_COMMA otherparam= T_IDENTIFIER T_COLON othertype= complexType )* ) // ooa.g:343:5: paramName= T_IDENTIFIER T_COLON atype= complexType ( T_COMMA otherparam= T_IDENTIFIER T_COLON othertype= complexType )* { paramName=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_methodParameterList1168); Match(input,T_COLON,FOLLOW_T_COLON_in_methodParameterList1170); PushFollow(FOLLOW_complexType_in_methodParameterList1174); atype = complexType(); state.followingStackPointer--; addMethodParameter(newMethod,paramName,atype); // ooa.g:344:4: ( T_COMMA otherparam= T_IDENTIFIER T_COLON othertype= complexType )* do { int alt34 = 2; int LA34_0 = input.LA(1); if ( (LA34_0 == T_COMMA) ) { alt34 = 1; } switch (alt34) { case 1 : // ooa.g:344:5: T_COMMA otherparam= T_IDENTIFIER T_COLON othertype= complexType { Match(input,T_COMMA,FOLLOW_T_COMMA_in_methodParameterList1182); otherparam=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_methodParameterList1186); Match(input,T_COLON,FOLLOW_T_COLON_in_methodParameterList1188); PushFollow(FOLLOW_complexType_in_methodParameterList1192); othertype = complexType(); state.followingStackPointer--; addMethodParameter(newMethod,otherparam,othertype); } break; default: goto loop34; } } while (true); loop34: ; // Stops C# compiler whining that label 'loop34' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "methodParameterList" // $ANTLR start "namedActionList" // ooa.g:353:1: namedActionList : namedAction ( T_SEMICOLON namedAction )* ; public void namedActionList() // throws RecognitionException [1] { try { // ooa.g:354:2: ( namedAction ( T_SEMICOLON namedAction )* ) // ooa.g:354:4: namedAction ( T_SEMICOLON namedAction )* { PushFollow(FOLLOW_namedAction_in_namedActionList1219); namedAction(); state.followingStackPointer--; // ooa.g:354:16: ( T_SEMICOLON namedAction )* do { int alt35 = 2; int LA35_0 = input.LA(1); if ( (LA35_0 == T_SEMICOLON) ) { alt35 = 1; } switch (alt35) { case 1 : // ooa.g:354:17: T_SEMICOLON namedAction { Match(input,T_SEMICOLON,FOLLOW_T_SEMICOLON_in_namedActionList1222); PushFollow(FOLLOW_namedAction_in_namedActionList1224); namedAction(); state.followingStackPointer--; } break; default: goto loop35; } } while (true); loop35: ; // Stops C# compiler whining that label 'loop35' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "namedActionList" // $ANTLR start "namedAction" // ooa.g:357:1: namedAction : ( T_CONT cactionname= T_IDENTIFIER ( T_LPAREN methodParameterList[newAction] T_RPAREN )? T_EQUAL constraints= continuousActionBody | ( T_CTRL | T_OBS | ) actionname= T_IDENTIFIER ( T_LPAREN methodParameterList[newAction] T_RPAREN )? T_EQUAL ( T_VAR localActionVars[newAction] )? body= discreteActionBody ); public void namedAction() // throws RecognitionException [1] { IToken cactionname = null; IToken actionname = null; GuardedCommand constraints = default(GuardedCommand); GuardedCommand body = default(GuardedCommand); FunctionTypeEnum actionType; FunctionIdentifier newAction = null; try { // ooa.g:362:2: ( T_CONT cactionname= T_IDENTIFIER ( T_LPAREN methodParameterList[newAction] T_RPAREN )? T_EQUAL constraints= continuousActionBody | ( T_CTRL | T_OBS | ) actionname= T_IDENTIFIER ( T_LPAREN methodParameterList[newAction] T_RPAREN )? T_EQUAL ( T_VAR localActionVars[newAction] )? body= discreteActionBody ) int alt40 = 2; int LA40_0 = input.LA(1); if ( (LA40_0 == T_CONT) ) { alt40 = 1; } else if ( (LA40_0 == T_IDENTIFIER || (LA40_0 >= T_OBS && LA40_0 <= T_CTRL)) ) { alt40 = 2; } else { NoViableAltException nvae_d40s0 = new NoViableAltException("", 40, 0, input); throw nvae_d40s0; } switch (alt40) { case 1 : // ooa.g:362:4: T_CONT cactionname= T_IDENTIFIER ( T_LPAREN methodParameterList[newAction] T_RPAREN )? T_EQUAL constraints= continuousActionBody { Match(input,T_CONT,FOLLOW_T_CONT_in_namedAction1244); cactionname=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_namedAction1248); newAction = createNamedContinuousAction(cactionname, FunctionTypeEnum.Continuous); // ooa.g:363:3: ( T_LPAREN methodParameterList[newAction] T_RPAREN )? int alt36 = 2; int LA36_0 = input.LA(1); if ( (LA36_0 == T_LPAREN) ) { alt36 = 1; } switch (alt36) { case 1 : // ooa.g:363:4: T_LPAREN methodParameterList[newAction] T_RPAREN { Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_namedAction1256); PushFollow(FOLLOW_methodParameterList_in_namedAction1258); methodParameterList(newAction); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_namedAction1262); } break; } Match(input,T_EQUAL,FOLLOW_T_EQUAL_in_namedAction1269); PushFollow(FOLLOW_continuousActionBody_in_namedAction1273); constraints = continuousActionBody(); state.followingStackPointer--; addContinuousActionBody(newAction,constraints); } break; case 2 : // ooa.g:366:4: ( T_CTRL | T_OBS | ) actionname= T_IDENTIFIER ( T_LPAREN methodParameterList[newAction] T_RPAREN )? T_EQUAL ( T_VAR localActionVars[newAction] )? body= discreteActionBody { actionType = FunctionTypeEnum.Internal; // ooa.g:367:3: ( T_CTRL | T_OBS | ) int alt37 = 3; switch ( input.LA(1) ) { case T_CTRL: { alt37 = 1; } break; case T_OBS: { alt37 = 2; } break; case T_IDENTIFIER: { alt37 = 3; } break; default: NoViableAltException nvae_d37s0 = new NoViableAltException("", 37, 0, input); throw nvae_d37s0; } switch (alt37) { case 1 : // ooa.g:367:4: T_CTRL { Match(input,T_CTRL,FOLLOW_T_CTRL_in_namedAction1288); actionType = FunctionTypeEnum.Controllable; } break; case 2 : // ooa.g:367:58: T_OBS { Match(input,T_OBS,FOLLOW_T_OBS_in_namedAction1293); actionType = FunctionTypeEnum.Observable; } break; case 3 : // ooa.g:367:109: { } break; } actionname=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_namedAction1305); newAction = createNamedAction(actionname,actionType); // ooa.g:369:3: ( T_LPAREN methodParameterList[newAction] T_RPAREN )? int alt38 = 2; int LA38_0 = input.LA(1); if ( (LA38_0 == T_LPAREN) ) { alt38 = 1; } switch (alt38) { case 1 : // ooa.g:369:4: T_LPAREN methodParameterList[newAction] T_RPAREN { Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_namedAction1313); PushFollow(FOLLOW_methodParameterList_in_namedAction1315); methodParameterList(newAction); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_namedAction1319); } break; } Match(input,T_EQUAL,FOLLOW_T_EQUAL_in_namedAction1326); // ooa.g:371:3: ( T_VAR localActionVars[newAction] )? int alt39 = 2; int LA39_0 = input.LA(1); if ( (LA39_0 == T_VAR) ) { alt39 = 1; } switch (alt39) { case 1 : // ooa.g:371:4: T_VAR localActionVars[newAction] { Match(input,T_VAR,FOLLOW_T_VAR_in_namedAction1332); PushFollow(FOLLOW_localActionVars_in_namedAction1334); localActionVars(newAction); state.followingStackPointer--; } break; } PushFollow(FOLLOW_discreteActionBody_in_namedAction1345); body = discreteActionBody(); state.followingStackPointer--; addActionBody(newAction,body); } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { popResolveStack(newAction); } return ; } // $ANTLR end "namedAction" // $ANTLR start "localActionVars" // ooa.g:379:1: localActionVars[FunctionIdentifier newMethod] : id1= T_IDENTIFIER T_COLON t1= complexType ( T_SEMICOLON id2= T_IDENTIFIER T_COLON t2= complexType )* ; public void localActionVars(FunctionIdentifier newMethod) // throws RecognitionException [1] { IToken id1 = null; IToken id2 = null; UlyssesType t1 = default(UlyssesType); UlyssesType t2 = default(UlyssesType); try { // ooa.g:380:2: (id1= T_IDENTIFIER T_COLON t1= complexType ( T_SEMICOLON id2= T_IDENTIFIER T_COLON t2= complexType )* ) // ooa.g:381:3: id1= T_IDENTIFIER T_COLON t1= complexType ( T_SEMICOLON id2= T_IDENTIFIER T_COLON t2= complexType )* { id1=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_localActionVars1377); Match(input,T_COLON,FOLLOW_T_COLON_in_localActionVars1379); PushFollow(FOLLOW_complexType_in_localActionVars1383); t1 = complexType(); state.followingStackPointer--; addLocalVariableToNamedAction(newMethod,id1,t1); // ooa.g:382:4: ( T_SEMICOLON id2= T_IDENTIFIER T_COLON t2= complexType )* do { int alt41 = 2; int LA41_0 = input.LA(1); if ( (LA41_0 == T_SEMICOLON) ) { alt41 = 1; } switch (alt41) { case 1 : // ooa.g:382:5: T_SEMICOLON id2= T_IDENTIFIER T_COLON t2= complexType { Match(input,T_SEMICOLON,FOLLOW_T_SEMICOLON_in_localActionVars1392); id2=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_localActionVars1396); Match(input,T_COLON,FOLLOW_T_COLON_in_localActionVars1398); PushFollow(FOLLOW_complexType_in_localActionVars1402); t2 = complexType(); state.followingStackPointer--; addLocalVariableToNamedAction(newMethod,id2,t2); } break; default: goto loop41; } } while (true); loop41: ; // Stops C# compiler whining that label 'loop41' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "localActionVars" // $ANTLR start "anonymousAction" // ooa.g:388:1: anonymousAction returns [GuardedCommand result] : (a= continuousActionBody | b= discreteActionBody ); public GuardedCommand anonymousAction() // throws RecognitionException [1] { GuardedCommand result = default(GuardedCommand); GuardedCommand a = default(GuardedCommand); GuardedCommand b = default(GuardedCommand); try { // ooa.g:390:2: (a= continuousActionBody | b= discreteActionBody ) int alt42 = 2; int LA42_0 = input.LA(1); if ( (LA42_0 == T_CONT) ) { alt42 = 1; } else if ( (LA42_0 == T_REQUIRES) ) { alt42 = 2; } else { NoViableAltException nvae_d42s0 = new NoViableAltException("", 42, 0, input); throw nvae_d42s0; } switch (alt42) { case 1 : // ooa.g:390:4: a= continuousActionBody { PushFollow(FOLLOW_continuousActionBody_in_anonymousAction1432); a = continuousActionBody(); state.followingStackPointer--; result = a; } break; case 2 : // ooa.g:391:4: b= discreteActionBody { PushFollow(FOLLOW_discreteActionBody_in_anonymousAction1441); b = discreteActionBody(); state.followingStackPointer--; result = b; } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "anonymousAction" // $ANTLR start "continuousActionBody" // ooa.g:394:1: continuousActionBody returns [GuardedCommand result] : T_CONT T_REQUIRES expr= expression T_COLON bdy= qualConstraintList T_END ; public GuardedCommand continuousActionBody() // throws RecognitionException [1] { GuardedCommand result = default(GuardedCommand); Expression expr = default(Expression); Block bdy = default(Block); result = null; try { // ooa.g:399:2: ( T_CONT T_REQUIRES expr= expression T_COLON bdy= qualConstraintList T_END ) // ooa.g:399:4: T_CONT T_REQUIRES expr= expression T_COLON bdy= qualConstraintList T_END { Match(input,T_CONT,FOLLOW_T_CONT_in_continuousActionBody1466); Match(input,T_REQUIRES,FOLLOW_T_REQUIRES_in_continuousActionBody1468); PushFollow(FOLLOW_expression_in_continuousActionBody1472); expr = expression(); state.followingStackPointer--; Match(input,T_COLON,FOLLOW_T_COLON_in_continuousActionBody1474); PushFollow(FOLLOW_qualConstraintList_in_continuousActionBody1481); bdy = qualConstraintList(); state.followingStackPointer--; Match(input,T_END,FOLLOW_T_END_in_continuousActionBody1486); result = createGuardedCommandStatement(expr,bdy,true); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "continuousActionBody" // $ANTLR start "qualConstraintList" // ooa.g:405:1: qualConstraintList returns [Block result] : stmt= qualConstraint ( T_COMMA ostmt= qualConstraint )* ; public Block qualConstraintList() // throws RecognitionException [1] { Block result = default(Block); QualitativeConstraintStatement stmt = default(QualitativeConstraintStatement); QualitativeConstraintStatement ostmt = default(QualitativeConstraintStatement); result = createSeqBlock(null); pushBlockToResolveStack(result); try { // ooa.g:411:2: (stmt= qualConstraint ( T_COMMA ostmt= qualConstraint )* ) // ooa.g:411:4: stmt= qualConstraint ( T_COMMA ostmt= qualConstraint )* { PushFollow(FOLLOW_qualConstraint_in_qualConstraintList1514); stmt = qualConstraint(); state.followingStackPointer--; addToBlockList(result,stmt); // ooa.g:412:3: ( T_COMMA ostmt= qualConstraint )* do { int alt43 = 2; int LA43_0 = input.LA(1); if ( (LA43_0 == T_COMMA) ) { alt43 = 1; } switch (alt43) { case 1 : // ooa.g:412:4: T_COMMA ostmt= qualConstraint { Match(input,T_COMMA,FOLLOW_T_COMMA_in_qualConstraintList1521); PushFollow(FOLLOW_qualConstraint_in_qualConstraintList1525); ostmt = qualConstraint(); state.followingStackPointer--; addToBlockList(result,ostmt); } break; default: goto loop43; } } while (true); loop43: ; // Stops C# compiler whining that label 'loop43' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { popBlockFromResolveStack(result); } return result; } // $ANTLR end "qualConstraintList" // $ANTLR start "qualConstraint" // ooa.g:419:1: qualConstraint returns [QualitativeConstraintStatement result] : id1= T_IDENTIFIER T_EQUAL ( T_DERIV derivid= T_IDENTIFIER | id2= T_IDENTIFIER ( (op= T_SUM | op= T_DIFF | op= T_PROD ) id3= T_IDENTIFIER | ) ) ; public QualitativeConstraintStatement qualConstraint() // throws RecognitionException [1] { QualitativeConstraintStatement result = default(QualitativeConstraintStatement); IToken id1 = null; IToken derivid = null; IToken id2 = null; IToken op = null; IToken id3 = null; try { // ooa.g:421:2: (id1= T_IDENTIFIER T_EQUAL ( T_DERIV derivid= T_IDENTIFIER | id2= T_IDENTIFIER ( (op= T_SUM | op= T_DIFF | op= T_PROD ) id3= T_IDENTIFIER | ) ) ) // ooa.g:421:4: id1= T_IDENTIFIER T_EQUAL ( T_DERIV derivid= T_IDENTIFIER | id2= T_IDENTIFIER ( (op= T_SUM | op= T_DIFF | op= T_PROD ) id3= T_IDENTIFIER | ) ) { id1=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_qualConstraint1556); Match(input,T_EQUAL,FOLLOW_T_EQUAL_in_qualConstraint1558); // ooa.g:422:3: ( T_DERIV derivid= T_IDENTIFIER | id2= T_IDENTIFIER ( (op= T_SUM | op= T_DIFF | op= T_PROD ) id3= T_IDENTIFIER | ) ) int alt46 = 2; int LA46_0 = input.LA(1); if ( (LA46_0 == T_DERIV) ) { alt46 = 1; } else if ( (LA46_0 == T_IDENTIFIER) ) { alt46 = 2; } else { NoViableAltException nvae_d46s0 = new NoViableAltException("", 46, 0, input); throw nvae_d46s0; } switch (alt46) { case 1 : // ooa.g:422:5: T_DERIV derivid= T_IDENTIFIER { Match(input,T_DERIV,FOLLOW_T_DERIV_in_qualConstraint1565); derivid=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_qualConstraint1569); result = createQualDerivConstraintStatement(id1,derivid); } break; case 2 : // ooa.g:426:11: id2= T_IDENTIFIER ( (op= T_SUM | op= T_DIFF | op= T_PROD ) id3= T_IDENTIFIER | ) { id2=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_qualConstraint1604); // ooa.g:427:11: ( (op= T_SUM | op= T_DIFF | op= T_PROD ) id3= T_IDENTIFIER | ) int alt45 = 2; int LA45_0 = input.LA(1); if ( ((LA45_0 >= T_SUM && LA45_0 <= T_PROD)) ) { alt45 = 1; } else if ( (LA45_0 == T_COMMA || LA45_0 == T_END) ) { alt45 = 2; } else { NoViableAltException nvae_d45s0 = new NoViableAltException("", 45, 0, input); throw nvae_d45s0; } switch (alt45) { case 1 : // ooa.g:428:12: (op= T_SUM | op= T_DIFF | op= T_PROD ) id3= T_IDENTIFIER { // ooa.g:428:12: (op= T_SUM | op= T_DIFF | op= T_PROD ) int alt44 = 3; switch ( input.LA(1) ) { case T_SUM: { alt44 = 1; } break; case T_DIFF: { alt44 = 2; } break; case T_PROD: { alt44 = 3; } break; default: NoViableAltException nvae_d44s0 = new NoViableAltException("", 44, 0, input); throw nvae_d44s0; } switch (alt44) { case 1 : // ooa.g:428:14: op= T_SUM { op=(IToken)Match(input,T_SUM,FOLLOW_T_SUM_in_qualConstraint1635); } break; case 2 : // ooa.g:429:14: op= T_DIFF { op=(IToken)Match(input,T_DIFF,FOLLOW_T_DIFF_in_qualConstraint1652); } break; case 3 : // ooa.g:430:14: op= T_PROD { op=(IToken)Match(input,T_PROD,FOLLOW_T_PROD_in_qualConstraint1669); } break; } id3=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_qualConstraint1698); result = createQualArithConstraintStatement(id1,id2,id3,op); } break; case 2 : // ooa.g:435:12: { result = createQualEqualConstraintStatement(id1,id2); } break; } } break; } } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "qualConstraint" // $ANTLR start "discreteActionBody" // ooa.g:443:1: discreteActionBody returns [GuardedCommand result] : T_REQUIRES expr= expression T_COLON bdy= actionBody[null] T_END ; public GuardedCommand discreteActionBody() // throws RecognitionException [1] { GuardedCommand result = default(GuardedCommand); Expression expr = default(Expression); Block bdy = default(Block); result = null; try { // ooa.g:448:2: ( T_REQUIRES expr= expression T_COLON bdy= actionBody[null] T_END ) // ooa.g:449:3: T_REQUIRES expr= expression T_COLON bdy= actionBody[null] T_END { Match(input,T_REQUIRES,FOLLOW_T_REQUIRES_in_discreteActionBody1788); PushFollow(FOLLOW_expression_in_discreteActionBody1792); expr = expression(); state.followingStackPointer--; Match(input,T_COLON,FOLLOW_T_COLON_in_discreteActionBody1794); PushFollow(FOLLOW_actionBody_in_discreteActionBody1801); bdy = actionBody(null); state.followingStackPointer--; Match(input,T_END,FOLLOW_T_END_in_discreteActionBody1806); result = createGuardedCommandStatement(expr,bdy); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "discreteActionBody" // $ANTLR start "actionBlock" // ooa.g:460:1: actionBlock[Block top] returns [Block prioList] : actionBlockParallel[prioList] ( T_PRIO actionBlockParallel[prioList] )* ; public Block actionBlock(Block top) // throws RecognitionException [1] { Block prioList = default(Block); try { // ooa.g:462:2: ( actionBlockParallel[prioList] ( T_PRIO actionBlockParallel[prioList] )* ) // ooa.g:462:6: actionBlockParallel[prioList] ( T_PRIO actionBlockParallel[prioList] )* { prioList = createPrioBlock(top); PushFollow(FOLLOW_actionBlockParallel_in_actionBlock1842); actionBlockParallel(prioList); state.followingStackPointer--; // ooa.g:463:34: ( T_PRIO actionBlockParallel[prioList] )* do { int alt47 = 2; int LA47_0 = input.LA(1); if ( (LA47_0 == T_PRIO) ) { alt47 = 1; } switch (alt47) { case 1 : // ooa.g:463:35: T_PRIO actionBlockParallel[prioList] { Match(input,T_PRIO,FOLLOW_T_PRIO_in_actionBlock1846); PushFollow(FOLLOW_actionBlockParallel_in_actionBlock1848); actionBlockParallel(prioList); state.followingStackPointer--; } break; default: goto loop47; } } while (true); loop47: ; // Stops C# compiler whining that label 'loop47' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return prioList; } // $ANTLR end "actionBlock" // $ANTLR start "actionBlockParallel" // ooa.g:466:1: actionBlockParallel[Block top] : actionBlockSequential[parList] ( T_NONDET actionBlockSequential[parList] )* ; public void actionBlockParallel(Block top) // throws RecognitionException [1] { try { // ooa.g:467:2: ( actionBlockSequential[parList] ( T_NONDET actionBlockSequential[parList] )* ) // ooa.g:467:6: actionBlockSequential[parList] ( T_NONDET actionBlockSequential[parList] )* { Block parList = createNondetBlock(top); PushFollow(FOLLOW_actionBlockSequential_in_actionBlockParallel1873); actionBlockSequential(parList); state.followingStackPointer--; // ooa.g:468:34: ( T_NONDET actionBlockSequential[parList] )* do { int alt48 = 2; int LA48_0 = input.LA(1); if ( (LA48_0 == T_NONDET) ) { alt48 = 1; } switch (alt48) { case 1 : // ooa.g:468:35: T_NONDET actionBlockSequential[parList] { Match(input,T_NONDET,FOLLOW_T_NONDET_in_actionBlockParallel1877); PushFollow(FOLLOW_actionBlockSequential_in_actionBlockParallel1879); actionBlockSequential(parList); state.followingStackPointer--; } break; default: goto loop48; } } while (true); loop48: ; // Stops C# compiler whining that label 'loop48' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "actionBlockParallel" // $ANTLR start "actionBlockSequential" // ooa.g:472:1: actionBlockSequential[Block top] : ( T_VAR syms= blockvarlist[seqList] ( '&' sexpr= expression )? T_COLON )? actionBlockParen[seqList] ( T_SEMICOLON actionBlockParen[seqList] )* ; public void actionBlockSequential(Block top) // throws RecognitionException [1] { Expression sexpr = default(Expression); Block seqList = createSeqBlock(top); pushBlockToResolveStack(seqList); try { // ooa.g:477:2: ( ( T_VAR syms= blockvarlist[seqList] ( '&' sexpr= expression )? T_COLON )? actionBlockParen[seqList] ( T_SEMICOLON actionBlockParen[seqList] )* ) // ooa.g:477:5: ( T_VAR syms= blockvarlist[seqList] ( '&' sexpr= expression )? T_COLON )? actionBlockParen[seqList] ( T_SEMICOLON actionBlockParen[seqList] )* { // ooa.g:477:5: ( T_VAR syms= blockvarlist[seqList] ( '&' sexpr= expression )? T_COLON )? int alt50 = 2; int LA50_0 = input.LA(1); if ( (LA50_0 == T_VAR) ) { alt50 = 1; } switch (alt50) { case 1 : // ooa.g:477:6: T_VAR syms= blockvarlist[seqList] ( '&' sexpr= expression )? T_COLON { Match(input,T_VAR,FOLLOW_T_VAR_in_actionBlockSequential1908); PushFollow(FOLLOW_blockvarlist_in_actionBlockSequential1912); blockvarlist(seqList); state.followingStackPointer--; // ooa.g:477:39: ( '&' sexpr= expression )? int alt49 = 2; int LA49_0 = input.LA(1); if ( (LA49_0 == 120) ) { alt49 = 1; } switch (alt49) { case 1 : // ooa.g:477:40: '&' sexpr= expression { Match(input,120,FOLLOW_120_in_actionBlockSequential1916); PushFollow(FOLLOW_expression_in_actionBlockSequential1920); sexpr = expression(); state.followingStackPointer--; addSeqBlockExpression(seqList,sexpr); } break; } Match(input,T_COLON,FOLLOW_T_COLON_in_actionBlockSequential1927); } break; } PushFollow(FOLLOW_actionBlockParen_in_actionBlockSequential1936); actionBlockParen(seqList); state.followingStackPointer--; // ooa.g:478:30: ( T_SEMICOLON actionBlockParen[seqList] )* do { int alt51 = 2; int LA51_0 = input.LA(1); if ( (LA51_0 == T_SEMICOLON) ) { alt51 = 1; } switch (alt51) { case 1 : // ooa.g:478:31: T_SEMICOLON actionBlockParen[seqList] { Match(input,T_SEMICOLON,FOLLOW_T_SEMICOLON_in_actionBlockSequential1940); PushFollow(FOLLOW_actionBlockParen_in_actionBlockSequential1942); actionBlockParen(seqList); state.followingStackPointer--; } break; default: goto loop51; } } while (true); loop51: ; // Stops C# compiler whining that label 'loop51' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { popBlockFromResolveStack(seqList); } return ; } // $ANTLR end "actionBlockSequential" // $ANTLR start "actionBlockParen" // ooa.g:483:1: actionBlockParen[Block top] : ( T_LPAREN actionBlock[top] T_RPAREN | anonymousOrNamedAction[top] ); public void actionBlockParen(Block top) // throws RecognitionException [1] { try { // ooa.g:484:2: ( T_LPAREN actionBlock[top] T_RPAREN | anonymousOrNamedAction[top] ) int alt52 = 2; int LA52_0 = input.LA(1); if ( (LA52_0 == T_LPAREN) ) { alt52 = 1; } else if ( (LA52_0 == T_IDENTIFIER || (LA52_0 >= T_CONT && LA52_0 <= T_REQUIRES) || LA52_0 == T_SKIP) ) { alt52 = 2; } else { NoViableAltException nvae_d52s0 = new NoViableAltException("", 52, 0, input); throw nvae_d52s0; } switch (alt52) { case 1 : // ooa.g:484:4: T_LPAREN actionBlock[top] T_RPAREN { Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_actionBlockParen1966); PushFollow(FOLLOW_actionBlock_in_actionBlockParen1968); actionBlock(top); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_actionBlockParen1971); } break; case 2 : // ooa.g:485:4: anonymousOrNamedAction[top] { PushFollow(FOLLOW_anonymousOrNamedAction_in_actionBlockParen1976); anonymousOrNamedAction(top); state.followingStackPointer--; } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "actionBlockParen" // $ANTLR start "anonymousOrNamedAction" // ooa.g:488:1: anonymousOrNamedAction[Block top] : (gcmd= anonymousAction | aname= T_IDENTIFIER ( T_LPAREN m_params= methodCallParams T_RPAREN )? (amap= ( T_FOLDLR | T_FOLDRL ) '(' amapexpr= expression ')' )? | T_SKIP ); public void anonymousOrNamedAction(Block top) // throws RecognitionException [1] { IToken aname = null; IToken amap = null; GuardedCommand gcmd = default(GuardedCommand); System.Collections.Generic.List m_params = default(System.Collections.Generic.List); Expression amapexpr = default(Expression); try { // ooa.g:489:2: (gcmd= anonymousAction | aname= T_IDENTIFIER ( T_LPAREN m_params= methodCallParams T_RPAREN )? (amap= ( T_FOLDLR | T_FOLDRL ) '(' amapexpr= expression ')' )? | T_SKIP ) int alt55 = 3; switch ( input.LA(1) ) { case T_CONT: case T_REQUIRES: { alt55 = 1; } break; case T_IDENTIFIER: { alt55 = 2; } break; case T_SKIP: { alt55 = 3; } break; default: NoViableAltException nvae_d55s0 = new NoViableAltException("", 55, 0, input); throw nvae_d55s0; } switch (alt55) { case 1 : // ooa.g:489:4: gcmd= anonymousAction { PushFollow(FOLLOW_anonymousAction_in_anonymousOrNamedAction1993); gcmd = anonymousAction(); state.followingStackPointer--; addToBlockList(top,gcmd); } break; case 2 : // ooa.g:490:4: aname= T_IDENTIFIER ( T_LPAREN m_params= methodCallParams T_RPAREN )? (amap= ( T_FOLDLR | T_FOLDRL ) '(' amapexpr= expression ')' )? { aname=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_anonymousOrNamedAction2002); // ooa.g:491:11: ( T_LPAREN m_params= methodCallParams T_RPAREN )? int alt53 = 2; int LA53_0 = input.LA(1); if ( (LA53_0 == T_LPAREN) ) { alt53 = 1; } switch (alt53) { case 1 : // ooa.g:491:12: T_LPAREN m_params= methodCallParams T_RPAREN { Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_anonymousOrNamedAction2016); PushFollow(FOLLOW_methodCallParams_in_anonymousOrNamedAction2021); m_params = methodCallParams(); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_anonymousOrNamedAction2023); } break; } // ooa.g:492:11: (amap= ( T_FOLDLR | T_FOLDRL ) '(' amapexpr= expression ')' )? int alt54 = 2; int LA54_0 = input.LA(1); if ( ((LA54_0 >= T_FOLDLR && LA54_0 <= T_FOLDRL)) ) { alt54 = 1; } switch (alt54) { case 1 : // ooa.g:492:12: amap= ( T_FOLDLR | T_FOLDRL ) '(' amapexpr= expression ')' { amap = (IToken)input.LT(1); if ( (input.LA(1) >= T_FOLDLR && input.LA(1) <= T_FOLDRL) ) { input.Consume(); state.errorRecovery = false; } else { MismatchedSetException mse = new MismatchedSetException(null,input); throw mse; } Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_anonymousOrNamedAction2047); PushFollow(FOLLOW_expression_in_anonymousOrNamedAction2051); amapexpr = expression(); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_anonymousOrNamedAction2053); } break; } addNamedActionCallToBlockList(top,aname,m_params,amap,amapexpr); } break; case 3 : // ooa.g:494:4: T_SKIP { Match(input,T_SKIP,FOLLOW_T_SKIP_in_anonymousOrNamedAction2064); addSkipStatementToBlockList(top); } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "anonymousOrNamedAction" // $ANTLR start "blockvarlist" // ooa.g:498:1: blockvarlist[Block seqList] : blockvar[seqList] ( T_SEMICOLON blockvar[seqList] )* ; public void blockvarlist(Block seqList) // throws RecognitionException [1] { try { // ooa.g:499:2: ( blockvar[seqList] ( T_SEMICOLON blockvar[seqList] )* ) // ooa.g:499:4: blockvar[seqList] ( T_SEMICOLON blockvar[seqList] )* { PushFollow(FOLLOW_blockvar_in_blockvarlist2080); blockvar(seqList); state.followingStackPointer--; // ooa.g:499:23: ( T_SEMICOLON blockvar[seqList] )* do { int alt56 = 2; int LA56_0 = input.LA(1); if ( (LA56_0 == T_SEMICOLON) ) { alt56 = 1; } switch (alt56) { case 1 : // ooa.g:499:24: T_SEMICOLON blockvar[seqList] { Match(input,T_SEMICOLON,FOLLOW_T_SEMICOLON_in_blockvarlist2085); PushFollow(FOLLOW_blockvar_in_blockvarlist2087); blockvar(seqList); state.followingStackPointer--; } break; default: goto loop56; } } while (true); loop56: ; // Stops C# compiler whining that label 'loop56' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "blockvarlist" // $ANTLR start "blockvar" // ooa.g:502:1: blockvar[Block seqList] : varname= T_IDENTIFIER T_COLON aType= complexType ; public void blockvar(Block seqList) // throws RecognitionException [1] { IToken varname = null; UlyssesType aType = default(UlyssesType); try { // ooa.g:503:2: (varname= T_IDENTIFIER T_COLON aType= complexType ) // ooa.g:503:5: varname= T_IDENTIFIER T_COLON aType= complexType { varname=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_blockvar2107); Match(input,T_COLON,FOLLOW_T_COLON_in_blockvar2110); PushFollow(FOLLOW_complexType_in_blockvar2114); aType = complexType(); state.followingStackPointer--; addBlockVariable(seqList,varname,aType); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "blockvar" // $ANTLR start "actionBody" // ooa.g:513:1: actionBody[Block top] returns [Block result] : actionBodyParallel[result] ( T_PRIO actionBodyParallel[result] )? ; public Block actionBody(Block top) // throws RecognitionException [1] { Block result = default(Block); try { // ooa.g:515:2: ( actionBodyParallel[result] ( T_PRIO actionBodyParallel[result] )? ) // ooa.g:515:4: actionBodyParallel[result] ( T_PRIO actionBodyParallel[result] )? { result = createPrioBlock(top); PushFollow(FOLLOW_actionBodyParallel_in_actionBody2149); actionBodyParallel(result); state.followingStackPointer--; // ooa.g:516:30: ( T_PRIO actionBodyParallel[result] )? int alt57 = 2; int LA57_0 = input.LA(1); if ( (LA57_0 == T_PRIO) ) { alt57 = 1; } switch (alt57) { case 1 : // ooa.g:516:31: T_PRIO actionBodyParallel[result] { Match(input,T_PRIO,FOLLOW_T_PRIO_in_actionBody2153); PushFollow(FOLLOW_actionBodyParallel_in_actionBody2155); actionBodyParallel(result); state.followingStackPointer--; } break; } } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "actionBody" // $ANTLR start "actionBodyParallel" // ooa.g:519:1: actionBodyParallel[Block top] returns [Block result] : actionBodySequential[result] ( T_NONDET olst= actionBodySequential[result] )* ; public Block actionBodyParallel(Block top) // throws RecognitionException [1] { Block result = default(Block); Block olst = default(Block); try { // ooa.g:521:2: ( actionBodySequential[result] ( T_NONDET olst= actionBodySequential[result] )* ) // ooa.g:521:4: actionBodySequential[result] ( T_NONDET olst= actionBodySequential[result] )* { result = createNondetBlock(top); PushFollow(FOLLOW_actionBodySequential_in_actionBodyParallel2183); actionBodySequential(result); state.followingStackPointer--; // ooa.g:523:3: ( T_NONDET olst= actionBodySequential[result] )* do { int alt58 = 2; int LA58_0 = input.LA(1); if ( (LA58_0 == T_NONDET) ) { alt58 = 1; } switch (alt58) { case 1 : // ooa.g:523:4: T_NONDET olst= actionBodySequential[result] { Match(input,T_NONDET,FOLLOW_T_NONDET_in_actionBodyParallel2189); PushFollow(FOLLOW_actionBodySequential_in_actionBodyParallel2193); olst = actionBodySequential(result); state.followingStackPointer--; } break; default: goto loop58; } } while (true); loop58: ; // Stops C# compiler whining that label 'loop58' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "actionBodyParallel" // $ANTLR start "actionBodySequential" // ooa.g:527:1: actionBodySequential[Block top] returns [Block result] : actionBodyParen[result] ( T_SEMICOLON actionBodyParen[result] )* ; public Block actionBodySequential(Block top) // throws RecognitionException [1] { Block result = default(Block); try { // ooa.g:529:2: ( actionBodyParen[result] ( T_SEMICOLON actionBodyParen[result] )* ) // ooa.g:529:4: actionBodyParen[result] ( T_SEMICOLON actionBodyParen[result] )* { result = createSeqBlock(top); PushFollow(FOLLOW_actionBodyParen_in_actionBodySequential2220); actionBodyParen(result); state.followingStackPointer--; // ooa.g:530:27: ( T_SEMICOLON actionBodyParen[result] )* do { int alt59 = 2; int LA59_0 = input.LA(1); if ( (LA59_0 == T_SEMICOLON) ) { alt59 = 1; } switch (alt59) { case 1 : // ooa.g:530:28: T_SEMICOLON actionBodyParen[result] { Match(input,T_SEMICOLON,FOLLOW_T_SEMICOLON_in_actionBodySequential2224); PushFollow(FOLLOW_actionBodyParen_in_actionBodySequential2226); actionBodyParen(result); state.followingStackPointer--; } break; default: goto loop59; } } while (true); loop59: ; // Stops C# compiler whining that label 'loop59' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "actionBodySequential" // $ANTLR start "actionBodyParen" // ooa.g:533:1: actionBodyParen[Block top] : ( T_LPAREN actionBody[top] T_RPAREN | stmt= statement ); public void actionBodyParen(Block top) // throws RecognitionException [1] { Statement stmt = default(Statement); try { // ooa.g:534:2: ( T_LPAREN actionBody[top] T_RPAREN | stmt= statement ) int alt60 = 2; int LA60_0 = input.LA(1); if ( (LA60_0 == T_LPAREN) ) { alt60 = 1; } else if ( (LA60_0 == T_IDENTIFIER || LA60_0 == T_REQUIRES || (LA60_0 >= T_SKIP && LA60_0 <= T_SELF)) ) { alt60 = 2; } else { NoViableAltException nvae_d60s0 = new NoViableAltException("", 60, 0, input); throw nvae_d60s0; } switch (alt60) { case 1 : // ooa.g:534:4: T_LPAREN actionBody[top] T_RPAREN { Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_actionBodyParen2244); PushFollow(FOLLOW_actionBody_in_actionBodyParen2246); actionBody(top); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_actionBodyParen2249); } break; case 2 : // ooa.g:535:4: stmt= statement { PushFollow(FOLLOW_statement_in_actionBodyParen2256); stmt = statement(); state.followingStackPointer--; addToStatementList(top,stmt); } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "actionBodyParen" // $ANTLR start "statement" // ooa.g:540:1: statement returns [Statement result] : ( T_ABORT | T_SKIP | T_KILL T_LPAREN aname= ( T_IDENTIFIER | T_SELF ) T_RPAREN | gc= discreteActionBody | aqname= reference ( T_ASSIGNMENT aexp= expression ( T_WITH ndexp= expression )? | ( T_COMMA malhs= reference )+ T_ASSIGNMENT mexp= expression ( T_COMMA mexp2= expression )+ ( T_WITH ndex2= expression )? | ) ); public Statement statement() // throws RecognitionException [1] { Statement result = default(Statement); IToken aname = null; GuardedCommand gc = default(GuardedCommand); Expression aqname = default(Expression); Expression aexp = default(Expression); Expression ndexp = default(Expression); Expression malhs = default(Expression); Expression mexp = default(Expression); Expression mexp2 = default(Expression); Expression ndex2 = default(Expression); bool popFromResolveStack = false; result = null; try { // ooa.g:546:2: ( T_ABORT | T_SKIP | T_KILL T_LPAREN aname= ( T_IDENTIFIER | T_SELF ) T_RPAREN | gc= discreteActionBody | aqname= reference ( T_ASSIGNMENT aexp= expression ( T_WITH ndexp= expression )? | ( T_COMMA malhs= reference )+ T_ASSIGNMENT mexp= expression ( T_COMMA mexp2= expression )+ ( T_WITH ndex2= expression )? | ) ) int alt66 = 5; switch ( input.LA(1) ) { case T_ABORT: { alt66 = 1; } break; case T_SKIP: { alt66 = 2; } break; case T_KILL: { alt66 = 3; } break; case T_REQUIRES: { alt66 = 4; } break; case T_IDENTIFIER: case T_SELF: { alt66 = 5; } break; default: NoViableAltException nvae_d66s0 = new NoViableAltException("", 66, 0, input); throw nvae_d66s0; } switch (alt66) { case 1 : // ooa.g:546:4: T_ABORT { Match(input,T_ABORT,FOLLOW_T_ABORT_in_statement2284); result = createAbortStatement(); } break; case 2 : // ooa.g:547:4: T_SKIP { Match(input,T_SKIP,FOLLOW_T_SKIP_in_statement2291); result = createSkipStatement(); } break; case 3 : // ooa.g:548:4: T_KILL T_LPAREN aname= ( T_IDENTIFIER | T_SELF ) T_RPAREN { Match(input,T_KILL,FOLLOW_T_KILL_in_statement2298); Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_statement2300); aname = (IToken)input.LT(1); if ( input.LA(1) == T_IDENTIFIER || input.LA(1) == T_SELF ) { input.Consume(); state.errorRecovery = false; } else { MismatchedSetException mse = new MismatchedSetException(null,input); throw mse; } Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_statement2312); result = createKillStatement(aname); } break; case 4 : // ooa.g:549:5: gc= discreteActionBody { PushFollow(FOLLOW_discreteActionBody_in_statement2322); gc = discreteActionBody(); state.followingStackPointer--; result = gc; } break; case 5 : // ooa.g:550:4: aqname= reference ( T_ASSIGNMENT aexp= expression ( T_WITH ndexp= expression )? | ( T_COMMA malhs= reference )+ T_ASSIGNMENT mexp= expression ( T_COMMA mexp2= expression )+ ( T_WITH ndex2= expression )? | ) { PushFollow(FOLLOW_reference_in_statement2331); aqname = reference(); state.followingStackPointer--; // ooa.g:551:7: ( T_ASSIGNMENT aexp= expression ( T_WITH ndexp= expression )? | ( T_COMMA malhs= reference )+ T_ASSIGNMENT mexp= expression ( T_COMMA mexp2= expression )+ ( T_WITH ndex2= expression )? | ) int alt65 = 3; switch ( input.LA(1) ) { case T_ASSIGNMENT: { alt65 = 1; } break; case T_COMMA: { alt65 = 2; } break; case T_SEMICOLON: case T_PRIO: case T_NONDET: case T_RPAREN: case T_END: { alt65 = 3; } break; default: NoViableAltException nvae_d65s0 = new NoViableAltException("", 65, 0, input); throw nvae_d65s0; } switch (alt65) { case 1 : // ooa.g:552:12: T_ASSIGNMENT aexp= expression ( T_WITH ndexp= expression )? { Match(input,T_ASSIGNMENT,FOLLOW_T_ASSIGNMENT_in_statement2359); PushFollow(FOLLOW_expression_in_statement2364); aexp = expression(); state.followingStackPointer--; result = createSingleAssignmentStatement(aqname,aexp); // ooa.g:553:15: ( T_WITH ndexp= expression )? int alt61 = 2; int LA61_0 = input.LA(1); if ( (LA61_0 == T_WITH) ) { alt61 = 1; } switch (alt61) { case 1 : // ooa.g:553:16: T_WITH ndexp= expression { Match(input,T_WITH,FOLLOW_T_WITH_in_statement2384); PushFollow(FOLLOW_expression_in_statement2388); ndexp = expression(); state.followingStackPointer--; addConstraintToAssignment(result,ndexp); } break; } } break; case 2 : // ooa.g:556:8: ( T_COMMA malhs= reference )+ T_ASSIGNMENT mexp= expression ( T_COMMA mexp2= expression )+ ( T_WITH ndex2= expression )? { result = createMultipleAssignmentStatementLHS(aqname); // ooa.g:557:7: ( T_COMMA malhs= reference )+ int cnt62 = 0; do { int alt62 = 2; int LA62_0 = input.LA(1); if ( (LA62_0 == T_COMMA) ) { alt62 = 1; } switch (alt62) { case 1 : // ooa.g:557:8: T_COMMA malhs= reference { Match(input,T_COMMA,FOLLOW_T_COMMA_in_statement2441); PushFollow(FOLLOW_reference_in_statement2445); malhs = reference(); state.followingStackPointer--; addMultipleAssignmentStatementLHS(result,malhs); } break; default: if ( cnt62 >= 1 ) goto loop62; EarlyExitException eee62 = new EarlyExitException(62, input); throw eee62; } cnt62++; } while (true); loop62: ; // Stops C# compiler whining that label 'loop62' has no statements Match(input,T_ASSIGNMENT,FOLLOW_T_ASSIGNMENT_in_statement2460); pushAssignmentOnResolveStack(result); popFromResolveStack = true; PushFollow(FOLLOW_expression_in_statement2482); mexp = expression(); state.followingStackPointer--; addMutlipleAssignmentStatementRHS(result,mexp); // ooa.g:562:8: ( T_COMMA mexp2= expression )+ int cnt63 = 0; do { int alt63 = 2; int LA63_0 = input.LA(1); if ( (LA63_0 == T_COMMA) ) { alt63 = 1; } switch (alt63) { case 1 : // ooa.g:562:9: T_COMMA mexp2= expression { Match(input,T_COMMA,FOLLOW_T_COMMA_in_statement2501); PushFollow(FOLLOW_expression_in_statement2505); mexp2 = expression(); state.followingStackPointer--; addMutlipleAssignmentStatementRHS(result,mexp2); } break; default: if ( cnt63 >= 1 ) goto loop63; EarlyExitException eee63 = new EarlyExitException(63, input); throw eee63; } cnt63++; } while (true); loop63: ; // Stops C# compiler whining that label 'loop63' has no statements // ooa.g:563:8: ( T_WITH ndex2= expression )? int alt64 = 2; int LA64_0 = input.LA(1); if ( (LA64_0 == T_WITH) ) { alt64 = 1; } switch (alt64) { case 1 : // ooa.g:563:9: T_WITH ndex2= expression { Match(input,T_WITH,FOLLOW_T_WITH_in_statement2519); PushFollow(FOLLOW_expression_in_statement2523); ndex2 = expression(); state.followingStackPointer--; addConstraintToAssignment(result,ndex2); } break; } } break; case 3 : // ooa.g:566:7: { result = createCallStatement(aqname); } break; } } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { if (popFromResolveStack == true) popAssignmentOffResolveStack(result); } return result; } // $ANTLR end "statement" // $ANTLR start "expression" // ooa.g:577:1: expression returns [Expression expr] : left= atomExpression (op= binoperator right= atomExpression )* ; public Expression expression() // throws RecognitionException [1] { Expression expr = default(Expression); Expression left = default(Expression); BinaryOperator op = default(BinaryOperator); Expression right = default(Expression); System.Collections.Generic.List operators = new System.Collections.Generic.List(); System.Collections.Generic.List expressions = new System.Collections.Generic.List(); try { // ooa.g:583:2: (left= atomExpression (op= binoperator right= atomExpression )* ) // ooa.g:583:4: left= atomExpression (op= binoperator right= atomExpression )* { PushFollow(FOLLOW_atomExpression_in_expression2598); left = atomExpression(); state.followingStackPointer--; expressions.Add(left); // ooa.g:585:3: (op= binoperator right= atomExpression )* do { int alt67 = 2; alt67 = dfa67.Predict(input); switch (alt67) { case 1 : // ooa.g:585:5: op= binoperator right= atomExpression { PushFollow(FOLLOW_binoperator_in_expression2611); op = binoperator(); state.followingStackPointer--; PushFollow(FOLLOW_atomExpression_in_expression2619); right = atomExpression(); state.followingStackPointer--; operators.Add(op); expressions.Add(right); } break; default: goto loop67; } } while (true); loop67: ; // Stops C# compiler whining that label 'loop67' has no statements expr = createPrecedenceTree(expressions,operators); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return expr; } // $ANTLR end "expression" // $ANTLR start "binoperator" // ooa.g:596:1: binoperator returns [BinaryOperator binop] : ( T_BIIMPLIES | T_GREATER | T_GREATEREQUAL | T_LESS | T_LESSEQUAL | T_EQUAL | T_NOTEQUAL | T_IMPLIES | T_MINUS | T_SUM | T_IN ( T_SET )? | T_NOT T_IN ( T_SET )? | T_SUBSET | T_OR | T_DIV | T_PROD | T_IDIV | T_MOD | T_UNION | T_DIFF | T_INTER | T_AND | T_POW | T_CONC | T_DOMRESBY | T_DOMRESTO | T_RNGRESBY | T_RNGRESTO | T_MUNION | T_SEQMOD_MAPOVERRIDE ); public BinaryOperator binoperator() // throws RecognitionException [1] { BinaryOperator binop = default(BinaryOperator); try { // ooa.g:598:2: ( T_BIIMPLIES | T_GREATER | T_GREATEREQUAL | T_LESS | T_LESSEQUAL | T_EQUAL | T_NOTEQUAL | T_IMPLIES | T_MINUS | T_SUM | T_IN ( T_SET )? | T_NOT T_IN ( T_SET )? | T_SUBSET | T_OR | T_DIV | T_PROD | T_IDIV | T_MOD | T_UNION | T_DIFF | T_INTER | T_AND | T_POW | T_CONC | T_DOMRESBY | T_DOMRESTO | T_RNGRESBY | T_RNGRESTO | T_MUNION | T_SEQMOD_MAPOVERRIDE ) int alt70 = 30; alt70 = dfa70.Predict(input); switch (alt70) { case 1 : // ooa.g:598:4: T_BIIMPLIES { Match(input,T_BIIMPLIES,FOLLOW_T_BIIMPLIES_in_binoperator2652); binop = createBinaryOperator(ExpressionKind.biimplies); } break; case 2 : // ooa.g:600:4: T_GREATER { Match(input,T_GREATER,FOLLOW_T_GREATER_in_binoperator2661); binop = createBinaryOperator(ExpressionKind.greater); } break; case 3 : // ooa.g:602:4: T_GREATEREQUAL { Match(input,T_GREATEREQUAL,FOLLOW_T_GREATEREQUAL_in_binoperator2671); binop = createBinaryOperator(ExpressionKind.greaterequal); } break; case 4 : // ooa.g:604:4: T_LESS { Match(input,T_LESS,FOLLOW_T_LESS_in_binoperator2680); binop = createBinaryOperator(ExpressionKind.less); } break; case 5 : // ooa.g:606:4: T_LESSEQUAL { Match(input,T_LESSEQUAL,FOLLOW_T_LESSEQUAL_in_binoperator2690); binop = createBinaryOperator(ExpressionKind.lessequal); } break; case 6 : // ooa.g:608:4: T_EQUAL { Match(input,T_EQUAL,FOLLOW_T_EQUAL_in_binoperator2699); binop = createBinaryOperator(ExpressionKind.equal); } break; case 7 : // ooa.g:610:4: T_NOTEQUAL { Match(input,T_NOTEQUAL,FOLLOW_T_NOTEQUAL_in_binoperator2711); binop = createBinaryOperator(ExpressionKind.notequal); } break; case 8 : // ooa.g:612:4: T_IMPLIES { Match(input,T_IMPLIES,FOLLOW_T_IMPLIES_in_binoperator2722); binop = createBinaryOperator(ExpressionKind.implies); } break; case 9 : // ooa.g:614:4: T_MINUS { Match(input,T_MINUS,FOLLOW_T_MINUS_in_binoperator2731); binop = createBinaryOperator(ExpressionKind.minus); } break; case 10 : // ooa.g:616:4: T_SUM { Match(input,T_SUM,FOLLOW_T_SUM_in_binoperator2741); binop = createBinaryOperator(ExpressionKind.sum); } break; case 11 : // ooa.g:618:4: T_IN ( T_SET )? { Match(input,T_IN,FOLLOW_T_IN_in_binoperator2751); // ooa.g:618:9: ( T_SET )? int alt68 = 2; alt68 = dfa68.Predict(input); switch (alt68) { case 1 : // ooa.g:618:9: T_SET { Match(input,T_SET,FOLLOW_T_SET_in_binoperator2753); } break; } binop = createBinaryOperator(ExpressionKind.elemin); } break; case 12 : // ooa.g:620:4: T_NOT T_IN ( T_SET )? { Match(input,T_NOT,FOLLOW_T_NOT_in_binoperator2764); Match(input,T_IN,FOLLOW_T_IN_in_binoperator2766); // ooa.g:620:15: ( T_SET )? int alt69 = 2; alt69 = dfa69.Predict(input); switch (alt69) { case 1 : // ooa.g:620:15: T_SET { Match(input,T_SET,FOLLOW_T_SET_in_binoperator2768); } break; } binop = createBinaryOperator(ExpressionKind.notelemin); } break; case 13 : // ooa.g:622:4: T_SUBSET { Match(input,T_SUBSET,FOLLOW_T_SUBSET_in_binoperator2779); binop = createBinaryOperator(ExpressionKind.subset); } break; case 14 : // ooa.g:624:4: T_OR { Match(input,T_OR,FOLLOW_T_OR_in_binoperator2789); binop = createBinaryOperator(ExpressionKind.or); } break; case 15 : // ooa.g:626:4: T_DIV { Match(input,T_DIV,FOLLOW_T_DIV_in_binoperator2798); binop = createBinaryOperator(ExpressionKind.div); } break; case 16 : // ooa.g:628:4: T_PROD { Match(input,T_PROD,FOLLOW_T_PROD_in_binoperator2807); binop = createBinaryOperator(ExpressionKind.prod); } break; case 17 : // ooa.g:630:4: T_IDIV { Match(input,T_IDIV,FOLLOW_T_IDIV_in_binoperator2817); binop = createBinaryOperator(ExpressionKind.idiv); } break; case 18 : // ooa.g:632:4: T_MOD { Match(input,T_MOD,FOLLOW_T_MOD_in_binoperator2827); binop = createBinaryOperator(ExpressionKind.mod); } break; case 19 : // ooa.g:634:4: T_UNION { Match(input,T_UNION,FOLLOW_T_UNION_in_binoperator2837); binop = createBinaryOperator(ExpressionKind.union); } break; case 20 : // ooa.g:636:4: T_DIFF { Match(input,T_DIFF,FOLLOW_T_DIFF_in_binoperator2848); binop = createBinaryOperator(ExpressionKind.diff); } break; case 21 : // ooa.g:638:4: T_INTER { Match(input,T_INTER,FOLLOW_T_INTER_in_binoperator2859); binop = createBinaryOperator(ExpressionKind.inter); } break; case 22 : // ooa.g:640:4: T_AND { Match(input,T_AND,FOLLOW_T_AND_in_binoperator2870); binop = createBinaryOperator(ExpressionKind.and); } break; case 23 : // ooa.g:642:4: T_POW { Match(input,T_POW,FOLLOW_T_POW_in_binoperator2885); binop = createBinaryOperator(ExpressionKind.pow); } break; case 24 : // ooa.g:644:4: T_CONC { Match(input,T_CONC,FOLLOW_T_CONC_in_binoperator2900); binop = createBinaryOperator(ExpressionKind.conc); } break; case 25 : // ooa.g:646:4: T_DOMRESBY { Match(input,T_DOMRESBY,FOLLOW_T_DOMRESBY_in_binoperator2913); binop = createBinaryOperator(ExpressionKind.domresby); } break; case 26 : // ooa.g:648:4: T_DOMRESTO { Match(input,T_DOMRESTO,FOLLOW_T_DOMRESTO_in_binoperator2923); binop = createBinaryOperator(ExpressionKind.domresto); } break; case 27 : // ooa.g:650:4: T_RNGRESBY { Match(input,T_RNGRESBY,FOLLOW_T_RNGRESBY_in_binoperator2933); binop = createBinaryOperator(ExpressionKind.rngresby); } break; case 28 : // ooa.g:652:4: T_RNGRESTO { Match(input,T_RNGRESTO,FOLLOW_T_RNGRESTO_in_binoperator2943); binop = createBinaryOperator(ExpressionKind.rngresto); } break; case 29 : // ooa.g:654:4: T_MUNION { Match(input,T_MUNION,FOLLOW_T_MUNION_in_binoperator2953); binop = createBinaryOperator(ExpressionKind.munion); } break; case 30 : // ooa.g:656:4: T_SEQMOD_MAPOVERRIDE { Match(input,T_SEQMOD_MAPOVERRIDE,FOLLOW_T_SEQMOD_MAPOVERRIDE_in_binoperator2963); binop = createBinaryOperator(ExpressionKind.seqmod_mapoverride); } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return binop; } // $ANTLR end "binoperator" // $ANTLR start "atomExpression" // ooa.g:662:1: atomExpression returns [Expression expr] : ( ( (unexpr= op_un )? (e= identifierExpression | e= qvalExpression | e= constant | e= initializedComplexType | e= quantifierExpression | T_LPAREN e= expression T_RPAREN ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[e] )? | e= accessExpression[e] )? ) ( 'as' cid= T_IDENTIFIER )? ) | ie= T_IF ce= expression T_THEN te= expression T_ELSE ee= expression T_END ); public Expression atomExpression() // throws RecognitionException [1] { Expression expr = default(Expression); IToken idn = null; IToken cid = null; IToken ie = null; UnaryOperator unexpr = default(UnaryOperator); Expression e = default(Expression); Expression res = default(Expression); Expression ce = default(Expression); Expression te = default(Expression); Expression ee = default(Expression); expr = null; try { // ooa.g:667:2: ( ( (unexpr= op_un )? (e= identifierExpression | e= qvalExpression | e= constant | e= initializedComplexType | e= quantifierExpression | T_LPAREN e= expression T_RPAREN ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[e] )? | e= accessExpression[e] )? ) ( 'as' cid= T_IDENTIFIER )? ) | ie= T_IF ce= expression T_THEN te= expression T_ELSE ee= expression T_END ) int alt77 = 2; alt77 = dfa77.Predict(input); switch (alt77) { case 1 : // ooa.g:667:4: ( (unexpr= op_un )? (e= identifierExpression | e= qvalExpression | e= constant | e= initializedComplexType | e= quantifierExpression | T_LPAREN e= expression T_RPAREN ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[e] )? | e= accessExpression[e] )? ) ( 'as' cid= T_IDENTIFIER )? ) { // ooa.g:667:4: ( (unexpr= op_un )? (e= identifierExpression | e= qvalExpression | e= constant | e= initializedComplexType | e= quantifierExpression | T_LPAREN e= expression T_RPAREN ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[e] )? | e= accessExpression[e] )? ) ( 'as' cid= T_IDENTIFIER )? ) // ooa.g:667:5: (unexpr= op_un )? (e= identifierExpression | e= qvalExpression | e= constant | e= initializedComplexType | e= quantifierExpression | T_LPAREN e= expression T_RPAREN ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[e] )? | e= accessExpression[e] )? ) ( 'as' cid= T_IDENTIFIER )? { // ooa.g:667:11: (unexpr= op_un )? int alt71 = 2; alt71 = dfa71.Predict(input); switch (alt71) { case 1 : // ooa.g:667:11: unexpr= op_un { PushFollow(FOLLOW_op_un_in_atomExpression3001); unexpr = op_un(); state.followingStackPointer--; } break; } // ooa.g:667:19: (e= identifierExpression | e= qvalExpression | e= constant | e= initializedComplexType | e= quantifierExpression | T_LPAREN e= expression T_RPAREN ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[e] )? | e= accessExpression[e] )? ) int alt75 = 6; alt75 = dfa75.Predict(input); switch (alt75) { case 1 : // ooa.g:668:8: e= identifierExpression { PushFollow(FOLLOW_identifierExpression_in_atomExpression3018); e = identifierExpression(); state.followingStackPointer--; } break; case 2 : // ooa.g:669:8: e= qvalExpression { PushFollow(FOLLOW_qvalExpression_in_atomExpression3029); e = qvalExpression(); state.followingStackPointer--; } break; case 3 : // ooa.g:670:8: e= constant { PushFollow(FOLLOW_constant_in_atomExpression3040); e = constant(); state.followingStackPointer--; } break; case 4 : // ooa.g:671:8: e= initializedComplexType { PushFollow(FOLLOW_initializedComplexType_in_atomExpression3051); e = initializedComplexType(); state.followingStackPointer--; } break; case 5 : // ooa.g:672:8: e= quantifierExpression { PushFollow(FOLLOW_quantifierExpression_in_atomExpression3063); e = quantifierExpression(); state.followingStackPointer--; } break; case 6 : // ooa.g:673:8: T_LPAREN e= expression T_RPAREN ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[e] )? | e= accessExpression[e] )? { Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_atomExpression3072); PushFollow(FOLLOW_expression_in_atomExpression3076); e = expression(); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_atomExpression3078); // ooa.g:674:8: ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[e] )? | e= accessExpression[e] )? int alt74 = 3; alt74 = dfa74.Predict(input); switch (alt74) { case 1 : // ooa.g:675:6: ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[e] )? { // ooa.g:675:6: ( T_POINT idn= T_IDENTIFIER )+ int cnt72 = 0; do { int alt72 = 2; alt72 = dfa72.Predict(input); switch (alt72) { case 1 : // ooa.g:675:7: T_POINT idn= T_IDENTIFIER { Match(input,T_POINT,FOLLOW_T_POINT_in_atomExpression3101); idn=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_atomExpression3113); e = addIdentifierAccessExpression(e,idn); } break; default: if ( cnt72 >= 1 ) goto loop72; EarlyExitException eee72 = new EarlyExitException(72, input); throw eee72; } cnt72++; } while (true); loop72: ; // Stops C# compiler whining that label 'loop72' has no statements // ooa.g:678:8: (res= accessExpression[e] )? int alt73 = 2; alt73 = dfa73.Predict(input); switch (alt73) { case 1 : // ooa.g:678:9: res= accessExpression[e] { PushFollow(FOLLOW_accessExpression_in_atomExpression3137); res = accessExpression(e); state.followingStackPointer--; e=res; } break; } } break; case 2 : // ooa.g:680:6: e= accessExpression[e] { PushFollow(FOLLOW_accessExpression_in_atomExpression3157); e = accessExpression(e); state.followingStackPointer--; } break; } } break; } // ooa.g:682:5: ( 'as' cid= T_IDENTIFIER )? int alt76 = 2; alt76 = dfa76.Predict(input); switch (alt76) { case 1 : // ooa.g:682:6: 'as' cid= T_IDENTIFIER { Match(input,121,FOLLOW_121_in_atomExpression3176); cid=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_atomExpression3180); e=addCastExpression(e,cid); } break; } expr = addUnaryExpression(unexpr,e); } } break; case 2 : // ooa.g:685:6: ie= T_IF ce= expression T_THEN te= expression T_ELSE ee= expression T_END { ie=(IToken)Match(input,T_IF,FOLLOW_T_IF_in_atomExpression3201); PushFollow(FOLLOW_expression_in_atomExpression3205); ce = expression(); state.followingStackPointer--; Match(input,T_THEN,FOLLOW_T_THEN_in_atomExpression3207); PushFollow(FOLLOW_expression_in_atomExpression3211); te = expression(); state.followingStackPointer--; Match(input,T_ELSE,FOLLOW_T_ELSE_in_atomExpression3213); PushFollow(FOLLOW_expression_in_atomExpression3217); ee = expression(); state.followingStackPointer--; Match(input,T_END,FOLLOW_T_END_in_atomExpression3219); expr = createConditionalExpression(ce,te,ee,ie); } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return expr; } // $ANTLR end "atomExpression" // $ANTLR start "quantifierExpression" // ooa.g:690:1: quantifierExpression returns [Quantifier result] : t= ( T_FORALL | T_EXISTS ) (id= T_IDENTIFIER ( T_COLON id_type= simpleType ) ( T_COMMA id2= T_IDENTIFIER ( T_COLON id_type2= simpleType ) )* ) T_COLON T_LPAREN e= expression T_RPAREN ; public Quantifier quantifierExpression() // throws RecognitionException [1] { Quantifier result = default(Quantifier); IToken t = null; IToken id = null; IToken id2 = null; UlyssesType id_type = default(UlyssesType); UlyssesType id_type2 = default(UlyssesType); Expression e = default(Expression); result = null; try { // ooa.g:695:2: (t= ( T_FORALL | T_EXISTS ) (id= T_IDENTIFIER ( T_COLON id_type= simpleType ) ( T_COMMA id2= T_IDENTIFIER ( T_COLON id_type2= simpleType ) )* ) T_COLON T_LPAREN e= expression T_RPAREN ) // ooa.g:695:5: t= ( T_FORALL | T_EXISTS ) (id= T_IDENTIFIER ( T_COLON id_type= simpleType ) ( T_COMMA id2= T_IDENTIFIER ( T_COLON id_type2= simpleType ) )* ) T_COLON T_LPAREN e= expression T_RPAREN { t = (IToken)input.LT(1); if ( (input.LA(1) >= T_FORALL && input.LA(1) <= T_EXISTS) ) { input.Consume(); state.errorRecovery = false; } else { MismatchedSetException mse = new MismatchedSetException(null,input); throw mse; } result = createQuantifierExpression(t); // ooa.g:697:3: (id= T_IDENTIFIER ( T_COLON id_type= simpleType ) ( T_COMMA id2= T_IDENTIFIER ( T_COLON id_type2= simpleType ) )* ) // ooa.g:697:4: id= T_IDENTIFIER ( T_COLON id_type= simpleType ) ( T_COMMA id2= T_IDENTIFIER ( T_COLON id_type2= simpleType ) )* { id=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_quantifierExpression3268); // ooa.g:697:20: ( T_COLON id_type= simpleType ) // ooa.g:697:21: T_COLON id_type= simpleType { Match(input,T_COLON,FOLLOW_T_COLON_in_quantifierExpression3271); PushFollow(FOLLOW_simpleType_in_quantifierExpression3275); id_type = simpleType(); state.followingStackPointer--; addBoundVarToQuantifierExpression(result,id,id_type); } // ooa.g:698:5: ( T_COMMA id2= T_IDENTIFIER ( T_COLON id_type2= simpleType ) )* do { int alt78 = 2; int LA78_0 = input.LA(1); if ( (LA78_0 == T_COMMA) ) { alt78 = 1; } switch (alt78) { case 1 : // ooa.g:698:6: T_COMMA id2= T_IDENTIFIER ( T_COLON id_type2= simpleType ) { Match(input,T_COMMA,FOLLOW_T_COMMA_in_quantifierExpression3286); id2=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_quantifierExpression3290); // ooa.g:698:31: ( T_COLON id_type2= simpleType ) // ooa.g:698:32: T_COLON id_type2= simpleType { Match(input,T_COLON,FOLLOW_T_COLON_in_quantifierExpression3293); PushFollow(FOLLOW_simpleType_in_quantifierExpression3297); id_type2 = simpleType(); state.followingStackPointer--; } addBoundVarToQuantifierExpression(result,id2,id_type2); } break; default: goto loop78; } } while (true); loop78: ; // Stops C# compiler whining that label 'loop78' has no statements } Match(input,T_COLON,FOLLOW_T_COLON_in_quantifierExpression3307); Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_quantifierExpression3309); PushFollow(FOLLOW_expression_in_quantifierExpression3313); e = expression(); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_quantifierExpression3315); addExpressionToQuantifier(result,e); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { removeBoundVarsFromResolveStack(result); } return result; } // $ANTLR end "quantifierExpression" // $ANTLR start "constant" // ooa.g:705:1: constant returns [LeafExpression result] : ( T_TRUE | T_FALSE | T_NIL | T_SELF | t_fl= T_FLOATNUMBER | t_in= T_INTNUMBER | t_l= T_STRINGLITERAL ); public LeafExpression constant() // throws RecognitionException [1] { LeafExpression result = default(LeafExpression); IToken t_fl = null; IToken t_in = null; IToken t_l = null; result = null; try { // ooa.g:710:2: ( T_TRUE | T_FALSE | T_NIL | T_SELF | t_fl= T_FLOATNUMBER | t_in= T_INTNUMBER | t_l= T_STRINGLITERAL ) int alt79 = 7; switch ( input.LA(1) ) { case T_TRUE: { alt79 = 1; } break; case T_FALSE: { alt79 = 2; } break; case T_NIL: { alt79 = 3; } break; case T_SELF: { alt79 = 4; } break; case T_FLOATNUMBER: { alt79 = 5; } break; case T_INTNUMBER: { alt79 = 6; } break; case T_STRINGLITERAL: { alt79 = 7; } break; default: NoViableAltException nvae_d79s0 = new NoViableAltException("", 79, 0, input); throw nvae_d79s0; } switch (alt79) { case 1 : // ooa.g:710:5: T_TRUE { Match(input,T_TRUE,FOLLOW_T_TRUE_in_constant3349); result = createBoolConstant(true); } break; case 2 : // ooa.g:711:4: T_FALSE { Match(input,T_FALSE,FOLLOW_T_FALSE_in_constant3357); result = createBoolConstant(false); } break; case 3 : // ooa.g:712:4: T_NIL { Match(input,T_NIL,FOLLOW_T_NIL_in_constant3364); result = createNullPointerConstant(); } break; case 4 : // ooa.g:713:4: T_SELF { Match(input,T_SELF,FOLLOW_T_SELF_in_constant3372); result = createSelfPointer(); } break; case 5 : // ooa.g:714:5: t_fl= T_FLOATNUMBER { t_fl=(IToken)Match(input,T_FLOATNUMBER,FOLLOW_T_FLOATNUMBER_in_constant3383); result = createFloatConstant(t_fl); } break; case 6 : // ooa.g:715:4: t_in= T_INTNUMBER { t_in=(IToken)Match(input,T_INTNUMBER,FOLLOW_T_INTNUMBER_in_constant3392); result = createIntConstant(t_in); } break; case 7 : // ooa.g:716:4: t_l= T_STRINGLITERAL { t_l=(IToken)Match(input,T_STRINGLITERAL,FOLLOW_T_STRINGLITERAL_in_constant3401); result = createStringConstant(t_l); } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "constant" // $ANTLR start "initializedComplexType" // ooa.g:719:1: initializedComplexType returns [Expression result] : (res= initializedListType | res= initializedSetType | T_NEW T_LPAREN anid= T_IDENTIFIER ( T_COMMA aname= T_STRINGLITERAL T_RPAREN | T_RPAREN ) ); public Expression initializedComplexType() // throws RecognitionException [1] { Expression result = default(Expression); IToken anid = null; IToken aname = null; Expression res = default(Expression); result = null; try { // ooa.g:724:2: (res= initializedListType | res= initializedSetType | T_NEW T_LPAREN anid= T_IDENTIFIER ( T_COMMA aname= T_STRINGLITERAL T_RPAREN | T_RPAREN ) ) int alt81 = 3; switch ( input.LA(1) ) { case T_LSQPAREN: { alt81 = 1; } break; case T_CBRL: { alt81 = 2; } break; case T_NEW: { alt81 = 3; } break; default: NoViableAltException nvae_d81s0 = new NoViableAltException("", 81, 0, input); throw nvae_d81s0; } switch (alt81) { case 1 : // ooa.g:724:4: res= initializedListType { PushFollow(FOLLOW_initializedListType_in_initializedComplexType3428); res = initializedListType(); state.followingStackPointer--; result = res; } break; case 2 : // ooa.g:725:4: res= initializedSetType { PushFollow(FOLLOW_initializedSetType_in_initializedComplexType3437); res = initializedSetType(); state.followingStackPointer--; result = res; } break; case 3 : // ooa.g:726:5: T_NEW T_LPAREN anid= T_IDENTIFIER ( T_COMMA aname= T_STRINGLITERAL T_RPAREN | T_RPAREN ) { Match(input,T_NEW,FOLLOW_T_NEW_in_initializedComplexType3445); Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_initializedComplexType3447); anid=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_initializedComplexType3451); // ooa.g:727:4: ( T_COMMA aname= T_STRINGLITERAL T_RPAREN | T_RPAREN ) int alt80 = 2; int LA80_0 = input.LA(1); if ( (LA80_0 == T_COMMA) ) { alt80 = 1; } else if ( (LA80_0 == T_RPAREN) ) { alt80 = 2; } else { NoViableAltException nvae_d80s0 = new NoViableAltException("", 80, 0, input); throw nvae_d80s0; } switch (alt80) { case 1 : // ooa.g:728:5: T_COMMA aname= T_STRINGLITERAL T_RPAREN { Match(input,T_COMMA,FOLLOW_T_COMMA_in_initializedComplexType3463); aname=(IToken)Match(input,T_STRINGLITERAL,FOLLOW_T_STRINGLITERAL_in_initializedComplexType3468); Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_initializedComplexType3470); result = createNamedObject(anid, aname); } break; case 2 : // ooa.g:729:6: T_RPAREN { Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_initializedComplexType3479); result = createObject(anid); } break; } } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "initializedComplexType" // $ANTLR start "initializedListType" // ooa.g:733:1: initializedListType returns [ListConstructor result] : T_LSQPAREN e= expression ( ( T_COMMA e2= expression )+ | listComprehension[result] )? T_RSQPAREN ; public ListConstructor initializedListType() // throws RecognitionException [1] { ListConstructor result = default(ListConstructor); Expression e = default(Expression); Expression e2 = default(Expression); result = createInitializedList(); pushListVarsOnResolveStack(result); // need this here for list comprehension try { // ooa.g:739:2: ( T_LSQPAREN e= expression ( ( T_COMMA e2= expression )+ | listComprehension[result] )? T_RSQPAREN ) // ooa.g:739:4: T_LSQPAREN e= expression ( ( T_COMMA e2= expression )+ | listComprehension[result] )? T_RSQPAREN { Match(input,T_LSQPAREN,FOLLOW_T_LSQPAREN_in_initializedListType3510); PushFollow(FOLLOW_expression_in_initializedListType3514); e = expression(); state.followingStackPointer--; addListElement(result,e); // ooa.g:739:56: ( ( T_COMMA e2= expression )+ | listComprehension[result] )? int alt83 = 3; int LA83_0 = input.LA(1); if ( (LA83_0 == T_COMMA) ) { alt83 = 1; } else if ( (LA83_0 == T_BAR) ) { alt83 = 2; } switch (alt83) { case 1 : // ooa.g:740:4: ( T_COMMA e2= expression )+ { // ooa.g:740:4: ( T_COMMA e2= expression )+ int cnt82 = 0; do { int alt82 = 2; int LA82_0 = input.LA(1); if ( (LA82_0 == T_COMMA) ) { alt82 = 1; } switch (alt82) { case 1 : // ooa.g:740:5: T_COMMA e2= expression { Match(input,T_COMMA,FOLLOW_T_COMMA_in_initializedListType3525); PushFollow(FOLLOW_expression_in_initializedListType3529); e2 = expression(); state.followingStackPointer--; addListElement(result,e2); } break; default: if ( cnt82 >= 1 ) goto loop82; EarlyExitException eee82 = new EarlyExitException(82, input); throw eee82; } cnt82++; } while (true); loop82: ; // Stops C# compiler whining that label 'loop82' has no statements } break; case 2 : // ooa.g:741:6: listComprehension[result] { PushFollow(FOLLOW_listComprehension_in_initializedListType3541); listComprehension(result); state.followingStackPointer--; } break; } Match(input,T_RSQPAREN,FOLLOW_T_RSQPAREN_in_initializedListType3549); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { popListVarsFromResolveStack(result); } return result; } // $ANTLR end "initializedListType" // $ANTLR start "listComprehension" // ooa.g:747:1: listComprehension[ListConstructor result] : T_BAR T_VAR id= T_IDENTIFIER T_COLON t1= complexType ( T_SEMICOLON id2= T_IDENTIFIER t2= complexType )* ( '&' e= expression )? ; public void listComprehension(ListConstructor result) // throws RecognitionException [1] { IToken id = null; IToken id2 = null; UlyssesType t1 = default(UlyssesType); UlyssesType t2 = default(UlyssesType); Expression e = default(Expression); result.SetHasComprehension(true); try { // ooa.g:751:2: ( T_BAR T_VAR id= T_IDENTIFIER T_COLON t1= complexType ( T_SEMICOLON id2= T_IDENTIFIER t2= complexType )* ( '&' e= expression )? ) // ooa.g:752:3: T_BAR T_VAR id= T_IDENTIFIER T_COLON t1= complexType ( T_SEMICOLON id2= T_IDENTIFIER t2= complexType )* ( '&' e= expression )? { Match(input,T_BAR,FOLLOW_T_BAR_in_listComprehension3580); Match(input,T_VAR,FOLLOW_T_VAR_in_listComprehension3582); id=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_listComprehension3588); Match(input,T_COLON,FOLLOW_T_COLON_in_listComprehension3591); PushFollow(FOLLOW_complexType_in_listComprehension3595); t1 = complexType(); state.followingStackPointer--; addListComprVar(result,id,t1); // ooa.g:754:4: ( T_SEMICOLON id2= T_IDENTIFIER t2= complexType )* do { int alt84 = 2; int LA84_0 = input.LA(1); if ( (LA84_0 == T_SEMICOLON) ) { alt84 = 1; } switch (alt84) { case 1 : // ooa.g:754:5: T_SEMICOLON id2= T_IDENTIFIER t2= complexType { Match(input,T_SEMICOLON,FOLLOW_T_SEMICOLON_in_listComprehension3604); id2=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_listComprehension3608); PushFollow(FOLLOW_complexType_in_listComprehension3613); t2 = complexType(); state.followingStackPointer--; addListComprVar(result,id2,t2); } break; default: goto loop84; } } while (true); loop84: ; // Stops C# compiler whining that label 'loop84' has no statements // ooa.g:755:3: ( '&' e= expression )? int alt85 = 2; int LA85_0 = input.LA(1); if ( (LA85_0 == 120) ) { alt85 = 1; } switch (alt85) { case 1 : // ooa.g:755:4: '&' e= expression { Match(input,120,FOLLOW_120_in_listComprehension3623); PushFollow(FOLLOW_expression_in_listComprehension3629); e = expression(); state.followingStackPointer--; addListComprExpr(result,e); } break; } } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "listComprehension" // $ANTLR start "initializedSetType" // ooa.g:759:1: initializedSetType returns [Expression result] : ( T_CBRL T_MAPS T_CBRR | res= initializedSet ); public Expression initializedSetType() // throws RecognitionException [1] { Expression result = default(Expression); Expression res = default(Expression); result = null; try { // ooa.g:764:2: ( T_CBRL T_MAPS T_CBRR | res= initializedSet ) int alt86 = 2; alt86 = dfa86.Predict(input); switch (alt86) { case 1 : // ooa.g:764:4: T_CBRL T_MAPS T_CBRR { Match(input,T_CBRL,FOLLOW_T_CBRL_in_initializedSetType3655); Match(input,T_MAPS,FOLLOW_T_MAPS_in_initializedSetType3657); Match(input,T_CBRR,FOLLOW_T_CBRR_in_initializedSetType3659); result = createEmptyMap(); } break; case 2 : // ooa.g:765:4: res= initializedSet { PushFollow(FOLLOW_initializedSet_in_initializedSetType3670); res = initializedSet(); state.followingStackPointer--; result = res; } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "initializedSetType" // $ANTLR start "initializedSet" // ooa.g:768:1: initializedSet returns [Expression result] : T_CBRL e1= expression ( ( T_COMMA e2= expression )* | m= map[result, e1] | setComprehension[(SetConstructor)result] ) T_CBRR ; public Expression initializedSet() // throws RecognitionException [1] { Expression result = default(Expression); Expression e1 = default(Expression); Expression e2 = default(Expression); Expression m = default(Expression); SetConstructor theset = createSet(); pushSetVarsOnResolveStack(theset); // need this here for set comprehension result = theset; try { // ooa.g:775:2: ( T_CBRL e1= expression ( ( T_COMMA e2= expression )* | m= map[result, e1] | setComprehension[(SetConstructor)result] ) T_CBRR ) // ooa.g:775:4: T_CBRL e1= expression ( ( T_COMMA e2= expression )* | m= map[result, e1] | setComprehension[(SetConstructor)result] ) T_CBRR { Match(input,T_CBRL,FOLLOW_T_CBRL_in_initializedSet3696); PushFollow(FOLLOW_expression_in_initializedSet3700); e1 = expression(); state.followingStackPointer--; // ooa.g:776:10: ( ( T_COMMA e2= expression )* | m= map[result, e1] | setComprehension[(SetConstructor)result] ) int alt88 = 3; switch ( input.LA(1) ) { case T_COMMA: case T_CBRR: { alt88 = 1; } break; case T_MAPS: { alt88 = 2; } break; case T_BAR: { alt88 = 3; } break; default: NoViableAltException nvae_d88s0 = new NoViableAltException("", 88, 0, input); throw nvae_d88s0; } switch (alt88) { case 1 : // ooa.g:777:4: ( T_COMMA e2= expression )* { addToSet(result,e1); // ooa.g:778:4: ( T_COMMA e2= expression )* do { int alt87 = 2; int LA87_0 = input.LA(1); if ( (LA87_0 == T_COMMA) ) { alt87 = 1; } switch (alt87) { case 1 : // ooa.g:778:5: T_COMMA e2= expression { Match(input,T_COMMA,FOLLOW_T_COMMA_in_initializedSet3730); PushFollow(FOLLOW_expression_in_initializedSet3734); e2 = expression(); state.followingStackPointer--; addToSet(result,e2); } break; default: goto loop87; } } while (true); loop87: ; // Stops C# compiler whining that label 'loop87' has no statements } break; case 2 : // ooa.g:779:6: m= map[result, e1] { PushFollow(FOLLOW_map_in_initializedSet3752); m = map(result, e1); state.followingStackPointer--; result = m; } break; case 3 : // ooa.g:780:5: setComprehension[(SetConstructor)result] { addToSet(result,e1); PushFollow(FOLLOW_setComprehension_in_initializedSet3765); setComprehension((SetConstructor)result); state.followingStackPointer--; } break; } Match(input,T_CBRR,FOLLOW_T_CBRR_in_initializedSet3775); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { popSetVarsFromResolveStack(theset); } return result; } // $ANTLR end "initializedSet" // $ANTLR start "map" // ooa.g:787:1: map[Expression _map, Expression e1] returns [Expression result] : am= T_MAPS e2= expression ( T_COMMA e3= expression T_MAPS e4= expression )* ; public Expression map(Expression _map, Expression e1) // throws RecognitionException [1] { Expression result = default(Expression); IToken am = null; Expression e2 = default(Expression); Expression e3 = default(Expression); Expression e4 = default(Expression); result = null; try { // ooa.g:792:2: (am= T_MAPS e2= expression ( T_COMMA e3= expression T_MAPS e4= expression )* ) // ooa.g:792:4: am= T_MAPS e2= expression ( T_COMMA e3= expression T_MAPS e4= expression )* { am=(IToken)Match(input,T_MAPS,FOLLOW_T_MAPS_in_map3813); PushFollow(FOLLOW_expression_in_map3817); e2 = expression(); state.followingStackPointer--; result = createMap(e1,e2,am); // ooa.g:792:63: ( T_COMMA e3= expression T_MAPS e4= expression )* do { int alt89 = 2; int LA89_0 = input.LA(1); if ( (LA89_0 == T_COMMA) ) { alt89 = 1; } switch (alt89) { case 1 : // ooa.g:792:64: T_COMMA e3= expression T_MAPS e4= expression { Match(input,T_COMMA,FOLLOW_T_COMMA_in_map3825); PushFollow(FOLLOW_expression_in_map3829); e3 = expression(); state.followingStackPointer--; Match(input,T_MAPS,FOLLOW_T_MAPS_in_map3831); PushFollow(FOLLOW_expression_in_map3835); e4 = expression(); state.followingStackPointer--; addToMap(result,e3,e4); } break; default: goto loop89; } } while (true); loop89: ; // Stops C# compiler whining that label 'loop89' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "map" // $ANTLR start "setComprehension" // ooa.g:795:1: setComprehension[SetConstructor _set] : T_BAR T_VAR (id1= T_IDENTIFIER T_COLON t1= complexType T_SEMICOLON id2= T_IDENTIFIER T_COLON t2= complexType )* ( '&' epx= expression )? ; public void setComprehension(SetConstructor _set) // throws RecognitionException [1] { IToken id1 = null; IToken id2 = null; UlyssesType t1 = default(UlyssesType); UlyssesType t2 = default(UlyssesType); Expression epx = default(Expression); _set.SetHasComprehension(true); try { // ooa.g:799:2: ( T_BAR T_VAR (id1= T_IDENTIFIER T_COLON t1= complexType T_SEMICOLON id2= T_IDENTIFIER T_COLON t2= complexType )* ( '&' epx= expression )? ) // ooa.g:799:4: T_BAR T_VAR (id1= T_IDENTIFIER T_COLON t1= complexType T_SEMICOLON id2= T_IDENTIFIER T_COLON t2= complexType )* ( '&' epx= expression )? { Match(input,T_BAR,FOLLOW_T_BAR_in_setComprehension3857); Match(input,T_VAR,FOLLOW_T_VAR_in_setComprehension3859); // ooa.g:799:16: (id1= T_IDENTIFIER T_COLON t1= complexType T_SEMICOLON id2= T_IDENTIFIER T_COLON t2= complexType )* do { int alt90 = 2; int LA90_0 = input.LA(1); if ( (LA90_0 == T_IDENTIFIER) ) { alt90 = 1; } switch (alt90) { case 1 : // ooa.g:799:17: id1= T_IDENTIFIER T_COLON t1= complexType T_SEMICOLON id2= T_IDENTIFIER T_COLON t2= complexType { id1=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_setComprehension3864); Match(input,T_COLON,FOLLOW_T_COLON_in_setComprehension3867); PushFollow(FOLLOW_complexType_in_setComprehension3871); t1 = complexType(); state.followingStackPointer--; addSetComprVar(_set, id1, t1); Match(input,T_SEMICOLON,FOLLOW_T_SEMICOLON_in_setComprehension3880); id2=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_setComprehension3884); Match(input,T_COLON,FOLLOW_T_COLON_in_setComprehension3886); PushFollow(FOLLOW_complexType_in_setComprehension3890); t2 = complexType(); state.followingStackPointer--; addSetComprVar(_set, id2, t2); } break; default: goto loop90; } } while (true); loop90: ; // Stops C# compiler whining that label 'loop90' has no statements // ooa.g:803:3: ( '&' epx= expression )? int alt91 = 2; int LA91_0 = input.LA(1); if ( (LA91_0 == 120) ) { alt91 = 1; } switch (alt91) { case 1 : // ooa.g:803:4: '&' epx= expression { Match(input,120,FOLLOW_120_in_setComprehension3904); PushFollow(FOLLOW_expression_in_setComprehension3910); epx = expression(); state.followingStackPointer--; addSetComprExpr(_set,epx); } break; } } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return ; } // $ANTLR end "setComprehension" // $ANTLR start "qvalExpression" // ooa.g:809:1: qvalExpression returns [QValConstructor result] : aval= 'qval' T_LPAREN ( T_NIL | (expr= qualifiedIdentifier | ( '-' )? T_INFTY ) ( T_RANGETO (expr2= qualifiedIdentifier | T_INFTY ) )? ) T_COMMA ( T_NIL | ( 'steady' | 'inc' | 'dec' ) ) T_RPAREN ; public QValConstructor qvalExpression() // throws RecognitionException [1] { QValConstructor result = default(QValConstructor); IToken aval = null; Expression expr = default(Expression); Expression expr2 = default(Expression); bool minus = false; result = null; try { // ooa.g:815:2: (aval= 'qval' T_LPAREN ( T_NIL | (expr= qualifiedIdentifier | ( '-' )? T_INFTY ) ( T_RANGETO (expr2= qualifiedIdentifier | T_INFTY ) )? ) T_COMMA ( T_NIL | ( 'steady' | 'inc' | 'dec' ) ) T_RPAREN ) // ooa.g:816:3: aval= 'qval' T_LPAREN ( T_NIL | (expr= qualifiedIdentifier | ( '-' )? T_INFTY ) ( T_RANGETO (expr2= qualifiedIdentifier | T_INFTY ) )? ) T_COMMA ( T_NIL | ( 'steady' | 'inc' | 'dec' ) ) T_RPAREN { aval=(IToken)Match(input,122,FOLLOW_122_in_qvalExpression3945); Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_qvalExpression3947); result = createQualitativeValue(aval); // ooa.g:818:3: ( T_NIL | (expr= qualifiedIdentifier | ( '-' )? T_INFTY ) ( T_RANGETO (expr2= qualifiedIdentifier | T_INFTY ) )? ) int alt96 = 2; int LA96_0 = input.LA(1); if ( (LA96_0 == T_NIL) ) { alt96 = 1; } else if ( (LA96_0 == T_IDENTIFIER || (LA96_0 >= T_MINUS && LA96_0 <= T_INFTY) || LA96_0 == T_SELF) ) { alt96 = 2; } else { NoViableAltException nvae_d96s0 = new NoViableAltException("", 96, 0, input); throw nvae_d96s0; } switch (alt96) { case 1 : // ooa.g:819:4: T_NIL { Match(input,T_NIL,FOLLOW_T_NIL_in_qvalExpression3961); setQualitativeValueDontCare(result); } break; case 2 : // ooa.g:822:4: (expr= qualifiedIdentifier | ( '-' )? T_INFTY ) ( T_RANGETO (expr2= qualifiedIdentifier | T_INFTY ) )? { // ooa.g:822:4: (expr= qualifiedIdentifier | ( '-' )? T_INFTY ) int alt93 = 2; int LA93_0 = input.LA(1); if ( (LA93_0 == T_IDENTIFIER || LA93_0 == T_SELF) ) { alt93 = 1; } else if ( ((LA93_0 >= T_MINUS && LA93_0 <= T_INFTY)) ) { alt93 = 2; } else { NoViableAltException nvae_d93s0 = new NoViableAltException("", 93, 0, input); throw nvae_d93s0; } switch (alt93) { case 1 : // ooa.g:822:6: expr= qualifiedIdentifier { PushFollow(FOLLOW_qualifiedIdentifier_in_qvalExpression3982); expr = qualifiedIdentifier(); state.followingStackPointer--; setQualitativeValueLandmark(result,expr); } break; case 2 : // ooa.g:825:5: ( '-' )? T_INFTY { // ooa.g:825:5: ( '-' )? int alt92 = 2; int LA92_0 = input.LA(1); if ( (LA92_0 == T_MINUS) ) { alt92 = 1; } switch (alt92) { case 1 : // ooa.g:825:6: '-' { Match(input,T_MINUS,FOLLOW_T_MINUS_in_qvalExpression4001); minus = true; } break; } Match(input,T_INFTY,FOLLOW_T_INFTY_in_qvalExpression4007); setQualitativeValueInfinity(result,minus); } break; } // ooa.g:828:4: ( T_RANGETO (expr2= qualifiedIdentifier | T_INFTY ) )? int alt95 = 2; int LA95_0 = input.LA(1); if ( (LA95_0 == T_RANGETO) ) { alt95 = 1; } switch (alt95) { case 1 : // ooa.g:828:5: T_RANGETO (expr2= qualifiedIdentifier | T_INFTY ) { Match(input,T_RANGETO,FOLLOW_T_RANGETO_in_qvalExpression4025); // ooa.g:829:4: (expr2= qualifiedIdentifier | T_INFTY ) int alt94 = 2; int LA94_0 = input.LA(1); if ( (LA94_0 == T_IDENTIFIER || LA94_0 == T_SELF) ) { alt94 = 1; } else if ( (LA94_0 == T_INFTY) ) { alt94 = 2; } else { NoViableAltException nvae_d94s0 = new NoViableAltException("", 94, 0, input); throw nvae_d94s0; } switch (alt94) { case 1 : // ooa.g:829:6: expr2= qualifiedIdentifier { PushFollow(FOLLOW_qualifiedIdentifier_in_qvalExpression4035); expr2 = qualifiedIdentifier(); state.followingStackPointer--; setQualitativeValueRange(result,expr2); } break; case 2 : // ooa.g:832:5: T_INFTY { Match(input,T_INFTY,FOLLOW_T_INFTY_in_qvalExpression4053); setQualitativeValueRangeInfinity(result,false); } break; } } break; } } break; } Match(input,T_COMMA,FOLLOW_T_COMMA_in_qvalExpression4077); // ooa.g:837:3: ( T_NIL | ( 'steady' | 'inc' | 'dec' ) ) int alt98 = 2; int LA98_0 = input.LA(1); if ( (LA98_0 == T_NIL) ) { alt98 = 1; } else if ( ((LA98_0 >= 123 && LA98_0 <= 125)) ) { alt98 = 2; } else { NoViableAltException nvae_d98s0 = new NoViableAltException("", 98, 0, input); throw nvae_d98s0; } switch (alt98) { case 1 : // ooa.g:838:4: T_NIL { Match(input,T_NIL,FOLLOW_T_NIL_in_qvalExpression4087); setQualitativeDerivDontCare(result); } break; case 2 : // ooa.g:841:4: ( 'steady' | 'inc' | 'dec' ) { // ooa.g:841:4: ( 'steady' | 'inc' | 'dec' ) int alt97 = 3; switch ( input.LA(1) ) { case 123: { alt97 = 1; } break; case 124: { alt97 = 2; } break; case 125: { alt97 = 3; } break; default: NoViableAltException nvae_d97s0 = new NoViableAltException("", 97, 0, input); throw nvae_d97s0; } switch (alt97) { case 1 : // ooa.g:841:6: 'steady' { Match(input,123,FOLLOW_123_in_qvalExpression4103); setQualitativeDerivSteady(result); } break; case 2 : // ooa.g:843:6: 'inc' { Match(input,124,FOLLOW_124_in_qvalExpression4116); setQualitativeDerivInc(result); } break; case 3 : // ooa.g:845:6: 'dec' { Match(input,125,FOLLOW_125_in_qvalExpression4129); setQualitativeDerivDec(result); } break; } } break; } Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_qvalExpression4151); } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "qvalExpression" // $ANTLR start "identifierExpression" // ooa.g:853:1: identifierExpression returns [Expression result] : ({...}?aName= T_IDENTIFIER T_LPAREN m_params= methodCallParams T_RPAREN | res= reference ); public Expression identifierExpression() // throws RecognitionException [1] { Expression result = default(Expression); IToken aName = null; System.Collections.Generic.List m_params = default(System.Collections.Generic.List); Expression res = default(Expression); try { // ooa.g:855:2: ({...}?aName= T_IDENTIFIER T_LPAREN m_params= methodCallParams T_RPAREN | res= reference ) int alt99 = 2; alt99 = dfa99.Predict(input); switch (alt99) { case 1 : // ooa.g:856:3: {...}?aName= T_IDENTIFIER T_LPAREN m_params= methodCallParams T_RPAREN { if ( !((isTuple(input.LT(1).Text))) ) { throw new FailedPredicateException(input, "identifierExpression", "isTuple(input.LT(1).Text)"); } aName=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_identifierExpression4184); Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_identifierExpression4186); PushFollow(FOLLOW_methodCallParams_in_identifierExpression4190); m_params = methodCallParams(); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_identifierExpression4192); result = createInitializedTuple(aName,m_params); } break; case 2 : // ooa.g:860:3: res= reference { PushFollow(FOLLOW_reference_in_identifierExpression4207); res = reference(); state.followingStackPointer--; result = res; } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "identifierExpression" // $ANTLR start "reference" // ooa.g:865:1: reference returns [Expression result] : {...}?aName= qualifiedIdentifier (output= accessExpression[result] | ) (pr= T_PRIMED | ( '::' T_LPAREN init= expression T_RPAREN )? afold= ( T_FOLDLR | T_FOLDRL ) T_LPAREN anexpr= expression T_RPAREN )? ; public Expression reference() // throws RecognitionException [1] { Expression result = default(Expression); IToken pr = null; IToken afold = null; Expression aName = default(Expression); Expression output = default(Expression); Expression init = default(Expression); Expression anexpr = default(Expression); result = null; init = null; try { // ooa.g:871:2: ({...}?aName= qualifiedIdentifier (output= accessExpression[result] | ) (pr= T_PRIMED | ( '::' T_LPAREN init= expression T_RPAREN )? afold= ( T_FOLDLR | T_FOLDRL ) T_LPAREN anexpr= expression T_RPAREN )? ) // ooa.g:871:4: {...}?aName= qualifiedIdentifier (output= accessExpression[result] | ) (pr= T_PRIMED | ( '::' T_LPAREN init= expression T_RPAREN )? afold= ( T_FOLDLR | T_FOLDRL ) T_LPAREN anexpr= expression T_RPAREN )? { if ( !((!isTuple(input.LT(1).Text))) ) { throw new FailedPredicateException(input, "reference", "!isTuple(input.LT(1).Text)"); } PushFollow(FOLLOW_qualifiedIdentifier_in_reference4245); aName = qualifiedIdentifier(); state.followingStackPointer--; result = aName; // ooa.g:873:3: (output= accessExpression[result] | ) int alt100 = 2; alt100 = dfa100.Predict(input); switch (alt100) { case 1 : // ooa.g:873:5: output= accessExpression[result] { PushFollow(FOLLOW_accessExpression_in_reference4257); output = accessExpression(result); state.followingStackPointer--; result = output; } break; case 2 : // ooa.g:876:3: { } break; } // ooa.g:877:3: (pr= T_PRIMED | ( '::' T_LPAREN init= expression T_RPAREN )? afold= ( T_FOLDLR | T_FOLDRL ) T_LPAREN anexpr= expression T_RPAREN )? int alt102 = 3; alt102 = dfa102.Predict(input); switch (alt102) { case 1 : // ooa.g:877:6: pr= T_PRIMED { pr=(IToken)Match(input,T_PRIMED,FOLLOW_T_PRIMED_in_reference4282); setIdentifierExpressionPrimed(ref result,pr); } break; case 2 : // ooa.g:879:5: ( '::' T_LPAREN init= expression T_RPAREN )? afold= ( T_FOLDLR | T_FOLDRL ) T_LPAREN anexpr= expression T_RPAREN { // ooa.g:879:5: ( '::' T_LPAREN init= expression T_RPAREN )? int alt101 = 2; int LA101_0 = input.LA(1); if ( (LA101_0 == 126) ) { alt101 = 1; } switch (alt101) { case 1 : // ooa.g:879:6: '::' T_LPAREN init= expression T_RPAREN { Match(input,126,FOLLOW_126_in_reference4298); Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_reference4300); PushFollow(FOLLOW_expression_in_reference4304); init = expression(); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_reference4306); } break; } afold = (IToken)input.LT(1); if ( (input.LA(1) >= T_FOLDLR && input.LA(1) <= T_FOLDRL) ) { input.Consume(); state.errorRecovery = false; } else { MismatchedSetException mse = new MismatchedSetException(null,input); throw mse; } Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_reference4318); PushFollow(FOLLOW_expression_in_reference4322); anexpr = expression(); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_reference4324); result = createFoldExpression(result,afold,init,anexpr); } break; } } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "reference" // $ANTLR start "accessExpression" // ooa.g:884:1: accessExpression[Expression subexpr] returns [Expression result] : (tcall= T_LSQPAREN ac= expression T_RSQPAREN | bcall= T_LPAREN m_params= methodCallParams T_RPAREN )+ ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[result] )? )? ; public Expression accessExpression(Expression subexpr) // throws RecognitionException [1] { Expression result = default(Expression); IToken tcall = null; IToken bcall = null; IToken idn = null; Expression ac = default(Expression); System.Collections.Generic.List m_params = default(System.Collections.Generic.List); Expression res = default(Expression); UnaryOperator newExpr = null; result = subexpr; try { // ooa.g:890:2: ( (tcall= T_LSQPAREN ac= expression T_RSQPAREN | bcall= T_LPAREN m_params= methodCallParams T_RPAREN )+ ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[result] )? )? ) // ooa.g:891:7: (tcall= T_LSQPAREN ac= expression T_RSQPAREN | bcall= T_LPAREN m_params= methodCallParams T_RPAREN )+ ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[result] )? )? { // ooa.g:891:7: (tcall= T_LSQPAREN ac= expression T_RSQPAREN | bcall= T_LPAREN m_params= methodCallParams T_RPAREN )+ int cnt103 = 0; do { int alt103 = 3; alt103 = dfa103.Predict(input); switch (alt103) { case 1 : // ooa.g:891:9: tcall= T_LSQPAREN ac= expression T_RSQPAREN { tcall=(IToken)Match(input,T_LSQPAREN,FOLLOW_T_LSQPAREN_in_accessExpression4369); PushFollow(FOLLOW_expression_in_accessExpression4373); ac = expression(); state.followingStackPointer--; Match(input,T_RSQPAREN,FOLLOW_T_RSQPAREN_in_accessExpression4375); result = createTupleMapAccessExpression(result,ac,tcall); } break; case 2 : // ooa.g:893:10: bcall= T_LPAREN m_params= methodCallParams T_RPAREN { bcall=(IToken)Match(input,T_LPAREN,FOLLOW_T_LPAREN_in_accessExpression4402); PushFollow(FOLLOW_methodCallParams_in_accessExpression4406); m_params = methodCallParams(); state.followingStackPointer--; Match(input,T_RPAREN,FOLLOW_T_RPAREN_in_accessExpression4408); result = createMethodAccessExpression(result,m_params,bcall); } break; default: if ( cnt103 >= 1 ) goto loop103; EarlyExitException eee103 = new EarlyExitException(103, input); throw eee103; } cnt103++; } while (true); loop103: ; // Stops C# compiler whining that label 'loop103' has no statements // ooa.g:896:3: ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[result] )? )? int alt106 = 2; alt106 = dfa106.Predict(input); switch (alt106) { case 1 : // ooa.g:897:4: ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[result] )? { // ooa.g:897:4: ( T_POINT idn= T_IDENTIFIER )+ int cnt104 = 0; do { int alt104 = 2; alt104 = dfa104.Predict(input); switch (alt104) { case 1 : // ooa.g:897:5: T_POINT idn= T_IDENTIFIER { Match(input,T_POINT,FOLLOW_T_POINT_in_accessExpression4430); idn=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_accessExpression4438); result = addIdentifierAccessExpression(result,idn); } break; default: if ( cnt104 >= 1 ) goto loop104; EarlyExitException eee104 = new EarlyExitException(104, input); throw eee104; } cnt104++; } while (true); loop104: ; // Stops C# compiler whining that label 'loop104' has no statements // ooa.g:900:4: (res= accessExpression[result] )? int alt105 = 2; alt105 = dfa105.Predict(input); switch (alt105) { case 1 : // ooa.g:900:5: res= accessExpression[result] { PushFollow(FOLLOW_accessExpression_in_accessExpression4454); res = accessExpression(result); state.followingStackPointer--; result=res; } break; } } break; } } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "accessExpression" // $ANTLR start "qualifiedIdentifier" // ooa.g:904:1: qualifiedIdentifier returns [Expression top] : (self= T_SELF T_POINT )? idb= T_IDENTIFIER ( T_POINT idd= T_IDENTIFIER )* ; public Expression qualifiedIdentifier() // throws RecognitionException [1] { Expression top = default(Expression); IToken self = null; IToken idb = null; IToken idd = null; IdentifierExpression selfexpr = null; top = null; try { // ooa.g:910:2: ( (self= T_SELF T_POINT )? idb= T_IDENTIFIER ( T_POINT idd= T_IDENTIFIER )* ) // ooa.g:911:3: (self= T_SELF T_POINT )? idb= T_IDENTIFIER ( T_POINT idd= T_IDENTIFIER )* { // ooa.g:911:3: (self= T_SELF T_POINT )? int alt107 = 2; int LA107_0 = input.LA(1); if ( (LA107_0 == T_SELF) ) { alt107 = 1; } switch (alt107) { case 1 : // ooa.g:911:4: self= T_SELF T_POINT { self=(IToken)Match(input,T_SELF,FOLLOW_T_SELF_in_qualifiedIdentifier4493); Match(input,T_POINT,FOLLOW_T_POINT_in_qualifiedIdentifier4495); selfexpr = createSelfIdentifierExpression(self); } break; } idb=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_qualifiedIdentifier4507); top = createIdentifierAccessExpression(selfexpr,idb); // ooa.g:913:3: ( T_POINT idd= T_IDENTIFIER )* do { int alt108 = 2; alt108 = dfa108.Predict(input); switch (alt108) { case 1 : // ooa.g:913:4: T_POINT idd= T_IDENTIFIER { Match(input,T_POINT,FOLLOW_T_POINT_in_qualifiedIdentifier4516); idd=(IToken)Match(input,T_IDENTIFIER,FOLLOW_T_IDENTIFIER_in_qualifiedIdentifier4520); top = addIdentifierAccessExpression(top,idd); } break; default: goto loop108; } } while (true); loop108: ; // Stops C# compiler whining that label 'loop108' has no statements } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return top; } // $ANTLR end "qualifiedIdentifier" // $ANTLR start "methodCallParams" // ooa.g:917:1: methodCallParams returns [System.Collections.Generic.List result] : (expa= expression ( T_COMMA expb= expression )* )? ; public System.Collections.Generic.List methodCallParams() // throws RecognitionException [1] { System.Collections.Generic.List result = default(System.Collections.Generic.List); Expression expa = default(Expression); Expression expb = default(Expression); result = new System.Collections.Generic.List(); try { // ooa.g:922:2: ( (expa= expression ( T_COMMA expb= expression )* )? ) // ooa.g:922:4: (expa= expression ( T_COMMA expb= expression )* )? { // ooa.g:922:4: (expa= expression ( T_COMMA expb= expression )* )? int alt110 = 2; alt110 = dfa110.Predict(input); switch (alt110) { case 1 : // ooa.g:922:5: expa= expression ( T_COMMA expb= expression )* { PushFollow(FOLLOW_expression_in_methodCallParams4553); expa = expression(); state.followingStackPointer--; result.Add(expa); // ooa.g:922:41: ( T_COMMA expb= expression )* do { int alt109 = 2; int LA109_0 = input.LA(1); if ( (LA109_0 == T_COMMA) ) { alt109 = 1; } switch (alt109) { case 1 : // ooa.g:922:42: T_COMMA expb= expression { Match(input,T_COMMA,FOLLOW_T_COMMA_in_methodCallParams4558); PushFollow(FOLLOW_expression_in_methodCallParams4562); expb = expression(); state.followingStackPointer--; result.Add(expb); } break; default: goto loop109; } } while (true); loop109: ; // Stops C# compiler whining that label 'loop109' has no statements } break; } } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return result; } // $ANTLR end "methodCallParams" // $ANTLR start "op_un" // ooa.g:932:1: op_un returns [UnaryOperator expr] : (r= op_un_set_list | r2= op_un_map | T_MINUS | T_NOT | T_ABS ); public UnaryOperator op_un() // throws RecognitionException [1] { UnaryOperator expr = default(UnaryOperator); UnaryOperator r = default(UnaryOperator); UnaryOperator r2 = default(UnaryOperator); expr = null; try { // ooa.g:937:2: (r= op_un_set_list | r2= op_un_map | T_MINUS | T_NOT | T_ABS ) int alt111 = 5; alt111 = dfa111.Predict(input); switch (alt111) { case 1 : // ooa.g:937:4: r= op_un_set_list { PushFollow(FOLLOW_op_un_set_list_in_op_un4601); r = op_un_set_list(); state.followingStackPointer--; expr = r; } break; case 2 : // ooa.g:938:4: r2= op_un_map { PushFollow(FOLLOW_op_un_map_in_op_un4610); r2 = op_un_map(); state.followingStackPointer--; expr = r2; } break; case 3 : // ooa.g:939:4: T_MINUS { Match(input,T_MINUS,FOLLOW_T_MINUS_in_op_un4618); expr = createUnaryOperator(ExpressionKind.unminus); } break; case 4 : // ooa.g:940:4: T_NOT { Match(input,T_NOT,FOLLOW_T_NOT_in_op_un4626); expr = createUnaryOperator(ExpressionKind.not); } break; case 5 : // ooa.g:941:4: T_ABS { Match(input,T_ABS,FOLLOW_T_ABS_in_op_un4634); expr = createUnaryOperator(ExpressionKind.abs); } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return expr; } // $ANTLR end "op_un" // $ANTLR start "op_un_set_list" // ooa.g:945:1: op_un_set_list returns [UnaryOperator expr] : ( T_CARD | T_DCONC | T_DINTER | T_DUNION | T_ELEMS | T_HEAD | T_INDS | T_LEN | T_TAIL ); public UnaryOperator op_un_set_list() // throws RecognitionException [1] { UnaryOperator expr = default(UnaryOperator); expr = null; try { // ooa.g:950:2: ( T_CARD | T_DCONC | T_DINTER | T_DUNION | T_ELEMS | T_HEAD | T_INDS | T_LEN | T_TAIL ) int alt112 = 9; alt112 = dfa112.Predict(input); switch (alt112) { case 1 : // ooa.g:950:4: T_CARD { Match(input,T_CARD,FOLLOW_T_CARD_in_op_un_set_list4661); expr = createUnaryOperator(ExpressionKind.card); } break; case 2 : // ooa.g:952:4: T_DCONC { Match(input,T_DCONC,FOLLOW_T_DCONC_in_op_un_set_list4672); expr = createUnaryOperator(ExpressionKind.dconc); } break; case 3 : // ooa.g:954:4: T_DINTER { Match(input,T_DINTER,FOLLOW_T_DINTER_in_op_un_set_list4683); expr = createUnaryOperator(ExpressionKind.dinter); } break; case 4 : // ooa.g:956:4: T_DUNION { Match(input,T_DUNION,FOLLOW_T_DUNION_in_op_un_set_list4693); expr = createUnaryOperator(ExpressionKind.dunion); } break; case 5 : // ooa.g:958:4: T_ELEMS { Match(input,T_ELEMS,FOLLOW_T_ELEMS_in_op_un_set_list4703); expr = createUnaryOperator(ExpressionKind.elems); } break; case 6 : // ooa.g:960:4: T_HEAD { Match(input,T_HEAD,FOLLOW_T_HEAD_in_op_un_set_list4714); expr = createUnaryOperator(ExpressionKind.head); } break; case 7 : // ooa.g:962:4: T_INDS { Match(input,T_INDS,FOLLOW_T_INDS_in_op_un_set_list4725); expr = createUnaryOperator(ExpressionKind.inds); } break; case 8 : // ooa.g:964:4: T_LEN { Match(input,T_LEN,FOLLOW_T_LEN_in_op_un_set_list4736); expr = createUnaryOperator(ExpressionKind.len); } break; case 9 : // ooa.g:966:4: T_TAIL { Match(input,T_TAIL,FOLLOW_T_TAIL_in_op_un_set_list4747); expr = createUnaryOperator(ExpressionKind.tail); } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return expr; } // $ANTLR end "op_un_set_list" // $ANTLR start "op_un_map" // ooa.g:971:1: op_un_map returns [UnaryOperator expr] : ( T_DOM | T_RNG | T_MERGE ); public UnaryOperator op_un_map() // throws RecognitionException [1] { UnaryOperator expr = default(UnaryOperator); expr = null; try { // ooa.g:976:2: ( T_DOM | T_RNG | T_MERGE ) int alt113 = 3; switch ( input.LA(1) ) { case T_DOM: { alt113 = 1; } break; case T_RNG: { alt113 = 2; } break; case T_MERGE: { alt113 = 3; } break; default: NoViableAltException nvae_d113s0 = new NoViableAltException("", 113, 0, input); throw nvae_d113s0; } switch (alt113) { case 1 : // ooa.g:976:4: T_DOM { Match(input,T_DOM,FOLLOW_T_DOM_in_op_un_map4776); expr = createUnaryOperator(ExpressionKind.dom); } break; case 2 : // ooa.g:978:4: T_RNG { Match(input,T_RNG,FOLLOW_T_RNG_in_op_un_map4787); expr = createUnaryOperator(ExpressionKind.range); } break; case 3 : // ooa.g:980:4: T_MERGE { Match(input,T_MERGE,FOLLOW_T_MERGE_in_op_un_map4798); expr = createUnaryOperator(ExpressionKind.merge); } break; } } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return expr; } // $ANTLR end "op_un_map" // Delegated rules protected DFA4 dfa4; protected DFA14 dfa14; protected DFA67 dfa67; protected DFA70 dfa70; protected DFA68 dfa68; protected DFA69 dfa69; protected DFA77 dfa77; protected DFA71 dfa71; protected DFA75 dfa75; protected DFA74 dfa74; protected DFA72 dfa72; protected DFA73 dfa73; protected DFA76 dfa76; protected DFA86 dfa86; protected DFA99 dfa99; protected DFA100 dfa100; protected DFA102 dfa102; protected DFA103 dfa103; protected DFA106 dfa106; protected DFA104 dfa104; protected DFA105 dfa105; protected DFA108 dfa108; protected DFA110 dfa110; protected DFA111 dfa111; protected DFA112 dfa112; private void InitializeCyclicDFAs() { this.dfa4 = new DFA4(this); this.dfa14 = new DFA14(this); this.dfa67 = new DFA67(this); this.dfa70 = new DFA70(this); this.dfa68 = new DFA68(this); this.dfa69 = new DFA69(this); this.dfa77 = new DFA77(this); this.dfa71 = new DFA71(this); this.dfa75 = new DFA75(this); this.dfa74 = new DFA74(this); this.dfa72 = new DFA72(this); this.dfa73 = new DFA73(this); this.dfa76 = new DFA76(this); this.dfa86 = new DFA86(this); this.dfa99 = new DFA99(this); this.dfa100 = new DFA100(this); this.dfa102 = new DFA102(this); this.dfa103 = new DFA103(this); this.dfa106 = new DFA106(this); this.dfa104 = new DFA104(this); this.dfa105 = new DFA105(this); this.dfa108 = new DFA108(this); this.dfa110 = new DFA110(this); this.dfa111 = new DFA111(this); this.dfa112 = new DFA112(this); this.dfa99.specialStateTransitionHandler = new DFA.SpecialStateTransitionHandler(DFA99_SpecialStateTransition); } const string DFA4_eotS = "\x0e\uffff"; const string DFA4_eofS = "\x0e\uffff"; const string DFA4_minS = "\x01\x06\x0d\uffff"; const string DFA4_maxS = "\x01\x21\x0d\uffff"; const string DFA4_acceptS = "\x01\uffff\x01\x01\x0a\uffff\x01\x02\x01\uffff"; const string DFA4_specialS = "\x0e\uffff}>"; static readonly string[] DFA4_transitionS = { "\x01\x0c\x01\uffff\x01\x01\x03\uffff\x01\x01\x01\uffff\x02"+ "\x01\x04\uffff\x01\x01\x01\uffff\x01\x01\x02\uffff\x02\x01\x01"+ "\uffff\x01\x01\x01\uffff\x02\x01\x01\uffff\x01\x0c", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA4_eot = DFA.UnpackEncodedString(DFA4_eotS); static readonly short[] DFA4_eof = DFA.UnpackEncodedString(DFA4_eofS); static readonly char[] DFA4_min = DFA.UnpackEncodedStringToUnsignedChars(DFA4_minS); static readonly char[] DFA4_max = DFA.UnpackEncodedStringToUnsignedChars(DFA4_maxS); static readonly short[] DFA4_accept = DFA.UnpackEncodedString(DFA4_acceptS); static readonly short[] DFA4_special = DFA.UnpackEncodedString(DFA4_specialS); static readonly short[][] DFA4_transition = DFA.UnpackEncodedStringArray(DFA4_transitionS); protected class DFA4 : DFA { public DFA4(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 4; this.eot = DFA4_eot; this.eof = DFA4_eof; this.min = DFA4_min; this.max = DFA4_max; this.accept = DFA4_accept; this.special = DFA4_special; this.transition = DFA4_transition; } override public string Description { get { return "177:3: (aType= complexType | anOoaType= ooActionSystem )"; } } } const string DFA14_eotS = "\x0c\uffff"; const string DFA14_eofS = "\x0c\uffff"; const string DFA14_minS = "\x01\x08\x0b\uffff"; const string DFA14_maxS = "\x01\x1f\x0b\uffff"; const string DFA14_acceptS = "\x01\uffff\x01\x01\x01\x02\x01\x03\x01\x04\x01\x05\x01\x06\x05"+ "\uffff"; const string DFA14_specialS = "\x0c\uffff}>"; static readonly string[] DFA14_transitionS = { "\x01\x06\x03\uffff\x01\x05\x01\uffff\x01\x01\x01\x02\x04\uffff"+ "\x01\x03\x01\uffff\x01\x04\x02\uffff\x02\x06\x01\uffff\x01\x06"+ "\x01\uffff\x02\x06", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA14_eot = DFA.UnpackEncodedString(DFA14_eotS); static readonly short[] DFA14_eof = DFA.UnpackEncodedString(DFA14_eofS); static readonly char[] DFA14_min = DFA.UnpackEncodedStringToUnsignedChars(DFA14_minS); static readonly char[] DFA14_max = DFA.UnpackEncodedStringToUnsignedChars(DFA14_maxS); static readonly short[] DFA14_accept = DFA.UnpackEncodedString(DFA14_acceptS); static readonly short[] DFA14_special = DFA.UnpackEncodedString(DFA14_specialS); static readonly short[][] DFA14_transition = DFA.UnpackEncodedStringArray(DFA14_transitionS); protected class DFA14 : DFA { public DFA14(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 14; this.eot = DFA14_eot; this.eof = DFA14_eof; this.min = DFA14_min; this.max = DFA14_max; this.accept = DFA14_accept; this.special = DFA14_special; this.transition = DFA14_transition; } override public string Description { get { return "211:1: complexType returns [UlyssesType aTypeSymbol] : ( T_LIST T_LSQPAREN numOfElements= ( T_INTNUMBER | T_IDENTIFIER ) T_RSQPAREN T_OF innertype= complexType | T_LSQPAREN alistelem= T_IDENTIFIER ( T_COMMA otherlistelem= T_IDENTIFIER )* T_RSQPAREN | T_MAP ( T_LSQPAREN numOfElements= ( T_INTNUMBER | T_IDENTIFIER ) T_RSQPAREN )? mapfromtype= simpleType T_TO maptotype= complexType | T_QUANTITY T_OF T_LSQPAREN (alandmark= T_IDENTIFIER | alandmark= T_MINUS T_INFTY ) ( T_COMMA (otherlandmark= T_IDENTIFIER | otherlandmark= T_INFTY ) )* T_RSQPAREN | T_LPAREN aType= complexType ( T_COMMA anotherType= complexType )* T_RPAREN | r= simpleType );"; } } } const string DFA67_eotS = "\x32\uffff"; const string DFA67_eofS = "\x32\uffff"; const string DFA67_minS = "\x01\x05\x31\uffff"; const string DFA67_maxS = "\x01\x76\x31\uffff"; const string DFA67_acceptS = "\x01\uffff\x01\x02\x12\uffff\x01\x01\x1d\uffff"; const string DFA67_specialS = "\x32\uffff}>"; static readonly string[] DFA67_transitionS = { "\x01\x01\x01\uffff\x01\x01\x01\uffff\x01\x14\x02\x01\x01\uffff"+ "\x01\x01\x03\uffff\x01\x01\x01\uffff\x01\x01\x03\uffff\x01\x14"+ "\x08\uffff\x01\x01\x02\uffff\x03\x01\x04\uffff\x02\x01\x03\uffff"+ "\x03\x14\x07\uffff\x01\x01\x08\x14\x01\uffff\x11\x14\x02\uffff"+ "\x02\x01\x07\uffff\x02\x01\x15\uffff\x01\x01", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA67_eot = DFA.UnpackEncodedString(DFA67_eotS); static readonly short[] DFA67_eof = DFA.UnpackEncodedString(DFA67_eofS); static readonly char[] DFA67_min = DFA.UnpackEncodedStringToUnsignedChars(DFA67_minS); static readonly char[] DFA67_max = DFA.UnpackEncodedStringToUnsignedChars(DFA67_maxS); static readonly short[] DFA67_accept = DFA.UnpackEncodedString(DFA67_acceptS); static readonly short[] DFA67_special = DFA.UnpackEncodedString(DFA67_specialS); static readonly short[][] DFA67_transition = DFA.UnpackEncodedStringArray(DFA67_transitionS); protected class DFA67 : DFA { public DFA67(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 67; this.eot = DFA67_eot; this.eof = DFA67_eof; this.min = DFA67_min; this.max = DFA67_max; this.accept = DFA67_accept; this.special = DFA67_special; this.transition = DFA67_transition; } override public string Description { get { return "()* loopback of 585:3: (op= binoperator right= atomExpression )*"; } } } const string DFA70_eotS = "\x1f\uffff"; const string DFA70_eofS = "\x1f\uffff"; const string DFA70_minS = "\x01\x09\x1e\uffff"; const string DFA70_maxS = "\x01\x53\x1e\uffff"; const string DFA70_acceptS = "\x01\uffff\x01\x01\x01\x02\x01\x03\x01\x04\x01\x05\x01\x06\x01"+ "\x07\x01\x08\x01\x09\x01\x0a\x01\x0b\x01\x0c\x01\x0d\x01\x0e\x01"+ "\x0f\x01\x10\x01\x11\x01\x12\x01\x13\x01\x14\x01\x15\x01\x16\x01"+ "\x17\x01\x18\x01\x19\x01\x1a\x01\x1b\x01\x1c\x01\x1d\x01\x1e"; const string DFA70_specialS = "\x1f\uffff}>"; static readonly string[] DFA70_transitionS = { "\x01\x06\x0d\uffff\x01\x09\x17\uffff\x01\x0a\x01\x14\x01\x10"+ "\x08\uffff\x01\x01\x01\x02\x01\x03\x01\x04\x01\x05\x01\x07\x01"+ "\x08\x01\x0b\x01\uffff\x01\x0c\x01\x0d\x01\x0e\x01\x0f\x01\x11"+ "\x01\x12\x01\x13\x01\x15\x01\x16\x01\x17\x01\x18\x01\x19\x01"+ "\x1a\x01\x1b\x01\x1c\x01\x1d\x01\x1e", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA70_eot = DFA.UnpackEncodedString(DFA70_eotS); static readonly short[] DFA70_eof = DFA.UnpackEncodedString(DFA70_eofS); static readonly char[] DFA70_min = DFA.UnpackEncodedStringToUnsignedChars(DFA70_minS); static readonly char[] DFA70_max = DFA.UnpackEncodedStringToUnsignedChars(DFA70_maxS); static readonly short[] DFA70_accept = DFA.UnpackEncodedString(DFA70_acceptS); static readonly short[] DFA70_special = DFA.UnpackEncodedString(DFA70_specialS); static readonly short[][] DFA70_transition = DFA.UnpackEncodedStringArray(DFA70_transitionS); protected class DFA70 : DFA { public DFA70(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 70; this.eot = DFA70_eot; this.eof = DFA70_eof; this.min = DFA70_min; this.max = DFA70_max; this.accept = DFA70_accept; this.special = DFA70_special; this.transition = DFA70_transition; } override public string Description { get { return "596:1: binoperator returns [BinaryOperator binop] : ( T_BIIMPLIES | T_GREATER | T_GREATEREQUAL | T_LESS | T_LESSEQUAL | T_EQUAL | T_NOTEQUAL | T_IMPLIES | T_MINUS | T_SUM | T_IN ( T_SET )? | T_NOT T_IN ( T_SET )? | T_SUBSET | T_OR | T_DIV | T_PROD | T_IDIV | T_MOD | T_UNION | T_DIFF | T_INTER | T_AND | T_POW | T_CONC | T_DOMRESBY | T_DOMRESTO | T_RNGRESBY | T_RNGRESTO | T_MUNION | T_SEQMOD_MAPOVERRIDE );"; } } } const string DFA68_eotS = "\x20\uffff"; const string DFA68_eofS = "\x20\uffff"; const string DFA68_minS = "\x01\x08\x1f\uffff"; const string DFA68_maxS = "\x01\x7a\x1f\uffff"; const string DFA68_acceptS = "\x01\uffff\x01\x01\x01\x02\x1d\uffff"; const string DFA68_specialS = "\x20\uffff}>"; static readonly string[] DFA68_transitionS = { "\x01\x02\x03\uffff\x01\x02\x02\uffff\x02\x02\x06\uffff\x01"+ "\x02\x05\uffff\x01\x02\x01\uffff\x01\x02\x17\uffff\x01\x02\x0a"+ "\uffff\x01\x01\x01\x02\x11\uffff\x01\x02\x02\uffff\x07\x02\x03"+ "\uffff\x0d\x02\x0b\uffff\x01\x02", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA68_eot = DFA.UnpackEncodedString(DFA68_eotS); static readonly short[] DFA68_eof = DFA.UnpackEncodedString(DFA68_eofS); static readonly char[] DFA68_min = DFA.UnpackEncodedStringToUnsignedChars(DFA68_minS); static readonly char[] DFA68_max = DFA.UnpackEncodedStringToUnsignedChars(DFA68_maxS); static readonly short[] DFA68_accept = DFA.UnpackEncodedString(DFA68_acceptS); static readonly short[] DFA68_special = DFA.UnpackEncodedString(DFA68_specialS); static readonly short[][] DFA68_transition = DFA.UnpackEncodedStringArray(DFA68_transitionS); protected class DFA68 : DFA { public DFA68(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 68; this.eot = DFA68_eot; this.eof = DFA68_eof; this.min = DFA68_min; this.max = DFA68_max; this.accept = DFA68_accept; this.special = DFA68_special; this.transition = DFA68_transition; } override public string Description { get { return "618:9: ( T_SET )?"; } } } const string DFA69_eotS = "\x20\uffff"; const string DFA69_eofS = "\x20\uffff"; const string DFA69_minS = "\x01\x08\x1f\uffff"; const string DFA69_maxS = "\x01\x7a\x1f\uffff"; const string DFA69_acceptS = "\x01\uffff\x01\x01\x01\x02\x1d\uffff"; const string DFA69_specialS = "\x20\uffff}>"; static readonly string[] DFA69_transitionS = { "\x01\x02\x03\uffff\x01\x02\x02\uffff\x02\x02\x06\uffff\x01"+ "\x02\x05\uffff\x01\x02\x01\uffff\x01\x02\x17\uffff\x01\x02\x0a"+ "\uffff\x01\x01\x01\x02\x11\uffff\x01\x02\x02\uffff\x07\x02\x03"+ "\uffff\x0d\x02\x0b\uffff\x01\x02", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA69_eot = DFA.UnpackEncodedString(DFA69_eotS); static readonly short[] DFA69_eof = DFA.UnpackEncodedString(DFA69_eofS); static readonly char[] DFA69_min = DFA.UnpackEncodedStringToUnsignedChars(DFA69_minS); static readonly char[] DFA69_max = DFA.UnpackEncodedStringToUnsignedChars(DFA69_maxS); static readonly short[] DFA69_accept = DFA.UnpackEncodedString(DFA69_acceptS); static readonly short[] DFA69_special = DFA.UnpackEncodedString(DFA69_specialS); static readonly short[][] DFA69_transition = DFA.UnpackEncodedStringArray(DFA69_transitionS); protected class DFA69 : DFA { public DFA69(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 69; this.eot = DFA69_eot; this.eof = DFA69_eof; this.min = DFA69_min; this.max = DFA69_max; this.accept = DFA69_accept; this.special = DFA69_special; this.transition = DFA69_transition; } override public string Description { get { return "620:15: ( T_SET )?"; } } } const string DFA77_eotS = "\x1f\uffff"; const string DFA77_eofS = "\x1f\uffff"; const string DFA77_minS = "\x01\x08\x1e\uffff"; const string DFA77_maxS = "\x01\x7a\x1e\uffff"; const string DFA77_acceptS = "\x01\uffff\x01\x01\x1c\uffff\x01\x02"; const string DFA77_specialS = "\x1f\uffff}>"; static readonly string[] DFA77_transitionS = { "\x01\x01\x03\uffff\x01\x01\x02\uffff\x02\x01\x06\uffff\x01"+ "\x01\x05\uffff\x01\x01\x01\uffff\x01\x01\x17\uffff\x01\x01\x0b"+ "\uffff\x01\x01\x11\uffff\x01\x1e\x02\uffff\x07\x01\x03\uffff"+ "\x0d\x01\x0b\uffff\x01\x01", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA77_eot = DFA.UnpackEncodedString(DFA77_eotS); static readonly short[] DFA77_eof = DFA.UnpackEncodedString(DFA77_eofS); static readonly char[] DFA77_min = DFA.UnpackEncodedStringToUnsignedChars(DFA77_minS); static readonly char[] DFA77_max = DFA.UnpackEncodedStringToUnsignedChars(DFA77_maxS); static readonly short[] DFA77_accept = DFA.UnpackEncodedString(DFA77_acceptS); static readonly short[] DFA77_special = DFA.UnpackEncodedString(DFA77_specialS); static readonly short[][] DFA77_transition = DFA.UnpackEncodedStringArray(DFA77_transitionS); protected class DFA77 : DFA { public DFA77(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 77; this.eot = DFA77_eot; this.eof = DFA77_eof; this.min = DFA77_min; this.max = DFA77_max; this.accept = DFA77_accept; this.special = DFA77_special; this.transition = DFA77_transition; } override public string Description { get { return "662:1: atomExpression returns [Expression expr] : ( ( (unexpr= op_un )? (e= identifierExpression | e= qvalExpression | e= constant | e= initializedComplexType | e= quantifierExpression | T_LPAREN e= expression T_RPAREN ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[e] )? | e= accessExpression[e] )? ) ( 'as' cid= T_IDENTIFIER )? ) | ie= T_IF ce= expression T_THEN te= expression T_ELSE ee= expression T_END );"; } } } const string DFA71_eotS = "\x1e\uffff"; const string DFA71_eofS = "\x1e\uffff"; const string DFA71_minS = "\x01\x08\x1d\uffff"; const string DFA71_maxS = "\x01\x7a\x1d\uffff"; const string DFA71_acceptS = "\x01\uffff\x01\x01\x0e\uffff\x01\x02\x0d\uffff"; const string DFA71_specialS = "\x1e\uffff}>"; static readonly string[] DFA71_transitionS = { "\x01\x10\x03\uffff\x01\x10\x02\uffff\x02\x10\x06\uffff\x01"+ "\x01\x05\uffff\x01\x10\x01\uffff\x01\x10\x17\uffff\x01\x10\x0b"+ "\uffff\x01\x01\x14\uffff\x07\x10\x03\uffff\x0d\x01\x0b\uffff"+ "\x01\x10", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA71_eot = DFA.UnpackEncodedString(DFA71_eotS); static readonly short[] DFA71_eof = DFA.UnpackEncodedString(DFA71_eofS); static readonly char[] DFA71_min = DFA.UnpackEncodedStringToUnsignedChars(DFA71_minS); static readonly char[] DFA71_max = DFA.UnpackEncodedStringToUnsignedChars(DFA71_maxS); static readonly short[] DFA71_accept = DFA.UnpackEncodedString(DFA71_acceptS); static readonly short[] DFA71_special = DFA.UnpackEncodedString(DFA71_specialS); static readonly short[][] DFA71_transition = DFA.UnpackEncodedStringArray(DFA71_transitionS); protected class DFA71 : DFA { public DFA71(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 71; this.eot = DFA71_eot; this.eof = DFA71_eof; this.min = DFA71_min; this.max = DFA71_max; this.accept = DFA71_accept; this.special = DFA71_special; this.transition = DFA71_transition; } override public string Description { get { return "667:11: (unexpr= op_un )?"; } } } const string DFA75_eotS = "\x42\uffff"; const string DFA75_eofS = "\x42\uffff"; const string DFA75_minS = "\x01\x08\x01\uffff\x01\x05\x3f\uffff"; const string DFA75_maxS = "\x01\x7a\x01\uffff\x01\x79\x3f\uffff"; const string DFA75_acceptS = "\x01\uffff\x01\x01\x01\uffff\x01\x02\x01\x03\x05\uffff\x01\x04"+ "\x02\uffff\x01\x05\x01\x06\x33\uffff"; const string DFA75_specialS = "\x42\uffff}>"; static readonly string[] DFA75_transitionS = { "\x01\x01\x03\uffff\x01\x0e\x02\uffff\x01\x0a\x01\x04\x0c\uffff"+ "\x01\x04\x01\uffff\x01\x0a\x17\uffff\x01\x02\x20\uffff\x02\x0d"+ "\x04\x04\x01\x0a\x1b\uffff\x01\x03", "", "\x01\x04\x01\uffff\x01\x04\x01\uffff\x03\x04\x01\uffff\x01"+ "\x04\x03\uffff\x01\x04\x01\uffff\x01\x04\x03\uffff\x01\x04\x08"+ "\uffff\x01\x04\x02\uffff\x03\x04\x04\uffff\x02\x04\x03\uffff"+ "\x03\x04\x07\uffff\x09\x04\x01\uffff\x11\x04\x01\x01\x01\uffff"+ "\x02\x04\x07\uffff\x02\x04\x15\uffff\x01\x04\x02\uffff\x01\x04", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA75_eot = DFA.UnpackEncodedString(DFA75_eotS); static readonly short[] DFA75_eof = DFA.UnpackEncodedString(DFA75_eofS); static readonly char[] DFA75_min = DFA.UnpackEncodedStringToUnsignedChars(DFA75_minS); static readonly char[] DFA75_max = DFA.UnpackEncodedStringToUnsignedChars(DFA75_maxS); static readonly short[] DFA75_accept = DFA.UnpackEncodedString(DFA75_acceptS); static readonly short[] DFA75_special = DFA.UnpackEncodedString(DFA75_specialS); static readonly short[][] DFA75_transition = DFA.UnpackEncodedStringArray(DFA75_transitionS); protected class DFA75 : DFA { public DFA75(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 75; this.eot = DFA75_eot; this.eof = DFA75_eof; this.min = DFA75_min; this.max = DFA75_max; this.accept = DFA75_accept; this.special = DFA75_special; this.transition = DFA75_transition; } override public string Description { get { return "667:19: (e= identifierExpression | e= qvalExpression | e= constant | e= initializedComplexType | e= quantifierExpression | T_LPAREN e= expression T_RPAREN ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[e] )? | e= accessExpression[e] )? )"; } } } const string DFA74_eotS = "\x36\uffff"; const string DFA74_eofS = "\x36\uffff"; const string DFA74_minS = "\x01\x05\x35\uffff"; const string DFA74_maxS = "\x01\x79\x35\uffff"; const string DFA74_acceptS = "\x01\uffff\x01\x01\x01\x02\x01\uffff\x01\x03\x31\uffff"; const string DFA74_specialS = "\x36\uffff}>"; static readonly string[] DFA74_transitionS = { "\x01\x04\x01\uffff\x01\x04\x01\uffff\x03\x04\x01\x02\x01\x04"+ "\x01\uffff\x01\x02\x01\uffff\x01\x04\x01\uffff\x01\x04\x03\uffff"+ "\x01\x04\x08\uffff\x01\x04\x02\uffff\x03\x04\x04\uffff\x02\x04"+ "\x03\uffff\x03\x04\x07\uffff\x09\x04\x01\uffff\x11\x04\x01\x01"+ "\x01\uffff\x02\x04\x07\uffff\x02\x04\x15\uffff\x01\x04\x02\uffff"+ "\x01\x04", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA74_eot = DFA.UnpackEncodedString(DFA74_eotS); static readonly short[] DFA74_eof = DFA.UnpackEncodedString(DFA74_eofS); static readonly char[] DFA74_min = DFA.UnpackEncodedStringToUnsignedChars(DFA74_minS); static readonly char[] DFA74_max = DFA.UnpackEncodedStringToUnsignedChars(DFA74_maxS); static readonly short[] DFA74_accept = DFA.UnpackEncodedString(DFA74_acceptS); static readonly short[] DFA74_special = DFA.UnpackEncodedString(DFA74_specialS); static readonly short[][] DFA74_transition = DFA.UnpackEncodedStringArray(DFA74_transitionS); protected class DFA74 : DFA { public DFA74(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 74; this.eot = DFA74_eot; this.eof = DFA74_eof; this.min = DFA74_min; this.max = DFA74_max; this.accept = DFA74_accept; this.special = DFA74_special; this.transition = DFA74_transition; } override public string Description { get { return "674:8: ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[e] )? | e= accessExpression[e] )?"; } } } const string DFA72_eotS = "\x36\uffff"; const string DFA72_eofS = "\x36\uffff"; const string DFA72_minS = "\x01\x05\x35\uffff"; const string DFA72_maxS = "\x01\x79\x35\uffff"; const string DFA72_acceptS = "\x01\uffff\x01\x02\x33\uffff\x01\x01"; const string DFA72_specialS = "\x36\uffff}>"; static readonly string[] DFA72_transitionS = { "\x01\x01\x01\uffff\x01\x01\x01\uffff\x05\x01\x01\uffff\x01"+ "\x01\x01\uffff\x01\x01\x01\uffff\x01\x01\x03\uffff\x01\x01\x08"+ "\uffff\x01\x01\x02\uffff\x03\x01\x04\uffff\x02\x01\x03\uffff"+ "\x03\x01\x07\uffff\x09\x01\x01\uffff\x11\x01\x01\x35\x01\uffff"+ "\x02\x01\x07\uffff\x02\x01\x15\uffff\x01\x01\x02\uffff\x01\x01", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA72_eot = DFA.UnpackEncodedString(DFA72_eotS); static readonly short[] DFA72_eof = DFA.UnpackEncodedString(DFA72_eofS); static readonly char[] DFA72_min = DFA.UnpackEncodedStringToUnsignedChars(DFA72_minS); static readonly char[] DFA72_max = DFA.UnpackEncodedStringToUnsignedChars(DFA72_maxS); static readonly short[] DFA72_accept = DFA.UnpackEncodedString(DFA72_acceptS); static readonly short[] DFA72_special = DFA.UnpackEncodedString(DFA72_specialS); static readonly short[][] DFA72_transition = DFA.UnpackEncodedStringArray(DFA72_transitionS); protected class DFA72 : DFA { public DFA72(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 72; this.eot = DFA72_eot; this.eof = DFA72_eof; this.min = DFA72_min; this.max = DFA72_max; this.accept = DFA72_accept; this.special = DFA72_special; this.transition = DFA72_transition; } override public string Description { get { return "()+ loopback of 675:6: ( T_POINT idn= T_IDENTIFIER )+"; } } } const string DFA73_eotS = "\x35\uffff"; const string DFA73_eofS = "\x35\uffff"; const string DFA73_minS = "\x01\x05\x34\uffff"; const string DFA73_maxS = "\x01\x79\x34\uffff"; const string DFA73_acceptS = "\x01\uffff\x01\x01\x01\uffff\x01\x02\x31\uffff"; const string DFA73_specialS = "\x35\uffff}>"; static readonly string[] DFA73_transitionS = { "\x01\x03\x01\uffff\x01\x03\x01\uffff\x03\x03\x01\x01\x01\x03"+ "\x01\uffff\x01\x01\x01\uffff\x01\x03\x01\uffff\x01\x03\x03\uffff"+ "\x01\x03\x08\uffff\x01\x03\x02\uffff\x03\x03\x04\uffff\x02\x03"+ "\x03\uffff\x03\x03\x07\uffff\x09\x03\x01\uffff\x11\x03\x02\uffff"+ "\x02\x03\x07\uffff\x02\x03\x15\uffff\x01\x03\x02\uffff\x01\x03", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA73_eot = DFA.UnpackEncodedString(DFA73_eotS); static readonly short[] DFA73_eof = DFA.UnpackEncodedString(DFA73_eofS); static readonly char[] DFA73_min = DFA.UnpackEncodedStringToUnsignedChars(DFA73_minS); static readonly char[] DFA73_max = DFA.UnpackEncodedStringToUnsignedChars(DFA73_maxS); static readonly short[] DFA73_accept = DFA.UnpackEncodedString(DFA73_acceptS); static readonly short[] DFA73_special = DFA.UnpackEncodedString(DFA73_specialS); static readonly short[][] DFA73_transition = DFA.UnpackEncodedStringArray(DFA73_transitionS); protected class DFA73 : DFA { public DFA73(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 73; this.eot = DFA73_eot; this.eof = DFA73_eof; this.min = DFA73_min; this.max = DFA73_max; this.accept = DFA73_accept; this.special = DFA73_special; this.transition = DFA73_transition; } override public string Description { get { return "678:8: (res= accessExpression[e] )?"; } } } const string DFA76_eotS = "\x33\uffff"; const string DFA76_eofS = "\x33\uffff"; const string DFA76_minS = "\x01\x05\x32\uffff"; const string DFA76_maxS = "\x01\x79\x32\uffff"; const string DFA76_acceptS = "\x01\uffff\x01\x01\x01\x02\x30\uffff"; const string DFA76_specialS = "\x33\uffff}>"; static readonly string[] DFA76_transitionS = { "\x01\x02\x01\uffff\x01\x02\x01\uffff\x03\x02\x01\uffff\x01"+ "\x02\x03\uffff\x01\x02\x01\uffff\x01\x02\x03\uffff\x01\x02\x08"+ "\uffff\x01\x02\x02\uffff\x03\x02\x04\uffff\x02\x02\x03\uffff"+ "\x03\x02\x07\uffff\x09\x02\x01\uffff\x11\x02\x02\uffff\x02\x02"+ "\x07\uffff\x02\x02\x15\uffff\x01\x02\x02\uffff\x01\x01", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA76_eot = DFA.UnpackEncodedString(DFA76_eotS); static readonly short[] DFA76_eof = DFA.UnpackEncodedString(DFA76_eofS); static readonly char[] DFA76_min = DFA.UnpackEncodedStringToUnsignedChars(DFA76_minS); static readonly char[] DFA76_max = DFA.UnpackEncodedStringToUnsignedChars(DFA76_maxS); static readonly short[] DFA76_accept = DFA.UnpackEncodedString(DFA76_acceptS); static readonly short[] DFA76_special = DFA.UnpackEncodedString(DFA76_specialS); static readonly short[][] DFA76_transition = DFA.UnpackEncodedStringArray(DFA76_transitionS); protected class DFA76 : DFA { public DFA76(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 76; this.eot = DFA76_eot; this.eof = DFA76_eof; this.min = DFA76_min; this.max = DFA76_max; this.accept = DFA76_accept; this.special = DFA76_special; this.transition = DFA76_transition; } override public string Description { get { return "682:5: ( 'as' cid= T_IDENTIFIER )?"; } } } const string DFA86_eotS = "\x21\uffff"; const string DFA86_eofS = "\x21\uffff"; const string DFA86_minS = "\x01\x1f\x01\x08\x1f\uffff"; const string DFA86_maxS = "\x01\x1f\x01\x7a\x1f\uffff"; const string DFA86_acceptS = "\x02\uffff\x01\x01\x01\x02\x1d\uffff"; const string DFA86_specialS = "\x21\uffff}>"; static readonly string[] DFA86_transitionS = { "\x01\x01", "\x01\x03\x03\uffff\x01\x03\x02\uffff\x02\x03\x06\uffff\x01"+ "\x03\x05\uffff\x01\x03\x01\uffff\x01\x03\x17\uffff\x01\x03\x0b"+ "\uffff\x01\x03\x11\uffff\x01\x03\x02\uffff\x07\x03\x01\uffff"+ "\x01\x02\x01\uffff\x0d\x03\x0b\uffff\x01\x03", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA86_eot = DFA.UnpackEncodedString(DFA86_eotS); static readonly short[] DFA86_eof = DFA.UnpackEncodedString(DFA86_eofS); static readonly char[] DFA86_min = DFA.UnpackEncodedStringToUnsignedChars(DFA86_minS); static readonly char[] DFA86_max = DFA.UnpackEncodedStringToUnsignedChars(DFA86_maxS); static readonly short[] DFA86_accept = DFA.UnpackEncodedString(DFA86_acceptS); static readonly short[] DFA86_special = DFA.UnpackEncodedString(DFA86_specialS); static readonly short[][] DFA86_transition = DFA.UnpackEncodedStringArray(DFA86_transitionS); protected class DFA86 : DFA { public DFA86(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 86; this.eot = DFA86_eot; this.eof = DFA86_eof; this.min = DFA86_min; this.max = DFA86_max; this.accept = DFA86_accept; this.special = DFA86_special; this.transition = DFA86_transition; } override public string Description { get { return "759:1: initializedSetType returns [Expression result] : ( T_CBRL T_MAPS T_CBRR | res= initializedSet );"; } } } const string DFA99_eotS = "\x3c\uffff"; const string DFA99_eofS = "\x3c\uffff"; const string DFA99_minS = "\x01\x08\x01\x05\x01\uffff\x01\x00\x38\uffff"; const string DFA99_maxS = "\x01\x37\x01\x7e\x01\uffff\x01\x00\x38\uffff"; const string DFA99_acceptS = "\x02\uffff\x01\x02\x38\uffff\x01\x01"; const string DFA99_specialS = "\x03\uffff\x01\x00\x38\uffff}>"; static readonly string[] DFA99_transitionS = { "\x01\x01\x2e\uffff\x01\x02", "\x01\x02\x01\uffff\x01\x02\x01\uffff\x03\x02\x01\x03\x01\x02"+ "\x01\uffff\x01\x02\x01\uffff\x01\x02\x01\uffff\x01\x02\x03\uffff"+ "\x01\x02\x08\uffff\x01\x02\x02\uffff\x03\x02\x04\uffff\x02\x02"+ "\x03\uffff\x05\x02\x05\uffff\x09\x02\x01\uffff\x12\x02\x01\uffff"+ "\x02\x02\x07\uffff\x03\x02\x14\uffff\x01\x02\x02\uffff\x01\x02"+ "\x04\uffff\x01\x02", "", "\x01\uffff", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA99_eot = DFA.UnpackEncodedString(DFA99_eotS); static readonly short[] DFA99_eof = DFA.UnpackEncodedString(DFA99_eofS); static readonly char[] DFA99_min = DFA.UnpackEncodedStringToUnsignedChars(DFA99_minS); static readonly char[] DFA99_max = DFA.UnpackEncodedStringToUnsignedChars(DFA99_maxS); static readonly short[] DFA99_accept = DFA.UnpackEncodedString(DFA99_acceptS); static readonly short[] DFA99_special = DFA.UnpackEncodedString(DFA99_specialS); static readonly short[][] DFA99_transition = DFA.UnpackEncodedStringArray(DFA99_transitionS); protected class DFA99 : DFA { public DFA99(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 99; this.eot = DFA99_eot; this.eof = DFA99_eof; this.min = DFA99_min; this.max = DFA99_max; this.accept = DFA99_accept; this.special = DFA99_special; this.transition = DFA99_transition; } override public string Description { get { return "853:1: identifierExpression returns [Expression result] : ({...}?aName= T_IDENTIFIER T_LPAREN m_params= methodCallParams T_RPAREN | res= reference );"; } } } protected internal int DFA99_SpecialStateTransition(DFA dfa, int s, IIntStream _input) //throws NoViableAltException { ITokenStream input = (ITokenStream)_input; int _s = s; switch ( s ) { case 0 : int LA99_3 = input.LA(1); int index99_3 = input.Index(); input.Rewind(); s = -1; if ( ((isTuple(input.LT(1).Text))) ) { s = 59; } else if ( ((!isTuple(input.LT(1).Text))) ) { s = 2; } input.Seek(index99_3); if ( s >= 0 ) return s; break; } NoViableAltException nvae99 = new NoViableAltException(dfa.Description, 99, _s, input); dfa.Error(nvae99); throw nvae99; } const string DFA100_eotS = "\x39\uffff"; const string DFA100_eofS = "\x39\uffff"; const string DFA100_minS = "\x01\x05\x38\uffff"; const string DFA100_maxS = "\x01\x7e\x38\uffff"; const string DFA100_acceptS = "\x01\uffff\x01\x01\x01\uffff\x01\x02\x35\uffff"; const string DFA100_specialS = "\x39\uffff}>"; static readonly string[] DFA100_transitionS = { "\x01\x03\x01\uffff\x01\x03\x01\uffff\x03\x03\x01\x01\x01\x03"+ "\x01\uffff\x01\x01\x01\uffff\x01\x03\x01\uffff\x01\x03\x03\uffff"+ "\x01\x03\x08\uffff\x01\x03\x02\uffff\x03\x03\x04\uffff\x02\x03"+ "\x03\uffff\x05\x03\x04\uffff\x0a\x03\x01\uffff\x11\x03\x02\uffff"+ "\x02\x03\x07\uffff\x03\x03\x14\uffff\x01\x03\x02\uffff\x01\x03"+ "\x04\uffff\x01\x03", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA100_eot = DFA.UnpackEncodedString(DFA100_eotS); static readonly short[] DFA100_eof = DFA.UnpackEncodedString(DFA100_eofS); static readonly char[] DFA100_min = DFA.UnpackEncodedStringToUnsignedChars(DFA100_minS); static readonly char[] DFA100_max = DFA.UnpackEncodedStringToUnsignedChars(DFA100_maxS); static readonly short[] DFA100_accept = DFA.UnpackEncodedString(DFA100_acceptS); static readonly short[] DFA100_special = DFA.UnpackEncodedString(DFA100_specialS); static readonly short[][] DFA100_transition = DFA.UnpackEncodedStringArray(DFA100_transitionS); protected class DFA100 : DFA { public DFA100(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 100; this.eot = DFA100_eot; this.eof = DFA100_eof; this.min = DFA100_min; this.max = DFA100_max; this.accept = DFA100_accept; this.special = DFA100_special; this.transition = DFA100_transition; } override public string Description { get { return "873:3: (output= accessExpression[result] | )"; } } } const string DFA102_eotS = "\x37\uffff"; const string DFA102_eofS = "\x37\uffff"; const string DFA102_minS = "\x01\x05\x36\uffff"; const string DFA102_maxS = "\x01\x7e\x36\uffff"; const string DFA102_acceptS = "\x01\uffff\x01\x01\x01\x02\x01\uffff\x01\x03\x32\uffff"; const string DFA102_specialS = "\x37\uffff}>"; static readonly string[] DFA102_transitionS = { "\x01\x04\x01\uffff\x01\x04\x01\uffff\x03\x04\x01\uffff\x01"+ "\x04\x03\uffff\x01\x04\x01\uffff\x01\x04\x03\uffff\x01\x04\x08"+ "\uffff\x01\x04\x02\uffff\x03\x04\x04\uffff\x02\x04\x03\uffff"+ "\x03\x04\x02\x02\x04\uffff\x0a\x04\x01\uffff\x11\x04\x02\uffff"+ "\x02\x04\x07\uffff\x02\x04\x01\x01\x14\uffff\x01\x04\x02\uffff"+ "\x01\x04\x04\uffff\x01\x02", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA102_eot = DFA.UnpackEncodedString(DFA102_eotS); static readonly short[] DFA102_eof = DFA.UnpackEncodedString(DFA102_eofS); static readonly char[] DFA102_min = DFA.UnpackEncodedStringToUnsignedChars(DFA102_minS); static readonly char[] DFA102_max = DFA.UnpackEncodedStringToUnsignedChars(DFA102_maxS); static readonly short[] DFA102_accept = DFA.UnpackEncodedString(DFA102_acceptS); static readonly short[] DFA102_special = DFA.UnpackEncodedString(DFA102_specialS); static readonly short[][] DFA102_transition = DFA.UnpackEncodedStringArray(DFA102_transitionS); protected class DFA102 : DFA { public DFA102(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 102; this.eot = DFA102_eot; this.eof = DFA102_eof; this.min = DFA102_min; this.max = DFA102_max; this.accept = DFA102_accept; this.special = DFA102_special; this.transition = DFA102_transition; } override public string Description { get { return "877:3: (pr= T_PRIMED | ( '::' T_LPAREN init= expression T_RPAREN )? afold= ( T_FOLDLR | T_FOLDRL ) T_LPAREN anexpr= expression T_RPAREN )?"; } } } const string DFA103_eotS = "\x3a\uffff"; const string DFA103_eofS = "\x3a\uffff"; const string DFA103_minS = "\x01\x05\x39\uffff"; const string DFA103_maxS = "\x01\x7e\x39\uffff"; const string DFA103_acceptS = "\x01\uffff\x01\x03\x36\uffff\x01\x01\x01\x02"; const string DFA103_specialS = "\x3a\uffff}>"; static readonly string[] DFA103_transitionS = { "\x01\x01\x01\uffff\x01\x01\x01\uffff\x03\x01\x01\x39\x01\x01"+ "\x01\uffff\x01\x38\x01\uffff\x01\x01\x01\uffff\x01\x01\x03\uffff"+ "\x01\x01\x08\uffff\x01\x01\x02\uffff\x03\x01\x04\uffff\x02\x01"+ "\x03\uffff\x05\x01\x04\uffff\x0a\x01\x01\uffff\x12\x01\x01\uffff"+ "\x02\x01\x07\uffff\x03\x01\x14\uffff\x01\x01\x02\uffff\x01\x01"+ "\x04\uffff\x01\x01", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA103_eot = DFA.UnpackEncodedString(DFA103_eotS); static readonly short[] DFA103_eof = DFA.UnpackEncodedString(DFA103_eofS); static readonly char[] DFA103_min = DFA.UnpackEncodedStringToUnsignedChars(DFA103_minS); static readonly char[] DFA103_max = DFA.UnpackEncodedStringToUnsignedChars(DFA103_maxS); static readonly short[] DFA103_accept = DFA.UnpackEncodedString(DFA103_acceptS); static readonly short[] DFA103_special = DFA.UnpackEncodedString(DFA103_specialS); static readonly short[][] DFA103_transition = DFA.UnpackEncodedStringArray(DFA103_transitionS); protected class DFA103 : DFA { public DFA103(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 103; this.eot = DFA103_eot; this.eof = DFA103_eof; this.min = DFA103_min; this.max = DFA103_max; this.accept = DFA103_accept; this.special = DFA103_special; this.transition = DFA103_transition; } override public string Description { get { return "()+ loopback of 891:7: (tcall= T_LSQPAREN ac= expression T_RSQPAREN | bcall= T_LPAREN m_params= methodCallParams T_RPAREN )+"; } } } const string DFA106_eotS = "\x38\uffff"; const string DFA106_eofS = "\x38\uffff"; const string DFA106_minS = "\x01\x05\x37\uffff"; const string DFA106_maxS = "\x01\x7e\x37\uffff"; const string DFA106_acceptS = "\x01\uffff\x01\x01\x01\x02\x35\uffff"; const string DFA106_specialS = "\x38\uffff}>"; static readonly string[] DFA106_transitionS = { "\x01\x02\x01\uffff\x01\x02\x01\uffff\x03\x02\x01\uffff\x01"+ "\x02\x03\uffff\x01\x02\x01\uffff\x01\x02\x03\uffff\x01\x02\x08"+ "\uffff\x01\x02\x02\uffff\x03\x02\x04\uffff\x02\x02\x03\uffff"+ "\x05\x02\x04\uffff\x0a\x02\x01\uffff\x11\x02\x01\x01\x01\uffff"+ "\x02\x02\x07\uffff\x03\x02\x14\uffff\x01\x02\x02\uffff\x01\x02"+ "\x04\uffff\x01\x02", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA106_eot = DFA.UnpackEncodedString(DFA106_eotS); static readonly short[] DFA106_eof = DFA.UnpackEncodedString(DFA106_eofS); static readonly char[] DFA106_min = DFA.UnpackEncodedStringToUnsignedChars(DFA106_minS); static readonly char[] DFA106_max = DFA.UnpackEncodedStringToUnsignedChars(DFA106_maxS); static readonly short[] DFA106_accept = DFA.UnpackEncodedString(DFA106_acceptS); static readonly short[] DFA106_special = DFA.UnpackEncodedString(DFA106_specialS); static readonly short[][] DFA106_transition = DFA.UnpackEncodedStringArray(DFA106_transitionS); protected class DFA106 : DFA { public DFA106(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 106; this.eot = DFA106_eot; this.eof = DFA106_eof; this.min = DFA106_min; this.max = DFA106_max; this.accept = DFA106_accept; this.special = DFA106_special; this.transition = DFA106_transition; } override public string Description { get { return "896:3: ( ( T_POINT idn= T_IDENTIFIER )+ (res= accessExpression[result] )? )?"; } } } const string DFA104_eotS = "\x3a\uffff"; const string DFA104_eofS = "\x3a\uffff"; const string DFA104_minS = "\x01\x05\x39\uffff"; const string DFA104_maxS = "\x01\x7e\x39\uffff"; const string DFA104_acceptS = "\x01\uffff\x01\x02\x37\uffff\x01\x01"; const string DFA104_specialS = "\x3a\uffff}>"; static readonly string[] DFA104_transitionS = { "\x01\x01\x01\uffff\x01\x01\x01\uffff\x05\x01\x01\uffff\x01"+ "\x01\x01\uffff\x01\x01\x01\uffff\x01\x01\x03\uffff\x01\x01\x08"+ "\uffff\x01\x01\x02\uffff\x03\x01\x04\uffff\x02\x01\x03\uffff"+ "\x05\x01\x04\uffff\x0a\x01\x01\uffff\x11\x01\x01\x39\x01\uffff"+ "\x02\x01\x07\uffff\x03\x01\x14\uffff\x01\x01\x02\uffff\x01\x01"+ "\x04\uffff\x01\x01", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA104_eot = DFA.UnpackEncodedString(DFA104_eotS); static readonly short[] DFA104_eof = DFA.UnpackEncodedString(DFA104_eofS); static readonly char[] DFA104_min = DFA.UnpackEncodedStringToUnsignedChars(DFA104_minS); static readonly char[] DFA104_max = DFA.UnpackEncodedStringToUnsignedChars(DFA104_maxS); static readonly short[] DFA104_accept = DFA.UnpackEncodedString(DFA104_acceptS); static readonly short[] DFA104_special = DFA.UnpackEncodedString(DFA104_specialS); static readonly short[][] DFA104_transition = DFA.UnpackEncodedStringArray(DFA104_transitionS); protected class DFA104 : DFA { public DFA104(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 104; this.eot = DFA104_eot; this.eof = DFA104_eof; this.min = DFA104_min; this.max = DFA104_max; this.accept = DFA104_accept; this.special = DFA104_special; this.transition = DFA104_transition; } override public string Description { get { return "()+ loopback of 897:4: ( T_POINT idn= T_IDENTIFIER )+"; } } } const string DFA105_eotS = "\x39\uffff"; const string DFA105_eofS = "\x39\uffff"; const string DFA105_minS = "\x01\x05\x38\uffff"; const string DFA105_maxS = "\x01\x7e\x38\uffff"; const string DFA105_acceptS = "\x01\uffff\x01\x01\x01\uffff\x01\x02\x35\uffff"; const string DFA105_specialS = "\x39\uffff}>"; static readonly string[] DFA105_transitionS = { "\x01\x03\x01\uffff\x01\x03\x01\uffff\x03\x03\x01\x01\x01\x03"+ "\x01\uffff\x01\x01\x01\uffff\x01\x03\x01\uffff\x01\x03\x03\uffff"+ "\x01\x03\x08\uffff\x01\x03\x02\uffff\x03\x03\x04\uffff\x02\x03"+ "\x03\uffff\x05\x03\x04\uffff\x0a\x03\x01\uffff\x11\x03\x02\uffff"+ "\x02\x03\x07\uffff\x03\x03\x14\uffff\x01\x03\x02\uffff\x01\x03"+ "\x04\uffff\x01\x03", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA105_eot = DFA.UnpackEncodedString(DFA105_eotS); static readonly short[] DFA105_eof = DFA.UnpackEncodedString(DFA105_eofS); static readonly char[] DFA105_min = DFA.UnpackEncodedStringToUnsignedChars(DFA105_minS); static readonly char[] DFA105_max = DFA.UnpackEncodedStringToUnsignedChars(DFA105_maxS); static readonly short[] DFA105_accept = DFA.UnpackEncodedString(DFA105_acceptS); static readonly short[] DFA105_special = DFA.UnpackEncodedString(DFA105_specialS); static readonly short[][] DFA105_transition = DFA.UnpackEncodedStringArray(DFA105_transitionS); protected class DFA105 : DFA { public DFA105(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 105; this.eot = DFA105_eot; this.eof = DFA105_eof; this.min = DFA105_min; this.max = DFA105_max; this.accept = DFA105_accept; this.special = DFA105_special; this.transition = DFA105_transition; } override public string Description { get { return "900:4: (res= accessExpression[result] )?"; } } } const string DFA108_eotS = "\x3b\uffff"; const string DFA108_eofS = "\x3b\uffff"; const string DFA108_minS = "\x01\x05\x3a\uffff"; const string DFA108_maxS = "\x01\x7e\x3a\uffff"; const string DFA108_acceptS = "\x01\uffff\x01\x02\x38\uffff\x01\x01"; const string DFA108_specialS = "\x3b\uffff}>"; static readonly string[] DFA108_transitionS = { "\x01\x01\x01\uffff\x01\x01\x01\uffff\x05\x01\x01\uffff\x01"+ "\x01\x01\uffff\x01\x01\x01\uffff\x01\x01\x03\uffff\x01\x01\x03"+ "\uffff\x01\x01\x04\uffff\x01\x01\x02\uffff\x03\x01\x04\uffff"+ "\x02\x01\x03\uffff\x05\x01\x04\uffff\x0a\x01\x01\uffff\x11\x01"+ "\x01\x3a\x01\uffff\x02\x01\x07\uffff\x03\x01\x14\uffff\x01\x01"+ "\x02\uffff\x01\x01\x04\uffff\x01\x01", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA108_eot = DFA.UnpackEncodedString(DFA108_eotS); static readonly short[] DFA108_eof = DFA.UnpackEncodedString(DFA108_eofS); static readonly char[] DFA108_min = DFA.UnpackEncodedStringToUnsignedChars(DFA108_minS); static readonly char[] DFA108_max = DFA.UnpackEncodedStringToUnsignedChars(DFA108_maxS); static readonly short[] DFA108_accept = DFA.UnpackEncodedString(DFA108_acceptS); static readonly short[] DFA108_special = DFA.UnpackEncodedString(DFA108_specialS); static readonly short[][] DFA108_transition = DFA.UnpackEncodedStringArray(DFA108_transitionS); protected class DFA108 : DFA { public DFA108(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 108; this.eot = DFA108_eot; this.eof = DFA108_eof; this.min = DFA108_min; this.max = DFA108_max; this.accept = DFA108_accept; this.special = DFA108_special; this.transition = DFA108_transition; } override public string Description { get { return "()* loopback of 913:3: ( T_POINT idd= T_IDENTIFIER )*"; } } } const string DFA110_eotS = "\x20\uffff"; const string DFA110_eofS = "\x20\uffff"; const string DFA110_minS = "\x01\x08\x1f\uffff"; const string DFA110_maxS = "\x01\x7a\x1f\uffff"; const string DFA110_acceptS = "\x01\uffff\x01\x01\x1d\uffff\x01\x02"; const string DFA110_specialS = "\x20\uffff}>"; static readonly string[] DFA110_transitionS = { "\x01\x01\x03\uffff\x01\x01\x01\x1f\x01\uffff\x02\x01\x06\uffff"+ "\x01\x01\x05\uffff\x01\x01\x01\uffff\x01\x01\x17\uffff\x01\x01"+ "\x0b\uffff\x01\x01\x11\uffff\x01\x01\x02\uffff\x07\x01\x03\uffff"+ "\x0d\x01\x0b\uffff\x01\x01", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA110_eot = DFA.UnpackEncodedString(DFA110_eotS); static readonly short[] DFA110_eof = DFA.UnpackEncodedString(DFA110_eofS); static readonly char[] DFA110_min = DFA.UnpackEncodedStringToUnsignedChars(DFA110_minS); static readonly char[] DFA110_max = DFA.UnpackEncodedStringToUnsignedChars(DFA110_maxS); static readonly short[] DFA110_accept = DFA.UnpackEncodedString(DFA110_acceptS); static readonly short[] DFA110_special = DFA.UnpackEncodedString(DFA110_specialS); static readonly short[][] DFA110_transition = DFA.UnpackEncodedStringArray(DFA110_transitionS); protected class DFA110 : DFA { public DFA110(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 110; this.eot = DFA110_eot; this.eof = DFA110_eof; this.min = DFA110_min; this.max = DFA110_max; this.accept = DFA110_accept; this.special = DFA110_special; this.transition = DFA110_transition; } override public string Description { get { return "922:4: (expa= expression ( T_COMMA expb= expression )* )?"; } } } const string DFA111_eotS = "\x10\uffff"; const string DFA111_eofS = "\x10\uffff"; const string DFA111_minS = "\x01\x17\x0f\uffff"; const string DFA111_maxS = "\x01\x6e\x0f\uffff"; const string DFA111_acceptS = "\x01\uffff\x01\x01\x08\uffff\x01\x02\x02\uffff\x01\x03\x01\x04"+ "\x01\x05"; const string DFA111_specialS = "\x10\uffff}>"; static readonly string[] DFA111_transitionS = { "\x01\x0d\x2b\uffff\x01\x0e\x1e\uffff\x01\x0f\x09\x01\x03\x0a", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA111_eot = DFA.UnpackEncodedString(DFA111_eotS); static readonly short[] DFA111_eof = DFA.UnpackEncodedString(DFA111_eofS); static readonly char[] DFA111_min = DFA.UnpackEncodedStringToUnsignedChars(DFA111_minS); static readonly char[] DFA111_max = DFA.UnpackEncodedStringToUnsignedChars(DFA111_maxS); static readonly short[] DFA111_accept = DFA.UnpackEncodedString(DFA111_acceptS); static readonly short[] DFA111_special = DFA.UnpackEncodedString(DFA111_specialS); static readonly short[][] DFA111_transition = DFA.UnpackEncodedStringArray(DFA111_transitionS); protected class DFA111 : DFA { public DFA111(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 111; this.eot = DFA111_eot; this.eof = DFA111_eof; this.min = DFA111_min; this.max = DFA111_max; this.accept = DFA111_accept; this.special = DFA111_special; this.transition = DFA111_transition; } override public string Description { get { return "932:1: op_un returns [UnaryOperator expr] : (r= op_un_set_list | r2= op_un_map | T_MINUS | T_NOT | T_ABS );"; } } } const string DFA112_eotS = "\x0a\uffff"; const string DFA112_eofS = "\x0a\uffff"; const string DFA112_minS = "\x01\x63\x09\uffff"; const string DFA112_maxS = "\x01\x6b\x09\uffff"; const string DFA112_acceptS = "\x01\uffff\x01\x01\x01\x02\x01\x03\x01\x04\x01\x05\x01\x06\x01"+ "\x07\x01\x08\x01\x09"; const string DFA112_specialS = "\x0a\uffff}>"; static readonly string[] DFA112_transitionS = { "\x01\x01\x01\x02\x01\x03\x01\x04\x01\x05\x01\x06\x01\x07\x01"+ "\x08\x01\x09", "", "", "", "", "", "", "", "", "" }; static readonly short[] DFA112_eot = DFA.UnpackEncodedString(DFA112_eotS); static readonly short[] DFA112_eof = DFA.UnpackEncodedString(DFA112_eofS); static readonly char[] DFA112_min = DFA.UnpackEncodedStringToUnsignedChars(DFA112_minS); static readonly char[] DFA112_max = DFA.UnpackEncodedStringToUnsignedChars(DFA112_maxS); static readonly short[] DFA112_accept = DFA.UnpackEncodedString(DFA112_acceptS); static readonly short[] DFA112_special = DFA.UnpackEncodedString(DFA112_specialS); static readonly short[][] DFA112_transition = DFA.UnpackEncodedStringArray(DFA112_transitionS); protected class DFA112 : DFA { public DFA112(BaseRecognizer recognizer) { this.recognizer = recognizer; this.decisionNumber = 112; this.eot = DFA112_eot; this.eof = DFA112_eof; this.min = DFA112_min; this.max = DFA112_max; this.accept = DFA112_accept; this.special = DFA112_special; this.transition = DFA112_transition; } override public string Description { get { return "945:1: op_un_set_list returns [UnaryOperator expr] : ( T_CARD | T_DCONC | T_DINTER | T_DUNION | T_ELEMS | T_HEAD | T_INDS | T_LEN | T_TAIL );"; } } } public static readonly BitSet FOLLOW_T_CONSTS_in_ooActionSystems93 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_namedConstList_in_ooActionSystems95 = new BitSet(new ulong[]{0x0000000000000020UL}); public static readonly BitSet FOLLOW_T_TYPES_in_ooActionSystems105 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_namedTypeList_in_ooActionSystems113 = new BitSet(new ulong[]{0x0000000000000040UL}); public static readonly BitSet FOLLOW_T_SYSTEM_in_ooActionSystems118 = new BitSet(new ulong[]{0x0000000000001100UL}); public static readonly BitSet FOLLOW_asTypeComposition_in_ooActionSystems125 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_namedConst_in_namedConstList148 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_SEMICOLON_in_namedConstList151 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_namedConst_in_namedConstList153 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_namedConst169 = new BitSet(new ulong[]{0x0000000000000200UL}); public static readonly BitSet FOLLOW_T_EQUAL_in_namedConst173 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_namedConst179 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_namedType_in_namedTypeList199 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_SEMICOLON_in_namedTypeList202 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_namedType_in_namedTypeList204 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_namedType220 = new BitSet(new ulong[]{0x0000000000000200UL}); public static readonly BitSet FOLLOW_T_EQUAL_in_namedType225 = new BitSet(new ulong[]{0x00000002D650D140UL}); public static readonly BitSet FOLLOW_complexType_in_namedType237 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_ooActionSystem_in_namedType249 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_asTypeCompositionParallel_in_asTypeComposition285 = new BitSet(new ulong[]{0x0000000000000402UL}); public static readonly BitSet FOLLOW_T_PRIO_in_asTypeComposition290 = new BitSet(new ulong[]{0x0000000000001100UL}); public static readonly BitSet FOLLOW_asTypeCompositionParallel_in_asTypeComposition292 = new BitSet(new ulong[]{0x0000000000000402UL}); public static readonly BitSet FOLLOW_asTypeCompositionSequential_in_asTypeCompositionParallel315 = new BitSet(new ulong[]{0x0000000000000802UL}); public static readonly BitSet FOLLOW_T_NONDET_in_asTypeCompositionParallel319 = new BitSet(new ulong[]{0x0000000000001100UL}); public static readonly BitSet FOLLOW_asTypeCompositionSequential_in_asTypeCompositionParallel321 = new BitSet(new ulong[]{0x0000000000000802UL}); public static readonly BitSet FOLLOW_asTypeCompositionBlockParen_in_asTypeCompositionSequential343 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_asTypeCompositionBlockParen358 = new BitSet(new ulong[]{0x0000000000001100UL}); public static readonly BitSet FOLLOW_asTypeComposition_in_asTypeCompositionBlockParen360 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_asTypeCompositionBlockParen363 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_asTypeCompositionBlockParen370 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_LIST_in_complexType401 = new BitSet(new ulong[]{0x0000000000008000UL}); public static readonly BitSet FOLLOW_T_LSQPAREN_in_complexType404 = new BitSet(new ulong[]{0x0000000000010100UL}); public static readonly BitSet FOLLOW_set_in_complexType408 = new BitSet(new ulong[]{0x0000000000020000UL}); public static readonly BitSet FOLLOW_T_RSQPAREN_in_complexType414 = new BitSet(new ulong[]{0x0000000000040000UL}); public static readonly BitSet FOLLOW_T_OF_in_complexType416 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_complexType421 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_LSQPAREN_in_complexType436 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_complexType440 = new BitSet(new ulong[]{0x00000000000A0000UL}); public static readonly BitSet FOLLOW_T_COMMA_in_complexType449 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_complexType453 = new BitSet(new ulong[]{0x00000000000A0000UL}); public static readonly BitSet FOLLOW_T_RSQPAREN_in_complexType459 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_MAP_in_complexType469 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_T_LSQPAREN_in_complexType474 = new BitSet(new ulong[]{0x0000000000010100UL}); public static readonly BitSet FOLLOW_set_in_complexType478 = new BitSet(new ulong[]{0x0000000000020000UL}); public static readonly BitSet FOLLOW_T_RSQPAREN_in_complexType484 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_simpleType_in_complexType490 = new BitSet(new ulong[]{0x0000000000200000UL}); public static readonly BitSet FOLLOW_T_TO_in_complexType492 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_complexType496 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_QUANTITY_in_complexType510 = new BitSet(new ulong[]{0x0000000000040000UL}); public static readonly BitSet FOLLOW_T_OF_in_complexType512 = new BitSet(new ulong[]{0x0000000000008000UL}); public static readonly BitSet FOLLOW_T_LSQPAREN_in_complexType514 = new BitSet(new ulong[]{0x0000000000800100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_complexType519 = new BitSet(new ulong[]{0x00000000000A0000UL}); public static readonly BitSet FOLLOW_T_MINUS_in_complexType524 = new BitSet(new ulong[]{0x0000000001000000UL}); public static readonly BitSet FOLLOW_T_INFTY_in_complexType526 = new BitSet(new ulong[]{0x00000000000A0000UL}); public static readonly BitSet FOLLOW_T_COMMA_in_complexType536 = new BitSet(new ulong[]{0x0000000001000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_complexType541 = new BitSet(new ulong[]{0x00000000000A0000UL}); public static readonly BitSet FOLLOW_T_INFTY_in_complexType545 = new BitSet(new ulong[]{0x00000000000A0000UL}); public static readonly BitSet FOLLOW_T_RSQPAREN_in_complexType552 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_complexType562 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_complexType566 = new BitSet(new ulong[]{0x0000000000082000UL}); public static readonly BitSet FOLLOW_T_COMMA_in_complexType575 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_complexType579 = new BitSet(new ulong[]{0x0000000000082000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_complexType586 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_simpleType_in_complexType599 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_BOOL_in_simpleType632 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_INT_in_simpleType645 = new BitSet(new ulong[]{0x0000000000008000UL}); public static readonly BitSet FOLLOW_T_LSQPAREN_in_simpleType647 = new BitSet(new ulong[]{0x0000000001010100UL}); public static readonly BitSet FOLLOW_set_in_simpleType651 = new BitSet(new ulong[]{0x0000000008000000UL}); public static readonly BitSet FOLLOW_T_RANGETO_in_simpleType659 = new BitSet(new ulong[]{0x0000000001010100UL}); public static readonly BitSet FOLLOW_set_in_simpleType663 = new BitSet(new ulong[]{0x0000000000020000UL}); public static readonly BitSet FOLLOW_T_RSQPAREN_in_simpleType671 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_FLOAT_in_simpleType690 = new BitSet(new ulong[]{0x0000000000008000UL}); public static readonly BitSet FOLLOW_T_LSQPAREN_in_simpleType693 = new BitSet(new ulong[]{0x0000000021000100UL}); public static readonly BitSet FOLLOW_set_in_simpleType697 = new BitSet(new ulong[]{0x0000000008000000UL}); public static readonly BitSet FOLLOW_T_RANGETO_in_simpleType705 = new BitSet(new ulong[]{0x0000000021000100UL}); public static readonly BitSet FOLLOW_set_in_simpleType709 = new BitSet(new ulong[]{0x0000000000020000UL}); public static readonly BitSet FOLLOW_T_RSQPAREN_in_simpleType717 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_CHAR_in_simpleType735 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_CBRL_in_simpleType751 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_simpleType755 = new BitSet(new ulong[]{0x0000000100080200UL}); public static readonly BitSet FOLLOW_T_EQUAL_in_simpleType758 = new BitSet(new ulong[]{0x0000000000010000UL}); public static readonly BitSet FOLLOW_T_INTNUMBER_in_simpleType762 = new BitSet(new ulong[]{0x0000000100080000UL}); public static readonly BitSet FOLLOW_T_COMMA_in_simpleType773 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_simpleType777 = new BitSet(new ulong[]{0x0000000100080200UL}); public static readonly BitSet FOLLOW_T_EQUAL_in_simpleType780 = new BitSet(new ulong[]{0x0000000000010000UL}); public static readonly BitSet FOLLOW_T_INTNUMBER_in_simpleType784 = new BitSet(new ulong[]{0x0000000100080000UL}); public static readonly BitSet FOLLOW_T_CBRR_in_simpleType792 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_simpleType803 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_AUTOCONS_in_ooActionSystem846 = new BitSet(new ulong[]{0x0000000000000040UL}); public static readonly BitSet FOLLOW_T_SYSTEM_in_ooActionSystem855 = new BitSet(new ulong[]{0x0000000000001000UL,0x0020000000000000UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_ooActionSystem858 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_ooActionSystem862 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_ooActionSystem864 = new BitSet(new ulong[]{0x0000000000000000UL,0x0020000000000000UL}); public static readonly BitSet FOLLOW_117_in_ooActionSystem877 = new BitSet(new ulong[]{0x0000003C00000000UL,0x0040000000000000UL}); public static readonly BitSet FOLLOW_T_VAR_in_ooActionSystem883 = new BitSet(new ulong[]{0x0000038000000100UL}); public static readonly BitSet FOLLOW_attrList_in_ooActionSystem885 = new BitSet(new ulong[]{0x0000003800000000UL,0x0040000000000000UL}); public static readonly BitSet FOLLOW_T_METHODS_in_ooActionSystem893 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_methodList_in_ooActionSystem895 = new BitSet(new ulong[]{0x0000003000000000UL,0x0040000000000000UL}); public static readonly BitSet FOLLOW_T_ACTIONS_in_ooActionSystem903 = new BitSet(new ulong[]{0x0000130000000100UL}); public static readonly BitSet FOLLOW_namedActionList_in_ooActionSystem905 = new BitSet(new ulong[]{0x0000002000000000UL,0x0040000000000000UL}); public static readonly BitSet FOLLOW_T_DO_in_ooActionSystem913 = new BitSet(new ulong[]{0x0010304400001100UL}); public static readonly BitSet FOLLOW_actionBlock_in_ooActionSystem918 = new BitSet(new ulong[]{0x0000004000000000UL}); public static readonly BitSet FOLLOW_T_OD_in_ooActionSystem925 = new BitSet(new ulong[]{0x0000000000000000UL,0x0040000000000000UL}); public static readonly BitSet FOLLOW_118_in_ooActionSystem931 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_attr_in_attrList962 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_SEMICOLON_in_attrList965 = new BitSet(new ulong[]{0x0000038000000100UL}); public static readonly BitSet FOLLOW_attr_in_attrList967 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_STATIC_in_attr992 = new BitSet(new ulong[]{0x0000030000000100UL}); public static readonly BitSet FOLLOW_T_OBS_in_attr999 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_CTRL_in_attr1005 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_attr1016 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_attr1019 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_attr1023 = new BitSet(new ulong[]{0x0000000000000202UL}); public static readonly BitSet FOLLOW_T_EQUAL_in_attr1026 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_attr1030 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_method_in_methodList1052 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_SEMICOLON_in_methodList1055 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_method_in_methodList1057 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_method1079 = new BitSet(new ulong[]{0x0000040000001200UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_method1087 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_methodParameterList_in_method1089 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_method1093 = new BitSet(new ulong[]{0x0000040000000200UL}); public static readonly BitSet FOLLOW_T_COLON_in_method1101 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_method1105 = new BitSet(new ulong[]{0x0000000000000200UL}); public static readonly BitSet FOLLOW_T_EQUAL_in_method1115 = new BitSet(new ulong[]{0x00F0300400001100UL}); public static readonly BitSet FOLLOW_T_VAR_in_method1122 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_localActionVars_in_method1124 = new BitSet(new ulong[]{0x0000000000000000UL,0x0080000000000000UL}); public static readonly BitSet FOLLOW_119_in_method1127 = new BitSet(new ulong[]{0x00F0300400001100UL}); public static readonly BitSet FOLLOW_actionBody_in_method1136 = new BitSet(new ulong[]{0x0000080000000000UL}); public static readonly BitSet FOLLOW_T_END_in_method1144 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_methodParameterList1168 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_methodParameterList1170 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_methodParameterList1174 = new BitSet(new ulong[]{0x0000000000080002UL}); public static readonly BitSet FOLLOW_T_COMMA_in_methodParameterList1182 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_methodParameterList1186 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_methodParameterList1188 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_methodParameterList1192 = new BitSet(new ulong[]{0x0000000000080002UL}); public static readonly BitSet FOLLOW_namedAction_in_namedActionList1219 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_SEMICOLON_in_namedActionList1222 = new BitSet(new ulong[]{0x0000130000000100UL}); public static readonly BitSet FOLLOW_namedAction_in_namedActionList1224 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_CONT_in_namedAction1244 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_namedAction1248 = new BitSet(new ulong[]{0x0000000000001200UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_namedAction1256 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_methodParameterList_in_namedAction1258 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_namedAction1262 = new BitSet(new ulong[]{0x0000000000000200UL}); public static readonly BitSet FOLLOW_T_EQUAL_in_namedAction1269 = new BitSet(new ulong[]{0x0000100000000000UL}); public static readonly BitSet FOLLOW_continuousActionBody_in_namedAction1273 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_CTRL_in_namedAction1288 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_OBS_in_namedAction1293 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_namedAction1305 = new BitSet(new ulong[]{0x0000000000001200UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_namedAction1313 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_methodParameterList_in_namedAction1315 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_namedAction1319 = new BitSet(new ulong[]{0x0000000000000200UL}); public static readonly BitSet FOLLOW_T_EQUAL_in_namedAction1326 = new BitSet(new ulong[]{0x0000300400000000UL}); public static readonly BitSet FOLLOW_T_VAR_in_namedAction1332 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_localActionVars_in_namedAction1334 = new BitSet(new ulong[]{0x0000300000000000UL}); public static readonly BitSet FOLLOW_discreteActionBody_in_namedAction1345 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_localActionVars1377 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_localActionVars1379 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_localActionVars1383 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_SEMICOLON_in_localActionVars1392 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_localActionVars1396 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_localActionVars1398 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_localActionVars1402 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_continuousActionBody_in_anonymousAction1432 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_discreteActionBody_in_anonymousAction1441 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_CONT_in_continuousActionBody1466 = new BitSet(new ulong[]{0x0000200000000000UL}); public static readonly BitSet FOLLOW_T_REQUIRES_in_continuousActionBody1468 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_continuousActionBody1472 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_continuousActionBody1474 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_qualConstraintList_in_continuousActionBody1481 = new BitSet(new ulong[]{0x0000080000000000UL}); public static readonly BitSet FOLLOW_T_END_in_continuousActionBody1486 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_qualConstraint_in_qualConstraintList1514 = new BitSet(new ulong[]{0x0000000000080002UL}); public static readonly BitSet FOLLOW_T_COMMA_in_qualConstraintList1521 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_qualConstraint_in_qualConstraintList1525 = new BitSet(new ulong[]{0x0000000000080002UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_qualConstraint1556 = new BitSet(new ulong[]{0x0000000000000200UL}); public static readonly BitSet FOLLOW_T_EQUAL_in_qualConstraint1558 = new BitSet(new ulong[]{0x0000400000000100UL}); public static readonly BitSet FOLLOW_T_DERIV_in_qualConstraint1565 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_qualConstraint1569 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_qualConstraint1604 = new BitSet(new ulong[]{0x0003800000000002UL}); public static readonly BitSet FOLLOW_T_SUM_in_qualConstraint1635 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_DIFF_in_qualConstraint1652 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_PROD_in_qualConstraint1669 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_qualConstraint1698 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_REQUIRES_in_discreteActionBody1788 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_discreteActionBody1792 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_discreteActionBody1794 = new BitSet(new ulong[]{0x00F0300400001100UL}); public static readonly BitSet FOLLOW_actionBody_in_discreteActionBody1801 = new BitSet(new ulong[]{0x0000080000000000UL}); public static readonly BitSet FOLLOW_T_END_in_discreteActionBody1806 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_actionBlockParallel_in_actionBlock1842 = new BitSet(new ulong[]{0x0000000000000402UL}); public static readonly BitSet FOLLOW_T_PRIO_in_actionBlock1846 = new BitSet(new ulong[]{0x0010300400001100UL}); public static readonly BitSet FOLLOW_actionBlockParallel_in_actionBlock1848 = new BitSet(new ulong[]{0x0000000000000402UL}); public static readonly BitSet FOLLOW_actionBlockSequential_in_actionBlockParallel1873 = new BitSet(new ulong[]{0x0000000000000802UL}); public static readonly BitSet FOLLOW_T_NONDET_in_actionBlockParallel1877 = new BitSet(new ulong[]{0x0010300400001100UL}); public static readonly BitSet FOLLOW_actionBlockSequential_in_actionBlockParallel1879 = new BitSet(new ulong[]{0x0000000000000802UL}); public static readonly BitSet FOLLOW_T_VAR_in_actionBlockSequential1908 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_blockvarlist_in_actionBlockSequential1912 = new BitSet(new ulong[]{0x0000040000000000UL,0x0100000000000000UL}); public static readonly BitSet FOLLOW_120_in_actionBlockSequential1916 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_actionBlockSequential1920 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_actionBlockSequential1927 = new BitSet(new ulong[]{0x0010300400001100UL}); public static readonly BitSet FOLLOW_actionBlockParen_in_actionBlockSequential1936 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_SEMICOLON_in_actionBlockSequential1940 = new BitSet(new ulong[]{0x0010300400001100UL}); public static readonly BitSet FOLLOW_actionBlockParen_in_actionBlockSequential1942 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_actionBlockParen1966 = new BitSet(new ulong[]{0x0010300400001100UL}); public static readonly BitSet FOLLOW_actionBlock_in_actionBlockParen1968 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_actionBlockParen1971 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_anonymousOrNamedAction_in_actionBlockParen1976 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_anonymousAction_in_anonymousOrNamedAction1993 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_anonymousOrNamedAction2002 = new BitSet(new ulong[]{0x000C000000001002UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_anonymousOrNamedAction2016 = new BitSet(new ulong[]{0x00800000A081B100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_methodCallParams_in_anonymousOrNamedAction2021 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_anonymousOrNamedAction2023 = new BitSet(new ulong[]{0x000C000000000002UL}); public static readonly BitSet FOLLOW_set_in_anonymousOrNamedAction2041 = new BitSet(new ulong[]{0x0000000000001000UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_anonymousOrNamedAction2047 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_anonymousOrNamedAction2051 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_anonymousOrNamedAction2053 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_SKIP_in_anonymousOrNamedAction2064 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_blockvar_in_blockvarlist2080 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_SEMICOLON_in_blockvarlist2085 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_blockvar_in_blockvarlist2087 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_blockvar2107 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_blockvar2110 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_blockvar2114 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_actionBodyParallel_in_actionBody2149 = new BitSet(new ulong[]{0x0000000000000402UL}); public static readonly BitSet FOLLOW_T_PRIO_in_actionBody2153 = new BitSet(new ulong[]{0x00F0300400001100UL}); public static readonly BitSet FOLLOW_actionBodyParallel_in_actionBody2155 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_actionBodySequential_in_actionBodyParallel2183 = new BitSet(new ulong[]{0x0000000000000802UL}); public static readonly BitSet FOLLOW_T_NONDET_in_actionBodyParallel2189 = new BitSet(new ulong[]{0x00F0300400001100UL}); public static readonly BitSet FOLLOW_actionBodySequential_in_actionBodyParallel2193 = new BitSet(new ulong[]{0x0000000000000802UL}); public static readonly BitSet FOLLOW_actionBodyParen_in_actionBodySequential2220 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_SEMICOLON_in_actionBodySequential2224 = new BitSet(new ulong[]{0x00F0300400001100UL}); public static readonly BitSet FOLLOW_actionBodyParen_in_actionBodySequential2226 = new BitSet(new ulong[]{0x0000000000000082UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_actionBodyParen2244 = new BitSet(new ulong[]{0x00F0300400001100UL}); public static readonly BitSet FOLLOW_actionBody_in_actionBodyParen2246 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_actionBodyParen2249 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_statement_in_actionBodyParen2256 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_ABORT_in_statement2284 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_SKIP_in_statement2291 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_KILL_in_statement2298 = new BitSet(new ulong[]{0x0000000000001000UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_statement2300 = new BitSet(new ulong[]{0x0080000000000100UL}); public static readonly BitSet FOLLOW_set_in_statement2304 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_statement2312 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_discreteActionBody_in_statement2322 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_reference_in_statement2331 = new BitSet(new ulong[]{0x0100000000080002UL}); public static readonly BitSet FOLLOW_T_ASSIGNMENT_in_statement2359 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_statement2364 = new BitSet(new ulong[]{0x0200000000000002UL}); public static readonly BitSet FOLLOW_T_WITH_in_statement2384 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_statement2388 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_COMMA_in_statement2441 = new BitSet(new ulong[]{0x0080000000000100UL}); public static readonly BitSet FOLLOW_reference_in_statement2445 = new BitSet(new ulong[]{0x0100000000080000UL}); public static readonly BitSet FOLLOW_T_ASSIGNMENT_in_statement2460 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_statement2482 = new BitSet(new ulong[]{0x0000000000080000UL}); public static readonly BitSet FOLLOW_T_COMMA_in_statement2501 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_statement2505 = new BitSet(new ulong[]{0x0200000000080002UL}); public static readonly BitSet FOLLOW_T_WITH_in_statement2519 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_statement2523 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_atomExpression_in_expression2598 = new BitSet(new ulong[]{0xFC03800000800202UL,0x00000000000FFFFBUL}); public static readonly BitSet FOLLOW_binoperator_in_expression2611 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_atomExpression_in_expression2619 = new BitSet(new ulong[]{0xFC03800000800202UL,0x00000000000FFFFBUL}); public static readonly BitSet FOLLOW_T_BIIMPLIES_in_binoperator2652 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_GREATER_in_binoperator2661 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_GREATEREQUAL_in_binoperator2671 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_LESS_in_binoperator2680 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_LESSEQUAL_in_binoperator2690 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_EQUAL_in_binoperator2699 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_NOTEQUAL_in_binoperator2711 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_IMPLIES_in_binoperator2722 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_MINUS_in_binoperator2731 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_SUM_in_binoperator2741 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_IN_in_binoperator2751 = new BitSet(new ulong[]{0x0000000000000002UL,0x0000000000000004UL}); public static readonly BitSet FOLLOW_T_SET_in_binoperator2753 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_NOT_in_binoperator2764 = new BitSet(new ulong[]{0x0000000000000000UL,0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_IN_in_binoperator2766 = new BitSet(new ulong[]{0x0000000000000002UL,0x0000000000000004UL}); public static readonly BitSet FOLLOW_T_SET_in_binoperator2768 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_SUBSET_in_binoperator2779 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_OR_in_binoperator2789 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_DIV_in_binoperator2798 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_PROD_in_binoperator2807 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_IDIV_in_binoperator2817 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_MOD_in_binoperator2827 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_UNION_in_binoperator2837 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_DIFF_in_binoperator2848 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_INTER_in_binoperator2859 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_AND_in_binoperator2870 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_POW_in_binoperator2885 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_CONC_in_binoperator2900 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_DOMRESBY_in_binoperator2913 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_DOMRESTO_in_binoperator2923 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_RNGRESBY_in_binoperator2933 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_RNGRESTO_in_binoperator2943 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_MUNION_in_binoperator2953 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_SEQMOD_MAPOVERRIDE_in_binoperator2963 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_op_un_in_atomExpression3001 = new BitSet(new ulong[]{0x00800000A0019100UL,0x040000007F000000UL}); public static readonly BitSet FOLLOW_identifierExpression_in_atomExpression3018 = new BitSet(new ulong[]{0x0000000000000002UL,0x0200000000000000UL}); public static readonly BitSet FOLLOW_qvalExpression_in_atomExpression3029 = new BitSet(new ulong[]{0x0000000000000002UL,0x0200000000000000UL}); public static readonly BitSet FOLLOW_constant_in_atomExpression3040 = new BitSet(new ulong[]{0x0000000000000002UL,0x0200000000000000UL}); public static readonly BitSet FOLLOW_initializedComplexType_in_atomExpression3051 = new BitSet(new ulong[]{0x0000000000000002UL,0x0200000000000000UL}); public static readonly BitSet FOLLOW_quantifierExpression_in_atomExpression3063 = new BitSet(new ulong[]{0x0000000000000002UL,0x0200000000000000UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_atomExpression3072 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_atomExpression3076 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_atomExpression3078 = new BitSet(new ulong[]{0x0000000000009002UL,0x0200000000100000UL}); public static readonly BitSet FOLLOW_T_POINT_in_atomExpression3101 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_atomExpression3113 = new BitSet(new ulong[]{0x0000000000009002UL,0x0200000000100000UL}); public static readonly BitSet FOLLOW_accessExpression_in_atomExpression3137 = new BitSet(new ulong[]{0x0000000000000002UL,0x0200000000000000UL}); public static readonly BitSet FOLLOW_accessExpression_in_atomExpression3157 = new BitSet(new ulong[]{0x0000000000000002UL,0x0200000000000000UL}); public static readonly BitSet FOLLOW_121_in_atomExpression3176 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_atomExpression3180 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_IF_in_atomExpression3201 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_atomExpression3205 = new BitSet(new ulong[]{0x0000000000000000UL,0x0000000000400000UL}); public static readonly BitSet FOLLOW_T_THEN_in_atomExpression3207 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_atomExpression3211 = new BitSet(new ulong[]{0x0000000000000000UL,0x0000000000800000UL}); public static readonly BitSet FOLLOW_T_ELSE_in_atomExpression3213 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_atomExpression3217 = new BitSet(new ulong[]{0x0000080000000000UL}); public static readonly BitSet FOLLOW_T_END_in_atomExpression3219 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_set_in_quantifierExpression3251 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_quantifierExpression3268 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_quantifierExpression3271 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_simpleType_in_quantifierExpression3275 = new BitSet(new ulong[]{0x0000040000080000UL}); public static readonly BitSet FOLLOW_T_COMMA_in_quantifierExpression3286 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_quantifierExpression3290 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_quantifierExpression3293 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_simpleType_in_quantifierExpression3297 = new BitSet(new ulong[]{0x0000040000080000UL}); public static readonly BitSet FOLLOW_T_COLON_in_quantifierExpression3307 = new BitSet(new ulong[]{0x0000000000001000UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_quantifierExpression3309 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_quantifierExpression3313 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_quantifierExpression3315 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_TRUE_in_constant3349 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_FALSE_in_constant3357 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_NIL_in_constant3364 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_SELF_in_constant3372 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_FLOATNUMBER_in_constant3383 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_INTNUMBER_in_constant3392 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_STRINGLITERAL_in_constant3401 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_initializedListType_in_initializedComplexType3428 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_initializedSetType_in_initializedComplexType3437 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_NEW_in_initializedComplexType3445 = new BitSet(new ulong[]{0x0000000000001000UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_initializedComplexType3447 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_initializedComplexType3451 = new BitSet(new ulong[]{0x0000000000082000UL}); public static readonly BitSet FOLLOW_T_COMMA_in_initializedComplexType3463 = new BitSet(new ulong[]{0x0000000000000000UL,0x0000000020000000UL}); public static readonly BitSet FOLLOW_T_STRINGLITERAL_in_initializedComplexType3468 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_initializedComplexType3470 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_initializedComplexType3479 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_LSQPAREN_in_initializedListType3510 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_initializedListType3514 = new BitSet(new ulong[]{0x00000000000A0000UL,0x0000000080000000UL}); public static readonly BitSet FOLLOW_T_COMMA_in_initializedListType3525 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_initializedListType3529 = new BitSet(new ulong[]{0x00000000000A0000UL}); public static readonly BitSet FOLLOW_listComprehension_in_initializedListType3541 = new BitSet(new ulong[]{0x0000000000020000UL}); public static readonly BitSet FOLLOW_T_RSQPAREN_in_initializedListType3549 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_BAR_in_listComprehension3580 = new BitSet(new ulong[]{0x0000000400000000UL}); public static readonly BitSet FOLLOW_T_VAR_in_listComprehension3582 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_listComprehension3588 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_listComprehension3591 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_listComprehension3595 = new BitSet(new ulong[]{0x0000000000000082UL,0x0100000000000000UL}); public static readonly BitSet FOLLOW_T_SEMICOLON_in_listComprehension3604 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_listComprehension3608 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_listComprehension3613 = new BitSet(new ulong[]{0x0000000000000082UL,0x0100000000000000UL}); public static readonly BitSet FOLLOW_120_in_listComprehension3623 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_listComprehension3629 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_CBRL_in_initializedSetType3655 = new BitSet(new ulong[]{0x0000000000000000UL,0x0000000100000000UL}); public static readonly BitSet FOLLOW_T_MAPS_in_initializedSetType3657 = new BitSet(new ulong[]{0x0000000100000000UL}); public static readonly BitSet FOLLOW_T_CBRR_in_initializedSetType3659 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_initializedSet_in_initializedSetType3670 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_CBRL_in_initializedSet3696 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_initializedSet3700 = new BitSet(new ulong[]{0x0000000100080000UL,0x0000000180000000UL}); public static readonly BitSet FOLLOW_T_COMMA_in_initializedSet3730 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_initializedSet3734 = new BitSet(new ulong[]{0x0000000100080000UL}); public static readonly BitSet FOLLOW_map_in_initializedSet3752 = new BitSet(new ulong[]{0x0000000100000000UL}); public static readonly BitSet FOLLOW_setComprehension_in_initializedSet3765 = new BitSet(new ulong[]{0x0000000100000000UL}); public static readonly BitSet FOLLOW_T_CBRR_in_initializedSet3775 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_MAPS_in_map3813 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_map3817 = new BitSet(new ulong[]{0x0000000000080002UL}); public static readonly BitSet FOLLOW_T_COMMA_in_map3825 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_map3829 = new BitSet(new ulong[]{0x0000000000000000UL,0x0000000100000000UL}); public static readonly BitSet FOLLOW_T_MAPS_in_map3831 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_map3835 = new BitSet(new ulong[]{0x0000000000080002UL}); public static readonly BitSet FOLLOW_T_BAR_in_setComprehension3857 = new BitSet(new ulong[]{0x0000000400000000UL}); public static readonly BitSet FOLLOW_T_VAR_in_setComprehension3859 = new BitSet(new ulong[]{0x0000000000000102UL,0x0100000000000000UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_setComprehension3864 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_setComprehension3867 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_setComprehension3871 = new BitSet(new ulong[]{0x0000000000000080UL}); public static readonly BitSet FOLLOW_T_SEMICOLON_in_setComprehension3880 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_setComprehension3884 = new BitSet(new ulong[]{0x0000040000000000UL}); public static readonly BitSet FOLLOW_T_COLON_in_setComprehension3886 = new BitSet(new ulong[]{0x00000000D650D100UL}); public static readonly BitSet FOLLOW_complexType_in_setComprehension3890 = new BitSet(new ulong[]{0x0000000000000102UL,0x0100000000000000UL}); public static readonly BitSet FOLLOW_120_in_setComprehension3904 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_setComprehension3910 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_122_in_qvalExpression3945 = new BitSet(new ulong[]{0x0000000000001000UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_qvalExpression3947 = new BitSet(new ulong[]{0x0080000001800100UL,0x0000000010000000UL}); public static readonly BitSet FOLLOW_T_NIL_in_qvalExpression3961 = new BitSet(new ulong[]{0x0000000000080000UL}); public static readonly BitSet FOLLOW_qualifiedIdentifier_in_qvalExpression3982 = new BitSet(new ulong[]{0x0000000008080000UL}); public static readonly BitSet FOLLOW_T_MINUS_in_qvalExpression4001 = new BitSet(new ulong[]{0x0000000001000000UL}); public static readonly BitSet FOLLOW_T_INFTY_in_qvalExpression4007 = new BitSet(new ulong[]{0x0000000008080000UL}); public static readonly BitSet FOLLOW_T_RANGETO_in_qvalExpression4025 = new BitSet(new ulong[]{0x0080000001000100UL}); public static readonly BitSet FOLLOW_qualifiedIdentifier_in_qvalExpression4035 = new BitSet(new ulong[]{0x0000000000080000UL}); public static readonly BitSet FOLLOW_T_INFTY_in_qvalExpression4053 = new BitSet(new ulong[]{0x0000000000080000UL}); public static readonly BitSet FOLLOW_T_COMMA_in_qvalExpression4077 = new BitSet(new ulong[]{0x0000000000000000UL,0x3800000010000000UL}); public static readonly BitSet FOLLOW_T_NIL_in_qvalExpression4087 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_123_in_qvalExpression4103 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_124_in_qvalExpression4116 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_125_in_qvalExpression4129 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_qvalExpression4151 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_identifierExpression4184 = new BitSet(new ulong[]{0x0000000000001000UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_identifierExpression4186 = new BitSet(new ulong[]{0x00800000A081B100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_methodCallParams_in_identifierExpression4190 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_identifierExpression4192 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_reference_in_identifierExpression4207 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_qualifiedIdentifier_in_reference4245 = new BitSet(new ulong[]{0x000C000000009002UL,0x4000000200000000UL}); public static readonly BitSet FOLLOW_accessExpression_in_reference4257 = new BitSet(new ulong[]{0x000C000000000002UL,0x4000000200000000UL}); public static readonly BitSet FOLLOW_T_PRIMED_in_reference4282 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_126_in_reference4298 = new BitSet(new ulong[]{0x0000000000001000UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_reference4300 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_reference4304 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_reference4306 = new BitSet(new ulong[]{0x000C000000000000UL}); public static readonly BitSet FOLLOW_set_in_reference4312 = new BitSet(new ulong[]{0x0000000000001000UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_reference4318 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_reference4322 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_reference4324 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_LSQPAREN_in_accessExpression4369 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_accessExpression4373 = new BitSet(new ulong[]{0x0000000000020000UL}); public static readonly BitSet FOLLOW_T_RSQPAREN_in_accessExpression4375 = new BitSet(new ulong[]{0x0000000000009002UL,0x0000000000100000UL}); public static readonly BitSet FOLLOW_T_LPAREN_in_accessExpression4402 = new BitSet(new ulong[]{0x00800000A081B100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_methodCallParams_in_accessExpression4406 = new BitSet(new ulong[]{0x0000000000002000UL}); public static readonly BitSet FOLLOW_T_RPAREN_in_accessExpression4408 = new BitSet(new ulong[]{0x0000000000009002UL,0x0000000000100000UL}); public static readonly BitSet FOLLOW_T_POINT_in_accessExpression4430 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_accessExpression4438 = new BitSet(new ulong[]{0x0000000000009002UL,0x0000000000100000UL}); public static readonly BitSet FOLLOW_accessExpression_in_accessExpression4454 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_SELF_in_qualifiedIdentifier4493 = new BitSet(new ulong[]{0x0000000000000000UL,0x0000000000100000UL}); public static readonly BitSet FOLLOW_T_POINT_in_qualifiedIdentifier4495 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_qualifiedIdentifier4507 = new BitSet(new ulong[]{0x0000000000000002UL,0x0000000000100000UL}); public static readonly BitSet FOLLOW_T_POINT_in_qualifiedIdentifier4516 = new BitSet(new ulong[]{0x0000000000000100UL}); public static readonly BitSet FOLLOW_T_IDENTIFIER_in_qualifiedIdentifier4520 = new BitSet(new ulong[]{0x0000000000000002UL,0x0000000000100000UL}); public static readonly BitSet FOLLOW_expression_in_methodCallParams4553 = new BitSet(new ulong[]{0x0000000000080002UL}); public static readonly BitSet FOLLOW_T_COMMA_in_methodCallParams4558 = new BitSet(new ulong[]{0x00800000A0819100UL,0x04007FFC7F200008UL}); public static readonly BitSet FOLLOW_expression_in_methodCallParams4562 = new BitSet(new ulong[]{0x0000000000080002UL}); public static readonly BitSet FOLLOW_op_un_set_list_in_op_un4601 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_op_un_map_in_op_un4610 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_MINUS_in_op_un4618 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_NOT_in_op_un4626 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_ABS_in_op_un4634 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_CARD_in_op_un_set_list4661 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_DCONC_in_op_un_set_list4672 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_DINTER_in_op_un_set_list4683 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_DUNION_in_op_un_set_list4693 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_ELEMS_in_op_un_set_list4703 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_HEAD_in_op_un_set_list4714 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_INDS_in_op_un_set_list4725 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_LEN_in_op_un_set_list4736 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_TAIL_in_op_un_set_list4747 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_DOM_in_op_un_map4776 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_RNG_in_op_un_map4787 = new BitSet(new ulong[]{0x0000000000000002UL}); public static readonly BitSet FOLLOW_T_MERGE_in_op_un_map4798 = new BitSet(new ulong[]{0x0000000000000002UL}); } }