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mirror of https://github.com/PostHog/posthog.git synced 2024-11-24 18:07:17 +01:00
posthog/hogql_parser/HogQLParser.h
Sandy Spicer 447a18930f
feat: add "INTERSECT" and "EXCEPT" to HogQL (#25737)
Co-authored-by: github-actions <41898282+github-actions[bot]@users.noreply.github.com>
2024-10-29 11:31:56 -07:00

2530 lines
83 KiB
C++

// Generated from HogQLParser.g4 by ANTLR 4.13.2
#pragma once
#include "antlr4-runtime.h"
class HogQLParser : public antlr4::Parser {
public:
enum {
ALL = 1, AND = 2, ANTI = 3, ANY = 4, ARRAY = 5, AS = 6, ASCENDING = 7,
ASOF = 8, BETWEEN = 9, BOTH = 10, BY = 11, CASE = 12, CAST = 13, CATCH = 14,
COHORT = 15, COLLATE = 16, CROSS = 17, CUBE = 18, CURRENT = 19, DATE = 20,
DAY = 21, DESC = 22, DESCENDING = 23, DISTINCT = 24, ELSE = 25, END = 26,
EXCEPT = 27, EXTRACT = 28, FINAL = 29, FINALLY = 30, FIRST = 31, FN = 32,
FOLLOWING = 33, FOR = 34, FROM = 35, FULL = 36, FUN = 37, GROUP = 38,
HAVING = 39, HOUR = 40, ID = 41, IF = 42, ILIKE = 43, IN = 44, INF = 45,
INNER = 46, INTERSECT = 47, INTERVAL = 48, IS = 49, JOIN = 50, KEY = 51,
LAST = 52, LEADING = 53, LEFT = 54, LET = 55, LIKE = 56, LIMIT = 57,
MINUTE = 58, MONTH = 59, NAN_SQL = 60, NOT = 61, NULL_SQL = 62, NULLS = 63,
OFFSET = 64, ON = 65, OR = 66, ORDER = 67, OUTER = 68, OVER = 69, PARTITION = 70,
PRECEDING = 71, PREWHERE = 72, QUARTER = 73, RANGE = 74, RETURN = 75,
RIGHT = 76, ROLLUP = 77, ROW = 78, ROWS = 79, SAMPLE = 80, SECOND = 81,
SELECT = 82, SEMI = 83, SETTINGS = 84, SUBSTRING = 85, THEN = 86, THROW = 87,
TIES = 88, TIMESTAMP = 89, TO = 90, TOP = 91, TOTALS = 92, TRAILING = 93,
TRIM = 94, TRUNCATE = 95, TRY = 96, UNBOUNDED = 97, UNION = 98, USING = 99,
WEEK = 100, WHEN = 101, WHERE = 102, WHILE = 103, WINDOW = 104, WITH = 105,
YEAR = 106, ESCAPE_CHAR_COMMON = 107, IDENTIFIER = 108, FLOATING_LITERAL = 109,
OCTAL_LITERAL = 110, DECIMAL_LITERAL = 111, HEXADECIMAL_LITERAL = 112,
STRING_LITERAL = 113, ARROW = 114, ASTERISK = 115, BACKQUOTE = 116,
BACKSLASH = 117, COLON = 118, COMMA = 119, CONCAT = 120, DASH = 121,
DOLLAR = 122, DOT = 123, EQ_DOUBLE = 124, EQ_SINGLE = 125, GT_EQ = 126,
GT = 127, HASH = 128, IREGEX_SINGLE = 129, IREGEX_DOUBLE = 130, LBRACE = 131,
LBRACKET = 132, LPAREN = 133, LT_EQ = 134, LT = 135, NOT_EQ = 136, NOT_IREGEX = 137,
NOT_REGEX = 138, NULL_PROPERTY = 139, NULLISH = 140, PERCENT = 141,
PLUS = 142, QUERY = 143, QUOTE_DOUBLE = 144, QUOTE_SINGLE_TEMPLATE = 145,
QUOTE_SINGLE_TEMPLATE_FULL = 146, QUOTE_SINGLE = 147, REGEX_SINGLE = 148,
REGEX_DOUBLE = 149, RBRACE = 150, RBRACKET = 151, RPAREN = 152, SEMICOLON = 153,
SLASH = 154, UNDERSCORE = 155, MULTI_LINE_COMMENT = 156, SINGLE_LINE_COMMENT = 157,
WHITESPACE = 158, STRING_TEXT = 159, STRING_ESCAPE_TRIGGER = 160, FULL_STRING_TEXT = 161,
FULL_STRING_ESCAPE_TRIGGER = 162
};
enum {
RuleProgram = 0, RuleDeclaration = 1, RuleExpression = 2, RuleVarDecl = 3,
RuleIdentifierList = 4, RuleStatement = 5, RuleReturnStmt = 6, RuleThrowStmt = 7,
RuleCatchBlock = 8, RuleTryCatchStmt = 9, RuleIfStmt = 10, RuleWhileStmt = 11,
RuleForStmt = 12, RuleForInStmt = 13, RuleFuncStmt = 14, RuleVarAssignment = 15,
RuleExprStmt = 16, RuleEmptyStmt = 17, RuleBlock = 18, RuleKvPair = 19,
RuleKvPairList = 20, RuleSelect = 21, RuleSelectStmtWithParens = 22,
RuleSubsequentSelectSetClause = 23, RuleSelectSetStmt = 24, RuleSelectStmt = 25,
RuleWithClause = 26, RuleTopClause = 27, RuleFromClause = 28, RuleArrayJoinClause = 29,
RuleWindowClause = 30, RulePrewhereClause = 31, RuleWhereClause = 32,
RuleGroupByClause = 33, RuleHavingClause = 34, RuleOrderByClause = 35,
RuleProjectionOrderByClause = 36, RuleLimitAndOffsetClause = 37, RuleOffsetOnlyClause = 38,
RuleSettingsClause = 39, RuleJoinExpr = 40, RuleJoinOp = 41, RuleJoinOpCross = 42,
RuleJoinConstraintClause = 43, RuleSampleClause = 44, RuleOrderExprList = 45,
RuleOrderExpr = 46, RuleRatioExpr = 47, RuleSettingExprList = 48, RuleSettingExpr = 49,
RuleWindowExpr = 50, RuleWinPartitionByClause = 51, RuleWinOrderByClause = 52,
RuleWinFrameClause = 53, RuleWinFrameExtend = 54, RuleWinFrameBound = 55,
RuleExpr = 56, RuleColumnTypeExpr = 57, RuleColumnExprList = 58, RuleColumnExpr = 59,
RuleColumnLambdaExpr = 60, RuleHogqlxTagElement = 61, RuleHogqlxTagAttribute = 62,
RuleWithExprList = 63, RuleWithExpr = 64, RuleColumnIdentifier = 65,
RuleNestedIdentifier = 66, RuleTableExpr = 67, RuleTableFunctionExpr = 68,
RuleTableIdentifier = 69, RuleTableArgList = 70, RuleDatabaseIdentifier = 71,
RuleFloatingLiteral = 72, RuleNumberLiteral = 73, RuleLiteral = 74,
RuleInterval = 75, RuleKeyword = 76, RuleKeywordForAlias = 77, RuleAlias = 78,
RuleIdentifier = 79, RuleEnumValue = 80, RulePlaceholder = 81, RuleString = 82,
RuleTemplateString = 83, RuleStringContents = 84, RuleFullTemplateString = 85,
RuleStringContentsFull = 86
};
explicit HogQLParser(antlr4::TokenStream *input);
HogQLParser(antlr4::TokenStream *input, const antlr4::atn::ParserATNSimulatorOptions &options);
~HogQLParser() override;
std::string getGrammarFileName() const override;
const antlr4::atn::ATN& getATN() const override;
const std::vector<std::string>& getRuleNames() const override;
const antlr4::dfa::Vocabulary& getVocabulary() const override;
antlr4::atn::SerializedATNView getSerializedATN() const override;
class ProgramContext;
class DeclarationContext;
class ExpressionContext;
class VarDeclContext;
class IdentifierListContext;
class StatementContext;
class ReturnStmtContext;
class ThrowStmtContext;
class CatchBlockContext;
class TryCatchStmtContext;
class IfStmtContext;
class WhileStmtContext;
class ForStmtContext;
class ForInStmtContext;
class FuncStmtContext;
class VarAssignmentContext;
class ExprStmtContext;
class EmptyStmtContext;
class BlockContext;
class KvPairContext;
class KvPairListContext;
class SelectContext;
class SelectStmtWithParensContext;
class SubsequentSelectSetClauseContext;
class SelectSetStmtContext;
class SelectStmtContext;
class WithClauseContext;
class TopClauseContext;
class FromClauseContext;
class ArrayJoinClauseContext;
class WindowClauseContext;
class PrewhereClauseContext;
class WhereClauseContext;
class GroupByClauseContext;
class HavingClauseContext;
class OrderByClauseContext;
class ProjectionOrderByClauseContext;
class LimitAndOffsetClauseContext;
class OffsetOnlyClauseContext;
class SettingsClauseContext;
class JoinExprContext;
class JoinOpContext;
class JoinOpCrossContext;
class JoinConstraintClauseContext;
class SampleClauseContext;
class OrderExprListContext;
class OrderExprContext;
class RatioExprContext;
class SettingExprListContext;
class SettingExprContext;
class WindowExprContext;
class WinPartitionByClauseContext;
class WinOrderByClauseContext;
class WinFrameClauseContext;
class WinFrameExtendContext;
class WinFrameBoundContext;
class ExprContext;
class ColumnTypeExprContext;
class ColumnExprListContext;
class ColumnExprContext;
class ColumnLambdaExprContext;
class HogqlxTagElementContext;
class HogqlxTagAttributeContext;
class WithExprListContext;
class WithExprContext;
class ColumnIdentifierContext;
class NestedIdentifierContext;
class TableExprContext;
class TableFunctionExprContext;
class TableIdentifierContext;
class TableArgListContext;
class DatabaseIdentifierContext;
class FloatingLiteralContext;
class NumberLiteralContext;
class LiteralContext;
class IntervalContext;
class KeywordContext;
class KeywordForAliasContext;
class AliasContext;
class IdentifierContext;
class EnumValueContext;
class PlaceholderContext;
class StringContext;
class TemplateStringContext;
class StringContentsContext;
class FullTemplateStringContext;
class StringContentsFullContext;
class ProgramContext : public antlr4::ParserRuleContext {
public:
ProgramContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *EOF();
std::vector<DeclarationContext *> declaration();
DeclarationContext* declaration(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ProgramContext* program();
class DeclarationContext : public antlr4::ParserRuleContext {
public:
DeclarationContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
VarDeclContext *varDecl();
StatementContext *statement();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
DeclarationContext* declaration();
class ExpressionContext : public antlr4::ParserRuleContext {
public:
ExpressionContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
ColumnExprContext *columnExpr();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ExpressionContext* expression();
class VarDeclContext : public antlr4::ParserRuleContext {
public:
VarDeclContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *LET();
IdentifierContext *identifier();
antlr4::tree::TerminalNode *COLON();
antlr4::tree::TerminalNode *EQ_SINGLE();
ExpressionContext *expression();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
VarDeclContext* varDecl();
class IdentifierListContext : public antlr4::ParserRuleContext {
public:
IdentifierListContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
std::vector<IdentifierContext *> identifier();
IdentifierContext* identifier(size_t i);
std::vector<antlr4::tree::TerminalNode *> COMMA();
antlr4::tree::TerminalNode* COMMA(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
IdentifierListContext* identifierList();
class StatementContext : public antlr4::ParserRuleContext {
public:
StatementContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
ReturnStmtContext *returnStmt();
ThrowStmtContext *throwStmt();
TryCatchStmtContext *tryCatchStmt();
IfStmtContext *ifStmt();
WhileStmtContext *whileStmt();
ForInStmtContext *forInStmt();
ForStmtContext *forStmt();
FuncStmtContext *funcStmt();
VarAssignmentContext *varAssignment();
BlockContext *block();
ExprStmtContext *exprStmt();
EmptyStmtContext *emptyStmt();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
StatementContext* statement();
class ReturnStmtContext : public antlr4::ParserRuleContext {
public:
ReturnStmtContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *RETURN();
ExpressionContext *expression();
antlr4::tree::TerminalNode *SEMICOLON();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ReturnStmtContext* returnStmt();
class ThrowStmtContext : public antlr4::ParserRuleContext {
public:
ThrowStmtContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *THROW();
ExpressionContext *expression();
antlr4::tree::TerminalNode *SEMICOLON();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ThrowStmtContext* throwStmt();
class CatchBlockContext : public antlr4::ParserRuleContext {
public:
HogQLParser::IdentifierContext *catchVar = nullptr;
HogQLParser::IdentifierContext *catchType = nullptr;
HogQLParser::BlockContext *catchStmt = nullptr;
CatchBlockContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *CATCH();
BlockContext *block();
antlr4::tree::TerminalNode *LPAREN();
antlr4::tree::TerminalNode *RPAREN();
std::vector<IdentifierContext *> identifier();
IdentifierContext* identifier(size_t i);
antlr4::tree::TerminalNode *COLON();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
CatchBlockContext* catchBlock();
class TryCatchStmtContext : public antlr4::ParserRuleContext {
public:
HogQLParser::BlockContext *tryStmt = nullptr;
HogQLParser::BlockContext *finallyStmt = nullptr;
TryCatchStmtContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *TRY();
std::vector<BlockContext *> block();
BlockContext* block(size_t i);
std::vector<CatchBlockContext *> catchBlock();
CatchBlockContext* catchBlock(size_t i);
antlr4::tree::TerminalNode *FINALLY();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
TryCatchStmtContext* tryCatchStmt();
class IfStmtContext : public antlr4::ParserRuleContext {
public:
IfStmtContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *IF();
antlr4::tree::TerminalNode *LPAREN();
ExpressionContext *expression();
antlr4::tree::TerminalNode *RPAREN();
std::vector<StatementContext *> statement();
StatementContext* statement(size_t i);
antlr4::tree::TerminalNode *ELSE();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
IfStmtContext* ifStmt();
class WhileStmtContext : public antlr4::ParserRuleContext {
public:
WhileStmtContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *WHILE();
antlr4::tree::TerminalNode *LPAREN();
ExpressionContext *expression();
antlr4::tree::TerminalNode *RPAREN();
StatementContext *statement();
antlr4::tree::TerminalNode *SEMICOLON();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
WhileStmtContext* whileStmt();
class ForStmtContext : public antlr4::ParserRuleContext {
public:
HogQLParser::VarDeclContext *initializerVarDeclr = nullptr;
HogQLParser::VarAssignmentContext *initializerVarAssignment = nullptr;
HogQLParser::ExpressionContext *initializerExpression = nullptr;
HogQLParser::ExpressionContext *condition = nullptr;
HogQLParser::VarDeclContext *incrementVarDeclr = nullptr;
HogQLParser::VarAssignmentContext *incrementVarAssignment = nullptr;
HogQLParser::ExpressionContext *incrementExpression = nullptr;
ForStmtContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *FOR();
antlr4::tree::TerminalNode *LPAREN();
std::vector<antlr4::tree::TerminalNode *> SEMICOLON();
antlr4::tree::TerminalNode* SEMICOLON(size_t i);
antlr4::tree::TerminalNode *RPAREN();
StatementContext *statement();
std::vector<VarDeclContext *> varDecl();
VarDeclContext* varDecl(size_t i);
std::vector<VarAssignmentContext *> varAssignment();
VarAssignmentContext* varAssignment(size_t i);
std::vector<ExpressionContext *> expression();
ExpressionContext* expression(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ForStmtContext* forStmt();
class ForInStmtContext : public antlr4::ParserRuleContext {
public:
ForInStmtContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *FOR();
antlr4::tree::TerminalNode *LPAREN();
antlr4::tree::TerminalNode *LET();
std::vector<IdentifierContext *> identifier();
IdentifierContext* identifier(size_t i);
antlr4::tree::TerminalNode *IN();
ExpressionContext *expression();
antlr4::tree::TerminalNode *RPAREN();
StatementContext *statement();
antlr4::tree::TerminalNode *COMMA();
antlr4::tree::TerminalNode *SEMICOLON();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ForInStmtContext* forInStmt();
class FuncStmtContext : public antlr4::ParserRuleContext {
public:
FuncStmtContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
IdentifierContext *identifier();
antlr4::tree::TerminalNode *LPAREN();
antlr4::tree::TerminalNode *RPAREN();
BlockContext *block();
antlr4::tree::TerminalNode *FN();
antlr4::tree::TerminalNode *FUN();
IdentifierListContext *identifierList();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
FuncStmtContext* funcStmt();
class VarAssignmentContext : public antlr4::ParserRuleContext {
public:
VarAssignmentContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
std::vector<ExpressionContext *> expression();
ExpressionContext* expression(size_t i);
antlr4::tree::TerminalNode *COLON();
antlr4::tree::TerminalNode *EQ_SINGLE();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
VarAssignmentContext* varAssignment();
class ExprStmtContext : public antlr4::ParserRuleContext {
public:
ExprStmtContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
ExpressionContext *expression();
antlr4::tree::TerminalNode *SEMICOLON();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ExprStmtContext* exprStmt();
class EmptyStmtContext : public antlr4::ParserRuleContext {
public:
EmptyStmtContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *SEMICOLON();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
EmptyStmtContext* emptyStmt();
class BlockContext : public antlr4::ParserRuleContext {
public:
BlockContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *LBRACE();
antlr4::tree::TerminalNode *RBRACE();
std::vector<DeclarationContext *> declaration();
DeclarationContext* declaration(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
BlockContext* block();
class KvPairContext : public antlr4::ParserRuleContext {
public:
KvPairContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
std::vector<ExpressionContext *> expression();
ExpressionContext* expression(size_t i);
antlr4::tree::TerminalNode *COLON();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
KvPairContext* kvPair();
class KvPairListContext : public antlr4::ParserRuleContext {
public:
KvPairListContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
std::vector<KvPairContext *> kvPair();
KvPairContext* kvPair(size_t i);
std::vector<antlr4::tree::TerminalNode *> COMMA();
antlr4::tree::TerminalNode* COMMA(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
KvPairListContext* kvPairList();
class SelectContext : public antlr4::ParserRuleContext {
public:
SelectContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *EOF();
SelectSetStmtContext *selectSetStmt();
SelectStmtContext *selectStmt();
HogqlxTagElementContext *hogqlxTagElement();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
SelectContext* select();
class SelectStmtWithParensContext : public antlr4::ParserRuleContext {
public:
SelectStmtWithParensContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
SelectStmtContext *selectStmt();
antlr4::tree::TerminalNode *LPAREN();
SelectSetStmtContext *selectSetStmt();
antlr4::tree::TerminalNode *RPAREN();
PlaceholderContext *placeholder();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
SelectStmtWithParensContext* selectStmtWithParens();
class SubsequentSelectSetClauseContext : public antlr4::ParserRuleContext {
public:
SubsequentSelectSetClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
SelectStmtWithParensContext *selectStmtWithParens();
antlr4::tree::TerminalNode *EXCEPT();
antlr4::tree::TerminalNode *UNION();
antlr4::tree::TerminalNode *ALL();
antlr4::tree::TerminalNode *INTERSECT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
SubsequentSelectSetClauseContext* subsequentSelectSetClause();
class SelectSetStmtContext : public antlr4::ParserRuleContext {
public:
SelectSetStmtContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
SelectStmtWithParensContext *selectStmtWithParens();
std::vector<SubsequentSelectSetClauseContext *> subsequentSelectSetClause();
SubsequentSelectSetClauseContext* subsequentSelectSetClause(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
SelectSetStmtContext* selectSetStmt();
class SelectStmtContext : public antlr4::ParserRuleContext {
public:
HogQLParser::WithClauseContext *with = nullptr;
HogQLParser::ColumnExprListContext *columns = nullptr;
HogQLParser::FromClauseContext *from = nullptr;
HogQLParser::WhereClauseContext *where = nullptr;
SelectStmtContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *SELECT();
ColumnExprListContext *columnExprList();
antlr4::tree::TerminalNode *DISTINCT();
TopClauseContext *topClause();
ArrayJoinClauseContext *arrayJoinClause();
PrewhereClauseContext *prewhereClause();
GroupByClauseContext *groupByClause();
std::vector<antlr4::tree::TerminalNode *> WITH();
antlr4::tree::TerminalNode* WITH(size_t i);
antlr4::tree::TerminalNode *TOTALS();
HavingClauseContext *havingClause();
WindowClauseContext *windowClause();
OrderByClauseContext *orderByClause();
LimitAndOffsetClauseContext *limitAndOffsetClause();
OffsetOnlyClauseContext *offsetOnlyClause();
SettingsClauseContext *settingsClause();
WithClauseContext *withClause();
FromClauseContext *fromClause();
WhereClauseContext *whereClause();
antlr4::tree::TerminalNode *CUBE();
antlr4::tree::TerminalNode *ROLLUP();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
SelectStmtContext* selectStmt();
class WithClauseContext : public antlr4::ParserRuleContext {
public:
WithClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *WITH();
WithExprListContext *withExprList();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
WithClauseContext* withClause();
class TopClauseContext : public antlr4::ParserRuleContext {
public:
TopClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *TOP();
antlr4::tree::TerminalNode *DECIMAL_LITERAL();
antlr4::tree::TerminalNode *WITH();
antlr4::tree::TerminalNode *TIES();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
TopClauseContext* topClause();
class FromClauseContext : public antlr4::ParserRuleContext {
public:
FromClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *FROM();
JoinExprContext *joinExpr();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
FromClauseContext* fromClause();
class ArrayJoinClauseContext : public antlr4::ParserRuleContext {
public:
ArrayJoinClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *ARRAY();
antlr4::tree::TerminalNode *JOIN();
ColumnExprListContext *columnExprList();
antlr4::tree::TerminalNode *LEFT();
antlr4::tree::TerminalNode *INNER();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ArrayJoinClauseContext* arrayJoinClause();
class WindowClauseContext : public antlr4::ParserRuleContext {
public:
WindowClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *WINDOW();
std::vector<IdentifierContext *> identifier();
IdentifierContext* identifier(size_t i);
std::vector<antlr4::tree::TerminalNode *> AS();
antlr4::tree::TerminalNode* AS(size_t i);
std::vector<antlr4::tree::TerminalNode *> LPAREN();
antlr4::tree::TerminalNode* LPAREN(size_t i);
std::vector<WindowExprContext *> windowExpr();
WindowExprContext* windowExpr(size_t i);
std::vector<antlr4::tree::TerminalNode *> RPAREN();
antlr4::tree::TerminalNode* RPAREN(size_t i);
std::vector<antlr4::tree::TerminalNode *> COMMA();
antlr4::tree::TerminalNode* COMMA(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
WindowClauseContext* windowClause();
class PrewhereClauseContext : public antlr4::ParserRuleContext {
public:
PrewhereClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *PREWHERE();
ColumnExprContext *columnExpr();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
PrewhereClauseContext* prewhereClause();
class WhereClauseContext : public antlr4::ParserRuleContext {
public:
WhereClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *WHERE();
ColumnExprContext *columnExpr();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
WhereClauseContext* whereClause();
class GroupByClauseContext : public antlr4::ParserRuleContext {
public:
GroupByClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *GROUP();
antlr4::tree::TerminalNode *BY();
antlr4::tree::TerminalNode *LPAREN();
ColumnExprListContext *columnExprList();
antlr4::tree::TerminalNode *RPAREN();
antlr4::tree::TerminalNode *CUBE();
antlr4::tree::TerminalNode *ROLLUP();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
GroupByClauseContext* groupByClause();
class HavingClauseContext : public antlr4::ParserRuleContext {
public:
HavingClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *HAVING();
ColumnExprContext *columnExpr();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
HavingClauseContext* havingClause();
class OrderByClauseContext : public antlr4::ParserRuleContext {
public:
OrderByClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *ORDER();
antlr4::tree::TerminalNode *BY();
OrderExprListContext *orderExprList();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
OrderByClauseContext* orderByClause();
class ProjectionOrderByClauseContext : public antlr4::ParserRuleContext {
public:
ProjectionOrderByClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *ORDER();
antlr4::tree::TerminalNode *BY();
ColumnExprListContext *columnExprList();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ProjectionOrderByClauseContext* projectionOrderByClause();
class LimitAndOffsetClauseContext : public antlr4::ParserRuleContext {
public:
LimitAndOffsetClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *LIMIT();
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
antlr4::tree::TerminalNode *COMMA();
antlr4::tree::TerminalNode *BY();
ColumnExprListContext *columnExprList();
antlr4::tree::TerminalNode *WITH();
antlr4::tree::TerminalNode *TIES();
antlr4::tree::TerminalNode *OFFSET();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
LimitAndOffsetClauseContext* limitAndOffsetClause();
class OffsetOnlyClauseContext : public antlr4::ParserRuleContext {
public:
OffsetOnlyClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *OFFSET();
ColumnExprContext *columnExpr();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
OffsetOnlyClauseContext* offsetOnlyClause();
class SettingsClauseContext : public antlr4::ParserRuleContext {
public:
SettingsClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *SETTINGS();
SettingExprListContext *settingExprList();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
SettingsClauseContext* settingsClause();
class JoinExprContext : public antlr4::ParserRuleContext {
public:
JoinExprContext(antlr4::ParserRuleContext *parent, size_t invokingState);
JoinExprContext() = default;
void copyFrom(JoinExprContext *context);
using antlr4::ParserRuleContext::copyFrom;
virtual size_t getRuleIndex() const override;
};
class JoinExprOpContext : public JoinExprContext {
public:
JoinExprOpContext(JoinExprContext *ctx);
std::vector<JoinExprContext *> joinExpr();
JoinExprContext* joinExpr(size_t i);
antlr4::tree::TerminalNode *JOIN();
JoinConstraintClauseContext *joinConstraintClause();
JoinOpContext *joinOp();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class JoinExprTableContext : public JoinExprContext {
public:
JoinExprTableContext(JoinExprContext *ctx);
TableExprContext *tableExpr();
antlr4::tree::TerminalNode *FINAL();
SampleClauseContext *sampleClause();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class JoinExprParensContext : public JoinExprContext {
public:
JoinExprParensContext(JoinExprContext *ctx);
antlr4::tree::TerminalNode *LPAREN();
JoinExprContext *joinExpr();
antlr4::tree::TerminalNode *RPAREN();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class JoinExprCrossOpContext : public JoinExprContext {
public:
JoinExprCrossOpContext(JoinExprContext *ctx);
std::vector<JoinExprContext *> joinExpr();
JoinExprContext* joinExpr(size_t i);
JoinOpCrossContext *joinOpCross();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
JoinExprContext* joinExpr();
JoinExprContext* joinExpr(int precedence);
class JoinOpContext : public antlr4::ParserRuleContext {
public:
JoinOpContext(antlr4::ParserRuleContext *parent, size_t invokingState);
JoinOpContext() = default;
void copyFrom(JoinOpContext *context);
using antlr4::ParserRuleContext::copyFrom;
virtual size_t getRuleIndex() const override;
};
class JoinOpFullContext : public JoinOpContext {
public:
JoinOpFullContext(JoinOpContext *ctx);
antlr4::tree::TerminalNode *FULL();
antlr4::tree::TerminalNode *OUTER();
antlr4::tree::TerminalNode *ALL();
antlr4::tree::TerminalNode *ANY();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class JoinOpInnerContext : public JoinOpContext {
public:
JoinOpInnerContext(JoinOpContext *ctx);
antlr4::tree::TerminalNode *INNER();
antlr4::tree::TerminalNode *ALL();
antlr4::tree::TerminalNode *ANY();
antlr4::tree::TerminalNode *ASOF();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class JoinOpLeftRightContext : public JoinOpContext {
public:
JoinOpLeftRightContext(JoinOpContext *ctx);
antlr4::tree::TerminalNode *LEFT();
antlr4::tree::TerminalNode *RIGHT();
antlr4::tree::TerminalNode *OUTER();
antlr4::tree::TerminalNode *SEMI();
antlr4::tree::TerminalNode *ALL();
antlr4::tree::TerminalNode *ANTI();
antlr4::tree::TerminalNode *ANY();
antlr4::tree::TerminalNode *ASOF();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
JoinOpContext* joinOp();
class JoinOpCrossContext : public antlr4::ParserRuleContext {
public:
JoinOpCrossContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *CROSS();
antlr4::tree::TerminalNode *JOIN();
antlr4::tree::TerminalNode *COMMA();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
JoinOpCrossContext* joinOpCross();
class JoinConstraintClauseContext : public antlr4::ParserRuleContext {
public:
JoinConstraintClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *ON();
ColumnExprListContext *columnExprList();
antlr4::tree::TerminalNode *USING();
antlr4::tree::TerminalNode *LPAREN();
antlr4::tree::TerminalNode *RPAREN();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
JoinConstraintClauseContext* joinConstraintClause();
class SampleClauseContext : public antlr4::ParserRuleContext {
public:
SampleClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *SAMPLE();
std::vector<RatioExprContext *> ratioExpr();
RatioExprContext* ratioExpr(size_t i);
antlr4::tree::TerminalNode *OFFSET();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
SampleClauseContext* sampleClause();
class OrderExprListContext : public antlr4::ParserRuleContext {
public:
OrderExprListContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
std::vector<OrderExprContext *> orderExpr();
OrderExprContext* orderExpr(size_t i);
std::vector<antlr4::tree::TerminalNode *> COMMA();
antlr4::tree::TerminalNode* COMMA(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
OrderExprListContext* orderExprList();
class OrderExprContext : public antlr4::ParserRuleContext {
public:
OrderExprContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *NULLS();
antlr4::tree::TerminalNode *COLLATE();
antlr4::tree::TerminalNode *STRING_LITERAL();
antlr4::tree::TerminalNode *ASCENDING();
antlr4::tree::TerminalNode *DESCENDING();
antlr4::tree::TerminalNode *DESC();
antlr4::tree::TerminalNode *FIRST();
antlr4::tree::TerminalNode *LAST();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
OrderExprContext* orderExpr();
class RatioExprContext : public antlr4::ParserRuleContext {
public:
RatioExprContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
PlaceholderContext *placeholder();
std::vector<NumberLiteralContext *> numberLiteral();
NumberLiteralContext* numberLiteral(size_t i);
antlr4::tree::TerminalNode *SLASH();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
RatioExprContext* ratioExpr();
class SettingExprListContext : public antlr4::ParserRuleContext {
public:
SettingExprListContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
std::vector<SettingExprContext *> settingExpr();
SettingExprContext* settingExpr(size_t i);
std::vector<antlr4::tree::TerminalNode *> COMMA();
antlr4::tree::TerminalNode* COMMA(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
SettingExprListContext* settingExprList();
class SettingExprContext : public antlr4::ParserRuleContext {
public:
SettingExprContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
IdentifierContext *identifier();
antlr4::tree::TerminalNode *EQ_SINGLE();
LiteralContext *literal();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
SettingExprContext* settingExpr();
class WindowExprContext : public antlr4::ParserRuleContext {
public:
WindowExprContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
WinPartitionByClauseContext *winPartitionByClause();
WinOrderByClauseContext *winOrderByClause();
WinFrameClauseContext *winFrameClause();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
WindowExprContext* windowExpr();
class WinPartitionByClauseContext : public antlr4::ParserRuleContext {
public:
WinPartitionByClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *PARTITION();
antlr4::tree::TerminalNode *BY();
ColumnExprListContext *columnExprList();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
WinPartitionByClauseContext* winPartitionByClause();
class WinOrderByClauseContext : public antlr4::ParserRuleContext {
public:
WinOrderByClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *ORDER();
antlr4::tree::TerminalNode *BY();
OrderExprListContext *orderExprList();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
WinOrderByClauseContext* winOrderByClause();
class WinFrameClauseContext : public antlr4::ParserRuleContext {
public:
WinFrameClauseContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
WinFrameExtendContext *winFrameExtend();
antlr4::tree::TerminalNode *ROWS();
antlr4::tree::TerminalNode *RANGE();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
WinFrameClauseContext* winFrameClause();
class WinFrameExtendContext : public antlr4::ParserRuleContext {
public:
WinFrameExtendContext(antlr4::ParserRuleContext *parent, size_t invokingState);
WinFrameExtendContext() = default;
void copyFrom(WinFrameExtendContext *context);
using antlr4::ParserRuleContext::copyFrom;
virtual size_t getRuleIndex() const override;
};
class FrameStartContext : public WinFrameExtendContext {
public:
FrameStartContext(WinFrameExtendContext *ctx);
WinFrameBoundContext *winFrameBound();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class FrameBetweenContext : public WinFrameExtendContext {
public:
FrameBetweenContext(WinFrameExtendContext *ctx);
antlr4::tree::TerminalNode *BETWEEN();
std::vector<WinFrameBoundContext *> winFrameBound();
WinFrameBoundContext* winFrameBound(size_t i);
antlr4::tree::TerminalNode *AND();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
WinFrameExtendContext* winFrameExtend();
class WinFrameBoundContext : public antlr4::ParserRuleContext {
public:
WinFrameBoundContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *CURRENT();
antlr4::tree::TerminalNode *ROW();
antlr4::tree::TerminalNode *UNBOUNDED();
antlr4::tree::TerminalNode *PRECEDING();
antlr4::tree::TerminalNode *FOLLOWING();
NumberLiteralContext *numberLiteral();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
WinFrameBoundContext* winFrameBound();
class ExprContext : public antlr4::ParserRuleContext {
public:
ExprContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *EOF();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ExprContext* expr();
class ColumnTypeExprContext : public antlr4::ParserRuleContext {
public:
ColumnTypeExprContext(antlr4::ParserRuleContext *parent, size_t invokingState);
ColumnTypeExprContext() = default;
void copyFrom(ColumnTypeExprContext *context);
using antlr4::ParserRuleContext::copyFrom;
virtual size_t getRuleIndex() const override;
};
class ColumnTypeExprNestedContext : public ColumnTypeExprContext {
public:
ColumnTypeExprNestedContext(ColumnTypeExprContext *ctx);
std::vector<IdentifierContext *> identifier();
IdentifierContext* identifier(size_t i);
antlr4::tree::TerminalNode *LPAREN();
std::vector<ColumnTypeExprContext *> columnTypeExpr();
ColumnTypeExprContext* columnTypeExpr(size_t i);
antlr4::tree::TerminalNode *RPAREN();
std::vector<antlr4::tree::TerminalNode *> COMMA();
antlr4::tree::TerminalNode* COMMA(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnTypeExprParamContext : public ColumnTypeExprContext {
public:
ColumnTypeExprParamContext(ColumnTypeExprContext *ctx);
IdentifierContext *identifier();
antlr4::tree::TerminalNode *LPAREN();
antlr4::tree::TerminalNode *RPAREN();
ColumnExprListContext *columnExprList();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnTypeExprSimpleContext : public ColumnTypeExprContext {
public:
ColumnTypeExprSimpleContext(ColumnTypeExprContext *ctx);
IdentifierContext *identifier();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnTypeExprComplexContext : public ColumnTypeExprContext {
public:
ColumnTypeExprComplexContext(ColumnTypeExprContext *ctx);
IdentifierContext *identifier();
antlr4::tree::TerminalNode *LPAREN();
std::vector<ColumnTypeExprContext *> columnTypeExpr();
ColumnTypeExprContext* columnTypeExpr(size_t i);
antlr4::tree::TerminalNode *RPAREN();
std::vector<antlr4::tree::TerminalNode *> COMMA();
antlr4::tree::TerminalNode* COMMA(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnTypeExprEnumContext : public ColumnTypeExprContext {
public:
ColumnTypeExprEnumContext(ColumnTypeExprContext *ctx);
IdentifierContext *identifier();
antlr4::tree::TerminalNode *LPAREN();
std::vector<EnumValueContext *> enumValue();
EnumValueContext* enumValue(size_t i);
antlr4::tree::TerminalNode *RPAREN();
std::vector<antlr4::tree::TerminalNode *> COMMA();
antlr4::tree::TerminalNode* COMMA(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ColumnTypeExprContext* columnTypeExpr();
class ColumnExprListContext : public antlr4::ParserRuleContext {
public:
ColumnExprListContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
std::vector<antlr4::tree::TerminalNode *> COMMA();
antlr4::tree::TerminalNode* COMMA(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ColumnExprListContext* columnExprList();
class ColumnExprContext : public antlr4::ParserRuleContext {
public:
ColumnExprContext(antlr4::ParserRuleContext *parent, size_t invokingState);
ColumnExprContext() = default;
void copyFrom(ColumnExprContext *context);
using antlr4::ParserRuleContext::copyFrom;
virtual size_t getRuleIndex() const override;
};
class ColumnExprTernaryOpContext : public ColumnExprContext {
public:
ColumnExprTernaryOpContext(ColumnExprContext *ctx);
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
antlr4::tree::TerminalNode *QUERY();
antlr4::tree::TerminalNode *COLON();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprAliasContext : public ColumnExprContext {
public:
ColumnExprAliasContext(ColumnExprContext *ctx);
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *AS();
IdentifierContext *identifier();
antlr4::tree::TerminalNode *STRING_LITERAL();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprNegateContext : public ColumnExprContext {
public:
ColumnExprNegateContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *DASH();
ColumnExprContext *columnExpr();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprDictContext : public ColumnExprContext {
public:
ColumnExprDictContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *LBRACE();
antlr4::tree::TerminalNode *RBRACE();
KvPairListContext *kvPairList();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprSubqueryContext : public ColumnExprContext {
public:
ColumnExprSubqueryContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *LPAREN();
SelectSetStmtContext *selectSetStmt();
antlr4::tree::TerminalNode *RPAREN();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprLiteralContext : public ColumnExprContext {
public:
ColumnExprLiteralContext(ColumnExprContext *ctx);
LiteralContext *literal();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprArrayContext : public ColumnExprContext {
public:
ColumnExprArrayContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *LBRACKET();
antlr4::tree::TerminalNode *RBRACKET();
ColumnExprListContext *columnExprList();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprSubstringContext : public ColumnExprContext {
public:
ColumnExprSubstringContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *SUBSTRING();
antlr4::tree::TerminalNode *LPAREN();
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
antlr4::tree::TerminalNode *FROM();
antlr4::tree::TerminalNode *RPAREN();
antlr4::tree::TerminalNode *FOR();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprCastContext : public ColumnExprContext {
public:
ColumnExprCastContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *CAST();
antlr4::tree::TerminalNode *LPAREN();
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *AS();
ColumnTypeExprContext *columnTypeExpr();
antlr4::tree::TerminalNode *RPAREN();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprOrContext : public ColumnExprContext {
public:
ColumnExprOrContext(ColumnExprContext *ctx);
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
antlr4::tree::TerminalNode *OR();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprNullTupleAccessContext : public ColumnExprContext {
public:
ColumnExprNullTupleAccessContext(ColumnExprContext *ctx);
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *NULL_PROPERTY();
antlr4::tree::TerminalNode *DECIMAL_LITERAL();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprPrecedence1Context : public ColumnExprContext {
public:
ColumnExprPrecedence1Context(ColumnExprContext *ctx);
HogQLParser::ColumnExprContext *left = nullptr;
antlr4::Token *operator_ = nullptr;
HogQLParser::ColumnExprContext *right = nullptr;
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
antlr4::tree::TerminalNode *ASTERISK();
antlr4::tree::TerminalNode *SLASH();
antlr4::tree::TerminalNode *PERCENT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprPrecedence2Context : public ColumnExprContext {
public:
ColumnExprPrecedence2Context(ColumnExprContext *ctx);
HogQLParser::ColumnExprContext *left = nullptr;
antlr4::Token *operator_ = nullptr;
HogQLParser::ColumnExprContext *right = nullptr;
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
antlr4::tree::TerminalNode *PLUS();
antlr4::tree::TerminalNode *DASH();
antlr4::tree::TerminalNode *CONCAT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprPrecedence3Context : public ColumnExprContext {
public:
ColumnExprPrecedence3Context(ColumnExprContext *ctx);
HogQLParser::ColumnExprContext *left = nullptr;
antlr4::Token *operator_ = nullptr;
HogQLParser::ColumnExprContext *right = nullptr;
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
antlr4::tree::TerminalNode *IN();
antlr4::tree::TerminalNode *EQ_DOUBLE();
antlr4::tree::TerminalNode *EQ_SINGLE();
antlr4::tree::TerminalNode *NOT_EQ();
antlr4::tree::TerminalNode *LT_EQ();
antlr4::tree::TerminalNode *LT();
antlr4::tree::TerminalNode *GT_EQ();
antlr4::tree::TerminalNode *GT();
antlr4::tree::TerminalNode *LIKE();
antlr4::tree::TerminalNode *ILIKE();
antlr4::tree::TerminalNode *REGEX_SINGLE();
antlr4::tree::TerminalNode *REGEX_DOUBLE();
antlr4::tree::TerminalNode *NOT_REGEX();
antlr4::tree::TerminalNode *IREGEX_SINGLE();
antlr4::tree::TerminalNode *IREGEX_DOUBLE();
antlr4::tree::TerminalNode *NOT_IREGEX();
antlr4::tree::TerminalNode *COHORT();
antlr4::tree::TerminalNode *NOT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprIntervalContext : public ColumnExprContext {
public:
ColumnExprIntervalContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *INTERVAL();
ColumnExprContext *columnExpr();
IntervalContext *interval();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprIsNullContext : public ColumnExprContext {
public:
ColumnExprIsNullContext(ColumnExprContext *ctx);
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *IS();
antlr4::tree::TerminalNode *NULL_SQL();
antlr4::tree::TerminalNode *NOT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprWinFunctionTargetContext : public ColumnExprContext {
public:
ColumnExprWinFunctionTargetContext(ColumnExprContext *ctx);
HogQLParser::ColumnExprListContext *columnExprs = nullptr;
HogQLParser::ColumnExprListContext *columnArgList = nullptr;
std::vector<IdentifierContext *> identifier();
IdentifierContext* identifier(size_t i);
antlr4::tree::TerminalNode *OVER();
std::vector<antlr4::tree::TerminalNode *> LPAREN();
antlr4::tree::TerminalNode* LPAREN(size_t i);
std::vector<antlr4::tree::TerminalNode *> RPAREN();
antlr4::tree::TerminalNode* RPAREN(size_t i);
std::vector<ColumnExprListContext *> columnExprList();
ColumnExprListContext* columnExprList(size_t i);
antlr4::tree::TerminalNode *DISTINCT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprNullPropertyAccessContext : public ColumnExprContext {
public:
ColumnExprNullPropertyAccessContext(ColumnExprContext *ctx);
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *NULL_PROPERTY();
IdentifierContext *identifier();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprTrimContext : public ColumnExprContext {
public:
ColumnExprTrimContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *TRIM();
antlr4::tree::TerminalNode *LPAREN();
StringContext *string();
antlr4::tree::TerminalNode *FROM();
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *RPAREN();
antlr4::tree::TerminalNode *BOTH();
antlr4::tree::TerminalNode *LEADING();
antlr4::tree::TerminalNode *TRAILING();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprTagElementContext : public ColumnExprContext {
public:
ColumnExprTagElementContext(ColumnExprContext *ctx);
HogqlxTagElementContext *hogqlxTagElement();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprTemplateStringContext : public ColumnExprContext {
public:
ColumnExprTemplateStringContext(ColumnExprContext *ctx);
TemplateStringContext *templateString();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprTupleContext : public ColumnExprContext {
public:
ColumnExprTupleContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *LPAREN();
ColumnExprListContext *columnExprList();
antlr4::tree::TerminalNode *RPAREN();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprCallContext : public ColumnExprContext {
public:
ColumnExprCallContext(ColumnExprContext *ctx);
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *LPAREN();
antlr4::tree::TerminalNode *RPAREN();
ColumnExprListContext *columnExprList();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprArrayAccessContext : public ColumnExprContext {
public:
ColumnExprArrayAccessContext(ColumnExprContext *ctx);
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
antlr4::tree::TerminalNode *LBRACKET();
antlr4::tree::TerminalNode *RBRACKET();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprBetweenContext : public ColumnExprContext {
public:
ColumnExprBetweenContext(ColumnExprContext *ctx);
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
antlr4::tree::TerminalNode *BETWEEN();
antlr4::tree::TerminalNode *AND();
antlr4::tree::TerminalNode *NOT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprPropertyAccessContext : public ColumnExprContext {
public:
ColumnExprPropertyAccessContext(ColumnExprContext *ctx);
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *DOT();
IdentifierContext *identifier();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprParensContext : public ColumnExprContext {
public:
ColumnExprParensContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *LPAREN();
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *RPAREN();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprNullArrayAccessContext : public ColumnExprContext {
public:
ColumnExprNullArrayAccessContext(ColumnExprContext *ctx);
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
antlr4::tree::TerminalNode *NULL_PROPERTY();
antlr4::tree::TerminalNode *LBRACKET();
antlr4::tree::TerminalNode *RBRACKET();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprTimestampContext : public ColumnExprContext {
public:
ColumnExprTimestampContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *TIMESTAMP();
antlr4::tree::TerminalNode *STRING_LITERAL();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprNullishContext : public ColumnExprContext {
public:
ColumnExprNullishContext(ColumnExprContext *ctx);
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
antlr4::tree::TerminalNode *NULLISH();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprAndContext : public ColumnExprContext {
public:
ColumnExprAndContext(ColumnExprContext *ctx);
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
antlr4::tree::TerminalNode *AND();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprTupleAccessContext : public ColumnExprContext {
public:
ColumnExprTupleAccessContext(ColumnExprContext *ctx);
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *DOT();
antlr4::tree::TerminalNode *DECIMAL_LITERAL();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprCaseContext : public ColumnExprContext {
public:
ColumnExprCaseContext(ColumnExprContext *ctx);
HogQLParser::ColumnExprContext *caseExpr = nullptr;
HogQLParser::ColumnExprContext *whenExpr = nullptr;
HogQLParser::ColumnExprContext *thenExpr = nullptr;
HogQLParser::ColumnExprContext *elseExpr = nullptr;
antlr4::tree::TerminalNode *CASE();
antlr4::tree::TerminalNode *END();
std::vector<antlr4::tree::TerminalNode *> WHEN();
antlr4::tree::TerminalNode* WHEN(size_t i);
std::vector<antlr4::tree::TerminalNode *> THEN();
antlr4::tree::TerminalNode* THEN(size_t i);
antlr4::tree::TerminalNode *ELSE();
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprDateContext : public ColumnExprContext {
public:
ColumnExprDateContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *DATE();
antlr4::tree::TerminalNode *STRING_LITERAL();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprNotContext : public ColumnExprContext {
public:
ColumnExprNotContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *NOT();
ColumnExprContext *columnExpr();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprWinFunctionContext : public ColumnExprContext {
public:
ColumnExprWinFunctionContext(ColumnExprContext *ctx);
HogQLParser::ColumnExprListContext *columnExprs = nullptr;
HogQLParser::ColumnExprListContext *columnArgList = nullptr;
IdentifierContext *identifier();
antlr4::tree::TerminalNode *OVER();
std::vector<antlr4::tree::TerminalNode *> LPAREN();
antlr4::tree::TerminalNode* LPAREN(size_t i);
WindowExprContext *windowExpr();
std::vector<antlr4::tree::TerminalNode *> RPAREN();
antlr4::tree::TerminalNode* RPAREN(size_t i);
std::vector<ColumnExprListContext *> columnExprList();
ColumnExprListContext* columnExprList(size_t i);
antlr4::tree::TerminalNode *DISTINCT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprLambdaContext : public ColumnExprContext {
public:
ColumnExprLambdaContext(ColumnExprContext *ctx);
ColumnLambdaExprContext *columnLambdaExpr();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprIdentifierContext : public ColumnExprContext {
public:
ColumnExprIdentifierContext(ColumnExprContext *ctx);
ColumnIdentifierContext *columnIdentifier();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprFunctionContext : public ColumnExprContext {
public:
ColumnExprFunctionContext(ColumnExprContext *ctx);
HogQLParser::ColumnExprListContext *columnExprs = nullptr;
HogQLParser::ColumnExprListContext *columnArgList = nullptr;
IdentifierContext *identifier();
std::vector<antlr4::tree::TerminalNode *> LPAREN();
antlr4::tree::TerminalNode* LPAREN(size_t i);
std::vector<antlr4::tree::TerminalNode *> RPAREN();
antlr4::tree::TerminalNode* RPAREN(size_t i);
antlr4::tree::TerminalNode *DISTINCT();
std::vector<ColumnExprListContext *> columnExprList();
ColumnExprListContext* columnExprList(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class ColumnExprAsteriskContext : public ColumnExprContext {
public:
ColumnExprAsteriskContext(ColumnExprContext *ctx);
antlr4::tree::TerminalNode *ASTERISK();
TableIdentifierContext *tableIdentifier();
antlr4::tree::TerminalNode *DOT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ColumnExprContext* columnExpr();
ColumnExprContext* columnExpr(int precedence);
class ColumnLambdaExprContext : public antlr4::ParserRuleContext {
public:
ColumnLambdaExprContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *ARROW();
antlr4::tree::TerminalNode *LPAREN();
std::vector<IdentifierContext *> identifier();
IdentifierContext* identifier(size_t i);
antlr4::tree::TerminalNode *RPAREN();
ColumnExprContext *columnExpr();
BlockContext *block();
std::vector<antlr4::tree::TerminalNode *> COMMA();
antlr4::tree::TerminalNode* COMMA(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ColumnLambdaExprContext* columnLambdaExpr();
class HogqlxTagElementContext : public antlr4::ParserRuleContext {
public:
HogqlxTagElementContext(antlr4::ParserRuleContext *parent, size_t invokingState);
HogqlxTagElementContext() = default;
void copyFrom(HogqlxTagElementContext *context);
using antlr4::ParserRuleContext::copyFrom;
virtual size_t getRuleIndex() const override;
};
class HogqlxTagElementClosedContext : public HogqlxTagElementContext {
public:
HogqlxTagElementClosedContext(HogqlxTagElementContext *ctx);
antlr4::tree::TerminalNode *LT();
IdentifierContext *identifier();
antlr4::tree::TerminalNode *SLASH();
antlr4::tree::TerminalNode *GT();
std::vector<HogqlxTagAttributeContext *> hogqlxTagAttribute();
HogqlxTagAttributeContext* hogqlxTagAttribute(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class HogqlxTagElementNestedContext : public HogqlxTagElementContext {
public:
HogqlxTagElementNestedContext(HogqlxTagElementContext *ctx);
std::vector<antlr4::tree::TerminalNode *> LT();
antlr4::tree::TerminalNode* LT(size_t i);
std::vector<IdentifierContext *> identifier();
IdentifierContext* identifier(size_t i);
std::vector<antlr4::tree::TerminalNode *> GT();
antlr4::tree::TerminalNode* GT(size_t i);
antlr4::tree::TerminalNode *SLASH();
std::vector<HogqlxTagAttributeContext *> hogqlxTagAttribute();
HogqlxTagAttributeContext* hogqlxTagAttribute(size_t i);
HogqlxTagElementContext *hogqlxTagElement();
antlr4::tree::TerminalNode *LBRACE();
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *RBRACE();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
HogqlxTagElementContext* hogqlxTagElement();
class HogqlxTagAttributeContext : public antlr4::ParserRuleContext {
public:
HogqlxTagAttributeContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
IdentifierContext *identifier();
antlr4::tree::TerminalNode *EQ_SINGLE();
StringContext *string();
antlr4::tree::TerminalNode *LBRACE();
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *RBRACE();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
HogqlxTagAttributeContext* hogqlxTagAttribute();
class WithExprListContext : public antlr4::ParserRuleContext {
public:
WithExprListContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
std::vector<WithExprContext *> withExpr();
WithExprContext* withExpr(size_t i);
std::vector<antlr4::tree::TerminalNode *> COMMA();
antlr4::tree::TerminalNode* COMMA(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
WithExprListContext* withExprList();
class WithExprContext : public antlr4::ParserRuleContext {
public:
WithExprContext(antlr4::ParserRuleContext *parent, size_t invokingState);
WithExprContext() = default;
void copyFrom(WithExprContext *context);
using antlr4::ParserRuleContext::copyFrom;
virtual size_t getRuleIndex() const override;
};
class WithExprColumnContext : public WithExprContext {
public:
WithExprColumnContext(WithExprContext *ctx);
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *AS();
IdentifierContext *identifier();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class WithExprSubqueryContext : public WithExprContext {
public:
WithExprSubqueryContext(WithExprContext *ctx);
IdentifierContext *identifier();
antlr4::tree::TerminalNode *AS();
antlr4::tree::TerminalNode *LPAREN();
SelectSetStmtContext *selectSetStmt();
antlr4::tree::TerminalNode *RPAREN();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
WithExprContext* withExpr();
class ColumnIdentifierContext : public antlr4::ParserRuleContext {
public:
ColumnIdentifierContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
PlaceholderContext *placeholder();
NestedIdentifierContext *nestedIdentifier();
TableIdentifierContext *tableIdentifier();
antlr4::tree::TerminalNode *DOT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
ColumnIdentifierContext* columnIdentifier();
class NestedIdentifierContext : public antlr4::ParserRuleContext {
public:
NestedIdentifierContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
std::vector<IdentifierContext *> identifier();
IdentifierContext* identifier(size_t i);
std::vector<antlr4::tree::TerminalNode *> DOT();
antlr4::tree::TerminalNode* DOT(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
NestedIdentifierContext* nestedIdentifier();
class TableExprContext : public antlr4::ParserRuleContext {
public:
TableExprContext(antlr4::ParserRuleContext *parent, size_t invokingState);
TableExprContext() = default;
void copyFrom(TableExprContext *context);
using antlr4::ParserRuleContext::copyFrom;
virtual size_t getRuleIndex() const override;
};
class TableExprTagContext : public TableExprContext {
public:
TableExprTagContext(TableExprContext *ctx);
HogqlxTagElementContext *hogqlxTagElement();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class TableExprIdentifierContext : public TableExprContext {
public:
TableExprIdentifierContext(TableExprContext *ctx);
TableIdentifierContext *tableIdentifier();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class TableExprPlaceholderContext : public TableExprContext {
public:
TableExprPlaceholderContext(TableExprContext *ctx);
PlaceholderContext *placeholder();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class TableExprSubqueryContext : public TableExprContext {
public:
TableExprSubqueryContext(TableExprContext *ctx);
antlr4::tree::TerminalNode *LPAREN();
SelectSetStmtContext *selectSetStmt();
antlr4::tree::TerminalNode *RPAREN();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class TableExprAliasContext : public TableExprContext {
public:
TableExprAliasContext(TableExprContext *ctx);
TableExprContext *tableExpr();
AliasContext *alias();
antlr4::tree::TerminalNode *AS();
IdentifierContext *identifier();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
class TableExprFunctionContext : public TableExprContext {
public:
TableExprFunctionContext(TableExprContext *ctx);
TableFunctionExprContext *tableFunctionExpr();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
TableExprContext* tableExpr();
TableExprContext* tableExpr(int precedence);
class TableFunctionExprContext : public antlr4::ParserRuleContext {
public:
TableFunctionExprContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
IdentifierContext *identifier();
antlr4::tree::TerminalNode *LPAREN();
antlr4::tree::TerminalNode *RPAREN();
TableArgListContext *tableArgList();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
TableFunctionExprContext* tableFunctionExpr();
class TableIdentifierContext : public antlr4::ParserRuleContext {
public:
TableIdentifierContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
IdentifierContext *identifier();
DatabaseIdentifierContext *databaseIdentifier();
antlr4::tree::TerminalNode *DOT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
TableIdentifierContext* tableIdentifier();
class TableArgListContext : public antlr4::ParserRuleContext {
public:
TableArgListContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
std::vector<ColumnExprContext *> columnExpr();
ColumnExprContext* columnExpr(size_t i);
std::vector<antlr4::tree::TerminalNode *> COMMA();
antlr4::tree::TerminalNode* COMMA(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
TableArgListContext* tableArgList();
class DatabaseIdentifierContext : public antlr4::ParserRuleContext {
public:
DatabaseIdentifierContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
IdentifierContext *identifier();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
DatabaseIdentifierContext* databaseIdentifier();
class FloatingLiteralContext : public antlr4::ParserRuleContext {
public:
FloatingLiteralContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *FLOATING_LITERAL();
antlr4::tree::TerminalNode *DOT();
std::vector<antlr4::tree::TerminalNode *> DECIMAL_LITERAL();
antlr4::tree::TerminalNode* DECIMAL_LITERAL(size_t i);
antlr4::tree::TerminalNode *OCTAL_LITERAL();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
FloatingLiteralContext* floatingLiteral();
class NumberLiteralContext : public antlr4::ParserRuleContext {
public:
NumberLiteralContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
FloatingLiteralContext *floatingLiteral();
antlr4::tree::TerminalNode *OCTAL_LITERAL();
antlr4::tree::TerminalNode *DECIMAL_LITERAL();
antlr4::tree::TerminalNode *HEXADECIMAL_LITERAL();
antlr4::tree::TerminalNode *INF();
antlr4::tree::TerminalNode *NAN_SQL();
antlr4::tree::TerminalNode *PLUS();
antlr4::tree::TerminalNode *DASH();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
NumberLiteralContext* numberLiteral();
class LiteralContext : public antlr4::ParserRuleContext {
public:
LiteralContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
NumberLiteralContext *numberLiteral();
antlr4::tree::TerminalNode *STRING_LITERAL();
antlr4::tree::TerminalNode *NULL_SQL();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
LiteralContext* literal();
class IntervalContext : public antlr4::ParserRuleContext {
public:
IntervalContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *SECOND();
antlr4::tree::TerminalNode *MINUTE();
antlr4::tree::TerminalNode *HOUR();
antlr4::tree::TerminalNode *DAY();
antlr4::tree::TerminalNode *WEEK();
antlr4::tree::TerminalNode *MONTH();
antlr4::tree::TerminalNode *QUARTER();
antlr4::tree::TerminalNode *YEAR();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
IntervalContext* interval();
class KeywordContext : public antlr4::ParserRuleContext {
public:
KeywordContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *ALL();
antlr4::tree::TerminalNode *AND();
antlr4::tree::TerminalNode *ANTI();
antlr4::tree::TerminalNode *ANY();
antlr4::tree::TerminalNode *ARRAY();
antlr4::tree::TerminalNode *AS();
antlr4::tree::TerminalNode *ASCENDING();
antlr4::tree::TerminalNode *ASOF();
antlr4::tree::TerminalNode *BETWEEN();
antlr4::tree::TerminalNode *BOTH();
antlr4::tree::TerminalNode *BY();
antlr4::tree::TerminalNode *CASE();
antlr4::tree::TerminalNode *CAST();
antlr4::tree::TerminalNode *COHORT();
antlr4::tree::TerminalNode *COLLATE();
antlr4::tree::TerminalNode *CROSS();
antlr4::tree::TerminalNode *CUBE();
antlr4::tree::TerminalNode *CURRENT();
antlr4::tree::TerminalNode *DATE();
antlr4::tree::TerminalNode *DESC();
antlr4::tree::TerminalNode *DESCENDING();
antlr4::tree::TerminalNode *DISTINCT();
antlr4::tree::TerminalNode *ELSE();
antlr4::tree::TerminalNode *END();
antlr4::tree::TerminalNode *EXTRACT();
antlr4::tree::TerminalNode *FINAL();
antlr4::tree::TerminalNode *FIRST();
antlr4::tree::TerminalNode *FOR();
antlr4::tree::TerminalNode *FOLLOWING();
antlr4::tree::TerminalNode *FROM();
antlr4::tree::TerminalNode *FULL();
antlr4::tree::TerminalNode *GROUP();
antlr4::tree::TerminalNode *HAVING();
antlr4::tree::TerminalNode *ID();
antlr4::tree::TerminalNode *IS();
antlr4::tree::TerminalNode *IF();
antlr4::tree::TerminalNode *ILIKE();
antlr4::tree::TerminalNode *IN();
antlr4::tree::TerminalNode *INNER();
antlr4::tree::TerminalNode *INTERVAL();
antlr4::tree::TerminalNode *JOIN();
antlr4::tree::TerminalNode *KEY();
antlr4::tree::TerminalNode *LAST();
antlr4::tree::TerminalNode *LEADING();
antlr4::tree::TerminalNode *LEFT();
antlr4::tree::TerminalNode *LIKE();
antlr4::tree::TerminalNode *LIMIT();
antlr4::tree::TerminalNode *NOT();
antlr4::tree::TerminalNode *NULLS();
antlr4::tree::TerminalNode *OFFSET();
antlr4::tree::TerminalNode *ON();
antlr4::tree::TerminalNode *OR();
antlr4::tree::TerminalNode *ORDER();
antlr4::tree::TerminalNode *OUTER();
antlr4::tree::TerminalNode *OVER();
antlr4::tree::TerminalNode *PARTITION();
antlr4::tree::TerminalNode *PRECEDING();
antlr4::tree::TerminalNode *PREWHERE();
antlr4::tree::TerminalNode *RANGE();
antlr4::tree::TerminalNode *RETURN();
antlr4::tree::TerminalNode *RIGHT();
antlr4::tree::TerminalNode *ROLLUP();
antlr4::tree::TerminalNode *ROW();
antlr4::tree::TerminalNode *ROWS();
antlr4::tree::TerminalNode *SAMPLE();
antlr4::tree::TerminalNode *SELECT();
antlr4::tree::TerminalNode *SEMI();
antlr4::tree::TerminalNode *SETTINGS();
antlr4::tree::TerminalNode *SUBSTRING();
antlr4::tree::TerminalNode *THEN();
antlr4::tree::TerminalNode *TIES();
antlr4::tree::TerminalNode *TIMESTAMP();
antlr4::tree::TerminalNode *TOTALS();
antlr4::tree::TerminalNode *TRAILING();
antlr4::tree::TerminalNode *TRIM();
antlr4::tree::TerminalNode *TRUNCATE();
antlr4::tree::TerminalNode *TO();
antlr4::tree::TerminalNode *TOP();
antlr4::tree::TerminalNode *UNBOUNDED();
antlr4::tree::TerminalNode *UNION();
antlr4::tree::TerminalNode *USING();
antlr4::tree::TerminalNode *WHEN();
antlr4::tree::TerminalNode *WHERE();
antlr4::tree::TerminalNode *WINDOW();
antlr4::tree::TerminalNode *WITH();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
KeywordContext* keyword();
class KeywordForAliasContext : public antlr4::ParserRuleContext {
public:
KeywordForAliasContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *DATE();
antlr4::tree::TerminalNode *FIRST();
antlr4::tree::TerminalNode *ID();
antlr4::tree::TerminalNode *KEY();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
KeywordForAliasContext* keywordForAlias();
class AliasContext : public antlr4::ParserRuleContext {
public:
AliasContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *IDENTIFIER();
KeywordForAliasContext *keywordForAlias();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
AliasContext* alias();
class IdentifierContext : public antlr4::ParserRuleContext {
public:
IdentifierContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *IDENTIFIER();
IntervalContext *interval();
KeywordContext *keyword();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
IdentifierContext* identifier();
class EnumValueContext : public antlr4::ParserRuleContext {
public:
EnumValueContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
StringContext *string();
antlr4::tree::TerminalNode *EQ_SINGLE();
NumberLiteralContext *numberLiteral();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
EnumValueContext* enumValue();
class PlaceholderContext : public antlr4::ParserRuleContext {
public:
PlaceholderContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *LBRACE();
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *RBRACE();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
PlaceholderContext* placeholder();
class StringContext : public antlr4::ParserRuleContext {
public:
StringContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *STRING_LITERAL();
TemplateStringContext *templateString();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
StringContext* string();
class TemplateStringContext : public antlr4::ParserRuleContext {
public:
TemplateStringContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *QUOTE_SINGLE_TEMPLATE();
antlr4::tree::TerminalNode *QUOTE_SINGLE();
std::vector<StringContentsContext *> stringContents();
StringContentsContext* stringContents(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
TemplateStringContext* templateString();
class StringContentsContext : public antlr4::ParserRuleContext {
public:
StringContentsContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *STRING_ESCAPE_TRIGGER();
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *RBRACE();
antlr4::tree::TerminalNode *STRING_TEXT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
StringContentsContext* stringContents();
class FullTemplateStringContext : public antlr4::ParserRuleContext {
public:
FullTemplateStringContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *QUOTE_SINGLE_TEMPLATE_FULL();
antlr4::tree::TerminalNode *EOF();
std::vector<StringContentsFullContext *> stringContentsFull();
StringContentsFullContext* stringContentsFull(size_t i);
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
FullTemplateStringContext* fullTemplateString();
class StringContentsFullContext : public antlr4::ParserRuleContext {
public:
StringContentsFullContext(antlr4::ParserRuleContext *parent, size_t invokingState);
virtual size_t getRuleIndex() const override;
antlr4::tree::TerminalNode *FULL_STRING_ESCAPE_TRIGGER();
ColumnExprContext *columnExpr();
antlr4::tree::TerminalNode *RBRACE();
antlr4::tree::TerminalNode *FULL_STRING_TEXT();
virtual std::any accept(antlr4::tree::ParseTreeVisitor *visitor) override;
};
StringContentsFullContext* stringContentsFull();
bool sempred(antlr4::RuleContext *_localctx, size_t ruleIndex, size_t predicateIndex) override;
bool joinExprSempred(JoinExprContext *_localctx, size_t predicateIndex);
bool columnExprSempred(ColumnExprContext *_localctx, size_t predicateIndex);
bool tableExprSempred(TableExprContext *_localctx, size_t predicateIndex);
// By default the static state used to implement the parser is lazily initialized during the first
// call to the constructor. You can call this function if you wish to initialize the static state
// ahead of time.
static void initialize();
private:
};