// nolint package query import ( "fmt" "math" "sort" "strconv" ) const endSymbol rune = 1114112 /* The rule types inferred from the grammar are below. */ type pegRule uint8 const ( ruleUnknown pegRule = iota rulee rulecondition ruletag rulevalue rulenumber ruledigit ruletime ruledate ruleyear rulemonth ruleday ruleand ruleequal rulecontains rulele rulege rulel ruleg rulePegText ) var rul3s = [...]string{ "Unknown", "e", "condition", "tag", "value", "number", "digit", "time", "date", "year", "month", "day", "and", "equal", "contains", "le", "ge", "l", "g", "PegText", } type token32 struct { pegRule begin, end uint32 } func (t *token32) String() string { return fmt.Sprintf("\x1B[34m%v\x1B[m %v %v", rul3s[t.pegRule], t.begin, t.end) } type node32 struct { token32 up, next *node32 } func (node *node32) print(pretty bool, buffer string) { var print func(node *node32, depth int) print = func(node *node32, depth int) { for node != nil { for c := 0; c < depth; c++ { fmt.Printf(" ") } rule := rul3s[node.pegRule] quote := strconv.Quote(string(([]rune(buffer)[node.begin:node.end]))) if !pretty { fmt.Printf("%v %v\n", rule, quote) } else { fmt.Printf("\x1B[34m%v\x1B[m %v\n", rule, quote) } if node.up != nil { print(node.up, depth+1) } node = node.next } } print(node, 0) } func (node *node32) Print(buffer string) { node.print(false, buffer) } func (node *node32) PrettyPrint(buffer string) { node.print(true, buffer) } type tokens32 struct { tree []token32 } func (t *tokens32) Trim(length uint32) { t.tree = t.tree[:length] } func (t *tokens32) Print() { for _, token := range t.tree { fmt.Println(token.String()) } } func (t *tokens32) AST() *node32 { type element struct { node *node32 down *element } tokens := t.Tokens() var stack *element for _, token := range tokens { if token.begin == token.end { continue } node := &node32{token32: token} for stack != nil && stack.node.begin >= token.begin && stack.node.end <= token.end { stack.node.next = node.up node.up = stack.node stack = stack.down } stack = &element{node: node, down: stack} } if stack != nil { return stack.node } return nil } func (t *tokens32) PrintSyntaxTree(buffer string) { t.AST().Print(buffer) } func (t *tokens32) PrettyPrintSyntaxTree(buffer string) { t.AST().PrettyPrint(buffer) } func (t *tokens32) Add(rule pegRule, begin, end, index uint32) { if tree := t.tree; int(index) >= len(tree) { expanded := make([]token32, 2*len(tree)) copy(expanded, tree) t.tree = expanded } t.tree[index] = token32{ pegRule: rule, begin: begin, end: end, } } func (t *tokens32) Tokens() []token32 { return t.tree } type QueryParser struct { Buffer string buffer []rune rules [20]func() bool parse func(rule ...int) error reset func() Pretty bool tokens32 } func (p *QueryParser) Parse(rule ...int) error { return p.parse(rule...) } func (p *QueryParser) Reset() { p.reset() } type textPosition struct { line, symbol int } type textPositionMap map[int]textPosition func translatePositions(buffer []rune, positions []int) textPositionMap { length, translations, j, line, symbol := len(positions), make(textPositionMap, len(positions)), 0, 1, 0 sort.Ints(positions) search: for i, c := range buffer { if c == '\n' { line, symbol = line+1, 0 } else { symbol++ } if i == positions[j] { translations[positions[j]] = textPosition{line, symbol} for j++; j < length; j++ { if i != positions[j] { continue search } } break search } } return translations } type parseError struct { p *QueryParser max token32 } func (e *parseError) Error() string { tokens, error := []token32{e.max}, "\n" positions, p := make([]int, 2*len(tokens)), 0 for _, token := range tokens { positions[p], p = int(token.begin), p+1 positions[p], p = int(token.end), p+1 } translations := translatePositions(e.p.buffer, positions) format := "parse error near %v (line %v symbol %v - line %v symbol %v):\n%v\n" if e.p.Pretty { format = "parse error near \x1B[34m%v\x1B[m (line %v symbol %v - line %v symbol %v):\n%v\n" } for _, token := range tokens { begin, end := int(token.begin), int(token.end) error += fmt.Sprintf(format, rul3s[token.pegRule], translations[begin].line, translations[begin].symbol, translations[end].line, translations[end].symbol, strconv.Quote(string(e.p.buffer[begin:end]))) } return error } func (p *QueryParser) PrintSyntaxTree() { if p.Pretty { p.tokens32.PrettyPrintSyntaxTree(p.Buffer) } else { p.tokens32.PrintSyntaxTree(p.Buffer) } } func (p *QueryParser) Init() { var ( max token32 position, tokenIndex uint32 buffer []rune ) p.reset = func() { max = token32{} position, tokenIndex = 0, 0 p.buffer = []rune(p.Buffer) if len(p.buffer) == 0 || p.buffer[len(p.buffer)-1] != endSymbol { p.buffer = append(p.buffer, endSymbol) } buffer = p.buffer } p.reset() _rules := p.rules tree := tokens32{tree: make([]token32, math.MaxInt16)} p.parse = func(rule ...int) error { r := 1 if len(rule) > 0 { r = rule[0] } matches := p.rules[r]() p.tokens32 = tree if matches { p.Trim(tokenIndex) return nil } return &parseError{p, max} } add := func(rule pegRule, begin uint32) { tree.Add(rule, begin, position, tokenIndex) tokenIndex++ if begin != position && position > max.end { max = token32{rule, begin, position} } } matchDot := func() bool { if buffer[position] != endSymbol { position++ return true } return false } /*matchChar := func(c byte) bool { if buffer[position] == c { position++ return true } return false }*/ /*matchRange := func(lower byte, upper byte) bool { if c := buffer[position]; c >= lower && c <= upper { position++ return true } return false }*/ _rules = [...]func() bool{ nil, /* 0 e <- <('"' condition (' '+ and ' '+ condition)* '"' !.)> */ func() bool { position0, tokenIndex0 := position, tokenIndex { position1 := position if buffer[position] != rune('"') { goto l0 } position++ if !_rules[rulecondition]() { goto l0 } l2: { position3, tokenIndex3 := position, tokenIndex if buffer[position] != rune(' ') { goto l3 } position++ l4: { position5, tokenIndex5 := position, tokenIndex if buffer[position] != rune(' ') { goto l5 } position++ goto l4 l5: position, tokenIndex = position5, tokenIndex5 } { position6 := position { position7, tokenIndex7 := position, tokenIndex if buffer[position] != rune('a') { goto l8 } position++ goto l7 l8: position, tokenIndex = position7, tokenIndex7 if buffer[position] != rune('A') { goto l3 } position++ } l7: { position9, tokenIndex9 := position, tokenIndex if buffer[position] != rune('n') { goto l10 } position++ goto l9 l10: position, tokenIndex = position9, tokenIndex9 if buffer[position] != rune('N') { goto l3 } position++ } l9: { position11, tokenIndex11 := position, tokenIndex if buffer[position] != rune('d') { goto l12 } position++ goto l11 l12: position, tokenIndex = position11, tokenIndex11 if buffer[position] != rune('D') { goto l3 } position++ } l11: add(ruleand, position6) } if buffer[position] != rune(' ') { goto l3 } position++ l13: { position14, tokenIndex14 := position, tokenIndex if buffer[position] != rune(' ') { goto l14 } position++ goto l13 l14: position, tokenIndex = position14, tokenIndex14 } if !_rules[rulecondition]() { goto l3 } goto l2 l3: position, tokenIndex = position3, tokenIndex3 } if buffer[position] != rune('"') { goto l0 } position++ { position15, tokenIndex15 := position, tokenIndex if !matchDot() { goto l15 } goto l0 l15: position, tokenIndex = position15, tokenIndex15 } add(rulee, position1) } return true l0: position, tokenIndex = position0, tokenIndex0 return false }, /* 1 condition <- <(tag ' '* ((le ' '* ((&('D' | 'd') date) | (&('T' | 't') time) | (&('0' | '1' | '2' | '3' | '4' | '5' | '6' | '7' | '8' | '9') number))) / (ge ' '* ((&('D' | 'd') date) | (&('T' | 't') time) | (&('0' | '1' | '2' | '3' | '4' | '5' | '6' | '7' | '8' | '9') number))) / ((&('=') (equal ' '* ((&('\'') value) | (&('D' | 'd') date) | (&('T' | 't') time) | (&('0' | '1' | '2' | '3' | '4' | '5' | '6' | '7' | '8' | '9') number)))) | (&('>') (g ' '* ((&('D' | 'd') date) | (&('T' | 't') time) | (&('0' | '1' | '2' | '3' | '4' | '5' | '6' | '7' | '8' | '9') number)))) | (&('<') (l ' '* ((&('D' | 'd') date) | (&('T' | 't') time) | (&('0' | '1' | '2' | '3' | '4' | '5' | '6' | '7' | '8' | '9') number)))) | (&('C' | 'c') (contains ' '* value)))))> */ func() bool { position16, tokenIndex16 := position, tokenIndex { position17 := position { position18 := position { position19 := position { position22, tokenIndex22 := position, tokenIndex { switch buffer[position] { case '<': if buffer[position] != rune('<') { goto l22 } position++ break case '>': if buffer[position] != rune('>') { goto l22 } position++ break case '=': if buffer[position] != rune('=') { goto l22 } position++ break case '\'': if buffer[position] != rune('\'') { goto l22 } position++ break case '"': if buffer[position] != rune('"') { goto l22 } position++ break case ')': if buffer[position] != rune(')') { goto l22 } position++ break case '(': if buffer[position] != rune('(') { goto l22 } position++ break case '\\': if buffer[position] != rune('\\') { goto l22 } position++ break case '\r': if buffer[position] != rune('\r') { goto l22 } position++ break case '\n': if buffer[position] != rune('\n') { goto l22 } position++ break case '\t': if buffer[position] != rune('\t') { goto l22 } position++ break default: if buffer[position] != rune(' ') { goto l22 } position++ break } } goto l16 l22: position, tokenIndex = position22, tokenIndex22 } if !matchDot() { goto l16 } l20: { position21, tokenIndex21 := position, tokenIndex { position24, tokenIndex24 := position, tokenIndex { switch buffer[position] { case '<': if buffer[position] != rune('<') { goto l24 } position++ break case '>': if buffer[position] != rune('>') { goto l24 } position++ break case '=': if buffer[position] != rune('=') { goto l24 } position++ break case '\'': if buffer[position] != rune('\'') { goto l24 } position++ break case '"': if buffer[position] != rune('"') { goto l24 } position++ break case ')': if buffer[position] != rune(')') { goto l24 } position++ break case '(': if buffer[position] != rune('(') { goto l24 } position++ break case '\\': if buffer[position] != rune('\\') { goto l24 } position++ break case '\r': if buffer[position] != rune('\r') { goto l24 } position++ break case '\n': if buffer[position] != rune('\n') { goto l24 } position++ break case '\t': if buffer[position] != rune('\t') { goto l24 } position++ break default: if buffer[position] != rune(' ') { goto l24 } position++ break } } goto l21 l24: position, tokenIndex = position24, tokenIndex24 } if !matchDot() { goto l21 } goto l20 l21: position, tokenIndex = position21, tokenIndex21 } add(rulePegText, position19) } add(ruletag, position18) } l26: { position27, tokenIndex27 := position, tokenIndex if buffer[position] != rune(' ') { goto l27 } position++ goto l26 l27: position, tokenIndex = position27, tokenIndex27 } { position28, tokenIndex28 := position, tokenIndex { position30 := position if buffer[position] != rune('<') { goto l29 } position++ if buffer[position] != rune('=') { goto l29 } position++ add(rulele, position30) } l31: { position32, tokenIndex32 := position, tokenIndex if buffer[position] != rune(' ') { goto l32 } position++ goto l31 l32: position, tokenIndex = position32, tokenIndex32 } { switch buffer[position] { case 'D', 'd': if !_rules[ruledate]() { goto l29 } break case 'T', 't': if !_rules[ruletime]() { goto l29 } break default: if !_rules[rulenumber]() { goto l29 } break } } goto l28 l29: position, tokenIndex = position28, tokenIndex28 { position35 := position if buffer[position] != rune('>') { goto l34 } position++ if buffer[position] != rune('=') { goto l34 } position++ add(rulege, position35) } l36: { position37, tokenIndex37 := position, tokenIndex if buffer[position] != rune(' ') { goto l37 } position++ goto l36 l37: position, tokenIndex = position37, tokenIndex37 } { switch buffer[position] { case 'D', 'd': if !_rules[ruledate]() { goto l34 } break case 'T', 't': if !_rules[ruletime]() { goto l34 } break default: if !_rules[rulenumber]() { goto l34 } break } } goto l28 l34: position, tokenIndex = position28, tokenIndex28 { switch buffer[position] { case '=': { position40 := position if buffer[position] != rune('=') { goto l16 } position++ add(ruleequal, position40) } l41: { position42, tokenIndex42 := position, tokenIndex if buffer[position] != rune(' ') { goto l42 } position++ goto l41 l42: position, tokenIndex = position42, tokenIndex42 } { switch buffer[position] { case '\'': if !_rules[rulevalue]() { goto l16 } break case 'D', 'd': if !_rules[ruledate]() { goto l16 } break case 'T', 't': if !_rules[ruletime]() { goto l16 } break default: if !_rules[rulenumber]() { goto l16 } break } } break case '>': { position44 := position if buffer[position] != rune('>') { goto l16 } position++ add(ruleg, position44) } l45: { position46, tokenIndex46 := position, tokenIndex if buffer[position] != rune(' ') { goto l46 } position++ goto l45 l46: position, tokenIndex = position46, tokenIndex46 } { switch buffer[position] { case 'D', 'd': if !_rules[ruledate]() { goto l16 } break case 'T', 't': if !_rules[ruletime]() { goto l16 } break default: if !_rules[rulenumber]() { goto l16 } break } } break case '<': { position48 := position if buffer[position] != rune('<') { goto l16 } position++ add(rulel, position48) } l49: { position50, tokenIndex50 := position, tokenIndex if buffer[position] != rune(' ') { goto l50 } position++ goto l49 l50: position, tokenIndex = position50, tokenIndex50 } { switch buffer[position] { case 'D', 'd': if !_rules[ruledate]() { goto l16 } break case 'T', 't': if !_rules[ruletime]() { goto l16 } break default: if !_rules[rulenumber]() { goto l16 } break } } break default: { position52 := position { position53, tokenIndex53 := position, tokenIndex if buffer[position] != rune('c') { goto l54 } position++ goto l53 l54: position, tokenIndex = position53, tokenIndex53 if buffer[position] != rune('C') { goto l16 } position++ } l53: { position55, tokenIndex55 := position, tokenIndex if buffer[position] != rune('o') { goto l56 } position++ goto l55 l56: position, tokenIndex = position55, tokenIndex55 if buffer[position] != rune('O') { goto l16 } position++ } l55: { position57, tokenIndex57 := position, tokenIndex if buffer[position] != rune('n') { goto l58 } position++ goto l57 l58: position, tokenIndex = position57, tokenIndex57 if buffer[position] != rune('N') { goto l16 } position++ } l57: { position59, tokenIndex59 := position, tokenIndex if buffer[position] != rune('t') { goto l60 } position++ goto l59 l60: position, tokenIndex = position59, tokenIndex59 if buffer[position] != rune('T') { goto l16 } position++ } l59: { position61, tokenIndex61 := position, tokenIndex if buffer[position] != rune('a') { goto l62 } position++ goto l61 l62: position, tokenIndex = position61, tokenIndex61 if buffer[position] != rune('A') { goto l16 } position++ } l61: { position63, tokenIndex63 := position, tokenIndex if buffer[position] != rune('i') { goto l64 } position++ goto l63 l64: position, tokenIndex = position63, tokenIndex63 if buffer[position] != rune('I') { goto l16 } position++ } l63: { position65, tokenIndex65 := position, tokenIndex if buffer[position] != rune('n') { goto l66 } position++ goto l65 l66: position, tokenIndex = position65, tokenIndex65 if buffer[position] != rune('N') { goto l16 } position++ } l65: { position67, tokenIndex67 := position, tokenIndex if buffer[position] != rune('s') { goto l68 } position++ goto l67 l68: position, tokenIndex = position67, tokenIndex67 if buffer[position] != rune('S') { goto l16 } position++ } l67: add(rulecontains, position52) } l69: { position70, tokenIndex70 := position, tokenIndex if buffer[position] != rune(' ') { goto l70 } position++ goto l69 l70: position, tokenIndex = position70, tokenIndex70 } if !_rules[rulevalue]() { goto l16 } break } } } l28: add(rulecondition, position17) } return true l16: position, tokenIndex = position16, tokenIndex16 return false }, /* 2 tag <- <<(!((&('<') '<') | (&('>') '>') | (&('=') '=') | (&('\'') '\'') | (&('"') '"') | (&(')') ')') | (&('(') '(') | (&('\\') '\\') | (&('\r') '\r') | (&('\n') '\n') | (&('\t') '\t') | (&(' ') ' ')) .)+>> */ nil, /* 3 value <- <<('\'' (!('"' / '\'') .)* '\'')>> */ func() bool { position72, tokenIndex72 := position, tokenIndex { position73 := position { position74 := position if buffer[position] != rune('\'') { goto l72 } position++ l75: { position76, tokenIndex76 := position, tokenIndex { position77, tokenIndex77 := position, tokenIndex { position78, tokenIndex78 := position, tokenIndex if buffer[position] != rune('"') { goto l79 } position++ goto l78 l79: position, tokenIndex = position78, tokenIndex78 if buffer[position] != rune('\'') { goto l77 } position++ } l78: goto l76 l77: position, tokenIndex = position77, tokenIndex77 } if !matchDot() { goto l76 } goto l75 l76: position, tokenIndex = position76, tokenIndex76 } if buffer[position] != rune('\'') { goto l72 } position++ add(rulePegText, position74) } add(rulevalue, position73) } return true l72: position, tokenIndex = position72, tokenIndex72 return false }, /* 4 number <- <<('0' / ([1-9] digit* ('.' digit*)?))>> */ func() bool { position80, tokenIndex80 := position, tokenIndex { position81 := position { position82 := position { position83, tokenIndex83 := position, tokenIndex if buffer[position] != rune('0') { goto l84 } position++ goto l83 l84: position, tokenIndex = position83, tokenIndex83 if c := buffer[position]; c < rune('1') || c > rune('9') { goto l80 } position++ l85: { position86, tokenIndex86 := position, tokenIndex if !_rules[ruledigit]() { goto l86 } goto l85 l86: position, tokenIndex = position86, tokenIndex86 } { position87, tokenIndex87 := position, tokenIndex if buffer[position] != rune('.') { goto l87 } position++ l89: { position90, tokenIndex90 := position, tokenIndex if !_rules[ruledigit]() { goto l90 } goto l89 l90: position, tokenIndex = position90, tokenIndex90 } goto l88 l87: position, tokenIndex = position87, tokenIndex87 } l88: } l83: add(rulePegText, position82) } add(rulenumber, position81) } return true l80: position, tokenIndex = position80, tokenIndex80 return false }, /* 5 digit <- <[0-9]> */ func() bool { position91, tokenIndex91 := position, tokenIndex { position92 := position if c := buffer[position]; c < rune('0') || c > rune('9') { goto l91 } position++ add(ruledigit, position92) } return true l91: position, tokenIndex = position91, tokenIndex91 return false }, /* 6 time <- <(('t' / 'T') ('i' / 'I') ('m' / 'M') ('e' / 'E') ' ' <(year '-' month '-' day 'T' digit digit ':' digit digit ':' digit digit ((('-' / '+') digit digit ':' digit digit) / 'Z'))>)> */ func() bool { position93, tokenIndex93 := position, tokenIndex { position94 := position { position95, tokenIndex95 := position, tokenIndex if buffer[position] != rune('t') { goto l96 } position++ goto l95 l96: position, tokenIndex = position95, tokenIndex95 if buffer[position] != rune('T') { goto l93 } position++ } l95: { position97, tokenIndex97 := position, tokenIndex if buffer[position] != rune('i') { goto l98 } position++ goto l97 l98: position, tokenIndex = position97, tokenIndex97 if buffer[position] != rune('I') { goto l93 } position++ } l97: { position99, tokenIndex99 := position, tokenIndex if buffer[position] != rune('m') { goto l100 } position++ goto l99 l100: position, tokenIndex = position99, tokenIndex99 if buffer[position] != rune('M') { goto l93 } position++ } l99: { position101, tokenIndex101 := position, tokenIndex if buffer[position] != rune('e') { goto l102 } position++ goto l101 l102: position, tokenIndex = position101, tokenIndex101 if buffer[position] != rune('E') { goto l93 } position++ } l101: if buffer[position] != rune(' ') { goto l93 } position++ { position103 := position if !_rules[ruleyear]() { goto l93 } if buffer[position] != rune('-') { goto l93 } position++ if !_rules[rulemonth]() { goto l93 } if buffer[position] != rune('-') { goto l93 } position++ if !_rules[ruleday]() { goto l93 } if buffer[position] != rune('T') { goto l93 } position++ if !_rules[ruledigit]() { goto l93 } if !_rules[ruledigit]() { goto l93 } if buffer[position] != rune(':') { goto l93 } position++ if !_rules[ruledigit]() { goto l93 } if !_rules[ruledigit]() { goto l93 } if buffer[position] != rune(':') { goto l93 } position++ if !_rules[ruledigit]() { goto l93 } if !_rules[ruledigit]() { goto l93 } { position104, tokenIndex104 := position, tokenIndex { position106, tokenIndex106 := position, tokenIndex if buffer[position] != rune('-') { goto l107 } position++ goto l106 l107: position, tokenIndex = position106, tokenIndex106 if buffer[position] != rune('+') { goto l105 } position++ } l106: if !_rules[ruledigit]() { goto l105 } if !_rules[ruledigit]() { goto l105 } if buffer[position] != rune(':') { goto l105 } position++ if !_rules[ruledigit]() { goto l105 } if !_rules[ruledigit]() { goto l105 } goto l104 l105: position, tokenIndex = position104, tokenIndex104 if buffer[position] != rune('Z') { goto l93 } position++ } l104: add(rulePegText, position103) } add(ruletime, position94) } return true l93: position, tokenIndex = position93, tokenIndex93 return false }, /* 7 date <- <(('d' / 'D') ('a' / 'A') ('t' / 'T') ('e' / 'E') ' ' <(year '-' month '-' day)>)> */ func() bool { position108, tokenIndex108 := position, tokenIndex { position109 := position { position110, tokenIndex110 := position, tokenIndex if buffer[position] != rune('d') { goto l111 } position++ goto l110 l111: position, tokenIndex = position110, tokenIndex110 if buffer[position] != rune('D') { goto l108 } position++ } l110: { position112, tokenIndex112 := position, tokenIndex if buffer[position] != rune('a') { goto l113 } position++ goto l112 l113: position, tokenIndex = position112, tokenIndex112 if buffer[position] != rune('A') { goto l108 } position++ } l112: { position114, tokenIndex114 := position, tokenIndex if buffer[position] != rune('t') { goto l115 } position++ goto l114 l115: position, tokenIndex = position114, tokenIndex114 if buffer[position] != rune('T') { goto l108 } position++ } l114: { position116, tokenIndex116 := position, tokenIndex if buffer[position] != rune('e') { goto l117 } position++ goto l116 l117: position, tokenIndex = position116, tokenIndex116 if buffer[position] != rune('E') { goto l108 } position++ } l116: if buffer[position] != rune(' ') { goto l108 } position++ { position118 := position if !_rules[ruleyear]() { goto l108 } if buffer[position] != rune('-') { goto l108 } position++ if !_rules[rulemonth]() { goto l108 } if buffer[position] != rune('-') { goto l108 } position++ if !_rules[ruleday]() { goto l108 } add(rulePegText, position118) } add(ruledate, position109) } return true l108: position, tokenIndex = position108, tokenIndex108 return false }, /* 8 year <- <(('1' / '2') digit digit digit)> */ func() bool { position119, tokenIndex119 := position, tokenIndex { position120 := position { position121, tokenIndex121 := position, tokenIndex if buffer[position] != rune('1') { goto l122 } position++ goto l121 l122: position, tokenIndex = position121, tokenIndex121 if buffer[position] != rune('2') { goto l119 } position++ } l121: if !_rules[ruledigit]() { goto l119 } if !_rules[ruledigit]() { goto l119 } if !_rules[ruledigit]() { goto l119 } add(ruleyear, position120) } return true l119: position, tokenIndex = position119, tokenIndex119 return false }, /* 9 month <- <(('0' / '1') digit)> */ func() bool { position123, tokenIndex123 := position, tokenIndex { position124 := position { position125, tokenIndex125 := position, tokenIndex if buffer[position] != rune('0') { goto l126 } position++ goto l125 l126: position, tokenIndex = position125, tokenIndex125 if buffer[position] != rune('1') { goto l123 } position++ } l125: if !_rules[ruledigit]() { goto l123 } add(rulemonth, position124) } return true l123: position, tokenIndex = position123, tokenIndex123 return false }, /* 10 day <- <(((&('3') '3') | (&('2') '2') | (&('1') '1') | (&('0') '0')) digit)> */ func() bool { position127, tokenIndex127 := position, tokenIndex { position128 := position { switch buffer[position] { case '3': if buffer[position] != rune('3') { goto l127 } position++ break case '2': if buffer[position] != rune('2') { goto l127 } position++ break case '1': if buffer[position] != rune('1') { goto l127 } position++ break default: if buffer[position] != rune('0') { goto l127 } position++ break } } if !_rules[ruledigit]() { goto l127 } add(ruleday, position128) } return true l127: position, tokenIndex = position127, tokenIndex127 return false }, /* 11 and <- <(('a' / 'A') ('n' / 'N') ('d' / 'D'))> */ nil, /* 12 equal <- <'='> */ nil, /* 13 contains <- <(('c' / 'C') ('o' / 'O') ('n' / 'N') ('t' / 'T') ('a' / 'A') ('i' / 'I') ('n' / 'N') ('s' / 'S'))> */ nil, /* 14 le <- <('<' '=')> */ nil, /* 15 ge <- <('>' '=')> */ nil, /* 16 l <- <'<'> */ nil, /* 17 g <- <'>'> */ nil, nil, } p.rules = _rules }