private ExprContext expr(int _p) { ParserRuleContext _parentctx = Context; int _parentState = State; ExprContext _localctx = new ExprContext(Context, _parentState); ExprContext _prevctx = _localctx; int _startState = 2; EnterRecursionRule(_localctx, 2, RULE_expr, _p); int _la; try { int _alt; EnterOuterAlt(_localctx, 1); { State = 34; ErrorHandler.Sync(this); switch (Interpreter.AdaptivePredict(TokenStream, 2, Context)) { case 1: { _localctx = new UnaryContext(_localctx); Context = _localctx; _prevctx = _localctx; State = 9; ((UnaryContext)_localctx).sign = TokenStream.LT(1); _la = TokenStream.LA(1); if (!(_la == T__2 || _la == T__3)) { ((UnaryContext)_localctx).sign = ErrorHandler.RecoverInline(this); } else { ErrorHandler.ReportMatch(this); Consume(); } State = 10; expr(16); } break; case 2: { _localctx = new ParenthesisContext(_localctx); Context = _localctx; _prevctx = _localctx; State = 11; Match(T__14); State = 12; expr(0); State = 13; Match(T__15); } break; case 3: { _localctx = new FunctionContext(_localctx); Context = _localctx; _prevctx = _localctx; State = 15; ((FunctionContext)_localctx).name = Match(NAME); State = 16; Match(T__14); State = 25; ErrorHandler.Sync(this); _la = TokenStream.LA(1); if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__2) | (1L << T__3) | (1L << T__14) | (1L << STRING) | (1L << CELLREF) | (1L << BOOLEAN) | (1L << NUMBER) | (1L << NAME) | (1L << ERROR))) != 0)) { { State = 17; expr(0); State = 22; ErrorHandler.Sync(this); _la = TokenStream.LA(1); while (_la == T__16) { { { State = 18; Match(T__16); State = 19; expr(0); } } State = 24; ErrorHandler.Sync(this); _la = TokenStream.LA(1); } } } State = 27; Match(T__15); } break; case 4: { _localctx = new StringContext(_localctx); Context = _localctx; _prevctx = _localctx; State = 28; Match(STRING); } break; case 5: { _localctx = new CellRefContext(_localctx); Context = _localctx; _prevctx = _localctx; State = 29; Match(CELLREF); } break; case 6: { _localctx = new BooleanContext(_localctx); Context = _localctx; _prevctx = _localctx; State = 30; Match(BOOLEAN); } break; case 7: { _localctx = new NumberContext(_localctx); Context = _localctx; _prevctx = _localctx; State = 31; Match(NUMBER); } break; case 8: { _localctx = new NameContext(_localctx); Context = _localctx; _prevctx = _localctx; State = 32; Match(NAME); } break; case 9: { _localctx = new ErrorContext(_localctx); Context = _localctx; _prevctx = _localctx; State = 33; Match(ERROR); } break; } Context.Stop = TokenStream.LT(-1); State = 61; ErrorHandler.Sync(this); _alt = Interpreter.AdaptivePredict(TokenStream, 4, Context); while (_alt != 2 && _alt != global::Antlr4.Runtime.Atn.ATN.INVALID_ALT_NUMBER) { if (_alt == 1) { if (ParseListeners != null) { TriggerExitRuleEvent(); } _prevctx = _localctx; { State = 59; ErrorHandler.Sync(this); switch (Interpreter.AdaptivePredict(TokenStream, 3, Context)) { case 1: { _localctx = new RangeContext(new ExprContext(_parentctx, _parentState)); PushNewRecursionContext(_localctx, _startState, RULE_expr); State = 36; if (!(Precpred(Context, 17))) { throw new FailedPredicateException(this, "Precpred(Context, 17)"); } State = 37; Match(T__1); State = 38; expr(18); } break; case 2: { _localctx = new PowContext(new ExprContext(_parentctx, _parentState)); PushNewRecursionContext(_localctx, _startState, RULE_expr); State = 39; if (!(Precpred(Context, 14))) { throw new FailedPredicateException(this, "Precpred(Context, 14)"); } State = 40; Match(T__5); State = 41; expr(15); } break; case 3: { _localctx = new MulDivContext(new ExprContext(_parentctx, _parentState)); PushNewRecursionContext(_localctx, _startState, RULE_expr); State = 42; if (!(Precpred(Context, 13))) { throw new FailedPredicateException(this, "Precpred(Context, 13)"); } State = 43; ((MulDivContext)_localctx).op = TokenStream.LT(1); _la = TokenStream.LA(1); if (!(_la == T__6 || _la == T__7)) { ((MulDivContext)_localctx).op = ErrorHandler.RecoverInline(this); } else { ErrorHandler.ReportMatch(this); Consume(); } State = 44; expr(14); } break; case 4: { _localctx = new AddSubContext(new ExprContext(_parentctx, _parentState)); PushNewRecursionContext(_localctx, _startState, RULE_expr); State = 45; if (!(Precpred(Context, 12))) { throw new FailedPredicateException(this, "Precpred(Context, 12)"); } State = 46; ((AddSubContext)_localctx).op = TokenStream.LT(1); _la = TokenStream.LA(1); if (!(_la == T__2 || _la == T__3)) { ((AddSubContext)_localctx).op = ErrorHandler.RecoverInline(this); } else { ErrorHandler.ReportMatch(this); Consume(); } State = 47; expr(13); } break; case 5: { _localctx = new ConcatenateContext(new ExprContext(_parentctx, _parentState)); PushNewRecursionContext(_localctx, _startState, RULE_expr); State = 48; if (!(Precpred(Context, 11))) { throw new FailedPredicateException(this, "Precpred(Context, 11)"); } State = 49; Match(T__8); State = 50; expr(12); } break; case 6: { _localctx = new EqualityContext(new ExprContext(_parentctx, _parentState)); PushNewRecursionContext(_localctx, _startState, RULE_expr); State = 51; if (!(Precpred(Context, 10))) { throw new FailedPredicateException(this, "Precpred(Context, 10)"); } State = 52; ((EqualityContext)_localctx).op = TokenStream.LT(1); _la = TokenStream.LA(1); if (!(_la == T__0 || _la == T__9)) { ((EqualityContext)_localctx).op = ErrorHandler.RecoverInline(this); } else { ErrorHandler.ReportMatch(this); Consume(); } State = 53; expr(11); } break; case 7: { _localctx = new RelationalContext(new ExprContext(_parentctx, _parentState)); PushNewRecursionContext(_localctx, _startState, RULE_expr); State = 54; if (!(Precpred(Context, 9))) { throw new FailedPredicateException(this, "Precpred(Context, 9)"); } State = 55; ((RelationalContext)_localctx).op = TokenStream.LT(1); _la = TokenStream.LA(1); if (!((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__10) | (1L << T__11) | (1L << T__12) | (1L << T__13))) != 0))) { ((RelationalContext)_localctx).op = ErrorHandler.RecoverInline(this); } else { ErrorHandler.ReportMatch(this); Consume(); } State = 56; expr(10); } break; case 8: { _localctx = new PercentageContext(new ExprContext(_parentctx, _parentState)); PushNewRecursionContext(_localctx, _startState, RULE_expr); State = 57; if (!(Precpred(Context, 15))) { throw new FailedPredicateException(this, "Precpred(Context, 15)"); } State = 58; Match(T__4); } break; } } } State = 63; ErrorHandler.Sync(this); _alt = Interpreter.AdaptivePredict(TokenStream, 4, Context); } } } catch (RecognitionException re) { _localctx.exception = re; ErrorHandler.ReportError(this, re); ErrorHandler.Recover(this, re); } finally { UnrollRecursionContexts(_parentctx); } return(_localctx); }
public TermContext term() { TermContext _localctx = new TermContext(Context, State); EnterRule(_localctx, 12, RULE_term); try { State = 77; switch (TokenStream.La(1)) { case ID: _localctx = new IdentifierContext(_localctx); EnterOuterAlt(_localctx, 1); { State = 70; Match(ID); } break; case T__6: _localctx = new NegationContext(_localctx); EnterOuterAlt(_localctx, 2); { State = 71; Match(T__6); State = 72; term(); } break; case T__7: _localctx = new ParenthesisContext(_localctx); EnterOuterAlt(_localctx, 3); { State = 73; Match(T__7); State = 74; expression(); State = 75; Match(T__8); } break; default: throw new NoViableAltException(this); } } catch (RecognitionException re) { _localctx.exception = re; ErrorHandler.ReportError(this, re); ErrorHandler.Recover(this, re); } finally { ExitRule(); } return _localctx; }