#include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int UNKNOWN_SET_DATA_VARIANT; extern const int LOGICAL_ERROR; extern const int SET_SIZE_LIMIT_EXCEEDED; extern const int TYPE_MISMATCH; extern const int ILLEGAL_COLUMN; } Join::Type Join::chooseMethod(const ConstColumnPlainPtrs & key_columns, bool & keys_fit_128_bits, Sizes & key_sizes) { size_t keys_size = key_columns.size(); keys_fit_128_bits = true; size_t keys_bytes = 0; key_sizes.resize(keys_size); if (keys_size == 0) return Type::CROSS; for (size_t j = 0; j < keys_size; ++j) { if (!key_columns[j]->isFixed()) { keys_fit_128_bits = false; break; } key_sizes[j] = key_columns[j]->sizeOfField(); keys_bytes += key_sizes[j]; } if (keys_bytes > 16) keys_fit_128_bits = false; /// Если есть один числовой ключ, который помещается в 64 бита if (keys_size == 1 && key_columns[0]->isNumeric()) return Type::KEY_64; /// Если есть один строковый ключ, то используем хэш-таблицу с ним if (keys_size == 1 && (typeid_cast(key_columns[0]) || typeid_cast(key_columns[0]) || (typeid_cast(key_columns[0]) && !keys_fit_128_bits))) return Type::KEY_STRING; /// Если много ключей - будем строить множество хэшей от них return Type::HASHED; } template static void initImpl(Maps & maps, Join::Type type) { switch (type) { case Join::Type::EMPTY: break; case Join::Type::KEY_64: maps.key64 .reset(new typename Maps::MapUInt64); break; case Join::Type::KEY_STRING: maps.key_string .reset(new typename Maps::MapString); break; case Join::Type::HASHED: maps.hashed .reset(new typename Maps::MapHashed); break; case Join::Type::CROSS: break; default: throw Exception("Unknown JOIN keys variant.", ErrorCodes::UNKNOWN_SET_DATA_VARIANT); } } template static size_t getTotalRowCountImpl(const Maps & maps) { size_t rows = 0; if (maps.key64) rows += maps.key64->size(); if (maps.key_string) rows += maps.key_string->size(); if (maps.hashed) rows += maps.hashed->size(); return rows; } template static size_t getTotalByteCountImpl(const Maps & maps) { size_t bytes = 0; if (maps.key64) bytes += maps.key64->getBufferSizeInBytes(); if (maps.key_string) bytes += maps.key_string->getBufferSizeInBytes(); if (maps.hashed) bytes += maps.hashed->getBufferSizeInBytes(); return bytes; } /// Нужно ли использовать хэш-таблицы maps_*_full, в которых запоминается, была ли строчка присоединена. static bool getFullness(ASTTableJoin::Kind kind) { return kind == ASTTableJoin::Kind::Right || kind == ASTTableJoin::Kind::Full; } void Join::init(Type type_) { type = type_; if (kind == ASTTableJoin::Kind::Cross) return; if (!getFullness(kind)) { if (strictness == ASTTableJoin::Strictness::Any) initImpl(maps_any, type); else initImpl(maps_all, type); } else { if (strictness == ASTTableJoin::Strictness::Any) initImpl(maps_any_full, type); else initImpl(maps_all_full, type); } } size_t Join::getTotalRowCount() const { size_t res = 0; if (type == Type::CROSS) { for (const auto & block : blocks) res += block.rowsInFirstColumn(); } else { res += getTotalRowCountImpl(maps_any); res += getTotalRowCountImpl(maps_all); res += getTotalRowCountImpl(maps_any_full); res += getTotalRowCountImpl(maps_all_full); } return res; } size_t Join::getTotalByteCount() const { size_t res = 0; if (type == Type::CROSS) { for (const auto & block : blocks) res += block.bytes(); } else { res += getTotalByteCountImpl(maps_any); res += getTotalByteCountImpl(maps_all); res += getTotalByteCountImpl(maps_any_full); res += getTotalByteCountImpl(maps_all_full); res += pool.size(); } return res; } bool Join::checkSizeLimits() const { if (max_rows && getTotalRowCount() > max_rows) return false; if (max_bytes && getTotalByteCount() > max_bytes) return false; return true; } /// Вставка элемента в хэш-таблицу вида ключ -> ссылка на строку, которая затем будет использоваться при JOIN-е. template struct Inserter { static void insert(Map & map, const typename Map::key_type & key, Block * stored_block, size_t i, Arena & pool); }; template struct Inserter { static void insert(Map & map, const typename Map::key_type & key, Block * stored_block, size_t i, Arena & pool) { typename Map::iterator it; bool inserted; map.emplace(key, it, inserted); if (inserted) new (&it->second) typename Map::mapped_type(stored_block, i); } }; /// Для строковых ключей отличается тем, что саму строчку надо разместить в пуле. template struct InserterAnyString { static void insert(Map & map, const typename Map::key_type & key, Block * stored_block, size_t i, Arena & pool) { typename Map::iterator it; bool inserted; map.emplace(key, it, inserted); if (inserted) { it->first.data = pool.insert(key.data, key.size); new (&it->second) typename Map::mapped_type(stored_block, i); } } }; template <> struct Inserter : InserterAnyString {}; template <> struct Inserter : InserterAnyString {}; template struct Inserter { static void insert(Map & map, const typename Map::key_type & key, Block * stored_block, size_t i, Arena & pool) { typename Map::iterator it; bool inserted; map.emplace(key, it, inserted); if (inserted) { new (&it->second) typename Map::mapped_type(stored_block, i); } else { /** Первый элемент списка хранится в значении хэш-таблицы, остальные - в pool-е. * Мы будем вставлять каждый раз элемент на место второго. * То есть, бывший второй элемент, если он был, станет третьим, и т. п. */ auto elem = reinterpret_cast(pool.alloc(sizeof(typename Map::mapped_type))); elem->next = it->second.next; it->second.next = elem; elem->block = stored_block; elem->row_num = i; } } }; template struct InserterAllString { static void insert(Map & map, const typename Map::key_type & key, Block * stored_block, size_t i, Arena & pool) { typename Map::iterator it; bool inserted; map.emplace(key, it, inserted); if (inserted) { it->first.data = pool.insert(key.data, key.size); new (&it->second) typename Map::mapped_type(stored_block, i); } else { auto elem = reinterpret_cast(pool.alloc(sizeof(typename Map::mapped_type))); elem->next = it->second.next; it->second.next = elem; elem->block = stored_block; elem->row_num = i; } } }; template <> struct Inserter : InserterAllString {}; template <> struct Inserter : InserterAllString {}; template void Join::insertFromBlockImpl(Maps & maps, size_t rows, const ConstColumnPlainPtrs & key_columns, size_t keys_size, Block * stored_block) { if (type == Type::CROSS) { /// Ничего не делаем. Уже сохранили блок, и этого достаточно. } else if (type == Type::KEY_64) { using Map = typename Maps::MapUInt64; Map & res = *maps.key64; const IColumn & column = *key_columns[0]; /// Для всех строчек for (size_t i = 0; i < rows; ++i) { /// Строим ключ UInt64 key = column.get64(i); Inserter::insert(res, key, stored_block, i, pool); } } else if (type == Type::KEY_STRING) { using Map = typename Maps::MapString; Map & res = *maps.key_string; const IColumn & column = *key_columns[0]; if (const ColumnString * column_string = typeid_cast(&column)) { const ColumnString::Offsets_t & offsets = column_string->getOffsets(); const ColumnString::Chars_t & data = column_string->getChars(); /// Для всех строчек for (size_t i = 0; i < rows; ++i) { /// Строим ключ StringRef key(&data[i == 0 ? 0 : offsets[i - 1]], (i == 0 ? offsets[i] : (offsets[i] - offsets[i - 1])) - 1); Inserter::insert(res, key, stored_block, i, pool); } } else if (const ColumnFixedString * column_string = typeid_cast(&column)) { size_t n = column_string->getN(); const ColumnFixedString::Chars_t & data = column_string->getChars(); /// Для всех строчек for (size_t i = 0; i < rows; ++i) { /// Строим ключ StringRef key(&data[i * n], n); Inserter::insert(res, key, stored_block, i, pool); } } else throw Exception("Illegal type of column when creating join with string key: " + column.getName(), ErrorCodes::ILLEGAL_COLUMN); } else if (type == Type::HASHED) { using Map = typename Maps::MapHashed; Map & res = *maps.hashed; /// Для всех строчек for (size_t i = 0; i < rows; ++i) { UInt128 key = keys_fit_128_bits ? packFixed(i, keys_size, key_columns, key_sizes) : hash128(i, keys_size, key_columns); Inserter::insert(res, key, stored_block, i, pool); } } else throw Exception("Unknown JOIN variant.", ErrorCodes::UNKNOWN_SET_DATA_VARIANT); } void Join::setSampleBlock(const Block & block) { Poco::ScopedWriteRWLock lock(rwlock); if (!empty()) return; size_t keys_size = key_names_right.size(); ConstColumnPlainPtrs key_columns(keys_size); for (size_t i = 0; i < keys_size; ++i) key_columns[i] = block.getByName(key_names_right[i]).column.get(); /// Выберем, какую структуру данных для множества использовать. init(chooseMethod(key_columns, keys_fit_128_bits, key_sizes)); sample_block_with_columns_to_add = block; /// Переносим из sample_block_with_columns_to_add ключевые столбцы в sample_block_with_keys, сохраняя порядок. size_t pos = 0; while (pos < sample_block_with_columns_to_add.columns()) { const auto & name = sample_block_with_columns_to_add.unsafeGetByPosition(pos).name; if (key_names_right.end() != std::find(key_names_right.begin(), key_names_right.end(), name)) { sample_block_with_keys.insert(sample_block_with_columns_to_add.unsafeGetByPosition(pos)); sample_block_with_columns_to_add.erase(pos); } else ++pos; } for (size_t i = 0, size = sample_block_with_columns_to_add.columns(); i < size; ++i) { auto & column = sample_block_with_columns_to_add.unsafeGetByPosition(i); if (!column.column) column.column = column.type->createColumn(); } } bool Join::insertFromBlock(const Block & block) { Poco::ScopedWriteRWLock lock(rwlock); /// Какую структуру данных для множества использовать? if (empty()) throw Exception("Logical error: Join was not initialized", ErrorCodes::LOGICAL_ERROR); size_t keys_size = key_names_right.size(); ConstColumnPlainPtrs key_columns(keys_size); /// Редкий случай, когда ключи являются константами. Чтобы не поддерживать отдельный код, материализуем их. Columns materialized_columns; /// Запоминаем столбцы ключей, с которыми будем работать for (size_t i = 0; i < keys_size; ++i) { key_columns[i] = block.getByName(key_names_right[i]).column.get(); if (auto converted = key_columns[i]->convertToFullColumnIfConst()) { materialized_columns.emplace_back(converted); key_columns[i] = materialized_columns.back().get(); } } size_t rows = block.rows(); blocks.push_back(block); Block * stored_block = &blocks.back(); if (getFullness(kind)) { /** Переносим ключевые столбцы в начало блока. * Именно там их будет ожидать NonJoinedBlockInputStream. */ size_t key_num = 0; for (const auto & name : key_names_right) { size_t pos = stored_block->getPositionByName(name); ColumnWithTypeAndName col = stored_block->getByPosition(pos); stored_block->erase(pos); stored_block->insert(key_num, col); ++key_num; } } else { /// Удаляем из stored_block ключевые столбцы, так как они не нужны. for (const auto & name : key_names_right) stored_block->erase(stored_block->getPositionByName(name)); } /// Редкий случай, когда соединяемые столбцы являются константами. Чтобы не поддерживать отдельный код, материализуем их. for (size_t i = 0, size = stored_block->columns(); i < size; ++i) { ColumnPtr col = stored_block->getByPosition(i).column; if (auto converted = col->convertToFullColumnIfConst()) stored_block->getByPosition(i).column = converted; } if (kind != ASTTableJoin::Kind::Cross) { /// Заполняем нужную хэш-таблицу. if (!getFullness(kind)) { if (strictness == ASTTableJoin::Strictness::Any) insertFromBlockImpl(maps_any, rows, key_columns, keys_size, stored_block); else insertFromBlockImpl(maps_all, rows, key_columns, keys_size, stored_block); } else { if (strictness == ASTTableJoin::Strictness::Any) insertFromBlockImpl(maps_any_full, rows, key_columns, keys_size, stored_block); else insertFromBlockImpl(maps_all_full, rows, key_columns, keys_size, stored_block); } } if (!checkSizeLimits()) { if (overflow_mode == OverflowMode::THROW) throw Exception("Join size limit exceeded." " Rows: " + toString(getTotalRowCount()) + ", limit: " + toString(max_rows) + ". Bytes: " + toString(getTotalByteCount()) + ", limit: " + toString(max_bytes) + ".", ErrorCodes::SET_SIZE_LIMIT_EXCEEDED); if (overflow_mode == OverflowMode::BREAK) return false; throw Exception("Logical error: unknown overflow mode", ErrorCodes::LOGICAL_ERROR); } return true; } template struct Adder; template struct Adder { static void add(const Map & map, const typename Map::key_type & key, size_t num_columns_to_add, ColumnPlainPtrs & added_columns, size_t i, IColumn::Filter * filter, IColumn::Offset_t & current_offset, IColumn::Offsets_t * offsets, size_t num_columns_to_skip) { typename Map::const_iterator it = map.find(key); if (it != map.end()) { it->second.setUsed(); for (size_t j = 0; j < num_columns_to_add; ++j) added_columns[j]->insertFrom(*it->second.block->unsafeGetByPosition(num_columns_to_skip + j).column.get(), it->second.row_num); } else { for (size_t j = 0; j < num_columns_to_add; ++j) added_columns[j]->insertDefault(); } } }; template struct Adder { static void add(const Map & map, const typename Map::key_type & key, size_t num_columns_to_add, ColumnPlainPtrs & added_columns, size_t i, IColumn::Filter * filter, IColumn::Offset_t & current_offset, IColumn::Offsets_t * offsets, size_t num_columns_to_skip) { typename Map::const_iterator it = map.find(key); if (it != map.end()) { (*filter)[i] = 1; it->second.setUsed(); for (size_t j = 0; j < num_columns_to_add; ++j) added_columns[j]->insertFrom(*it->second.block->unsafeGetByPosition(num_columns_to_skip + j).column.get(), it->second.row_num); } else (*filter)[i] = 0; } }; template struct Adder { static void add(const Map & map, const typename Map::key_type & key, size_t num_columns_to_add, ColumnPlainPtrs & added_columns, size_t i, IColumn::Filter * filter, IColumn::Offset_t & current_offset, IColumn::Offsets_t * offsets, size_t num_columns_to_skip) { typename Map::const_iterator it = map.find(key); if (it != map.end()) { size_t rows_joined = 0; it->second.setUsed(); for (auto current = &static_cast(it->second); current != nullptr; current = current->next) { for (size_t j = 0; j < num_columns_to_add; ++j) added_columns[j]->insertFrom(*current->block->unsafeGetByPosition(num_columns_to_skip + j).column.get(), current->row_num); ++rows_joined; } current_offset += rows_joined; (*offsets)[i] = current_offset; } else { if (KIND == ASTTableJoin::Kind::Inner) { (*offsets)[i] = current_offset; } else { ++current_offset; (*offsets)[i] = current_offset; for (size_t j = 0; j < num_columns_to_add; ++j) added_columns[j]->insertDefault(); } } } }; template void Join::joinBlockImpl(Block & block, const Maps & maps) const { size_t keys_size = key_names_left.size(); ConstColumnPlainPtrs key_columns(keys_size); /// Редкий случай, когда ключи являются константами. Чтобы не поддерживать отдельный код, материализуем их. Columns materialized_columns; /// Запоминаем столбцы ключей, с которыми будем работать for (size_t i = 0; i < keys_size; ++i) { key_columns[i] = block.getByName(key_names_left[i]).column.get(); if (auto converted = key_columns[i]->convertToFullColumnIfConst()) { materialized_columns.emplace_back(converted); key_columns[i] = materialized_columns.back().get(); } } size_t existing_columns = block.columns(); /** Если используется FULL или RIGHT JOIN, то столбцы из "левой" части надо материализовать. * Потому что, если они константы, то в "неприсоединённых" строчках, у них могут быть другие значения * - значения по-умолчанию, которые могут отличаться от значений этих констант. */ if (getFullness(kind)) { for (size_t i = 0; i < existing_columns; ++i) { auto & col = block.getByPosition(i).column; if (auto converted = col->convertToFullColumnIfConst()) col = converted; } } /// Добавляем в блок новые столбцы. size_t num_columns_to_add = sample_block_with_columns_to_add.columns(); ColumnPlainPtrs added_columns(num_columns_to_add); for (size_t i = 0; i < num_columns_to_add; ++i) { const ColumnWithTypeAndName & src_column = sample_block_with_columns_to_add.getByPosition(i); ColumnWithTypeAndName new_column = src_column.cloneEmpty(); block.insert(new_column); added_columns[i] = new_column.column.get(); added_columns[i]->reserve(src_column.column->size()); } size_t rows = block.rowsInFirstColumn(); /// Используется при ANY INNER JOIN std::unique_ptr filter; if ((kind == ASTTableJoin::Kind::Inner || kind == ASTTableJoin::Kind::Right) && strictness == ASTTableJoin::Strictness::Any) filter.reset(new IColumn::Filter(rows)); /// Используется при ALL ... JOIN IColumn::Offset_t current_offset = 0; std::unique_ptr offsets_to_replicate; if (strictness == ASTTableJoin::Strictness::All) offsets_to_replicate.reset(new IColumn::Offsets_t(rows)); /** Для LEFT/INNER JOIN, сохранённые блоки не содержат ключи. * Для FULL/RIGHT JOIN, сохранённые блоки содержат ключи; * но они не будут использоваться на этой стадии соединения (а будут в AdderNonJoined), и их нужно пропустить. */ size_t num_columns_to_skip = 0; if (getFullness(kind)) num_columns_to_skip = keys_size; // std::cerr << num_columns_to_skip << "\n" << block.dumpStructure() << "\n" << blocks.front().dumpStructure() << "\n"; if (type == Type::KEY_64) { using Map = typename Maps::MapUInt64; const Map & map = *maps.key64; const IColumn & column = *key_columns[0]; /// Для всех строчек for (size_t i = 0; i < rows; ++i) { /// Строим ключ UInt64 key = column.get64(i); Adder::add( map, key, num_columns_to_add, added_columns, i, filter.get(), current_offset, offsets_to_replicate.get(), num_columns_to_skip); } } else if (type == Type::KEY_STRING) { using Map = typename Maps::MapString; const Map & map = *maps.key_string; const IColumn & column = *key_columns[0]; if (const ColumnString * column_string = typeid_cast(&column)) { const ColumnString::Offsets_t & offsets = column_string->getOffsets(); const ColumnString::Chars_t & data = column_string->getChars(); /// Для всех строчек for (size_t i = 0; i < rows; ++i) { /// Строим ключ StringRef key(&data[i == 0 ? 0 : offsets[i - 1]], (i == 0 ? offsets[i] : (offsets[i] - offsets[i - 1])) - 1); Adder::add( map, key, num_columns_to_add, added_columns, i, filter.get(), current_offset, offsets_to_replicate.get(), num_columns_to_skip); } } else if (const ColumnFixedString * column_string = typeid_cast(&column)) { size_t n = column_string->getN(); const ColumnFixedString::Chars_t & data = column_string->getChars(); /// Для всех строчек for (size_t i = 0; i < rows; ++i) { /// Строим ключ StringRef key(&data[i * n], n); Adder::add( map, key, num_columns_to_add, added_columns, i, filter.get(), current_offset, offsets_to_replicate.get(), num_columns_to_skip); } } else throw Exception("Illegal type of column when creating set with string key: " + column.getName(), ErrorCodes::ILLEGAL_COLUMN); } else if (type == Type::HASHED) { using Map = typename Maps::MapHashed; Map & map = *maps.hashed; /// Для всех строчек for (size_t i = 0; i < rows; ++i) { UInt128 key = keys_fit_128_bits ? packFixed(i, keys_size, key_columns, key_sizes) : hash128(i, keys_size, key_columns); Adder::add( map, key, num_columns_to_add, added_columns, i, filter.get(), current_offset, offsets_to_replicate.get(), num_columns_to_skip); } } else throw Exception("Unknown JOIN variant.", ErrorCodes::UNKNOWN_SET_DATA_VARIANT); /// Если ANY INNER|RIGHT JOIN - фильтруем все столбцы кроме новых. if (filter) for (size_t i = 0; i < existing_columns; ++i) block.getByPosition(i).column = block.getByPosition(i).column->filter(*filter, -1); /// Если ALL ... JOIN - размножаем все столбцы кроме новых. if (offsets_to_replicate) for (size_t i = 0; i < existing_columns; ++i) block.getByPosition(i).column = block.getByPosition(i).column->replicate(*offsets_to_replicate); } void Join::joinBlockImplCross(Block & block) const { Block res = block.cloneEmpty(); /// Добавляем в блок новые столбцы. size_t num_existing_columns = res.columns(); size_t num_columns_to_add = sample_block_with_columns_to_add.columns(); ColumnPlainPtrs src_left_columns(num_existing_columns); ColumnPlainPtrs dst_left_columns(num_existing_columns); ColumnPlainPtrs dst_right_columns(num_columns_to_add); for (size_t i = 0; i < num_existing_columns; ++i) { src_left_columns[i] = block.unsafeGetByPosition(i).column.get(); dst_left_columns[i] = res.unsafeGetByPosition(i).column.get(); } for (size_t i = 0; i < num_columns_to_add; ++i) { const ColumnWithTypeAndName & src_column = sample_block_with_columns_to_add.unsafeGetByPosition(i); ColumnWithTypeAndName new_column = src_column.cloneEmpty(); res.insert(new_column); dst_right_columns[i] = new_column.column.get(); } size_t rows_left = block.rowsInFirstColumn(); /// NOTE Было бы оптимальнее использовать reserve, а также методы replicate для размножения значений левого блока. for (size_t i = 0; i < rows_left; ++i) { for (const Block & block_right : blocks) { size_t rows_right = block_right.rowsInFirstColumn(); for (size_t col_num = 0; col_num < num_existing_columns; ++col_num) for (size_t j = 0; j < rows_right; ++j) dst_left_columns[col_num]->insertFrom(*src_left_columns[col_num], i); for (size_t col_num = 0; col_num < num_columns_to_add; ++col_num) { const IColumn * column_right = block_right.unsafeGetByPosition(col_num).column.get(); for (size_t j = 0; j < rows_right; ++j) dst_right_columns[col_num]->insertFrom(*column_right, j); } } } block = res; } void Join::checkTypesOfKeys(const Block & block_left, const Block & block_right) const { size_t keys_size = key_names_left.size(); for (size_t i = 0; i < keys_size; ++i) if (block_left.getByName(key_names_left[i]).type->getName() != block_right.getByName(key_names_right[i]).type->getName()) throw Exception("Type mismatch of columns to JOIN by: " + key_names_left[i] + " " + block_left.getByName(key_names_left[i]).type->getName() + " at left, " + key_names_right[i] + " " + block_right.getByName(key_names_right[i]).type->getName() + " at right", ErrorCodes::TYPE_MISMATCH); } void Join::joinBlock(Block & block) const { // std::cerr << "joinBlock: " << block.dumpStructure() << "\n"; Poco::ScopedReadRWLock lock(rwlock); checkTypesOfKeys(block, sample_block_with_keys); if (kind == ASTTableJoin::Kind::Left && strictness == ASTTableJoin::Strictness::Any) joinBlockImpl(block, maps_any); else if (kind == ASTTableJoin::Kind::Inner && strictness == ASTTableJoin::Strictness::Any) joinBlockImpl(block, maps_any); else if (kind == ASTTableJoin::Kind::Left && strictness == ASTTableJoin::Strictness::All) joinBlockImpl(block, maps_all); else if (kind == ASTTableJoin::Kind::Inner && strictness == ASTTableJoin::Strictness::All) joinBlockImpl(block, maps_all); else if (kind == ASTTableJoin::Kind::Full && strictness == ASTTableJoin::Strictness::Any) joinBlockImpl(block, maps_any_full); else if (kind == ASTTableJoin::Kind::Right && strictness == ASTTableJoin::Strictness::Any) joinBlockImpl(block, maps_any_full); else if (kind == ASTTableJoin::Kind::Full && strictness == ASTTableJoin::Strictness::All) joinBlockImpl(block, maps_all_full); else if (kind == ASTTableJoin::Kind::Right && strictness == ASTTableJoin::Strictness::All) joinBlockImpl(block, maps_all_full); else if (kind == ASTTableJoin::Kind::Cross) joinBlockImplCross(block); else throw Exception("Logical error: unknown combination of JOIN", ErrorCodes::LOGICAL_ERROR); } void Join::joinTotals(Block & block) const { Block totals_without_keys = totals; if (totals_without_keys) { for (const auto & name : key_names_right) totals_without_keys.erase(totals_without_keys.getPositionByName(name)); for (size_t i = 0; i < totals_without_keys.columns(); ++i) block.insert(totals_without_keys.getByPosition(i)); } else { /// Будем присоединять пустые totals - из одной строчки со значениями по-умолчанию. totals_without_keys = sample_block_with_columns_to_add.cloneEmpty(); for (size_t i = 0; i < totals_without_keys.columns(); ++i) { totals_without_keys.getByPosition(i).column->insertDefault(); block.insert(totals_without_keys.getByPosition(i)); } } } template struct AdderNonJoined; template struct AdderNonJoined { static void add(const Mapped & mapped, size_t num_columns_left, ColumnPlainPtrs & columns_left, size_t num_columns_right, ColumnPlainPtrs & columns_right) { for (size_t j = 0; j < num_columns_left; ++j) columns_left[j]->insertDefault(); for (size_t j = 0; j < num_columns_right; ++j) columns_right[j]->insertFrom(*mapped.block->unsafeGetByPosition(j).column.get(), mapped.row_num); } }; template struct AdderNonJoined { static void add(const Mapped & mapped, size_t num_columns_left, ColumnPlainPtrs & columns_left, size_t num_columns_right, ColumnPlainPtrs & columns_right) { for (auto current = &static_cast(mapped); current != nullptr; current = current->next) { for (size_t j = 0; j < num_columns_left; ++j) columns_left[j]->insertDefault(); for (size_t j = 0; j < num_columns_right; ++j) columns_right[j]->insertFrom(*current->block->unsafeGetByPosition(j).column.get(), current->row_num); } } }; /// Поток из неприсоединённых ранее строк правой таблицы. class NonJoinedBlockInputStream : public IProfilingBlockInputStream { public: NonJoinedBlockInputStream(const Join & parent_, Block & left_sample_block, size_t max_block_size_) : parent(parent_), max_block_size(max_block_size_) { /** left_sample_block содержит ключи и "левые" столбцы. * result_sample_block - ключи, "левые" столбцы и "правые" столбцы. */ size_t num_keys = parent.key_names_left.size(); size_t num_columns_left = left_sample_block.columns() - num_keys; size_t num_columns_right = parent.sample_block_with_columns_to_add.columns(); result_sample_block = left_sample_block; // std::cerr << result_sample_block.dumpStructure() << "\n"; /// Добавляем в блок новые столбцы. for (size_t i = 0; i < num_columns_right; ++i) { const ColumnWithTypeAndName & src_column = parent.sample_block_with_columns_to_add.getByPosition(i); ColumnWithTypeAndName new_column = src_column.cloneEmpty(); result_sample_block.insert(new_column); } column_numbers_left.reserve(num_columns_left); column_numbers_keys_and_right.reserve(num_keys + num_columns_right); for (size_t i = 0; i < num_keys + num_columns_left; ++i) { const String & name = left_sample_block.getByPosition(i).name; auto found_key_column = std::find(parent.key_names_left.begin(), parent.key_names_left.end(), name); if (parent.key_names_left.end() == found_key_column) column_numbers_left.push_back(i); else column_numbers_keys_and_right.push_back(found_key_column - parent.key_names_left.begin()); } for (size_t i = 0; i < num_columns_right; ++i) column_numbers_keys_and_right.push_back(num_keys + num_columns_left + i); columns_left.resize(num_columns_left); columns_keys_and_right.resize(num_keys + num_columns_right); } String getName() const override { return "NonJoined"; } String getID() const override { std::stringstream res; res << "NonJoined(" << &parent << ")"; return res.str(); } protected: Block readImpl() override { if (parent.blocks.empty()) return Block(); if (parent.strictness == ASTTableJoin::Strictness::Any) return createBlock(parent.maps_any_full); else if (parent.strictness == ASTTableJoin::Strictness::All) return createBlock(parent.maps_all_full); else throw Exception("Logical error: unknown JOIN strictness (must be ANY or ALL)", ErrorCodes::LOGICAL_ERROR); } private: const Join & parent; size_t max_block_size; Block result_sample_block; ColumnNumbers column_numbers_left; ColumnNumbers column_numbers_keys_and_right; ColumnPlainPtrs columns_left; ColumnPlainPtrs columns_keys_and_right; std::unique_ptr> position; /// type erasure template Block createBlock(const Maps & maps) { Block block = result_sample_block.cloneEmpty(); size_t num_columns_left = column_numbers_left.size(); size_t num_columns_right = column_numbers_keys_and_right.size(); for (size_t i = 0; i < num_columns_left; ++i) { auto & column_with_type_and_name = block.getByPosition(column_numbers_left[i]); column_with_type_and_name.column = column_with_type_and_name.type->createColumn(); columns_left[i] = column_with_type_and_name.column.get(); } for (size_t i = 0; i < num_columns_right; ++i) { auto & column_with_type_and_name = block.getByPosition(column_numbers_keys_and_right[i]); column_with_type_and_name.column = column_with_type_and_name.type->createColumn(); columns_keys_and_right[i] = column_with_type_and_name.column.get(); columns_keys_and_right[i]->reserve(column_with_type_and_name.column->size()); } size_t rows_added = 0; if (parent.type == Join::Type::KEY_64) rows_added = fillColumns(*maps.key64, num_columns_left, columns_left, num_columns_right, columns_keys_and_right); else if (parent.type == Join::Type::KEY_STRING) rows_added = fillColumns(*maps.key_string, num_columns_left, columns_left, num_columns_right, columns_keys_and_right); else if (parent.type == Join::Type::HASHED) rows_added = fillColumns(*maps.hashed, num_columns_left, columns_left, num_columns_right, columns_keys_and_right); else throw Exception("Unknown JOIN variant.", ErrorCodes::UNKNOWN_SET_DATA_VARIANT); // std::cerr << "rows added: " << rows_added << "\n"; if (!rows_added) return Block(); /* std::cerr << block.dumpStructure() << "\n"; WriteBufferFromFileDescriptor wb(STDERR_FILENO); TabSeparatedBlockOutputStream out(wb); out.write(block);*/ return block; } template size_t fillColumns(const Map & map, size_t num_columns_left, ColumnPlainPtrs & columns_left, size_t num_columns_right, ColumnPlainPtrs & columns_right) { size_t rows_added = 0; if (!position) position = decltype(position)( static_cast(new typename Map::const_iterator(map.begin())), [](void * ptr) { delete reinterpret_cast(ptr); }); auto & it = *reinterpret_cast(position.get()); auto end = map.end(); for (; it != end; ++it) { if (it->second.getUsed()) continue; AdderNonJoined::add(it->second, num_columns_left, columns_left, num_columns_right, columns_right); ++rows_added; if (rows_added == max_block_size) break; } return rows_added; } }; BlockInputStreamPtr Join::createStreamWithNonJoinedRows(Block & left_sample_block, size_t max_block_size) const { return std::make_shared(*this, left_sample_block, max_block_size); } }