ClickHouse/dbms/src/Parsers/ExpressionElementParsers.h

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#pragma once
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#include <Parsers/IParserBase.h>
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namespace DB
{
class ParserArray : public IParserBase
{
protected:
const char * getName() const { return "array"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
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/** If in parenthesis an expression from one element - returns this element in `node`;
* or if there is a SELECT subquery in parenthesis, then this subquery returned in `node`;
* otherwise returns `tuple` function from the contents of brackets.
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*/
class ParserParenthesisExpression : public IParserBase
{
protected:
const char * getName() const { return "parenthesized expression"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
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/** The SELECT subquery is in parenthesis.
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*/
class ParserSubquery : public IParserBase
{
protected:
const char * getName() const { return "SELECT subquery"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
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/** An identifier, for example, x_yz123 or `something special`
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*/
class ParserIdentifier : public IParserBase
{
protected:
const char * getName() const { return "identifier"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
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/** An identifier, possibly containing a dot, for example, x_yz123 or `something special` or Hits.EventTime
*/
class ParserCompoundIdentifier : public IParserBase
{
protected:
const char * getName() const { return "compound identifier"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
};
/// Just *
class ParserAsterisk : public IParserBase
{
protected:
const char * getName() const { return "asterisk"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
};
/** Something like t.* or db.table.*
*/
class ParserQualifiedAsterisk : public IParserBase
{
protected:
const char * getName() const { return "qualified asterisk"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
};
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/** A function, for example, f(x, y + 1, g(z)).
* Or an aggregate function: sum(x + f(y)), corr(x, y). The syntax is the same as the usual function.
* Or a parametric aggregate function: quantile(0.9)(x + y).
* Syntax - two pairs of parentheses instead of one. The first is for parameters, the second for arguments.
* For functions, the DISTINCT modifier can be specified, for example, count(DISTINCT x, y).
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*/
class ParserFunction : public IParserBase
{
protected:
const char * getName() const { return "function"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
class ParserCastExpression : public IParserBase
{
protected:
const char * getName() const override { return "CAST expression"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected) override;
};
class ParserExtractExpression : public IParserBase
{
protected:
const char * getName() const override { return "EXTRACT expression"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected) override;
};
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/** NULL literal.
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*/
class ParserNull : public IParserBase
{
protected:
const char * getName() const { return "NULL"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
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/** Numeric literal.
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*/
class ParserNumber : public IParserBase
{
protected:
const char * getName() const { return "number"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
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/** Unsigned integer, used in right hand side of tuple access operator (x.1).
*/
class ParserUnsignedInteger : public IParserBase
{
protected:
const char * getName() const { return "unsigned integer"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
};
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/** String in single quotes.
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*/
class ParserStringLiteral : public IParserBase
{
protected:
const char * getName() const { return "string literal"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
};
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/** An array of literals.
* Arrays can also be parsed as an application of [] operator.
* But parsing the whole array as a whole constant seriously speeds up the analysis of expressions in the case of very large arrays.
* We try to parse the array as an array of literals first (fast path),
* and if it did not work out (when the array consists of complex expressions) - parse as an application of [] operator (slow path).
*/
class ParserArrayOfLiterals : public IParserBase
{
protected:
const char * getName() const { return "array"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
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/** The literal is one of: NULL, UInt64, Int64, Float64, String.
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*/
class ParserLiteral : public IParserBase
{
protected:
const char * getName() const { return "literal"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
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/** The alias is the identifier before which `AS` comes. For example: AS x_yz123.
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*/
class ParserAlias : public IParserBase
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{
public:
ParserAlias(bool allow_alias_without_as_keyword_)
: allow_alias_without_as_keyword(allow_alias_without_as_keyword_) {}
private:
static const char * restricted_keywords[];
bool allow_alias_without_as_keyword;
const char * getName() const { return "alias"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
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/** The expression element is one of: an expression in parentheses, an array, a literal, a function, an identifier, an asterisk.
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*/
class ParserExpressionElement : public IParserBase
{
protected:
const char * getName() const { return "element of expression"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
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/** An expression element, possibly with an alias, if appropriate.
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*/
class ParserWithOptionalAlias : public IParserBase
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{
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public:
ParserWithOptionalAlias(ParserPtr && elem_parser_, bool allow_alias_without_as_keyword_, bool prefer_alias_to_column_name_ = false)
: elem_parser(std::move(elem_parser_)), allow_alias_without_as_keyword(allow_alias_without_as_keyword_),
prefer_alias_to_column_name(prefer_alias_to_column_name_) {}
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protected:
ParserPtr elem_parser;
bool allow_alias_without_as_keyword;
bool prefer_alias_to_column_name;
const char * getName() const { return "element of expression with optional alias"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
/** Element of ORDER BY expression - same as expression element, but in addition, ASC[ENDING] | DESC[ENDING] could be specified
* and optionally, NULLS LAST|FIRST
* and optionally, COLLATE 'locale'.
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*/
class ParserOrderByElement : public IParserBase
{
protected:
const char * getName() const { return "element of ORDER BY expression"; }
bool parseImpl(Pos & pos, ASTPtr & node, Expected & expected);
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};
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}