ClickHouse/src/Interpreters/IdentifierSemantic.cpp

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#include <Common/typeid_cast.h>
#include <Interpreters/IdentifierSemantic.h>
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#include <Interpreters/StorageID.h>
namespace DB
{
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namespace ErrorCodes
{
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extern const int SYNTAX_ERROR;
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extern const int AMBIGUOUS_COLUMN_NAME;
}
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namespace
{
template <typename T>
std::optional<size_t> tryChooseTable(const ASTIdentifier & identifier, const std::vector<T> & tables,
bool allow_ambiguous, bool column_match [[maybe_unused]] = false)
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{
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using ColumnMatch = IdentifierSemantic::ColumnMatch;
size_t best_table_pos = 0;
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auto best_match = ColumnMatch::NoMatch;
size_t same_match = 0;
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for (size_t i = 0; i < tables.size(); ++i)
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{
auto match = IdentifierSemantic::canReferColumnToTable(identifier, tables[i]);
if constexpr (std::is_same_v<T, TableWithColumnNamesAndTypes>)
{
if (column_match && match == ColumnMatch::NoMatch && identifier.isShort() && tables[i].hasColumn(identifier.shortName()))
match = ColumnMatch::ColumnName;
}
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if (match != ColumnMatch::NoMatch)
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{
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if (match > best_match)
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{
best_match = match;
best_table_pos = i;
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same_match = 0;
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}
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else if (match == best_match)
++same_match;
}
}
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if ((best_match != ColumnMatch::NoMatch) && same_match)
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{
if (!allow_ambiguous)
throw Exception("Ambiguous column '" + identifier.name() + "'", ErrorCodes::AMBIGUOUS_COLUMN_NAME);
best_match = ColumnMatch::Ambiguous;
return {};
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}
if (best_match != ColumnMatch::NoMatch)
return best_table_pos;
return {};
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}
}
std::optional<String> IdentifierSemantic::getColumnName(const ASTIdentifier & node)
{
if (!node.semantic->special)
return node.name();
return {};
}
std::optional<String> IdentifierSemantic::getColumnName(const ASTPtr & ast)
{
if (ast)
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if (const auto * id = ast->as<ASTIdentifier>())
if (!id->semantic->special)
return id->name();
return {};
}
std::optional<String> IdentifierSemantic::getTableName(const ASTIdentifier & node)
{
if (node.semantic->special)
return node.name();
return {};
}
std::optional<String> IdentifierSemantic::getTableName(const ASTPtr & ast)
{
if (ast)
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if (const auto * id = ast->as<ASTIdentifier>())
if (id->semantic->special)
return id->name();
return {};
}
std::optional<ASTIdentifier> IdentifierSemantic::uncover(const ASTIdentifier & identifier)
{
if (identifier.semantic->covered)
{
std::vector<String> name_parts = identifier.name_parts;
return ASTIdentifier(std::move(name_parts));
}
return {};
}
void IdentifierSemantic::coverName(ASTIdentifier & identifier, const String & alias)
{
identifier.setShortName(alias);
identifier.semantic->covered = true;
}
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bool IdentifierSemantic::canBeAlias(const ASTIdentifier & identifier)
{
return identifier.semantic->can_be_alias;
}
void IdentifierSemantic::setMembership(ASTIdentifier & identifier, size_t table_pos)
{
identifier.semantic->membership = table_pos;
identifier.semantic->can_be_alias = false;
}
std::optional<size_t> IdentifierSemantic::getMembership(const ASTIdentifier & identifier)
{
return identifier.semantic->membership;
}
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std::optional<size_t> IdentifierSemantic::chooseTable(const ASTIdentifier & identifier, const std::vector<DatabaseAndTableWithAlias> & tables,
bool ambiguous)
{
return tryChooseTable<DatabaseAndTableWithAlias>(identifier, tables, ambiguous);
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}
std::optional<size_t> IdentifierSemantic::chooseTable(const ASTIdentifier & identifier, const TablesWithColumns & tables, bool ambiguous)
{
return tryChooseTable<TableWithColumnNamesAndTypes>(identifier, tables, ambiguous);
}
std::optional<size_t> IdentifierSemantic::chooseTableColumnMatch(const ASTIdentifier & identifier, const TablesWithColumns & tables,
bool ambiguous)
{
return tryChooseTable<TableWithColumnNamesAndTypes>(identifier, tables, ambiguous, true);
}
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StorageID IdentifierSemantic::extractDatabaseAndTable(const ASTIdentifier & identifier)
{
if (identifier.name_parts.size() > 2)
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throw Exception("Syntax error: more than two components in table expression", ErrorCodes::SYNTAX_ERROR);
if (identifier.name_parts.size() == 2)
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return { identifier.name_parts[0], identifier.name_parts[1], identifier.uuid };
return { "", identifier.name_parts[0], identifier.uuid };
}
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std::optional<String> IdentifierSemantic::extractNestedName(const ASTIdentifier & identifier, const String & table_name)
{
if (identifier.name_parts.size() == 3 && table_name == identifier.name_parts[0])
return identifier.name_parts[1] + '.' + identifier.name_parts[2];
else if (identifier.name_parts.size() == 2)
return identifier.name_parts[0] + '.' + identifier.name_parts[1];
return {};
}
bool IdentifierSemantic::doesIdentifierBelongTo(const ASTIdentifier & identifier, const String & database, const String & table)
{
size_t num_components = identifier.name_parts.size();
if (num_components >= 3)
return identifier.name_parts[0] == database &&
identifier.name_parts[1] == table;
return false;
}
bool IdentifierSemantic::doesIdentifierBelongTo(const ASTIdentifier & identifier, const String & table)
{
size_t num_components = identifier.name_parts.size();
if (num_components >= 2)
return identifier.name_parts[0] == table;
return false;
}
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IdentifierSemantic::ColumnMatch IdentifierSemantic::canReferColumnToTable(const ASTIdentifier & identifier,
const DatabaseAndTableWithAlias & db_and_table)
{
/// database.table.column
if (doesIdentifierBelongTo(identifier, db_and_table.database, db_and_table.table))
return ColumnMatch::DbAndTable;
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/// alias.column
if (doesIdentifierBelongTo(identifier, db_and_table.alias))
return ColumnMatch::TableAlias;
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/// table.column
if (doesIdentifierBelongTo(identifier, db_and_table.table))
{
if (!db_and_table.alias.empty())
return ColumnMatch::AliasedTableName;
else
return ColumnMatch::TableName;
}
return ColumnMatch::NoMatch;
}
IdentifierSemantic::ColumnMatch IdentifierSemantic::canReferColumnToTable(const ASTIdentifier & identifier,
const TableWithColumnNamesAndTypes & table_with_columns)
{
return canReferColumnToTable(identifier, table_with_columns.table);
}
/// Strip qualificators from left side of column name.
/// Example: 'database.table.name' -> 'name'.
void IdentifierSemantic::setColumnShortName(ASTIdentifier & identifier, const DatabaseAndTableWithAlias & db_and_table)
{
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auto match = IdentifierSemantic::canReferColumnToTable(identifier, db_and_table);
size_t to_strip = 0;
switch (match)
{
case ColumnMatch::TableName:
case ColumnMatch::AliasedTableName:
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case ColumnMatch::TableAlias:
to_strip = 1;
break;
case ColumnMatch::DbAndTable:
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to_strip = 2;
break;
default:
break;
}
if (!to_strip)
return;
identifier.name_parts = std::vector<String>(identifier.name_parts.begin() + to_strip, identifier.name_parts.end());
identifier.resetFullName();
}
void IdentifierSemantic::setColumnLongName(ASTIdentifier & identifier, const DatabaseAndTableWithAlias & db_and_table)
{
String prefix = db_and_table.getQualifiedNamePrefix();
if (!prefix.empty())
{
prefix.resize(prefix.size() - 1); /// crop dot
identifier.name_parts = {prefix, identifier.shortName()};
identifier.resetFullName();
identifier.semantic->table = prefix;
identifier.semantic->legacy_compound = true;
}
}
}