#include namespace DB { LimitTransform::LimitTransform( const Block & header_, size_t limit_, size_t offset_, size_t num_streams, bool always_read_till_end_, bool with_ties_, SortDescription description_) : IProcessor({header_}, {header_}) , limit(limit_), offset(offset_) , always_read_till_end(always_read_till_end_) , with_ties(with_ties_), description(std::move(description_)) { input_ports.reserve(num_streams); output_ports.reserve(num_streams); for (auto & input : inputs) input_ports.emplace_back(&input); for (auto & output : outputs) output_ports.emplace_back(&output); for (const auto & desc : description) { if (!desc.column_name.empty()) sort_column_positions.push_back(header_.getPositionByName(desc.column_name)); else sort_column_positions.push_back(desc.column_number); } } Chunk LimitTransform::makeChunkWithPreviousRow(const Chunk & chunk, size_t row) const { assert(row < chunk.getNumRows()); ColumnRawPtrs current_columns = extractSortColumns(chunk.getColumns()); MutableColumns last_row_sort_columns; for (size_t i = 0; i < current_columns.size(); ++i) { last_row_sort_columns.emplace_back(current_columns[i]->cloneEmpty()); last_row_sort_columns[i]->insertFrom(*current_columns[i], row); } return Chunk(std::move(last_row_sort_columns), 1); } IProcessor::Status LimitTransform::prepare( const PortNumbers & updated_input_ports, const PortNumbers & updated_output_ports) { bool has_full_port = false; auto process_pair = [&](size_t pos) { auto status = preparePair(*input_ports[pos], *output_ports[pos]); switch (status) { case IProcessor::Status::Finished: { if (!is_port_pair_finished[pos]) { is_port_pair_finished[pos] = true; ++num_finished_port_pairs; } return; } case IProcessor::Status::PortFull: { has_full_port = true; return; } case IProcessor::Status::NeedData: return; default: throw Exception( "Unexpected status for LimitTransform::preparePair : " + IProcessor::statusToName(status), ErrorCodes::LOGICAL_ERROR); } __builtin_unreachable(); }; for (auto pos : updated_input_ports) process_pair(pos); for (auto pos : updated_output_ports) process_pair(pos); if (num_finished_port_pairs == input_ports.size()) return Status::Finished; if (has_full_port) return Status::PortFull; return Status::NeedData; } LimitTransform::Status LimitTransform::preparePair(InputPort & input, OutputPort & output) { /// Check can output. bool output_finished = false; if (output.isFinished()) { output_finished = true; if (!always_read_till_end) { input.close(); return Status::Finished; } } if (!output_finished && !output.canPush()) { input.setNotNeeded(); return Status::PortFull; } /// Push block if can. if (!output_finished && has_block && block_processed) { output.push(std::move(current_chunk)); has_block = false; block_processed = false; } /// Check if we are done with pushing. bool is_limit_reached = (rows_read >= offset + limit) && !previous_row_chunk; if (is_limit_reached) { if (!always_read_till_end) { output.finish(); input.close(); return Status::Finished; } } /// Check can input. if (input.isFinished()) { output.finish(); return Status::Finished; } input.setNeeded(); if (!input.hasData()) return Status::NeedData; current_chunk = input.pull(true); has_block = true; auto rows = current_chunk.getNumRows(); rows_before_limit_at_least += rows; /// Skip block (for 'always_read_till_end' case). if (is_limit_reached) { current_chunk.clear(); has_block = false; if (input.isFinished()) { output.finish(); return Status::Finished; } /// Now, we pulled from input, and it must be empty. input.setNeeded(); return Status::NeedData; } /// Process block. rows_read += rows; if (rows_read <= offset) { current_chunk.clear(); has_block = false; if (input.isFinished()) { output.finish(); return Status::Finished; } /// Now, we pulled from input, and it must be empty. input.setNeeded(); return Status::NeedData; } if (output.hasData()) return Status::PortFull; if (rows_read >= offset + rows && rows_read <= offset + limit) { /// Return the whole chunk. /// Save the last row of current chunk to check if next block begins with the same row (for WITH TIES). if (with_ties && rows_read == offset + limit) previous_row_chunk = makeChunkWithPreviousRow(current_chunk, current_chunk.getNumRows() - 1); } else splitChunk(); bool may_need_more_data_for_ties = previous_row_chunk || rows_read - rows <= offset + limit; /// No more data is needed. if (!always_read_till_end && (rows_read >= offset + limit) && !may_need_more_data_for_ties) input.close(); output.push(std::move(current_chunk)); has_block = false; return Status::PortFull; } void LimitTransform::splitChunk() { auto current_chunk_sort_columns = extractSortColumns(current_chunk.getColumns()); size_t num_rows = current_chunk.getNumRows(); size_t num_columns = current_chunk.getNumColumns(); if (previous_row_chunk && rows_read >= offset + limit) { /// Scan until the first row, which is not equal to previous_row_chunk (for WITH TIES) size_t current_row_num = 0; for (; current_row_num < num_rows; ++current_row_num) { if (!sortColumnsEqualAt(current_chunk_sort_columns, current_row_num)) break; } auto columns = current_chunk.detachColumns(); if (current_row_num < num_rows) { previous_row_chunk = {}; for (size_t i = 0; i < num_columns; ++i) columns[i] = columns[i]->cut(0, current_row_num); } current_chunk.setColumns(std::move(columns), current_row_num); block_processed = true; return; } /// return a piece of the block size_t start = std::max( static_cast(0), static_cast(offset) - static_cast(rows_read) + static_cast(num_rows)); size_t length = std::min( static_cast(limit), std::min( static_cast(rows_read) - static_cast(offset), static_cast(limit) + static_cast(offset) - static_cast(rows_read) + static_cast(num_rows))); /// check if other rows in current block equals to last one in limit if (with_ties && length) { size_t current_row_num = start + length; previous_row_chunk = makeChunkWithPreviousRow(current_chunk, current_row_num - 1); for (; current_row_num < num_rows; ++current_row_num) { if (!sortColumnsEqualAt(current_chunk_sort_columns, current_row_num)) { previous_row_chunk = {}; break; } } length = current_row_num - start; } if (length == num_rows) { block_processed = true; return; } auto columns = current_chunk.detachColumns(); for (size_t i = 0; i < num_columns; ++i) columns[i] = columns[i]->cut(start, length); current_chunk.setColumns(std::move(columns), length); block_processed = true; } ColumnRawPtrs LimitTransform::extractSortColumns(const Columns & columns) const { ColumnRawPtrs res; res.reserve(description.size()); for (size_t pos : sort_column_positions) res.push_back(columns[pos].get()); return res; } bool LimitTransform::sortColumnsEqualAt(const ColumnRawPtrs & current_chunk_sort_columns, size_t current_chunk_row_num) const { assert(current_chunk_sort_columns.size() == previous_row_chunk.getNumColumns()); size_t size = current_chunk_sort_columns.size(); const auto & previous_row_sort_columns = previous_row_chunk.getColumns(); for (size_t i = 0; i < size; ++i) if (0 != current_chunk_sort_columns[i]->compareAt(current_chunk_row_num, 0, *previous_row_sort_columns[i], 1)) return false; return true; } }