public void pushMode(int m) { if ( LexerATNSimulator.debug ) System.out.println("pushMode "+m); _modeStack.push(_mode); mode(m); }
public void enterRecursionRule(ParserRuleContext localctx, int state, int ruleIndex, int precedence) { setState(state); _precedenceStack.push(precedence); _ctx = localctx; _ctx.start = _input.LT(1); if (_parseListeners != null) { triggerEnterRuleEvent(); // simulates rule entry for left-recursive rules } }
indexStack.push(currentIndex); currentIndex = 0; currentNode = currentNode.getChild(0);
/** reset the parser's state */ public void reset() { if ( getInputStream()!=null ) getInputStream().seek(0); _errHandler.reset(this); _ctx = null; _syntaxErrors = 0; matchedEOF = false; setTrace(false); _precedenceStack.clear(); _precedenceStack.push(0); ATNSimulator interpreter = getInterpreter(); if (interpreter != null) { interpreter.reset(); } }
public void pushMode(int m) { if ( LexerATNSimulator.debug ) System.out.println("pushMode "+m); _modeStack.push(_mode); mode(m); }
public void pushMode(int m) { if ( LexerATNSimulator.debug ) System.out.println("pushMode "+m); _modeStack.push(_mode); mode(m); }
public void pushMode(int m) { if ( LexerATNSimulator.debug ) System.out.println("pushMode "+m); _modeStack.push(_mode); mode(m); }
public void pushMode(int m) { if ( LexerATNSimulator.debug ) System.out.println("pushMode "+m); _modeStack.push(_mode); mode(m); }
public void enterRecursionRule(ParserRuleContext localctx, int state, int ruleIndex, int precedence) { setState(state); _precedenceStack.push(precedence); _ctx = localctx; _ctx.start = _input.LT(1); if (_parseListeners != null) { triggerEnterRuleEvent(); // simulates rule entry for left-recursive rules } }
public void enterRecursionRule(ParserRuleContext localctx, int state, int ruleIndex, int precedence) { setState(state); _precedenceStack.push(precedence); _ctx = localctx; _ctx.start = _input.LT(1); if (_parseListeners != null) { triggerEnterRuleEvent(); // simulates rule entry for left-recursive rules } }
public void enterRecursionRule(ParserRuleContext localctx, int state, int ruleIndex, int precedence) { setState(state); _precedenceStack.push(precedence); _ctx = localctx; _ctx.start = _input.LT(1); if (_parseListeners != null) { triggerEnterRuleEvent(); // simulates rule entry for left-recursive rules } }
public void enterRecursionRule(ParserRuleContext localctx, int state, int ruleIndex, int precedence) { setState(state); _precedenceStack.push(precedence); _ctx = localctx; _ctx.start = _input.LT(1); if (_parseListeners != null) { triggerEnterRuleEvent(); // simulates rule entry for left-recursive rules } }
indexStack.push(currentIndex); currentIndex = 0; currentNode = currentNode.getChild(0);
indexStack.push(currentIndex); currentIndex = 0; currentNode = currentNode.getChild(0);
/** reset the parser's state */ public void reset() { if ( getInputStream()!=null ) getInputStream().seek(0); _errHandler.reset(this); _ctx = null; _syntaxErrors = 0; setTrace(false); _precedenceStack.clear(); _precedenceStack.push(0); ATNSimulator interpreter = getInterpreter(); if (interpreter != null) { interpreter.reset(); } }
/** reset the parser's state */ public void reset() { if ( getInputStream()!=null ) getInputStream().seek(0); _errHandler.reset(this); _ctx = null; _syntaxErrors = 0; matchedEOF = false; setTrace(false); _precedenceStack.clear(); _precedenceStack.push(0); ATNSimulator interpreter = getInterpreter(); if (interpreter != null) { interpreter.reset(); } }
/** reset the parser's state */ public void reset() { if ( getInputStream()!=null ) getInputStream().seek(0); _errHandler.reset(this); _ctx = null; _syntaxErrors = 0; matchedEOF = false; setTrace(false); _precedenceStack.clear(); _precedenceStack.push(0); ATNSimulator interpreter = getInterpreter(); if (interpreter != null) { interpreter.reset(); } }
/** reset the parser's state */ public void reset() { if ( getInputStream()!=null ) getInputStream().seek(0); _errHandler.reset(this); _ctx = null; _syntaxErrors = 0; matchedEOF = false; setTrace(false); _precedenceStack.clear(); _precedenceStack.push(0); ATNSimulator interpreter = getInterpreter(); if (interpreter != null) { interpreter.reset(); } }