
com.nedap.archie.adlparser.antlr.XPathParser Maven / Gradle / Ivy
// Generated from XPath.g4 by ANTLR 4.5.1
package com.nedap.archie.adlparser.antlr;
import org.antlr.v4.runtime.atn.*;
import org.antlr.v4.runtime.dfa.DFA;
import org.antlr.v4.runtime.*;
import org.antlr.v4.runtime.misc.*;
import org.antlr.v4.runtime.tree.*;
import java.util.List;
import java.util.Iterator;
import java.util.ArrayList;
@SuppressWarnings({"all", "warnings", "unchecked", "unused", "cast"})
public class XPathParser extends Parser {
static { RuntimeMetaData.checkVersion("4.5.1", RuntimeMetaData.VERSION); }
protected static final DFA[] _decisionToDFA;
protected static final PredictionContextCache _sharedContextCache =
new PredictionContextCache();
public static final int
T__0=1, T__1=2, T__2=3, T__3=4, T__4=5, T__5=6, T__6=7, T__7=8, NodeType=9,
Number=10, AxisName=11, Literal=12, Whitespace=13, NCName=14, PATHSEP=15,
ABRPATH=16, LPAR=17, RPAR=18, LBRAC=19, RBRAC=20, MINUS=21, PLUS=22, DOT=23,
MUL=24, DOTDOT=25, AT=26, COMMA=27, PIPE=28, LESS=29, MORE=30, LE=31,
GE=32, COLON=33, CC=34, APOS=35, QUOT=36;
public static final int
RULE_main = 0, RULE_locationPath = 1, RULE_absoluteLocationPathNoroot = 2,
RULE_relativeLocationPath = 3, RULE_step = 4, RULE_axisSpecifier = 5,
RULE_nodeTest = 6, RULE_predicate = 7, RULE_abbreviatedStep = 8, RULE_expr = 9,
RULE_primaryExpr = 10, RULE_functionCall = 11, RULE_unionExprNoRoot = 12,
RULE_pathExprNoRoot = 13, RULE_filterExpr = 14, RULE_orExpr = 15, RULE_andExpr = 16,
RULE_equalityExpr = 17, RULE_relationalExpr = 18, RULE_additiveExpr = 19,
RULE_multiplicativeExpr = 20, RULE_unaryExprNoRoot = 21, RULE_qName = 22,
RULE_functionName = 23, RULE_variableReference = 24, RULE_nameTest = 25,
RULE_nCName = 26;
public static final String[] ruleNames = {
"main", "locationPath", "absoluteLocationPathNoroot", "relativeLocationPath",
"step", "axisSpecifier", "nodeTest", "predicate", "abbreviatedStep", "expr",
"primaryExpr", "functionCall", "unionExprNoRoot", "pathExprNoRoot", "filterExpr",
"orExpr", "andExpr", "equalityExpr", "relationalExpr", "additiveExpr",
"multiplicativeExpr", "unaryExprNoRoot", "qName", "functionName", "variableReference",
"nameTest", "nCName"
};
private static final String[] _LITERAL_NAMES = {
null, "'processing-instruction'", "'or'", "'and'", "'='", "'!='", "'div'",
"'mod'", "'$'", null, null, null, null, null, null, "'/'", "'//'", "'('",
"')'", "'['", "']'", "'-'", "'+'", "'.'", "'*'", "'..'", "'@'", "','",
"'|'", "'<'", "'>'", "'<='", "'>='", "':'", "'::'", "'''", "'\"'"
};
private static final String[] _SYMBOLIC_NAMES = {
null, null, null, null, null, null, null, null, null, "NodeType", "Number",
"AxisName", "Literal", "Whitespace", "NCName", "PATHSEP", "ABRPATH", "LPAR",
"RPAR", "LBRAC", "RBRAC", "MINUS", "PLUS", "DOT", "MUL", "DOTDOT", "AT",
"COMMA", "PIPE", "LESS", "MORE", "LE", "GE", "COLON", "CC", "APOS", "QUOT"
};
public static final Vocabulary VOCABULARY = new VocabularyImpl(_LITERAL_NAMES, _SYMBOLIC_NAMES);
/**
* @deprecated Use {@link #VOCABULARY} instead.
*/
@Deprecated
public static final String[] tokenNames;
static {
tokenNames = new String[_SYMBOLIC_NAMES.length];
for (int i = 0; i < tokenNames.length; i++) {
tokenNames[i] = VOCABULARY.getLiteralName(i);
if (tokenNames[i] == null) {
tokenNames[i] = VOCABULARY.getSymbolicName(i);
}
if (tokenNames[i] == null) {
tokenNames[i] = "";
}
}
}
@Override
@Deprecated
public String[] getTokenNames() {
return tokenNames;
}
@Override
public Vocabulary getVocabulary() {
return VOCABULARY;
}
@Override
public String getGrammarFileName() { return "XPath.g4"; }
@Override
public String[] getRuleNames() { return ruleNames; }
@Override
public String getSerializedATN() { return _serializedATN; }
@Override
public ATN getATN() { return _ATN; }
public XPathParser(TokenStream input) {
super(input);
_interp = new ParserATNSimulator(this,_ATN,_decisionToDFA,_sharedContextCache);
}
public static class MainContext extends ParserRuleContext {
public ExprContext expr() {
return getRuleContext(ExprContext.class,0);
}
public MainContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_main; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterMain(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitMain(this);
}
}
public final MainContext main() throws RecognitionException {
MainContext _localctx = new MainContext(_ctx, getState());
enterRule(_localctx, 0, RULE_main);
try {
enterOuterAlt(_localctx, 1);
{
setState(54);
expr();
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class LocationPathContext extends ParserRuleContext {
public RelativeLocationPathContext relativeLocationPath() {
return getRuleContext(RelativeLocationPathContext.class,0);
}
public AbsoluteLocationPathNorootContext absoluteLocationPathNoroot() {
return getRuleContext(AbsoluteLocationPathNorootContext.class,0);
}
public LocationPathContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_locationPath; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterLocationPath(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitLocationPath(this);
}
}
public final LocationPathContext locationPath() throws RecognitionException {
LocationPathContext _localctx = new LocationPathContext(_ctx, getState());
enterRule(_localctx, 2, RULE_locationPath);
try {
setState(58);
switch (_input.LA(1)) {
case T__0:
case NodeType:
case AxisName:
case NCName:
case DOT:
case MUL:
case DOTDOT:
case AT:
enterOuterAlt(_localctx, 1);
{
setState(56);
relativeLocationPath();
}
break;
case PATHSEP:
case ABRPATH:
enterOuterAlt(_localctx, 2);
{
setState(57);
absoluteLocationPathNoroot();
}
break;
default:
throw new NoViableAltException(this);
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class AbsoluteLocationPathNorootContext extends ParserRuleContext {
public RelativeLocationPathContext relativeLocationPath() {
return getRuleContext(RelativeLocationPathContext.class,0);
}
public AbsoluteLocationPathNorootContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_absoluteLocationPathNoroot; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterAbsoluteLocationPathNoroot(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitAbsoluteLocationPathNoroot(this);
}
}
public final AbsoluteLocationPathNorootContext absoluteLocationPathNoroot() throws RecognitionException {
AbsoluteLocationPathNorootContext _localctx = new AbsoluteLocationPathNorootContext(_ctx, getState());
enterRule(_localctx, 4, RULE_absoluteLocationPathNoroot);
try {
setState(64);
switch (_input.LA(1)) {
case PATHSEP:
enterOuterAlt(_localctx, 1);
{
setState(60);
match(PATHSEP);
setState(61);
relativeLocationPath();
}
break;
case ABRPATH:
enterOuterAlt(_localctx, 2);
{
setState(62);
match(ABRPATH);
setState(63);
relativeLocationPath();
}
break;
default:
throw new NoViableAltException(this);
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class RelativeLocationPathContext extends ParserRuleContext {
public List step() {
return getRuleContexts(StepContext.class);
}
public StepContext step(int i) {
return getRuleContext(StepContext.class,i);
}
public RelativeLocationPathContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_relativeLocationPath; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterRelativeLocationPath(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitRelativeLocationPath(this);
}
}
public final RelativeLocationPathContext relativeLocationPath() throws RecognitionException {
RelativeLocationPathContext _localctx = new RelativeLocationPathContext(_ctx, getState());
enterRule(_localctx, 6, RULE_relativeLocationPath);
int _la;
try {
enterOuterAlt(_localctx, 1);
{
setState(66);
step();
setState(71);
_errHandler.sync(this);
_la = _input.LA(1);
while (_la==PATHSEP || _la==ABRPATH) {
{
{
setState(67);
_la = _input.LA(1);
if ( !(_la==PATHSEP || _la==ABRPATH) ) {
_errHandler.recoverInline(this);
} else {
consume();
}
setState(68);
step();
}
}
setState(73);
_errHandler.sync(this);
_la = _input.LA(1);
}
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class StepContext extends ParserRuleContext {
public AxisSpecifierContext axisSpecifier() {
return getRuleContext(AxisSpecifierContext.class,0);
}
public NodeTestContext nodeTest() {
return getRuleContext(NodeTestContext.class,0);
}
public List predicate() {
return getRuleContexts(PredicateContext.class);
}
public PredicateContext predicate(int i) {
return getRuleContext(PredicateContext.class,i);
}
public AbbreviatedStepContext abbreviatedStep() {
return getRuleContext(AbbreviatedStepContext.class,0);
}
public StepContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_step; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterStep(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitStep(this);
}
}
public final StepContext step() throws RecognitionException {
StepContext _localctx = new StepContext(_ctx, getState());
enterRule(_localctx, 8, RULE_step);
int _la;
try {
setState(83);
switch (_input.LA(1)) {
case T__0:
case NodeType:
case AxisName:
case NCName:
case MUL:
case AT:
enterOuterAlt(_localctx, 1);
{
setState(74);
axisSpecifier();
setState(75);
nodeTest();
setState(79);
_errHandler.sync(this);
_la = _input.LA(1);
while (_la==LBRAC) {
{
{
setState(76);
predicate();
}
}
setState(81);
_errHandler.sync(this);
_la = _input.LA(1);
}
}
break;
case DOT:
case DOTDOT:
enterOuterAlt(_localctx, 2);
{
setState(82);
abbreviatedStep();
}
break;
default:
throw new NoViableAltException(this);
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class AxisSpecifierContext extends ParserRuleContext {
public TerminalNode AxisName() { return getToken(XPathParser.AxisName, 0); }
public AxisSpecifierContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_axisSpecifier; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterAxisSpecifier(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitAxisSpecifier(this);
}
}
public final AxisSpecifierContext axisSpecifier() throws RecognitionException {
AxisSpecifierContext _localctx = new AxisSpecifierContext(_ctx, getState());
enterRule(_localctx, 10, RULE_axisSpecifier);
int _la;
try {
setState(90);
switch ( getInterpreter().adaptivePredict(_input,6,_ctx) ) {
case 1:
enterOuterAlt(_localctx, 1);
{
setState(85);
match(AxisName);
setState(86);
match(CC);
}
break;
case 2:
enterOuterAlt(_localctx, 2);
{
setState(88);
_la = _input.LA(1);
if (_la==AT) {
{
setState(87);
match(AT);
}
}
}
break;
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class NodeTestContext extends ParserRuleContext {
public NameTestContext nameTest() {
return getRuleContext(NameTestContext.class,0);
}
public TerminalNode NodeType() { return getToken(XPathParser.NodeType, 0); }
public TerminalNode Literal() { return getToken(XPathParser.Literal, 0); }
public NodeTestContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_nodeTest; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterNodeTest(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitNodeTest(this);
}
}
public final NodeTestContext nodeTest() throws RecognitionException {
NodeTestContext _localctx = new NodeTestContext(_ctx, getState());
enterRule(_localctx, 12, RULE_nodeTest);
try {
setState(100);
switch (_input.LA(1)) {
case AxisName:
case NCName:
case MUL:
enterOuterAlt(_localctx, 1);
{
setState(92);
nameTest();
}
break;
case NodeType:
enterOuterAlt(_localctx, 2);
{
setState(93);
match(NodeType);
setState(94);
match(LPAR);
setState(95);
match(RPAR);
}
break;
case T__0:
enterOuterAlt(_localctx, 3);
{
setState(96);
match(T__0);
setState(97);
match(LPAR);
setState(98);
match(Literal);
setState(99);
match(RPAR);
}
break;
default:
throw new NoViableAltException(this);
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class PredicateContext extends ParserRuleContext {
public ExprContext expr() {
return getRuleContext(ExprContext.class,0);
}
public PredicateContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_predicate; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterPredicate(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitPredicate(this);
}
}
public final PredicateContext predicate() throws RecognitionException {
PredicateContext _localctx = new PredicateContext(_ctx, getState());
enterRule(_localctx, 14, RULE_predicate);
try {
enterOuterAlt(_localctx, 1);
{
setState(102);
match(LBRAC);
setState(103);
expr();
setState(104);
match(RBRAC);
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class AbbreviatedStepContext extends ParserRuleContext {
public AbbreviatedStepContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_abbreviatedStep; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterAbbreviatedStep(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitAbbreviatedStep(this);
}
}
public final AbbreviatedStepContext abbreviatedStep() throws RecognitionException {
AbbreviatedStepContext _localctx = new AbbreviatedStepContext(_ctx, getState());
enterRule(_localctx, 16, RULE_abbreviatedStep);
int _la;
try {
enterOuterAlt(_localctx, 1);
{
setState(106);
_la = _input.LA(1);
if ( !(_la==DOT || _la==DOTDOT) ) {
_errHandler.recoverInline(this);
} else {
consume();
}
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class ExprContext extends ParserRuleContext {
public OrExprContext orExpr() {
return getRuleContext(OrExprContext.class,0);
}
public ExprContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_expr; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterExpr(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitExpr(this);
}
}
public final ExprContext expr() throws RecognitionException {
ExprContext _localctx = new ExprContext(_ctx, getState());
enterRule(_localctx, 18, RULE_expr);
try {
enterOuterAlt(_localctx, 1);
{
setState(108);
orExpr();
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class PrimaryExprContext extends ParserRuleContext {
public VariableReferenceContext variableReference() {
return getRuleContext(VariableReferenceContext.class,0);
}
public ExprContext expr() {
return getRuleContext(ExprContext.class,0);
}
public TerminalNode Literal() { return getToken(XPathParser.Literal, 0); }
public TerminalNode Number() { return getToken(XPathParser.Number, 0); }
public FunctionCallContext functionCall() {
return getRuleContext(FunctionCallContext.class,0);
}
public PrimaryExprContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_primaryExpr; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterPrimaryExpr(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitPrimaryExpr(this);
}
}
public final PrimaryExprContext primaryExpr() throws RecognitionException {
PrimaryExprContext _localctx = new PrimaryExprContext(_ctx, getState());
enterRule(_localctx, 20, RULE_primaryExpr);
try {
setState(118);
switch (_input.LA(1)) {
case T__7:
enterOuterAlt(_localctx, 1);
{
setState(110);
variableReference();
}
break;
case LPAR:
enterOuterAlt(_localctx, 2);
{
setState(111);
match(LPAR);
setState(112);
expr();
setState(113);
match(RPAR);
}
break;
case Literal:
enterOuterAlt(_localctx, 3);
{
setState(115);
match(Literal);
}
break;
case Number:
enterOuterAlt(_localctx, 4);
{
setState(116);
match(Number);
}
break;
case AxisName:
case NCName:
enterOuterAlt(_localctx, 5);
{
setState(117);
functionCall();
}
break;
default:
throw new NoViableAltException(this);
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class FunctionCallContext extends ParserRuleContext {
public FunctionNameContext functionName() {
return getRuleContext(FunctionNameContext.class,0);
}
public List expr() {
return getRuleContexts(ExprContext.class);
}
public ExprContext expr(int i) {
return getRuleContext(ExprContext.class,i);
}
public FunctionCallContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_functionCall; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterFunctionCall(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitFunctionCall(this);
}
}
public final FunctionCallContext functionCall() throws RecognitionException {
FunctionCallContext _localctx = new FunctionCallContext(_ctx, getState());
enterRule(_localctx, 22, RULE_functionCall);
int _la;
try {
enterOuterAlt(_localctx, 1);
{
setState(120);
functionName();
setState(121);
match(LPAR);
setState(130);
_la = _input.LA(1);
if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__7) | (1L << NodeType) | (1L << Number) | (1L << AxisName) | (1L << Literal) | (1L << NCName) | (1L << PATHSEP) | (1L << ABRPATH) | (1L << LPAR) | (1L << MINUS) | (1L << DOT) | (1L << MUL) | (1L << DOTDOT) | (1L << AT))) != 0)) {
{
setState(122);
expr();
setState(127);
_errHandler.sync(this);
_la = _input.LA(1);
while (_la==COMMA) {
{
{
setState(123);
match(COMMA);
setState(124);
expr();
}
}
setState(129);
_errHandler.sync(this);
_la = _input.LA(1);
}
}
}
setState(132);
match(RPAR);
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class UnionExprNoRootContext extends ParserRuleContext {
public PathExprNoRootContext pathExprNoRoot() {
return getRuleContext(PathExprNoRootContext.class,0);
}
public UnionExprNoRootContext unionExprNoRoot() {
return getRuleContext(UnionExprNoRootContext.class,0);
}
public UnionExprNoRootContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_unionExprNoRoot; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterUnionExprNoRoot(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitUnionExprNoRoot(this);
}
}
public final UnionExprNoRootContext unionExprNoRoot() throws RecognitionException {
UnionExprNoRootContext _localctx = new UnionExprNoRootContext(_ctx, getState());
enterRule(_localctx, 24, RULE_unionExprNoRoot);
int _la;
try {
setState(142);
switch ( getInterpreter().adaptivePredict(_input,12,_ctx) ) {
case 1:
enterOuterAlt(_localctx, 1);
{
setState(134);
pathExprNoRoot();
setState(137);
_la = _input.LA(1);
if (_la==PIPE) {
{
setState(135);
match(PIPE);
setState(136);
unionExprNoRoot();
}
}
}
break;
case 2:
enterOuterAlt(_localctx, 2);
{
setState(139);
match(PATHSEP);
setState(140);
match(PIPE);
setState(141);
unionExprNoRoot();
}
break;
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class PathExprNoRootContext extends ParserRuleContext {
public LocationPathContext locationPath() {
return getRuleContext(LocationPathContext.class,0);
}
public FilterExprContext filterExpr() {
return getRuleContext(FilterExprContext.class,0);
}
public RelativeLocationPathContext relativeLocationPath() {
return getRuleContext(RelativeLocationPathContext.class,0);
}
public PathExprNoRootContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_pathExprNoRoot; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterPathExprNoRoot(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitPathExprNoRoot(this);
}
}
public final PathExprNoRootContext pathExprNoRoot() throws RecognitionException {
PathExprNoRootContext _localctx = new PathExprNoRootContext(_ctx, getState());
enterRule(_localctx, 26, RULE_pathExprNoRoot);
int _la;
try {
setState(150);
switch ( getInterpreter().adaptivePredict(_input,14,_ctx) ) {
case 1:
enterOuterAlt(_localctx, 1);
{
setState(144);
locationPath();
}
break;
case 2:
enterOuterAlt(_localctx, 2);
{
setState(145);
filterExpr();
setState(148);
_la = _input.LA(1);
if (_la==PATHSEP || _la==ABRPATH) {
{
setState(146);
_la = _input.LA(1);
if ( !(_la==PATHSEP || _la==ABRPATH) ) {
_errHandler.recoverInline(this);
} else {
consume();
}
setState(147);
relativeLocationPath();
}
}
}
break;
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class FilterExprContext extends ParserRuleContext {
public PrimaryExprContext primaryExpr() {
return getRuleContext(PrimaryExprContext.class,0);
}
public List predicate() {
return getRuleContexts(PredicateContext.class);
}
public PredicateContext predicate(int i) {
return getRuleContext(PredicateContext.class,i);
}
public FilterExprContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_filterExpr; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterFilterExpr(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitFilterExpr(this);
}
}
public final FilterExprContext filterExpr() throws RecognitionException {
FilterExprContext _localctx = new FilterExprContext(_ctx, getState());
enterRule(_localctx, 28, RULE_filterExpr);
int _la;
try {
enterOuterAlt(_localctx, 1);
{
setState(152);
primaryExpr();
setState(156);
_errHandler.sync(this);
_la = _input.LA(1);
while (_la==LBRAC) {
{
{
setState(153);
predicate();
}
}
setState(158);
_errHandler.sync(this);
_la = _input.LA(1);
}
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class OrExprContext extends ParserRuleContext {
public List andExpr() {
return getRuleContexts(AndExprContext.class);
}
public AndExprContext andExpr(int i) {
return getRuleContext(AndExprContext.class,i);
}
public OrExprContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_orExpr; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterOrExpr(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitOrExpr(this);
}
}
public final OrExprContext orExpr() throws RecognitionException {
OrExprContext _localctx = new OrExprContext(_ctx, getState());
enterRule(_localctx, 30, RULE_orExpr);
int _la;
try {
enterOuterAlt(_localctx, 1);
{
setState(159);
andExpr();
setState(164);
_errHandler.sync(this);
_la = _input.LA(1);
while (_la==T__1) {
{
{
setState(160);
match(T__1);
setState(161);
andExpr();
}
}
setState(166);
_errHandler.sync(this);
_la = _input.LA(1);
}
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class AndExprContext extends ParserRuleContext {
public List equalityExpr() {
return getRuleContexts(EqualityExprContext.class);
}
public EqualityExprContext equalityExpr(int i) {
return getRuleContext(EqualityExprContext.class,i);
}
public AndExprContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_andExpr; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterAndExpr(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitAndExpr(this);
}
}
public final AndExprContext andExpr() throws RecognitionException {
AndExprContext _localctx = new AndExprContext(_ctx, getState());
enterRule(_localctx, 32, RULE_andExpr);
int _la;
try {
int _alt;
enterOuterAlt(_localctx, 1);
{
setState(167);
equalityExpr();
setState(172);
_errHandler.sync(this);
_alt = getInterpreter().adaptivePredict(_input,17,_ctx);
while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
if ( _alt==1 ) {
{
{
setState(168);
_la = _input.LA(1);
if ( !(_la==T__2 || _la==COMMA) ) {
_errHandler.recoverInline(this);
} else {
consume();
}
setState(169);
equalityExpr();
}
}
}
setState(174);
_errHandler.sync(this);
_alt = getInterpreter().adaptivePredict(_input,17,_ctx);
}
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class EqualityExprContext extends ParserRuleContext {
public List relationalExpr() {
return getRuleContexts(RelationalExprContext.class);
}
public RelationalExprContext relationalExpr(int i) {
return getRuleContext(RelationalExprContext.class,i);
}
public EqualityExprContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_equalityExpr; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterEqualityExpr(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitEqualityExpr(this);
}
}
public final EqualityExprContext equalityExpr() throws RecognitionException {
EqualityExprContext _localctx = new EqualityExprContext(_ctx, getState());
enterRule(_localctx, 34, RULE_equalityExpr);
int _la;
try {
enterOuterAlt(_localctx, 1);
{
setState(175);
relationalExpr();
setState(180);
_errHandler.sync(this);
_la = _input.LA(1);
while (_la==T__3 || _la==T__4) {
{
{
setState(176);
_la = _input.LA(1);
if ( !(_la==T__3 || _la==T__4) ) {
_errHandler.recoverInline(this);
} else {
consume();
}
setState(177);
relationalExpr();
}
}
setState(182);
_errHandler.sync(this);
_la = _input.LA(1);
}
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class RelationalExprContext extends ParserRuleContext {
public List additiveExpr() {
return getRuleContexts(AdditiveExprContext.class);
}
public AdditiveExprContext additiveExpr(int i) {
return getRuleContext(AdditiveExprContext.class,i);
}
public RelationalExprContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_relationalExpr; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterRelationalExpr(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitRelationalExpr(this);
}
}
public final RelationalExprContext relationalExpr() throws RecognitionException {
RelationalExprContext _localctx = new RelationalExprContext(_ctx, getState());
enterRule(_localctx, 36, RULE_relationalExpr);
int _la;
try {
enterOuterAlt(_localctx, 1);
{
setState(183);
additiveExpr();
setState(188);
_errHandler.sync(this);
_la = _input.LA(1);
while ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << LESS) | (1L << MORE) | (1L << LE) | (1L << GE))) != 0)) {
{
{
setState(184);
_la = _input.LA(1);
if ( !((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << LESS) | (1L << MORE) | (1L << LE) | (1L << GE))) != 0)) ) {
_errHandler.recoverInline(this);
} else {
consume();
}
setState(185);
additiveExpr();
}
}
setState(190);
_errHandler.sync(this);
_la = _input.LA(1);
}
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class AdditiveExprContext extends ParserRuleContext {
public List multiplicativeExpr() {
return getRuleContexts(MultiplicativeExprContext.class);
}
public MultiplicativeExprContext multiplicativeExpr(int i) {
return getRuleContext(MultiplicativeExprContext.class,i);
}
public AdditiveExprContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_additiveExpr; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterAdditiveExpr(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitAdditiveExpr(this);
}
}
public final AdditiveExprContext additiveExpr() throws RecognitionException {
AdditiveExprContext _localctx = new AdditiveExprContext(_ctx, getState());
enterRule(_localctx, 38, RULE_additiveExpr);
int _la;
try {
enterOuterAlt(_localctx, 1);
{
setState(191);
multiplicativeExpr();
setState(196);
_errHandler.sync(this);
_la = _input.LA(1);
while (_la==MINUS || _la==PLUS) {
{
{
setState(192);
_la = _input.LA(1);
if ( !(_la==MINUS || _la==PLUS) ) {
_errHandler.recoverInline(this);
} else {
consume();
}
setState(193);
multiplicativeExpr();
}
}
setState(198);
_errHandler.sync(this);
_la = _input.LA(1);
}
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class MultiplicativeExprContext extends ParserRuleContext {
public UnaryExprNoRootContext unaryExprNoRoot() {
return getRuleContext(UnaryExprNoRootContext.class,0);
}
public MultiplicativeExprContext multiplicativeExpr() {
return getRuleContext(MultiplicativeExprContext.class,0);
}
public MultiplicativeExprContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_multiplicativeExpr; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterMultiplicativeExpr(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitMultiplicativeExpr(this);
}
}
public final MultiplicativeExprContext multiplicativeExpr() throws RecognitionException {
MultiplicativeExprContext _localctx = new MultiplicativeExprContext(_ctx, getState());
enterRule(_localctx, 40, RULE_multiplicativeExpr);
int _la;
try {
setState(209);
switch ( getInterpreter().adaptivePredict(_input,23,_ctx) ) {
case 1:
enterOuterAlt(_localctx, 1);
{
setState(199);
unaryExprNoRoot();
setState(202);
_la = _input.LA(1);
if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__5) | (1L << T__6) | (1L << MUL))) != 0)) {
{
setState(200);
_la = _input.LA(1);
if ( !((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__5) | (1L << T__6) | (1L << MUL))) != 0)) ) {
_errHandler.recoverInline(this);
} else {
consume();
}
setState(201);
multiplicativeExpr();
}
}
}
break;
case 2:
enterOuterAlt(_localctx, 2);
{
setState(204);
match(PATHSEP);
setState(207);
_la = _input.LA(1);
if (_la==T__5 || _la==T__6) {
{
setState(205);
_la = _input.LA(1);
if ( !(_la==T__5 || _la==T__6) ) {
_errHandler.recoverInline(this);
} else {
consume();
}
setState(206);
multiplicativeExpr();
}
}
}
break;
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class UnaryExprNoRootContext extends ParserRuleContext {
public UnionExprNoRootContext unionExprNoRoot() {
return getRuleContext(UnionExprNoRootContext.class,0);
}
public UnaryExprNoRootContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_unaryExprNoRoot; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterUnaryExprNoRoot(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitUnaryExprNoRoot(this);
}
}
public final UnaryExprNoRootContext unaryExprNoRoot() throws RecognitionException {
UnaryExprNoRootContext _localctx = new UnaryExprNoRootContext(_ctx, getState());
enterRule(_localctx, 42, RULE_unaryExprNoRoot);
int _la;
try {
enterOuterAlt(_localctx, 1);
{
setState(214);
_errHandler.sync(this);
_la = _input.LA(1);
while (_la==MINUS) {
{
{
setState(211);
match(MINUS);
}
}
setState(216);
_errHandler.sync(this);
_la = _input.LA(1);
}
setState(217);
unionExprNoRoot();
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class QNameContext extends ParserRuleContext {
public List nCName() {
return getRuleContexts(NCNameContext.class);
}
public NCNameContext nCName(int i) {
return getRuleContext(NCNameContext.class,i);
}
public QNameContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_qName; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterQName(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitQName(this);
}
}
public final QNameContext qName() throws RecognitionException {
QNameContext _localctx = new QNameContext(_ctx, getState());
enterRule(_localctx, 44, RULE_qName);
int _la;
try {
enterOuterAlt(_localctx, 1);
{
setState(219);
nCName();
setState(222);
_la = _input.LA(1);
if (_la==COLON) {
{
setState(220);
match(COLON);
setState(221);
nCName();
}
}
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class FunctionNameContext extends ParserRuleContext {
public QNameContext qName() {
return getRuleContext(QNameContext.class,0);
}
public FunctionNameContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_functionName; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterFunctionName(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitFunctionName(this);
}
}
public final FunctionNameContext functionName() throws RecognitionException {
FunctionNameContext _localctx = new FunctionNameContext(_ctx, getState());
enterRule(_localctx, 46, RULE_functionName);
try {
enterOuterAlt(_localctx, 1);
{
setState(224);
qName();
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class VariableReferenceContext extends ParserRuleContext {
public QNameContext qName() {
return getRuleContext(QNameContext.class,0);
}
public VariableReferenceContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_variableReference; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterVariableReference(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitVariableReference(this);
}
}
public final VariableReferenceContext variableReference() throws RecognitionException {
VariableReferenceContext _localctx = new VariableReferenceContext(_ctx, getState());
enterRule(_localctx, 48, RULE_variableReference);
try {
enterOuterAlt(_localctx, 1);
{
setState(226);
match(T__7);
setState(227);
qName();
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class NameTestContext extends ParserRuleContext {
public NCNameContext nCName() {
return getRuleContext(NCNameContext.class,0);
}
public QNameContext qName() {
return getRuleContext(QNameContext.class,0);
}
public NameTestContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_nameTest; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterNameTest(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitNameTest(this);
}
}
public final NameTestContext nameTest() throws RecognitionException {
NameTestContext _localctx = new NameTestContext(_ctx, getState());
enterRule(_localctx, 50, RULE_nameTest);
try {
setState(235);
switch ( getInterpreter().adaptivePredict(_input,26,_ctx) ) {
case 1:
enterOuterAlt(_localctx, 1);
{
setState(229);
match(MUL);
}
break;
case 2:
enterOuterAlt(_localctx, 2);
{
setState(230);
nCName();
setState(231);
match(COLON);
setState(232);
match(MUL);
}
break;
case 3:
enterOuterAlt(_localctx, 3);
{
setState(234);
qName();
}
break;
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static class NCNameContext extends ParserRuleContext {
public TerminalNode NCName() { return getToken(XPathParser.NCName, 0); }
public TerminalNode AxisName() { return getToken(XPathParser.AxisName, 0); }
public NCNameContext(ParserRuleContext parent, int invokingState) {
super(parent, invokingState);
}
@Override public int getRuleIndex() { return RULE_nCName; }
@Override
public void enterRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).enterNCName(this);
}
@Override
public void exitRule(ParseTreeListener listener) {
if ( listener instanceof XPathListener ) ((XPathListener)listener).exitNCName(this);
}
}
public final NCNameContext nCName() throws RecognitionException {
NCNameContext _localctx = new NCNameContext(_ctx, getState());
enterRule(_localctx, 52, RULE_nCName);
int _la;
try {
enterOuterAlt(_localctx, 1);
{
setState(237);
_la = _input.LA(1);
if ( !(_la==AxisName || _la==NCName) ) {
_errHandler.recoverInline(this);
} else {
consume();
}
}
}
catch (RecognitionException re) {
_localctx.exception = re;
_errHandler.reportError(this, re);
_errHandler.recover(this, re);
}
finally {
exitRule();
}
return _localctx;
}
public static final String _serializedATN =
"\3\u0430\ud6d1\u8206\uad2d\u4417\uaef1\u8d80\uaadd\3&\u00f2\4\2\t\2\4"+
"\3\t\3\4\4\t\4\4\5\t\5\4\6\t\6\4\7\t\7\4\b\t\b\4\t\t\t\4\n\t\n\4\13\t"+
"\13\4\f\t\f\4\r\t\r\4\16\t\16\4\17\t\17\4\20\t\20\4\21\t\21\4\22\t\22"+
"\4\23\t\23\4\24\t\24\4\25\t\25\4\26\t\26\4\27\t\27\4\30\t\30\4\31\t\31"+
"\4\32\t\32\4\33\t\33\4\34\t\34\3\2\3\2\3\3\3\3\5\3=\n\3\3\4\3\4\3\4\3"+
"\4\5\4C\n\4\3\5\3\5\3\5\7\5H\n\5\f\5\16\5K\13\5\3\6\3\6\3\6\7\6P\n\6\f"+
"\6\16\6S\13\6\3\6\5\6V\n\6\3\7\3\7\3\7\5\7[\n\7\5\7]\n\7\3\b\3\b\3\b\3"+
"\b\3\b\3\b\3\b\3\b\5\bg\n\b\3\t\3\t\3\t\3\t\3\n\3\n\3\13\3\13\3\f\3\f"+
"\3\f\3\f\3\f\3\f\3\f\3\f\5\fy\n\f\3\r\3\r\3\r\3\r\3\r\7\r\u0080\n\r\f"+
"\r\16\r\u0083\13\r\5\r\u0085\n\r\3\r\3\r\3\16\3\16\3\16\5\16\u008c\n\16"+
"\3\16\3\16\3\16\5\16\u0091\n\16\3\17\3\17\3\17\3\17\5\17\u0097\n\17\5"+
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