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/*
 * Copyright (c) 2012 The ANTLR Project. All rights reserved.
 * Use of this file is governed by the BSD-3-Clause license that
 * can be found in the LICENSE.txt file in the project root.
 */

javaTypeInitMap ::= [
	"int":"0",
	"long":"0",
	"float":"0.0f",
	"double":"0.0",
	"boolean":"false",
	"byte":"0",
	"short":"0",
	"char":"0",
	default:"null" // anything other than a primitive type is an object
]

// args must be , 

ParserFile(file, parser, namedActions, contextSuperClass) ::= <<


package ;


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;


>>

ListenerFile(file, header, namedActions) ::= <<


package ;

import org.antlr.v4.runtime.Token; import org.antlr.v4.runtime.misc.NotNull; import org.antlr.v4.runtime.tree.ParseTreeListener; /** * This interface defines a complete listener for a parse tree produced by * {@link }. */ public interface Listener extends ParseTreeListener { * Enter a parse tree produced by the {@code \} * labeled alternative in {@link #\}. * Enter a parse tree produced by {@link #\}. * @param ctx the parse tree */ void enter(@NotNull .Context ctx); /** * Exit a parse tree produced by the {@code \} * labeled alternative in {@link #\}. * Exit a parse tree produced by {@link #\}. * @param ctx the parse tree */ void exit(@NotNull .Context ctx);}; separator="\n"> } >> BaseListenerFile(file, header, namedActions) ::= << package ;
import org.antlr.v4.runtime.ParserRuleContext; import org.antlr.v4.runtime.Token; import org.antlr.v4.runtime.misc.NotNull; import org.antlr.v4.runtime.tree.ErrorNode; import org.antlr.v4.runtime.tree.TerminalNode; /** * This class provides an empty implementation of {@link Listener}, * which can be extended to create a listener which only needs to handle a subset * of the available methods. */ public class BaseListener implements Listener { The default implementation does nothing.\

*/ @Override public void enter(@NotNull .Context ctx) { \} /** * {@inheritDoc\} * * \

The default implementation does nothing.\

*/ @Override public void exit(@NotNull .Context ctx) { \}}; separator="\n"> /** * {@inheritDoc\} * * \

The default implementation does nothing.\

*/ @Override public void enterEveryRule(@NotNull ParserRuleContext ctx) { } /** * {@inheritDoc\} * * \

The default implementation does nothing.\

*/ @Override public void exitEveryRule(@NotNull ParserRuleContext ctx) { } /** * {@inheritDoc\} * * \

The default implementation does nothing.\

*/ @Override public void visitTerminal(@NotNull TerminalNode node) { } /** * {@inheritDoc\} * * \

The default implementation does nothing.\

*/ @Override public void visitErrorNode(@NotNull ErrorNode node) { } } >> VisitorFile(file, header, namedActions) ::= << package ;
import org.antlr.v4.runtime.Token; import org.antlr.v4.runtime.misc.NotNull; import org.antlr.v4.runtime.tree.ParseTreeVisitor; /** * This interface defines a complete generic visitor for a parse tree produced * by {@link }. * * @param \ The return type of the visit operation. Use {@link Void} for * operations with no return type. */ public interface Visitor\ extends ParseTreeVisitor\ { * Visit a parse tree produced by the {@code \} * labeled alternative in {@link #\}. * Visit a parse tree produced by {@link #\}. * @param ctx the parse tree * @return the visitor result */ Result visit(@NotNull .Context ctx);}; separator="\n"> } >> BaseVisitorFile(file, header, namedActions) ::= << package ;
import org.antlr.v4.runtime.Token; import org.antlr.v4.runtime.misc.NotNull; import org.antlr.v4.runtime.tree.AbstractParseTreeVisitor; /** * This class provides an empty implementation of {@link Visitor}, * which can be extended to create a visitor which only needs to handle a subset * of the available methods. * * @param \ The return type of the visit operation. Use {@link Void} for * operations with no return type. */ public class BaseVisitor\ extends AbstractParseTreeVisitor\ implements Visitor\ { The default implementation returns the result of calling * {@link #visitChildren\} on {@code ctx\}.\

*/ @Override public Result visit(@NotNull .Context ctx) { return visitChildren(ctx); \}}; separator="\n"> } >> fileHeader(grammarFileName, ANTLRVersion) ::= << // Generated from by ANTLR >> Parser(parser, funcs, atn, sempredFuncs, superClass) ::= << >> Parser_(parser, funcs, atn, sempredFuncs, ctor, superClass) ::= << public abstract class extends { public static final int =}; separator=", ", wrap, anchor>; public static final int = }; separator=", ", wrap, anchor>; private static String[] makeRuleNames() { return new String[] { "}; separator=", ", wrap, anchor> }; } public static final String[] ruleNames = makeRuleNames(); @Override public String getGrammarFileName() { return ""; } @Override public String[] getRuleNames() { return ruleNames; } @Override public String getSerializedATN() { return _serializedATN; } @NotNull private FailedPredicateException createFailedPredicateException() { return createFailedPredicateException(null); } @NotNull private FailedPredicateException createFailedPredicateException(@Nullable String predicate) { return createFailedPredicateException(predicate, null); } @NotNull protected FailedPredicateException createFailedPredicateException(@Nullable String predicate, @Nullable String message) { return new FailedPredicateException(this, predicate, message); } public boolean sempred(RuleContext _localctx, int ruleIndex, int predIndex) { switch (ruleIndex) { : return _sempred(()_localctx, predIndex);}; separator="\n"> } return true; } } >> vocabulary(literalNames, symbolicNames) ::= << private static String[] makeLiteralNames() { return new String[] { }; null="null", separator=", ", wrap, anchor> }; } private static final String[] _LITERAL_NAMES = makeLiteralNames(); private static String[] makeSymbolicNames() { return new String[] { }; null="null", separator=", ", wrap, anchor> }; } private static final String[] _SYMBOLIC_NAMES = makeSymbolicNames(); 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 @NotNull public Vocabulary getVocabulary() { return VOCABULARY; } >> dumpActions(recog, argFuncs, actionFuncs, sempredFuncs) ::= << @Override public void action(RuleContext _localctx, int ruleIndex, int actionIndex) { switch (ruleIndex) { : _action(()_localctx, actionIndex); break;}; separator="\n"> } } @Override public boolean sempred(RuleContext _localctx, int ruleIndex, int predIndex) { switch (ruleIndex) { : return _sempred(()_localctx, predIndex);}; separator="\n"> } return true; } >> parser_ctor(p) ::= << public (TokenStream input) { super(input); _interp = new ParserATNSimulator(this,_ATN); } >> /* This generates a private method since the actionIndex is generated, making an * overriding implementation impossible to maintain. */ RuleActionFunction(r, actions) ::= << private void _action( _localctx, int actionIndex) { switch (actionIndex) { : break;}; separator="\n"> } } >> /* This generates a private method since the predIndex is generated, making an * overriding implementation impossible to maintain. */ RuleSempredFunction(r, actions) ::= << private boolean _sempred( _localctx, int predIndex) { switch (predIndex) { : return ;}; separator="\n"> } return true; } >> RuleFunction(currentRule,args,code,locals,ruleCtx,altLabelCtxs,namedActions,finallyAction,postamble,exceptions) ::= << }; separator="\n"> @RuleVersion() }>public final () throws RecognitionException { _localctx = new (_ctx, getState()}>); enterRule(_localctx, , RULE_); try { int _alt; } catch (RecognitionException re) { _localctx.exception = re; _errHandler.reportError(this, re); _errHandler.recover(this, re); } finally { exitRule(); } return _localctx; } >> LeftFactoredRuleFunction(currentRule,args,code,locals,namedActions,finallyAction,postamble) ::= << }>private final () throws RecognitionException { _localctx = new (_ctx, getState()}>); enterLeftFactoredRule(_localctx, , RULE_); try { int _alt; } catch (RecognitionException re) { _localctx.exception = re; _errHandler.reportError(this, re); _errHandler.recover(this, re); } finally { exitRule(); } return _localctx; } >> // This behaves similar to RuleFunction (enterRule is called, and no adjustments // are made to the parse tree), but since it's still a variant no context class // needs to be generated. LeftUnfactoredRuleFunction(currentRule,args,code,locals,namedActions,finallyAction,postamble) ::= << }>private final () throws RecognitionException { _localctx = new (_ctx, getState()}>); enterRule(_localctx, , RULE_); try { int _alt; } catch (RecognitionException re) { _localctx.exception = re; _errHandler.reportError(this, re); _errHandler.recover(this, re); } finally { exitRule(); } return _localctx; } >> LeftRecursiveRuleFunction(currentRule,args,code,locals,ruleCtx,altLabelCtxs, namedActions,finallyAction,postamble) ::= << }; separator="\n"> @RuleVersion() }>public final () throws RecognitionException { return (0}>); } private (int _p}>) throws RecognitionException { ParserRuleContext _parentctx = _ctx; int _parentState = getState(); _localctx = new (_ctx, _parentState}>); _prevctx = _localctx; int _startState = ; enterRecursionRule(_localctx, , RULE_, _p); try { int _alt; } catch (RecognitionException re) { _localctx.exception = re; _errHandler.reportError(this, re); _errHandler.recover(this, re); } finally { unrollRecursionContexts(_parentctx); } return _localctx; } >> CodeBlockForOuterMostAlt(currentOuterMostAltCodeBlock, locals, preamble, ops) ::= << _localctx = new Context(_localctx); enterOuterAlt(_localctx, ); >> CodeBlockForAlt(currentAltCodeBlock, locals, preamble, ops) ::= << { } >> LL1AltBlock(choice, preamble, alts, error) ::= << setState(); _errHandler.sync(this); = _input.LT(1); switch (_input.LA(1)) { break;}; separator="\n"> default: } >> LL1OptionalBlock(choice, alts, error) ::= << setState(); _errHandler.sync(this); switch (_input.LA(1)) { break;}; separator="\n"> default: break; } >> LL1OptionalBlockSingleAlt(choice, expr, alts, preamble, error, followExpr) ::= << setState(); _errHandler.sync(this); if () { } ) ) !> >> LL1StarBlockSingleAlt(choice, loopExpr, alts, preamble, iteration) ::= << setState(); _errHandler.sync(this); while () { setState(); _errHandler.sync(this); } >> LL1PlusBlockSingleAlt(choice, loopExpr, alts, preamble, iteration) ::= << setState(); _errHandler.sync(this); do { setState(); _errHandler.sync(this); } while ( ); >> // LL(*) stuff AltBlock(choice, preamble, alts, error) ::= << setState(); _errHandler.sync(this); = _input.LT(1); switch ( getInterpreter().adaptivePredict(_input,,_ctx) ) { : break;}; separator="\n"> } >> OptionalBlock(choice, alts, error) ::= << setState(); _errHandler.sync(this); switch ( getInterpreter().adaptivePredict(_input,,_ctx) ) { +1: break;}; separator="\n"> } >> StarBlock(choice, alts, sync, iteration) ::= << setState(); _errHandler.sync(this); _alt = getInterpreter().adaptivePredict(_input,,_ctx); while ( _alt!= && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) { if ( _alt==1+1 ) { } setState(); _errHandler.sync(this); _alt = getInterpreter().adaptivePredict(_input,,_ctx); } >> PlusBlock(choice, alts, error) ::= << setState(); _errHandler.sync(this); _alt = 1+1; do { switch (_alt) { +1: break;}; separator="\n"> default: } setState(); _errHandler.sync(this); _alt = getInterpreter().adaptivePredict(_input,,_ctx); } while ( _alt!= && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ); >> Sync(s) ::= "sync();" ThrowNoViableAlt(t) ::= "throw new NoViableAltException(this);" TestSetInline(s) ::= << }; separator=" || "> >> // Java language spec 15.19 - shift operators mask operands rather than overflow to 0... need range test testShiftInRange(shiftAmount) ::= << (() & ~0x3f) == 0 >> // produces smaller bytecode only when bits.ttypes contains more than two items bitsetBitfieldComparison(s, bits) ::= <% (})> && ((1L \<\< ) & ()}; separator=" | ">)) != 0) %> isZero ::= [ "0":true, default:false ] offsetShift(shiftAmount, offset) ::= <% ( - ) %> // produces more efficient bytecode when bits.ttypes contains at most two items bitsetInlineComparison(s, bits) ::= <% ==}; separator=" || "> %> cases(ttypes) ::= << :}; separator="\n"> >> InvokeRule(r, argExprsChunks) ::= << setState(); = }>(,); >> MatchToken(m) ::= << setState(); = }>match(); >> MatchSet(m, expr, capture) ::= "" MatchNotSet(m, expr, capture) ::= "" CommonSetStuff(m, expr, capture, invert) ::= << setState(); = }>_input.LT(1); if ( \<= 0 || !() ) { = }>_errHandler.recoverInline(this); } else { if (_input.LA(1) == Token.EOF) { matchedEOF = true; } _errHandler.reportMatch(this); consume(); } >> Wildcard(w) ::= << setState(); = }>matchWildcard(); >> // ACTION STUFF Action(a, foo, chunks) ::= "" ArgAction(a, chunks) ::= "" SemPred(p, chunks, failChunks) ::= << setState(); if (!()) throw createFailedPredicateException(, , ); >> ExceptionClause(e, catchArg, catchAction) ::= << catch () { } >> // lexer actions are not associated with model objects LexerSkipCommand() ::= "skip();" LexerMoreCommand() ::= "more();" LexerPopModeCommand() ::= "popMode();" LexerTypeCommand(arg, grammar) ::= "_type = ;" LexerChannelCommand(arg, grammar) ::= "_channel = ;" LexerModeCommand(arg, grammar) ::= "_mode = ;" LexerPushModeCommand(arg, grammar) ::= "pushMode();" ActionText(t) ::= "" ActionTemplate(t) ::= "" ArgRef(a) ::= "_localctx." LocalRef(a) ::= "_localctx." RetValueRef(a) ::= "_localctx." QRetValueRef(a) ::= ".." /** How to translate $tokenLabel */ TokenRef(t) ::= "." LabelRef(t) ::= "." ListLabelRef(t) ::= "." SetAttr(s,rhsChunks) ::= ". = ;" TokenLabelType() ::= "" InputSymbolType() ::= "" TokenPropertyRef_text(t) ::= "(.!=null?..getText():null)" TokenPropertyRef_type(t) ::= "(.!=null?..getType():0)" TokenPropertyRef_line(t) ::= "(.!=null?..getLine():0)" TokenPropertyRef_pos(t) ::= "(.!=null?..getCharPositionInLine():0)" TokenPropertyRef_channel(t) ::= "(.!=null?..getChannel():0)" TokenPropertyRef_index(t) ::= "(.!=null?..getTokenIndex():0)" TokenPropertyRef_int(t) ::= "(.!=null?Integer.valueOf(..getText()):0)" RulePropertyRef_start(r) ::= "(.!=null?(..start):null)" RulePropertyRef_stop(r) ::= "(.!=null?(..stop):null)" RulePropertyRef_text(r) ::= "(.!=null?_input.getText(..start,..stop):null)" RulePropertyRef_ctx(r) ::= "." RulePropertyRef_parser(r) ::= "this" ThisRulePropertyRef_start(r) ::= "_localctx.start" ThisRulePropertyRef_stop(r) ::= "_localctx.stop" ThisRulePropertyRef_text(r) ::= "_input.getText(_localctx.start, _input.LT(-1))" ThisRulePropertyRef_ctx(r) ::= "_localctx" ThisRulePropertyRef_parser(r) ::= "this" NonLocalAttrRef(s) ::= "((Context)getInvokingContext())." SetNonLocalAttr(s, rhsChunks) ::= "((Context)getInvokingContext()). = ;" AddToLabelList(a) ::= "..add();" TokenDecl(t) ::= " " TokenTypeDecl(t) ::= "int ;" TokenListDecl(t) ::= "List\ = new ArrayList\()" RuleContextDecl(r) ::= " " RuleContextListDecl(rdecl) ::= "List\<> = new ArrayList\<>()" ContextTokenGetterDecl(t) ::= "public TerminalNode () { return getToken(., 0); }" ContextTokenListGetterDecl(t) ::= "public List\ () { return getTokens(.); }" ContextTokenListIndexedGetterDecl(t) ::= << public TerminalNode (int i) { return getToken(., i); } >> ContextRuleGetterDecl(r) ::= << public () { return getRuleContext(.class,0); } >> ContextRuleListGetterDecl(r) ::= << public List\\> () { return getRuleContexts(.class); } >> ContextRuleListIndexedGetterDecl(r) ::= << public (int i) { return getRuleContext(.class,i); } >> LexerRuleContext() ::= "RuleContext" /** The rule context name is the rule followed by a suffix; e.g., * r becomes rContext. */ RuleContextNameSuffix() ::= "Context" ImplicitTokenLabel(tokenName) ::= "" ImplicitRuleLabel(ruleName) ::= "" ImplicitSetLabel(id) ::= "_tset" ListLabelName(label) ::= "