Exemplo n.º 1
0
void ITableDeclaration::check(const Names & column_names) const
{
	const NamesAndTypesList & available_columns = getColumnsList();

	if (column_names.empty())
		throw Exception("Empty list of columns queried. There are columns: " + listOfColumns(available_columns),
			ErrorCodes::EMPTY_LIST_OF_COLUMNS_QUERIED);

	const auto columns_map = getColumnsMap(available_columns);

	using UniqueStrings = google::dense_hash_set<StringRef, StringRefHash>;
	UniqueStrings unique_names;
	unique_names.set_empty_key(StringRef());

	for (const auto & name : column_names)
	{
		if (columns_map.end() == columns_map.find(name))
			throw Exception("There is no column with name " + name + " in table. There are columns: " + listOfColumns(available_columns),
				ErrorCodes::NO_SUCH_COLUMN_IN_TABLE);

		if (unique_names.end() != unique_names.find(name))
			throw Exception("Column " + name + " queried more than once",
				ErrorCodes::COLUMN_QUERIED_MORE_THAN_ONCE);
		unique_names.insert(name);
	}
}
Exemplo n.º 2
0
void ITableDeclaration::check(const NamesAndTypesList & columns, const Names & column_names) const
{
	const NamesAndTypesList & available_columns = getColumnsList();
	const auto available_columns_map = getColumnsMap(available_columns);
	const NamesAndTypesMap & provided_columns_map = getColumnsMap(columns);

	if (column_names.empty())
		throw Exception("Empty list of columns queried. There are columns: " + listOfColumns(available_columns),
			ErrorCodes::EMPTY_LIST_OF_COLUMNS_QUERIED);

	using UniqueStrings = google::dense_hash_set<StringRef, StringRefHash>;
	UniqueStrings unique_names;
	unique_names.set_empty_key(StringRef());

	for (const String & name : column_names)
	{
		NamesAndTypesMap::const_iterator it = provided_columns_map.find(name);
		if (provided_columns_map.end() == it)
			continue;

		NamesAndTypesMap::const_iterator jt = available_columns_map.find(name);
		if (available_columns_map.end() == jt)
			throw Exception("There is no column with name " + name + ". There are columns: "
				+ listOfColumns(available_columns), ErrorCodes::NO_SUCH_COLUMN_IN_TABLE);

		if (it->second->getName() != jt->second->getName())
			throw Exception("Type mismatch for column " + name + ". Column has type "
				+ jt->second->getName() + ", got type " + it->second->getName(), ErrorCodes::TYPE_MISMATCH);

		if (unique_names.end() != unique_names.find(name))
			throw Exception("Column " + name + " queried more than once",
				ErrorCodes::COLUMN_QUERIED_MORE_THAN_ONCE);
		unique_names.insert(name);
	}
}
InterpreterSelectWithUnionQuery::InterpreterSelectWithUnionQuery(
    const ASTPtr & query_ptr_,
    const Context & context_,
    const Names & required_result_column_names,
    QueryProcessingStage::Enum to_stage_,
    size_t subquery_depth_,
    bool only_analyze,
    bool modify_inplace)
    : query_ptr(query_ptr_),
    context(context_),
    to_stage(to_stage_),
    subquery_depth(subquery_depth_)
{
    const ASTSelectWithUnionQuery & ast = typeid_cast<const ASTSelectWithUnionQuery &>(*query_ptr);

    size_t num_selects = ast.list_of_selects->children.size();

    if (!num_selects)
        throw Exception("Logical error: no children in ASTSelectWithUnionQuery", ErrorCodes::LOGICAL_ERROR);

    /// Initialize interpreters for each SELECT query.
    /// Note that we pass 'required_result_column_names' to first SELECT.
    /// And for the rest, we pass names at the corresponding positions of 'required_result_column_names' in the result of first SELECT,
    ///  because names could be different.

    nested_interpreters.reserve(num_selects);

    std::vector<Names> required_result_column_names_for_other_selects(num_selects);
    if (!required_result_column_names.empty() && num_selects > 1)
    {
        /// Result header if there are no filtering by 'required_result_column_names'.
        /// We use it to determine positions of 'required_result_column_names' in SELECT clause.

        Block full_result_header = InterpreterSelectQuery(
            ast.list_of_selects->children.at(0), context, Names(), to_stage, subquery_depth, true).getSampleBlock();

        std::vector<size_t> positions_of_required_result_columns(required_result_column_names.size());
        for (size_t required_result_num = 0, size = required_result_column_names.size(); required_result_num < size; ++required_result_num)
            positions_of_required_result_columns[required_result_num] = full_result_header.getPositionByName(required_result_column_names[required_result_num]);

        for (size_t query_num = 1; query_num < num_selects; ++query_num)
        {
            Block full_result_header_for_current_select = InterpreterSelectQuery(
                ast.list_of_selects->children.at(query_num), context, Names(), to_stage, subquery_depth, true).getSampleBlock();

            if (full_result_header_for_current_select.columns() != full_result_header.columns())
                throw Exception("Different number of columns in UNION ALL elements:\n"
                    + full_result_header.dumpNames()
                    + "\nand\n"
                    + full_result_header_for_current_select.dumpNames() + "\n",
                    ErrorCodes::UNION_ALL_RESULT_STRUCTURES_MISMATCH);

            required_result_column_names_for_other_selects[query_num].reserve(required_result_column_names.size());
            for (const auto & pos : positions_of_required_result_columns)
                required_result_column_names_for_other_selects[query_num].push_back(full_result_header_for_current_select.getByPosition(pos).name);
        }
    }

    for (size_t query_num = 0; query_num < num_selects; ++query_num)
    {
        const Names & current_required_result_column_names
            = query_num == 0 ? required_result_column_names : required_result_column_names_for_other_selects[query_num];

        nested_interpreters.emplace_back(std::make_unique<InterpreterSelectQuery>(
            ast.list_of_selects->children.at(query_num),
            context,
            current_required_result_column_names,
            to_stage,
            subquery_depth,
            only_analyze,
            modify_inplace));
    }

    /// Determine structure of the result.

    if (num_selects == 1)
    {
        result_header = nested_interpreters.front()->getSampleBlock();
    }
    else
    {
        Blocks headers(num_selects);
        for (size_t query_num = 0; query_num < num_selects; ++query_num)
            headers[query_num] = nested_interpreters[query_num]->getSampleBlock();

        result_header = headers.front();
        size_t num_columns = result_header.columns();

        for (size_t query_num = 1; query_num < num_selects; ++query_num)
            if (headers[query_num].columns() != num_columns)
                throw Exception("Different number of columns in UNION ALL elements:\n"
                    + result_header.dumpNames()
                    + "\nand\n"
                    + headers[query_num].dumpNames() + "\n",
                    ErrorCodes::UNION_ALL_RESULT_STRUCTURES_MISMATCH);

        for (size_t column_num = 0; column_num < num_columns; ++column_num)
        {
            ColumnWithTypeAndName & result_elem = result_header.getByPosition(column_num);

            /// Determine common type.

            DataTypes types(num_selects);
            for (size_t query_num = 0; query_num < num_selects; ++query_num)
                types[query_num] = headers[query_num].getByPosition(column_num).type;

            result_elem.type = getLeastSupertype(types);

            /// If there are different constness or different values of constants, the result must be non-constant.

            if (result_elem.column->isColumnConst())
            {
                bool need_materialize = false;
                for (size_t query_num = 1; query_num < num_selects; ++query_num)
                {
                    const ColumnWithTypeAndName & source_elem = headers[query_num].getByPosition(column_num);

                    if (!source_elem.column->isColumnConst()
                        || (static_cast<const ColumnConst &>(*result_elem.column).getField()
                            != static_cast<const ColumnConst &>(*source_elem.column).getField()))
                    {
                        need_materialize = true;
                        break;
                    }
                }

                if (need_materialize)
                    result_elem.column = result_elem.type->createColumn();
            }

            /// BTW, result column names are from first SELECT.
        }
    }
}