ClickHouse/dbms/src/Parsers/ExpressionListParsers.cpp

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#include <DB/Parsers/IAST.h>
#include <DB/Parsers/ASTExpressionList.h>
#include <DB/Parsers/ASTFunction.h>
#include <DB/Parsers/CommonParsers.h>
#include <DB/Parsers/ExpressionElementParsers.h>
#include <DB/Parsers/ExpressionListParsers.h>
namespace DB
{
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const char * ParserMultiplicativeExpression::operators[] =
{
"*", "multiply",
"/", "divide",
"%", "modulo",
nullptr
};
const char * ParserUnaryMinusExpression::operators[] =
{
"-", "negate",
nullptr
};
const char * ParserAdditiveExpression::operators[] =
{
"+", "plus",
"-", "minus",
nullptr
};
const char * ParserComparisonExpression::operators[] =
{
"==", "equals",
"!=", "notEquals",
"<>", "notEquals",
"<=", "lessOrEquals",
">=", "greaterOrEquals",
"<", "less",
">", "greater",
"=", "equals",
"LIKE", "like",
"NOT LIKE", "notLike",
"IN", "in",
"NOT IN", "notIn",
"GLOBAL IN", "globalIn",
"GLOBAL NOT IN","globalNotIn",
nullptr
};
const char * ParserLogicalNotExpression::operators[] =
{
"NOT", "not",
nullptr
};
const char * ParserArrayElementExpression::operators[] =
{
"[", "arrayElement",
nullptr
};
const char * ParserTupleElementExpression::operators[] =
{
".", "tupleElement",
nullptr
};
bool ParserList::parseImpl(Pos & pos, Pos end, ASTPtr & node, Pos & max_parsed_pos, Expected & expected)
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{
bool first = true;
ParserWhiteSpaceOrComments ws;
ASTExpressionList * list = new ASTExpressionList;
node = list;
while (1)
{
if (first)
{
ASTPtr elem;
if (!elem_parser->parse(pos, end, elem, max_parsed_pos, expected))
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break;
list->children.push_back(elem);
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first = false;
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}
else
{
ws.ignore(pos, end);
if (!separator_parser->ignore(pos, end, max_parsed_pos, expected))
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break;
ws.ignore(pos, end);
ASTPtr elem;
if (!elem_parser->parse(pos, end, elem, max_parsed_pos, expected))
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return false;
list->children.push_back(elem);
}
}
if (!allow_empty && first)
return false;
return true;
}
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bool ParserLeftAssociativeBinaryOperatorList::parseImpl(Pos & pos, Pos end, ASTPtr & node, Pos & max_parsed_pos, Expected & expected)
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{
bool first = true;
ParserWhiteSpaceOrComments ws;
Pos begin = pos;
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while (1)
{
if (first)
{
ASTPtr elem;
if (!first_elem_parser->parse(pos, end, elem, max_parsed_pos, expected))
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return false;
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node = elem;
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first = false;
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}
else
{
ws.ignore(pos, end);
/// пробуем найти какой-нибудь из допустимых операторов
const char ** it;
for (it = operators; *it; it += 2)
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{
ParserString op(it[0], true, true);
if (op.ignore(pos, end, max_parsed_pos, expected))
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break;
}
if (!*it)
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break;
ws.ignore(pos, end);
/// функция, соответствующая оператору
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ASTFunction * p_function = new ASTFunction;
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ASTFunction & function = *p_function;
ASTPtr function_node = p_function;
/// аргументы функции
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ASTExpressionList * p_exp_list = new ASTExpressionList;
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ASTExpressionList & exp_list = *p_exp_list;
ASTPtr exp_list_node = p_exp_list;
ASTPtr elem;
if (!(remaining_elem_parser ? remaining_elem_parser : first_elem_parser)->parse(pos, end, elem, max_parsed_pos, expected))
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return false;
/// первым аргументом функции будет предыдущий элемент, вторым - следующий
function.range.first = begin;
function.range.second = pos;
function.name = it[1];
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function.arguments = exp_list_node;
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function.children.push_back(exp_list_node);
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exp_list.children.push_back(node);
exp_list.children.push_back(elem);
exp_list.range.first = begin;
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exp_list.range.second = pos;
/** специальное исключение для оператора доступа к элементу массива x[y], который
* содержит инфиксную часть '[' и суффиксную ']' (задаётся в виде '[')
*/
if (0 == strcmp(it[0], "["))
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{
ParserString rest_p("]");
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ws.ignore(pos, end);
if (!rest_p.ignore(pos, end, max_parsed_pos, expected))
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return false;
}
node = function_node;
}
}
return true;
}
bool ParserVariableArityOperatorList::parseImpl(Pos & pos, Pos end, ASTPtr & node, Pos & max_parsed_pos, Expected & expected)
{
ParserWhiteSpaceOrComments ws;
Pos begin = pos;
ASTPtr arguments;
if (!elem_parser->parse(pos, end, node, max_parsed_pos, expected))
return false;
while (true)
{
ws.ignore(pos, end);
if (!infix_parser.ignore(pos, end, max_parsed_pos, expected))
break;
ws.ignore(pos, end);
if (!arguments)
{
node = makeASTFunction(function_name, node);
arguments = static_cast<ASTFunction &>(*node).arguments;
}
ASTPtr elem;
if (!elem_parser->parse(pos, end, elem, max_parsed_pos, expected))
return false;
arguments->children.push_back(elem);
}
if (arguments)
arguments->range = node->range = StringRange(begin, pos);
return true;
}
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bool ParserTernaryOperatorExpression::parseImpl(Pos & pos, Pos end, ASTPtr & node, Pos & max_parsed_pos, Expected & expected)
{
ParserWhiteSpaceOrComments ws;
ParserString symbol1("?");
ParserString symbol2(":");
ASTPtr elem_cond;
ASTPtr elem_then;
ASTPtr elem_else;
Pos begin = pos;
if (!elem_parser.parse(pos, end, elem_cond, max_parsed_pos, expected))
return false;
ws.ignore(pos, end);
if (!symbol1.ignore(pos, end, max_parsed_pos, expected))
node = elem_cond;
else
{
ws.ignore(pos, end);
if (!elem_parser.parse(pos, end, elem_then, max_parsed_pos, expected))
return false;
ws.ignore(pos, end);
if (!symbol2.ignore(pos, end, max_parsed_pos, expected))
return false;
ws.ignore(pos, end);
if (!elem_parser.parse(pos, end, elem_else, max_parsed_pos, expected))
return false;
/// функция, соответствующая оператору
ASTFunction * p_function = new ASTFunction;
ASTFunction & function = *p_function;
ASTPtr function_node = p_function;
/// аргументы функции
ASTExpressionList * p_exp_list = new ASTExpressionList;
ASTExpressionList & exp_list = *p_exp_list;
ASTPtr exp_list_node = p_exp_list;
function.range.first = begin;
function.range.second = pos;
function.name = "if";
function.arguments = exp_list_node;
function.children.push_back(exp_list_node);
exp_list.children.push_back(elem_cond);
exp_list.children.push_back(elem_then);
exp_list.children.push_back(elem_else);
exp_list.range.first = begin;
exp_list.range.second = pos;
node = function_node;
}
return true;
}
bool ParserLambdaExpression::parseImpl(Pos & pos, Pos end, ASTPtr & node, Pos & max_parsed_pos, Expected & expected)
{
ParserWhiteSpaceOrComments ws;
ParserString arrow("->");
ParserString open("(");
ParserString close(")");
Pos begin = pos;
do
{
ASTPtr inner_arguments;
ASTPtr expression;
bool was_open = false;
if (open.ignore(pos, end, max_parsed_pos, expected))
{
ws.ignore(pos, end, max_parsed_pos, expected);
was_open = true;
}
if (!ParserList(ParserPtr(new ParserIdentifier), ParserPtr(new ParserString(","))).parse(pos, end, inner_arguments, max_parsed_pos, expected))
break;
ws.ignore(pos, end, max_parsed_pos, expected);
if (was_open)
{
if (!close.ignore(pos, end, max_parsed_pos, expected))
break;
ws.ignore(pos, end, max_parsed_pos, expected);
}
if (!arrow.ignore(pos, end, max_parsed_pos, expected))
break;
ws.ignore(pos, end, max_parsed_pos, expected);
if (!elem_parser.parse(pos, end, expression, max_parsed_pos, expected))
return false;
/// lambda(tuple(inner_arguments), expression)
ASTFunction * lambda = new ASTFunction;
node = lambda;
lambda->name = "lambda";
ASTExpressionList * outer_arguments = new ASTExpressionList;
lambda->arguments = outer_arguments;
lambda->children.push_back(lambda->arguments);
ASTFunction * tuple = new ASTFunction;
outer_arguments->children.push_back(tuple);
tuple->name = "tuple";
tuple->arguments = inner_arguments;
tuple->children.push_back(inner_arguments);
outer_arguments->children.push_back(expression);
return true;
}
while (false);
pos = begin;
return elem_parser.parse(pos, end, node, max_parsed_pos, expected);
}
bool ParserPrefixUnaryOperatorExpression::parseImpl(Pos & pos, Pos end, ASTPtr & node, Pos & max_parsed_pos, Expected & expected)
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{
ParserWhiteSpaceOrComments ws;
/// пробуем найти какой-нибудь из допустимых операторов
Pos begin = pos;
const char ** it;
for (it = operators; *it; it += 2)
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{
ParserString op(it[0], true, true);
if (op.ignore(pos, end, max_parsed_pos, expected))
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break;
}
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ws.ignore(pos, end);
/// Позволяем парсить цепочки вида NOT NOT x. Это хак.
/** Так сделано, потому что среди унарных операторов есть только минус и NOT.
* Но для минуса цепочку из унарных операторов не требуется поддерживать.
*/
if (it[0] && 0 == strncmp(it[0], "NOT", 3))
{
/// Было ли чётное количество NOT.
bool even = false;
const char ** jt;
while (true)
{
for (jt = operators; *jt; jt += 2)
{
ParserString op(jt[0], true, true);
if (op.ignore(pos, end, max_parsed_pos, expected))
break;
}
if (!*jt)
break;
even = !even;
ws.ignore(pos, end);
}
if (even)
it = jt; /// Зануляем результат парсинга первого NOT. Получается, как будто цепочки NOT нет вообще.
}
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ASTPtr elem;
if (!elem_parser->parse(pos, end, elem, max_parsed_pos, expected))
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return false;
if (!*it)
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node = elem;
else
{
/// функция, соответствующая оператору
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ASTFunction * p_function = new ASTFunction;
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ASTFunction & function = *p_function;
ASTPtr function_node = p_function;
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/// аргументы функции
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ASTExpressionList * p_exp_list = new ASTExpressionList;
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ASTExpressionList & exp_list = *p_exp_list;
ASTPtr exp_list_node = p_exp_list;
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function.range.first = begin;
function.range.second = pos;
function.name = it[1];
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function.arguments = exp_list_node;
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function.children.push_back(exp_list_node);
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exp_list.children.push_back(elem);
exp_list.range.first = begin;
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exp_list.range.second = pos;
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node = function_node;
}
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return true;
}
bool ParserUnaryMinusExpression::parseImpl(Pos & pos, Pos end, ASTPtr & node, Pos & max_parsed_pos, Expected & expected)
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{
/// В качестве исключения, отрицательные числа должны парситься, как литералы, а не как применение оператора.
if (pos < end && *pos == '-')
{
ParserLiteral lit_p;
Pos begin = pos;
if (lit_p.parse(pos, end, node, max_parsed_pos, expected))
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return true;
pos = begin;
}
return operator_parser.parse(pos, end, node, max_parsed_pos, expected);
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}
bool ParserArrayElementExpression::parseImpl(Pos & pos, Pos end, ASTPtr & node, Pos & max_parsed_pos, Expected &expected)
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{
return ParserLeftAssociativeBinaryOperatorList{
operators,
ParserPtr(new ParserExpressionElement),
ParserPtr(new ParserExpressionWithOptionalAlias(false))
}.parse(pos, end, node, max_parsed_pos, expected);
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}
bool ParserTupleElementExpression::parseImpl(Pos & pos, Pos end, ASTPtr & node, Pos & max_parsed_pos, Expected &expected)
{
return ParserLeftAssociativeBinaryOperatorList{
operators,
ParserPtr(new ParserArrayElementExpression),
ParserPtr(new ParserUnsignedInteger)
}.parse(pos, end, node, max_parsed_pos, expected);
}
ParserExpressionWithOptionalAlias::ParserExpressionWithOptionalAlias(bool allow_alias_without_as_keyword)
: impl(new ParserWithOptionalAlias(ParserPtr(new ParserLambdaExpression), allow_alias_without_as_keyword))
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{
}
bool ParserExpressionList::parseImpl(Pos & pos, Pos end, ASTPtr & node, Pos & max_parsed_pos, Expected & expected)
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{
return ParserList(ParserPtr(new ParserExpressionWithOptionalAlias(allow_alias_without_as_keyword)), ParserPtr(new ParserString(","))).parse(pos, end, node, max_parsed_pos, expected);
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}
bool ParserNotEmptyExpressionList::parseImpl(Pos & pos, Pos end, ASTPtr & node, Pos & max_parsed_pos, Expected & expected)
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{
return nested_parser.parse(pos, end, node, max_parsed_pos, expected)
&& !typeid_cast<ASTExpressionList &>(*node).children.empty();
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}
bool ParserOrderByExpressionList::parseImpl(Pos & pos, Pos end, ASTPtr & node, Pos & max_parsed_pos, Expected & expected)
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{
return ParserList(ParserPtr(new ParserOrderByElement), ParserPtr(new ParserString(",")), false).parse(pos, end, node, max_parsed_pos, expected);
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}
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}