org.apache.cassandra/cassandra-all/3.11.5 : org/apache/cassandra/cql3/Cql

Cql_Lexer
https://cassandra.apache.org: The Apache Cassandra Project develops a highly scalable second-generation distributed database, bringing together Dynamo's fully distributed design and Bigtable's ColumnFamily-based data model.
The Apache Software License, Version 2.0
Andres de la Peña
Avinash Lakshman
Aleksey Yeschenko
Aaron Morton
Ariel Weisberg
Blake Eggleston
Benedict Elliott Smith
Benjamin Lerer
Branimir Lambov
Brandon Williams
Carl Yeksigian
David Brosiusd
Dikang Gu
Eric Evans
Gary Dusbabek
Chris Goffinet
Alex Petrov
Laine Jaakko Olavi
T Jake Luciani
Jason Brown
Jonathan Ellis
Jake Farrell
Jeff Jirsa
Joel Knighton
Josh McKenzie
Johan Oskarsson
Jun Rao
Jay Zhuang
Sankalp Kohli
Marcus Eriksson
Michael Semb Wever
Mikhail Stepura
Michael Shuler
Paulo Motta
Prashant Malik
Robert Stupp
Peter Schuller
Sam Tunnicliffe
Sylvain Lebresne
Stefania Alborghetti
Tyler Hobbs
Vijay Parthasarathy
Pavel Yaskevich
Yuki Morishita
Nate McCall
// $ANTLR 3.5.2 Lexer.g 2019-10-24 11:42:15

    package org.apache.cassandra.cql3;

    import org.apache.cassandra.exceptions.SyntaxException;


import org.antlr.runtime.*;
import java.util.Stack;
import java.util.List;
import java.util.ArrayList;

@SuppressWarnings("all")
public class Cql_Lexer extends Lexer {
	public static final int EOF=-1;
	public static final int T__183=183;
	public static final int T__184=184;
	public static final int T__185=185;
	public static final int T__186=186;
	public static final int T__187=187;
	public static final int T__188=188;
	public static final int T__189=189;
	public static final int T__190=190;
	public static final int T__191=191;
	public static final int T__192=192;
	public static final int T__193=193;
	public static final int T__194=194;
	public static final int T__195=195;
	public static final int T__196=196;
	public static final int T__197=197;
	public static final int T__198=198;
	public static final int T__199=199;
	public static final int T__200=200;
	public static final int T__201=201;
	public static final int T__202=202;
	public static final int T__203=203;
	public static final int T__204=204;
	public static final int A=4;
	public static final int B=5;
	public static final int BOOLEAN=6;
	public static final int C=7;
	public static final int COMMENT=8;
	public static final int D=9;
	public static final int DIGIT=10;
	public static final int DURATION=11;
	public static final int DURATION_UNIT=12;
	public static final int E=13;
	public static final int EMPTY_QUOTED_NAME=14;
	public static final int EXPONENT=15;
	public static final int F=16;
	public static final int FLOAT=17;
	public static final int G=18;
	public static final int H=19;
	public static final int HEX=20;
	public static final int HEXNUMBER=21;
	public static final int I=22;
	public static final int IDENT=23;
	public static final int INTEGER=24;
	public static final int J=25;
	public static final int K=26;
	public static final int K_ADD=27;
	public static final int K_AGGREGATE=28;
	public static final int K_ALL=29;
	public static final int K_ALLOW=30;
	public static final int K_ALTER=31;
	public static final int K_AND=32;
	public static final int K_APPLY=33;
	public static final int K_AS=34;
	public static final int K_ASC=35;
	public static final int K_ASCII=36;
	public static final int K_AUTHORIZE=37;
	public static final int K_BATCH=38;
	public static final int K_BEGIN=39;
	public static final int K_BIGINT=40;
	public static final int K_BLOB=41;
	public static final int K_BOOLEAN=42;
	public static final int K_BY=43;
	public static final int K_CALLED=44;
	public static final int K_CAST=45;
	public static final int K_CLUSTERING=46;
	public static final int K_COLUMNFAMILY=47;
	public static final int K_COMPACT=48;
	public static final int K_CONTAINS=49;
	public static final int K_COUNT=50;
	public static final int K_COUNTER=51;
	public static final int K_CREATE=52;
	public static final int K_CUSTOM=53;
	public static final int K_DATE=54;
	public static final int K_DECIMAL=55;
	public static final int K_DEFAULT=56;
	public static final int K_DELETE=57;
	public static final int K_DESC=58;
	public static final int K_DESCRIBE=59;
	public static final int K_DISTINCT=60;
	public static final int K_DOUBLE=61;
	public static final int K_DROP=62;
	public static final int K_DURATION=63;
	public static final int K_ENTRIES=64;
	public static final int K_EXECUTE=65;
	public static final int K_EXISTS=66;
	public static final int K_FILTERING=67;
	public static final int K_FINALFUNC=68;
	public static final int K_FLOAT=69;
	public static final int K_FROM=70;
	public static final int K_FROZEN=71;
	public static final int K_FULL=72;
	public static final int K_FUNCTION=73;
	public static final int K_FUNCTIONS=74;
	public static final int K_GRANT=75;
	public static final int K_GROUP=76;
	public static final int K_IF=77;
	public static final int K_IN=78;
	public static final int K_INDEX=79;
	public static final int K_INET=80;
	public static final int K_INFINITY=81;
	public static final int K_INITCOND=82;
	public static final int K_INPUT=83;
	public static final int K_INSERT=84;
	public static final int K_INT=85;
	public static final int K_INTO=86;
	public static final int K_IS=87;
	public static final int K_JSON=88;
	public static final int K_KEY=89;
	public static final int K_KEYS=90;
	public static final int K_KEYSPACE=91;
	public static final int K_KEYSPACES=92;
	public static final int K_LANGUAGE=93;
	public static final int K_LIKE=94;
	public static final int K_LIMIT=95;
	public static final int K_LIST=96;
	public static final int K_LOGIN=97;
	public static final int K_MAP=98;
	public static final int K_MATERIALIZED=99;
	public static final int K_MBEAN=100;
	public static final int K_MBEANS=101;
	public static final int K_MODIFY=102;
	public static final int K_NAN=103;
	public static final int K_NOLOGIN=104;
	public static final int K_NORECURSIVE=105;
	public static final int K_NOSUPERUSER=106;
	public static final int K_NOT=107;
	public static final int K_NULL=108;
	public static final int K_OF=109;
	public static final int K_ON=110;
	public static final int K_OPTIONS=111;
	public static final int K_OR=112;
	public static final int K_ORDER=113;
	public static final int K_PARTITION=114;
	public static final int K_PASSWORD=115;
	public static final int K_PER=116;
	public static final int K_PERMISSION=117;
	public static final int K_PERMISSIONS=118;
	public static final int K_PRIMARY=119;
	public static final int K_RENAME=120;
	public static final int K_REPLACE=121;
	public static final int K_RETURNS=122;
	public static final int K_REVOKE=123;
	public static final int K_ROLE=124;
	public static final int K_ROLES=125;
	public static final int K_SELECT=126;
	public static final int K_SET=127;
	public static final int K_SFUNC=128;
	public static final int K_SMALLINT=129;
	public static final int K_STATIC=130;
	public static final int K_STORAGE=131;
	public static final int K_STYPE=132;
	public static final int K_SUPERUSER=133;
	public static final int K_TEXT=134;
	public static final int K_TIME=135;
	public static final int K_TIMESTAMP=136;
	public static final int K_TIMEUUID=137;
	public static final int K_TINYINT=138;
	public static final int K_TO=139;
	public static final int K_TOKEN=140;
	public static final int K_TRIGGER=141;
	public static final int K_TRUNCATE=142;
	public static final int K_TTL=143;
	public static final int K_TUPLE=144;
	public static final int K_TYPE=145;
	public static final int K_UNLOGGED=146;
	public static final int K_UNSET=147;
	public static final int K_UPDATE=148;
	public static final int K_USE=149;
	public static final int K_USER=150;
	public static final int K_USERS=151;
	public static final int K_USING=152;
	public static final int K_UUID=153;
	public static final int K_VALUES=154;
	public static final int K_VARCHAR=155;
	public static final int K_VARINT=156;
	public static final int K_VIEW=157;
	public static final int K_WHERE=158;
	public static final int K_WITH=159;
	public static final int K_WRITETIME=160;
	public static final int L=161;
	public static final int LETTER=162;
	public static final int M=163;
	public static final int MULTILINE_COMMENT=164;
	public static final int N=165;
	public static final int O=166;
	public static final int P=167;
	public static final int Q=168;
	public static final int QMARK=169;
	public static final int QUOTED_NAME=170;
	public static final int R=171;
	public static final int S=172;
	public static final int STRING_LITERAL=173;
	public static final int T=174;
	public static final int U=175;
	public static final int UUID=176;
	public static final int V=177;
	public static final int W=178;
	public static final int WS=179;
	public static final int X=180;
	public static final int Y=181;
	public static final int Z=182;
	public static final int Tokens=205;

	    List<Token> tokens = new ArrayList<Token>();

	    public void emit(Token token)
	    {
	        state.token = token;
	        tokens.add(token);
	    }

	    public Token nextToken()
	    {
	        super.nextToken();
	        if (tokens.size() == 0)
	            return new CommonToken(Token.EOF);
	        return tokens.remove(0);
	    }

	    private final List<ErrorListener> listeners = new ArrayList<ErrorListener>();

	    public void addErrorListener(ErrorListener listener)
	    {
	        this.listeners.add(listener);
	    }

	    public void removeErrorListener(ErrorListener listener)
	    {
	        this.listeners.remove(listener);
	    }

	    public void displayRecognitionError(String[] tokenNames, RecognitionException e)
	    {
	        for (int i = 0, m = listeners.size(); i < m; i++)
	            listeners.get(i).syntaxError(this, tokenNames, e);
	    }


	// delegates
	// delegators
	public CqlLexer gCql;
	public CqlLexer gParent;
	public Lexer[] getDelegates() {
		return new Lexer[] {};
	}

	public Cql_Lexer() {} 
	public Cql_Lexer(CharStream input, CqlLexer gCql) {
		this(input, new RecognizerSharedState(), gCql);
	}
	public Cql_Lexer(CharStream input, RecognizerSharedState state, CqlLexer gCql) {
		super(input,state);
		this.gCql = gCql;
		gParent = gCql;
	}
	@Override public String getGrammarFileName() { return "Lexer.g"; }

	// $ANTLR start "K_SELECT"
	public final void mK_SELECT() throws RecognitionException {
		try {
			int _type = K_SELECT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:61:9: ( S E L E C T )
			// Lexer.g:61:16: S E L E C T
			{
			mS(); 

			mE(); 

			mL(); 

			mE(); 

			mC(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_SELECT"

	// $ANTLR start "K_FROM"
	public final void mK_FROM() throws RecognitionException {
		try {
			int _type = K_FROM;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:62:7: ( F R O M )
			// Lexer.g:62:16: F R O M
			{
			mF(); 

			mR(); 

			mO(); 

			mM(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_FROM"

	// $ANTLR start "K_AS"
	public final void mK_AS() throws RecognitionException {
		try {
			int _type = K_AS;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:63:5: ( A S )
			// Lexer.g:63:16: A S
			{
			mA(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_AS"

	// $ANTLR start "K_WHERE"
	public final void mK_WHERE() throws RecognitionException {
		try {
			int _type = K_WHERE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:64:8: ( W H E R E )
			// Lexer.g:64:16: W H E R E
			{
			mW(); 

			mH(); 

			mE(); 

			mR(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_WHERE"

	// $ANTLR start "K_AND"
	public final void mK_AND() throws RecognitionException {
		try {
			int _type = K_AND;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:65:6: ( A N D )
			// Lexer.g:65:16: A N D
			{
			mA(); 

			mN(); 

			mD(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_AND"

	// $ANTLR start "K_KEY"
	public final void mK_KEY() throws RecognitionException {
		try {
			int _type = K_KEY;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:66:6: ( K E Y )
			// Lexer.g:66:16: K E Y
			{
			mK(); 

			mE(); 

			mY(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_KEY"

	// $ANTLR start "K_KEYS"
	public final void mK_KEYS() throws RecognitionException {
		try {
			int _type = K_KEYS;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:67:7: ( K E Y S )
			// Lexer.g:67:16: K E Y S
			{
			mK(); 

			mE(); 

			mY(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_KEYS"

	// $ANTLR start "K_ENTRIES"
	public final void mK_ENTRIES() throws RecognitionException {
		try {
			int _type = K_ENTRIES;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:68:10: ( E N T R I E S )
			// Lexer.g:68:16: E N T R I E S
			{
			mE(); 

			mN(); 

			mT(); 

			mR(); 

			mI(); 

			mE(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_ENTRIES"

	// $ANTLR start "K_FULL"
	public final void mK_FULL() throws RecognitionException {
		try {
			int _type = K_FULL;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:69:7: ( F U L L )
			// Lexer.g:69:16: F U L L
			{
			mF(); 

			mU(); 

			mL(); 

			mL(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_FULL"

	// $ANTLR start "K_INSERT"
	public final void mK_INSERT() throws RecognitionException {
		try {
			int _type = K_INSERT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:70:9: ( I N S E R T )
			// Lexer.g:70:16: I N S E R T
			{
			mI(); 

			mN(); 

			mS(); 

			mE(); 

			mR(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_INSERT"

	// $ANTLR start "K_UPDATE"
	public final void mK_UPDATE() throws RecognitionException {
		try {
			int _type = K_UPDATE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:71:9: ( U P D A T E )
			// Lexer.g:71:16: U P D A T E
			{
			mU(); 

			mP(); 

			mD(); 

			mA(); 

			mT(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_UPDATE"

	// $ANTLR start "K_WITH"
	public final void mK_WITH() throws RecognitionException {
		try {
			int _type = K_WITH;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:72:7: ( W I T H )
			// Lexer.g:72:16: W I T H
			{
			mW(); 

			mI(); 

			mT(); 

			mH(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_WITH"

	// $ANTLR start "K_LIMIT"
	public final void mK_LIMIT() throws RecognitionException {
		try {
			int _type = K_LIMIT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:73:8: ( L I M I T )
			// Lexer.g:73:16: L I M I T
			{
			mL(); 

			mI(); 

			mM(); 

			mI(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_LIMIT"

	// $ANTLR start "K_PER"
	public final void mK_PER() throws RecognitionException {
		try {
			int _type = K_PER;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:74:6: ( P E R )
			// Lexer.g:74:16: P E R
			{
			mP(); 

			mE(); 

			mR(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_PER"

	// $ANTLR start "K_PARTITION"
	public final void mK_PARTITION() throws RecognitionException {
		try {
			int _type = K_PARTITION;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:75:12: ( P A R T I T I O N )
			// Lexer.g:75:16: P A R T I T I O N
			{
			mP(); 

			mA(); 

			mR(); 

			mT(); 

			mI(); 

			mT(); 

			mI(); 

			mO(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_PARTITION"

	// $ANTLR start "K_USING"
	public final void mK_USING() throws RecognitionException {
		try {
			int _type = K_USING;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:76:8: ( U S I N G )
			// Lexer.g:76:16: U S I N G
			{
			mU(); 

			mS(); 

			mI(); 

			mN(); 

			mG(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_USING"

	// $ANTLR start "K_USE"
	public final void mK_USE() throws RecognitionException {
		try {
			int _type = K_USE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:77:6: ( U S E )
			// Lexer.g:77:16: U S E
			{
			mU(); 

			mS(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_USE"

	// $ANTLR start "K_DISTINCT"
	public final void mK_DISTINCT() throws RecognitionException {
		try {
			int _type = K_DISTINCT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:78:11: ( D I S T I N C T )
			// Lexer.g:78:16: D I S T I N C T
			{
			mD(); 

			mI(); 

			mS(); 

			mT(); 

			mI(); 

			mN(); 

			mC(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_DISTINCT"

	// $ANTLR start "K_COUNT"
	public final void mK_COUNT() throws RecognitionException {
		try {
			int _type = K_COUNT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:79:8: ( C O U N T )
			// Lexer.g:79:16: C O U N T
			{
			mC(); 

			mO(); 

			mU(); 

			mN(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_COUNT"

	// $ANTLR start "K_SET"
	public final void mK_SET() throws RecognitionException {
		try {
			int _type = K_SET;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:80:6: ( S E T )
			// Lexer.g:80:16: S E T
			{
			mS(); 

			mE(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_SET"

	// $ANTLR start "K_BEGIN"
	public final void mK_BEGIN() throws RecognitionException {
		try {
			int _type = K_BEGIN;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:81:8: ( B E G I N )
			// Lexer.g:81:16: B E G I N
			{
			mB(); 

			mE(); 

			mG(); 

			mI(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_BEGIN"

	// $ANTLR start "K_UNLOGGED"
	public final void mK_UNLOGGED() throws RecognitionException {
		try {
			int _type = K_UNLOGGED;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:82:11: ( U N L O G G E D )
			// Lexer.g:82:16: U N L O G G E D
			{
			mU(); 

			mN(); 

			mL(); 

			mO(); 

			mG(); 

			mG(); 

			mE(); 

			mD(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_UNLOGGED"

	// $ANTLR start "K_BATCH"
	public final void mK_BATCH() throws RecognitionException {
		try {
			int _type = K_BATCH;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:83:8: ( B A T C H )
			// Lexer.g:83:16: B A T C H
			{
			mB(); 

			mA(); 

			mT(); 

			mC(); 

			mH(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_BATCH"

	// $ANTLR start "K_APPLY"
	public final void mK_APPLY() throws RecognitionException {
		try {
			int _type = K_APPLY;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:84:8: ( A P P L Y )
			// Lexer.g:84:16: A P P L Y
			{
			mA(); 

			mP(); 

			mP(); 

			mL(); 

			mY(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_APPLY"

	// $ANTLR start "K_TRUNCATE"
	public final void mK_TRUNCATE() throws RecognitionException {
		try {
			int _type = K_TRUNCATE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:85:11: ( T R U N C A T E )
			// Lexer.g:85:16: T R U N C A T E
			{
			mT(); 

			mR(); 

			mU(); 

			mN(); 

			mC(); 

			mA(); 

			mT(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_TRUNCATE"

	// $ANTLR start "K_DELETE"
	public final void mK_DELETE() throws RecognitionException {
		try {
			int _type = K_DELETE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:86:9: ( D E L E T E )
			// Lexer.g:86:16: D E L E T E
			{
			mD(); 

			mE(); 

			mL(); 

			mE(); 

			mT(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_DELETE"

	// $ANTLR start "K_IN"
	public final void mK_IN() throws RecognitionException {
		try {
			int _type = K_IN;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:87:5: ( I N )
			// Lexer.g:87:16: I N
			{
			mI(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_IN"

	// $ANTLR start "K_CREATE"
	public final void mK_CREATE() throws RecognitionException {
		try {
			int _type = K_CREATE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:88:9: ( C R E A T E )
			// Lexer.g:88:16: C R E A T E
			{
			mC(); 

			mR(); 

			mE(); 

			mA(); 

			mT(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_CREATE"

	// $ANTLR start "K_KEYSPACE"
	public final void mK_KEYSPACE() throws RecognitionException {
		try {
			int _type = K_KEYSPACE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:89:11: ( ( K E Y S P A C E | S C H E M A ) )
			// Lexer.g:89:16: ( K E Y S P A C E | S C H E M A )
			{
			// Lexer.g:89:16: ( K E Y S P A C E | S C H E M A )
			int alt1=2;
			int LA1_0 = input.LA(1);
			if ( (LA1_0=='K'||LA1_0=='k') ) {
				alt1=1;
			}
			else if ( (LA1_0=='S'||LA1_0=='s') ) {
				alt1=2;
			}

			else {
				NoViableAltException nvae =
					new NoViableAltException("", 1, 0, input);
				throw nvae;
			}

			switch (alt1) {
				case 1 :
					// Lexer.g:89:18: K E Y S P A C E
					{
					mK(); 

					mE(); 

					mY(); 

					mS(); 

					mP(); 

					mA(); 

					mC(); 

					mE(); 

					}
					break;
				case 2 :
					// Lexer.g:90:20: S C H E M A
					{
					mS(); 

					mC(); 

					mH(); 

					mE(); 

					mM(); 

					mA(); 

					}
					break;

			}

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_KEYSPACE"

	// $ANTLR start "K_KEYSPACES"
	public final void mK_KEYSPACES() throws RecognitionException {
		try {
			int _type = K_KEYSPACES;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:91:12: ( K E Y S P A C E S )
			// Lexer.g:91:16: K E Y S P A C E S
			{
			mK(); 

			mE(); 

			mY(); 

			mS(); 

			mP(); 

			mA(); 

			mC(); 

			mE(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_KEYSPACES"

	// $ANTLR start "K_COLUMNFAMILY"
	public final void mK_COLUMNFAMILY() throws RecognitionException {
		try {
			int _type = K_COLUMNFAMILY;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:92:15: ( ( C O L U M N F A M I L Y | T A B L E ) )
			// Lexer.g:92:16: ( C O L U M N F A M I L Y | T A B L E )
			{
			// Lexer.g:92:16: ( C O L U M N F A M I L Y | T A B L E )
			int alt2=2;
			int LA2_0 = input.LA(1);
			if ( (LA2_0=='C'||LA2_0=='c') ) {
				alt2=1;
			}
			else if ( (LA2_0=='T'||LA2_0=='t') ) {
				alt2=2;
			}

			else {
				NoViableAltException nvae =
					new NoViableAltException("", 2, 0, input);
				throw nvae;
			}

			switch (alt2) {
				case 1 :
					// Lexer.g:92:18: C O L U M N F A M I L Y
					{
					mC(); 

					mO(); 

					mL(); 

					mU(); 

					mM(); 

					mN(); 

					mF(); 

					mA(); 

					mM(); 

					mI(); 

					mL(); 

					mY(); 

					}
					break;
				case 2 :
					// Lexer.g:93:20: T A B L E
					{
					mT(); 

					mA(); 

					mB(); 

					mL(); 

					mE(); 

					}
					break;

			}

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_COLUMNFAMILY"

	// $ANTLR start "K_MATERIALIZED"
	public final void mK_MATERIALIZED() throws RecognitionException {
		try {
			int _type = K_MATERIALIZED;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:94:15: ( M A T E R I A L I Z E D )
			// Lexer.g:94:16: M A T E R I A L I Z E D
			{
			mM(); 

			mA(); 

			mT(); 

			mE(); 

			mR(); 

			mI(); 

			mA(); 

			mL(); 

			mI(); 

			mZ(); 

			mE(); 

			mD(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_MATERIALIZED"

	// $ANTLR start "K_VIEW"
	public final void mK_VIEW() throws RecognitionException {
		try {
			int _type = K_VIEW;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:95:7: ( V I E W )
			// Lexer.g:95:16: V I E W
			{
			mV(); 

			mI(); 

			mE(); 

			mW(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_VIEW"

	// $ANTLR start "K_INDEX"
	public final void mK_INDEX() throws RecognitionException {
		try {
			int _type = K_INDEX;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:96:8: ( I N D E X )
			// Lexer.g:96:16: I N D E X
			{
			mI(); 

			mN(); 

			mD(); 

			mE(); 

			mX(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_INDEX"

	// $ANTLR start "K_CUSTOM"
	public final void mK_CUSTOM() throws RecognitionException {
		try {
			int _type = K_CUSTOM;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:97:9: ( C U S T O M )
			// Lexer.g:97:16: C U S T O M
			{
			mC(); 

			mU(); 

			mS(); 

			mT(); 

			mO(); 

			mM(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_CUSTOM"

	// $ANTLR start "K_ON"
	public final void mK_ON() throws RecognitionException {
		try {
			int _type = K_ON;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:98:5: ( O N )
			// Lexer.g:98:16: O N
			{
			mO(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_ON"

	// $ANTLR start "K_TO"
	public final void mK_TO() throws RecognitionException {
		try {
			int _type = K_TO;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:99:5: ( T O )
			// Lexer.g:99:16: T O
			{
			mT(); 

			mO(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_TO"

	// $ANTLR start "K_DROP"
	public final void mK_DROP() throws RecognitionException {
		try {
			int _type = K_DROP;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:100:7: ( D R O P )
			// Lexer.g:100:16: D R O P
			{
			mD(); 

			mR(); 

			mO(); 

			mP(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_DROP"

	// $ANTLR start "K_PRIMARY"
	public final void mK_PRIMARY() throws RecognitionException {
		try {
			int _type = K_PRIMARY;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:101:10: ( P R I M A R Y )
			// Lexer.g:101:16: P R I M A R Y
			{
			mP(); 

			mR(); 

			mI(); 

			mM(); 

			mA(); 

			mR(); 

			mY(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_PRIMARY"

	// $ANTLR start "K_INTO"
	public final void mK_INTO() throws RecognitionException {
		try {
			int _type = K_INTO;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:102:7: ( I N T O )
			// Lexer.g:102:16: I N T O
			{
			mI(); 

			mN(); 

			mT(); 

			mO(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_INTO"

	// $ANTLR start "K_VALUES"
	public final void mK_VALUES() throws RecognitionException {
		try {
			int _type = K_VALUES;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:103:9: ( V A L U E S )
			// Lexer.g:103:16: V A L U E S
			{
			mV(); 

			mA(); 

			mL(); 

			mU(); 

			mE(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_VALUES"

	// $ANTLR start "K_TIMESTAMP"
	public final void mK_TIMESTAMP() throws RecognitionException {
		try {
			int _type = K_TIMESTAMP;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:104:12: ( T I M E S T A M P )
			// Lexer.g:104:16: T I M E S T A M P
			{
			mT(); 

			mI(); 

			mM(); 

			mE(); 

			mS(); 

			mT(); 

			mA(); 

			mM(); 

			mP(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_TIMESTAMP"

	// $ANTLR start "K_TTL"
	public final void mK_TTL() throws RecognitionException {
		try {
			int _type = K_TTL;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:105:6: ( T T L )
			// Lexer.g:105:16: T T L
			{
			mT(); 

			mT(); 

			mL(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_TTL"

	// $ANTLR start "K_CAST"
	public final void mK_CAST() throws RecognitionException {
		try {
			int _type = K_CAST;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:106:7: ( C A S T )
			// Lexer.g:106:16: C A S T
			{
			mC(); 

			mA(); 

			mS(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_CAST"

	// $ANTLR start "K_ALTER"
	public final void mK_ALTER() throws RecognitionException {
		try {
			int _type = K_ALTER;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:107:8: ( A L T E R )
			// Lexer.g:107:16: A L T E R
			{
			mA(); 

			mL(); 

			mT(); 

			mE(); 

			mR(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_ALTER"

	// $ANTLR start "K_RENAME"
	public final void mK_RENAME() throws RecognitionException {
		try {
			int _type = K_RENAME;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:108:9: ( R E N A M E )
			// Lexer.g:108:16: R E N A M E
			{
			mR(); 

			mE(); 

			mN(); 

			mA(); 

			mM(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_RENAME"

	// $ANTLR start "K_ADD"
	public final void mK_ADD() throws RecognitionException {
		try {
			int _type = K_ADD;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:109:6: ( A D D )
			// Lexer.g:109:16: A D D
			{
			mA(); 

			mD(); 

			mD(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_ADD"

	// $ANTLR start "K_TYPE"
	public final void mK_TYPE() throws RecognitionException {
		try {
			int _type = K_TYPE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:110:7: ( T Y P E )
			// Lexer.g:110:16: T Y P E
			{
			mT(); 

			mY(); 

			mP(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_TYPE"

	// $ANTLR start "K_COMPACT"
	public final void mK_COMPACT() throws RecognitionException {
		try {
			int _type = K_COMPACT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:111:10: ( C O M P A C T )
			// Lexer.g:111:16: C O M P A C T
			{
			mC(); 

			mO(); 

			mM(); 

			mP(); 

			mA(); 

			mC(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_COMPACT"

	// $ANTLR start "K_STORAGE"
	public final void mK_STORAGE() throws RecognitionException {
		try {
			int _type = K_STORAGE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:112:10: ( S T O R A G E )
			// Lexer.g:112:16: S T O R A G E
			{
			mS(); 

			mT(); 

			mO(); 

			mR(); 

			mA(); 

			mG(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_STORAGE"

	// $ANTLR start "K_ORDER"
	public final void mK_ORDER() throws RecognitionException {
		try {
			int _type = K_ORDER;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:113:8: ( O R D E R )
			// Lexer.g:113:16: O R D E R
			{
			mO(); 

			mR(); 

			mD(); 

			mE(); 

			mR(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_ORDER"

	// $ANTLR start "K_BY"
	public final void mK_BY() throws RecognitionException {
		try {
			int _type = K_BY;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:114:5: ( B Y )
			// Lexer.g:114:16: B Y
			{
			mB(); 

			mY(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_BY"

	// $ANTLR start "K_ASC"
	public final void mK_ASC() throws RecognitionException {
		try {
			int _type = K_ASC;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:115:6: ( A S C )
			// Lexer.g:115:16: A S C
			{
			mA(); 

			mS(); 

			mC(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_ASC"

	// $ANTLR start "K_DESC"
	public final void mK_DESC() throws RecognitionException {
		try {
			int _type = K_DESC;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:116:7: ( D E S C )
			// Lexer.g:116:16: D E S C
			{
			mD(); 

			mE(); 

			mS(); 

			mC(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_DESC"

	// $ANTLR start "K_ALLOW"
	public final void mK_ALLOW() throws RecognitionException {
		try {
			int _type = K_ALLOW;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:117:8: ( A L L O W )
			// Lexer.g:117:16: A L L O W
			{
			mA(); 

			mL(); 

			mL(); 

			mO(); 

			mW(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_ALLOW"

	// $ANTLR start "K_FILTERING"
	public final void mK_FILTERING() throws RecognitionException {
		try {
			int _type = K_FILTERING;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:118:12: ( F I L T E R I N G )
			// Lexer.g:118:16: F I L T E R I N G
			{
			mF(); 

			mI(); 

			mL(); 

			mT(); 

			mE(); 

			mR(); 

			mI(); 

			mN(); 

			mG(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_FILTERING"

	// $ANTLR start "K_IF"
	public final void mK_IF() throws RecognitionException {
		try {
			int _type = K_IF;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:119:5: ( I F )
			// Lexer.g:119:16: I F
			{
			mI(); 

			mF(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_IF"

	// $ANTLR start "K_IS"
	public final void mK_IS() throws RecognitionException {
		try {
			int _type = K_IS;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:120:5: ( I S )
			// Lexer.g:120:16: I S
			{
			mI(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_IS"

	// $ANTLR start "K_CONTAINS"
	public final void mK_CONTAINS() throws RecognitionException {
		try {
			int _type = K_CONTAINS;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:121:11: ( C O N T A I N S )
			// Lexer.g:121:16: C O N T A I N S
			{
			mC(); 

			mO(); 

			mN(); 

			mT(); 

			mA(); 

			mI(); 

			mN(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_CONTAINS"

	// $ANTLR start "K_GROUP"
	public final void mK_GROUP() throws RecognitionException {
		try {
			int _type = K_GROUP;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:122:8: ( G R O U P )
			// Lexer.g:122:16: G R O U P
			{
			mG(); 

			mR(); 

			mO(); 

			mU(); 

			mP(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_GROUP"

	// $ANTLR start "K_GRANT"
	public final void mK_GRANT() throws RecognitionException {
		try {
			int _type = K_GRANT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:124:8: ( G R A N T )
			// Lexer.g:124:16: G R A N T
			{
			mG(); 

			mR(); 

			mA(); 

			mN(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_GRANT"

	// $ANTLR start "K_ALL"
	public final void mK_ALL() throws RecognitionException {
		try {
			int _type = K_ALL;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:125:6: ( A L L )
			// Lexer.g:125:16: A L L
			{
			mA(); 

			mL(); 

			mL(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_ALL"

	// $ANTLR start "K_PERMISSION"
	public final void mK_PERMISSION() throws RecognitionException {
		try {
			int _type = K_PERMISSION;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:126:13: ( P E R M I S S I O N )
			// Lexer.g:126:16: P E R M I S S I O N
			{
			mP(); 

			mE(); 

			mR(); 

			mM(); 

			mI(); 

			mS(); 

			mS(); 

			mI(); 

			mO(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_PERMISSION"

	// $ANTLR start "K_PERMISSIONS"
	public final void mK_PERMISSIONS() throws RecognitionException {
		try {
			int _type = K_PERMISSIONS;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:127:14: ( P E R M I S S I O N S )
			// Lexer.g:127:16: P E R M I S S I O N S
			{
			mP(); 

			mE(); 

			mR(); 

			mM(); 

			mI(); 

			mS(); 

			mS(); 

			mI(); 

			mO(); 

			mN(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_PERMISSIONS"

	// $ANTLR start "K_OF"
	public final void mK_OF() throws RecognitionException {
		try {
			int _type = K_OF;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:128:5: ( O F )
			// Lexer.g:128:16: O F
			{
			mO(); 

			mF(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_OF"

	// $ANTLR start "K_REVOKE"
	public final void mK_REVOKE() throws RecognitionException {
		try {
			int _type = K_REVOKE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:129:9: ( R E V O K E )
			// Lexer.g:129:16: R E V O K E
			{
			mR(); 

			mE(); 

			mV(); 

			mO(); 

			mK(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_REVOKE"

	// $ANTLR start "K_MODIFY"
	public final void mK_MODIFY() throws RecognitionException {
		try {
			int _type = K_MODIFY;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:130:9: ( M O D I F Y )
			// Lexer.g:130:16: M O D I F Y
			{
			mM(); 

			mO(); 

			mD(); 

			mI(); 

			mF(); 

			mY(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_MODIFY"

	// $ANTLR start "K_AUTHORIZE"
	public final void mK_AUTHORIZE() throws RecognitionException {
		try {
			int _type = K_AUTHORIZE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:131:12: ( A U T H O R I Z E )
			// Lexer.g:131:16: A U T H O R I Z E
			{
			mA(); 

			mU(); 

			mT(); 

			mH(); 

			mO(); 

			mR(); 

			mI(); 

			mZ(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_AUTHORIZE"

	// $ANTLR start "K_DESCRIBE"
	public final void mK_DESCRIBE() throws RecognitionException {
		try {
			int _type = K_DESCRIBE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:132:11: ( D E S C R I B E )
			// Lexer.g:132:16: D E S C R I B E
			{
			mD(); 

			mE(); 

			mS(); 

			mC(); 

			mR(); 

			mI(); 

			mB(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_DESCRIBE"

	// $ANTLR start "K_EXECUTE"
	public final void mK_EXECUTE() throws RecognitionException {
		try {
			int _type = K_EXECUTE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:133:10: ( E X E C U T E )
			// Lexer.g:133:16: E X E C U T E
			{
			mE(); 

			mX(); 

			mE(); 

			mC(); 

			mU(); 

			mT(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_EXECUTE"

	// $ANTLR start "K_NORECURSIVE"
	public final void mK_NORECURSIVE() throws RecognitionException {
		try {
			int _type = K_NORECURSIVE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:134:14: ( N O R E C U R S I V E )
			// Lexer.g:134:16: N O R E C U R S I V E
			{
			mN(); 

			mO(); 

			mR(); 

			mE(); 

			mC(); 

			mU(); 

			mR(); 

			mS(); 

			mI(); 

			mV(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_NORECURSIVE"

	// $ANTLR start "K_MBEAN"
	public final void mK_MBEAN() throws RecognitionException {
		try {
			int _type = K_MBEAN;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:135:8: ( M B E A N )
			// Lexer.g:135:16: M B E A N
			{
			mM(); 

			mB(); 

			mE(); 

			mA(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_MBEAN"

	// $ANTLR start "K_MBEANS"
	public final void mK_MBEANS() throws RecognitionException {
		try {
			int _type = K_MBEANS;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:136:9: ( M B E A N S )
			// Lexer.g:136:16: M B E A N S
			{
			mM(); 

			mB(); 

			mE(); 

			mA(); 

			mN(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_MBEANS"

	// $ANTLR start "K_USER"
	public final void mK_USER() throws RecognitionException {
		try {
			int _type = K_USER;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:138:7: ( U S E R )
			// Lexer.g:138:16: U S E R
			{
			mU(); 

			mS(); 

			mE(); 

			mR(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_USER"

	// $ANTLR start "K_USERS"
	public final void mK_USERS() throws RecognitionException {
		try {
			int _type = K_USERS;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:139:8: ( U S E R S )
			// Lexer.g:139:16: U S E R S
			{
			mU(); 

			mS(); 

			mE(); 

			mR(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_USERS"

	// $ANTLR start "K_ROLE"
	public final void mK_ROLE() throws RecognitionException {
		try {
			int _type = K_ROLE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:140:7: ( R O L E )
			// Lexer.g:140:16: R O L E
			{
			mR(); 

			mO(); 

			mL(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_ROLE"

	// $ANTLR start "K_ROLES"
	public final void mK_ROLES() throws RecognitionException {
		try {
			int _type = K_ROLES;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:141:8: ( R O L E S )
			// Lexer.g:141:16: R O L E S
			{
			mR(); 

			mO(); 

			mL(); 

			mE(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_ROLES"

	// $ANTLR start "K_SUPERUSER"
	public final void mK_SUPERUSER() throws RecognitionException {
		try {
			int _type = K_SUPERUSER;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:142:12: ( S U P E R U S E R )
			// Lexer.g:142:16: S U P E R U S E R
			{
			mS(); 

			mU(); 

			mP(); 

			mE(); 

			mR(); 

			mU(); 

			mS(); 

			mE(); 

			mR(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_SUPERUSER"

	// $ANTLR start "K_NOSUPERUSER"
	public final void mK_NOSUPERUSER() throws RecognitionException {
		try {
			int _type = K_NOSUPERUSER;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:143:14: ( N O S U P E R U S E R )
			// Lexer.g:143:16: N O S U P E R U S E R
			{
			mN(); 

			mO(); 

			mS(); 

			mU(); 

			mP(); 

			mE(); 

			mR(); 

			mU(); 

			mS(); 

			mE(); 

			mR(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_NOSUPERUSER"

	// $ANTLR start "K_PASSWORD"
	public final void mK_PASSWORD() throws RecognitionException {
		try {
			int _type = K_PASSWORD;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:144:11: ( P A S S W O R D )
			// Lexer.g:144:16: P A S S W O R D
			{
			mP(); 

			mA(); 

			mS(); 

			mS(); 

			mW(); 

			mO(); 

			mR(); 

			mD(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_PASSWORD"

	// $ANTLR start "K_LOGIN"
	public final void mK_LOGIN() throws RecognitionException {
		try {
			int _type = K_LOGIN;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:145:8: ( L O G I N )
			// Lexer.g:145:16: L O G I N
			{
			mL(); 

			mO(); 

			mG(); 

			mI(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_LOGIN"

	// $ANTLR start "K_NOLOGIN"
	public final void mK_NOLOGIN() throws RecognitionException {
		try {
			int _type = K_NOLOGIN;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:146:10: ( N O L O G I N )
			// Lexer.g:146:16: N O L O G I N
			{
			mN(); 

			mO(); 

			mL(); 

			mO(); 

			mG(); 

			mI(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_NOLOGIN"

	// $ANTLR start "K_OPTIONS"
	public final void mK_OPTIONS() throws RecognitionException {
		try {
			int _type = K_OPTIONS;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:147:10: ( O P T I O N S )
			// Lexer.g:147:16: O P T I O N S
			{
			mO(); 

			mP(); 

			mT(); 

			mI(); 

			mO(); 

			mN(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_OPTIONS"

	// $ANTLR start "K_CLUSTERING"
	public final void mK_CLUSTERING() throws RecognitionException {
		try {
			int _type = K_CLUSTERING;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:149:13: ( C L U S T E R I N G )
			// Lexer.g:149:16: C L U S T E R I N G
			{
			mC(); 

			mL(); 

			mU(); 

			mS(); 

			mT(); 

			mE(); 

			mR(); 

			mI(); 

			mN(); 

			mG(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_CLUSTERING"

	// $ANTLR start "K_ASCII"
	public final void mK_ASCII() throws RecognitionException {
		try {
			int _type = K_ASCII;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:150:8: ( A S C I I )
			// Lexer.g:150:16: A S C I I
			{
			mA(); 

			mS(); 

			mC(); 

			mI(); 

			mI(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_ASCII"

	// $ANTLR start "K_BIGINT"
	public final void mK_BIGINT() throws RecognitionException {
		try {
			int _type = K_BIGINT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:151:9: ( B I G I N T )
			// Lexer.g:151:16: B I G I N T
			{
			mB(); 

			mI(); 

			mG(); 

			mI(); 

			mN(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_BIGINT"

	// $ANTLR start "K_BLOB"
	public final void mK_BLOB() throws RecognitionException {
		try {
			int _type = K_BLOB;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:152:7: ( B L O B )
			// Lexer.g:152:16: B L O B
			{
			mB(); 

			mL(); 

			mO(); 

			mB(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_BLOB"

	// $ANTLR start "K_BOOLEAN"
	public final void mK_BOOLEAN() throws RecognitionException {
		try {
			int _type = K_BOOLEAN;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:153:10: ( B O O L E A N )
			// Lexer.g:153:16: B O O L E A N
			{
			mB(); 

			mO(); 

			mO(); 

			mL(); 

			mE(); 

			mA(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_BOOLEAN"

	// $ANTLR start "K_COUNTER"
	public final void mK_COUNTER() throws RecognitionException {
		try {
			int _type = K_COUNTER;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:154:10: ( C O U N T E R )
			// Lexer.g:154:16: C O U N T E R
			{
			mC(); 

			mO(); 

			mU(); 

			mN(); 

			mT(); 

			mE(); 

			mR(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_COUNTER"

	// $ANTLR start "K_DECIMAL"
	public final void mK_DECIMAL() throws RecognitionException {
		try {
			int _type = K_DECIMAL;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:155:10: ( D E C I M A L )
			// Lexer.g:155:16: D E C I M A L
			{
			mD(); 

			mE(); 

			mC(); 

			mI(); 

			mM(); 

			mA(); 

			mL(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_DECIMAL"

	// $ANTLR start "K_DOUBLE"
	public final void mK_DOUBLE() throws RecognitionException {
		try {
			int _type = K_DOUBLE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:156:9: ( D O U B L E )
			// Lexer.g:156:16: D O U B L E
			{
			mD(); 

			mO(); 

			mU(); 

			mB(); 

			mL(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_DOUBLE"

	// $ANTLR start "K_DURATION"
	public final void mK_DURATION() throws RecognitionException {
		try {
			int _type = K_DURATION;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:157:11: ( D U R A T I O N )
			// Lexer.g:157:16: D U R A T I O N
			{
			mD(); 

			mU(); 

			mR(); 

			mA(); 

			mT(); 

			mI(); 

			mO(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_DURATION"

	// $ANTLR start "K_FLOAT"
	public final void mK_FLOAT() throws RecognitionException {
		try {
			int _type = K_FLOAT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:158:8: ( F L O A T )
			// Lexer.g:158:16: F L O A T
			{
			mF(); 

			mL(); 

			mO(); 

			mA(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_FLOAT"

	// $ANTLR start "K_INET"
	public final void mK_INET() throws RecognitionException {
		try {
			int _type = K_INET;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:159:7: ( I N E T )
			// Lexer.g:159:16: I N E T
			{
			mI(); 

			mN(); 

			mE(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_INET"

	// $ANTLR start "K_INT"
	public final void mK_INT() throws RecognitionException {
		try {
			int _type = K_INT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:160:6: ( I N T )
			// Lexer.g:160:16: I N T
			{
			mI(); 

			mN(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_INT"

	// $ANTLR start "K_SMALLINT"
	public final void mK_SMALLINT() throws RecognitionException {
		try {
			int _type = K_SMALLINT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:161:11: ( S M A L L I N T )
			// Lexer.g:161:16: S M A L L I N T
			{
			mS(); 

			mM(); 

			mA(); 

			mL(); 

			mL(); 

			mI(); 

			mN(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_SMALLINT"

	// $ANTLR start "K_TINYINT"
	public final void mK_TINYINT() throws RecognitionException {
		try {
			int _type = K_TINYINT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:162:10: ( T I N Y I N T )
			// Lexer.g:162:16: T I N Y I N T
			{
			mT(); 

			mI(); 

			mN(); 

			mY(); 

			mI(); 

			mN(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_TINYINT"

	// $ANTLR start "K_TEXT"
	public final void mK_TEXT() throws RecognitionException {
		try {
			int _type = K_TEXT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:163:7: ( T E X T )
			// Lexer.g:163:16: T E X T
			{
			mT(); 

			mE(); 

			mX(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_TEXT"

	// $ANTLR start "K_UUID"
	public final void mK_UUID() throws RecognitionException {
		try {
			int _type = K_UUID;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:164:7: ( U U I D )
			// Lexer.g:164:16: U U I D
			{
			mU(); 

			mU(); 

			mI(); 

			mD(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_UUID"

	// $ANTLR start "K_VARCHAR"
	public final void mK_VARCHAR() throws RecognitionException {
		try {
			int _type = K_VARCHAR;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:165:10: ( V A R C H A R )
			// Lexer.g:165:16: V A R C H A R
			{
			mV(); 

			mA(); 

			mR(); 

			mC(); 

			mH(); 

			mA(); 

			mR(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_VARCHAR"

	// $ANTLR start "K_VARINT"
	public final void mK_VARINT() throws RecognitionException {
		try {
			int _type = K_VARINT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:166:9: ( V A R I N T )
			// Lexer.g:166:16: V A R I N T
			{
			mV(); 

			mA(); 

			mR(); 

			mI(); 

			mN(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_VARINT"

	// $ANTLR start "K_TIMEUUID"
	public final void mK_TIMEUUID() throws RecognitionException {
		try {
			int _type = K_TIMEUUID;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:167:11: ( T I M E U U I D )
			// Lexer.g:167:16: T I M E U U I D
			{
			mT(); 

			mI(); 

			mM(); 

			mE(); 

			mU(); 

			mU(); 

			mI(); 

			mD(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_TIMEUUID"

	// $ANTLR start "K_TOKEN"
	public final void mK_TOKEN() throws RecognitionException {
		try {
			int _type = K_TOKEN;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:168:8: ( T O K E N )
			// Lexer.g:168:16: T O K E N
			{
			mT(); 

			mO(); 

			mK(); 

			mE(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_TOKEN"

	// $ANTLR start "K_WRITETIME"
	public final void mK_WRITETIME() throws RecognitionException {
		try {
			int _type = K_WRITETIME;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:169:12: ( W R I T E T I M E )
			// Lexer.g:169:16: W R I T E T I M E
			{
			mW(); 

			mR(); 

			mI(); 

			mT(); 

			mE(); 

			mT(); 

			mI(); 

			mM(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_WRITETIME"

	// $ANTLR start "K_DATE"
	public final void mK_DATE() throws RecognitionException {
		try {
			int _type = K_DATE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:170:7: ( D A T E )
			// Lexer.g:170:16: D A T E
			{
			mD(); 

			mA(); 

			mT(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_DATE"

	// $ANTLR start "K_TIME"
	public final void mK_TIME() throws RecognitionException {
		try {
			int _type = K_TIME;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:171:7: ( T I M E )
			// Lexer.g:171:16: T I M E
			{
			mT(); 

			mI(); 

			mM(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_TIME"

	// $ANTLR start "K_NULL"
	public final void mK_NULL() throws RecognitionException {
		try {
			int _type = K_NULL;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:173:7: ( N U L L )
			// Lexer.g:173:16: N U L L
			{
			mN(); 

			mU(); 

			mL(); 

			mL(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_NULL"

	// $ANTLR start "K_NOT"
	public final void mK_NOT() throws RecognitionException {
		try {
			int _type = K_NOT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:174:6: ( N O T )
			// Lexer.g:174:16: N O T
			{
			mN(); 

			mO(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_NOT"

	// $ANTLR start "K_EXISTS"
	public final void mK_EXISTS() throws RecognitionException {
		try {
			int _type = K_EXISTS;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:175:9: ( E X I S T S )
			// Lexer.g:175:16: E X I S T S
			{
			mE(); 

			mX(); 

			mI(); 

			mS(); 

			mT(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_EXISTS"

	// $ANTLR start "K_MAP"
	public final void mK_MAP() throws RecognitionException {
		try {
			int _type = K_MAP;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:177:6: ( M A P )
			// Lexer.g:177:16: M A P
			{
			mM(); 

			mA(); 

			mP(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_MAP"

	// $ANTLR start "K_LIST"
	public final void mK_LIST() throws RecognitionException {
		try {
			int _type = K_LIST;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:178:7: ( L I S T )
			// Lexer.g:178:16: L I S T
			{
			mL(); 

			mI(); 

			mS(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_LIST"

	// $ANTLR start "K_NAN"
	public final void mK_NAN() throws RecognitionException {
		try {
			int _type = K_NAN;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:179:6: ( N A N )
			// Lexer.g:179:16: N A N
			{
			mN(); 

			mA(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_NAN"

	// $ANTLR start "K_INFINITY"
	public final void mK_INFINITY() throws RecognitionException {
		try {
			int _type = K_INFINITY;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:180:11: ( I N F I N I T Y )
			// Lexer.g:180:16: I N F I N I T Y
			{
			mI(); 

			mN(); 

			mF(); 

			mI(); 

			mN(); 

			mI(); 

			mT(); 

			mY(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_INFINITY"

	// $ANTLR start "K_TUPLE"
	public final void mK_TUPLE() throws RecognitionException {
		try {
			int _type = K_TUPLE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:181:8: ( T U P L E )
			// Lexer.g:181:16: T U P L E
			{
			mT(); 

			mU(); 

			mP(); 

			mL(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_TUPLE"

	// $ANTLR start "K_TRIGGER"
	public final void mK_TRIGGER() throws RecognitionException {
		try {
			int _type = K_TRIGGER;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:183:10: ( T R I G G E R )
			// Lexer.g:183:16: T R I G G E R
			{
			mT(); 

			mR(); 

			mI(); 

			mG(); 

			mG(); 

			mE(); 

			mR(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_TRIGGER"

	// $ANTLR start "K_STATIC"
	public final void mK_STATIC() throws RecognitionException {
		try {
			int _type = K_STATIC;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:184:9: ( S T A T I C )
			// Lexer.g:184:16: S T A T I C
			{
			mS(); 

			mT(); 

			mA(); 

			mT(); 

			mI(); 

			mC(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_STATIC"

	// $ANTLR start "K_FROZEN"
	public final void mK_FROZEN() throws RecognitionException {
		try {
			int _type = K_FROZEN;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:185:9: ( F R O Z E N )
			// Lexer.g:185:16: F R O Z E N
			{
			mF(); 

			mR(); 

			mO(); 

			mZ(); 

			mE(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_FROZEN"

	// $ANTLR start "K_FUNCTION"
	public final void mK_FUNCTION() throws RecognitionException {
		try {
			int _type = K_FUNCTION;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:187:11: ( F U N C T I O N )
			// Lexer.g:187:16: F U N C T I O N
			{
			mF(); 

			mU(); 

			mN(); 

			mC(); 

			mT(); 

			mI(); 

			mO(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_FUNCTION"

	// $ANTLR start "K_FUNCTIONS"
	public final void mK_FUNCTIONS() throws RecognitionException {
		try {
			int _type = K_FUNCTIONS;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:188:12: ( F U N C T I O N S )
			// Lexer.g:188:16: F U N C T I O N S
			{
			mF(); 

			mU(); 

			mN(); 

			mC(); 

			mT(); 

			mI(); 

			mO(); 

			mN(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_FUNCTIONS"

	// $ANTLR start "K_AGGREGATE"
	public final void mK_AGGREGATE() throws RecognitionException {
		try {
			int _type = K_AGGREGATE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:189:12: ( A G G R E G A T E )
			// Lexer.g:189:16: A G G R E G A T E
			{
			mA(); 

			mG(); 

			mG(); 

			mR(); 

			mE(); 

			mG(); 

			mA(); 

			mT(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_AGGREGATE"

	// $ANTLR start "K_SFUNC"
	public final void mK_SFUNC() throws RecognitionException {
		try {
			int _type = K_SFUNC;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:190:8: ( S F U N C )
			// Lexer.g:190:16: S F U N C
			{
			mS(); 

			mF(); 

			mU(); 

			mN(); 

			mC(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_SFUNC"

	// $ANTLR start "K_STYPE"
	public final void mK_STYPE() throws RecognitionException {
		try {
			int _type = K_STYPE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:191:8: ( S T Y P E )
			// Lexer.g:191:16: S T Y P E
			{
			mS(); 

			mT(); 

			mY(); 

			mP(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_STYPE"

	// $ANTLR start "K_FINALFUNC"
	public final void mK_FINALFUNC() throws RecognitionException {
		try {
			int _type = K_FINALFUNC;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:192:12: ( F I N A L F U N C )
			// Lexer.g:192:16: F I N A L F U N C
			{
			mF(); 

			mI(); 

			mN(); 

			mA(); 

			mL(); 

			mF(); 

			mU(); 

			mN(); 

			mC(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_FINALFUNC"

	// $ANTLR start "K_INITCOND"
	public final void mK_INITCOND() throws RecognitionException {
		try {
			int _type = K_INITCOND;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:193:11: ( I N I T C O N D )
			// Lexer.g:193:16: I N I T C O N D
			{
			mI(); 

			mN(); 

			mI(); 

			mT(); 

			mC(); 

			mO(); 

			mN(); 

			mD(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_INITCOND"

	// $ANTLR start "K_RETURNS"
	public final void mK_RETURNS() throws RecognitionException {
		try {
			int _type = K_RETURNS;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:194:10: ( R E T U R N S )
			// Lexer.g:194:16: R E T U R N S
			{
			mR(); 

			mE(); 

			mT(); 

			mU(); 

			mR(); 

			mN(); 

			mS(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_RETURNS"

	// $ANTLR start "K_CALLED"
	public final void mK_CALLED() throws RecognitionException {
		try {
			int _type = K_CALLED;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:195:9: ( C A L L E D )
			// Lexer.g:195:16: C A L L E D
			{
			mC(); 

			mA(); 

			mL(); 

			mL(); 

			mE(); 

			mD(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_CALLED"

	// $ANTLR start "K_INPUT"
	public final void mK_INPUT() throws RecognitionException {
		try {
			int _type = K_INPUT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:196:8: ( I N P U T )
			// Lexer.g:196:16: I N P U T
			{
			mI(); 

			mN(); 

			mP(); 

			mU(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_INPUT"

	// $ANTLR start "K_LANGUAGE"
	public final void mK_LANGUAGE() throws RecognitionException {
		try {
			int _type = K_LANGUAGE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:197:11: ( L A N G U A G E )
			// Lexer.g:197:16: L A N G U A G E
			{
			mL(); 

			mA(); 

			mN(); 

			mG(); 

			mU(); 

			mA(); 

			mG(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_LANGUAGE"

	// $ANTLR start "K_OR"
	public final void mK_OR() throws RecognitionException {
		try {
			int _type = K_OR;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:198:5: ( O R )
			// Lexer.g:198:16: O R
			{
			mO(); 

			mR(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_OR"

	// $ANTLR start "K_REPLACE"
	public final void mK_REPLACE() throws RecognitionException {
		try {
			int _type = K_REPLACE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:199:10: ( R E P L A C E )
			// Lexer.g:199:16: R E P L A C E
			{
			mR(); 

			mE(); 

			mP(); 

			mL(); 

			mA(); 

			mC(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_REPLACE"

	// $ANTLR start "K_JSON"
	public final void mK_JSON() throws RecognitionException {
		try {
			int _type = K_JSON;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:201:7: ( J S O N )
			// Lexer.g:201:16: J S O N
			{
			mJ(); 

			mS(); 

			mO(); 

			mN(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_JSON"

	// $ANTLR start "K_DEFAULT"
	public final void mK_DEFAULT() throws RecognitionException {
		try {
			int _type = K_DEFAULT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:202:10: ( D E F A U L T )
			// Lexer.g:202:16: D E F A U L T
			{
			mD(); 

			mE(); 

			mF(); 

			mA(); 

			mU(); 

			mL(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_DEFAULT"

	// $ANTLR start "K_UNSET"
	public final void mK_UNSET() throws RecognitionException {
		try {
			int _type = K_UNSET;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:203:8: ( U N S E T )
			// Lexer.g:203:16: U N S E T
			{
			mU(); 

			mN(); 

			mS(); 

			mE(); 

			mT(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_UNSET"

	// $ANTLR start "K_LIKE"
	public final void mK_LIKE() throws RecognitionException {
		try {
			int _type = K_LIKE;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:204:7: ( L I K E )
			// Lexer.g:204:16: L I K E
			{
			mL(); 

			mI(); 

			mK(); 

			mE(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K_LIKE"

	// $ANTLR start "A"
	public final void mA() throws RecognitionException {
		try {
			// Lexer.g:207:11: ( ( 'a' | 'A' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='A'||input.LA(1)=='a' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "A"

	// $ANTLR start "B"
	public final void mB() throws RecognitionException {
		try {
			// Lexer.g:208:11: ( ( 'b' | 'B' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='B'||input.LA(1)=='b' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "B"

	// $ANTLR start "C"
	public final void mC() throws RecognitionException {
		try {
			// Lexer.g:209:11: ( ( 'c' | 'C' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='C'||input.LA(1)=='c' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "C"

	// $ANTLR start "D"
	public final void mD() throws RecognitionException {
		try {
			// Lexer.g:210:11: ( ( 'd' | 'D' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='D'||input.LA(1)=='d' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "D"

	// $ANTLR start "E"
	public final void mE() throws RecognitionException {
		try {
			// Lexer.g:211:11: ( ( 'e' | 'E' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='E'||input.LA(1)=='e' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "E"

	// $ANTLR start "F"
	public final void mF() throws RecognitionException {
		try {
			// Lexer.g:212:11: ( ( 'f' | 'F' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='F'||input.LA(1)=='f' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "F"

	// $ANTLR start "G"
	public final void mG() throws RecognitionException {
		try {
			// Lexer.g:213:11: ( ( 'g' | 'G' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='G'||input.LA(1)=='g' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "G"

	// $ANTLR start "H"
	public final void mH() throws RecognitionException {
		try {
			// Lexer.g:214:11: ( ( 'h' | 'H' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='H'||input.LA(1)=='h' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "H"

	// $ANTLR start "I"
	public final void mI() throws RecognitionException {
		try {
			// Lexer.g:215:11: ( ( 'i' | 'I' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='I'||input.LA(1)=='i' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "I"

	// $ANTLR start "J"
	public final void mJ() throws RecognitionException {
		try {
			// Lexer.g:216:11: ( ( 'j' | 'J' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='J'||input.LA(1)=='j' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "J"

	// $ANTLR start "K"
	public final void mK() throws RecognitionException {
		try {
			// Lexer.g:217:11: ( ( 'k' | 'K' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='K'||input.LA(1)=='k' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "K"

	// $ANTLR start "L"
	public final void mL() throws RecognitionException {
		try {
			// Lexer.g:218:11: ( ( 'l' | 'L' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='L'||input.LA(1)=='l' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "L"

	// $ANTLR start "M"
	public final void mM() throws RecognitionException {
		try {
			// Lexer.g:219:11: ( ( 'm' | 'M' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='M'||input.LA(1)=='m' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "M"

	// $ANTLR start "N"
	public final void mN() throws RecognitionException {
		try {
			// Lexer.g:220:11: ( ( 'n' | 'N' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='N'||input.LA(1)=='n' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "N"

	// $ANTLR start "O"
	public final void mO() throws RecognitionException {
		try {
			// Lexer.g:221:11: ( ( 'o' | 'O' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='O'||input.LA(1)=='o' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "O"

	// $ANTLR start "P"
	public final void mP() throws RecognitionException {
		try {
			// Lexer.g:222:11: ( ( 'p' | 'P' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='P'||input.LA(1)=='p' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "P"

	// $ANTLR start "Q"
	public final void mQ() throws RecognitionException {
		try {
			// Lexer.g:223:11: ( ( 'q' | 'Q' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='Q'||input.LA(1)=='q' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "Q"

	// $ANTLR start "R"
	public final void mR() throws RecognitionException {
		try {
			// Lexer.g:224:11: ( ( 'r' | 'R' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='R'||input.LA(1)=='r' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "R"

	// $ANTLR start "S"
	public final void mS() throws RecognitionException {
		try {
			// Lexer.g:225:11: ( ( 's' | 'S' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='S'||input.LA(1)=='s' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "S"

	// $ANTLR start "T"
	public final void mT() throws RecognitionException {
		try {
			// Lexer.g:226:11: ( ( 't' | 'T' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='T'||input.LA(1)=='t' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "T"

	// $ANTLR start "U"
	public final void mU() throws RecognitionException {
		try {
			// Lexer.g:227:11: ( ( 'u' | 'U' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='U'||input.LA(1)=='u' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "U"

	// $ANTLR start "V"
	public final void mV() throws RecognitionException {
		try {
			// Lexer.g:228:11: ( ( 'v' | 'V' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='V'||input.LA(1)=='v' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "V"

	// $ANTLR start "W"
	public final void mW() throws RecognitionException {
		try {
			// Lexer.g:229:11: ( ( 'w' | 'W' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='W'||input.LA(1)=='w' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "W"

	// $ANTLR start "X"
	public final void mX() throws RecognitionException {
		try {
			// Lexer.g:230:11: ( ( 'x' | 'X' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='X'||input.LA(1)=='x' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "X"

	// $ANTLR start "Y"
	public final void mY() throws RecognitionException {
		try {
			// Lexer.g:231:11: ( ( 'y' | 'Y' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='Y'||input.LA(1)=='y' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "Y"

	// $ANTLR start "Z"
	public final void mZ() throws RecognitionException {
		try {
			// Lexer.g:232:11: ( ( 'z' | 'Z' ) )
			// Lexer.g:
			{
			if ( input.LA(1)=='Z'||input.LA(1)=='z' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "Z"

	// $ANTLR start "STRING_LITERAL"
	public final void mSTRING_LITERAL() throws RecognitionException {
		try {
			int _type = STRING_LITERAL;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			int c;


			        StringBuilder txt = new StringBuilder(); // temporary to build pg-style-string
			    
			// Lexer.g:239:5: ( ( '\\$' '\\$' ({...}? =>c= . )* '\\$' '\\$' ) | ( '\\'' (c=~ ( '\\'' ) | '\\'' '\\'' )* '\\'' ) )
			int alt5=2;
			int LA5_0 = input.LA(1);
			if ( (LA5_0=='$') ) {
				alt5=1;
			}
			else if ( (LA5_0=='\'') ) {
				alt5=2;
			}

			else {
				NoViableAltException nvae =
					new NoViableAltException("", 5, 0, input);
				throw nvae;
			}

			switch (alt5) {
				case 1 :
					// Lexer.g:241:7: ( '\\$' '\\$' ({...}? =>c= . )* '\\$' '\\$' )
					{
					// Lexer.g:241:7: ( '\\$' '\\$' ({...}? =>c= . )* '\\$' '\\$' )
					// Lexer.g:242:9: '\\$' '\\$' ({...}? =>c= . )* '\\$' '\\$'
					{
					match('$'); 
					match('$'); 
					// Lexer.g:243:9: ({...}? =>c= . )*
					loop3:
					while (true) {
						int alt3=2;
						int LA3_0 = input.LA(1);
						if ( (LA3_0=='$') ) {
							int LA3_1 = input.LA(2);
							if ( (LA3_1=='$') ) {
								int LA3_3 = input.LA(3);
								if ( ((LA3_3 >= '\u0000' && LA3_3 <= '\uFFFF')) && ((  (input.size() - input.index() > 1)
								               && !"$$".equals(input.substring(input.index(), input.index() + 1)) ))) {
									alt3=1;
								}

							}
							else if ( ((LA3_1 >= '\u0000' && LA3_1 <= '#')||(LA3_1 >= '%' && LA3_1 <= '\uFFFF')) && ((  (input.size() - input.index() > 1)
							               && !"$$".equals(input.substring(input.index(), input.index() + 1)) ))) {
								alt3=1;
							}

						}
						else if ( ((LA3_0 >= '\u0000' && LA3_0 <= '#')||(LA3_0 >= '%' && LA3_0 <= '\uFFFF')) && ((  (input.size() - input.index() > 1)
						               && !"$$".equals(input.substring(input.index(), input.index() + 1)) ))) {
							alt3=1;
						}

						switch (alt3) {
						case 1 :
							// Lexer.g:244:11: {...}? =>c= .
							{
							if ( !((  (input.size() - input.index() > 1)
							               && !"$$".equals(input.substring(input.index(), input.index() + 1)) )) ) {
								throw new FailedPredicateException(input, "STRING_LITERAL", "  (input.size() - input.index() > 1)\n               && !\"$$\".equals(input.substring(input.index(), input.index() + 1)) ");
							}
							c = input.LA(1);
							matchAny(); 
							 txt.appendCodePoint(c); 
							}
							break;

						default :
							break loop3;
						}
					}

					match('$'); 
					match('$'); 
					}

					}
					break;
				case 2 :
					// Lexer.g:252:7: ( '\\'' (c=~ ( '\\'' ) | '\\'' '\\'' )* '\\'' )
					{
					// Lexer.g:252:7: ( '\\'' (c=~ ( '\\'' ) | '\\'' '\\'' )* '\\'' )
					// Lexer.g:253:9: '\\'' (c=~ ( '\\'' ) | '\\'' '\\'' )* '\\''
					{
					match('\''); 
					// Lexer.g:253:14: (c=~ ( '\\'' ) | '\\'' '\\'' )*
					loop4:
					while (true) {
						int alt4=3;
						int LA4_0 = input.LA(1);
						if ( (LA4_0=='\'') ) {
							int LA4_1 = input.LA(2);
							if ( (LA4_1=='\'') ) {
								alt4=2;
							}

						}
						else if ( ((LA4_0 >= '\u0000' && LA4_0 <= '&')||(LA4_0 >= '(' && LA4_0 <= '\uFFFF')) ) {
							alt4=1;
						}

						switch (alt4) {
						case 1 :
							// Lexer.g:253:15: c=~ ( '\\'' )
							{
							c= input.LA(1);
							if ( (input.LA(1) >= '\u0000' && input.LA(1) <= '&')||(input.LA(1) >= '(' && input.LA(1) <= '\uFFFF') ) {
								input.consume();
							}
							else {
								MismatchedSetException mse = new MismatchedSetException(null,input);
								recover(mse);
								throw mse;
							}
							 txt.appendCodePoint(c);
							}
							break;
						case 2 :
							// Lexer.g:253:54: '\\'' '\\''
							{
							match('\''); 
							match('\''); 
							 txt.appendCodePoint('\''); 
							}
							break;

						default :
							break loop4;
						}
					}

					match('\''); 
					}

					}
					break;

			}
			state.type = _type;
			state.channel = _channel;
			 setText(txt.toString()); 
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "STRING_LITERAL"

	// $ANTLR start "QUOTED_NAME"
	public final void mQUOTED_NAME() throws RecognitionException {
		try {
			int _type = QUOTED_NAME;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			int c;

			 StringBuilder b = new StringBuilder(); 
			// Lexer.g:260:5: ( '\\\"' (c=~ ( '\\\"' ) | '\\\"' '\\\"' )+ '\\\"' )
			// Lexer.g:260:7: '\\\"' (c=~ ( '\\\"' ) | '\\\"' '\\\"' )+ '\\\"'
			{
			match('\"'); 
			// Lexer.g:260:12: (c=~ ( '\\\"' ) | '\\\"' '\\\"' )+
			int cnt6=0;
			loop6:
			while (true) {
				int alt6=3;
				int LA6_0 = input.LA(1);
				if ( (LA6_0=='\"') ) {
					int LA6_1 = input.LA(2);
					if ( (LA6_1=='\"') ) {
						alt6=2;
					}

				}
				else if ( ((LA6_0 >= '\u0000' && LA6_0 <= '!')||(LA6_0 >= '#' && LA6_0 <= '\uFFFF')) ) {
					alt6=1;
				}

				switch (alt6) {
				case 1 :
					// Lexer.g:260:13: c=~ ( '\\\"' )
					{
					c= input.LA(1);
					if ( (input.LA(1) >= '\u0000' && input.LA(1) <= '!')||(input.LA(1) >= '#' && input.LA(1) <= '\uFFFF') ) {
						input.consume();
					}
					else {
						MismatchedSetException mse = new MismatchedSetException(null,input);
						recover(mse);
						throw mse;
					}
					 b.appendCodePoint(c); 
					}
					break;
				case 2 :
					// Lexer.g:260:51: '\\\"' '\\\"'
					{
					match('\"'); 
					match('\"'); 
					 b.appendCodePoint('\"'); 
					}
					break;

				default :
					if ( cnt6 >= 1 ) break loop6;
					EarlyExitException eee = new EarlyExitException(6, input);
					throw eee;
				}
				cnt6++;
			}

			match('\"'); 
			}

			state.type = _type;
			state.channel = _channel;
			 setText(b.toString()); 
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "QUOTED_NAME"

	// $ANTLR start "EMPTY_QUOTED_NAME"
	public final void mEMPTY_QUOTED_NAME() throws RecognitionException {
		try {
			int _type = EMPTY_QUOTED_NAME;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:264:5: ( '\\\"' '\\\"' )
			// Lexer.g:264:7: '\\\"' '\\\"'
			{
			match('\"'); 
			match('\"'); 
			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "EMPTY_QUOTED_NAME"

	// $ANTLR start "DIGIT"
	public final void mDIGIT() throws RecognitionException {
		try {
			// Lexer.g:268:5: ( '0' .. '9' )
			// Lexer.g:
			{
			if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "DIGIT"

	// $ANTLR start "LETTER"
	public final void mLETTER() throws RecognitionException {
		try {
			// Lexer.g:272:5: ( ( 'A' .. 'Z' | 'a' .. 'z' ) )
			// Lexer.g:
			{
			if ( (input.LA(1) >= 'A' && input.LA(1) <= 'Z')||(input.LA(1) >= 'a' && input.LA(1) <= 'z') ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "LETTER"

	// $ANTLR start "HEX"
	public final void mHEX() throws RecognitionException {
		try {
			// Lexer.g:276:5: ( ( 'A' .. 'F' | 'a' .. 'f' | '0' .. '9' ) )
			// Lexer.g:
			{
			if ( (input.LA(1) >= '0' && input.LA(1) <= '9')||(input.LA(1) >= 'A' && input.LA(1) <= 'F')||(input.LA(1) >= 'a' && input.LA(1) <= 'f') ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "HEX"

	// $ANTLR start "EXPONENT"
	public final void mEXPONENT() throws RecognitionException {
		try {
			// Lexer.g:280:5: ( E ( '+' | '-' )? ( DIGIT )+ )
			// Lexer.g:280:7: E ( '+' | '-' )? ( DIGIT )+
			{
			mE(); 

			// Lexer.g:280:9: ( '+' | '-' )?
			int alt7=2;
			int LA7_0 = input.LA(1);
			if ( (LA7_0=='+'||LA7_0=='-') ) {
				alt7=1;
			}
			switch (alt7) {
				case 1 :
					// Lexer.g:
					{
					if ( input.LA(1)=='+'||input.LA(1)=='-' ) {
						input.consume();
					}
					else {
						MismatchedSetException mse = new MismatchedSetException(null,input);
						recover(mse);
						throw mse;
					}
					}
					break;

			}

			// Lexer.g:280:22: ( DIGIT )+
			int cnt8=0;
			loop8:
			while (true) {
				int alt8=2;
				int LA8_0 = input.LA(1);
				if ( ((LA8_0 >= '0' && LA8_0 <= '9')) ) {
					alt8=1;
				}

				switch (alt8) {
				case 1 :
					// Lexer.g:
					{
					if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
						input.consume();
					}
					else {
						MismatchedSetException mse = new MismatchedSetException(null,input);
						recover(mse);
						throw mse;
					}
					}
					break;

				default :
					if ( cnt8 >= 1 ) break loop8;
					EarlyExitException eee = new EarlyExitException(8, input);
					throw eee;
				}
				cnt8++;
			}

			}

		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "EXPONENT"

	// $ANTLR start "DURATION_UNIT"
	public final void mDURATION_UNIT() throws RecognitionException {
		try {
			// Lexer.g:284:5: ( Y | M O | W | D | H | M | S | M S | U S | '\\u00B5' S | N S )
			int alt9=11;
			alt9 = dfa9.predict(input);
			switch (alt9) {
				case 1 :
					// Lexer.g:284:7: Y
					{
					mY(); 

					}
					break;
				case 2 :
					// Lexer.g:285:7: M O
					{
					mM(); 

					mO(); 

					}
					break;
				case 3 :
					// Lexer.g:286:7: W
					{
					mW(); 

					}
					break;
				case 4 :
					// Lexer.g:287:7: D
					{
					mD(); 

					}
					break;
				case 5 :
					// Lexer.g:288:7: H
					{
					mH(); 

					}
					break;
				case 6 :
					// Lexer.g:289:7: M
					{
					mM(); 

					}
					break;
				case 7 :
					// Lexer.g:290:7: S
					{
					mS(); 

					}
					break;
				case 8 :
					// Lexer.g:291:7: M S
					{
					mM(); 

					mS(); 

					}
					break;
				case 9 :
					// Lexer.g:292:7: U S
					{
					mU(); 

					mS(); 

					}
					break;
				case 10 :
					// Lexer.g:293:7: '\\u00B5' S
					{
					match('\u00B5'); 
					mS(); 

					}
					break;
				case 11 :
					// Lexer.g:294:7: N S
					{
					mN(); 

					mS(); 

					}
					break;

			}
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "DURATION_UNIT"

	// $ANTLR start "INTEGER"
	public final void mINTEGER() throws RecognitionException {
		try {
			int _type = INTEGER;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:298:5: ( ( '-' )? ( DIGIT )+ )
			// Lexer.g:298:7: ( '-' )? ( DIGIT )+
			{
			// Lexer.g:298:7: ( '-' )?
			int alt10=2;
			int LA10_0 = input.LA(1);
			if ( (LA10_0=='-') ) {
				alt10=1;
			}
			switch (alt10) {
				case 1 :
					// Lexer.g:298:7: '-'
					{
					match('-'); 
					}
					break;

			}

			// Lexer.g:298:12: ( DIGIT )+
			int cnt11=0;
			loop11:
			while (true) {
				int alt11=2;
				int LA11_0 = input.LA(1);
				if ( ((LA11_0 >= '0' && LA11_0 <= '9')) ) {
					alt11=1;
				}

				switch (alt11) {
				case 1 :
					// Lexer.g:
					{
					if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
						input.consume();
					}
					else {
						MismatchedSetException mse = new MismatchedSetException(null,input);
						recover(mse);
						throw mse;
					}
					}
					break;

				default :
					if ( cnt11 >= 1 ) break loop11;
					EarlyExitException eee = new EarlyExitException(11, input);
					throw eee;
				}
				cnt11++;
			}

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "INTEGER"

	// $ANTLR start "QMARK"
	public final void mQMARK() throws RecognitionException {
		try {
			int _type = QMARK;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:302:5: ( '?' )
			// Lexer.g:302:7: '?'
			{
			match('?'); 
			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "QMARK"

	// $ANTLR start "FLOAT"
	public final void mFLOAT() throws RecognitionException {
		try {
			int _type = FLOAT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:310:5: ( INTEGER EXPONENT | INTEGER '.' ( DIGIT )* ( EXPONENT )? )
			int alt14=2;
			alt14 = dfa14.predict(input);
			switch (alt14) {
				case 1 :
					// Lexer.g:310:7: INTEGER EXPONENT
					{
					mINTEGER(); 

					mEXPONENT(); 

					}
					break;
				case 2 :
					// Lexer.g:311:7: INTEGER '.' ( DIGIT )* ( EXPONENT )?
					{
					mINTEGER(); 

					match('.'); 
					// Lexer.g:311:19: ( DIGIT )*
					loop12:
					while (true) {
						int alt12=2;
						int LA12_0 = input.LA(1);
						if ( ((LA12_0 >= '0' && LA12_0 <= '9')) ) {
							alt12=1;
						}

						switch (alt12) {
						case 1 :
							// Lexer.g:
							{
							if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
								input.consume();
							}
							else {
								MismatchedSetException mse = new MismatchedSetException(null,input);
								recover(mse);
								throw mse;
							}
							}
							break;

						default :
							break loop12;
						}
					}

					// Lexer.g:311:26: ( EXPONENT )?
					int alt13=2;
					int LA13_0 = input.LA(1);
					if ( (LA13_0=='E'||LA13_0=='e') ) {
						alt13=1;
					}
					switch (alt13) {
						case 1 :
							// Lexer.g:311:26: EXPONENT
							{
							mEXPONENT(); 

							}
							break;

					}

					}
					break;

			}
			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "FLOAT"

	// $ANTLR start "BOOLEAN"
	public final void mBOOLEAN() throws RecognitionException {
		try {
			int _type = BOOLEAN;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:318:5: ( T R U E | F A L S E )
			int alt15=2;
			int LA15_0 = input.LA(1);
			if ( (LA15_0=='T'||LA15_0=='t') ) {
				alt15=1;
			}
			else if ( (LA15_0=='F'||LA15_0=='f') ) {
				alt15=2;
			}

			else {
				NoViableAltException nvae =
					new NoViableAltException("", 15, 0, input);
				throw nvae;
			}

			switch (alt15) {
				case 1 :
					// Lexer.g:318:7: T R U E
					{
					mT(); 

					mR(); 

					mU(); 

					mE(); 

					}
					break;
				case 2 :
					// Lexer.g:318:17: F A L S E
					{
					mF(); 

					mA(); 

					mL(); 

					mS(); 

					mE(); 

					}
					break;

			}
			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "BOOLEAN"

	// $ANTLR start "DURATION"
	public final void mDURATION() throws RecognitionException {
		try {
			int _type = DURATION;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:322:5: ( ( '-' )? ( DIGIT )+ DURATION_UNIT ( ( DIGIT )+ DURATION_UNIT )* | ( '-' )? 'P' ( ( DIGIT )+ 'Y' )? ( ( DIGIT )+ 'M' )? ( ( DIGIT )+ 'D' )? ( 'T' ( ( DIGIT )+ 'H' )? ( ( DIGIT )+ 'M' )? ( ( DIGIT )+ 'S' )? )? | ( '-' )? 'P' ( DIGIT )+ 'W' | ( '-' )? 'P' DIGIT DIGIT DIGIT DIGIT '-' DIGIT DIGIT '-' DIGIT DIGIT 'T' DIGIT DIGIT ':' DIGIT DIGIT ':' DIGIT DIGIT )
			int alt37=4;
			alt37 = dfa37.predict(input);
			switch (alt37) {
				case 1 :
					// Lexer.g:322:7: ( '-' )? ( DIGIT )+ DURATION_UNIT ( ( DIGIT )+ DURATION_UNIT )*
					{
					// Lexer.g:322:7: ( '-' )?
					int alt16=2;
					int LA16_0 = input.LA(1);
					if ( (LA16_0=='-') ) {
						alt16=1;
					}
					switch (alt16) {
						case 1 :
							// Lexer.g:322:7: '-'
							{
							match('-'); 
							}
							break;

					}

					// Lexer.g:322:12: ( DIGIT )+
					int cnt17=0;
					loop17:
					while (true) {
						int alt17=2;
						int LA17_0 = input.LA(1);
						if ( ((LA17_0 >= '0' && LA17_0 <= '9')) ) {
							alt17=1;
						}

						switch (alt17) {
						case 1 :
							// Lexer.g:
							{
							if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
								input.consume();
							}
							else {
								MismatchedSetException mse = new MismatchedSetException(null,input);
								recover(mse);
								throw mse;
							}
							}
							break;

						default :
							if ( cnt17 >= 1 ) break loop17;
							EarlyExitException eee = new EarlyExitException(17, input);
							throw eee;
						}
						cnt17++;
					}

					mDURATION_UNIT(); 

					// Lexer.g:322:33: ( ( DIGIT )+ DURATION_UNIT )*
					loop19:
					while (true) {
						int alt19=2;
						int LA19_0 = input.LA(1);
						if ( ((LA19_0 >= '0' && LA19_0 <= '9')) ) {
							alt19=1;
						}

						switch (alt19) {
						case 1 :
							// Lexer.g:322:34: ( DIGIT )+ DURATION_UNIT
							{
							// Lexer.g:322:34: ( DIGIT )+
							int cnt18=0;
							loop18:
							while (true) {
								int alt18=2;
								int LA18_0 = input.LA(1);
								if ( ((LA18_0 >= '0' && LA18_0 <= '9')) ) {
									alt18=1;
								}

								switch (alt18) {
								case 1 :
									// Lexer.g:
									{
									if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
										input.consume();
									}
									else {
										MismatchedSetException mse = new MismatchedSetException(null,input);
										recover(mse);
										throw mse;
									}
									}
									break;

								default :
									if ( cnt18 >= 1 ) break loop18;
									EarlyExitException eee = new EarlyExitException(18, input);
									throw eee;
								}
								cnt18++;
							}

							mDURATION_UNIT(); 

							}
							break;

						default :
							break loop19;
						}
					}

					}
					break;
				case 2 :
					// Lexer.g:323:7: ( '-' )? 'P' ( ( DIGIT )+ 'Y' )? ( ( DIGIT )+ 'M' )? ( ( DIGIT )+ 'D' )? ( 'T' ( ( DIGIT )+ 'H' )? ( ( DIGIT )+ 'M' )? ( ( DIGIT )+ 'S' )? )?
					{
					// Lexer.g:323:7: ( '-' )?
					int alt20=2;
					int LA20_0 = input.LA(1);
					if ( (LA20_0=='-') ) {
						alt20=1;
					}
					switch (alt20) {
						case 1 :
							// Lexer.g:323:7: '-'
							{
							match('-'); 
							}
							break;

					}

					match('P'); 
					// Lexer.g:323:16: ( ( DIGIT )+ 'Y' )?
					int alt22=2;
					alt22 = dfa22.predict(input);
					switch (alt22) {
						case 1 :
							// Lexer.g:323:17: ( DIGIT )+ 'Y'
							{
							// Lexer.g:323:17: ( DIGIT )+
							int cnt21=0;
							loop21:
							while (true) {
								int alt21=2;
								int LA21_0 = input.LA(1);
								if ( ((LA21_0 >= '0' && LA21_0 <= '9')) ) {
									alt21=1;
								}

								switch (alt21) {
								case 1 :
									// Lexer.g:
									{
									if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
										input.consume();
									}
									else {
										MismatchedSetException mse = new MismatchedSetException(null,input);
										recover(mse);
										throw mse;
									}
									}
									break;

								default :
									if ( cnt21 >= 1 ) break loop21;
									EarlyExitException eee = new EarlyExitException(21, input);
									throw eee;
								}
								cnt21++;
							}

							match('Y'); 
							}
							break;

					}

					// Lexer.g:323:30: ( ( DIGIT )+ 'M' )?
					int alt24=2;
					alt24 = dfa24.predict(input);
					switch (alt24) {
						case 1 :
							// Lexer.g:323:31: ( DIGIT )+ 'M'
							{
							// Lexer.g:323:31: ( DIGIT )+
							int cnt23=0;
							loop23:
							while (true) {
								int alt23=2;
								int LA23_0 = input.LA(1);
								if ( ((LA23_0 >= '0' && LA23_0 <= '9')) ) {
									alt23=1;
								}

								switch (alt23) {
								case 1 :
									// Lexer.g:
									{
									if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
										input.consume();
									}
									else {
										MismatchedSetException mse = new MismatchedSetException(null,input);
										recover(mse);
										throw mse;
									}
									}
									break;

								default :
									if ( cnt23 >= 1 ) break loop23;
									EarlyExitException eee = new EarlyExitException(23, input);
									throw eee;
								}
								cnt23++;
							}

							match('M'); 
							}
							break;

					}

					// Lexer.g:323:44: ( ( DIGIT )+ 'D' )?
					int alt26=2;
					int LA26_0 = input.LA(1);
					if ( ((LA26_0 >= '0' && LA26_0 <= '9')) ) {
						alt26=1;
					}
					switch (alt26) {
						case 1 :
							// Lexer.g:323:45: ( DIGIT )+ 'D'
							{
							// Lexer.g:323:45: ( DIGIT )+
							int cnt25=0;
							loop25:
							while (true) {
								int alt25=2;
								int LA25_0 = input.LA(1);
								if ( ((LA25_0 >= '0' && LA25_0 <= '9')) ) {
									alt25=1;
								}

								switch (alt25) {
								case 1 :
									// Lexer.g:
									{
									if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
										input.consume();
									}
									else {
										MismatchedSetException mse = new MismatchedSetException(null,input);
										recover(mse);
										throw mse;
									}
									}
									break;

								default :
									if ( cnt25 >= 1 ) break loop25;
									EarlyExitException eee = new EarlyExitException(25, input);
									throw eee;
								}
								cnt25++;
							}

							match('D'); 
							}
							break;

					}

					// Lexer.g:323:58: ( 'T' ( ( DIGIT )+ 'H' )? ( ( DIGIT )+ 'M' )? ( ( DIGIT )+ 'S' )? )?
					int alt33=2;
					int LA33_0 = input.LA(1);
					if ( (LA33_0=='T') ) {
						alt33=1;
					}
					switch (alt33) {
						case 1 :
							// Lexer.g:323:59: 'T' ( ( DIGIT )+ 'H' )? ( ( DIGIT )+ 'M' )? ( ( DIGIT )+ 'S' )?
							{
							match('T'); 
							// Lexer.g:323:63: ( ( DIGIT )+ 'H' )?
							int alt28=2;
							alt28 = dfa28.predict(input);
							switch (alt28) {
								case 1 :
									// Lexer.g:323:64: ( DIGIT )+ 'H'
									{
									// Lexer.g:323:64: ( DIGIT )+
									int cnt27=0;
									loop27:
									while (true) {
										int alt27=2;
										int LA27_0 = input.LA(1);
										if ( ((LA27_0 >= '0' && LA27_0 <= '9')) ) {
											alt27=1;
										}

										switch (alt27) {
										case 1 :
											// Lexer.g:
											{
											if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
												input.consume();
											}
											else {
												MismatchedSetException mse = new MismatchedSetException(null,input);
												recover(mse);
												throw mse;
											}
											}
											break;

										default :
											if ( cnt27 >= 1 ) break loop27;
											EarlyExitException eee = new EarlyExitException(27, input);
											throw eee;
										}
										cnt27++;
									}

									match('H'); 
									}
									break;

							}

							// Lexer.g:323:77: ( ( DIGIT )+ 'M' )?
							int alt30=2;
							alt30 = dfa30.predict(input);
							switch (alt30) {
								case 1 :
									// Lexer.g:323:78: ( DIGIT )+ 'M'
									{
									// Lexer.g:323:78: ( DIGIT )+
									int cnt29=0;
									loop29:
									while (true) {
										int alt29=2;
										int LA29_0 = input.LA(1);
										if ( ((LA29_0 >= '0' && LA29_0 <= '9')) ) {
											alt29=1;
										}

										switch (alt29) {
										case 1 :
											// Lexer.g:
											{
											if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
												input.consume();
											}
											else {
												MismatchedSetException mse = new MismatchedSetException(null,input);
												recover(mse);
												throw mse;
											}
											}
											break;

										default :
											if ( cnt29 >= 1 ) break loop29;
											EarlyExitException eee = new EarlyExitException(29, input);
											throw eee;
										}
										cnt29++;
									}

									match('M'); 
									}
									break;

							}

							// Lexer.g:323:91: ( ( DIGIT )+ 'S' )?
							int alt32=2;
							int LA32_0 = input.LA(1);
							if ( ((LA32_0 >= '0' && LA32_0 <= '9')) ) {
								alt32=1;
							}
							switch (alt32) {
								case 1 :
									// Lexer.g:323:92: ( DIGIT )+ 'S'
									{
									// Lexer.g:323:92: ( DIGIT )+
									int cnt31=0;
									loop31:
									while (true) {
										int alt31=2;
										int LA31_0 = input.LA(1);
										if ( ((LA31_0 >= '0' && LA31_0 <= '9')) ) {
											alt31=1;
										}

										switch (alt31) {
										case 1 :
											// Lexer.g:
											{
											if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
												input.consume();
											}
											else {
												MismatchedSetException mse = new MismatchedSetException(null,input);
												recover(mse);
												throw mse;
											}
											}
											break;

										default :
											if ( cnt31 >= 1 ) break loop31;
											EarlyExitException eee = new EarlyExitException(31, input);
											throw eee;
										}
										cnt31++;
									}

									match('S'); 
									}
									break;

							}

							}
							break;

					}

					}
					break;
				case 3 :
					// Lexer.g:324:7: ( '-' )? 'P' ( DIGIT )+ 'W'
					{
					// Lexer.g:324:7: ( '-' )?
					int alt34=2;
					int LA34_0 = input.LA(1);
					if ( (LA34_0=='-') ) {
						alt34=1;
					}
					switch (alt34) {
						case 1 :
							// Lexer.g:324:7: '-'
							{
							match('-'); 
							}
							break;

					}

					match('P'); 
					// Lexer.g:324:16: ( DIGIT )+
					int cnt35=0;
					loop35:
					while (true) {
						int alt35=2;
						int LA35_0 = input.LA(1);
						if ( ((LA35_0 >= '0' && LA35_0 <= '9')) ) {
							alt35=1;
						}

						switch (alt35) {
						case 1 :
							// Lexer.g:
							{
							if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
								input.consume();
							}
							else {
								MismatchedSetException mse = new MismatchedSetException(null,input);
								recover(mse);
								throw mse;
							}
							}
							break;

						default :
							if ( cnt35 >= 1 ) break loop35;
							EarlyExitException eee = new EarlyExitException(35, input);
							throw eee;
						}
						cnt35++;
					}

					match('W'); 
					}
					break;
				case 4 :
					// Lexer.g:325:7: ( '-' )? 'P' DIGIT DIGIT DIGIT DIGIT '-' DIGIT DIGIT '-' DIGIT DIGIT 'T' DIGIT DIGIT ':' DIGIT DIGIT ':' DIGIT DIGIT
					{
					// Lexer.g:325:7: ( '-' )?
					int alt36=2;
					int LA36_0 = input.LA(1);
					if ( (LA36_0=='-') ) {
						alt36=1;
					}
					switch (alt36) {
						case 1 :
							// Lexer.g:325:7: '-'
							{
							match('-'); 
							}
							break;

					}

					match('P'); 
					mDIGIT(); 

					mDIGIT(); 

					mDIGIT(); 

					mDIGIT(); 

					match('-'); 
					mDIGIT(); 

					mDIGIT(); 

					match('-'); 
					mDIGIT(); 

					mDIGIT(); 

					match('T'); 
					mDIGIT(); 

					mDIGIT(); 

					match(':'); 
					mDIGIT(); 

					mDIGIT(); 

					match(':'); 
					mDIGIT(); 

					mDIGIT(); 

					}
					break;

			}
			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "DURATION"

	// $ANTLR start "IDENT"
	public final void mIDENT() throws RecognitionException {
		try {
			int _type = IDENT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:329:5: ( LETTER ( LETTER | DIGIT | '_' )* )
			// Lexer.g:329:7: LETTER ( LETTER | DIGIT | '_' )*
			{
			mLETTER(); 

			// Lexer.g:329:14: ( LETTER | DIGIT | '_' )*
			loop38:
			while (true) {
				int alt38=2;
				int LA38_0 = input.LA(1);
				if ( ((LA38_0 >= '0' && LA38_0 <= '9')||(LA38_0 >= 'A' && LA38_0 <= 'Z')||LA38_0=='_'||(LA38_0 >= 'a' && LA38_0 <= 'z')) ) {
					alt38=1;
				}

				switch (alt38) {
				case 1 :
					// Lexer.g:
					{
					if ( (input.LA(1) >= '0' && input.LA(1) <= '9')||(input.LA(1) >= 'A' && input.LA(1) <= 'Z')||input.LA(1)=='_'||(input.LA(1) >= 'a' && input.LA(1) <= 'z') ) {
						input.consume();
					}
					else {
						MismatchedSetException mse = new MismatchedSetException(null,input);
						recover(mse);
						throw mse;
					}
					}
					break;

				default :
					break loop38;
				}
			}

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "IDENT"

	// $ANTLR start "HEXNUMBER"
	public final void mHEXNUMBER() throws RecognitionException {
		try {
			int _type = HEXNUMBER;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:333:5: ( '0' X ( HEX )* )
			// Lexer.g:333:7: '0' X ( HEX )*
			{
			match('0'); 
			mX(); 

			// Lexer.g:333:13: ( HEX )*
			loop39:
			while (true) {
				int alt39=2;
				int LA39_0 = input.LA(1);
				if ( ((LA39_0 >= '0' && LA39_0 <= '9')||(LA39_0 >= 'A' && LA39_0 <= 'F')||(LA39_0 >= 'a' && LA39_0 <= 'f')) ) {
					alt39=1;
				}

				switch (alt39) {
				case 1 :
					// Lexer.g:
					{
					if ( (input.LA(1) >= '0' && input.LA(1) <= '9')||(input.LA(1) >= 'A' && input.LA(1) <= 'F')||(input.LA(1) >= 'a' && input.LA(1) <= 'f') ) {
						input.consume();
					}
					else {
						MismatchedSetException mse = new MismatchedSetException(null,input);
						recover(mse);
						throw mse;
					}
					}
					break;

				default :
					break loop39;
				}
			}

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "HEXNUMBER"

	// $ANTLR start "UUID"
	public final void mUUID() throws RecognitionException {
		try {
			int _type = UUID;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:337:5: ( HEX HEX HEX HEX HEX HEX HEX HEX '-' HEX HEX HEX HEX '-' HEX HEX HEX HEX '-' HEX HEX HEX HEX '-' HEX HEX HEX HEX HEX HEX HEX HEX HEX HEX HEX HEX )
			// Lexer.g:337:7: HEX HEX HEX HEX HEX HEX HEX HEX '-' HEX HEX HEX HEX '-' HEX HEX HEX HEX '-' HEX HEX HEX HEX '-' HEX HEX HEX HEX HEX HEX HEX HEX HEX HEX HEX HEX
			{
			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			match('-'); 
			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			match('-'); 
			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			match('-'); 
			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			match('-'); 
			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			mHEX(); 

			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "UUID"

	// $ANTLR start "WS"
	public final void mWS() throws RecognitionException {
		try {
			int _type = WS;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:345:5: ( ( ' ' | '\\t' | '\\n' | '\\r' )+ )
			// Lexer.g:345:7: ( ' ' | '\\t' | '\\n' | '\\r' )+
			{
			// Lexer.g:345:7: ( ' ' | '\\t' | '\\n' | '\\r' )+
			int cnt40=0;
			loop40:
			while (true) {
				int alt40=2;
				int LA40_0 = input.LA(1);
				if ( ((LA40_0 >= '\t' && LA40_0 <= '\n')||LA40_0=='\r'||LA40_0==' ') ) {
					alt40=1;
				}

				switch (alt40) {
				case 1 :
					// Lexer.g:
					{
					if ( (input.LA(1) >= '\t' && input.LA(1) <= '\n')||input.LA(1)=='\r'||input.LA(1)==' ' ) {
						input.consume();
					}
					else {
						MismatchedSetException mse = new MismatchedSetException(null,input);
						recover(mse);
						throw mse;
					}
					}
					break;

				default :
					if ( cnt40 >= 1 ) break loop40;
					EarlyExitException eee = new EarlyExitException(40, input);
					throw eee;
				}
				cnt40++;
			}

			 _channel = HIDDEN; 
			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "WS"

	// $ANTLR start "COMMENT"
	public final void mCOMMENT() throws RecognitionException {
		try {
			int _type = COMMENT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:349:5: ( ( '--' | '//' ) ( . )* ( '\\n' | '\\r' ) )
			// Lexer.g:349:7: ( '--' | '//' ) ( . )* ( '\\n' | '\\r' )
			{
			// Lexer.g:349:7: ( '--' | '//' )
			int alt41=2;
			int LA41_0 = input.LA(1);
			if ( (LA41_0=='-') ) {
				alt41=1;
			}
			else if ( (LA41_0=='/') ) {
				alt41=2;
			}

			else {
				NoViableAltException nvae =
					new NoViableAltException("", 41, 0, input);
				throw nvae;
			}

			switch (alt41) {
				case 1 :
					// Lexer.g:349:8: '--'
					{
					match("--"); 

					}
					break;
				case 2 :
					// Lexer.g:349:15: '//'
					{
					match("//"); 

					}
					break;

			}

			// Lexer.g:349:21: ( . )*
			loop42:
			while (true) {
				int alt42=2;
				int LA42_0 = input.LA(1);
				if ( (LA42_0=='\n'||LA42_0=='\r') ) {
					alt42=2;
				}
				else if ( ((LA42_0 >= '\u0000' && LA42_0 <= '\t')||(LA42_0 >= '\u000B' && LA42_0 <= '\f')||(LA42_0 >= '\u000E' && LA42_0 <= '\uFFFF')) ) {
					alt42=1;
				}

				switch (alt42) {
				case 1 :
					// Lexer.g:349:21: .
					{
					matchAny(); 
					}
					break;

				default :
					break loop42;
				}
			}

			if ( input.LA(1)=='\n'||input.LA(1)=='\r' ) {
				input.consume();
			}
			else {
				MismatchedSetException mse = new MismatchedSetException(null,input);
				recover(mse);
				throw mse;
			}
			 _channel = HIDDEN; 
			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "COMMENT"

	// $ANTLR start "MULTILINE_COMMENT"
	public final void mMULTILINE_COMMENT() throws RecognitionException {
		try {
			int _type = MULTILINE_COMMENT;
			int _channel = DEFAULT_TOKEN_CHANNEL;
			// Lexer.g:353:5: ( '/*' ( . )* '*/' )
			// Lexer.g:353:7: '/*' ( . )* '*/'
			{
			match("/*"); 

			// Lexer.g:353:12: ( . )*
			loop43:
			while (true) {
				int alt43=2;
				int LA43_0 = input.LA(1);
				if ( (LA43_0=='*') ) {
					int LA43_1 = input.LA(2);
					if ( (LA43_1=='/') ) {
						alt43=2;
					}
					else if ( ((LA43_1 >= '\u0000' && LA43_1 <= '.')||(LA43_1 >= '0' && LA43_1 <= '\uFFFF')) ) {
						alt43=1;
					}

				}
				else if ( ((LA43_0 >= '\u0000' && LA43_0 <= ')')||(LA43_0 >= '+' && LA43_0 <= '\uFFFF')) ) {
					alt43=1;
				}

				switch (alt43) {
				case 1 :
					// Lexer.g:353:12: .
					{
					matchAny(); 
					}
					break;

				default :
					break loop43;
				}
			}

			match("*/"); 

			 _channel = HIDDEN; 
			}

			state.type = _type;
			state.channel = _channel;
		}
		finally {
			// do for sure before leaving
		}
	}
	// $ANTLR end "MULTILINE_COMMENT"

	@Override
	public void mTokens() throws RecognitionException {
		// Lexer.g:1:8: ( K_SELECT | K_FROM | K_AS | K_WHERE | K_AND | K_KEY | K_KEYS | K_ENTRIES | K_FULL | K_INSERT | K_UPDATE | K_WITH | K_LIMIT | K_PER | K_PARTITION | K_USING | K_USE | K_DISTINCT | K_COUNT | K_SET | K_BEGIN | K_UNLOGGED | K_BATCH | K_APPLY | K_TRUNCATE | K_DELETE | K_IN | K_CREATE | K_KEYSPACE | K_KEYSPACES | K_COLUMNFAMILY | K_MATERIALIZED | K_VIEW | K_INDEX | K_CUSTOM | K_ON | K_TO | K_DROP | K_PRIMARY | K_INTO | K_VALUES | K_TIMESTAMP | K_TTL | K_CAST | K_ALTER | K_RENAME | K_ADD | K_TYPE | K_COMPACT | K_STORAGE | K_ORDER | K_BY | K_ASC | K_DESC | K_ALLOW | K_FILTERING | K_IF | K_IS | K_CONTAINS | K_GROUP | K_GRANT | K_ALL | K_PERMISSION | K_PERMISSIONS | K_OF | K_REVOKE | K_MODIFY | K_AUTHORIZE | K_DESCRIBE | K_EXECUTE | K_NORECURSIVE | K_MBEAN | K_MBEANS | K_USER | K_USERS | K_ROLE | K_ROLES | K_SUPERUSER | K_NOSUPERUSER | K_PASSWORD | K_LOGIN | K_NOLOGIN | K_OPTIONS | K_CLUSTERING | K_ASCII | K_BIGINT | K_BLOB | K_BOOLEAN | K_COUNTER | K_DECIMAL | K_DOUBLE | K_DURATION | K_FLOAT | K_INET | K_INT | K_SMALLINT | K_TINYINT | K_TEXT | K_UUID | K_VARCHAR | K_VARINT | K_TIMEUUID | K_TOKEN | K_WRITETIME | K_DATE | K_TIME | K_NULL | K_NOT | K_EXISTS | K_MAP | K_LIST | K_NAN | K_INFINITY | K_TUPLE | K_TRIGGER | K_STATIC | K_FROZEN | K_FUNCTION | K_FUNCTIONS | K_AGGREGATE | K_SFUNC | K_STYPE | K_FINALFUNC | K_INITCOND | K_RETURNS | K_CALLED | K_INPUT | K_LANGUAGE | K_OR | K_REPLACE | K_JSON | K_DEFAULT | K_UNSET | K_LIKE | STRING_LITERAL | QUOTED_NAME | EMPTY_QUOTED_NAME | INTEGER | QMARK | FLOAT | BOOLEAN | DURATION | IDENT | HEXNUMBER | UUID | WS | COMMENT | MULTILINE_COMMENT )
		int alt44=148;
		alt44 = dfa44.predict(input);
		switch (alt44) {
			case 1 :
				// Lexer.g:1:10: K_SELECT
				{
				mK_SELECT(); 

				}
				break;
			case 2 :
				// Lexer.g:1:19: K_FROM
				{
				mK_FROM(); 

				}
				break;
			case 3 :
				// Lexer.g:1:26: K_AS
				{
				mK_AS(); 

				}
				break;
			case 4 :
				// Lexer.g:1:31: K_WHERE
				{
				mK_WHERE(); 

				}
				break;
			case 5 :
				// Lexer.g:1:39: K_AND
				{
				mK_AND(); 

				}
				break;
			case 6 :
				// Lexer.g:1:45: K_KEY
				{
				mK_KEY(); 

				}
				break;
			case 7 :
				// Lexer.g:1:51: K_KEYS
				{
				mK_KEYS(); 

				}
				break;
			case 8 :
				// Lexer.g:1:58: K_ENTRIES
				{
				mK_ENTRIES(); 

				}
				break;
			case 9 :
				// Lexer.g:1:68: K_FULL
				{
				mK_FULL(); 

				}
				break;
			case 10 :
				// Lexer.g:1:75: K_INSERT
				{
				mK_INSERT(); 

				}
				break;
			case 11 :
				// Lexer.g:1:84: K_UPDATE
				{
				mK_UPDATE(); 

				}
				break;
			case 12 :
				// Lexer.g:1:93: K_WITH
				{
				mK_WITH(); 

				}
				break;
			case 13 :
				// Lexer.g:1:100: K_LIMIT
				{
				mK_LIMIT(); 

				}
				break;
			case 14 :
				// Lexer.g:1:108: K_PER
				{
				mK_PER(); 

				}
				break;
			case 15 :
				// Lexer.g:1:114: K_PARTITION
				{
				mK_PARTITION(); 

				}
				break;
			case 16 :
				// Lexer.g:1:126: K_USING
				{
				mK_USING(); 

				}
				break;
			case 17 :
				// Lexer.g:1:134: K_USE
				{
				mK_USE(); 

				}
				break;
			case 18 :
				// Lexer.g:1:140: K_DISTINCT
				{
				mK_DISTINCT(); 

				}
				break;
			case 19 :
				// Lexer.g:1:151: K_COUNT
				{
				mK_COUNT(); 

				}
				break;
			case 20 :
				// Lexer.g:1:159: K_SET
				{
				mK_SET(); 

				}
				break;
			case 21 :
				// Lexer.g:1:165: K_BEGIN
				{
				mK_BEGIN(); 

				}
				break;
			case 22 :
				// Lexer.g:1:173: K_UNLOGGED
				{
				mK_UNLOGGED(); 

				}
				break;
			case 23 :
				// Lexer.g:1:184: K_BATCH
				{
				mK_BATCH(); 

				}
				break;
			case 24 :
				// Lexer.g:1:192: K_APPLY
				{
				mK_APPLY(); 

				}
				break;
			case 25 :
				// Lexer.g:1:200: K_TRUNCATE
				{
				mK_TRUNCATE(); 

				}
				break;
			case 26 :
				// Lexer.g:1:211: K_DELETE
				{
				mK_DELETE(); 

				}
				break;
			case 27 :
				// Lexer.g:1:220: K_IN
				{
				mK_IN(); 

				}
				break;
			case 28 :
				// Lexer.g:1:225: K_CREATE
				{
				mK_CREATE(); 

				}
				break;
			case 29 :
				// Lexer.g:1:234: K_KEYSPACE
				{
				mK_KEYSPACE(); 

				}
				break;
			case 30 :
				// Lexer.g:1:245: K_KEYSPACES
				{
				mK_KEYSPACES(); 

				}
				break;
			case 31 :
				// Lexer.g:1:257: K_COLUMNFAMILY
				{
				mK_COLUMNFAMILY(); 

				}
				break;
			case 32 :
				// Lexer.g:1:272: K_MATERIALIZED
				{
				mK_MATERIALIZED(); 

				}
				break;
			case 33 :
				// Lexer.g:1:287: K_VIEW
				{
				mK_VIEW(); 

				}
				break;
			case 34 :
				// Lexer.g:1:294: K_INDEX
				{
				mK_INDEX(); 

				}
				break;
			case 35 :
				// Lexer.g:1:302: K_CUSTOM
				{
				mK_CUSTOM(); 

				}
				break;
			case 36 :
				// Lexer.g:1:311: K_ON
				{
				mK_ON(); 

				}
				break;
			case 37 :
				// Lexer.g:1:316: K_TO
				{
				mK_TO(); 

				}
				break;
			case 38 :
				// Lexer.g:1:321: K_DROP
				{
				mK_DROP(); 

				}
				break;
			case 39 :
				// Lexer.g:1:328: K_PRIMARY
				{
				mK_PRIMARY(); 

				}
				break;
			case 40 :
				// Lexer.g:1:338: K_INTO
				{
				mK_INTO(); 

				}
				break;
			case 41 :
				// Lexer.g:1:345: K_VALUES
				{
				mK_VALUES(); 

				}
				break;
			case 42 :
				// Lexer.g:1:354: K_TIMESTAMP
				{
				mK_TIMESTAMP(); 

				}
				break;
			case 43 :
				// Lexer.g:1:366: K_TTL
				{
				mK_TTL(); 

				}
				break;
			case 44 :
				// Lexer.g:1:372: K_CAST
				{
				mK_CAST(); 

				}
				break;
			case 45 :
				// Lexer.g:1:379: K_ALTER
				{
				mK_ALTER(); 

				}
				break;
			case 46 :
				// Lexer.g:1:387: K_RENAME
				{
				mK_RENAME(); 

				}
				break;
			case 47 :
				// Lexer.g:1:396: K_ADD
				{
				mK_ADD(); 

				}
				break;
			case 48 :
				// Lexer.g:1:402: K_TYPE
				{
				mK_TYPE(); 

				}
				break;
			case 49 :
				// Lexer.g:1:409: K_COMPACT
				{
				mK_COMPACT(); 

				}
				break;
			case 50 :
				// Lexer.g:1:419: K_STORAGE
				{
				mK_STORAGE(); 

				}
				break;
			case 51 :
				// Lexer.g:1:429: K_ORDER
				{
				mK_ORDER(); 

				}
				break;
			case 52 :
				// Lexer.g:1:437: K_BY
				{
				mK_BY(); 

				}
				break;
			case 53 :
				// Lexer.g:1:442: K_ASC
				{
				mK_ASC(); 

				}
				break;
			case 54 :
				// Lexer.g:1:448: K_DESC
				{
				mK_DESC(); 

				}
				break;
			case 55 :
				// Lexer.g:1:455: K_ALLOW
				{
				mK_ALLOW(); 

				}
				break;
			case 56 :
				// Lexer.g:1:463: K_FILTERING
				{
				mK_FILTERING(); 

				}
				break;
			case 57 :
				// Lexer.g:1:475: K_IF
				{
				mK_IF(); 

				}
				break;
			case 58 :
				// Lexer.g:1:480: K_IS
				{
				mK_IS(); 

				}
				break;
			case 59 :
				// Lexer.g:1:485: K_CONTAINS
				{
				mK_CONTAINS(); 

				}
				break;
			case 60 :
				// Lexer.g:1:496: K_GROUP
				{
				mK_GROUP(); 

				}
				break;
			case 61 :
				// Lexer.g:1:504: K_GRANT
				{
				mK_GRANT(); 

				}
				break;
			case 62 :
				// Lexer.g:1:512: K_ALL
				{
				mK_ALL(); 

				}
				break;
			case 63 :
				// Lexer.g:1:518: K_PERMISSION
				{
				mK_PERMISSION(); 

				}
				break;
			case 64 :
				// Lexer.g:1:531: K_PERMISSIONS
				{
				mK_PERMISSIONS(); 

				}
				break;
			case 65 :
				// Lexer.g:1:545: K_OF
				{
				mK_OF(); 

				}
				break;
			case 66 :
				// Lexer.g:1:550: K_REVOKE
				{
				mK_REVOKE(); 

				}
				break;
			case 67 :
				// Lexer.g:1:559: K_MODIFY
				{
				mK_MODIFY(); 

				}
				break;
			case 68 :
				// Lexer.g:1:568: K_AUTHORIZE
				{
				mK_AUTHORIZE(); 

				}
				break;
			case 69 :
				// Lexer.g:1:580: K_DESCRIBE
				{
				mK_DESCRIBE(); 

				}
				break;
			case 70 :
				// Lexer.g:1:591: K_EXECUTE
				{
				mK_EXECUTE(); 

				}
				break;
			case 71 :
				// Lexer.g:1:601: K_NORECURSIVE
				{
				mK_NORECURSIVE(); 

				}
				break;
			case 72 :
				// Lexer.g:1:615: K_MBEAN
				{
				mK_MBEAN(); 

				}
				break;
			case 73 :
				// Lexer.g:1:623: K_MBEANS
				{
				mK_MBEANS(); 

				}
				break;
			case 74 :
				// Lexer.g:1:632: K_USER
				{
				mK_USER(); 

				}
				break;
			case 75 :
				// Lexer.g:1:639: K_USERS
				{
				mK_USERS(); 

				}
				break;
			case 76 :
				// Lexer.g:1:647: K_ROLE
				{
				mK_ROLE(); 

				}
				break;
			case 77 :
				// Lexer.g:1:654: K_ROLES
				{
				mK_ROLES(); 

				}
				break;
			case 78 :
				// Lexer.g:1:662: K_SUPERUSER
				{
				mK_SUPERUSER(); 

				}
				break;
			case 79 :
				// Lexer.g:1:674: K_NOSUPERUSER
				{
				mK_NOSUPERUSER(); 

				}
				break;
			case 80 :
				// Lexer.g:1:688: K_PASSWORD
				{
				mK_PASSWORD(); 

				}
				break;
			case 81 :
				// Lexer.g:1:699: K_LOGIN
				{
				mK_LOGIN(); 

				}
				break;
			case 82 :
				// Lexer.g:1:707: K_NOLOGIN
				{
				mK_NOLOGIN(); 

				}
				break;
			case 83 :
				// Lexer.g:1:717: K_OPTIONS
				{
				mK_OPTIONS(); 

				}
				break;
			case 84 :
				// Lexer.g:1:727: K_CLUSTERING
				{
				mK_CLUSTERING(); 

				}
				break;
			case 85 :
				// Lexer.g:1:740: K_ASCII
				{
				mK_ASCII(); 

				}
				break;
			case 86 :
				// Lexer.g:1:748: K_BIGINT
				{
				mK_BIGINT(); 

				}
				break;
			case 87 :
				// Lexer.g:1:757: K_BLOB
				{
				mK_BLOB(); 

				}
				break;
			case 88 :
				// Lexer.g:1:764: K_BOOLEAN
				{
				mK_BOOLEAN(); 

				}
				break;
			case 89 :
				// Lexer.g:1:774: K_COUNTER
				{
				mK_COUNTER(); 

				}
				break;
			case 90 :
				// Lexer.g:1:784: K_DECIMAL
				{
				mK_DECIMAL(); 

				}
				break;
			case 91 :
				// Lexer.g:1:794: K_DOUBLE
				{
				mK_DOUBLE(); 

				}
				break;
			case 92 :
				// Lexer.g:1:803: K_DURATION
				{
				mK_DURATION(); 

				}
				break;
			case 93 :
				// Lexer.g:1:814: K_FLOAT
				{
				mK_FLOAT(); 

				}
				break;
			case 94 :
				// Lexer.g:1:822: K_INET
				{
				mK_INET(); 

				}
				break;
			case 95 :
				// Lexer.g:1:829: K_INT
				{
				mK_INT(); 

				}
				break;
			case 96 :
				// Lexer.g:1:835: K_SMALLINT
				{
				mK_SMALLINT(); 

				}
				break;
			case 97 :
				// Lexer.g:1:846: K_TINYINT
				{
				mK_TINYINT(); 

				}
				break;
			case 98 :
				// Lexer.g:1:856: K_TEXT
				{
				mK_TEXT(); 

				}
				break;
			case 99 :
				// Lexer.g:1:863: K_UUID
				{
				mK_UUID(); 

				}
				break;
			case 100 :
				// Lexer.g:1:870: K_VARCHAR
				{
				mK_VARCHAR(); 

				}
				break;
			case 101 :
				// Lexer.g:1:880: K_VARINT
				{
				mK_VARINT(); 

				}
				break;
			case 102 :
				// Lexer.g:1:889: K_TIMEUUID
				{
				mK_TIMEUUID(); 

				}
				break;
			case 103 :
				// Lexer.g:1:900: K_TOKEN
				{
				mK_TOKEN(); 

				}
				break;
			case 104 :
				// Lexer.g:1:908: K_WRITETIME
				{
				mK_WRITETIME(); 

				}
				break;
			case 105 :
				// Lexer.g:1:920: K_DATE
				{
				mK_DATE(); 

				}
				break;
			case 106 :
				// Lexer.g:1:927: K_TIME
				{
				mK_TIME(); 

				}
				break;
			case 107 :
				// Lexer.g:1:934: K_NULL
				{
				mK_NULL(); 

				}
				break;
			case 108 :
				// Lexer.g:1:941: K_NOT
				{
				mK_NOT(); 

				}
				break;
			case 109 :
				// Lexer.g:1:947: K_EXISTS
				{
				mK_EXISTS(); 

				}
				break;
			case 110 :
				// Lexer.g:1:956: K_MAP
				{
				mK_MAP(); 

				}
				break;
			case 111 :
				// Lexer.g:1:962: K_LIST
				{
				mK_LIST(); 

				}
				break;
			case 112 :
				// Lexer.g:1:969: K_NAN
				{
				mK_NAN(); 

				}
				break;
			case 113 :
				// Lexer.g:1:975: K_INFINITY
				{
				mK_INFINITY(); 

				}
				break;
			case 114 :
				// Lexer.g:1:986: K_TUPLE
				{
				mK_TUPLE(); 

				}
				break;
			case 115 :
				// Lexer.g:1:994: K_TRIGGER
				{
				mK_TRIGGER(); 

				}
				break;
			case 116 :
				// Lexer.g:1:1004: K_STATIC
				{
				mK_STATIC(); 

				}
				break;
			case 117 :
				// Lexer.g:1:1013: K_FROZEN
				{
				mK_FROZEN(); 

				}
				break;
			case 118 :
				// Lexer.g:1:1022: K_FUNCTION
				{
				mK_FUNCTION(); 

				}
				break;
			case 119 :
				// Lexer.g:1:1033: K_FUNCTIONS
				{
				mK_FUNCTIONS(); 

				}
				break;
			case 120 :
				// Lexer.g:1:1045: K_AGGREGATE
				{
				mK_AGGREGATE(); 

				}
				break;
			case 121 :
				// Lexer.g:1:1057: K_SFUNC
				{
				mK_SFUNC(); 

				}
				break;
			case 122 :
				// Lexer.g:1:1065: K_STYPE
				{
				mK_STYPE(); 

				}
				break;
			case 123 :
				// Lexer.g:1:1073: K_FINALFUNC
				{
				mK_FINALFUNC(); 

				}
				break;
			case 124 :
				// Lexer.g:1:1085: K_INITCOND
				{
				mK_INITCOND(); 

				}
				break;
			case 125 :
				// Lexer.g:1:1096: K_RETURNS
				{
				mK_RETURNS(); 

				}
				break;
			case 126 :
				// Lexer.g:1:1106: K_CALLED
				{
				mK_CALLED(); 

				}
				break;
			case 127 :
				// Lexer.g:1:1115: K_INPUT
				{
				mK_INPUT(); 

				}
				break;
			case 128 :
				// Lexer.g:1:1123: K_LANGUAGE
				{
				mK_LANGUAGE(); 

				}
				break;
			case 129 :
				// Lexer.g:1:1134: K_OR
				{
				mK_OR(); 

				}
				break;
			case 130 :
				// Lexer.g:1:1139: K_REPLACE
				{
				mK_REPLACE(); 

				}
				break;
			case 131 :
				// Lexer.g:1:1149: K_JSON
				{
				mK_JSON(); 

				}
				break;
			case 132 :
				// Lexer.g:1:1156: K_DEFAULT
				{
				mK_DEFAULT(); 

				}
				break;
			case 133 :
				// Lexer.g:1:1166: K_UNSET
				{
				mK_UNSET(); 

				}
				break;
			case 134 :
				// Lexer.g:1:1174: K_LIKE
				{
				mK_LIKE(); 

				}
				break;
			case 135 :
				// Lexer.g:1:1181: STRING_LITERAL
				{
				mSTRING_LITERAL(); 

				}
				break;
			case 136 :
				// Lexer.g:1:1196: QUOTED_NAME
				{
				mQUOTED_NAME(); 

				}
				break;
			case 137 :
				// Lexer.g:1:1208: EMPTY_QUOTED_NAME
				{
				mEMPTY_QUOTED_NAME(); 

				}
				break;
			case 138 :
				// Lexer.g:1:1226: INTEGER
				{
				mINTEGER(); 

				}
				break;
			case 139 :
				// Lexer.g:1:1234: QMARK
				{
				mQMARK(); 

				}
				break;
			case 140 :
				// Lexer.g:1:1240: FLOAT
				{
				mFLOAT(); 

				}
				break;
			case 141 :
				// Lexer.g:1:1246: BOOLEAN
				{
				mBOOLEAN(); 

				}
				break;
			case 142 :
				// Lexer.g:1:1254: DURATION
				{
				mDURATION(); 

				}
				break;
			case 143 :
				// Lexer.g:1:1263: IDENT
				{
				mIDENT(); 

				}
				break;
			case 144 :
				// Lexer.g:1:1269: HEXNUMBER
				{
				mHEXNUMBER(); 

				}
				break;
			case 145 :
				// Lexer.g:1:1279: UUID
				{
				mUUID(); 

				}
				break;
			case 146 :
				// Lexer.g:1:1284: WS
				{
				mWS(); 

				}
				break;
			case 147 :
				// Lexer.g:1:1287: COMMENT
				{
				mCOMMENT(); 

				}
				break;
			case 148 :
				// Lexer.g:1:1295: MULTILINE_COMMENT
				{
				mMULTILINE_COMMENT(); 

				}
				break;

		}
	}


	protected DFA9 dfa9 = new DFA9(this);
	protected DFA14 dfa14 = new DFA14(this);
	protected DFA37 dfa37 = new DFA37(this);
	protected DFA22 dfa22 = new DFA22(this);
	protected DFA24 dfa24 = new DFA24(this);
	protected DFA28 dfa28 = new DFA28(this);
	protected DFA30 dfa30 = new DFA30(this);
	protected DFA44 dfa44 = new DFA44(this);
	static final String DFA9_eotS =
		"\2\uffff\1\12\12\uffff";
	static final String DFA9_eofS =
		"\15\uffff";
	static final String DFA9_minS =
		"\1\104\1\uffff\1\117\12\uffff";
	static final String DFA9_maxS =
		"\1\u00b5\1\uffff\1\163\12\uffff";
	static final String DFA9_acceptS =
		"\1\uffff\1\1\1\uffff\1\3\1\4\1\5\1\7\1\11\1\12\1\13\1\6\1\2\1\10";
	static final String DFA9_specialS =
		"\15\uffff}>";
	static final String[] DFA9_transitionS = {
			"\1\4\3\uffff\1\5\4\uffff\1\2\1\11\4\uffff\1\6\1\uffff\1\7\1\uffff\1\3"+
			"\1\uffff\1\1\12\uffff\1\4\3\uffff\1\5\4\uffff\1\2\1\11\4\uffff\1\6\1"+
			"\uffff\1\7\1\uffff\1\3\1\uffff\1\1\73\uffff\1\10",
			"",
			"\1\13\3\uffff\1\14\33\uffff\1\13\3\uffff\1\14",
			"",
			"",
			"",
			"",
			"",
			"",
			"",
			"",
			"",
			""
	};

	static final short[] DFA9_eot = DFA.unpackEncodedString(DFA9_eotS);
	static final short[] DFA9_eof = DFA.unpackEncodedString(DFA9_eofS);
	static final char[] DFA9_min = DFA.unpackEncodedStringToUnsignedChars(DFA9_minS);
	static final char[] DFA9_max = DFA.unpackEncodedStringToUnsignedChars(DFA9_maxS);
	static final short[] DFA9_accept = DFA.unpackEncodedString(DFA9_acceptS);
	static final short[] DFA9_special = DFA.unpackEncodedString(DFA9_specialS);
	static final short[][] DFA9_transition;

	static {
		int numStates = DFA9_transitionS.length;
		DFA9_transition = new short[numStates][];
		for (int i=0; i<numStates; i++) {
			DFA9_transition[i] = DFA.unpackEncodedString(DFA9_transitionS[i]);
		}
	}

	protected class DFA9 extends DFA {

		public DFA9(BaseRecognizer recognizer) {
			this.recognizer = recognizer;
			this.decisionNumber = 9;
			this.eot = DFA9_eot;
			this.eof = DFA9_eof;
			this.min = DFA9_min;
			this.max = DFA9_max;
			this.accept = DFA9_accept;
			this.special = DFA9_special;
			this.transition = DFA9_transition;
		}
		@Override
		public String getDescription() {
			return "283:10: fragment DURATION_UNIT : ( Y | M O | W | D | H | M | S | M S | U S | '\\u00B5' S | N S );";
		}
	}

	static final String DFA14_eotS =
		"\5\uffff";
	static final String DFA14_eofS =
		"\5\uffff";
	static final String DFA14_minS =
		"\1\55\1\60\1\56\2\uffff";
	static final String DFA14_maxS =
		"\2\71\1\145\2\uffff";
	static final String DFA14_acceptS =
		"\3\uffff\1\1\1\2";
	static final String DFA14_specialS =
		"\5\uffff}>";
	static final String[] DFA14_transitionS = {
			"\1\1\2\uffff\12\2",
			"\12\2",
			"\1\4\1\uffff\12\2\13\uffff\1\3\37\uffff\1\3",
			"",
			""
	};

	static final short[] DFA14_eot = DFA.unpackEncodedString(DFA14_eotS);
	static final short[] DFA14_eof = DFA.unpackEncodedString(DFA14_eofS);
	static final char[] DFA14_min = DFA.unpackEncodedStringToUnsignedChars(DFA14_minS);
	static final char[] DFA14_max = DFA.unpackEncodedStringToUnsignedChars(DFA14_maxS);
	static final short[] DFA14_accept = DFA.unpackEncodedString(DFA14_acceptS);
	static final short[] DFA14_special = DFA.unpackEncodedString(DFA14_specialS);
	static final short[][] DFA14_transition;

	static {
		int numStates = DFA14_transitionS.length;
		DFA14_transition = new short[numStates][];
		for (int i=0; i<numStates; i++) {
			DFA14_transition[i] = DFA.unpackEncodedString(DFA14_transitionS[i]);
		}
	}

	protected class DFA14 extends 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 getDescription() {
			return "309:1: FLOAT : ( INTEGER EXPONENT | INTEGER '.' ( DIGIT )* ( EXPONENT )? );";
		}
	}

	static final String DFA37_eotS =
		"\3\uffff\1\5\10\uffff";
	static final String DFA37_eofS =
		"\14\uffff";
	static final String DFA37_minS =
		"\1\55\1\60\1\uffff\2\60\1\uffff\1\60\1\uffff\1\60\1\55\1\60\1\uffff";
	static final String DFA37_maxS =
		"\2\120\1\uffff\1\71\1\131\1\uffff\1\131\1\uffff\3\131\1\uffff";
	static final String DFA37_acceptS =
		"\2\uffff\1\1\2\uffff\1\2\1\uffff\1\3\3\uffff\1\4";
	static final String DFA37_specialS =
		"\14\uffff}>";
	static final String[] DFA37_transitionS = {
			"\1\1\2\uffff\12\2\26\uffff\1\3",
			"\12\2\26\uffff\1\3",
			"",
			"\12\4",
			"\12\6\12\uffff\1\5\10\uffff\1\5\11\uffff\1\7\1\uffff\1\5",
			"",
			"\12\10\12\uffff\1\5\10\uffff\1\5\11\uffff\1\7\1\uffff\1\5",
			"",
			"\12\11\12\uffff\1\5\10\uffff\1\5\11\uffff\1\7\1\uffff\1\5",
			"\1\13\2\uffff\12\12\12\uffff\1\5\10\uffff\1\5\11\uffff\1\7\1\uffff\1"+
			"\5",
			"\12\12\12\uffff\1\5\10\uffff\1\5\11\uffff\1\7\1\uffff\1\5",
			""
	};

	static final short[] DFA37_eot = DFA.unpackEncodedString(DFA37_eotS);
	static final short[] DFA37_eof = DFA.unpackEncodedString(DFA37_eofS);
	static final char[] DFA37_min = DFA.unpackEncodedStringToUnsignedChars(DFA37_minS);
	static final char[] DFA37_max = DFA.unpackEncodedStringToUnsignedChars(DFA37_maxS);
	static final short[] DFA37_accept = DFA.unpackEncodedString(DFA37_acceptS);
	static final short[] DFA37_special = DFA.unpackEncodedString(DFA37_specialS);
	static final short[][] DFA37_transition;

	static {
		int numStates = DFA37_transitionS.length;
		DFA37_transition = new short[numStates][];
		for (int i=0; i<numStates; i++) {
			DFA37_transition[i] = DFA.unpackEncodedString(DFA37_transitionS[i]);
		}
	}

	protected class DFA37 extends DFA {

		public DFA37(BaseRecognizer recognizer) {
			this.recognizer = recognizer;
			this.decisionNumber = 37;
			this.eot = DFA37_eot;
			this.eof = DFA37_eof;
			this.min = DFA37_min;
			this.max = DFA37_max;
			this.accept = DFA37_accept;
			this.special = DFA37_special;
			this.transition = DFA37_transition;
		}
		@Override
		public String getDescription() {
			return "321:1: DURATION : ( ( '-' )? ( DIGIT )+ DURATION_UNIT ( ( DIGIT )+ DURATION_UNIT )* | ( '-' )? 'P' ( ( DIGIT )+ 'Y' )? ( ( DIGIT )+ 'M' )? ( ( DIGIT )+ 'D' )? ( 'T' ( ( DIGIT )+ 'H' )? ( ( DIGIT )+ 'M' )? ( ( DIGIT )+ 'S' )? )? | ( '-' )? 'P' ( DIGIT )+ 'W' | ( '-' )? 'P' DIGIT DIGIT DIGIT DIGIT '-' DIGIT DIGIT '-' DIGIT DIGIT 'T' DIGIT DIGIT ':' DIGIT DIGIT ':' DIGIT DIGIT );";
		}
	}

	static final String DFA22_eotS =
		"\1\2\3\uffff";
	static final String DFA22_eofS =
		"\4\uffff";
	static final String DFA22_minS =
		"\2\60\2\uffff";
	static final String DFA22_maxS =
		"\1\71\1\131\2\uffff";
	static final String DFA22_acceptS =
		"\2\uffff\1\2\1\1";
	static final String DFA22_specialS =
		"\4\uffff}>";
	static final String[] DFA22_transitionS = {
			"\12\1",
			"\12\1\12\uffff\1\2\10\uffff\1\2\13\uffff\1\3",
			"",
			""
	};

	static final short[] DFA22_eot = DFA.unpackEncodedString(DFA22_eotS);
	static final short[] DFA22_eof = DFA.unpackEncodedString(DFA22_eofS);
	static final char[] DFA22_min = DFA.unpackEncodedStringToUnsignedChars(DFA22_minS);
	static final char[] DFA22_max = DFA.unpackEncodedStringToUnsignedChars(DFA22_maxS);
	static final short[] DFA22_accept = DFA.unpackEncodedString(DFA22_acceptS);
	static final short[] DFA22_special = DFA.unpackEncodedString(DFA22_specialS);
	static final short[][] DFA22_transition;

	static {
		int numStates = DFA22_transitionS.length;
		DFA22_transition = new short[numStates][];
		for (int i=0; i<numStates; i++) {
			DFA22_transition[i] = DFA.unpackEncodedString(DFA22_transitionS[i]);
		}
	}

	protected class DFA22 extends DFA {

		public DFA22(BaseRecognizer recognizer) {
			this.recognizer = recognizer;
			this.decisionNumber = 22;
			this.eot = DFA22_eot;
			this.eof = DFA22_eof;
			this.min = DFA22_min;
			this.max = DFA22_max;
			this.accept = DFA22_accept;
			this.special = DFA22_special;
			this.transition = DFA22_transition;
		}
		@Override
		public String getDescription() {
			return "323:16: ( ( DIGIT )+ 'Y' )?";
		}
	}

	static final String DFA24_eotS =
		"\1\2\3\uffff";
	static final String DFA24_eofS =
		"\4\uffff";
	static final String DFA24_minS =
		"\2\60\2\uffff";
	static final String DFA24_maxS =
		"\1\71\1\115\2\uffff";
	static final String DFA24_acceptS =
		"\2\uffff\1\2\1\1";
	static final String DFA24_specialS =
		"\4\uffff}>";
	static final String[] DFA24_transitionS = {
			"\12\1",
			"\12\1\12\uffff\1\2\10\uffff\1\3",
			"",
			""
	};

	static final short[] DFA24_eot = DFA.unpackEncodedString(DFA24_eotS);
	static final short[] DFA24_eof = DFA.unpackEncodedString(DFA24_eofS);
	static final char[] DFA24_min = DFA.unpackEncodedStringToUnsignedChars(DFA24_minS);
	static final char[] DFA24_max = DFA.unpackEncodedStringToUnsignedChars(DFA24_maxS);
	static final short[] DFA24_accept = DFA.unpackEncodedString(DFA24_acceptS);
	static final short[] DFA24_special = DFA.unpackEncodedString(DFA24_specialS);
	static final short[][] DFA24_transition;

	static {
		int numStates = DFA24_transitionS.length;
		DFA24_transition = new short[numStates][];
		for (int i=0; i<numStates; i++) {
			DFA24_transition[i] = DFA.unpackEncodedString(DFA24_transitionS[i]);
		}
	}

	protected class DFA24 extends DFA {

		public DFA24(BaseRecognizer recognizer) {
			this.recognizer = recognizer;
			this.decisionNumber = 24;
			this.eot = DFA24_eot;
			this.eof = DFA24_eof;
			this.min = DFA24_min;
			this.max = DFA24_max;
			this.accept = DFA24_accept;
			this.special = DFA24_special;
			this.transition = DFA24_transition;
		}
		@Override
		public String getDescription() {
			return "323:30: ( ( DIGIT )+ 'M' )?";
		}
	}

	static final String DFA28_eotS =
		"\1\2\3\uffff";
	static final String DFA28_eofS =
		"\4\uffff";
	static final String DFA28_minS =
		"\2\60\2\uffff";
	static final String DFA28_maxS =
		"\1\71\1\123\2\uffff";
	static final String DFA28_acceptS =
		"\2\uffff\1\2\1\1";
	static final String DFA28_specialS =
		"\4\uffff}>";
	static final String[] DFA28_transitionS = {
			"\12\1",
			"\12\1\16\uffff\1\3\4\uffff\1\2\5\uffff\1\2",
			"",
			""
	};

	static final short[] DFA28_eot = DFA.unpackEncodedString(DFA28_eotS);
	static final short[] DFA28_eof = DFA.unpackEncodedString(DFA28_eofS);
	static final char[] DFA28_min = DFA.unpackEncodedStringToUnsignedChars(DFA28_minS);
	static final char[] DFA28_max = DFA.unpackEncodedStringToUnsignedChars(DFA28_maxS);
	static final short[] DFA28_accept = DFA.unpackEncodedString(DFA28_acceptS);
	static final short[] DFA28_special = DFA.unpackEncodedString(DFA28_specialS);
	static final short[][] DFA28_transition;

	static {
		int numStates = DFA28_transitionS.length;
		DFA28_transition = new short[numStates][];
		for (int i=0; i<numStates; i++) {
			DFA28_transition[i] = DFA.unpackEncodedString(DFA28_transitionS[i]);
		}
	}

	protected class DFA28 extends DFA {

		public DFA28(BaseRecognizer recognizer) {
			this.recognizer = recognizer;
			this.decisionNumber = 28;
			this.eot = DFA28_eot;
			this.eof = DFA28_eof;
			this.min = DFA28_min;
			this.max = DFA28_max;
			this.accept = DFA28_accept;
			this.special = DFA28_special;
			this.transition = DFA28_transition;
		}
		@Override
		public String getDescription() {
			return "323:63: ( ( DIGIT )+ 'H' )?";
		}
	}

	static final String DFA30_eotS =
		"\1\2\3\uffff";
	static final String DFA30_eofS =
		"\4\uffff";
	static final String DFA30_minS =
		"\2\60\2\uffff";
	static final String DFA30_maxS =
		"\1\71\1\123\2\uffff";
	static final String DFA30_acceptS =
		"\2\uffff\1\2\1\1";
	static final String DFA30_specialS =
		"\4\uffff}>";
	static final String[] DFA30_transitionS = {
			"\12\1",
			"\12\1\23\uffff\1\3\5\uffff\1\2",
			"",
			""
	};

	static final short[] DFA30_eot = DFA.unpackEncodedString(DFA30_eotS);
	static final short[] DFA30_eof = DFA.unpackEncodedString(DFA30_eofS);
	static final char[] DFA30_min = DFA.unpackEncodedStringToUnsignedChars(DFA30_minS);
	static final char[] DFA30_max = DFA.unpackEncodedStringToUnsignedChars(DFA30_maxS);
	static final short[] DFA30_accept = DFA.unpackEncodedString(DFA30_acceptS);
	static final short[] DFA30_special = DFA.unpackEncodedString(DFA30_specialS);
	static final short[][] DFA30_transition;

	static {
		int numStates = DFA30_transitionS.length;
		DFA30_transition = new short[numStates][];
		for (int i=0; i<numStates; i++) {
			DFA30_transition[i] = DFA.unpackEncodedString(DFA30_transitionS[i]);
		}
	}

	protected class DFA30 extends DFA {

		public DFA30(BaseRecognizer recognizer) {
			this.recognizer = recognizer;
			this.decisionNumber = 30;
			this.eot = DFA30_eot;
			this.eof = DFA30_eof;
			this.min = DFA30_min;
			this.max = DFA30_max;
			this.accept = DFA30_accept;
			this.special = DFA30_special;
			this.transition = DFA30_transition;
		}
		@Override
		public String getDescription() {
			return "323:77: ( ( DIGIT )+ 'M' )?";
		}
	}

	static final String DFA44_eotS =
		"\1\uffff\11\34\1\103\13\34\3\uffff\1\166\1\uffff\1\34\1\uffff\1\166\2"+
		"\uffff\14\34\1\u008f\14\34\1\u009f\1\u00a7\1\u00a8\7\34\1\uffff\4\34\1"+
		"\103\15\34\1\u00d2\5\34\1\u00d9\12\34\1\u00e8\1\u00e9\1\u00eb\10\34\1"+
		"\u00fb\2\uffff\1\166\1\uffff\1\166\2\uffff\1\103\3\uffff\1\34\1\u0102"+
		"\17\34\1\uffff\1\u0113\1\u0115\2\34\1\u0118\1\u011a\5\34\1\u0120\3\34"+
		"\1\uffff\2\34\1\u0127\4\34\2\uffff\2\34\1\u012f\10\34\1\u0139\3\34\1\103"+
		"\1\34\3\103\25\34\1\uffff\6\34\1\uffff\3\34\1\u0162\4\34\1\u0167\5\34"+
		"\2\uffff\1\34\1\uffff\13\34\1\u017a\1\34\1\u017c\1\34\1\uffff\1\166\1"+
		"\uffff\1\103\1\171\1\uffff\1\34\1\uffff\7\34\1\u018c\1\34\1\u018e\6\34"+
		"\1\uffff\1\34\1\uffff\2\34\1\uffff\1\34\1\uffff\3\34\1\u019c\1\34\1\uffff"+
		"\1\u019e\5\34\1\uffff\1\u01a5\1\u01a6\5\34\1\uffff\1\u01ac\2\34\1\u01b0"+
		"\1\34\1\u01b2\1\u01b3\2\34\1\uffff\7\34\3\103\2\34\1\u01bf\2\34\1\u01c3"+
		"\2\34\1\u01c6\6\34\1\u01cd\5\34\1\u01d3\2\34\1\u01d6\3\34\1\u01da\1\34"+
		"\1\uffff\1\u01de\1\u01df\2\34\1\uffff\2\34\1\u01e4\11\34\1\u01ee\5\34"+
		"\1\uffff\1\u01f5\1\uffff\1\u01f6\1\166\1\uffff\1\103\1\171\1\uffff\1\103"+
		"\4\34\1\u0201\2\34\1\u0204\1\uffff\1\34\1\uffff\3\34\1\u0209\1\u01d6\1"+
		"\34\1\u020b\1\u020c\1\u020d\1\u020e\2\34\1\u0211\1\uffff\1\34\1\uffff"+
		"\5\34\1\u0218\2\uffff\2\34\1\u021b\1\34\1\u021d\1\uffff\1\u021e\1\34\1"+
		"\u0220\1\uffff\1\u0221\2\uffff\1\u0222\12\34\1\uffff\3\34\1\uffff\2\34"+
		"\1\uffff\1\u0230\5\34\1\uffff\2\34\1\u0239\1\u023a\1\34\1\uffff\2\34\1"+
		"\uffff\1\34\1\u023f\1\u0240\1\uffff\3\34\2\uffff\1\u0244\2\34\1\u0247"+
		"\1\uffff\3\34\1\u024c\5\34\1\uffff\1\u0252\1\u0253\1\u0254\3\34\2\uffff"+
		"\1\166\1\uffff\1\103\1\171\1\uffff\1\103\1\u025e\1\u025f\1\34\1\u0261"+
		"\1\uffff\2\34\1\uffff\1\u0264\3\34\1\uffff\1\34\4\uffff\2\34\1\uffff\4"+
		"\34\1\u026f\1\u0270\1\uffff\2\34\1\uffff\1\u0273\2\uffff\1\34\3\uffff"+
		"\7\34\1\u027b\3\34\1\u027f\1\34\1\uffff\4\34\1\u0285\1\u0286\1\u0287\1"+
		"\34\2\uffff\1\u0289\3\34\2\uffff\3\34\1\uffff\1\34\1\u0291\1\uffff\1\u0292"+
		"\1\u0293\1\34\1\u0295\1\uffff\1\34\1\u0297\1\u0298\2\34\3\uffff\3\34\1"+
		"\166\1\uffff\1\103\1\171\1\uffff\1\103\2\uffff\1\u02a4\1\uffff\2\34\1"+
		"\uffff\10\34\1\u02af\1\u02b0\2\uffff\2\34\1\uffff\5\34\1\u02b8\1\34\1"+
		"\uffff\1\34\1\u02bb\1\u02bc\1\uffff\1\34\1\u02be\1\34\1\u02c0\1\34\3\uffff"+
		"\1\34\1\uffff\1\u02c3\1\34\1\u02c5\2\34\1\u02c8\1\34\3\uffff\1\u02ca\1"+
		"\uffff\1\u02cb\2\uffff\1\u02cc\1\u02cd\2\34\1\u02d0\1\166\1\uffff\1\103"+
		"\1\171\1\uffff\1\103\1\uffff\1\34\1\u02d8\1\u02d9\6\34\1\u025f\2\uffff"+
		"\1\u02e1\1\u02e2\1\u02e3\1\u02e4\2\34\1\u02e7\1\uffff\1\u02e8\1\u02e9"+
		"\2\uffff\1\u02ea\1\uffff\1\34\1\uffff\1\u02ec\1\34\1\uffff\1\u02ee\1\uffff"+
		"\1\34\1\u02f0\1\uffff\1\34\4\uffff\2\34\1\uffff\1\166\1\uffff\1\103\1"+
		"\171\1\uffff\1\103\1\u02f5\2\uffff\1\u02f6\1\u02f7\1\u02f8\1\u02f9\1\u02fa"+
		"\1\u02fb\1\u02fc\4\uffff\1\34\1\u02fe\4\uffff\1\34\1\uffff\1\34\1\uffff"+
		"\1\u0301\1\uffff\3\34\11\uffff\1\u0306\1\uffff\1\34\1\u0309\1\uffff\3"+
		"\34\1\171\1\uffff\1\u030e\1\34\1\uffff\1\34\1\u0311\1\u0312\1\171\1\uffff"+
		"\1\u023f\1\u0314\2\uffff\1\171\1\uffff\1\171";
	static final String DFA44_eofS =
		"\u0316\uffff";
	static final String DFA44_minS =
		"\1\11\1\103\2\60\1\110\1\105\1\60\1\106\1\116\1\101\4\60\3\101\1\106\1"+
		"\105\1\122\1\101\1\123\1\uffff\1\0\1\55\1\56\1\uffff\1\101\1\uffff\1\56"+
		"\1\uffff\1\52\1\114\1\110\1\101\1\120\1\101\1\125\1\117\2\114\1\117\3"+
		"\60\1\104\1\120\1\114\1\60\1\124\1\107\1\105\1\124\1\111\1\131\1\124\1"+
		"\105\3\60\1\104\1\105\1\114\1\111\1\113\1\107\1\116\1\uffff\2\122\1\111"+
		"\2\60\1\123\1\60\1\117\1\125\1\122\1\60\1\114\1\105\1\123\1\60\1\125\3"+
		"\60\1\107\2\117\1\111\1\102\1\60\1\115\1\114\1\120\1\130\2\120\1\104\2"+
		"\105\1\114\3\60\1\124\1\116\1\114\1\101\2\114\1\116\1\117\1\42\2\uffff"+
		"\1\56\1\uffff\1\56\1\53\1\uffff\1\60\3\uffff\1\105\1\60\1\105\1\122\1"+
		"\124\1\120\1\105\1\114\1\116\1\115\1\114\1\103\1\124\2\101\1\123\1\60"+
		"\1\uffff\2\60\1\114\1\105\2\60\1\110\2\122\1\110\1\124\1\60\1\122\1\103"+
		"\1\123\1\uffff\2\105\1\60\1\124\1\111\1\124\1\125\2\uffff\1\101\1\116"+
		"\1\60\1\117\1\105\1\104\1\111\1\124\1\105\1\111\1\107\1\60\1\124\1\123"+
		"\1\115\6\60\1\124\1\105\1\103\2\60\1\120\1\102\1\101\1\105\1\116\1\125"+
		"\1\120\1\124\1\101\2\124\1\114\1\123\1\111\1\103\1\uffff\1\111\1\102\1"+
		"\114\1\105\1\107\1\114\1\uffff\2\105\1\131\1\60\1\105\1\124\1\114\1\105"+
		"\1\60\1\111\1\101\1\127\1\125\1\103\2\uffff\1\105\1\uffff\1\111\1\101"+
		"\1\117\1\125\1\114\1\105\1\125\1\116\1\105\1\125\1\117\1\60\1\114\1\60"+
		"\1\116\1\uffff\1\56\1\53\3\60\1\103\1\uffff\1\115\1\101\1\111\1\105\1"+
		"\122\1\114\1\103\1\60\1\105\1\60\1\124\1\105\1\114\1\124\1\105\1\60\1"+
		"\uffff\1\111\1\uffff\1\131\1\122\1\uffff\1\127\1\uffff\1\117\2\105\1\60"+
		"\1\105\1\uffff\1\60\1\111\1\125\1\124\1\122\1\130\1\uffff\2\60\1\116\1"+
		"\103\2\124\1\107\1\uffff\1\60\1\107\1\124\1\60\1\124\2\60\1\116\1\125"+
		"\1\uffff\2\111\1\127\1\101\6\60\1\111\1\124\1\60\1\115\2\60\1\114\1\124"+
		"\1\60\1\124\1\115\2\101\1\124\1\117\1\60\1\105\1\124\1\116\1\110\1\116"+
		"\1\60\1\105\1\103\1\60\1\107\1\105\1\116\1\60\1\111\1\uffff\2\60\1\105"+
		"\1\122\1\uffff\1\106\1\116\1\60\1\105\1\110\1\116\1\122\1\117\1\115\1"+
		"\113\1\122\1\101\1\60\1\120\1\124\1\103\1\120\1\107\1\uffff\1\60\1\uffff"+
		"\1\60\1\56\1\53\4\60\1\124\1\101\1\107\1\103\1\60\1\125\1\111\1\60\1\uffff"+
		"\1\116\1\uffff\1\111\1\122\1\106\7\60\1\122\1\107\1\60\1\uffff\1\124\1"+
		"\uffff\1\101\1\105\1\124\1\123\1\124\1\60\2\uffff\1\111\1\117\1\60\1\105"+
		"\1\60\1\uffff\1\60\1\107\1\60\1\uffff\1\60\2\uffff\1\60\1\101\1\123\1"+
		"\124\1\117\1\122\1\55\2\60\1\116\1\105\1\uffff\1\111\1\101\1\114\1\uffff"+
		"\1\105\1\111\1\uffff\1\60\1\116\1\103\1\111\1\105\1\115\1\uffff\1\104"+
		"\1\105\2\60\1\124\1\uffff\2\101\1\uffff\1\105\2\60\1\uffff\1\124\1\125"+
		"\1\116\2\uffff\1\60\1\111\1\131\1\60\1\uffff\1\123\1\101\1\124\1\60\1"+
		"\116\2\105\1\116\1\103\1\uffff\3\60\1\125\1\105\1\111\2\uffff\1\56\1\53"+
		"\6\60\1\105\1\60\1\uffff\1\123\1\116\1\uffff\1\60\1\117\1\111\1\125\1"+
		"\uffff\1\60\4\uffff\1\111\1\101\1\uffff\1\111\1\103\1\123\1\105\2\60\1"+
		"\uffff\1\124\1\116\1\uffff\1\60\2\uffff\1\105\3\uffff\1\107\1\123\1\111"+
		"\1\122\1\131\1\60\1\103\1\60\1\102\1\114\1\124\1\60\1\117\1\uffff\1\122"+
		"\1\106\1\124\1\116\3\60\1\122\2\uffff\1\60\1\116\1\124\1\122\2\uffff\1"+
		"\101\1\111\1\124\1\uffff\1\101\1\60\1\uffff\2\60\1\122\1\60\1\uffff\1"+
		"\123\2\60\1\123\1\105\3\uffff\2\122\1\116\1\56\1\53\4\60\2\uffff\1\60"+
		"\1\uffff\1\105\1\124\1\uffff\3\116\1\60\1\132\1\124\1\115\1\105\2\60\2"+
		"\uffff\1\131\1\104\1\uffff\1\104\1\105\1\111\1\117\1\104\1\60\1\124\1"+
		"\uffff\1\105\2\60\1\uffff\1\116\1\60\1\101\1\60\1\123\3\uffff\1\111\1"+
		"\uffff\1\60\1\105\1\60\1\115\1\104\1\60\1\114\3\uffff\1\60\1\uffff\1\60"+
		"\2\uffff\2\60\1\123\1\125\1\60\1\56\1\53\4\60\1\uffff\1\122\2\60\1\107"+
		"\1\103\1\55\3\105\1\60\2\uffff\4\60\1\117\1\116\1\60\1\uffff\2\60\2\uffff"+
		"\1\60\1\uffff\1\115\1\uffff\1\60\1\116\1\uffff\1\60\1\uffff\1\120\1\60"+
		"\1\uffff\1\111\4\uffff\1\111\1\123\1\uffff\1\55\1\53\4\55\1\60\2\uffff"+
		"\7\60\4\uffff\1\116\1\60\4\uffff\1\111\1\uffff\1\107\1\uffff\1\60\1\uffff"+
		"\1\132\1\126\1\105\1\60\10\uffff\1\60\1\uffff\1\114\1\60\1\uffff\2\105"+
		"\1\122\1\60\1\uffff\1\60\1\131\1\uffff\1\104\3\60\1\uffff\2\60\2\uffff"+
		"\1\60\1\uffff\1\55";
	static final String DFA44_maxS =
		"\1\172\3\165\1\162\1\145\1\170\1\163\1\165\1\157\1\172\2\165\2\171\1\157"+
		"\1\151\1\162\1\157\1\162\1\165\1\163\1\uffff\1\uffff\1\120\1\u00b5\1\uffff"+
		"\1\162\1\uffff\1\u00b5\1\uffff\1\57\1\164\1\150\1\171\1\160\1\141\1\165"+
		"\1\157\2\156\1\157\1\154\1\146\1\172\1\144\1\160\1\164\1\146\1\164\1\147"+
		"\1\145\1\164\1\151\1\171\1\164\1\151\3\172\1\144\1\151\1\163\1\151\1\163"+
		"\1\147\1\156\1\uffff\1\162\1\163\1\151\1\131\1\172\2\163\1\157\1\165\1"+
		"\162\1\164\1\165\1\145\2\163\1\165\1\147\1\164\1\172\1\147\2\157\1\165"+
		"\1\142\1\172\1\156\1\154\1\160\1\170\1\160\1\164\1\144\2\145\1\162\3\172"+
		"\1\164\1\166\1\154\1\157\1\164\1\154\1\156\1\157\1\42\2\uffff\1\u00b5"+
		"\1\uffff\1\u00b5\1\146\1\uffff\1\146\3\uffff\1\145\1\172\1\145\1\162\1"+
		"\164\1\160\1\145\1\154\1\156\1\172\1\154\1\143\1\164\2\141\1\163\1\146"+
		"\1\uffff\2\172\1\154\1\145\2\172\1\150\2\162\1\150\1\164\1\172\1\162\1"+
		"\143\1\163\1\uffff\2\145\1\172\1\164\1\151\1\164\1\165\2\uffff\1\141\1"+
		"\156\1\172\1\157\1\145\1\144\1\151\1\164\1\145\1\151\1\147\1\172\1\164"+
		"\1\163\1\155\1\172\1\131\3\172\1\123\1\164\1\145\1\143\1\151\1\146\1\160"+
		"\1\142\1\141\1\145\1\156\1\165\1\160\1\164\1\141\2\164\1\154\1\163\1\151"+
		"\1\143\1\uffff\1\151\1\142\1\154\1\156\1\147\1\154\1\uffff\2\145\1\171"+
		"\1\172\1\145\1\164\1\154\1\145\1\172\1\151\1\141\1\167\1\165\1\151\2\uffff"+
		"\1\145\1\uffff\1\151\1\141\1\157\1\165\1\154\1\145\1\165\1\156\1\145\1"+
		"\165\1\157\1\172\1\154\1\172\1\156\1\uffff\1\u00b5\3\146\1\u00b5\1\143"+
		"\1\uffff\1\155\1\141\1\151\1\145\1\162\1\154\1\143\1\172\1\145\1\172\1"+
		"\164\1\145\1\154\1\164\1\145\1\146\1\uffff\1\151\1\uffff\1\171\1\162\1"+
		"\uffff\1\167\1\uffff\1\157\2\145\1\172\1\145\1\uffff\1\172\1\151\1\165"+
		"\1\164\1\162\1\170\1\uffff\2\172\1\156\1\143\2\164\1\147\1\uffff\1\172"+
		"\1\147\1\164\1\172\1\164\2\172\1\156\1\165\1\uffff\2\151\1\167\1\141\1"+
		"\115\1\131\1\104\3\172\1\151\1\164\1\172\1\155\1\165\1\172\1\154\1\164"+
		"\1\172\1\164\1\155\2\141\1\164\1\157\1\172\1\145\1\164\1\156\1\150\1\156"+
		"\1\172\1\145\1\143\1\172\1\147\1\145\1\156\1\172\1\151\1\uffff\2\172\1"+
		"\145\1\162\1\uffff\1\146\1\156\1\172\1\145\1\150\1\156\1\162\1\157\1\155"+
		"\1\153\1\162\1\141\1\172\1\160\1\164\1\143\1\160\1\147\1\uffff\1\172\1"+
		"\uffff\1\172\1\u00b5\3\146\1\u00b5\1\146\1\164\1\141\1\147\1\143\1\172"+
		"\1\165\1\151\1\172\1\uffff\1\156\1\uffff\1\151\1\162\1\146\2\172\1\146"+
		"\4\172\1\162\1\147\1\172\1\uffff\1\164\1\uffff\1\141\1\145\1\164\1\163"+
		"\1\164\1\172\2\uffff\1\151\1\157\1\172\1\145\1\172\1\uffff\1\172\1\147"+
		"\1\172\1\uffff\1\172\2\uffff\1\172\1\141\1\163\1\164\1\157\1\162\1\131"+
		"\2\123\1\156\1\145\1\uffff\1\151\1\141\1\154\1\uffff\1\145\1\151\1\uffff"+
		"\1\172\1\156\1\143\1\151\1\145\1\155\1\uffff\1\144\1\145\2\172\1\164\1"+
		"\uffff\2\141\1\uffff\1\145\2\172\1\uffff\1\164\1\165\1\156\2\uffff\1\172"+
		"\1\151\1\171\1\172\1\uffff\1\163\1\141\1\164\1\172\1\156\2\145\1\156\1"+
		"\143\1\uffff\3\172\1\165\1\145\1\151\2\uffff\1\u00b5\3\146\1\u00b5\1\146"+
		"\2\172\1\145\1\172\1\uffff\1\163\1\156\1\uffff\1\172\1\157\1\151\1\165"+
		"\1\uffff\1\146\4\uffff\1\151\1\141\1\uffff\1\151\1\143\1\163\1\145\2\172"+
		"\1\uffff\1\164\1\156\1\uffff\1\172\2\uffff\1\145\3\uffff\1\147\1\163\1"+
		"\151\1\162\1\171\1\131\1\143\1\172\1\142\1\154\1\164\1\172\1\157\1\uffff"+
		"\1\162\1\146\1\164\1\156\3\172\1\162\2\uffff\1\172\1\156\1\164\1\162\2"+
		"\uffff\1\141\1\151\1\164\1\uffff\1\141\1\172\1\uffff\2\172\1\162\1\172"+
		"\1\uffff\1\163\2\172\1\163\1\145\3\uffff\2\162\1\156\1\u00b5\3\146\1\u00b5"+
		"\1\146\2\uffff\1\172\1\uffff\1\145\1\164\1\uffff\3\156\1\146\1\172\1\164"+
		"\1\155\1\145\2\172\2\uffff\1\171\1\144\1\uffff\1\144\1\145\1\151\1\157"+
		"\1\144\1\172\1\164\1\uffff\1\145\2\172\1\uffff\1\156\1\172\1\141\1\172"+
		"\1\163\3\uffff\1\151\1\uffff\1\172\1\145\1\172\1\155\1\144\1\172\1\154"+
		"\3\uffff\1\172\1\uffff\1\172\2\uffff\2\172\1\163\1\165\1\172\1\u00b5\3"+
		"\146\1\u00b5\1\146\1\uffff\1\162\2\172\1\147\1\143\1\55\3\145\1\172\2"+
		"\uffff\4\172\1\157\1\156\1\172\1\uffff\2\172\2\uffff\1\172\1\uffff\1\155"+
		"\1\uffff\1\172\1\156\1\uffff\1\172\1\uffff\1\160\1\172\1\uffff\1\151\4"+
		"\uffff\1\151\1\163\1\uffff\1\u00b5\1\71\2\55\1\u00b5\1\55\1\172\2\uffff"+
		"\7\172\4\uffff\1\156\1\172\4\uffff\1\151\1\uffff\1\147\1\uffff\1\172\1"+
		"\uffff\1\172\1\166\1\145\1\146\10\uffff\1\172\1\uffff\1\154\1\172\1\uffff"+
		"\2\145\1\162\1\146\1\uffff\1\172\1\171\1\uffff\1\144\2\172\1\146\1\uffff"+
		"\2\172\2\uffff\1\146\1\uffff\1\55";
	static final String DFA44_acceptS =
		"\26\uffff\1\u0087\3\uffff\1\u008b\1\uffff\1\u008f\1\uffff\1\u0092\44\uffff"+
		"\1\u008e\57\uffff\1\u0088\1\u0093\1\uffff\1\u008a\2\uffff\1\u008c\1\uffff"+
		"\1\u0090\1\u0091\1\u0094\21\uffff\1\3\17\uffff\1\33\7\uffff\1\71\1\72"+
		"\51\uffff\1\64\6\uffff\1\45\16\uffff\1\44\1\u0081\1\uffff\1\101\17\uffff"+
		"\1\u0089\6\uffff\1\24\20\uffff\1\65\1\uffff\1\5\2\uffff\1\76\1\uffff\1"+
		"\57\5\uffff\1\6\6\uffff\1\137\7\uffff\1\21\11\uffff\1\16\50\uffff\1\53"+
		"\4\uffff\1\156\22\uffff\1\154\1\uffff\1\160\17\uffff\1\2\1\uffff\1\11"+
		"\15\uffff\1\14\1\uffff\1\7\6\uffff\1\50\1\136\5\uffff\1\112\3\uffff\1"+
		"\143\1\uffff\1\157\1\u0086\13\uffff\1\66\3\uffff\1\46\2\uffff\1\151\6"+
		"\uffff\1\54\5\uffff\1\127\2\uffff\1\u008d\3\uffff\1\152\3\uffff\1\60\1"+
		"\142\4\uffff\1\41\11\uffff\1\114\6\uffff\1\153\1\u0083\12\uffff\1\172"+
		"\2\uffff\1\171\4\uffff\1\135\1\uffff\1\125\1\30\1\55\1\67\2\uffff\1\4"+
		"\6\uffff\1\42\2\uffff\1\177\1\uffff\1\20\1\113\1\uffff\1\u0085\1\15\1"+
		"\121\15\uffff\1\23\10\uffff\1\25\1\27\4\uffff\1\37\1\147\3\uffff\1\162"+
		"\2\uffff\1\110\4\uffff\1\63\5\uffff\1\115\1\74\1\75\11\uffff\1\1\1\35"+
		"\1\uffff\1\164\2\uffff\1\165\12\uffff\1\155\1\12\2\uffff\1\13\7\uffff"+
		"\1\32\3\uffff\1\133\5\uffff\1\34\1\43\1\176\1\uffff\1\126\7\uffff\1\103"+
		"\1\111\1\51\1\uffff\1\145\1\uffff\1\56\1\102\13\uffff\1\62\12\uffff\1"+
		"\10\1\106\7\uffff\1\47\2\uffff\1\132\1\u0084\1\uffff\1\131\1\uffff\1\61"+
		"\2\uffff\1\130\1\uffff\1\163\2\uffff\1\141\1\uffff\1\144\1\123\1\175\1"+
		"\u0082\2\uffff\1\122\7\uffff\1\140\1\166\7\uffff\1\161\1\174\1\26\1\u0080"+
		"\2\uffff\1\120\1\22\1\105\1\134\1\uffff\1\73\1\uffff\1\31\1\uffff\1\146"+
		"\4\uffff\1\116\1\167\1\70\1\173\1\104\1\170\1\150\1\36\1\uffff\1\17\2"+
		"\uffff\1\52\4\uffff\1\77\2\uffff\1\124\4\uffff\1\100\2\uffff\1\107\1\117"+
		"\1\uffff\1\40\1\uffff";
	static final String DFA44_specialS =
		"\27\uffff\1\0\u02fe\uffff}>";
	static final String[] DFA44_transitionS = {
			"\2\36\2\uffff\1\36\22\uffff\1\36\1\uffff\1\27\1\uffff\1\26\2\uffff\1"+
			"\26\5\uffff\1\30\1\uffff\1\37\1\31\11\35\5\uffff\1\32\1\uffff\1\3\1\15"+
			"\1\14\1\13\1\6\1\2\1\23\1\34\1\7\1\25\1\5\1\11\1\17\1\24\1\21\1\12\1"+
			"\34\1\22\1\1\1\16\1\10\1\20\1\4\3\34\6\uffff\1\3\1\15\1\14\1\13\1\6\1"+
			"\2\1\23\1\34\1\7\1\25\1\5\1\11\1\17\1\24\1\21\1\33\1\34\1\22\1\1\1\16"+
			"\1\10\1\20\1\4\3\34",
			"\1\41\1\uffff\1\40\1\45\6\uffff\1\44\6\uffff\1\42\1\43\15\uffff\1\41"+
			"\1\uffff\1\40\1\45\6\uffff\1\44\6\uffff\1\42\1\43",
			"\12\53\7\uffff\1\52\5\53\2\uffff\1\50\2\uffff\1\51\5\uffff\1\46\2\uffff"+
			"\1\47\13\uffff\1\52\5\53\2\uffff\1\50\2\uffff\1\51\5\uffff\1\46\2\uffff"+
			"\1\47",
			"\12\53\7\uffff\3\53\1\60\2\53\1\62\4\uffff\1\57\1\uffff\1\55\1\uffff"+
			"\1\56\2\uffff\1\54\1\uffff\1\61\13\uffff\3\53\1\60\2\53\1\62\4\uffff"+
			"\1\57\1\uffff\1\55\1\uffff\1\56\2\uffff\1\54\1\uffff\1\61",
			"\1\63\1\64\10\uffff\1\65\25\uffff\1\63\1\64\10\uffff\1\65",
			"\1\66\37\uffff\1\66",
			"\12\53\7\uffff\6\53\7\uffff\1\67\11\uffff\1\70\10\uffff\6\53\7\uffff"+
			"\1\67\11\uffff\1\70",
			"\1\72\7\uffff\1\71\4\uffff\1\73\22\uffff\1\72\7\uffff\1\71\4\uffff\1"+
			"\73",
			"\1\76\1\uffff\1\74\2\uffff\1\75\1\uffff\1\77\30\uffff\1\76\1\uffff\1"+
			"\74\2\uffff\1\75\1\uffff\1\77",
			"\1\102\7\uffff\1\100\5\uffff\1\101\21\uffff\1\102\7\uffff\1\100\5\uffff"+
			"\1\101",
			"\12\107\7\uffff\1\105\3\34\1\104\14\34\1\106\1\34\1\110\6\34\4\uffff"+
			"\1\34\1\uffff\1\105\3\34\1\104\14\34\1\106\10\34",
			"\12\53\7\uffff\1\116\3\53\1\112\1\53\2\uffff\1\111\5\uffff\1\114\2\uffff"+
			"\1\113\2\uffff\1\115\13\uffff\1\116\3\53\1\112\1\53\2\uffff\1\111\5\uffff"+
			"\1\114\2\uffff\1\113\2\uffff\1\115",
			"\12\53\7\uffff\1\122\5\53\5\uffff\1\123\2\uffff\1\117\2\uffff\1\120"+
			"\2\uffff\1\121\13\uffff\1\122\5\53\5\uffff\1\123\2\uffff\1\117\2\uffff"+
			"\1\120\2\uffff\1\121",
			"\12\53\7\uffff\1\125\3\53\1\124\1\53\2\uffff\1\127\2\uffff\1\130\2\uffff"+
			"\1\131\11\uffff\1\126\7\uffff\1\125\3\53\1\124\1\53\2\uffff\1\127\2\uffff"+
			"\1\130\2\uffff\1\131\11\uffff\1\126",
			"\1\133\3\uffff\1\140\3\uffff\1\135\5\uffff\1\134\2\uffff\1\132\1\uffff"+
			"\1\136\1\141\3\uffff\1\137\7\uffff\1\133\3\uffff\1\140\3\uffff\1\135"+
			"\5\uffff\1\134\2\uffff\1\132\1\uffff\1\136\1\141\3\uffff\1\137",
			"\1\142\1\144\14\uffff\1\143\21\uffff\1\142\1\144\14\uffff\1\143",
			"\1\146\7\uffff\1\145\27\uffff\1\146\7\uffff\1\145",
			"\1\151\7\uffff\1\147\1\uffff\1\152\1\uffff\1\150\23\uffff\1\151\7\uffff"+
			"\1\147\1\uffff\1\152\1\uffff\1\150",
			"\1\153\11\uffff\1\154\25\uffff\1\153\11\uffff\1\154",
			"\1\155\37\uffff\1\155",
			"\1\160\15\uffff\1\156\5\uffff\1\157\13\uffff\1\160\15\uffff\1\156\5"+
			"\uffff\1\157",
			"\1\161\37\uffff\1\161",
			"",
			"\42\163\1\162\uffdd\163",
			"\1\164\2\uffff\12\165\26\uffff\1\103",
			"\1\171\1\uffff\12\167\7\uffff\3\174\1\172\1\170\1\174\1\uffff\1\103"+
			"\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\173\1\103"+
			"\7\uffff\3\174\1\172\1\170\1\174\1\uffff\1\103\4\uffff\2\103\4\uffff"+
			"\1\103\1\uffff\1\103\1\uffff\1\103\1\173\1\103\73\uffff\1\103",
			"",
			"\1\105\3\uffff\1\104\14\uffff\1\106\16\uffff\1\105\3\uffff\1\104\14"+
			"\uffff\1\106",
			"",
			"\1\171\1\uffff\12\167\7\uffff\3\174\1\172\1\170\1\174\1\uffff\1\103"+
			"\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103"+
			"\7\uffff\3\174\1\172\1\170\1\174\1\uffff\1\103\4\uffff\2\103\4\uffff"+
			"\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"",
			"\1\175\4\uffff\1\164",
			"\1\176\7\uffff\1\177\27\uffff\1\176\7\uffff\1\177",
			"\1\u0080\37\uffff\1\u0080",
			"\1\u0082\15\uffff\1\u0081\11\uffff\1\u0083\7\uffff\1\u0082\15\uffff"+
			"\1\u0081\11\uffff\1\u0083",
			"\1\u0084\37\uffff\1\u0084",
			"\1\u0085\37\uffff\1\u0085",
			"\1\u0086\37\uffff\1\u0086",
			"\1\u0087\37\uffff\1\u0087",
			"\1\u0088\1\uffff\1\u0089\35\uffff\1\u0088\1\uffff\1\u0089",
			"\1\u008a\1\uffff\1\u008b\35\uffff\1\u008a\1\uffff\1\u008b",
			"\1\u008c\37\uffff\1\u008c",
			"\12\u008e\7\uffff\6\u008e\5\uffff\1\u008d\24\uffff\6\u008e\5\uffff\1"+
			"\u008d",
			"\12\u008e\7\uffff\6\u008e\32\uffff\6\u008e",
			"\12\34\7\uffff\2\34\1\u0090\27\34\4\uffff\1\34\1\uffff\2\34\1\u0090"+
			"\27\34",
			"\1\u0091\37\uffff\1\u0091",
			"\1\u0092\37\uffff\1\u0092",
			"\1\u0094\7\uffff\1\u0093\27\uffff\1\u0094\7\uffff\1\u0093",
			"\12\u008e\7\uffff\3\u008e\1\u0095\2\u008e\32\uffff\3\u008e\1\u0095\2"+
			"\u008e",
			"\1\u0096\37\uffff\1\u0096",
			"\1\u0097\37\uffff\1\u0097",
			"\1\u0098\37\uffff\1\u0098",
			"\1\u0099\37\uffff\1\u0099",
			"\1\u009a\37\uffff\1\u009a",
			"\1\u009b\37\uffff\1\u009b",
			"\1\u009c\37\uffff\1\u009c",
			"\1\u009d\3\uffff\1\u009e\33\uffff\1\u009d\3\uffff\1\u009e",
			"\12\34\7\uffff\3\34\1\u00a1\1\u00a3\1\u00a4\2\34\1\u00a5\6\34\1\u00a6"+
			"\2\34\1\u00a0\1\u00a2\6\34\4\uffff\1\34\1\uffff\3\34\1\u00a1\1\u00a3"+
			"\1\u00a4\2\34\1\u00a5\6\34\1\u00a6\2\34\1\u00a0\1\u00a2\6\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u00a9\37\uffff\1\u00a9",
			"\1\u00ab\3\uffff\1\u00aa\33\uffff\1\u00ab\3\uffff\1\u00aa",
			"\1\u00ac\6\uffff\1\u00ad\30\uffff\1\u00ac\6\uffff\1\u00ad",
			"\1\u00ae\37\uffff\1\u00ae",
			"\1\u00b1\1\uffff\1\u00af\5\uffff\1\u00b0\27\uffff\1\u00b1\1\uffff\1"+
			"\u00af\5\uffff\1\u00b0",
			"\1\u00b2\37\uffff\1\u00b2",
			"\1\u00b3\37\uffff\1\u00b3",
			"",
			"\1\u00b4\37\uffff\1\u00b4",
			"\1\u00b5\1\u00b6\36\uffff\1\u00b5\1\u00b6",
			"\1\u00b7\37\uffff\1\u00b7",
			"\12\u00b9\12\uffff\1\u00bb\10\uffff\1\u00ba\11\uffff\1\u00bc\1\uffff"+
			"\1\u00b8",
			"\12\u00bd\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u00be\37\uffff\1\u00be",
			"\12\u008e\7\uffff\2\u008e\1\u00c1\2\u008e\1\u00c2\5\uffff\1\u00bf\6"+
			"\uffff\1\u00c0\15\uffff\2\u008e\1\u00c1\2\u008e\1\u00c2\5\uffff\1\u00bf"+
			"\6\uffff\1\u00c0",
			"\1\u00c3\37\uffff\1\u00c3",
			"\1\u00c4\37\uffff\1\u00c4",
			"\1\u00c5\37\uffff\1\u00c5",
			"\12\u008e\7\uffff\6\u008e\15\uffff\1\u00c6\14\uffff\6\u008e\15\uffff"+
			"\1\u00c6",
			"\1\u00c8\1\u00c9\1\u00ca\6\uffff\1\u00c7\26\uffff\1\u00c8\1\u00c9\1"+
			"\u00ca\6\uffff\1\u00c7",
			"\1\u00cb\37\uffff\1\u00cb",
			"\1\u00cc\37\uffff\1\u00cc",
			"\12\u008e\7\uffff\6\u008e\5\uffff\1\u00ce\6\uffff\1\u00cd\15\uffff\6"+
			"\u008e\5\uffff\1\u00ce\6\uffff\1\u00cd",
			"\1\u00cf\37\uffff\1\u00cf",
			"\12\u008e\7\uffff\6\u008e\1\u00d0\31\uffff\6\u008e\1\u00d0",
			"\12\u008e\7\uffff\6\u008e\15\uffff\1\u00d1\14\uffff\6\u008e\15\uffff"+
			"\1\u00d1",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u00d3\37\uffff\1\u00d3",
			"\1\u00d4\37\uffff\1\u00d4",
			"\1\u00d5\37\uffff\1\u00d5",
			"\1\u00d7\13\uffff\1\u00d6\23\uffff\1\u00d7\13\uffff\1\u00d6",
			"\1\u00d8\37\uffff\1\u00d8",
			"\12\34\7\uffff\12\34\1\u00da\17\34\4\uffff\1\34\1\uffff\12\34\1\u00da"+
			"\17\34",
			"\1\u00db\1\u00dc\36\uffff\1\u00db\1\u00dc",
			"\1\u00dd\37\uffff\1\u00dd",
			"\1\u00de\37\uffff\1\u00de",
			"\1\u00df\37\uffff\1\u00df",
			"\1\u00e0\37\uffff\1\u00e0",
			"\1\u00e2\3\uffff\1\u00e1\33\uffff\1\u00e2\3\uffff\1\u00e1",
			"\1\u00e3\37\uffff\1\u00e3",
			"\1\u00e4\37\uffff\1\u00e4",
			"\1\u00e5\37\uffff\1\u00e5",
			"\1\u00e6\5\uffff\1\u00e7\31\uffff\1\u00e6\5\uffff\1\u00e7",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\3\34\1\u00ea\26\34\4\uffff\1\34\1\uffff\3\34\1\u00ea"+
			"\26\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u00ec\37\uffff\1\u00ec",
			"\1\u00ed\1\uffff\1\u00f0\3\uffff\1\u00ef\1\uffff\1\u00ee\27\uffff\1"+
			"\u00ed\1\uffff\1\u00f0\3\uffff\1\u00ef\1\uffff\1\u00ee",
			"\1\u00f1\37\uffff\1\u00f1",
			"\1\u00f3\15\uffff\1\u00f2\21\uffff\1\u00f3\15\uffff\1\u00f2",
			"\1\u00f6\5\uffff\1\u00f4\1\u00f5\1\u00f7\27\uffff\1\u00f6\5\uffff\1"+
			"\u00f4\1\u00f5\1\u00f7",
			"\1\u00f8\37\uffff\1\u00f8",
			"\1\u00f9\37\uffff\1\u00f9",
			"\1\u00fa\37\uffff\1\u00fa",
			"\1\163",
			"",
			"",
			"\1\171\1\uffff\12\165\12\uffff\1\103\1\171\2\uffff\1\103\4\uffff\2\103"+
			"\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\12\uffff\1\103"+
			"\1\171\2\uffff\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103\1\uffff"+
			"\1\103\1\uffff\1\103\73\uffff\1\103",
			"",
			"\1\171\1\uffff\12\u00fc\7\uffff\3\174\1\u00fe\1\u00fd\1\174\1\uffff"+
			"\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff"+
			"\1\103\7\uffff\3\174\1\u00fe\1\u00fd\1\174\1\uffff\1\103\4\uffff\2\103"+
			"\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"\1\171\1\uffff\1\171\2\uffff\12\u00ff\7\uffff\6\174\32\uffff\6\174",
			"",
			"\12\u0100\7\uffff\6\174\32\uffff\6\174",
			"",
			"",
			"",
			"\1\u0101\37\uffff\1\u0101",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0103\37\uffff\1\u0103",
			"\1\u0104\37\uffff\1\u0104",
			"\1\u0105\37\uffff\1\u0105",
			"\1\u0106\37\uffff\1\u0106",
			"\1\u0107\37\uffff\1\u0107",
			"\1\u0108\37\uffff\1\u0108",
			"\1\u0109\37\uffff\1\u0109",
			"\1\u010a\14\uffff\1\u010b\22\uffff\1\u010a\14\uffff\1\u010b",
			"\1\u010c\37\uffff\1\u010c",
			"\1\u010d\37\uffff\1\u010d",
			"\1\u010e\37\uffff\1\u010e",
			"\1\u010f\37\uffff\1\u010f",
			"\1\u0110\37\uffff\1\u0110",
			"\1\u0111\37\uffff\1\u0111",
			"\12\u0112\7\uffff\6\u0112\32\uffff\6\u0112",
			"",
			"\12\34\7\uffff\10\34\1\u0114\21\34\4\uffff\1\34\1\uffff\10\34\1\u0114"+
			"\21\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0116\37\uffff\1\u0116",
			"\1\u0117\37\uffff\1\u0117",
			"\12\34\7\uffff\16\34\1\u0119\13\34\4\uffff\1\34\1\uffff\16\34\1\u0119"+
			"\13\34",
			"\12\u0112\7\uffff\6\u0112\24\34\4\uffff\1\34\1\uffff\6\u0112\24\34",
			"\1\u011b\37\uffff\1\u011b",
			"\1\u011c\37\uffff\1\u011c",
			"\1\u011d\37\uffff\1\u011d",
			"\1\u011e\37\uffff\1\u011e",
			"\1\u011f\37\uffff\1\u011f",
			"\12\34\7\uffff\22\34\1\u0121\7\34\4\uffff\1\34\1\uffff\22\34\1\u0121"+
			"\7\34",
			"\1\u0122\37\uffff\1\u0122",
			"\1\u0123\37\uffff\1\u0123",
			"\1\u0124\37\uffff\1\u0124",
			"",
			"\1\u0125\37\uffff\1\u0125",
			"\1\u0126\37\uffff\1\u0126",
			"\12\34\7\uffff\16\34\1\u0128\13\34\4\uffff\1\34\1\uffff\16\34\1\u0128"+
			"\13\34",
			"\1\u0129\37\uffff\1\u0129",
			"\1\u012a\37\uffff\1\u012a",
			"\1\u012b\37\uffff\1\u012b",
			"\1\u012c\37\uffff\1\u012c",
			"",
			"",
			"\1\u012d\37\uffff\1\u012d",
			"\1\u012e\37\uffff\1\u012e",
			"\12\34\7\uffff\21\34\1\u0130\10\34\4\uffff\1\34\1\uffff\21\34\1\u0130"+
			"\10\34",
			"\1\u0131\37\uffff\1\u0131",
			"\1\u0132\37\uffff\1\u0132",
			"\1\u0133\37\uffff\1\u0133",
			"\1\u0134\37\uffff\1\u0134",
			"\1\u0135\37\uffff\1\u0135",
			"\1\u0136\37\uffff\1\u0136",
			"\1\u0137\37\uffff\1\u0137",
			"\1\u0138\37\uffff\1\u0138",
			"\12\34\7\uffff\14\34\1\u013a\15\34\4\uffff\1\34\1\uffff\14\34\1\u013a"+
			"\15\34",
			"\1\u013b\37\uffff\1\u013b",
			"\1\u013c\37\uffff\1\u013c",
			"\1\u013d\37\uffff\1\u013d",
			"\12\u013e\7\uffff\23\34\1\110\6\34\4\uffff\1\34\1\uffff\32\34",
			"\12\u013f\12\uffff\1\u00bb\10\uffff\1\u00ba\11\uffff\1\u00bc\1\uffff"+
			"\1\u00b8",
			"\12\u0140\7\uffff\23\34\1\110\6\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\23\34\1\110\6\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\u00bd\16\uffff\1\u0141\4\uffff\1\u0142\5\uffff\1\u0143",
			"\1\u0144\37\uffff\1\u0144",
			"\1\u0145\37\uffff\1\u0145",
			"\1\u0146\37\uffff\1\u0146",
			"\12\u0112\7\uffff\6\u0112\2\uffff\1\u0147\27\uffff\6\u0112\2\uffff\1"+
			"\u0147",
			"\12\u0112\7\uffff\1\u0148\5\u0112\32\uffff\1\u0148\5\u0112",
			"\1\u0149\37\uffff\1\u0149",
			"\1\u014a\37\uffff\1\u014a",
			"\1\u014b\37\uffff\1\u014b",
			"\1\u014c\37\uffff\1\u014c",
			"\1\u014d\37\uffff\1\u014d",
			"\1\u014e\37\uffff\1\u014e",
			"\1\u014f\37\uffff\1\u014f",
			"\1\u0150\37\uffff\1\u0150",
			"\1\u0151\37\uffff\1\u0151",
			"\1\u0152\37\uffff\1\u0152",
			"\1\u0153\37\uffff\1\u0153",
			"\1\u0154\37\uffff\1\u0154",
			"\1\u0155\37\uffff\1\u0155",
			"\1\u0156\37\uffff\1\u0156",
			"\1\u0157\37\uffff\1\u0157",
			"",
			"\1\u0158\37\uffff\1\u0158",
			"\1\u0159\37\uffff\1\u0159",
			"\1\u015a\37\uffff\1\u015a",
			"\1\u015c\10\uffff\1\u015b\26\uffff\1\u015c\10\uffff\1\u015b",
			"\1\u015d\37\uffff\1\u015d",
			"\1\u015e\37\uffff\1\u015e",
			"",
			"\1\u015f\37\uffff\1\u015f",
			"\1\u0160\37\uffff\1\u0160",
			"\1\u0161\37\uffff\1\u0161",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0163\37\uffff\1\u0163",
			"\1\u0164\37\uffff\1\u0164",
			"\1\u0165\37\uffff\1\u0165",
			"\1\u0166\37\uffff\1\u0166",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0168\37\uffff\1\u0168",
			"\1\u0169\37\uffff\1\u0169",
			"\1\u016a\37\uffff\1\u016a",
			"\1\u016b\37\uffff\1\u016b",
			"\1\u016c\5\uffff\1\u016d\31\uffff\1\u016c\5\uffff\1\u016d",
			"",
			"",
			"\1\u016e\37\uffff\1\u016e",
			"",
			"\1\u016f\37\uffff\1\u016f",
			"\1\u0170\37\uffff\1\u0170",
			"\1\u0171\37\uffff\1\u0171",
			"\1\u0172\37\uffff\1\u0172",
			"\1\u0173\37\uffff\1\u0173",
			"\1\u0174\37\uffff\1\u0174",
			"\1\u0175\37\uffff\1\u0175",
			"\1\u0176\37\uffff\1\u0176",
			"\1\u0177\37\uffff\1\u0177",
			"\1\u0178\37\uffff\1\u0178",
			"\1\u0179\37\uffff\1\u0179",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u017b\37\uffff\1\u017b",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u017d\37\uffff\1\u017d",
			"",
			"\1\171\1\uffff\12\u017e\7\uffff\3\174\1\u0180\1\u017f\1\174\1\uffff"+
			"\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff"+
			"\1\103\7\uffff\3\174\1\u0180\1\u017f\1\174\1\uffff\1\103\4\uffff\2\103"+
			"\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"\1\171\1\uffff\1\171\2\uffff\12\u0181\7\uffff\6\174\32\uffff\6\174",
			"\12\u0182\7\uffff\6\174\32\uffff\6\174",
			"\12\u0181\7\uffff\6\174\32\uffff\6\174",
			"\12\u0182\7\uffff\3\174\1\u0183\2\174\1\uffff\1\103\4\uffff\2\103\4"+
			"\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\7\uffff\3\174"+
			"\1\u0183\2\174\1\uffff\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103"+
			"\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"\1\u0184\37\uffff\1\u0184",
			"",
			"\1\u0185\37\uffff\1\u0185",
			"\1\u0186\37\uffff\1\u0186",
			"\1\u0187\37\uffff\1\u0187",
			"\1\u0188\37\uffff\1\u0188",
			"\1\u0189\37\uffff\1\u0189",
			"\1\u018a\37\uffff\1\u018a",
			"\1\u018b\37\uffff\1\u018b",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u018d\37\uffff\1\u018d",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u018f\37\uffff\1\u018f",
			"\1\u0190\37\uffff\1\u0190",
			"\1\u0191\37\uffff\1\u0191",
			"\1\u0192\37\uffff\1\u0192",
			"\1\u0193\37\uffff\1\u0193",
			"\12\u0194\7\uffff\6\u0194\32\uffff\6\u0194",
			"",
			"\1\u0195\37\uffff\1\u0195",
			"",
			"\1\u0196\37\uffff\1\u0196",
			"\1\u0197\37\uffff\1\u0197",
			"",
			"\1\u0198\37\uffff\1\u0198",
			"",
			"\1\u0199\37\uffff\1\u0199",
			"\1\u019a\37\uffff\1\u019a",
			"\1\u019b\37\uffff\1\u019b",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u019d\37\uffff\1\u019d",
			"",
			"\12\34\7\uffff\17\34\1\u019f\12\34\4\uffff\1\34\1\uffff\17\34\1\u019f"+
			"\12\34",
			"\1\u01a0\37\uffff\1\u01a0",
			"\1\u01a1\37\uffff\1\u01a1",
			"\1\u01a2\37\uffff\1\u01a2",
			"\1\u01a3\37\uffff\1\u01a3",
			"\1\u01a4\37\uffff\1\u01a4",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u01a7\37\uffff\1\u01a7",
			"\1\u01a8\37\uffff\1\u01a8",
			"\1\u01a9\37\uffff\1\u01a9",
			"\1\u01aa\37\uffff\1\u01aa",
			"\1\u01ab\37\uffff\1\u01ab",
			"",
			"\12\34\7\uffff\22\34\1\u01ad\7\34\4\uffff\1\34\1\uffff\22\34\1\u01ad"+
			"\7\34",
			"\1\u01ae\37\uffff\1\u01ae",
			"\1\u01af\37\uffff\1\u01af",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u01b1\37\uffff\1\u01b1",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u01b4\37\uffff\1\u01b4",
			"\1\u01b5\37\uffff\1\u01b5",
			"",
			"\1\u01b6\37\uffff\1\u01b6",
			"\1\u01b7\37\uffff\1\u01b7",
			"\1\u01b8\37\uffff\1\u01b8",
			"\1\u01b9\37\uffff\1\u01b9",
			"\12\u013e\12\uffff\1\u00bb\10\uffff\1\u00ba",
			"\12\u01ba\12\uffff\1\u00bb\10\uffff\1\u00ba\11\uffff\1\u00bc\1\uffff"+
			"\1\u00b8",
			"\12\u0140\12\uffff\1\u00bb",
			"\12\u01bb\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\u01bc\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u01bd\37\uffff\1\u01bd",
			"\1\u01be\37\uffff\1\u01be",
			"\12\34\7\uffff\21\34\1\u01c0\10\34\4\uffff\1\34\1\uffff\21\34\1\u01c0"+
			"\10\34",
			"\1\u01c1\37\uffff\1\u01c1",
			"\12\u0194\7\uffff\6\u0194\16\uffff\1\u01c2\13\uffff\6\u0194\16\uffff"+
			"\1\u01c2",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u01c4\37\uffff\1\u01c4",
			"\1\u01c5\37\uffff\1\u01c5",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u01c7\37\uffff\1\u01c7",
			"\1\u01c8\37\uffff\1\u01c8",
			"\1\u01c9\37\uffff\1\u01c9",
			"\1\u01ca\37\uffff\1\u01ca",
			"\1\u01cb\37\uffff\1\u01cb",
			"\1\u01cc\37\uffff\1\u01cc",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u01ce\37\uffff\1\u01ce",
			"\1\u01cf\37\uffff\1\u01cf",
			"\1\u01d0\37\uffff\1\u01d0",
			"\1\u01d1\37\uffff\1\u01d1",
			"\1\u01d2\37\uffff\1\u01d2",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u01d4\37\uffff\1\u01d4",
			"\1\u01d5\37\uffff\1\u01d5",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u01d7\37\uffff\1\u01d7",
			"\1\u01d8\37\uffff\1\u01d8",
			"\1\u01d9\37\uffff\1\u01d9",
			"\12\34\7\uffff\22\34\1\u01db\1\34\1\u01dc\5\34\4\uffff\1\34\1\uffff"+
			"\22\34\1\u01db\1\34\1\u01dc\5\34",
			"\1\u01dd\37\uffff\1\u01dd",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u01e0\37\uffff\1\u01e0",
			"\1\u01e1\37\uffff\1\u01e1",
			"",
			"\1\u01e2\37\uffff\1\u01e2",
			"\1\u01e3\37\uffff\1\u01e3",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u01e5\37\uffff\1\u01e5",
			"\1\u01e6\37\uffff\1\u01e6",
			"\1\u01e7\37\uffff\1\u01e7",
			"\1\u01e8\37\uffff\1\u01e8",
			"\1\u01e9\37\uffff\1\u01e9",
			"\1\u01ea\37\uffff\1\u01ea",
			"\1\u01eb\37\uffff\1\u01eb",
			"\1\u01ec\37\uffff\1\u01ec",
			"\1\u01ed\37\uffff\1\u01ed",
			"\12\34\7\uffff\22\34\1\u01ef\7\34\4\uffff\1\34\1\uffff\22\34\1\u01ef"+
			"\7\34",
			"\1\u01f0\37\uffff\1\u01f0",
			"\1\u01f1\37\uffff\1\u01f1",
			"\1\u01f2\37\uffff\1\u01f2",
			"\1\u01f3\37\uffff\1\u01f3",
			"\1\u01f4\37\uffff\1\u01f4",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\171\1\uffff\12\u01f7\7\uffff\3\174\1\u01f9\1\u01f8\1\174\1\uffff"+
			"\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff"+
			"\1\103\7\uffff\3\174\1\u01f9\1\u01f8\1\174\1\uffff\1\103\4\uffff\2\103"+
			"\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"\1\171\1\uffff\1\171\2\uffff\12\u01fa\7\uffff\6\174\32\uffff\6\174",
			"\12\u01fb\7\uffff\6\174\32\uffff\6\174",
			"\12\u01fa\7\uffff\6\174\32\uffff\6\174",
			"\12\u01fb\7\uffff\3\174\1\u01fc\2\174\1\uffff\1\103\4\uffff\2\103\4"+
			"\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\7\uffff\3\174"+
			"\1\u01fc\2\174\1\uffff\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103"+
			"\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"\12\u01fb\7\uffff\6\174\32\uffff\6\174",
			"\1\u01fd\37\uffff\1\u01fd",
			"\1\u01fe\37\uffff\1\u01fe",
			"\1\u01ff\37\uffff\1\u01ff",
			"\1\u0200\37\uffff\1\u0200",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0202\37\uffff\1\u0202",
			"\1\u0203\37\uffff\1\u0203",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u0205\37\uffff\1\u0205",
			"",
			"\1\u0206\37\uffff\1\u0206",
			"\1\u0207\37\uffff\1\u0207",
			"\1\u0208\37\uffff\1\u0208",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\u020a\7\uffff\6\u020a\32\uffff\6\u020a",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u020f\37\uffff\1\u020f",
			"\1\u0210\37\uffff\1\u0210",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u0212\37\uffff\1\u0212",
			"",
			"\1\u0213\37\uffff\1\u0213",
			"\1\u0214\37\uffff\1\u0214",
			"\1\u0215\37\uffff\1\u0215",
			"\1\u0216\37\uffff\1\u0216",
			"\1\u0217\37\uffff\1\u0217",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"",
			"\1\u0219\37\uffff\1\u0219",
			"\1\u021a\37\uffff\1\u021a",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u021c\37\uffff\1\u021c",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u021f\37\uffff\1\u021f",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0223\37\uffff\1\u0223",
			"\1\u0224\37\uffff\1\u0224",
			"\1\u0225\37\uffff\1\u0225",
			"\1\u0226\37\uffff\1\u0226",
			"\1\u0227\37\uffff\1\u0227",
			"\1\103\2\uffff\12\u0228\12\uffff\1\u00bb\10\uffff\1\u00ba\11\uffff\1"+
			"\u00bc\1\uffff\1\u00b8",
			"\12\u01bb\23\uffff\1\u0142\5\uffff\1\u0143",
			"\12\u01bc\31\uffff\1\u0143",
			"\1\u0229\37\uffff\1\u0229",
			"\1\u022a\37\uffff\1\u022a",
			"",
			"\1\u022b\37\uffff\1\u022b",
			"\1\u022c\37\uffff\1\u022c",
			"\1\u022d\37\uffff\1\u022d",
			"",
			"\1\u022e\37\uffff\1\u022e",
			"\1\u022f\37\uffff\1\u022f",
			"",
			"\12\34\7\uffff\4\34\1\u0231\25\34\4\uffff\1\34\1\uffff\4\34\1\u0231"+
			"\25\34",
			"\1\u0232\37\uffff\1\u0232",
			"\1\u0233\37\uffff\1\u0233",
			"\1\u0234\37\uffff\1\u0234",
			"\1\u0235\37\uffff\1\u0235",
			"\1\u0236\37\uffff\1\u0236",
			"",
			"\1\u0237\37\uffff\1\u0237",
			"\1\u0238\37\uffff\1\u0238",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u023b\37\uffff\1\u023b",
			"",
			"\1\u023c\37\uffff\1\u023c",
			"\1\u023d\37\uffff\1\u023d",
			"",
			"\1\u023e\37\uffff\1\u023e",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u0241\37\uffff\1\u0241",
			"\1\u0242\37\uffff\1\u0242",
			"\1\u0243\37\uffff\1\u0243",
			"",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0245\37\uffff\1\u0245",
			"\1\u0246\37\uffff\1\u0246",
			"\12\34\7\uffff\22\34\1\u0248\7\34\4\uffff\1\34\1\uffff\22\34\1\u0248"+
			"\7\34",
			"",
			"\1\u0249\37\uffff\1\u0249",
			"\1\u024a\37\uffff\1\u024a",
			"\1\u024b\37\uffff\1\u024b",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u024d\37\uffff\1\u024d",
			"\1\u024e\37\uffff\1\u024e",
			"\1\u024f\37\uffff\1\u024f",
			"\1\u0250\37\uffff\1\u0250",
			"\1\u0251\37\uffff\1\u0251",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0255\37\uffff\1\u0255",
			"\1\u0256\37\uffff\1\u0256",
			"\1\u0257\37\uffff\1\u0257",
			"",
			"",
			"\1\171\1\uffff\12\u0258\7\uffff\3\174\1\u025a\1\u0259\1\174\1\uffff"+
			"\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff"+
			"\1\103\7\uffff\3\174\1\u025a\1\u0259\1\174\1\uffff\1\103\4\uffff\2\103"+
			"\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"\1\171\1\uffff\1\171\2\uffff\12\u025b\7\uffff\6\174\32\uffff\6\174",
			"\12\u025c\7\uffff\6\174\32\uffff\6\174",
			"\12\u025b\7\uffff\6\174\32\uffff\6\174",
			"\12\u025c\7\uffff\3\174\1\u025d\2\174\1\uffff\1\103\4\uffff\2\103\4"+
			"\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\7\uffff\3\174"+
			"\1\u025d\2\174\1\uffff\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103"+
			"\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"\12\u025c\7\uffff\6\174\32\uffff\6\174",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0260\37\uffff\1\u0260",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u0262\37\uffff\1\u0262",
			"\1\u0263\37\uffff\1\u0263",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0265\37\uffff\1\u0265",
			"\1\u0266\37\uffff\1\u0266",
			"\1\u0267\37\uffff\1\u0267",
			"",
			"\12\u0268\7\uffff\6\u0268\32\uffff\6\u0268",
			"",
			"",
			"",
			"",
			"\1\u0269\37\uffff\1\u0269",
			"\1\u026a\37\uffff\1\u026a",
			"",
			"\1\u026b\37\uffff\1\u026b",
			"\1\u026c\37\uffff\1\u026c",
			"\1\u026d\37\uffff\1\u026d",
			"\1\u026e\37\uffff\1\u026e",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u0271\37\uffff\1\u0271",
			"\1\u0272\37\uffff\1\u0272",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"",
			"\1\u0274\37\uffff\1\u0274",
			"",
			"",
			"",
			"\1\u0275\37\uffff\1\u0275",
			"\1\u0276\37\uffff\1\u0276",
			"\1\u0277\37\uffff\1\u0277",
			"\1\u0278\37\uffff\1\u0278",
			"\1\u0279\37\uffff\1\u0279",
			"\12\u0228\12\uffff\1\u00bb\10\uffff\1\u00ba\11\uffff\1\u00bc\1\uffff"+
			"\1\u00b8",
			"\1\u027a\37\uffff\1\u027a",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u027c\37\uffff\1\u027c",
			"\1\u027d\37\uffff\1\u027d",
			"\1\u027e\37\uffff\1\u027e",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0280\37\uffff\1\u0280",
			"",
			"\1\u0281\37\uffff\1\u0281",
			"\1\u0282\37\uffff\1\u0282",
			"\1\u0283\37\uffff\1\u0283",
			"\1\u0284\37\uffff\1\u0284",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0288\37\uffff\1\u0288",
			"",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u028a\37\uffff\1\u028a",
			"\1\u028b\37\uffff\1\u028b",
			"\1\u028c\37\uffff\1\u028c",
			"",
			"",
			"\1\u028d\37\uffff\1\u028d",
			"\1\u028e\37\uffff\1\u028e",
			"\1\u028f\37\uffff\1\u028f",
			"",
			"\1\u0290\37\uffff\1\u0290",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0294\37\uffff\1\u0294",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u0296\37\uffff\1\u0296",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u0299\37\uffff\1\u0299",
			"\1\u029a\37\uffff\1\u029a",
			"",
			"",
			"",
			"\1\u029b\37\uffff\1\u029b",
			"\1\u029c\37\uffff\1\u029c",
			"\1\u029d\37\uffff\1\u029d",
			"\1\171\1\uffff\12\u029e\7\uffff\3\174\1\u02a0\1\u029f\1\174\1\uffff"+
			"\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff"+
			"\1\103\7\uffff\3\174\1\u02a0\1\u029f\1\174\1\uffff\1\103\4\uffff\2\103"+
			"\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"\1\171\1\uffff\1\171\2\uffff\12\u02a1\7\uffff\6\174\32\uffff\6\174",
			"\12\u02a2\7\uffff\6\174\32\uffff\6\174",
			"\12\u02a1\7\uffff\6\174\32\uffff\6\174",
			"\12\u02a2\7\uffff\3\174\1\u02a3\2\174\1\uffff\1\103\4\uffff\2\103\4"+
			"\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\7\uffff\3\174"+
			"\1\u02a3\2\174\1\uffff\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103"+
			"\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"\12\u02a2\7\uffff\6\174\32\uffff\6\174",
			"",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u02a5\37\uffff\1\u02a5",
			"\1\u02a6\37\uffff\1\u02a6",
			"",
			"\1\u02a7\37\uffff\1\u02a7",
			"\1\u02a8\37\uffff\1\u02a8",
			"\1\u02a9\37\uffff\1\u02a9",
			"\12\u02aa\7\uffff\6\u02aa\32\uffff\6\u02aa",
			"\1\u02ab\37\uffff\1\u02ab",
			"\1\u02ac\37\uffff\1\u02ac",
			"\1\u02ad\37\uffff\1\u02ad",
			"\1\u02ae\37\uffff\1\u02ae",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"",
			"\1\u02b1\37\uffff\1\u02b1",
			"\1\u02b2\37\uffff\1\u02b2",
			"",
			"\1\u02b3\37\uffff\1\u02b3",
			"\1\u02b4\37\uffff\1\u02b4",
			"\1\u02b5\37\uffff\1\u02b5",
			"\1\u02b6\37\uffff\1\u02b6",
			"\1\u02b7\37\uffff\1\u02b7",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u02b9\37\uffff\1\u02b9",
			"",
			"\1\u02ba\37\uffff\1\u02ba",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u02bd\37\uffff\1\u02bd",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u02bf\37\uffff\1\u02bf",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u02c1\37\uffff\1\u02c1",
			"",
			"",
			"",
			"\1\u02c2\37\uffff\1\u02c2",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u02c4\37\uffff\1\u02c4",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u02c6\37\uffff\1\u02c6",
			"\1\u02c7\37\uffff\1\u02c7",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u02c9\37\uffff\1\u02c9",
			"",
			"",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u02ce\37\uffff\1\u02ce",
			"\1\u02cf\37\uffff\1\u02cf",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\171\1\uffff\12\u02d1\7\uffff\3\174\1\u02d3\1\u02d2\1\174\1\uffff"+
			"\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff"+
			"\1\103\7\uffff\3\174\1\u02d3\1\u02d2\1\174\1\uffff\1\103\4\uffff\2\103"+
			"\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"\1\171\1\uffff\1\171\2\uffff\12\u02d4\7\uffff\6\174\32\uffff\6\174",
			"\12\u02d5\7\uffff\6\174\32\uffff\6\174",
			"\12\u02d4\7\uffff\6\174\32\uffff\6\174",
			"\12\u02d5\7\uffff\3\174\1\u02d6\2\174\1\uffff\1\103\4\uffff\2\103\4"+
			"\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\7\uffff\3\174"+
			"\1\u02d6\2\174\1\uffff\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103"+
			"\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"\12\u02d5\7\uffff\6\174\32\uffff\6\174",
			"",
			"\1\u02d7\37\uffff\1\u02d7",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\22\34\1\u02da\7\34\4\uffff\1\34\1\uffff\22\34\1\u02da"+
			"\7\34",
			"\1\u02db\37\uffff\1\u02db",
			"\1\u02dc\37\uffff\1\u02dc",
			"\1\174",
			"\1\u02dd\37\uffff\1\u02dd",
			"\1\u02de\37\uffff\1\u02de",
			"\1\u02df\37\uffff\1\u02df",
			"\12\34\7\uffff\22\34\1\u02e0\7\34\4\uffff\1\34\1\uffff\22\34\1\u02e0"+
			"\7\34",
			"",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u02e5\37\uffff\1\u02e5",
			"\1\u02e6\37\uffff\1\u02e6",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u02eb\37\uffff\1\u02eb",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u02ed\37\uffff\1\u02ed",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u02ef\37\uffff\1\u02ef",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u02f1\37\uffff\1\u02f1",
			"",
			"",
			"",
			"",
			"\1\u02f2\37\uffff\1\u02f2",
			"\1\u02f3\37\uffff\1\u02f3",
			"",
			"\1\174\1\171\1\uffff\12\165\12\uffff\1\103\1\171\2\uffff\1\103\4\uffff"+
			"\2\103\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\12\uffff"+
			"\1\103\1\171\2\uffff\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103"+
			"\1\uffff\1\103\1\uffff\1\103\73\uffff\1\103",
			"\1\171\1\uffff\1\u02f4\2\uffff\12\171",
			"\1\174",
			"\1\174",
			"\1\174\2\uffff\12\103\12\uffff\1\103\3\uffff\1\103\4\uffff\2\103\4\uffff"+
			"\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff\1\103\12\uffff\1\103\3\uffff"+
			"\1\103\4\uffff\2\103\4\uffff\1\103\1\uffff\1\103\1\uffff\1\103\1\uffff"+
			"\1\103\73\uffff\1\103",
			"\1\174",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"",
			"",
			"",
			"\1\u02fd\37\uffff\1\u02fd",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"",
			"",
			"",
			"\1\u02ff\37\uffff\1\u02ff",
			"",
			"\1\u0300\37\uffff\1\u0300",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u0302\37\uffff\1\u0302",
			"\1\u0303\37\uffff\1\u0303",
			"\1\u0304\37\uffff\1\u0304",
			"\12\u0305\7\uffff\6\174\32\uffff\6\174",
			"",
			"",
			"",
			"",
			"",
			"",
			"",
			"",
			"\12\34\7\uffff\22\34\1\u0307\7\34\4\uffff\1\34\1\uffff\22\34\1\u0307"+
			"\7\34",
			"",
			"\1\u0308\37\uffff\1\u0308",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"\1\u030a\37\uffff\1\u030a",
			"\1\u030b\37\uffff\1\u030b",
			"\1\u030c\37\uffff\1\u030c",
			"\12\u030d\7\uffff\6\174\32\uffff\6\174",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\1\u030f\37\uffff\1\u030f",
			"",
			"\1\u0310\37\uffff\1\u0310",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\u0313\7\uffff\6\174\32\uffff\6\174",
			"",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"\12\34\7\uffff\32\34\4\uffff\1\34\1\uffff\32\34",
			"",
			"",
			"\12\u0315\7\uffff\6\174\32\uffff\6\174",
			"",
			"\1\174"
	};

	static final short[] DFA44_eot = DFA.unpackEncodedString(DFA44_eotS);
	static final short[] DFA44_eof = DFA.unpackEncodedString(DFA44_eofS);
	static final char[] DFA44_min = DFA.unpackEncodedStringToUnsignedChars(DFA44_minS);
	static final char[] DFA44_max = DFA.unpackEncodedStringToUnsignedChars(DFA44_maxS);
	static final short[] DFA44_accept = DFA.unpackEncodedString(DFA44_acceptS);
	static final short[] DFA44_special = DFA.unpackEncodedString(DFA44_specialS);
	static final short[][] DFA44_transition;

	static {
		int numStates = DFA44_transitionS.length;
		DFA44_transition = new short[numStates][];
		for (int i=0; i<numStates; i++) {
			DFA44_transition[i] = DFA.unpackEncodedString(DFA44_transitionS[i]);
		}
	}

	protected class DFA44 extends DFA {

		public DFA44(BaseRecognizer recognizer) {
			this.recognizer = recognizer;
			this.decisionNumber = 44;
			this.eot = DFA44_eot;
			this.eof = DFA44_eof;
			this.min = DFA44_min;
			this.max = DFA44_max;
			this.accept = DFA44_accept;
			this.special = DFA44_special;
			this.transition = DFA44_transition;
		}
		@Override
		public String getDescription() {
			return "1:1: Tokens : ( K_SELECT | K_FROM | K_AS | K_WHERE | K_AND | K_KEY | K_KEYS | K_ENTRIES | K_FULL | K_INSERT | K_UPDATE | K_WITH | K_LIMIT | K_PER | K_PARTITION | K_USING | K_USE | K_DISTINCT | K_COUNT | K_SET | K_BEGIN | K_UNLOGGED | K_BATCH | K_APPLY | K_TRUNCATE | K_DELETE | K_IN | K_CREATE | K_KEYSPACE | K_KEYSPACES | K_COLUMNFAMILY | K_MATERIALIZED | K_VIEW | K_INDEX | K_CUSTOM | K_ON | K_TO | K_DROP | K_PRIMARY | K_INTO | K_VALUES | K_TIMESTAMP | K_TTL | K_CAST | K_ALTER | K_RENAME | K_ADD | K_TYPE | K_COMPACT | K_STORAGE | K_ORDER | K_BY | K_ASC | K_DESC | K_ALLOW | K_FILTERING | K_IF | K_IS | K_CONTAINS | K_GROUP | K_GRANT | K_ALL | K_PERMISSION | K_PERMISSIONS | K_OF | K_REVOKE | K_MODIFY | K_AUTHORIZE | K_DESCRIBE | K_EXECUTE | K_NORECURSIVE | K_MBEAN | K_MBEANS | K_USER | K_USERS | K_ROLE | K_ROLES | K_SUPERUSER | K_NOSUPERUSER | K_PASSWORD | K_LOGIN | K_NOLOGIN | K_OPTIONS | K_CLUSTERING | K_ASCII | K_BIGINT | K_BLOB | K_BOOLEAN | K_COUNTER | K_DECIMAL | K_DOUBLE | K_DURATION | K_FLOAT | K_INET | K_INT | K_SMALLINT | K_TINYINT | K_TEXT | K_UUID | K_VARCHAR | K_VARINT | K_TIMEUUID | K_TOKEN | K_WRITETIME | K_DATE | K_TIME | K_NULL | K_NOT | K_EXISTS | K_MAP | K_LIST | K_NAN | K_INFINITY | K_TUPLE | K_TRIGGER | K_STATIC | K_FROZEN | K_FUNCTION | K_FUNCTIONS | K_AGGREGATE | K_SFUNC | K_STYPE | K_FINALFUNC | K_INITCOND | K_RETURNS | K_CALLED | K_INPUT | K_LANGUAGE | K_OR | K_REPLACE | K_JSON | K_DEFAULT | K_UNSET | K_LIKE | STRING_LITERAL | QUOTED_NAME | EMPTY_QUOTED_NAME | INTEGER | QMARK | FLOAT | BOOLEAN | DURATION | IDENT | HEXNUMBER | UUID | WS | COMMENT | MULTILINE_COMMENT );";
		}
		@Override
		public int specialStateTransition(int s, IntStream _input) throws NoViableAltException {
			IntStream input = _input;
			int _s = s;
			switch ( s ) {
					case 0 : 
						int LA44_23 = input.LA(1);
						s = -1;
						if ( (LA44_23=='\"') ) {s = 114;}
						else if ( ((LA44_23 >= '\u0000' && LA44_23 <= '!')||(LA44_23 >= '#' && LA44_23 <= '\uFFFF')) ) {s = 115;}
						if ( s>=0 ) return s;
						break;
			}
			NoViableAltException nvae =
				new NoViableAltException(getDescription(), 44, _s, input);
			error(nvae);
			throw nvae;
		}
	}

}
/

org.apache.cassandra/ cassandra-all/ 3.11.5/ org/apache/cassandra/cql3/Cql_Lexer.java
