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ClickHouse/dbms/src/Interpreters/DatabaseAndTableWithAlias.cpp

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#include <Interpreters/DatabaseAndTableWithAlias.h>
#include <Interpreters/IdentifierSemantic.h>
#include <Interpreters/AnalyzedJoin.h> /// for getNamesAndTypeListFromTableExpression
#include <Interpreters/Context.h>
#include <Common/typeid_cast.h>
#include <Parsers/IAST.h>
#include <Parsers/ASTIdentifier.h>
#include <Parsers/ASTTablesInSelectQuery.h>
#include <Parsers/ASTSelectQuery.h>
#include <Parsers/ASTSubquery.h>
namespace DB
{
NameSet removeDuplicateColumns(NamesAndTypesList & columns);
DatabaseAndTableWithAlias::DatabaseAndTableWithAlias(const ASTIdentifier & identifier, const String & current_database)
{
alias = identifier.tryGetAlias();
std::tie(database, table) = IdentifierSemantic::extractDatabaseAndTable(identifier);
if (database.empty())
database = current_database;
}
DatabaseAndTableWithAlias::DatabaseAndTableWithAlias(const ASTPtr & node, const String & current_database)
{
const auto * identifier = node->As<ASTIdentifier>();
if (!identifier)
throw Exception("Logical error: identifier expected", ErrorCodes::LOGICAL_ERROR);
*this = DatabaseAndTableWithAlias(*identifier, current_database);
}
DatabaseAndTableWithAlias::DatabaseAndTableWithAlias(const ASTTableExpression & table_expression, const String & current_database)
{
if (table_expression.database_and_table_name)
*this = DatabaseAndTableWithAlias(table_expression.database_and_table_name, current_database);
else if (table_expression.table_function)
alias = table_expression.table_function->tryGetAlias();
else if (table_expression.subquery)
alias = table_expression.subquery->tryGetAlias();
else
throw Exception("Logical error: no known elements in ASTTableExpression", ErrorCodes::LOGICAL_ERROR);
}
bool DatabaseAndTableWithAlias::satisfies(const DatabaseAndTableWithAlias & db_table, bool table_may_be_an_alias)
{
/// table.*, alias.* or database.table.*
if (database.empty())
{
if (!db_table.table.empty() && table == db_table.table)
return true;
if (!db_table.alias.empty())
return (alias == db_table.alias) || (table_may_be_an_alias && table == db_table.alias);
}
return database == db_table.database && table == db_table.table;
}
String DatabaseAndTableWithAlias::getQualifiedNamePrefix(bool with_dot) const
{
if (alias.empty() && table.empty())
return "";
return (!alias.empty() ? alias : table) + (with_dot ? "." : "");
}
std::vector<const ASTTableExpression *> getSelectTablesExpression(const ASTSelectQuery & select_query)
{
if (!select_query.tables)
return {};
std::vector<const ASTTableExpression *> tables_expression;
for (const auto & child : select_query.tables->children)
{
ASTTablesInSelectQueryElement * tables_element = static_cast<ASTTablesInSelectQueryElement *>(child.get());
if (tables_element->table_expression)
tables_expression.emplace_back(static_cast<const ASTTableExpression *>(tables_element->table_expression.get()));
}
return tables_expression;
}
static const ASTTableExpression * getTableExpression(const ASTSelectQuery & select, size_t table_number)
{
if (!select.tables)
return {};
ASTTablesInSelectQuery & tables_in_select_query = static_cast<ASTTablesInSelectQuery &>(*select.tables);
if (tables_in_select_query.children.size() <= table_number)
return {};
ASTTablesInSelectQueryElement & tables_element =
static_cast<ASTTablesInSelectQueryElement &>(*tables_in_select_query.children[table_number]);
if (!tables_element.table_expression)
return {};
return static_cast<const ASTTableExpression *>(tables_element.table_expression.get());
}
std::vector<DatabaseAndTableWithAlias> getDatabaseAndTables(const ASTSelectQuery & select_query, const String & current_database)
{
std::vector<const ASTTableExpression *> tables_expression = getSelectTablesExpression(select_query);
std::vector<DatabaseAndTableWithAlias> database_and_table_with_aliases;
database_and_table_with_aliases.reserve(tables_expression.size());
for (const auto & table_expression : tables_expression)
database_and_table_with_aliases.emplace_back(DatabaseAndTableWithAlias(*table_expression, current_database));
return database_and_table_with_aliases;
}
std::optional<DatabaseAndTableWithAlias> getDatabaseAndTable(const ASTSelectQuery & select, size_t table_number)
{
const ASTTableExpression * table_expression = getTableExpression(select, table_number);
if (!table_expression)
return {};
ASTPtr database_and_table_name = table_expression->database_and_table_name;
if (!database_and_table_name || !isIdentifier(database_and_table_name))
return {};
return DatabaseAndTableWithAlias(database_and_table_name);
}
ASTPtr extractTableExpression(const ASTSelectQuery & select, size_t table_number)
{
if (const ASTTableExpression * table_expression = getTableExpression(select, table_number))
{
if (table_expression->database_and_table_name)
return table_expression->database_and_table_name;
if (table_expression->table_function)
return table_expression->table_function;
if (table_expression->subquery)
return static_cast<const ASTSubquery *>(table_expression->subquery.get())->children[0];
}
return nullptr;
}
std::vector<TableWithColumnNames> getDatabaseAndTablesWithColumnNames(const ASTSelectQuery & select_query, const Context & context)
{
std::vector<TableWithColumnNames> tables_with_columns;
if (select_query.tables && !select_query.tables->children.empty())
{
String current_database = context.getCurrentDatabase();
for (const ASTTableExpression * table_expression : getSelectTablesExpression(select_query))
{
DatabaseAndTableWithAlias table_name(*table_expression, current_database);
NamesAndTypesList names_and_types = getNamesAndTypeListFromTableExpression(*table_expression, context);
removeDuplicateColumns(names_and_types);
tables_with_columns.emplace_back(std::move(table_name), names_and_types.getNames());
}
}
return tables_with_columns;
}
}
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