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333 lines
11 KiB
C++
333 lines
11 KiB
C++
#include <queue>
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#include <iomanip>
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#include <sstream>
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#include <DataStreams/MergingSortedBlockInputStream.h>
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#include <DataStreams/ColumnGathererStream.h>
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namespace DB
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{
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namespace ErrorCodes
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{
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extern const int LOGICAL_ERROR;
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extern const int NUMBER_OF_COLUMNS_DOESNT_MATCH;
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}
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MergingSortedBlockInputStream::MergingSortedBlockInputStream(
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const BlockInputStreams & inputs_, const SortDescription & description_,
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size_t max_block_size_, UInt64 limit_, WriteBuffer * out_row_sources_buf_, bool quiet_, bool average_block_sizes_)
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: description(description_), max_block_size(max_block_size_), limit(limit_), quiet(quiet_)
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, average_block_sizes(average_block_sizes_), source_blocks(inputs_.size())
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, cursors(inputs_.size()), out_row_sources_buf(out_row_sources_buf_)
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{
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children.insert(children.end(), inputs_.begin(), inputs_.end());
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header = children.at(0)->getHeader();
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num_columns = header.columns();
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}
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void MergingSortedBlockInputStream::init(MutableColumns & merged_columns)
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{
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/// Read the first blocks, initialize the queue.
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if (first)
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{
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first = false;
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for (size_t i = 0; i < source_blocks.size(); ++i)
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{
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SharedBlockPtr & shared_block_ptr = source_blocks[i];
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if (shared_block_ptr.get())
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continue;
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shared_block_ptr = new detail::SharedBlock(children[i]->read());
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const size_t rows = shared_block_ptr->rows();
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if (rows == 0)
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continue;
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if (expected_block_size < rows)
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expected_block_size = std::min(rows, max_block_size);
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cursors[i] = SortCursorImpl(*shared_block_ptr, description, i);
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shared_block_ptr->all_columns = cursors[i].all_columns;
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shared_block_ptr->sort_columns = cursors[i].sort_columns;
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has_collation |= cursors[i].has_collation;
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}
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if (has_collation)
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initQueue(queue_with_collation);
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else
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initQueue(queue_without_collation);
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}
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/// Let's check that all source blocks have the same structure.
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for (const SharedBlockPtr & shared_block_ptr : source_blocks)
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{
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if (!*shared_block_ptr)
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continue;
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assertBlocksHaveEqualStructure(*shared_block_ptr, header, getName());
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}
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merged_columns.resize(num_columns);
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for (size_t i = 0; i < num_columns; ++i)
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{
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merged_columns[i] = header.safeGetByPosition(i).column->cloneEmpty();
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merged_columns[i]->reserve(expected_block_size);
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}
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}
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template <typename TSortCursor>
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void MergingSortedBlockInputStream::initQueue(std::priority_queue<TSortCursor> & queue)
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{
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for (size_t i = 0; i < cursors.size(); ++i)
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if (!cursors[i].empty())
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queue.push(TSortCursor(&cursors[i]));
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}
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Block MergingSortedBlockInputStream::readImpl()
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{
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if (finished)
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return {};
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if (children.size() == 1)
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return children[0]->read();
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MutableColumns merged_columns;
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init(merged_columns);
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if (merged_columns.empty())
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return {};
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if (has_collation)
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merge(merged_columns, queue_with_collation);
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else
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merge(merged_columns, queue_without_collation);
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return header.cloneWithColumns(std::move(merged_columns));
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}
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template <typename TSortCursor>
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void MergingSortedBlockInputStream::fetchNextBlock(const TSortCursor & current, std::priority_queue<TSortCursor> & queue)
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{
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size_t order = current->order;
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size_t size = cursors.size();
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if (order >= size || &cursors[order] != current.impl)
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throw Exception("Logical error in MergingSortedBlockInputStream", ErrorCodes::LOGICAL_ERROR);
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while (true)
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{
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source_blocks[order] = new detail::SharedBlock(children[order]->read());
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if (!*source_blocks[order])
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break;
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if (source_blocks[order]->rows())
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{
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cursors[order].reset(*source_blocks[order]);
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queue.push(TSortCursor(&cursors[order]));
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source_blocks[order]->all_columns = cursors[order].all_columns;
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source_blocks[order]->sort_columns = cursors[order].sort_columns;
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break;
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}
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}
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}
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bool MergingSortedBlockInputStream::MergeStopCondition::checkStop() const
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{
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if (!count_average)
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return sum_rows_count == max_block_size;
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if (sum_rows_count == 0)
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return false;
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size_t average = sum_blocks_granularity / sum_rows_count;
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return sum_rows_count >= average;
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}
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template
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void MergingSortedBlockInputStream::fetchNextBlock<SortCursor>(const SortCursor & current, std::priority_queue<SortCursor> & queue);
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template
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void MergingSortedBlockInputStream::fetchNextBlock<SortCursorWithCollation>(const SortCursorWithCollation & current, std::priority_queue<SortCursorWithCollation> & queue);
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template <typename TSortCursor>
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void MergingSortedBlockInputStream::merge(MutableColumns & merged_columns, std::priority_queue<TSortCursor> & queue)
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{
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size_t merged_rows = 0;
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MergeStopCondition stop_condition(average_block_sizes, max_block_size);
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/** Increase row counters.
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* Return true if it's time to finish generating the current data block.
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*/
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auto count_row_and_check_limit = [&, this](size_t current_granularity)
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{
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++total_merged_rows;
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if (limit && total_merged_rows == limit)
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{
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// std::cerr << "Limit reached\n";
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cancel(false);
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finished = true;
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return true;
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}
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++merged_rows;
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stop_condition.addRowWithGranularity(current_granularity);
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return stop_condition.checkStop();
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};
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/// Take rows in required order and put them into `merged_columns`, while the rows are no more than `max_block_size`
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while (!queue.empty())
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{
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TSortCursor current = queue.top();
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size_t current_block_granularity = current->rows;
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queue.pop();
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while (true)
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{
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/** And what if the block is totally less or equal than the rest for the current cursor?
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* Or is there only one data source left in the queue? Then you can take the entire block on current cursor.
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*/
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if (current->isFirst() && (queue.empty() || current.totallyLessOrEquals(queue.top())))
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{
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// std::cerr << "current block is totally less or equals\n";
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/// If there are already data in the current block, we first return it. We'll get here again the next time we call the merge function.
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if (merged_rows != 0)
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{
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//std::cerr << "merged rows is non-zero\n";
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queue.push(current);
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return;
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}
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/// Actually, current->order stores source number (i.e. cursors[current->order] == current)
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size_t source_num = current->order;
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if (source_num >= cursors.size())
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throw Exception("Logical error in MergingSortedBlockInputStream", ErrorCodes::LOGICAL_ERROR);
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for (size_t i = 0; i < num_columns; ++i)
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merged_columns[i] = (*std::move(source_blocks[source_num]->getByPosition(i).column)).mutate();
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// std::cerr << "copied columns\n";
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merged_rows = merged_columns.at(0)->size();
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/// Limit output
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if (limit && total_merged_rows + merged_rows > limit)
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{
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merged_rows = limit - total_merged_rows;
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for (size_t i = 0; i < num_columns; ++i)
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{
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auto & column = merged_columns[i];
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column = (*column->cut(0, merged_rows)).mutate();
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}
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cancel(false);
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finished = true;
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}
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/// Write order of rows for other columns
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/// this data will be used in grather stream
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if (out_row_sources_buf)
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{
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RowSourcePart row_source(source_num);
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for (size_t i = 0; i < merged_rows; ++i)
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out_row_sources_buf->write(row_source.data);
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}
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//std::cerr << "fetching next block\n";
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total_merged_rows += merged_rows;
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fetchNextBlock(current, queue);
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return;
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}
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// std::cerr << "total_merged_rows: " << total_merged_rows << ", merged_rows: " << merged_rows << "\n";
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// std::cerr << "Inserting row\n";
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for (size_t i = 0; i < num_columns; ++i)
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merged_columns[i]->insertFrom(*current->all_columns[i], current->pos);
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if (out_row_sources_buf)
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{
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/// Actually, current.impl->order stores source number (i.e. cursors[current.impl->order] == current.impl)
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RowSourcePart row_source(current->order);
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out_row_sources_buf->write(row_source.data);
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}
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if (!current->isLast())
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{
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// std::cerr << "moving to next row\n";
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current->next();
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if (queue.empty() || !(current.greater(queue.top())))
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{
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if (count_row_and_check_limit(current_block_granularity))
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{
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// std::cerr << "pushing back to queue\n";
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queue.push(current);
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return;
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}
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/// Do not put the cursor back in the queue, but continue to work with the current cursor.
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// std::cerr << "current is still on top, using current row\n";
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continue;
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}
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else
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{
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// std::cerr << "next row is not least, pushing back to queue\n";
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queue.push(current);
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}
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}
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else
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{
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/// We get the next block from the corresponding source, if there is one.
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// std::cerr << "It was last row, fetching next block\n";
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fetchNextBlock(current, queue);
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}
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break;
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}
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if (count_row_and_check_limit(current_block_granularity))
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return;
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}
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cancel(false);
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finished = true;
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}
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void MergingSortedBlockInputStream::readSuffixImpl()
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{
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if (quiet)
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return;
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const BlockStreamProfileInfo & profile_info = getProfileInfo();
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double seconds = profile_info.total_stopwatch.elapsedSeconds();
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std::stringstream message;
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message << std::fixed << std::setprecision(2)
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<< "Merge sorted " << profile_info.blocks << " blocks, " << profile_info.rows << " rows"
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<< " in " << seconds << " sec.";
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if (seconds)
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message << ", "
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<< profile_info.rows / seconds << " rows/sec., "
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<< profile_info.bytes / 1000000.0 / seconds << " MB/sec.";
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LOG_DEBUG(log, message.str());
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}
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}
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