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Visual AST for ANTLR Generated Parser Output

, 17 May 2012 CPOL
Build a visual AST from ANTLR parser
EntityMapping_src.zip
EntityMapping
binaries
Antlr3.Runtime.dll
Antlr3.Runtime.pdb
EntityMapping.g
EntMapping
EntMapping.suo
EntMapping.csproj.user
Properties
Settings.settings
Utility
output
EntityMapping.tokens
EntMapping.suo
//------------------------------------------------------------------------------
// <auto-generated>
//     This code was generated by a tool.
//     ANTLR Version: 3.4
//
//     Changes to this file may cause incorrect behavior and will be lost if
//     the code is regenerated.
// </auto-generated>
//------------------------------------------------------------------------------

// $ANTLR 3.4 E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g 2012-04-20 08:32:14

// The variable 'variable' is assigned but its value is never used.
#pragma warning disable 219
// Unreachable code detected.
#pragma warning disable 162
// Missing XML comment for publicly visible type or member 'Type_or_Member'
#pragma warning disable 1591
// CLS compliance checking will not be performed on 'type' because it is not visible from outside this assembly.
#pragma warning disable 3019


   using System;
   using System.Collections;


using System.Collections.Generic;
using Antlr.Runtime;
using Antlr.Runtime.Misc;


using Antlr.Runtime.Tree;
using RewriteRuleITokenStream = Antlr.Runtime.Tree.RewriteRuleTokenStream;

namespace  EntMapping 
{
[System.CodeDom.Compiler.GeneratedCode("ANTLR", "3.4")]
[System.CLSCompliant(false)]
public partial class EntityMappingParser : Antlr.Runtime.Parser
{
	internal static readonly string[] tokenNames = new string[] {
		"<invalid>", "<EOR>", "<DOWN>", "<UP>", "AND", "ASSIGN", "CALL", "CHAR", "COMMENT", "COND", "DEC", "DIV", "ENTMAP", "EQUALS", "ESC_SEQ", "EXPONENT", "FLOAT", "GETMEMBER", "GT", "GTEQ", "HEX_DIGIT", "ID", "INC", "INT", "LT", "LTEQ", "MAPBODY", "MAPDCL", "MINUS", "MOD", "MULT", "NOT", "NOTEQUALS", "OCTAL_ESC", "OR", "PLUS", "STRING", "TFEXPR", "UNICODE_ESC", "WS", "'('", "')'", "','", "'.'", "';'", "'<-'", "'='", "'IF'"
	};
	public const int EOF=-1;
	public const int T__40=40;
	public const int T__41=41;
	public const int T__42=42;
	public const int T__43=43;
	public const int T__44=44;
	public const int T__45=45;
	public const int T__46=46;
	public const int T__47=47;
	public const int AND=4;
	public const int ASSIGN=5;
	public const int CALL=6;
	public const int CHAR=7;
	public const int COMMENT=8;
	public const int COND=9;
	public const int DEC=10;
	public const int DIV=11;
	public const int ENTMAP=12;
	public const int EQUALS=13;
	public const int ESC_SEQ=14;
	public const int EXPONENT=15;
	public const int FLOAT=16;
	public const int GETMEMBER=17;
	public const int GT=18;
	public const int GTEQ=19;
	public const int HEX_DIGIT=20;
	public const int ID=21;
	public const int INC=22;
	public const int INT=23;
	public const int LT=24;
	public const int LTEQ=25;
	public const int MAPBODY=26;
	public const int MAPDCL=27;
	public const int MINUS=28;
	public const int MOD=29;
	public const int MULT=30;
	public const int NOT=31;
	public const int NOTEQUALS=32;
	public const int OCTAL_ESC=33;
	public const int OR=34;
	public const int PLUS=35;
	public const int STRING=36;
	public const int TFEXPR=37;
	public const int UNICODE_ESC=38;
	public const int WS=39;

	public EntityMappingParser(ITokenStream input)
		: this(input, new RecognizerSharedState())
	{
	}
	public EntityMappingParser(ITokenStream input, RecognizerSharedState state)
		: base(input, state)
	{
		ITreeAdaptor treeAdaptor = default(ITreeAdaptor);
		CreateTreeAdaptor(ref treeAdaptor);
		TreeAdaptor = treeAdaptor ?? new CommonTreeAdaptor();
		OnCreated();
	}
	// Implement this function in your helper file to use a custom tree adaptor
	partial void CreateTreeAdaptor(ref ITreeAdaptor adaptor);

	private ITreeAdaptor adaptor;

	public ITreeAdaptor TreeAdaptor
	{
		get
		{
			return adaptor;
		}

		set
		{
			this.adaptor = value;
		}
	}

	public override string[] TokenNames { get { return EntityMappingParser.tokenNames; } }
	public override string GrammarFileName { get { return "E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g"; } }


	partial void OnCreated();
	partial void EnterRule(string ruleName, int ruleIndex);
	partial void LeaveRule(string ruleName, int ruleIndex);

	#region Rules
	partial void EnterRule_prog();
	partial void LeaveRule_prog();

	// $ANTLR start "prog"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:28:8: public prog : mapDeclaration ( stat )* -> ^( ENTMAP mapDeclaration ^( MAPBODY ( stat )* ) ) ;
	[GrammarRule("prog")]
	public AstParserRuleReturnScope<CommonTree, IToken> prog()
	{
		EnterRule_prog();
		EnterRule("prog", 1);
		TraceIn("prog", 1);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		AstParserRuleReturnScope<CommonTree, IToken> mapDeclaration1 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> stat2 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		RewriteRuleSubtreeStream stream_mapDeclaration=new RewriteRuleSubtreeStream(adaptor,"rule mapDeclaration");
		RewriteRuleSubtreeStream stream_stat=new RewriteRuleSubtreeStream(adaptor,"rule stat");
		try { DebugEnterRule(GrammarFileName, "prog");
		DebugLocation(28, 82);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:28:13: ( mapDeclaration ( stat )* -> ^( ENTMAP mapDeclaration ^( MAPBODY ( stat )* ) ) )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:28:15: mapDeclaration ( stat )*
			{
			DebugLocation(28, 15);
			PushFollow(Follow._mapDeclaration_in_prog108);
			mapDeclaration1=mapDeclaration();
			PopFollow();

			stream_mapDeclaration.Add(mapDeclaration1.Tree);
			DebugLocation(28, 30);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:28:30: ( stat )*
			try { DebugEnterSubRule(1);
			while (true)
			{
				int alt1=2;
				try { DebugEnterDecision(1, false);
				int LA1_0 = input.LA(1);

				if ((LA1_0==ID))
				{
					alt1 = 1;
				}


				} finally { DebugExitDecision(1); }
				switch ( alt1 )
				{
				case 1:
					DebugEnterAlt(1);
					// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:28:30: stat
					{
					DebugLocation(28, 30);
					PushFollow(Follow._stat_in_prog110);
					stat2=stat();
					PopFollow();

					stream_stat.Add(stat2.Tree);

					}
					break;

				default:
					goto loop1;
				}
			}

			loop1:
				;

			} finally { DebugExitSubRule(1); }



			{
			// AST REWRITE
			// elements: mapDeclaration, stat
			// token labels: 
			// rule labels: retval
			// token list labels: 
			// rule list labels: 
			// wildcard labels: 
			retval.Tree = root_0;
			RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.Tree:null);

			root_0 = (CommonTree)adaptor.Nil();
			// 28:36: -> ^( ENTMAP mapDeclaration ^( MAPBODY ( stat )* ) )
			{
				DebugLocation(28, 39);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:28:39: ^( ENTMAP mapDeclaration ^( MAPBODY ( stat )* ) )
				{
				CommonTree root_1 = (CommonTree)adaptor.Nil();
				DebugLocation(28, 41);
				root_1 = (CommonTree)adaptor.BecomeRoot((CommonTree)adaptor.Create(ENTMAP, "ENTMAP"), root_1);

				DebugLocation(28, 48);
				adaptor.AddChild(root_1, stream_mapDeclaration.NextTree());
				DebugLocation(28, 63);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:28:63: ^( MAPBODY ( stat )* )
				{
				CommonTree root_2 = (CommonTree)adaptor.Nil();
				DebugLocation(28, 65);
				root_2 = (CommonTree)adaptor.BecomeRoot((CommonTree)adaptor.Create(MAPBODY, "MAPBODY"), root_2);

				DebugLocation(28, 73);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:28:73: ( stat )*
				while ( stream_stat.HasNext )
				{
					DebugLocation(28, 73);
					adaptor.AddChild(root_2, stream_stat.NextTree());

				}
				stream_stat.Reset();

				adaptor.AddChild(root_1, root_2);
				}

				adaptor.AddChild(root_0, root_1);
				}

			}

			retval.Tree = root_0;
			}

			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("prog", 1);
			LeaveRule("prog", 1);
			LeaveRule_prog();
		}
		DebugLocation(28, 82);
		} finally { DebugExitRule(GrammarFileName, "prog"); }
		return retval;

	}
	// $ANTLR end "prog"

	partial void EnterRule_mapDeclaration();
	partial void LeaveRule_mapDeclaration();

	// $ANTLR start "mapDeclaration"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:30:1: mapDeclaration : ID '<-' ID ';' -> ^( MAPDCL ID ID ) ;
	[GrammarRule("mapDeclaration")]
	private AstParserRuleReturnScope<CommonTree, IToken> mapDeclaration()
	{
		EnterRule_mapDeclaration();
		EnterRule("mapDeclaration", 2);
		TraceIn("mapDeclaration", 2);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken ID3 = default(IToken);
		IToken string_literal4 = default(IToken);
		IToken ID5 = default(IToken);
		IToken char_literal6 = default(IToken);

		CommonTree ID3_tree = default(CommonTree);
		CommonTree string_literal4_tree = default(CommonTree);
		CommonTree ID5_tree = default(CommonTree);
		CommonTree char_literal6_tree = default(CommonTree);
		RewriteRuleITokenStream stream_45=new RewriteRuleITokenStream(adaptor,"token 45");
		RewriteRuleITokenStream stream_44=new RewriteRuleITokenStream(adaptor,"token 44");
		RewriteRuleITokenStream stream_ID=new RewriteRuleITokenStream(adaptor,"token ID");
		try { DebugEnterRule(GrammarFileName, "mapDeclaration");
		DebugLocation(30, 51);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:30:16: ( ID '<-' ID ';' -> ^( MAPDCL ID ID ) )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:30:18: ID '<-' ID ';'
			{
			DebugLocation(30, 18);
			ID3=(IToken)Match(input,ID,Follow._ID_in_mapDeclaration137);  
			stream_ID.Add(ID3);

			DebugLocation(30, 21);
			string_literal4=(IToken)Match(input,45,Follow._45_in_mapDeclaration139);  
			stream_45.Add(string_literal4);

			DebugLocation(30, 26);
			ID5=(IToken)Match(input,ID,Follow._ID_in_mapDeclaration141);  
			stream_ID.Add(ID5);

			DebugLocation(30, 29);
			char_literal6=(IToken)Match(input,44,Follow._44_in_mapDeclaration143);  
			stream_44.Add(char_literal6);



			{
			// AST REWRITE
			// elements: ID, ID
			// token labels: 
			// rule labels: retval
			// token list labels: 
			// rule list labels: 
			// wildcard labels: 
			retval.Tree = root_0;
			RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.Tree:null);

			root_0 = (CommonTree)adaptor.Nil();
			// 30:33: -> ^( MAPDCL ID ID )
			{
				DebugLocation(30, 36);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:30:36: ^( MAPDCL ID ID )
				{
				CommonTree root_1 = (CommonTree)adaptor.Nil();
				DebugLocation(30, 38);
				root_1 = (CommonTree)adaptor.BecomeRoot((CommonTree)adaptor.Create(MAPDCL, "MAPDCL"), root_1);

				DebugLocation(30, 45);
				adaptor.AddChild(root_1, stream_ID.NextNode());
				DebugLocation(30, 48);
				adaptor.AddChild(root_1, stream_ID.NextNode());

				adaptor.AddChild(root_0, root_1);
				}

			}

			retval.Tree = root_0;
			}

			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("mapDeclaration", 2);
			LeaveRule("mapDeclaration", 2);
			LeaveRule_mapDeclaration();
		}
		DebugLocation(30, 51);
		} finally { DebugExitRule(GrammarFileName, "mapDeclaration"); }
		return retval;

	}
	// $ANTLR end "mapDeclaration"

	partial void EnterRule_stat();
	partial void LeaveRule_stat();

	// $ANTLR start "stat"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:32:1: stat : ID '=' expr ';' -> ^( ASSIGN ID expr ) ;
	[GrammarRule("stat")]
	private AstParserRuleReturnScope<CommonTree, IToken> stat()
	{
		EnterRule_stat();
		EnterRule("stat", 3);
		TraceIn("stat", 3);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken ID7 = default(IToken);
		IToken char_literal8 = default(IToken);
		IToken char_literal10 = default(IToken);
		AstParserRuleReturnScope<CommonTree, IToken> expr9 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		CommonTree ID7_tree = default(CommonTree);
		CommonTree char_literal8_tree = default(CommonTree);
		CommonTree char_literal10_tree = default(CommonTree);
		RewriteRuleITokenStream stream_44=new RewriteRuleITokenStream(adaptor,"token 44");
		RewriteRuleITokenStream stream_46=new RewriteRuleITokenStream(adaptor,"token 46");
		RewriteRuleITokenStream stream_ID=new RewriteRuleITokenStream(adaptor,"token ID");
		RewriteRuleSubtreeStream stream_expr=new RewriteRuleSubtreeStream(adaptor,"rule expr");
		try { DebugEnterRule(GrammarFileName, "stat");
		DebugLocation(32, 43);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:32:6: ( ID '=' expr ';' -> ^( ASSIGN ID expr ) )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:32:8: ID '=' expr ';'
			{
			DebugLocation(32, 8);
			ID7=(IToken)Match(input,ID,Follow._ID_in_stat162);  
			stream_ID.Add(ID7);

			DebugLocation(32, 11);
			char_literal8=(IToken)Match(input,46,Follow._46_in_stat164);  
			stream_46.Add(char_literal8);

			DebugLocation(32, 15);
			PushFollow(Follow._expr_in_stat166);
			expr9=expr();
			PopFollow();

			stream_expr.Add(expr9.Tree);
			DebugLocation(32, 20);
			char_literal10=(IToken)Match(input,44,Follow._44_in_stat168);  
			stream_44.Add(char_literal10);



			{
			// AST REWRITE
			// elements: expr, ID
			// token labels: 
			// rule labels: retval
			// token list labels: 
			// rule list labels: 
			// wildcard labels: 
			retval.Tree = root_0;
			RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.Tree:null);

			root_0 = (CommonTree)adaptor.Nil();
			// 32:24: -> ^( ASSIGN ID expr )
			{
				DebugLocation(32, 27);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:32:27: ^( ASSIGN ID expr )
				{
				CommonTree root_1 = (CommonTree)adaptor.Nil();
				DebugLocation(32, 29);
				root_1 = (CommonTree)adaptor.BecomeRoot((CommonTree)adaptor.Create(ASSIGN, "ASSIGN"), root_1);

				DebugLocation(32, 36);
				adaptor.AddChild(root_1, stream_ID.NextNode());
				DebugLocation(32, 39);
				adaptor.AddChild(root_1, stream_expr.NextTree());

				adaptor.AddChild(root_0, root_1);
				}

			}

			retval.Tree = root_0;
			}

			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("stat", 3);
			LeaveRule("stat", 3);
			LeaveRule_stat();
		}
		DebugLocation(32, 43);
		} finally { DebugExitRule(GrammarFileName, "stat"); }
		return retval;

	}
	// $ANTLR end "stat"

	partial void EnterRule_expr();
	partial void LeaveRule_expr();

	// $ANTLR start "expr"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:34:1: expr : boolAndExpr ( OR ^ boolAndExpr )* ;
	[GrammarRule("expr")]
	private AstParserRuleReturnScope<CommonTree, IToken> expr()
	{
		EnterRule_expr();
		EnterRule("expr", 4);
		TraceIn("expr", 4);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken OR12 = default(IToken);
		AstParserRuleReturnScope<CommonTree, IToken> boolAndExpr11 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> boolAndExpr13 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		CommonTree OR12_tree = default(CommonTree);
		try { DebugEnterRule(GrammarFileName, "expr");
		DebugLocation(34, 37);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:34:6: ( boolAndExpr ( OR ^ boolAndExpr )* )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:34:8: boolAndExpr ( OR ^ boolAndExpr )*
			{
			root_0 = (CommonTree)adaptor.Nil();

			DebugLocation(34, 8);
			PushFollow(Follow._boolAndExpr_in_expr186);
			boolAndExpr11=boolAndExpr();
			PopFollow();

			adaptor.AddChild(root_0, boolAndExpr11.Tree);
			DebugLocation(34, 20);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:34:20: ( OR ^ boolAndExpr )*
			try { DebugEnterSubRule(2);
			while (true)
			{
				int alt2=2;
				try { DebugEnterDecision(2, false);
				int LA2_0 = input.LA(1);

				if ((LA2_0==OR))
				{
					alt2 = 1;
				}


				} finally { DebugExitDecision(2); }
				switch ( alt2 )
				{
				case 1:
					DebugEnterAlt(1);
					// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:34:21: OR ^ boolAndExpr
					{
					DebugLocation(34, 23);
					OR12=(IToken)Match(input,OR,Follow._OR_in_expr189); 
					OR12_tree = (CommonTree)adaptor.Create(OR12);
					root_0 = (CommonTree)adaptor.BecomeRoot(OR12_tree, root_0);
					DebugLocation(34, 25);
					PushFollow(Follow._boolAndExpr_in_expr192);
					boolAndExpr13=boolAndExpr();
					PopFollow();

					adaptor.AddChild(root_0, boolAndExpr13.Tree);

					}
					break;

				default:
					goto loop2;
				}
			}

			loop2:
				;

			} finally { DebugExitSubRule(2); }


			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("expr", 4);
			LeaveRule("expr", 4);
			LeaveRule_expr();
		}
		DebugLocation(34, 37);
		} finally { DebugExitRule(GrammarFileName, "expr"); }
		return retval;

	}
	// $ANTLR end "expr"

	partial void EnterRule_boolAndExpr();
	partial void LeaveRule_boolAndExpr();

	// $ANTLR start "boolAndExpr"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:36:1: boolAndExpr : equalityExpr ( AND ^ equalityExpr )* ;
	[GrammarRule("boolAndExpr")]
	private AstParserRuleReturnScope<CommonTree, IToken> boolAndExpr()
	{
		EnterRule_boolAndExpr();
		EnterRule("boolAndExpr", 5);
		TraceIn("boolAndExpr", 5);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken AND15 = default(IToken);
		AstParserRuleReturnScope<CommonTree, IToken> equalityExpr14 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> equalityExpr16 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		CommonTree AND15_tree = default(CommonTree);
		try { DebugEnterRule(GrammarFileName, "boolAndExpr");
		DebugLocation(36, 47);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:36:13: ( equalityExpr ( AND ^ equalityExpr )* )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:36:15: equalityExpr ( AND ^ equalityExpr )*
			{
			root_0 = (CommonTree)adaptor.Nil();

			DebugLocation(36, 15);
			PushFollow(Follow._equalityExpr_in_boolAndExpr202);
			equalityExpr14=equalityExpr();
			PopFollow();

			adaptor.AddChild(root_0, equalityExpr14.Tree);
			DebugLocation(36, 28);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:36:28: ( AND ^ equalityExpr )*
			try { DebugEnterSubRule(3);
			while (true)
			{
				int alt3=2;
				try { DebugEnterDecision(3, false);
				int LA3_0 = input.LA(1);

				if ((LA3_0==AND))
				{
					alt3 = 1;
				}


				} finally { DebugExitDecision(3); }
				switch ( alt3 )
				{
				case 1:
					DebugEnterAlt(1);
					// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:36:29: AND ^ equalityExpr
					{
					DebugLocation(36, 32);
					AND15=(IToken)Match(input,AND,Follow._AND_in_boolAndExpr205); 
					AND15_tree = (CommonTree)adaptor.Create(AND15);
					root_0 = (CommonTree)adaptor.BecomeRoot(AND15_tree, root_0);
					DebugLocation(36, 34);
					PushFollow(Follow._equalityExpr_in_boolAndExpr208);
					equalityExpr16=equalityExpr();
					PopFollow();

					adaptor.AddChild(root_0, equalityExpr16.Tree);

					}
					break;

				default:
					goto loop3;
				}
			}

			loop3:
				;

			} finally { DebugExitSubRule(3); }


			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("boolAndExpr", 5);
			LeaveRule("boolAndExpr", 5);
			LeaveRule_boolAndExpr();
		}
		DebugLocation(36, 47);
		} finally { DebugExitRule(GrammarFileName, "boolAndExpr"); }
		return retval;

	}
	// $ANTLR end "boolAndExpr"

	partial void EnterRule_equalityExpr();
	partial void LeaveRule_equalityExpr();

	// $ANTLR start "equalityExpr"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:38:1: equalityExpr : relationalExpr ( ( EQUALS ^| NOTEQUALS ^) relationalExpr )* ;
	[GrammarRule("equalityExpr")]
	private AstParserRuleReturnScope<CommonTree, IToken> equalityExpr()
	{
		EnterRule_equalityExpr();
		EnterRule("equalityExpr", 6);
		TraceIn("equalityExpr", 6);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken EQUALS18 = default(IToken);
		IToken NOTEQUALS19 = default(IToken);
		AstParserRuleReturnScope<CommonTree, IToken> relationalExpr17 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> relationalExpr20 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		CommonTree EQUALS18_tree = default(CommonTree);
		CommonTree NOTEQUALS19_tree = default(CommonTree);
		try { DebugEnterRule(GrammarFileName, "equalityExpr");
		DebugLocation(38, 67);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:38:14: ( relationalExpr ( ( EQUALS ^| NOTEQUALS ^) relationalExpr )* )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:38:16: relationalExpr ( ( EQUALS ^| NOTEQUALS ^) relationalExpr )*
			{
			root_0 = (CommonTree)adaptor.Nil();

			DebugLocation(38, 16);
			PushFollow(Follow._relationalExpr_in_equalityExpr218);
			relationalExpr17=relationalExpr();
			PopFollow();

			adaptor.AddChild(root_0, relationalExpr17.Tree);
			DebugLocation(38, 31);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:38:31: ( ( EQUALS ^| NOTEQUALS ^) relationalExpr )*
			try { DebugEnterSubRule(5);
			while (true)
			{
				int alt5=2;
				try { DebugEnterDecision(5, false);
				int LA5_0 = input.LA(1);

				if ((LA5_0==EQUALS||LA5_0==NOTEQUALS))
				{
					alt5 = 1;
				}


				} finally { DebugExitDecision(5); }
				switch ( alt5 )
				{
				case 1:
					DebugEnterAlt(1);
					// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:38:32: ( EQUALS ^| NOTEQUALS ^) relationalExpr
					{
					DebugLocation(38, 32);
					// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:38:32: ( EQUALS ^| NOTEQUALS ^)
					int alt4=2;
					try { DebugEnterSubRule(4);
					try { DebugEnterDecision(4, false);
					int LA4_0 = input.LA(1);

					if ((LA4_0==EQUALS))
					{
						alt4 = 1;
					}
					else if ((LA4_0==NOTEQUALS))
					{
						alt4 = 2;
					}
					else
					{
						NoViableAltException nvae = new NoViableAltException("", 4, 0, input);
						DebugRecognitionException(nvae);
						throw nvae;
					}
					} finally { DebugExitDecision(4); }
					switch (alt4)
					{
					case 1:
						DebugEnterAlt(1);
						// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:38:33: EQUALS ^
						{
						DebugLocation(38, 39);
						EQUALS18=(IToken)Match(input,EQUALS,Follow._EQUALS_in_equalityExpr222); 
						EQUALS18_tree = (CommonTree)adaptor.Create(EQUALS18);
						root_0 = (CommonTree)adaptor.BecomeRoot(EQUALS18_tree, root_0);

						}
						break;
					case 2:
						DebugEnterAlt(2);
						// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:38:41: NOTEQUALS ^
						{
						DebugLocation(38, 50);
						NOTEQUALS19=(IToken)Match(input,NOTEQUALS,Follow._NOTEQUALS_in_equalityExpr225); 
						NOTEQUALS19_tree = (CommonTree)adaptor.Create(NOTEQUALS19);
						root_0 = (CommonTree)adaptor.BecomeRoot(NOTEQUALS19_tree, root_0);

						}
						break;

					}
					} finally { DebugExitSubRule(4); }

					DebugLocation(38, 52);
					PushFollow(Follow._relationalExpr_in_equalityExpr228);
					relationalExpr20=relationalExpr();
					PopFollow();

					adaptor.AddChild(root_0, relationalExpr20.Tree);

					}
					break;

				default:
					goto loop5;
				}
			}

			loop5:
				;

			} finally { DebugExitSubRule(5); }


			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("equalityExpr", 6);
			LeaveRule("equalityExpr", 6);
			LeaveRule_equalityExpr();
		}
		DebugLocation(38, 67);
		} finally { DebugExitRule(GrammarFileName, "equalityExpr"); }
		return retval;

	}
	// $ANTLR end "equalityExpr"

	partial void EnterRule_relationalExpr();
	partial void LeaveRule_relationalExpr();

	// $ANTLR start "relationalExpr"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:40:1: relationalExpr : additiveExpr ( ( LT ^| LTEQ ^| GT ^| GTEQ ^) additiveExpr )* ;
	[GrammarRule("relationalExpr")]
	private AstParserRuleReturnScope<CommonTree, IToken> relationalExpr()
	{
		EnterRule_relationalExpr();
		EnterRule("relationalExpr", 7);
		TraceIn("relationalExpr", 7);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken LT22 = default(IToken);
		IToken LTEQ23 = default(IToken);
		IToken GT24 = default(IToken);
		IToken GTEQ25 = default(IToken);
		AstParserRuleReturnScope<CommonTree, IToken> additiveExpr21 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> additiveExpr26 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		CommonTree LT22_tree = default(CommonTree);
		CommonTree LTEQ23_tree = default(CommonTree);
		CommonTree GT24_tree = default(CommonTree);
		CommonTree GTEQ25_tree = default(CommonTree);
		try { DebugEnterRule(GrammarFileName, "relationalExpr");
		DebugLocation(40, 67);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:40:16: ( additiveExpr ( ( LT ^| LTEQ ^| GT ^| GTEQ ^) additiveExpr )* )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:40:18: additiveExpr ( ( LT ^| LTEQ ^| GT ^| GTEQ ^) additiveExpr )*
			{
			root_0 = (CommonTree)adaptor.Nil();

			DebugLocation(40, 18);
			PushFollow(Follow._additiveExpr_in_relationalExpr238);
			additiveExpr21=additiveExpr();
			PopFollow();

			adaptor.AddChild(root_0, additiveExpr21.Tree);
			DebugLocation(40, 31);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:40:31: ( ( LT ^| LTEQ ^| GT ^| GTEQ ^) additiveExpr )*
			try { DebugEnterSubRule(7);
			while (true)
			{
				int alt7=2;
				try { DebugEnterDecision(7, false);
				int LA7_0 = input.LA(1);

				if (((LA7_0>=GT && LA7_0<=GTEQ)||(LA7_0>=LT && LA7_0<=LTEQ)))
				{
					alt7 = 1;
				}


				} finally { DebugExitDecision(7); }
				switch ( alt7 )
				{
				case 1:
					DebugEnterAlt(1);
					// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:40:32: ( LT ^| LTEQ ^| GT ^| GTEQ ^) additiveExpr
					{
					DebugLocation(40, 32);
					// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:40:32: ( LT ^| LTEQ ^| GT ^| GTEQ ^)
					int alt6=4;
					try { DebugEnterSubRule(6);
					try { DebugEnterDecision(6, false);
					switch (input.LA(1))
					{
					case LT:
						{
						alt6 = 1;
						}
						break;
					case LTEQ:
						{
						alt6 = 2;
						}
						break;
					case GT:
						{
						alt6 = 3;
						}
						break;
					case GTEQ:
						{
						alt6 = 4;
						}
						break;
					default:
						{
							NoViableAltException nvae = new NoViableAltException("", 6, 0, input);
							DebugRecognitionException(nvae);
							throw nvae;
						}
					}

					} finally { DebugExitDecision(6); }
					switch (alt6)
					{
					case 1:
						DebugEnterAlt(1);
						// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:40:33: LT ^
						{
						DebugLocation(40, 35);
						LT22=(IToken)Match(input,LT,Follow._LT_in_relationalExpr242); 
						LT22_tree = (CommonTree)adaptor.Create(LT22);
						root_0 = (CommonTree)adaptor.BecomeRoot(LT22_tree, root_0);

						}
						break;
					case 2:
						DebugEnterAlt(2);
						// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:40:37: LTEQ ^
						{
						DebugLocation(40, 41);
						LTEQ23=(IToken)Match(input,LTEQ,Follow._LTEQ_in_relationalExpr245); 
						LTEQ23_tree = (CommonTree)adaptor.Create(LTEQ23);
						root_0 = (CommonTree)adaptor.BecomeRoot(LTEQ23_tree, root_0);

						}
						break;
					case 3:
						DebugEnterAlt(3);
						// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:40:43: GT ^
						{
						DebugLocation(40, 45);
						GT24=(IToken)Match(input,GT,Follow._GT_in_relationalExpr248); 
						GT24_tree = (CommonTree)adaptor.Create(GT24);
						root_0 = (CommonTree)adaptor.BecomeRoot(GT24_tree, root_0);

						}
						break;
					case 4:
						DebugEnterAlt(4);
						// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:40:47: GTEQ ^
						{
						DebugLocation(40, 51);
						GTEQ25=(IToken)Match(input,GTEQ,Follow._GTEQ_in_relationalExpr251); 
						GTEQ25_tree = (CommonTree)adaptor.Create(GTEQ25);
						root_0 = (CommonTree)adaptor.BecomeRoot(GTEQ25_tree, root_0);

						}
						break;

					}
					} finally { DebugExitSubRule(6); }

					DebugLocation(40, 53);
					PushFollow(Follow._additiveExpr_in_relationalExpr254);
					additiveExpr26=additiveExpr();
					PopFollow();

					adaptor.AddChild(root_0, additiveExpr26.Tree);

					}
					break;

				default:
					goto loop7;
				}
			}

			loop7:
				;

			} finally { DebugExitSubRule(7); }


			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("relationalExpr", 7);
			LeaveRule("relationalExpr", 7);
			LeaveRule_relationalExpr();
		}
		DebugLocation(40, 67);
		} finally { DebugExitRule(GrammarFileName, "relationalExpr"); }
		return retval;

	}
	// $ANTLR end "relationalExpr"

	partial void EnterRule_additiveExpr();
	partial void LeaveRule_additiveExpr();

	// $ANTLR start "additiveExpr"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:42:1: additiveExpr : multiExpr ( ( PLUS ^| MINUS ^) multiExpr )* ;
	[GrammarRule("additiveExpr")]
	private AstParserRuleReturnScope<CommonTree, IToken> additiveExpr()
	{
		EnterRule_additiveExpr();
		EnterRule("additiveExpr", 8);
		TraceIn("additiveExpr", 8);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken PLUS28 = default(IToken);
		IToken MINUS29 = default(IToken);
		AstParserRuleReturnScope<CommonTree, IToken> multiExpr27 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> multiExpr30 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		CommonTree PLUS28_tree = default(CommonTree);
		CommonTree MINUS29_tree = default(CommonTree);
		try { DebugEnterRule(GrammarFileName, "additiveExpr");
		DebugLocation(42, 54);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:42:14: ( multiExpr ( ( PLUS ^| MINUS ^) multiExpr )* )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:42:16: multiExpr ( ( PLUS ^| MINUS ^) multiExpr )*
			{
			root_0 = (CommonTree)adaptor.Nil();

			DebugLocation(42, 16);
			PushFollow(Follow._multiExpr_in_additiveExpr265);
			multiExpr27=multiExpr();
			PopFollow();

			adaptor.AddChild(root_0, multiExpr27.Tree);
			DebugLocation(42, 26);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:42:26: ( ( PLUS ^| MINUS ^) multiExpr )*
			try { DebugEnterSubRule(9);
			while (true)
			{
				int alt9=2;
				try { DebugEnterDecision(9, false);
				int LA9_0 = input.LA(1);

				if ((LA9_0==MINUS||LA9_0==PLUS))
				{
					alt9 = 1;
				}


				} finally { DebugExitDecision(9); }
				switch ( alt9 )
				{
				case 1:
					DebugEnterAlt(1);
					// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:42:28: ( PLUS ^| MINUS ^) multiExpr
					{
					DebugLocation(42, 28);
					// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:42:28: ( PLUS ^| MINUS ^)
					int alt8=2;
					try { DebugEnterSubRule(8);
					try { DebugEnterDecision(8, false);
					int LA8_0 = input.LA(1);

					if ((LA8_0==PLUS))
					{
						alt8 = 1;
					}
					else if ((LA8_0==MINUS))
					{
						alt8 = 2;
					}
					else
					{
						NoViableAltException nvae = new NoViableAltException("", 8, 0, input);
						DebugRecognitionException(nvae);
						throw nvae;
					}
					} finally { DebugExitDecision(8); }
					switch (alt8)
					{
					case 1:
						DebugEnterAlt(1);
						// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:42:29: PLUS ^
						{
						DebugLocation(42, 33);
						PLUS28=(IToken)Match(input,PLUS,Follow._PLUS_in_additiveExpr270); 
						PLUS28_tree = (CommonTree)adaptor.Create(PLUS28);
						root_0 = (CommonTree)adaptor.BecomeRoot(PLUS28_tree, root_0);

						}
						break;
					case 2:
						DebugEnterAlt(2);
						// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:42:35: MINUS ^
						{
						DebugLocation(42, 40);
						MINUS29=(IToken)Match(input,MINUS,Follow._MINUS_in_additiveExpr273); 
						MINUS29_tree = (CommonTree)adaptor.Create(MINUS29);
						root_0 = (CommonTree)adaptor.BecomeRoot(MINUS29_tree, root_0);

						}
						break;

					}
					} finally { DebugExitSubRule(8); }

					DebugLocation(42, 43);
					PushFollow(Follow._multiExpr_in_additiveExpr277);
					multiExpr30=multiExpr();
					PopFollow();

					adaptor.AddChild(root_0, multiExpr30.Tree);

					}
					break;

				default:
					goto loop9;
				}
			}

			loop9:
				;

			} finally { DebugExitSubRule(9); }


			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("additiveExpr", 8);
			LeaveRule("additiveExpr", 8);
			LeaveRule_additiveExpr();
		}
		DebugLocation(42, 54);
		} finally { DebugExitRule(GrammarFileName, "additiveExpr"); }
		return retval;

	}
	// $ANTLR end "additiveExpr"

	partial void EnterRule_multiExpr();
	partial void LeaveRule_multiExpr();

	// $ANTLR start "multiExpr"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:44:1: multiExpr : unaryExpr ( ( MULT ^| DIV ^| MOD ^) unaryExpr )* ;
	[GrammarRule("multiExpr")]
	private AstParserRuleReturnScope<CommonTree, IToken> multiExpr()
	{
		EnterRule_multiExpr();
		EnterRule("multiExpr", 9);
		TraceIn("multiExpr", 9);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken MULT32 = default(IToken);
		IToken DIV33 = default(IToken);
		IToken MOD34 = default(IToken);
		AstParserRuleReturnScope<CommonTree, IToken> unaryExpr31 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> unaryExpr35 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		CommonTree MULT32_tree = default(CommonTree);
		CommonTree DIV33_tree = default(CommonTree);
		CommonTree MOD34_tree = default(CommonTree);
		try { DebugEnterRule(GrammarFileName, "multiExpr");
		DebugLocation(44, 53);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:44:11: ( unaryExpr ( ( MULT ^| DIV ^| MOD ^) unaryExpr )* )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:44:13: unaryExpr ( ( MULT ^| DIV ^| MOD ^) unaryExpr )*
			{
			root_0 = (CommonTree)adaptor.Nil();

			DebugLocation(44, 13);
			PushFollow(Follow._unaryExpr_in_multiExpr288);
			unaryExpr31=unaryExpr();
			PopFollow();

			adaptor.AddChild(root_0, unaryExpr31.Tree);
			DebugLocation(44, 23);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:44:23: ( ( MULT ^| DIV ^| MOD ^) unaryExpr )*
			try { DebugEnterSubRule(11);
			while (true)
			{
				int alt11=2;
				try { DebugEnterDecision(11, false);
				int LA11_0 = input.LA(1);

				if ((LA11_0==DIV||(LA11_0>=MOD && LA11_0<=MULT)))
				{
					alt11 = 1;
				}


				} finally { DebugExitDecision(11); }
				switch ( alt11 )
				{
				case 1:
					DebugEnterAlt(1);
					// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:44:25: ( MULT ^| DIV ^| MOD ^) unaryExpr
					{
					DebugLocation(44, 25);
					// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:44:25: ( MULT ^| DIV ^| MOD ^)
					int alt10=3;
					try { DebugEnterSubRule(10);
					try { DebugEnterDecision(10, false);
					switch (input.LA(1))
					{
					case MULT:
						{
						alt10 = 1;
						}
						break;
					case DIV:
						{
						alt10 = 2;
						}
						break;
					case MOD:
						{
						alt10 = 3;
						}
						break;
					default:
						{
							NoViableAltException nvae = new NoViableAltException("", 10, 0, input);
							DebugRecognitionException(nvae);
							throw nvae;
						}
					}

					} finally { DebugExitDecision(10); }
					switch (alt10)
					{
					case 1:
						DebugEnterAlt(1);
						// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:44:26: MULT ^
						{
						DebugLocation(44, 30);
						MULT32=(IToken)Match(input,MULT,Follow._MULT_in_multiExpr293); 
						MULT32_tree = (CommonTree)adaptor.Create(MULT32);
						root_0 = (CommonTree)adaptor.BecomeRoot(MULT32_tree, root_0);

						}
						break;
					case 2:
						DebugEnterAlt(2);
						// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:44:32: DIV ^
						{
						DebugLocation(44, 35);
						DIV33=(IToken)Match(input,DIV,Follow._DIV_in_multiExpr296); 
						DIV33_tree = (CommonTree)adaptor.Create(DIV33);
						root_0 = (CommonTree)adaptor.BecomeRoot(DIV33_tree, root_0);

						}
						break;
					case 3:
						DebugEnterAlt(3);
						// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:44:37: MOD ^
						{
						DebugLocation(44, 40);
						MOD34=(IToken)Match(input,MOD,Follow._MOD_in_multiExpr299); 
						MOD34_tree = (CommonTree)adaptor.Create(MOD34);
						root_0 = (CommonTree)adaptor.BecomeRoot(MOD34_tree, root_0);

						}
						break;

					}
					} finally { DebugExitSubRule(10); }

					DebugLocation(44, 43);
					PushFollow(Follow._unaryExpr_in_multiExpr303);
					unaryExpr35=unaryExpr();
					PopFollow();

					adaptor.AddChild(root_0, unaryExpr35.Tree);

					}
					break;

				default:
					goto loop11;
				}
			}

			loop11:
				;

			} finally { DebugExitSubRule(11); }


			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("multiExpr", 9);
			LeaveRule("multiExpr", 9);
			LeaveRule_multiExpr();
		}
		DebugLocation(44, 53);
		} finally { DebugExitRule(GrammarFileName, "multiExpr"); }
		return retval;

	}
	// $ANTLR end "multiExpr"

	partial void EnterRule_unaryExpr();
	partial void LeaveRule_unaryExpr();

	// $ANTLR start "unaryExpr"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:46:1: unaryExpr : ( NOT ^| INC ^| DEC ^|) atom ;
	[GrammarRule("unaryExpr")]
	private AstParserRuleReturnScope<CommonTree, IToken> unaryExpr()
	{
		EnterRule_unaryExpr();
		EnterRule("unaryExpr", 10);
		TraceIn("unaryExpr", 10);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken NOT36 = default(IToken);
		IToken INC37 = default(IToken);
		IToken DEC38 = default(IToken);
		AstParserRuleReturnScope<CommonTree, IToken> atom39 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		CommonTree NOT36_tree = default(CommonTree);
		CommonTree INC37_tree = default(CommonTree);
		CommonTree DEC38_tree = default(CommonTree);
		try { DebugEnterRule(GrammarFileName, "unaryExpr");
		DebugLocation(46, 34);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:46:11: ( ( NOT ^| INC ^| DEC ^|) atom )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:46:13: ( NOT ^| INC ^| DEC ^|) atom
			{
			root_0 = (CommonTree)adaptor.Nil();

			DebugLocation(46, 13);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:46:13: ( NOT ^| INC ^| DEC ^|)
			int alt12=4;
			try { DebugEnterSubRule(12);
			try { DebugEnterDecision(12, false);
			switch (input.LA(1))
			{
			case NOT:
				{
				alt12 = 1;
				}
				break;
			case INC:
				{
				alt12 = 2;
				}
				break;
			case DEC:
				{
				alt12 = 3;
				}
				break;
			case CHAR:
			case FLOAT:
			case ID:
			case INT:
			case STRING:
			case 40:
			case 47:
				{
				alt12 = 4;
				}
				break;
			default:
				{
					NoViableAltException nvae = new NoViableAltException("", 12, 0, input);
					DebugRecognitionException(nvae);
					throw nvae;
				}
			}

			} finally { DebugExitDecision(12); }
			switch (alt12)
			{
			case 1:
				DebugEnterAlt(1);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:46:14: NOT ^
				{
				DebugLocation(46, 17);
				NOT36=(IToken)Match(input,NOT,Follow._NOT_in_unaryExpr314); 
				NOT36_tree = (CommonTree)adaptor.Create(NOT36);
				root_0 = (CommonTree)adaptor.BecomeRoot(NOT36_tree, root_0);

				}
				break;
			case 2:
				DebugEnterAlt(2);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:46:19: INC ^
				{
				DebugLocation(46, 22);
				INC37=(IToken)Match(input,INC,Follow._INC_in_unaryExpr317); 
				INC37_tree = (CommonTree)adaptor.Create(INC37);
				root_0 = (CommonTree)adaptor.BecomeRoot(INC37_tree, root_0);

				}
				break;
			case 3:
				DebugEnterAlt(3);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:46:24: DEC ^
				{
				DebugLocation(46, 27);
				DEC38=(IToken)Match(input,DEC,Follow._DEC_in_unaryExpr320); 
				DEC38_tree = (CommonTree)adaptor.Create(DEC38);
				root_0 = (CommonTree)adaptor.BecomeRoot(DEC38_tree, root_0);

				}
				break;
			case 4:
				DebugEnterAlt(4);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:46:29: 
				{
				}
				break;

			}
			} finally { DebugExitSubRule(12); }

			DebugLocation(46, 31);
			PushFollow(Follow._atom_in_unaryExpr325);
			atom39=atom();
			PopFollow();

			adaptor.AddChild(root_0, atom39.Tree);

			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("unaryExpr", 10);
			LeaveRule("unaryExpr", 10);
			LeaveRule_unaryExpr();
		}
		DebugLocation(46, 34);
		} finally { DebugExitRule(GrammarFileName, "unaryExpr"); }
		return retval;

	}
	// $ANTLR end "unaryExpr"

	partial void EnterRule_atom();
	partial void LeaveRule_atom();

	// $ANTLR start "atom"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:48:1: atom : ( value | ID | functionCall | ifExpr | memberAccess | '(' expr ')' );
	[GrammarRule("atom")]
	private AstParserRuleReturnScope<CommonTree, IToken> atom()
	{
		EnterRule_atom();
		EnterRule("atom", 11);
		TraceIn("atom", 11);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken ID41 = default(IToken);
		IToken char_literal45 = default(IToken);
		IToken char_literal47 = default(IToken);
		AstParserRuleReturnScope<CommonTree, IToken> value40 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> functionCall42 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> ifExpr43 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> memberAccess44 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> expr46 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		CommonTree ID41_tree = default(CommonTree);
		CommonTree char_literal45_tree = default(CommonTree);
		CommonTree char_literal47_tree = default(CommonTree);
		try { DebugEnterRule(GrammarFileName, "atom");
		DebugLocation(48, 16);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:48:6: ( value | ID | functionCall | ifExpr | memberAccess | '(' expr ')' )
			int alt13=6;
			try { DebugEnterDecision(13, false);
			switch (input.LA(1))
			{
			case CHAR:
			case FLOAT:
			case INT:
			case STRING:
				{
				alt13 = 1;
				}
				break;
			case ID:
				{
				switch (input.LA(2))
				{
				case 40:
					{
					alt13 = 3;
					}
					break;
				case 43:
					{
					alt13 = 5;
					}
					break;
				case AND:
				case DIV:
				case EQUALS:
				case GT:
				case GTEQ:
				case LT:
				case LTEQ:
				case MINUS:
				case MOD:
				case MULT:
				case NOTEQUALS:
				case OR:
				case PLUS:
				case 41:
				case 42:
				case 44:
					{
					alt13 = 2;
					}
					break;
				default:
					{
						NoViableAltException nvae = new NoViableAltException("", 13, 2, input);
						DebugRecognitionException(nvae);
						throw nvae;
					}
				}

				}
				break;
			case 47:
				{
				alt13 = 4;
				}
				break;
			case 40:
				{
				alt13 = 6;
				}
				break;
			default:
				{
					NoViableAltException nvae = new NoViableAltException("", 13, 0, input);
					DebugRecognitionException(nvae);
					throw nvae;
				}
			}

			} finally { DebugExitDecision(13); }
			switch (alt13)
			{
			case 1:
				DebugEnterAlt(1);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:48:9: value
				{
				root_0 = (CommonTree)adaptor.Nil();

				DebugLocation(48, 9);
				PushFollow(Follow._value_in_atom334);
				value40=value();
				PopFollow();

				adaptor.AddChild(root_0, value40.Tree);

				}
				break;
			case 2:
				DebugEnterAlt(2);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:49:4: ID
				{
				root_0 = (CommonTree)adaptor.Nil();

				DebugLocation(49, 4);
				ID41=(IToken)Match(input,ID,Follow._ID_in_atom339); 
				ID41_tree = (CommonTree)adaptor.Create(ID41);
				adaptor.AddChild(root_0, ID41_tree);

				}
				break;
			case 3:
				DebugEnterAlt(3);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:50:4: functionCall
				{
				root_0 = (CommonTree)adaptor.Nil();

				DebugLocation(50, 4);
				PushFollow(Follow._functionCall_in_atom344);
				functionCall42=functionCall();
				PopFollow();

				adaptor.AddChild(root_0, functionCall42.Tree);

				}
				break;
			case 4:
				DebugEnterAlt(4);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:51:4: ifExpr
				{
				root_0 = (CommonTree)adaptor.Nil();

				DebugLocation(51, 4);
				PushFollow(Follow._ifExpr_in_atom349);
				ifExpr43=ifExpr();
				PopFollow();

				adaptor.AddChild(root_0, ifExpr43.Tree);

				}
				break;
			case 5:
				DebugEnterAlt(5);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:52:4: memberAccess
				{
				root_0 = (CommonTree)adaptor.Nil();

				DebugLocation(52, 4);
				PushFollow(Follow._memberAccess_in_atom355);
				memberAccess44=memberAccess();
				PopFollow();

				adaptor.AddChild(root_0, memberAccess44.Tree);

				}
				break;
			case 6:
				DebugEnterAlt(6);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:53:4: '(' expr ')'
				{
				root_0 = (CommonTree)adaptor.Nil();

				DebugLocation(53, 4);
				char_literal45=(IToken)Match(input,40,Follow._40_in_atom361); 
				char_literal45_tree = (CommonTree)adaptor.Create(char_literal45);
				adaptor.AddChild(root_0, char_literal45_tree);
				DebugLocation(53, 8);
				PushFollow(Follow._expr_in_atom363);
				expr46=expr();
				PopFollow();

				adaptor.AddChild(root_0, expr46.Tree);
				DebugLocation(53, 13);
				char_literal47=(IToken)Match(input,41,Follow._41_in_atom365); 
				char_literal47_tree = (CommonTree)adaptor.Create(char_literal47);
				adaptor.AddChild(root_0, char_literal47_tree);

				}
				break;

			}
			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("atom", 11);
			LeaveRule("atom", 11);
			LeaveRule_atom();
		}
		DebugLocation(53, 16);
		} finally { DebugExitRule(GrammarFileName, "atom"); }
		return retval;

	}
	// $ANTLR end "atom"

	partial void EnterRule_value();
	partial void LeaveRule_value();

	// $ANTLR start "value"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:55:1: value : ( INT | FLOAT | STRING | CHAR );
	[GrammarRule("value")]
	private AstParserRuleReturnScope<CommonTree, IToken> value()
	{
		EnterRule_value();
		EnterRule("value", 12);
		TraceIn("value", 12);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken set48 = default(IToken);

		CommonTree set48_tree = default(CommonTree);
		try { DebugEnterRule(GrammarFileName, "value");
		DebugLocation(55, 34);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:55:7: ( INT | FLOAT | STRING | CHAR )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:
			{
			root_0 = (CommonTree)adaptor.Nil();

			DebugLocation(55, 7);

			set48=(IToken)input.LT(1);
			if (input.LA(1)==CHAR||input.LA(1)==FLOAT||input.LA(1)==INT||input.LA(1)==STRING)
			{
				input.Consume();
				adaptor.AddChild(root_0, (CommonTree)adaptor.Create(set48));
				state.errorRecovery=false;
			}
			else
			{
				MismatchedSetException mse = new MismatchedSetException(null,input);
				DebugRecognitionException(mse);
				throw mse;
			}


			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("value", 12);
			LeaveRule("value", 12);
			LeaveRule_value();
		}
		DebugLocation(55, 34);
		} finally { DebugExitRule(GrammarFileName, "value"); }
		return retval;

	}
	// $ANTLR end "value"

	partial void EnterRule_memberAccess();
	partial void LeaveRule_memberAccess();

	// $ANTLR start "memberAccess"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:57:1: memberAccess : ID '.' ID -> ^( GETMEMBER ID ID ) ;
	[GrammarRule("memberAccess")]
	private AstParserRuleReturnScope<CommonTree, IToken> memberAccess()
	{
		EnterRule_memberAccess();
		EnterRule("memberAccess", 13);
		TraceIn("memberAccess", 13);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken ID49 = default(IToken);
		IToken char_literal50 = default(IToken);
		IToken ID51 = default(IToken);

		CommonTree ID49_tree = default(CommonTree);
		CommonTree char_literal50_tree = default(CommonTree);
		CommonTree ID51_tree = default(CommonTree);
		RewriteRuleITokenStream stream_43=new RewriteRuleITokenStream(adaptor,"token 43");
		RewriteRuleITokenStream stream_ID=new RewriteRuleITokenStream(adaptor,"token ID");
		try { DebugEnterRule(GrammarFileName, "memberAccess");
		DebugLocation(57, 46);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:57:14: ( ID '.' ID -> ^( GETMEMBER ID ID ) )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:57:16: ID '.' ID
			{
			DebugLocation(57, 16);
			ID49=(IToken)Match(input,ID,Follow._ID_in_memberAccess393);  
			stream_ID.Add(ID49);

			DebugLocation(57, 19);
			char_literal50=(IToken)Match(input,43,Follow._43_in_memberAccess395);  
			stream_43.Add(char_literal50);

			DebugLocation(57, 23);
			ID51=(IToken)Match(input,ID,Follow._ID_in_memberAccess397);  
			stream_ID.Add(ID51);



			{
			// AST REWRITE
			// elements: ID, ID
			// token labels: 
			// rule labels: retval
			// token list labels: 
			// rule list labels: 
			// wildcard labels: 
			retval.Tree = root_0;
			RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.Tree:null);

			root_0 = (CommonTree)adaptor.Nil();
			// 57:26: -> ^( GETMEMBER ID ID )
			{
				DebugLocation(57, 29);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:57:29: ^( GETMEMBER ID ID )
				{
				CommonTree root_1 = (CommonTree)adaptor.Nil();
				DebugLocation(57, 31);
				root_1 = (CommonTree)adaptor.BecomeRoot((CommonTree)adaptor.Create(GETMEMBER, "GETMEMBER"), root_1);

				DebugLocation(57, 41);
				adaptor.AddChild(root_1, stream_ID.NextNode());
				DebugLocation(57, 44);
				adaptor.AddChild(root_1, stream_ID.NextNode());

				adaptor.AddChild(root_0, root_1);
				}

			}

			retval.Tree = root_0;
			}

			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("memberAccess", 13);
			LeaveRule("memberAccess", 13);
			LeaveRule_memberAccess();
		}
		DebugLocation(57, 46);
		} finally { DebugExitRule(GrammarFileName, "memberAccess"); }
		return retval;

	}
	// $ANTLR end "memberAccess"

	partial void EnterRule_ifExpr();
	partial void LeaveRule_ifExpr();

	// $ANTLR start "ifExpr"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:59:1: ifExpr : 'IF' '(' ce= expr ',' e1= expr ',' e2= expr ')' -> ^( 'IF' ^( COND $ce) ^( TFEXPR $e1 $e2) ) ;
	[GrammarRule("ifExpr")]
	private AstParserRuleReturnScope<CommonTree, IToken> ifExpr()
	{
		EnterRule_ifExpr();
		EnterRule("ifExpr", 14);
		TraceIn("ifExpr", 14);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken string_literal52 = default(IToken);
		IToken char_literal53 = default(IToken);
		IToken char_literal54 = default(IToken);
		IToken char_literal55 = default(IToken);
		IToken char_literal56 = default(IToken);
		AstParserRuleReturnScope<CommonTree, IToken> ce = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> e1 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> e2 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		CommonTree string_literal52_tree = default(CommonTree);
		CommonTree char_literal53_tree = default(CommonTree);
		CommonTree char_literal54_tree = default(CommonTree);
		CommonTree char_literal55_tree = default(CommonTree);
		CommonTree char_literal56_tree = default(CommonTree);
		RewriteRuleITokenStream stream_42=new RewriteRuleITokenStream(adaptor,"token 42");
		RewriteRuleITokenStream stream_41=new RewriteRuleITokenStream(adaptor,"token 41");
		RewriteRuleITokenStream stream_47=new RewriteRuleITokenStream(adaptor,"token 47");
		RewriteRuleITokenStream stream_40=new RewriteRuleITokenStream(adaptor,"token 40");
		RewriteRuleSubtreeStream stream_expr=new RewriteRuleSubtreeStream(adaptor,"rule expr");
		try { DebugEnterRule(GrammarFileName, "ifExpr");
		DebugLocation(59, 94);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:59:9: ( 'IF' '(' ce= expr ',' e1= expr ',' e2= expr ')' -> ^( 'IF' ^( COND $ce) ^( TFEXPR $e1 $e2) ) )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:59:11: 'IF' '(' ce= expr ',' e1= expr ',' e2= expr ')'
			{
			DebugLocation(59, 11);
			string_literal52=(IToken)Match(input,47,Follow._47_in_ifExpr416);  
			stream_47.Add(string_literal52);

			DebugLocation(59, 15);
			char_literal53=(IToken)Match(input,40,Follow._40_in_ifExpr417);  
			stream_40.Add(char_literal53);

			DebugLocation(59, 21);
			PushFollow(Follow._expr_in_ifExpr421);
			ce=expr();
			PopFollow();

			stream_expr.Add(ce.Tree);
			DebugLocation(59, 27);
			char_literal54=(IToken)Match(input,42,Follow._42_in_ifExpr423);  
			stream_42.Add(char_literal54);

			DebugLocation(59, 33);
			PushFollow(Follow._expr_in_ifExpr427);
			e1=expr();
			PopFollow();

			stream_expr.Add(e1.Tree);
			DebugLocation(59, 39);
			char_literal55=(IToken)Match(input,42,Follow._42_in_ifExpr429);  
			stream_42.Add(char_literal55);

			DebugLocation(59, 45);
			PushFollow(Follow._expr_in_ifExpr433);
			e2=expr();
			PopFollow();

			stream_expr.Add(e2.Tree);
			DebugLocation(59, 51);
			char_literal56=(IToken)Match(input,41,Follow._41_in_ifExpr435);  
			stream_41.Add(char_literal56);



			{
			// AST REWRITE
			// elements: e1, ce, 47, e2
			// token labels: 
			// rule labels: retval, e1, e2, ce
			// token list labels: 
			// rule list labels: 
			// wildcard labels: 
			retval.Tree = root_0;
			RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.Tree:null);
			RewriteRuleSubtreeStream stream_e1=new RewriteRuleSubtreeStream(adaptor,"rule e1",e1!=null?e1.Tree:null);
			RewriteRuleSubtreeStream stream_e2=new RewriteRuleSubtreeStream(adaptor,"rule e2",e2!=null?e2.Tree:null);
			RewriteRuleSubtreeStream stream_ce=new RewriteRuleSubtreeStream(adaptor,"rule ce",ce!=null?ce.Tree:null);

			root_0 = (CommonTree)adaptor.Nil();
			// 59:55: -> ^( 'IF' ^( COND $ce) ^( TFEXPR $e1 $e2) )
			{
				DebugLocation(59, 58);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:59:58: ^( 'IF' ^( COND $ce) ^( TFEXPR $e1 $e2) )
				{
				CommonTree root_1 = (CommonTree)adaptor.Nil();
				DebugLocation(59, 60);
				root_1 = (CommonTree)adaptor.BecomeRoot(stream_47.NextNode(), root_1);

				DebugLocation(59, 65);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:59:65: ^( COND $ce)
				{
				CommonTree root_2 = (CommonTree)adaptor.Nil();
				DebugLocation(59, 67);
				root_2 = (CommonTree)adaptor.BecomeRoot((CommonTree)adaptor.Create(COND, "COND"), root_2);

				DebugLocation(59, 73);
				adaptor.AddChild(root_2, stream_ce.NextTree());

				adaptor.AddChild(root_1, root_2);
				}
				DebugLocation(59, 77);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:59:77: ^( TFEXPR $e1 $e2)
				{
				CommonTree root_2 = (CommonTree)adaptor.Nil();
				DebugLocation(59, 79);
				root_2 = (CommonTree)adaptor.BecomeRoot((CommonTree)adaptor.Create(TFEXPR, "TFEXPR"), root_2);

				DebugLocation(59, 87);
				adaptor.AddChild(root_2, stream_e1.NextTree());
				DebugLocation(59, 91);
				adaptor.AddChild(root_2, stream_e2.NextTree());

				adaptor.AddChild(root_1, root_2);
				}

				adaptor.AddChild(root_0, root_1);
				}

			}

			retval.Tree = root_0;
			}

			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("ifExpr", 14);
			LeaveRule("ifExpr", 14);
			LeaveRule_ifExpr();
		}
		DebugLocation(59, 94);
		} finally { DebugExitRule(GrammarFileName, "ifExpr"); }
		return retval;

	}
	// $ANTLR end "ifExpr"

	partial void EnterRule_functionCall();
	partial void LeaveRule_functionCall();

	// $ANTLR start "functionCall"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:61:1: functionCall : ID '(' ( params )? ')' -> ^( CALL ID ( params )* ) ;
	[GrammarRule("functionCall")]
	private AstParserRuleReturnScope<CommonTree, IToken> functionCall()
	{
		EnterRule_functionCall();
		EnterRule("functionCall", 15);
		TraceIn("functionCall", 15);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken ID57 = default(IToken);
		IToken char_literal58 = default(IToken);
		IToken char_literal60 = default(IToken);
		AstParserRuleReturnScope<CommonTree, IToken> params59 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		CommonTree ID57_tree = default(CommonTree);
		CommonTree char_literal58_tree = default(CommonTree);
		CommonTree char_literal60_tree = default(CommonTree);
		RewriteRuleITokenStream stream_41=new RewriteRuleITokenStream(adaptor,"token 41");
		RewriteRuleITokenStream stream_40=new RewriteRuleITokenStream(adaptor,"token 40");
		RewriteRuleITokenStream stream_ID=new RewriteRuleITokenStream(adaptor,"token ID");
		RewriteRuleSubtreeStream stream_params=new RewriteRuleSubtreeStream(adaptor,"rule params");
		try { DebugEnterRule(GrammarFileName, "functionCall");
		DebugLocation(61, 58);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:61:14: ( ID '(' ( params )? ')' -> ^( CALL ID ( params )* ) )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:61:16: ID '(' ( params )? ')'
			{
			DebugLocation(61, 16);
			ID57=(IToken)Match(input,ID,Follow._ID_in_functionCall466);  
			stream_ID.Add(ID57);

			DebugLocation(61, 19);
			char_literal58=(IToken)Match(input,40,Follow._40_in_functionCall468);  
			stream_40.Add(char_literal58);

			DebugLocation(61, 23);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:61:23: ( params )?
			int alt14=2;
			try { DebugEnterSubRule(14);
			try { DebugEnterDecision(14, false);
			int LA14_0 = input.LA(1);

			if ((LA14_0==CHAR||LA14_0==DEC||LA14_0==FLOAT||(LA14_0>=ID && LA14_0<=INT)||LA14_0==NOT||LA14_0==STRING||LA14_0==40||LA14_0==47))
			{
				alt14 = 1;
			}
			} finally { DebugExitDecision(14); }
			switch (alt14)
			{
			case 1:
				DebugEnterAlt(1);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:61:24: params
				{
				DebugLocation(61, 24);
				PushFollow(Follow._params_in_functionCall471);
				params59=@params();
				PopFollow();

				stream_params.Add(params59.Tree);

				}
				break;

			}
			} finally { DebugExitSubRule(14); }

			DebugLocation(61, 33);
			char_literal60=(IToken)Match(input,41,Follow._41_in_functionCall475);  
			stream_41.Add(char_literal60);



			{
			// AST REWRITE
			// elements: params, ID
			// token labels: 
			// rule labels: retval
			// token list labels: 
			// rule list labels: 
			// wildcard labels: 
			retval.Tree = root_0;
			RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.Tree:null);

			root_0 = (CommonTree)adaptor.Nil();
			// 61:37: -> ^( CALL ID ( params )* )
			{
				DebugLocation(61, 40);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:61:40: ^( CALL ID ( params )* )
				{
				CommonTree root_1 = (CommonTree)adaptor.Nil();
				DebugLocation(61, 42);
				root_1 = (CommonTree)adaptor.BecomeRoot((CommonTree)adaptor.Create(CALL, "CALL"), root_1);

				DebugLocation(61, 47);
				adaptor.AddChild(root_1, stream_ID.NextNode());
				DebugLocation(61, 50);
				// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:61:50: ( params )*
				while ( stream_params.HasNext )
				{
					DebugLocation(61, 50);
					adaptor.AddChild(root_1, stream_params.NextTree());

				}
				stream_params.Reset();

				adaptor.AddChild(root_0, root_1);
				}

			}

			retval.Tree = root_0;
			}

			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("functionCall", 15);
			LeaveRule("functionCall", 15);
			LeaveRule_functionCall();
		}
		DebugLocation(61, 58);
		} finally { DebugExitRule(GrammarFileName, "functionCall"); }
		return retval;

	}
	// $ANTLR end "functionCall"

	partial void EnterRule_params();
	partial void LeaveRule_params();

	// $ANTLR start "params"
	// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:63:1: params : expr ( ',' expr )* ;
	[GrammarRule("params")]
	private AstParserRuleReturnScope<CommonTree, IToken> @params()
	{
		EnterRule_params();
		EnterRule("params", 16);
		TraceIn("params", 16);
		AstParserRuleReturnScope<CommonTree, IToken> retval = new AstParserRuleReturnScope<CommonTree, IToken>();
		retval.Start = (IToken)input.LT(1);

		CommonTree root_0 = default(CommonTree);

		IToken char_literal62 = default(IToken);
		AstParserRuleReturnScope<CommonTree, IToken> expr61 = default(AstParserRuleReturnScope<CommonTree, IToken>);
		AstParserRuleReturnScope<CommonTree, IToken> expr63 = default(AstParserRuleReturnScope<CommonTree, IToken>);

		CommonTree char_literal62_tree = default(CommonTree);
		try { DebugEnterRule(GrammarFileName, "params");
		DebugLocation(63, 27);
		try
		{
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:63:9: ( expr ( ',' expr )* )
			DebugEnterAlt(1);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:63:11: expr ( ',' expr )*
			{
			root_0 = (CommonTree)adaptor.Nil();

			DebugLocation(63, 11);
			PushFollow(Follow._expr_in_params496);
			expr61=expr();
			PopFollow();

			adaptor.AddChild(root_0, expr61.Tree);
			DebugLocation(63, 16);
			// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:63:16: ( ',' expr )*
			try { DebugEnterSubRule(15);
			while (true)
			{
				int alt15=2;
				try { DebugEnterDecision(15, false);
				int LA15_0 = input.LA(1);

				if ((LA15_0==42))
				{
					alt15 = 1;
				}


				} finally { DebugExitDecision(15); }
				switch ( alt15 )
				{
				case 1:
					DebugEnterAlt(1);
					// E:\\Software\\ANTLR3\\projects\\EntityMapping\\EntityMapping.g:63:17: ',' expr
					{
					DebugLocation(63, 17);
					char_literal62=(IToken)Match(input,42,Follow._42_in_params499); 
					char_literal62_tree = (CommonTree)adaptor.Create(char_literal62);
					adaptor.AddChild(root_0, char_literal62_tree);
					DebugLocation(63, 21);
					PushFollow(Follow._expr_in_params501);
					expr63=expr();
					PopFollow();

					adaptor.AddChild(root_0, expr63.Tree);

					}
					break;

				default:
					goto loop15;
				}
			}

			loop15:
				;

			} finally { DebugExitSubRule(15); }


			}

			retval.Stop = (IToken)input.LT(-1);

			retval.Tree = (CommonTree)adaptor.RulePostProcessing(root_0);
			adaptor.SetTokenBoundaries(retval.Tree, retval.Start, retval.Stop);

		}
		catch (RecognitionException re)
		{
			ReportError(re);
			Recover(input,re);
		retval.Tree = (CommonTree)adaptor.ErrorNode(input, retval.Start, input.LT(-1), re);

		}
		finally
		{
			TraceOut("params", 16);
			LeaveRule("params", 16);
			LeaveRule_params();
		}
		DebugLocation(63, 27);
		} finally { DebugExitRule(GrammarFileName, "params"); }
		return retval;

	}
	// $ANTLR end "params"
	#endregion Rules


	#region Follow sets
	private static class Follow
	{
		public static readonly BitSet _mapDeclaration_in_prog108 = new BitSet(new ulong[]{0x200002UL});
		public static readonly BitSet _stat_in_prog110 = new BitSet(new ulong[]{0x200002UL});
		public static readonly BitSet _ID_in_mapDeclaration137 = new BitSet(new ulong[]{0x200000000000UL});
		public static readonly BitSet _45_in_mapDeclaration139 = new BitSet(new ulong[]{0x200000UL});
		public static readonly BitSet _ID_in_mapDeclaration141 = new BitSet(new ulong[]{0x100000000000UL});
		public static readonly BitSet _44_in_mapDeclaration143 = new BitSet(new ulong[]{0x2UL});
		public static readonly BitSet _ID_in_stat162 = new BitSet(new ulong[]{0x400000000000UL});
		public static readonly BitSet _46_in_stat164 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _expr_in_stat166 = new BitSet(new ulong[]{0x100000000000UL});
		public static readonly BitSet _44_in_stat168 = new BitSet(new ulong[]{0x2UL});
		public static readonly BitSet _boolAndExpr_in_expr186 = new BitSet(new ulong[]{0x400000002UL});
		public static readonly BitSet _OR_in_expr189 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _boolAndExpr_in_expr192 = new BitSet(new ulong[]{0x400000002UL});
		public static readonly BitSet _equalityExpr_in_boolAndExpr202 = new BitSet(new ulong[]{0x12UL});
		public static readonly BitSet _AND_in_boolAndExpr205 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _equalityExpr_in_boolAndExpr208 = new BitSet(new ulong[]{0x12UL});
		public static readonly BitSet _relationalExpr_in_equalityExpr218 = new BitSet(new ulong[]{0x100002002UL});
		public static readonly BitSet _EQUALS_in_equalityExpr222 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _NOTEQUALS_in_equalityExpr225 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _relationalExpr_in_equalityExpr228 = new BitSet(new ulong[]{0x100002002UL});
		public static readonly BitSet _additiveExpr_in_relationalExpr238 = new BitSet(new ulong[]{0x30C0002UL});
		public static readonly BitSet _LT_in_relationalExpr242 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _LTEQ_in_relationalExpr245 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _GT_in_relationalExpr248 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _GTEQ_in_relationalExpr251 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _additiveExpr_in_relationalExpr254 = new BitSet(new ulong[]{0x30C0002UL});
		public static readonly BitSet _multiExpr_in_additiveExpr265 = new BitSet(new ulong[]{0x810000002UL});
		public static readonly BitSet _PLUS_in_additiveExpr270 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _MINUS_in_additiveExpr273 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _multiExpr_in_additiveExpr277 = new BitSet(new ulong[]{0x810000002UL});
		public static readonly BitSet _unaryExpr_in_multiExpr288 = new BitSet(new ulong[]{0x60000802UL});
		public static readonly BitSet _MULT_in_multiExpr293 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _DIV_in_multiExpr296 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _MOD_in_multiExpr299 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _unaryExpr_in_multiExpr303 = new BitSet(new ulong[]{0x60000802UL});
		public static readonly BitSet _NOT_in_unaryExpr314 = new BitSet(new ulong[]{0x811000A10080UL});
		public static readonly BitSet _INC_in_unaryExpr317 = new BitSet(new ulong[]{0x811000A10080UL});
		public static readonly BitSet _DEC_in_unaryExpr320 = new BitSet(new ulong[]{0x811000A10080UL});
		public static readonly BitSet _atom_in_unaryExpr325 = new BitSet(new ulong[]{0x2UL});
		public static readonly BitSet _value_in_atom334 = new BitSet(new ulong[]{0x2UL});
		public static readonly BitSet _ID_in_atom339 = new BitSet(new ulong[]{0x2UL});
		public static readonly BitSet _functionCall_in_atom344 = new BitSet(new ulong[]{0x2UL});
		public static readonly BitSet _ifExpr_in_atom349 = new BitSet(new ulong[]{0x2UL});
		public static readonly BitSet _memberAccess_in_atom355 = new BitSet(new ulong[]{0x2UL});
		public static readonly BitSet _40_in_atom361 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _expr_in_atom363 = new BitSet(new ulong[]{0x20000000000UL});
		public static readonly BitSet _41_in_atom365 = new BitSet(new ulong[]{0x2UL});
		public static readonly BitSet _ID_in_memberAccess393 = new BitSet(new ulong[]{0x80000000000UL});
		public static readonly BitSet _43_in_memberAccess395 = new BitSet(new ulong[]{0x200000UL});
		public static readonly BitSet _ID_in_memberAccess397 = new BitSet(new ulong[]{0x2UL});
		public static readonly BitSet _47_in_ifExpr416 = new BitSet(new ulong[]{0x10000000000UL});
		public static readonly BitSet _40_in_ifExpr417 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _expr_in_ifExpr421 = new BitSet(new ulong[]{0x40000000000UL});
		public static readonly BitSet _42_in_ifExpr423 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _expr_in_ifExpr427 = new BitSet(new ulong[]{0x40000000000UL});
		public static readonly BitSet _42_in_ifExpr429 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _expr_in_ifExpr433 = new BitSet(new ulong[]{0x20000000000UL});
		public static readonly BitSet _41_in_ifExpr435 = new BitSet(new ulong[]{0x2UL});
		public static readonly BitSet _ID_in_functionCall466 = new BitSet(new ulong[]{0x10000000000UL});
		public static readonly BitSet _40_in_functionCall468 = new BitSet(new ulong[]{0x831080E10480UL});
		public static readonly BitSet _params_in_functionCall471 = new BitSet(new ulong[]{0x20000000000UL});
		public static readonly BitSet _41_in_functionCall475 = new BitSet(new ulong[]{0x2UL});
		public static readonly BitSet _expr_in_params496 = new BitSet(new ulong[]{0x40000000002UL});
		public static readonly BitSet _42_in_params499 = new BitSet(new ulong[]{0x811080E10480UL});
		public static readonly BitSet _expr_in_params501 = new BitSet(new ulong[]{0x40000000002UL});
	}
	#endregion Follow sets
}

} // namespace  EntMapping 

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I am always interested in finding innovative ways for building better applications and founded a technology company since 2003. Welcome to exchange any idea with you and if I am not too busy before deadline of projects, I will reply your emails. Also, if you willing to pay for consulting works and customized software development, you can leave me message.

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