// Code generated from Plan.g4 by ANTLR 4.13.2. DO NOT EDIT. package planparserv2 // Plan import ( "fmt" "strconv" "sync" "github.com/antlr4-go/antlr/v4" ) // Suppress unused import errors var _ = fmt.Printf var _ = strconv.Itoa var _ = sync.Once{} type PlanParser struct { *antlr.BaseParser } var PlanParserStaticData struct { once sync.Once serializedATN []int32 LiteralNames []string SymbolicNames []string RuleNames []string PredictionContextCache *antlr.PredictionContextCache atn *antlr.ATN decisionToDFA []*antlr.DFA } func planParserInit() { staticData := &PlanParserStaticData staticData.LiteralNames = []string{ "", "'('", "')'", "'['", "','", "']'", "'{'", "'}'", "'<'", "'<='", "'>'", "'>='", "'=='", "'!='", "", "", "", "", "", "", "", "", "'='", "'+'", "'-'", "'*'", "'/'", "'%'", "'**'", "'<<'", "'>>'", "'&'", "'|'", "'^'", "", "", "", "", "'~'", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "'$meta'", } staticData.SymbolicNames = []string{ "", "", "", "", "", "", "LBRACE", "RBRACE", "LT", "LE", "GT", "GE", "EQ", "NE", "LIKE", "EXISTS", "TEXTMATCH", "PHRASEMATCH", "RANDOMSAMPLE", "INTERVAL", "ISO", "MINIMUM_SHOULD_MATCH", "ASSIGN", "ADD", "SUB", "MUL", "DIV", "MOD", "POW", "SHL", "SHR", "BAND", "BOR", "BXOR", "AND", "OR", "ISNULL", "ISNOTNULL", "BNOT", "NOT", "IN", "EmptyArray", "JSONContains", "JSONContainsAll", "JSONContainsAny", "ArrayContains", "ArrayContainsAll", "ArrayContainsAny", "ArrayLength", "STEuqals", "STTouches", "STOverlaps", "STCrosses", "STContains", "STIntersects", "STWithin", "STDWithin", "STIsValid", "BooleanConstant", "IntegerConstant", "FloatingConstant", "Identifier", "Meta", "StringLiteral", "JSONIdentifier", "Whitespace", "Newline", } staticData.RuleNames = []string{ "expr", "textMatchOption", } staticData.PredictionContextCache = antlr.NewPredictionContextCache() staticData.serializedATN = []int32{ 4, 1, 66, 244, 2, 0, 7, 0, 2, 1, 7, 1, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 3, 0, 10, 8, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 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208, 209, 7, 11, 0, 0, 209, 235, 3, 0, 0, 11, 210, 211, 10, 9, 0, 0, 211, 212, 7, 12, 0, 0, 212, 235, 3, 0, 0, 10, 213, 214, 10, 8, 0, 0, 214, 215, 7, 13, 0, 0, 215, 235, 3, 0, 0, 9, 216, 217, 10, 7, 0, 0, 217, 218, 5, 31, 0, 0, 218, 235, 3, 0, 0, 8, 219, 220, 10, 6, 0, 0, 220, 221, 5, 33, 0, 0, 221, 235, 3, 0, 0, 7, 222, 223, 10, 5, 0, 0, 223, 224, 5, 32, 0, 0, 224, 235, 3, 0, 0, 6, 225, 226, 10, 4, 0, 0, 226, 227, 5, 34, 0, 0, 227, 235, 3, 0, 0, 5, 228, 229, 10, 3, 0, 0, 229, 230, 5, 35, 0, 0, 230, 235, 3, 0, 0, 4, 231, 232, 10, 35, 0, 0, 232, 233, 5, 14, 0, 0, 233, 235, 5, 63, 0, 0, 234, 182, 1, 0, 0, 0, 234, 185, 1, 0, 0, 0, 234, 188, 1, 0, 0, 0, 234, 191, 1, 0, 0, 0, 234, 194, 1, 0, 0, 0, 234, 200, 1, 0, 0, 0, 234, 205, 1, 0, 0, 0, 234, 210, 1, 0, 0, 0, 234, 213, 1, 0, 0, 0, 234, 216, 1, 0, 0, 0, 234, 219, 1, 0, 0, 0, 234, 222, 1, 0, 0, 0, 234, 225, 1, 0, 0, 0, 234, 228, 1, 0, 0, 0, 234, 231, 1, 0, 0, 0, 235, 238, 1, 0, 0, 0, 236, 234, 1, 0, 0, 0, 236, 237, 1, 0, 0, 0, 237, 1, 1, 0, 0, 0, 238, 236, 1, 0, 0, 0, 239, 240, 5, 21, 0, 0, 240, 241, 5, 22, 0, 0, 241, 242, 5, 59, 0, 0, 242, 3, 1, 0, 0, 0, 13, 9, 21, 42, 46, 60, 70, 167, 171, 173, 180, 196, 234, 236, } deserializer := antlr.NewATNDeserializer(nil) staticData.atn = deserializer.Deserialize(staticData.serializedATN) atn := staticData.atn staticData.decisionToDFA = make([]*antlr.DFA, len(atn.DecisionToState)) decisionToDFA := staticData.decisionToDFA for index, state := range atn.DecisionToState { decisionToDFA[index] = antlr.NewDFA(state, index) } } // PlanParserInit initializes any static state used to implement PlanParser. By default the // static state used to implement the parser is lazily initialized during the first call to // NewPlanParser(). You can call this function if you wish to initialize the static state ahead // of time. func PlanParserInit() { staticData := &PlanParserStaticData staticData.once.Do(planParserInit) } // NewPlanParser produces a new parser instance for the optional input antlr.TokenStream. func NewPlanParser(input antlr.TokenStream) *PlanParser { PlanParserInit() this := new(PlanParser) this.BaseParser = antlr.NewBaseParser(input) staticData := &PlanParserStaticData this.Interpreter = antlr.NewParserATNSimulator(this, staticData.atn, staticData.decisionToDFA, staticData.PredictionContextCache) this.RuleNames = staticData.RuleNames this.LiteralNames = staticData.LiteralNames this.SymbolicNames = staticData.SymbolicNames this.GrammarFileName = "Plan.g4" return this } // PlanParser tokens. const ( PlanParserEOF = antlr.TokenEOF PlanParserT__0 = 1 PlanParserT__1 = 2 PlanParserT__2 = 3 PlanParserT__3 = 4 PlanParserT__4 = 5 PlanParserLBRACE = 6 PlanParserRBRACE = 7 PlanParserLT = 8 PlanParserLE = 9 PlanParserGT = 10 PlanParserGE = 11 PlanParserEQ = 12 PlanParserNE = 13 PlanParserLIKE = 14 PlanParserEXISTS = 15 PlanParserTEXTMATCH = 16 PlanParserPHRASEMATCH = 17 PlanParserRANDOMSAMPLE = 18 PlanParserINTERVAL = 19 PlanParserISO = 20 PlanParserMINIMUM_SHOULD_MATCH = 21 PlanParserASSIGN = 22 PlanParserADD = 23 PlanParserSUB = 24 PlanParserMUL = 25 PlanParserDIV = 26 PlanParserMOD = 27 PlanParserPOW = 28 PlanParserSHL = 29 PlanParserSHR = 30 PlanParserBAND = 31 PlanParserBOR = 32 PlanParserBXOR = 33 PlanParserAND = 34 PlanParserOR = 35 PlanParserISNULL = 36 PlanParserISNOTNULL = 37 PlanParserBNOT = 38 PlanParserNOT = 39 PlanParserIN = 40 PlanParserEmptyArray = 41 PlanParserJSONContains = 42 PlanParserJSONContainsAll = 43 PlanParserJSONContainsAny = 44 PlanParserArrayContains = 45 PlanParserArrayContainsAll = 46 PlanParserArrayContainsAny = 47 PlanParserArrayLength = 48 PlanParserSTEuqals = 49 PlanParserSTTouches = 50 PlanParserSTOverlaps = 51 PlanParserSTCrosses = 52 PlanParserSTContains = 53 PlanParserSTIntersects = 54 PlanParserSTWithin = 55 PlanParserSTDWithin = 56 PlanParserSTIsValid = 57 PlanParserBooleanConstant = 58 PlanParserIntegerConstant = 59 PlanParserFloatingConstant = 60 PlanParserIdentifier = 61 PlanParserMeta = 62 PlanParserStringLiteral = 63 PlanParserJSONIdentifier = 64 PlanParserWhitespace = 65 PlanParserNewline = 66 ) // PlanParser rules. const ( PlanParserRULE_expr = 0 PlanParserRULE_textMatchOption = 1 ) // IExprContext is an interface to support dynamic dispatch. type IExprContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // IsExprContext differentiates from other interfaces. IsExprContext() } type ExprContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyExprContext() *ExprContext { var p = new(ExprContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = PlanParserRULE_expr return p } func InitEmptyExprContext(p *ExprContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = PlanParserRULE_expr } func (*ExprContext) IsExprContext() {} func NewExprContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ExprContext { var p = new(ExprContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = PlanParserRULE_expr return p } func (s *ExprContext) GetParser() antlr.Parser { return s.parser } func (s *ExprContext) CopyAll(ctx *ExprContext) { s.CopyFrom(&ctx.BaseParserRuleContext) } func (s *ExprContext) GetRuleContext() antlr.RuleContext { return s } func (s *ExprContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } type JSONIdentifierContext struct { ExprContext } func NewJSONIdentifierContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *JSONIdentifierContext { var p = new(JSONIdentifierContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *JSONIdentifierContext) GetRuleContext() antlr.RuleContext { return s } func (s *JSONIdentifierContext) JSONIdentifier() antlr.TerminalNode { return s.GetToken(PlanParserJSONIdentifier, 0) } func (s *JSONIdentifierContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitJSONIdentifier(s) default: return t.VisitChildren(s) } } type RandomSampleContext struct { ExprContext } func NewRandomSampleContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *RandomSampleContext { var p = new(RandomSampleContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *RandomSampleContext) GetRuleContext() antlr.RuleContext { return s } func (s *RandomSampleContext) RANDOMSAMPLE() antlr.TerminalNode { return s.GetToken(PlanParserRANDOMSAMPLE, 0) } func (s *RandomSampleContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *RandomSampleContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitRandomSample(s) default: return t.VisitChildren(s) } } type ParensContext struct { ExprContext } func NewParensContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *ParensContext { var p = new(ParensContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *ParensContext) GetRuleContext() antlr.RuleContext { return s } func (s *ParensContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *ParensContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitParens(s) default: return t.VisitChildren(s) } } type StringContext struct { ExprContext } func NewStringContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *StringContext { var p = new(StringContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *StringContext) GetRuleContext() antlr.RuleContext { return s } func (s *StringContext) StringLiteral() antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, 0) } func (s *StringContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitString(s) default: return t.VisitChildren(s) } } type FloatingContext struct { ExprContext } func NewFloatingContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *FloatingContext { var p = new(FloatingContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *FloatingContext) GetRuleContext() antlr.RuleContext { return s } func (s *FloatingContext) FloatingConstant() antlr.TerminalNode { return s.GetToken(PlanParserFloatingConstant, 0) } func (s *FloatingContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitFloating(s) default: return t.VisitChildren(s) } } type JSONContainsAllContext struct { ExprContext } func NewJSONContainsAllContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *JSONContainsAllContext { var p = new(JSONContainsAllContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *JSONContainsAllContext) GetRuleContext() antlr.RuleContext { return s } func (s *JSONContainsAllContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *JSONContainsAllContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *JSONContainsAllContext) JSONContainsAll() antlr.TerminalNode { return s.GetToken(PlanParserJSONContainsAll, 0) } func (s *JSONContainsAllContext) ArrayContainsAll() antlr.TerminalNode { return s.GetToken(PlanParserArrayContainsAll, 0) } func (s *JSONContainsAllContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitJSONContainsAll(s) default: return t.VisitChildren(s) } } type LogicalOrContext struct { ExprContext } func NewLogicalOrContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *LogicalOrContext { var p = new(LogicalOrContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *LogicalOrContext) GetRuleContext() antlr.RuleContext { return s } func (s *LogicalOrContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *LogicalOrContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *LogicalOrContext) OR() antlr.TerminalNode { return s.GetToken(PlanParserOR, 0) } func (s *LogicalOrContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitLogicalOr(s) default: return t.VisitChildren(s) } } type IsNotNullContext struct { ExprContext } func NewIsNotNullContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *IsNotNullContext { var p = new(IsNotNullContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *IsNotNullContext) GetRuleContext() antlr.RuleContext { return s } func (s *IsNotNullContext) ISNOTNULL() antlr.TerminalNode { return s.GetToken(PlanParserISNOTNULL, 0) } func (s *IsNotNullContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *IsNotNullContext) JSONIdentifier() antlr.TerminalNode { return s.GetToken(PlanParserJSONIdentifier, 0) } func (s *IsNotNullContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitIsNotNull(s) default: return t.VisitChildren(s) } } type MulDivModContext struct { ExprContext op antlr.Token } func NewMulDivModContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *MulDivModContext { var p = new(MulDivModContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *MulDivModContext) GetOp() antlr.Token { return s.op } func (s *MulDivModContext) SetOp(v antlr.Token) { s.op = v } func (s *MulDivModContext) GetRuleContext() antlr.RuleContext { return s } func (s *MulDivModContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *MulDivModContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *MulDivModContext) MUL() antlr.TerminalNode { return s.GetToken(PlanParserMUL, 0) } func (s *MulDivModContext) DIV() antlr.TerminalNode { return s.GetToken(PlanParserDIV, 0) } func (s *MulDivModContext) MOD() antlr.TerminalNode { return s.GetToken(PlanParserMOD, 0) } func (s *MulDivModContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitMulDivMod(s) default: return t.VisitChildren(s) } } type IdentifierContext struct { ExprContext } func NewIdentifierContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *IdentifierContext { var p = new(IdentifierContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *IdentifierContext) GetRuleContext() antlr.RuleContext { return s } func (s *IdentifierContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *IdentifierContext) Meta() antlr.TerminalNode { return s.GetToken(PlanParserMeta, 0) } func (s *IdentifierContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitIdentifier(s) default: return t.VisitChildren(s) } } type STIntersectsContext struct { ExprContext } func NewSTIntersectsContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *STIntersectsContext { var p = new(STIntersectsContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *STIntersectsContext) GetRuleContext() antlr.RuleContext { return s } func (s *STIntersectsContext) STIntersects() antlr.TerminalNode { return s.GetToken(PlanParserSTIntersects, 0) } func (s *STIntersectsContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *STIntersectsContext) StringLiteral() antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, 0) } func (s *STIntersectsContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitSTIntersects(s) default: return t.VisitChildren(s) } } type LikeContext struct { ExprContext } func NewLikeContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *LikeContext { var p = new(LikeContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *LikeContext) GetRuleContext() antlr.RuleContext { return s } func (s *LikeContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *LikeContext) LIKE() antlr.TerminalNode { return s.GetToken(PlanParserLIKE, 0) } func (s *LikeContext) StringLiteral() antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, 0) } func (s *LikeContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitLike(s) default: return t.VisitChildren(s) } } type LogicalAndContext struct { ExprContext } func NewLogicalAndContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *LogicalAndContext { var p = new(LogicalAndContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *LogicalAndContext) GetRuleContext() antlr.RuleContext { return s } func (s *LogicalAndContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *LogicalAndContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *LogicalAndContext) AND() antlr.TerminalNode { return s.GetToken(PlanParserAND, 0) } func (s *LogicalAndContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitLogicalAnd(s) default: return t.VisitChildren(s) } } type TemplateVariableContext struct { ExprContext } func NewTemplateVariableContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *TemplateVariableContext { var p = new(TemplateVariableContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *TemplateVariableContext) GetRuleContext() antlr.RuleContext { return s } func (s *TemplateVariableContext) LBRACE() antlr.TerminalNode { return s.GetToken(PlanParserLBRACE, 0) } func (s *TemplateVariableContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *TemplateVariableContext) RBRACE() antlr.TerminalNode { return s.GetToken(PlanParserRBRACE, 0) } func (s *TemplateVariableContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitTemplateVariable(s) default: return t.VisitChildren(s) } } type EqualityContext struct { ExprContext op antlr.Token } func NewEqualityContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *EqualityContext { var p = new(EqualityContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *EqualityContext) GetOp() antlr.Token { return s.op } func (s *EqualityContext) SetOp(v antlr.Token) { s.op = v } func (s *EqualityContext) GetRuleContext() antlr.RuleContext { return s } func (s *EqualityContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *EqualityContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *EqualityContext) EQ() antlr.TerminalNode { return s.GetToken(PlanParserEQ, 0) } func (s *EqualityContext) NE() antlr.TerminalNode { return s.GetToken(PlanParserNE, 0) } func (s *EqualityContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitEquality(s) default: return t.VisitChildren(s) } } type BooleanContext struct { ExprContext } func NewBooleanContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *BooleanContext { var p = new(BooleanContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *BooleanContext) GetRuleContext() antlr.RuleContext { return s } func (s *BooleanContext) BooleanConstant() antlr.TerminalNode { return s.GetToken(PlanParserBooleanConstant, 0) } func (s *BooleanContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitBoolean(s) default: return t.VisitChildren(s) } } type TimestamptzCompareReverseContext struct { ExprContext compare_string antlr.Token op2 antlr.Token op1 antlr.Token interval_string antlr.Token } func NewTimestamptzCompareReverseContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *TimestamptzCompareReverseContext { var p = new(TimestamptzCompareReverseContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *TimestamptzCompareReverseContext) GetCompare_string() antlr.Token { return s.compare_string } func (s *TimestamptzCompareReverseContext) GetOp2() antlr.Token { return s.op2 } func (s *TimestamptzCompareReverseContext) GetOp1() antlr.Token { return s.op1 } func (s *TimestamptzCompareReverseContext) GetInterval_string() antlr.Token { return s.interval_string } func (s *TimestamptzCompareReverseContext) SetCompare_string(v antlr.Token) { s.compare_string = v } func (s *TimestamptzCompareReverseContext) SetOp2(v antlr.Token) { s.op2 = v } func (s *TimestamptzCompareReverseContext) SetOp1(v antlr.Token) { s.op1 = v } func (s *TimestamptzCompareReverseContext) SetInterval_string(v antlr.Token) { s.interval_string = v } func (s *TimestamptzCompareReverseContext) GetRuleContext() antlr.RuleContext { return s } func (s *TimestamptzCompareReverseContext) ISO() antlr.TerminalNode { return s.GetToken(PlanParserISO, 0) } func (s *TimestamptzCompareReverseContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *TimestamptzCompareReverseContext) AllStringLiteral() []antlr.TerminalNode { return s.GetTokens(PlanParserStringLiteral) } func (s *TimestamptzCompareReverseContext) StringLiteral(i int) antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, i) } func (s *TimestamptzCompareReverseContext) LT() antlr.TerminalNode { return s.GetToken(PlanParserLT, 0) } func (s *TimestamptzCompareReverseContext) LE() antlr.TerminalNode { return s.GetToken(PlanParserLE, 0) } func (s *TimestamptzCompareReverseContext) GT() antlr.TerminalNode { return s.GetToken(PlanParserGT, 0) } func (s *TimestamptzCompareReverseContext) GE() antlr.TerminalNode { return s.GetToken(PlanParserGE, 0) } func (s *TimestamptzCompareReverseContext) EQ() antlr.TerminalNode { return s.GetToken(PlanParserEQ, 0) } func (s *TimestamptzCompareReverseContext) NE() antlr.TerminalNode { return s.GetToken(PlanParserNE, 0) } func (s *TimestamptzCompareReverseContext) INTERVAL() antlr.TerminalNode { return s.GetToken(PlanParserINTERVAL, 0) } func (s *TimestamptzCompareReverseContext) ADD() antlr.TerminalNode { return s.GetToken(PlanParserADD, 0) } func (s *TimestamptzCompareReverseContext) SUB() antlr.TerminalNode { return s.GetToken(PlanParserSUB, 0) } func (s *TimestamptzCompareReverseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitTimestamptzCompareReverse(s) default: return t.VisitChildren(s) } } type STDWithinContext struct { ExprContext } func NewSTDWithinContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *STDWithinContext { var p = new(STDWithinContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *STDWithinContext) GetRuleContext() antlr.RuleContext { return s } func (s *STDWithinContext) STDWithin() antlr.TerminalNode { return s.GetToken(PlanParserSTDWithin, 0) } func (s *STDWithinContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *STDWithinContext) StringLiteral() antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, 0) } func (s *STDWithinContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *STDWithinContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitSTDWithin(s) default: return t.VisitChildren(s) } } type ShiftContext struct { ExprContext op antlr.Token } func NewShiftContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *ShiftContext { var p = new(ShiftContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *ShiftContext) GetOp() antlr.Token { return s.op } func (s *ShiftContext) SetOp(v antlr.Token) { s.op = v } func (s *ShiftContext) GetRuleContext() antlr.RuleContext { return s } func (s *ShiftContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *ShiftContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *ShiftContext) SHL() antlr.TerminalNode { return s.GetToken(PlanParserSHL, 0) } func (s *ShiftContext) SHR() antlr.TerminalNode { return s.GetToken(PlanParserSHR, 0) } func (s *ShiftContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitShift(s) default: return t.VisitChildren(s) } } type TimestamptzCompareForwardContext struct { ExprContext op1 antlr.Token interval_string antlr.Token op2 antlr.Token compare_string antlr.Token } func NewTimestamptzCompareForwardContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *TimestamptzCompareForwardContext { var p = new(TimestamptzCompareForwardContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *TimestamptzCompareForwardContext) GetOp1() antlr.Token { return s.op1 } func (s *TimestamptzCompareForwardContext) GetInterval_string() antlr.Token { return s.interval_string } func (s *TimestamptzCompareForwardContext) GetOp2() antlr.Token { return s.op2 } func (s *TimestamptzCompareForwardContext) GetCompare_string() antlr.Token { return s.compare_string } func (s *TimestamptzCompareForwardContext) SetOp1(v antlr.Token) { s.op1 = v } func (s *TimestamptzCompareForwardContext) SetInterval_string(v antlr.Token) { s.interval_string = v } func (s *TimestamptzCompareForwardContext) SetOp2(v antlr.Token) { s.op2 = v } func (s *TimestamptzCompareForwardContext) SetCompare_string(v antlr.Token) { s.compare_string = v } func (s *TimestamptzCompareForwardContext) GetRuleContext() antlr.RuleContext { return s } func (s *TimestamptzCompareForwardContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *TimestamptzCompareForwardContext) ISO() antlr.TerminalNode { return s.GetToken(PlanParserISO, 0) } func (s *TimestamptzCompareForwardContext) AllStringLiteral() []antlr.TerminalNode { return s.GetTokens(PlanParserStringLiteral) } func (s *TimestamptzCompareForwardContext) StringLiteral(i int) antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, i) } func (s *TimestamptzCompareForwardContext) LT() antlr.TerminalNode { return s.GetToken(PlanParserLT, 0) } func (s *TimestamptzCompareForwardContext) LE() antlr.TerminalNode { return s.GetToken(PlanParserLE, 0) } func (s *TimestamptzCompareForwardContext) GT() antlr.TerminalNode { return s.GetToken(PlanParserGT, 0) } func (s *TimestamptzCompareForwardContext) GE() antlr.TerminalNode { return s.GetToken(PlanParserGE, 0) } func (s *TimestamptzCompareForwardContext) EQ() antlr.TerminalNode { return s.GetToken(PlanParserEQ, 0) } func (s *TimestamptzCompareForwardContext) NE() antlr.TerminalNode { return s.GetToken(PlanParserNE, 0) } func (s *TimestamptzCompareForwardContext) INTERVAL() antlr.TerminalNode { return s.GetToken(PlanParserINTERVAL, 0) } func (s *TimestamptzCompareForwardContext) ADD() antlr.TerminalNode { return s.GetToken(PlanParserADD, 0) } func (s *TimestamptzCompareForwardContext) SUB() antlr.TerminalNode { return s.GetToken(PlanParserSUB, 0) } func (s *TimestamptzCompareForwardContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitTimestamptzCompareForward(s) default: return t.VisitChildren(s) } } type CallContext struct { ExprContext } func NewCallContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *CallContext { var p = new(CallContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *CallContext) GetRuleContext() antlr.RuleContext { return s } func (s *CallContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *CallContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *CallContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *CallContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitCall(s) default: return t.VisitChildren(s) } } type STCrossesContext struct { ExprContext } func NewSTCrossesContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *STCrossesContext { var p = new(STCrossesContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *STCrossesContext) GetRuleContext() antlr.RuleContext { return s } func (s *STCrossesContext) STCrosses() antlr.TerminalNode { return s.GetToken(PlanParserSTCrosses, 0) } func (s *STCrossesContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *STCrossesContext) StringLiteral() antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, 0) } func (s *STCrossesContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitSTCrosses(s) default: return t.VisitChildren(s) } } type ReverseRangeContext struct { ExprContext op1 antlr.Token op2 antlr.Token } func NewReverseRangeContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *ReverseRangeContext { var p = new(ReverseRangeContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *ReverseRangeContext) GetOp1() antlr.Token { return s.op1 } func (s *ReverseRangeContext) GetOp2() antlr.Token { return s.op2 } func (s *ReverseRangeContext) SetOp1(v antlr.Token) { s.op1 = v } func (s *ReverseRangeContext) SetOp2(v antlr.Token) { s.op2 = v } func (s *ReverseRangeContext) GetRuleContext() antlr.RuleContext { return s } func (s *ReverseRangeContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *ReverseRangeContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *ReverseRangeContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *ReverseRangeContext) JSONIdentifier() antlr.TerminalNode { return s.GetToken(PlanParserJSONIdentifier, 0) } func (s *ReverseRangeContext) AllGT() []antlr.TerminalNode { return s.GetTokens(PlanParserGT) } func (s *ReverseRangeContext) GT(i int) antlr.TerminalNode { return s.GetToken(PlanParserGT, i) } func (s *ReverseRangeContext) AllGE() []antlr.TerminalNode { return s.GetTokens(PlanParserGE) } func (s *ReverseRangeContext) GE(i int) antlr.TerminalNode { return s.GetToken(PlanParserGE, i) } func (s *ReverseRangeContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitReverseRange(s) default: return t.VisitChildren(s) } } type BitOrContext struct { ExprContext } func NewBitOrContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *BitOrContext { var p = new(BitOrContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *BitOrContext) GetRuleContext() antlr.RuleContext { return s } func (s *BitOrContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *BitOrContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *BitOrContext) BOR() antlr.TerminalNode { return s.GetToken(PlanParserBOR, 0) } func (s *BitOrContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitBitOr(s) default: return t.VisitChildren(s) } } type EmptyArrayContext struct { ExprContext } func NewEmptyArrayContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *EmptyArrayContext { var p = new(EmptyArrayContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *EmptyArrayContext) GetRuleContext() antlr.RuleContext { return s } func (s *EmptyArrayContext) EmptyArray() antlr.TerminalNode { return s.GetToken(PlanParserEmptyArray, 0) } func (s *EmptyArrayContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitEmptyArray(s) default: return t.VisitChildren(s) } } type AddSubContext struct { ExprContext op antlr.Token } func NewAddSubContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *AddSubContext { var p = new(AddSubContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *AddSubContext) GetOp() antlr.Token { return s.op } func (s *AddSubContext) SetOp(v antlr.Token) { s.op = v } func (s *AddSubContext) GetRuleContext() antlr.RuleContext { return s } func (s *AddSubContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *AddSubContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *AddSubContext) ADD() antlr.TerminalNode { return s.GetToken(PlanParserADD, 0) } func (s *AddSubContext) SUB() antlr.TerminalNode { return s.GetToken(PlanParserSUB, 0) } func (s *AddSubContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitAddSub(s) default: return t.VisitChildren(s) } } type PhraseMatchContext struct { ExprContext } func NewPhraseMatchContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *PhraseMatchContext { var p = new(PhraseMatchContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *PhraseMatchContext) GetRuleContext() antlr.RuleContext { return s } func (s *PhraseMatchContext) PHRASEMATCH() antlr.TerminalNode { return s.GetToken(PlanParserPHRASEMATCH, 0) } func (s *PhraseMatchContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *PhraseMatchContext) StringLiteral() antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, 0) } func (s *PhraseMatchContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *PhraseMatchContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitPhraseMatch(s) default: return t.VisitChildren(s) } } type RelationalContext struct { ExprContext op antlr.Token } func NewRelationalContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *RelationalContext { var p = new(RelationalContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *RelationalContext) GetOp() antlr.Token { return s.op } func (s *RelationalContext) SetOp(v antlr.Token) { s.op = v } func (s *RelationalContext) GetRuleContext() antlr.RuleContext { return s } func (s *RelationalContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *RelationalContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *RelationalContext) LT() antlr.TerminalNode { return s.GetToken(PlanParserLT, 0) } func (s *RelationalContext) LE() antlr.TerminalNode { return s.GetToken(PlanParserLE, 0) } func (s *RelationalContext) GT() antlr.TerminalNode { return s.GetToken(PlanParserGT, 0) } func (s *RelationalContext) GE() antlr.TerminalNode { return s.GetToken(PlanParserGE, 0) } func (s *RelationalContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitRelational(s) default: return t.VisitChildren(s) } } type ArrayLengthContext struct { ExprContext } func NewArrayLengthContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *ArrayLengthContext { var p = new(ArrayLengthContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *ArrayLengthContext) GetRuleContext() antlr.RuleContext { return s } func (s *ArrayLengthContext) ArrayLength() antlr.TerminalNode { return s.GetToken(PlanParserArrayLength, 0) } func (s *ArrayLengthContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *ArrayLengthContext) JSONIdentifier() antlr.TerminalNode { return s.GetToken(PlanParserJSONIdentifier, 0) } func (s *ArrayLengthContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitArrayLength(s) default: return t.VisitChildren(s) } } type TextMatchContext struct { ExprContext } func NewTextMatchContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *TextMatchContext { var p = new(TextMatchContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *TextMatchContext) GetRuleContext() antlr.RuleContext { return s } func (s *TextMatchContext) TEXTMATCH() antlr.TerminalNode { return s.GetToken(PlanParserTEXTMATCH, 0) } func (s *TextMatchContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *TextMatchContext) StringLiteral() antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, 0) } func (s *TextMatchContext) TextMatchOption() ITextMatchOptionContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITextMatchOptionContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITextMatchOptionContext) } func (s *TextMatchContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitTextMatch(s) default: return t.VisitChildren(s) } } type STTouchesContext struct { ExprContext } func NewSTTouchesContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *STTouchesContext { var p = new(STTouchesContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *STTouchesContext) GetRuleContext() antlr.RuleContext { return s } func (s *STTouchesContext) STTouches() antlr.TerminalNode { return s.GetToken(PlanParserSTTouches, 0) } func (s *STTouchesContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *STTouchesContext) StringLiteral() antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, 0) } func (s *STTouchesContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitSTTouches(s) default: return t.VisitChildren(s) } } type STContainsContext struct { ExprContext } func NewSTContainsContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *STContainsContext { var p = new(STContainsContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *STContainsContext) GetRuleContext() antlr.RuleContext { return s } func (s *STContainsContext) STContains() antlr.TerminalNode { return s.GetToken(PlanParserSTContains, 0) } func (s *STContainsContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *STContainsContext) StringLiteral() antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, 0) } func (s *STContainsContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitSTContains(s) default: return t.VisitChildren(s) } } type TermContext struct { ExprContext op antlr.Token } func NewTermContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *TermContext { var p = new(TermContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *TermContext) GetOp() antlr.Token { return s.op } func (s *TermContext) SetOp(v antlr.Token) { s.op = v } func (s *TermContext) GetRuleContext() antlr.RuleContext { return s } func (s *TermContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *TermContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *TermContext) IN() antlr.TerminalNode { return s.GetToken(PlanParserIN, 0) } func (s *TermContext) NOT() antlr.TerminalNode { return s.GetToken(PlanParserNOT, 0) } func (s *TermContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitTerm(s) default: return t.VisitChildren(s) } } type JSONContainsContext struct { ExprContext } func NewJSONContainsContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *JSONContainsContext { var p = new(JSONContainsContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *JSONContainsContext) GetRuleContext() antlr.RuleContext { return s } func (s *JSONContainsContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *JSONContainsContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *JSONContainsContext) JSONContains() antlr.TerminalNode { return s.GetToken(PlanParserJSONContains, 0) } func (s *JSONContainsContext) ArrayContains() antlr.TerminalNode { return s.GetToken(PlanParserArrayContains, 0) } func (s *JSONContainsContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitJSONContains(s) default: return t.VisitChildren(s) } } type STWithinContext struct { ExprContext } func NewSTWithinContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *STWithinContext { var p = new(STWithinContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *STWithinContext) GetRuleContext() antlr.RuleContext { return s } func (s *STWithinContext) STWithin() antlr.TerminalNode { return s.GetToken(PlanParserSTWithin, 0) } func (s *STWithinContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *STWithinContext) StringLiteral() antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, 0) } func (s *STWithinContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitSTWithin(s) default: return t.VisitChildren(s) } } type RangeContext struct { ExprContext op1 antlr.Token op2 antlr.Token } func NewRangeContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *RangeContext { var p = new(RangeContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *RangeContext) GetOp1() antlr.Token { return s.op1 } func (s *RangeContext) GetOp2() antlr.Token { return s.op2 } func (s *RangeContext) SetOp1(v antlr.Token) { s.op1 = v } func (s *RangeContext) SetOp2(v antlr.Token) { s.op2 = v } func (s *RangeContext) GetRuleContext() antlr.RuleContext { return s } func (s *RangeContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *RangeContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *RangeContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *RangeContext) JSONIdentifier() antlr.TerminalNode { return s.GetToken(PlanParserJSONIdentifier, 0) } func (s *RangeContext) AllLT() []antlr.TerminalNode { return s.GetTokens(PlanParserLT) } func (s *RangeContext) LT(i int) antlr.TerminalNode { return s.GetToken(PlanParserLT, i) } func (s *RangeContext) AllLE() []antlr.TerminalNode { return s.GetTokens(PlanParserLE) } func (s *RangeContext) LE(i int) antlr.TerminalNode { return s.GetToken(PlanParserLE, i) } func (s *RangeContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitRange(s) default: return t.VisitChildren(s) } } type UnaryContext struct { ExprContext op antlr.Token } func NewUnaryContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *UnaryContext { var p = new(UnaryContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *UnaryContext) GetOp() antlr.Token { return s.op } func (s *UnaryContext) SetOp(v antlr.Token) { s.op = v } func (s *UnaryContext) GetRuleContext() antlr.RuleContext { return s } func (s *UnaryContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *UnaryContext) ADD() antlr.TerminalNode { return s.GetToken(PlanParserADD, 0) } func (s *UnaryContext) SUB() antlr.TerminalNode { return s.GetToken(PlanParserSUB, 0) } func (s *UnaryContext) BNOT() antlr.TerminalNode { return s.GetToken(PlanParserBNOT, 0) } func (s *UnaryContext) NOT() antlr.TerminalNode { return s.GetToken(PlanParserNOT, 0) } func (s *UnaryContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitUnary(s) default: return t.VisitChildren(s) } } type IntegerContext struct { ExprContext } func NewIntegerContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *IntegerContext { var p = new(IntegerContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *IntegerContext) GetRuleContext() antlr.RuleContext { return s } func (s *IntegerContext) IntegerConstant() antlr.TerminalNode { return s.GetToken(PlanParserIntegerConstant, 0) } func (s *IntegerContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitInteger(s) default: return t.VisitChildren(s) } } type ArrayContext struct { ExprContext } func NewArrayContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *ArrayContext { var p = new(ArrayContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *ArrayContext) GetRuleContext() antlr.RuleContext { return s } func (s *ArrayContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *ArrayContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *ArrayContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitArray(s) default: return t.VisitChildren(s) } } type JSONContainsAnyContext struct { ExprContext } func NewJSONContainsAnyContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *JSONContainsAnyContext { var p = new(JSONContainsAnyContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *JSONContainsAnyContext) GetRuleContext() antlr.RuleContext { return s } func (s *JSONContainsAnyContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *JSONContainsAnyContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *JSONContainsAnyContext) JSONContainsAny() antlr.TerminalNode { return s.GetToken(PlanParserJSONContainsAny, 0) } func (s *JSONContainsAnyContext) ArrayContainsAny() antlr.TerminalNode { return s.GetToken(PlanParserArrayContainsAny, 0) } func (s *JSONContainsAnyContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitJSONContainsAny(s) default: return t.VisitChildren(s) } } type STIsValidContext struct { ExprContext } func NewSTIsValidContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *STIsValidContext { var p = new(STIsValidContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *STIsValidContext) GetRuleContext() antlr.RuleContext { return s } func (s *STIsValidContext) STIsValid() antlr.TerminalNode { return s.GetToken(PlanParserSTIsValid, 0) } func (s *STIsValidContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *STIsValidContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitSTIsValid(s) default: return t.VisitChildren(s) } } type BitXorContext struct { ExprContext } func NewBitXorContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *BitXorContext { var p = new(BitXorContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *BitXorContext) GetRuleContext() antlr.RuleContext { return s } func (s *BitXorContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *BitXorContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *BitXorContext) BXOR() antlr.TerminalNode { return s.GetToken(PlanParserBXOR, 0) } func (s *BitXorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitBitXor(s) default: return t.VisitChildren(s) } } type ExistsContext struct { ExprContext } func NewExistsContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *ExistsContext { var p = new(ExistsContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *ExistsContext) GetRuleContext() antlr.RuleContext { return s } func (s *ExistsContext) EXISTS() antlr.TerminalNode { return s.GetToken(PlanParserEXISTS, 0) } func (s *ExistsContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *ExistsContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitExists(s) default: return t.VisitChildren(s) } } type BitAndContext struct { ExprContext } func NewBitAndContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *BitAndContext { var p = new(BitAndContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *BitAndContext) GetRuleContext() antlr.RuleContext { return s } func (s *BitAndContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *BitAndContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *BitAndContext) BAND() antlr.TerminalNode { return s.GetToken(PlanParserBAND, 0) } func (s *BitAndContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitBitAnd(s) default: return t.VisitChildren(s) } } type STEuqalsContext struct { ExprContext } func NewSTEuqalsContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *STEuqalsContext { var p = new(STEuqalsContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *STEuqalsContext) GetRuleContext() antlr.RuleContext { return s } func (s *STEuqalsContext) STEuqals() antlr.TerminalNode { return s.GetToken(PlanParserSTEuqals, 0) } func (s *STEuqalsContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *STEuqalsContext) StringLiteral() antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, 0) } func (s *STEuqalsContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitSTEuqals(s) default: return t.VisitChildren(s) } } type IsNullContext struct { ExprContext } func NewIsNullContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *IsNullContext { var p = new(IsNullContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *IsNullContext) GetRuleContext() antlr.RuleContext { return s } func (s *IsNullContext) ISNULL() antlr.TerminalNode { return s.GetToken(PlanParserISNULL, 0) } func (s *IsNullContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *IsNullContext) JSONIdentifier() antlr.TerminalNode { return s.GetToken(PlanParserJSONIdentifier, 0) } func (s *IsNullContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitIsNull(s) default: return t.VisitChildren(s) } } type PowerContext struct { ExprContext } func NewPowerContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *PowerContext { var p = new(PowerContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *PowerContext) GetRuleContext() antlr.RuleContext { return s } func (s *PowerContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *PowerContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *PowerContext) POW() antlr.TerminalNode { return s.GetToken(PlanParserPOW, 0) } func (s *PowerContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitPower(s) default: return t.VisitChildren(s) } } type STOverlapsContext struct { ExprContext } func NewSTOverlapsContext(parser antlr.Parser, ctx antlr.ParserRuleContext) *STOverlapsContext { var p = new(STOverlapsContext) InitEmptyExprContext(&p.ExprContext) p.parser = parser p.CopyAll(ctx.(*ExprContext)) return p } func (s *STOverlapsContext) GetRuleContext() antlr.RuleContext { return s } func (s *STOverlapsContext) STOverlaps() antlr.TerminalNode { return s.GetToken(PlanParserSTOverlaps, 0) } func (s *STOverlapsContext) Identifier() antlr.TerminalNode { return s.GetToken(PlanParserIdentifier, 0) } func (s *STOverlapsContext) StringLiteral() antlr.TerminalNode { return s.GetToken(PlanParserStringLiteral, 0) } func (s *STOverlapsContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitSTOverlaps(s) default: return t.VisitChildren(s) } } func (p *PlanParser) Expr() (localctx IExprContext) { return p.expr(0) } func (p *PlanParser) expr(_p int) (localctx IExprContext) { var _parentctx antlr.ParserRuleContext = p.GetParserRuleContext() _parentState := p.GetState() localctx = NewExprContext(p, p.GetParserRuleContext(), _parentState) var _prevctx IExprContext = localctx var _ antlr.ParserRuleContext = _prevctx // TODO: To prevent unused variable warning. _startState := 0 p.EnterRecursionRule(localctx, 0, PlanParserRULE_expr, _p) var _la int var _alt int p.EnterOuterAlt(localctx, 1) p.SetState(180) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 9, p.GetParserRuleContext()) { case 1: localctx = NewTimestamptzCompareForwardContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(5) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(9) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == PlanParserADD || _la == PlanParserSUB { { p.SetState(6) var _lt = p.GetTokenStream().LT(1) localctx.(*TimestamptzCompareForwardContext).op1 = _lt _la = p.GetTokenStream().LA(1) if !(_la == PlanParserADD || _la == PlanParserSUB) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*TimestamptzCompareForwardContext).op1 = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(7) p.Match(PlanParserINTERVAL) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(8) var _m = p.Match(PlanParserStringLiteral) localctx.(*TimestamptzCompareForwardContext).interval_string = _m if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(11) var _lt = p.GetTokenStream().LT(1) localctx.(*TimestamptzCompareForwardContext).op2 = _lt _la = p.GetTokenStream().LA(1) if !((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&16128) != 0) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*TimestamptzCompareForwardContext).op2 = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(12) p.Match(PlanParserISO) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(13) var _m = p.Match(PlanParserStringLiteral) localctx.(*TimestamptzCompareForwardContext).compare_string = _m if p.HasError() { // Recognition error - abort rule goto errorExit } } case 2: localctx = NewTimestamptzCompareReverseContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(14) p.Match(PlanParserISO) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(15) var _m = p.Match(PlanParserStringLiteral) localctx.(*TimestamptzCompareReverseContext).compare_string = _m if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(16) var _lt = p.GetTokenStream().LT(1) localctx.(*TimestamptzCompareReverseContext).op2 = _lt _la = p.GetTokenStream().LA(1) if !((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&16128) != 0) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*TimestamptzCompareReverseContext).op2 = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(17) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(21) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 1, p.GetParserRuleContext()) == 1 { { p.SetState(18) var _lt = p.GetTokenStream().LT(1) localctx.(*TimestamptzCompareReverseContext).op1 = _lt _la = p.GetTokenStream().LA(1) if !(_la == PlanParserADD || _la == PlanParserSUB) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*TimestamptzCompareReverseContext).op1 = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(19) p.Match(PlanParserINTERVAL) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(20) var _m = p.Match(PlanParserStringLiteral) localctx.(*TimestamptzCompareReverseContext).interval_string = _m if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } case 3: localctx = NewIntegerContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(23) p.Match(PlanParserIntegerConstant) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 4: localctx = NewFloatingContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(24) p.Match(PlanParserFloatingConstant) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 5: localctx = NewBooleanContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(25) p.Match(PlanParserBooleanConstant) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 6: localctx = NewStringContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(26) p.Match(PlanParserStringLiteral) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 7: localctx = NewIdentifierContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(27) _la = p.GetTokenStream().LA(1) if !(_la == PlanParserIdentifier || _la == PlanParserMeta) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } case 8: localctx = NewJSONIdentifierContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(28) p.Match(PlanParserJSONIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 9: localctx = NewTemplateVariableContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(29) p.Match(PlanParserLBRACE) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(30) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(31) p.Match(PlanParserRBRACE) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 10: localctx = NewParensContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(32) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(33) p.expr(0) } { p.SetState(34) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 11: localctx = NewArrayContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(36) p.Match(PlanParserT__2) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(37) p.expr(0) } p.SetState(42) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 2, p.GetParserRuleContext()) if p.HasError() { goto errorExit } for _alt != 2 && _alt != antlr.ATNInvalidAltNumber { if _alt == 1 { { p.SetState(38) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(39) p.expr(0) } } p.SetState(44) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 2, p.GetParserRuleContext()) if p.HasError() { goto errorExit } } p.SetState(46) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == PlanParserT__3 { { p.SetState(45) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(48) p.Match(PlanParserT__4) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 12: localctx = NewEmptyArrayContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(50) p.Match(PlanParserEmptyArray) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 13: localctx = NewExistsContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(51) p.Match(PlanParserEXISTS) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(52) p.expr(36) } case 14: localctx = NewTextMatchContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(53) p.Match(PlanParserTEXTMATCH) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(54) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(55) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(56) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(57) p.Match(PlanParserStringLiteral) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(60) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == PlanParserT__3 { { p.SetState(58) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(59) p.TextMatchOption() } } { p.SetState(62) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 15: localctx = NewPhraseMatchContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(63) p.Match(PlanParserPHRASEMATCH) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(64) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(65) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(66) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(67) p.Match(PlanParserStringLiteral) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(70) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == PlanParserT__3 { { p.SetState(68) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(69) p.expr(0) } } { p.SetState(72) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 16: localctx = NewRandomSampleContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(73) p.Match(PlanParserRANDOMSAMPLE) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(74) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(75) p.expr(0) } { p.SetState(76) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 17: localctx = NewUnaryContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(78) var _lt = p.GetTokenStream().LT(1) localctx.(*UnaryContext).op = _lt _la = p.GetTokenStream().LA(1) if !((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&824658886656) != 0) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*UnaryContext).op = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(79) p.expr(30) } case 18: localctx = NewJSONContainsContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(80) _la = p.GetTokenStream().LA(1) if !(_la == PlanParserJSONContains || _la == PlanParserArrayContains) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(81) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(82) p.expr(0) } { p.SetState(83) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(84) p.expr(0) } { p.SetState(85) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 19: localctx = NewJSONContainsAllContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(87) _la = p.GetTokenStream().LA(1) if !(_la == PlanParserJSONContainsAll || _la == PlanParserArrayContainsAll) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(88) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(89) p.expr(0) } { p.SetState(90) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(91) p.expr(0) } { p.SetState(92) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 20: localctx = NewJSONContainsAnyContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(94) _la = p.GetTokenStream().LA(1) if !(_la == PlanParserJSONContainsAny || _la == PlanParserArrayContainsAny) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(95) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(96) p.expr(0) } { p.SetState(97) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(98) p.expr(0) } { p.SetState(99) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 21: localctx = NewSTEuqalsContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(101) p.Match(PlanParserSTEuqals) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(102) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(103) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(104) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(105) p.Match(PlanParserStringLiteral) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(106) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 22: localctx = NewSTTouchesContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(107) p.Match(PlanParserSTTouches) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(108) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(109) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(110) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(111) p.Match(PlanParserStringLiteral) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(112) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 23: localctx = NewSTOverlapsContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(113) p.Match(PlanParserSTOverlaps) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(114) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(115) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(116) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(117) p.Match(PlanParserStringLiteral) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(118) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 24: localctx = NewSTCrossesContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(119) p.Match(PlanParserSTCrosses) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(120) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(121) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(122) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(123) p.Match(PlanParserStringLiteral) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(124) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 25: localctx = NewSTContainsContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(125) p.Match(PlanParserSTContains) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(126) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(127) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(128) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(129) p.Match(PlanParserStringLiteral) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(130) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 26: localctx = NewSTIntersectsContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(131) p.Match(PlanParserSTIntersects) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(132) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(133) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(134) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(135) p.Match(PlanParserStringLiteral) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(136) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 27: localctx = NewSTWithinContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(137) p.Match(PlanParserSTWithin) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(138) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(139) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(140) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(141) p.Match(PlanParserStringLiteral) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(142) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 28: localctx = NewSTDWithinContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(143) p.Match(PlanParserSTDWithin) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(144) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(145) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(146) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(147) p.Match(PlanParserStringLiteral) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(148) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(149) p.expr(0) } { p.SetState(150) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 29: localctx = NewSTIsValidContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(152) p.Match(PlanParserSTIsValid) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(153) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(154) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(155) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 30: localctx = NewArrayLengthContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(156) p.Match(PlanParserArrayLength) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(157) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(158) _la = p.GetTokenStream().LA(1) if !(_la == PlanParserIdentifier || _la == PlanParserJSONIdentifier) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(159) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 31: localctx = NewCallContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(160) p.Match(PlanParserIdentifier) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(161) p.Match(PlanParserT__0) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(173) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if (int64((_la-1)) & ^0x3f) == 0 && ((int64(1)<<(_la-1))&-687181414363) != 0 { { p.SetState(162) p.expr(0) } p.SetState(167) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 6, p.GetParserRuleContext()) if p.HasError() { goto errorExit } for _alt != 2 && _alt != antlr.ATNInvalidAltNumber { if _alt == 1 { { p.SetState(163) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(164) p.expr(0) } } p.SetState(169) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 6, p.GetParserRuleContext()) if p.HasError() { goto errorExit } } p.SetState(171) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == PlanParserT__3 { { p.SetState(170) p.Match(PlanParserT__3) if p.HasError() { // Recognition error - abort rule goto errorExit } } } } { p.SetState(175) p.Match(PlanParserT__1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 32: localctx = NewIsNullContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(176) _la = p.GetTokenStream().LA(1) if !(_la == PlanParserIdentifier || _la == PlanParserJSONIdentifier) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(177) p.Match(PlanParserISNULL) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 33: localctx = NewIsNotNullContext(p, localctx) p.SetParserRuleContext(localctx) _prevctx = localctx { p.SetState(178) _la = p.GetTokenStream().LA(1) if !(_la == PlanParserIdentifier || _la == PlanParserJSONIdentifier) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(179) p.Match(PlanParserISNOTNULL) if p.HasError() { // Recognition error - abort rule goto errorExit } } case antlr.ATNInvalidAltNumber: goto errorExit } p.GetParserRuleContext().SetStop(p.GetTokenStream().LT(-1)) p.SetState(236) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 12, p.GetParserRuleContext()) if p.HasError() { goto errorExit } for _alt != 2 && _alt != antlr.ATNInvalidAltNumber { if _alt == 1 { if p.GetParseListeners() != nil { p.TriggerExitRuleEvent() } _prevctx = localctx p.SetState(234) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 11, p.GetParserRuleContext()) { case 1: localctx = NewPowerContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(182) if !(p.Precpred(p.GetParserRuleContext(), 31)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 31)", "")) goto errorExit } { p.SetState(183) p.Match(PlanParserPOW) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(184) p.expr(32) } case 2: localctx = NewMulDivModContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(185) if !(p.Precpred(p.GetParserRuleContext(), 29)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 29)", "")) goto errorExit } { p.SetState(186) var _lt = p.GetTokenStream().LT(1) localctx.(*MulDivModContext).op = _lt _la = p.GetTokenStream().LA(1) if !((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&234881024) != 0) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*MulDivModContext).op = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(187) p.expr(30) } case 3: localctx = NewAddSubContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(188) if !(p.Precpred(p.GetParserRuleContext(), 28)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 28)", "")) goto errorExit } { p.SetState(189) var _lt = p.GetTokenStream().LT(1) localctx.(*AddSubContext).op = _lt _la = p.GetTokenStream().LA(1) if !(_la == PlanParserADD || _la == PlanParserSUB) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*AddSubContext).op = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(190) p.expr(29) } case 4: localctx = NewShiftContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(191) if !(p.Precpred(p.GetParserRuleContext(), 27)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 27)", "")) goto errorExit } { p.SetState(192) var _lt = p.GetTokenStream().LT(1) localctx.(*ShiftContext).op = _lt _la = p.GetTokenStream().LA(1) if !(_la == PlanParserSHL || _la == PlanParserSHR) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*ShiftContext).op = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(193) p.expr(28) } case 5: localctx = NewTermContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(194) if !(p.Precpred(p.GetParserRuleContext(), 26)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 26)", "")) goto errorExit } p.SetState(196) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == PlanParserNOT { { p.SetState(195) var _m = p.Match(PlanParserNOT) localctx.(*TermContext).op = _m if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(198) p.Match(PlanParserIN) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(199) p.expr(27) } case 6: localctx = NewRangeContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(200) if !(p.Precpred(p.GetParserRuleContext(), 11)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 11)", "")) goto errorExit } { p.SetState(201) var _lt = p.GetTokenStream().LT(1) localctx.(*RangeContext).op1 = _lt _la = p.GetTokenStream().LA(1) if !(_la == PlanParserLT || _la == PlanParserLE) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*RangeContext).op1 = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(202) _la = p.GetTokenStream().LA(1) if !(_la == PlanParserIdentifier || _la == PlanParserJSONIdentifier) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(203) var _lt = p.GetTokenStream().LT(1) localctx.(*RangeContext).op2 = _lt _la = p.GetTokenStream().LA(1) if !(_la == PlanParserLT || _la == PlanParserLE) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*RangeContext).op2 = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(204) p.expr(12) } case 7: localctx = NewReverseRangeContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(205) if !(p.Precpred(p.GetParserRuleContext(), 10)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 10)", "")) goto errorExit } { p.SetState(206) var _lt = p.GetTokenStream().LT(1) localctx.(*ReverseRangeContext).op1 = _lt _la = p.GetTokenStream().LA(1) if !(_la == PlanParserGT || _la == PlanParserGE) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*ReverseRangeContext).op1 = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(207) _la = p.GetTokenStream().LA(1) if !(_la == PlanParserIdentifier || _la == PlanParserJSONIdentifier) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(208) var _lt = p.GetTokenStream().LT(1) localctx.(*ReverseRangeContext).op2 = _lt _la = p.GetTokenStream().LA(1) if !(_la == PlanParserGT || _la == PlanParserGE) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*ReverseRangeContext).op2 = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(209) p.expr(11) } case 8: localctx = NewRelationalContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(210) if !(p.Precpred(p.GetParserRuleContext(), 9)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 9)", "")) goto errorExit } { p.SetState(211) var _lt = p.GetTokenStream().LT(1) localctx.(*RelationalContext).op = _lt _la = p.GetTokenStream().LA(1) if !((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&3840) != 0) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*RelationalContext).op = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(212) p.expr(10) } case 9: localctx = NewEqualityContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(213) if !(p.Precpred(p.GetParserRuleContext(), 8)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 8)", "")) goto errorExit } { p.SetState(214) var _lt = p.GetTokenStream().LT(1) localctx.(*EqualityContext).op = _lt _la = p.GetTokenStream().LA(1) if !(_la == PlanParserEQ || _la == PlanParserNE) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*EqualityContext).op = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(215) p.expr(9) } case 10: localctx = NewBitAndContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(216) if !(p.Precpred(p.GetParserRuleContext(), 7)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 7)", "")) goto errorExit } { p.SetState(217) p.Match(PlanParserBAND) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(218) p.expr(8) } case 11: localctx = NewBitXorContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(219) if !(p.Precpred(p.GetParserRuleContext(), 6)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 6)", "")) goto errorExit } { p.SetState(220) p.Match(PlanParserBXOR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(221) p.expr(7) } case 12: localctx = NewBitOrContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(222) if !(p.Precpred(p.GetParserRuleContext(), 5)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 5)", "")) goto errorExit } { p.SetState(223) p.Match(PlanParserBOR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(224) p.expr(6) } case 13: localctx = NewLogicalAndContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(225) if !(p.Precpred(p.GetParserRuleContext(), 4)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 4)", "")) goto errorExit } { p.SetState(226) p.Match(PlanParserAND) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(227) p.expr(5) } case 14: localctx = NewLogicalOrContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(228) if !(p.Precpred(p.GetParserRuleContext(), 3)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 3)", "")) goto errorExit } { p.SetState(229) p.Match(PlanParserOR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(230) p.expr(4) } case 15: localctx = NewLikeContext(p, NewExprContext(p, _parentctx, _parentState)) p.PushNewRecursionContext(localctx, _startState, PlanParserRULE_expr) p.SetState(231) if !(p.Precpred(p.GetParserRuleContext(), 35)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 35)", "")) goto errorExit } { p.SetState(232) p.Match(PlanParserLIKE) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(233) p.Match(PlanParserStringLiteral) if p.HasError() { // Recognition error - abort rule goto errorExit } } case antlr.ATNInvalidAltNumber: goto errorExit } } p.SetState(238) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 12, p.GetParserRuleContext()) if p.HasError() { goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.UnrollRecursionContexts(_parentctx) return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ITextMatchOptionContext is an interface to support dynamic dispatch. type ITextMatchOptionContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures MINIMUM_SHOULD_MATCH() antlr.TerminalNode ASSIGN() antlr.TerminalNode IntegerConstant() antlr.TerminalNode // IsTextMatchOptionContext differentiates from other interfaces. IsTextMatchOptionContext() } type TextMatchOptionContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyTextMatchOptionContext() *TextMatchOptionContext { var p = new(TextMatchOptionContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = PlanParserRULE_textMatchOption return p } func InitEmptyTextMatchOptionContext(p *TextMatchOptionContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = PlanParserRULE_textMatchOption } func (*TextMatchOptionContext) IsTextMatchOptionContext() {} func NewTextMatchOptionContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *TextMatchOptionContext { var p = new(TextMatchOptionContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = PlanParserRULE_textMatchOption return p } func (s *TextMatchOptionContext) GetParser() antlr.Parser { return s.parser } func (s *TextMatchOptionContext) MINIMUM_SHOULD_MATCH() antlr.TerminalNode { return s.GetToken(PlanParserMINIMUM_SHOULD_MATCH, 0) } func (s *TextMatchOptionContext) ASSIGN() antlr.TerminalNode { return s.GetToken(PlanParserASSIGN, 0) } func (s *TextMatchOptionContext) IntegerConstant() antlr.TerminalNode { return s.GetToken(PlanParserIntegerConstant, 0) } func (s *TextMatchOptionContext) GetRuleContext() antlr.RuleContext { return s } func (s *TextMatchOptionContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *TextMatchOptionContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case PlanVisitor: return t.VisitTextMatchOption(s) default: return t.VisitChildren(s) } } func (p *PlanParser) TextMatchOption() (localctx ITextMatchOptionContext) { localctx = NewTextMatchOptionContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 2, PlanParserRULE_textMatchOption) p.EnterOuterAlt(localctx, 1) { p.SetState(239) p.Match(PlanParserMINIMUM_SHOULD_MATCH) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(240) p.Match(PlanParserASSIGN) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(241) p.Match(PlanParserIntegerConstant) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } func (p *PlanParser) Sempred(localctx antlr.RuleContext, ruleIndex, predIndex int) bool { switch ruleIndex { case 0: var t *ExprContext = nil if localctx != nil { t = localctx.(*ExprContext) } return p.Expr_Sempred(t, predIndex) default: panic("No predicate with index: " + fmt.Sprint(ruleIndex)) } } func (p *PlanParser) Expr_Sempred(localctx antlr.RuleContext, predIndex int) bool { switch predIndex { case 0: return p.Precpred(p.GetParserRuleContext(), 31) case 1: return p.Precpred(p.GetParserRuleContext(), 29) case 2: return p.Precpred(p.GetParserRuleContext(), 28) case 3: return p.Precpred(p.GetParserRuleContext(), 27) case 4: return p.Precpred(p.GetParserRuleContext(), 26) case 5: return p.Precpred(p.GetParserRuleContext(), 11) case 6: return p.Precpred(p.GetParserRuleContext(), 10) case 7: return p.Precpred(p.GetParserRuleContext(), 9) case 8: return p.Precpred(p.GetParserRuleContext(), 8) case 9: return p.Precpred(p.GetParserRuleContext(), 7) case 10: return p.Precpred(p.GetParserRuleContext(), 6) case 11: return p.Precpred(p.GetParserRuleContext(), 5) case 12: return p.Precpred(p.GetParserRuleContext(), 4) case 13: return p.Precpred(p.GetParserRuleContext(), 3) case 14: return p.Precpred(p.GetParserRuleContext(), 35) default: panic("No predicate with index: " + fmt.Sprint(predIndex)) } }