be/src/olap/parallel_scanner_builder.cpp - doris - Git at Google

 // Licensed to the Apache Software Foundation (ASF) under one
 // or more contributor license agreements.  See the NOTICE file
 // distributed with this work for additional information
 // regarding copyright ownership.  The ASF licenses this file
 // to you under the Apache License, Version 2.0 (the
 // "License"); you may not use this file except in compliance
 // with the License.  You may obtain a copy of the License at
 //
 //   http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing,
 // software distributed under the License is distributed on an
 // "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 // KIND, either express or implied.  See the License for the
 // specific language governing permissions and limitations
 // under the License.

 #include "parallel_scanner_builder.h"

 #include <cstddef>

 #include "cloud/cloud_storage_engine.h"
 #include "cloud/cloud_tablet_hotspot.h"
 #include "cloud/config.h"
 #include "common/status.h"
 #include "olap/rowset/beta_rowset.h"
 #include "olap/segment_loader.h"
 #include "pipeline/exec/olap_scan_operator.h"
 #include "vec/exec/scan/olap_scanner.h"

 namespace doris {

 using namespace vectorized;

 Status ParallelScannerBuilder::build_scanners(std::list<ScannerSPtr>& scanners) {
     RETURN_IF_ERROR(_load());
     if (_is_dup_mow_key) {
         return _build_scanners_by_rowid(scanners);
     } else {
         // TODO: support to split by key range
         return Status::NotSupported("split by key range not supported yet.");
     }
 }

 Status ParallelScannerBuilder::_build_scanners_by_rowid(std::list<ScannerSPtr>& scanners) {
     DCHECK_GE(_rows_per_scanner, _min_rows_per_scanner);

     for (auto&& [tablet, version] : _tablets) {
         DCHECK(_all_read_sources.contains(tablet->tablet_id()));
         auto& entire_read_source = _all_read_sources[tablet->tablet_id()];

         if (config::is_cloud_mode()) {
             // FIXME(plat1ko): Avoid pointer cast
             ExecEnv::GetInstance()->storage_engine().to_cloud().tablet_hotspot().count(*tablet);
         }

         // `rs_splits` in `entire read source` will be devided into several partitial read sources
         // to build several parallel scanners, based on segment rows number. All the partitial read sources
         // share the same delete predicates from their corresponding entire read source.
         TabletReader::ReadSource partitial_read_source;
         int64_t rows_collected = 0;
         for (auto& rs_split : entire_read_source.rs_splits) {
             auto reader = rs_split.rs_reader;
             auto rowset = reader->rowset();
             const auto rowset_id = rowset->rowset_id();

             const auto& segments_rows = _all_segments_rows[rowset_id];

             if (rowset->num_rows() == 0) {
                 continue;
             }

             int64_t segment_start = 0;
             auto split = RowSetSplits(reader->clone());

             for (size_t i = 0; i != segments_rows.size(); ++i) {
                 const size_t rows_of_segment = segments_rows[i];
                 RowRanges row_ranges;
                 int64_t offset_in_segment = 0;

                 // try to split large segments into RowRanges
                 while (offset_in_segment < rows_of_segment) {
                     const int64_t remaining_rows = rows_of_segment - offset_in_segment;
                     auto rows_need = _rows_per_scanner - rows_collected;

                     // 0.9: try to avoid splitting the segments into excessively small parts.
                     if (rows_need >= remaining_rows * 0.9) {
                         rows_need = remaining_rows;
                     }
                     DCHECK_LE(rows_need, remaining_rows);

                     // RowRange stands for range: [From, To), From is inclusive, To is exclusive.
                     row_ranges.add({offset_in_segment,
                                     offset_in_segment + static_cast<int64_t>(rows_need)});
                     rows_collected += rows_need;
                     offset_in_segment += rows_need;

                     // If collected enough rows, build a new scanner
                     if (rows_collected >= _rows_per_scanner) {
                         split.segment_offsets.first = segment_start,
                         split.segment_offsets.second = i + 1;
                         split.segment_row_ranges.emplace_back(std::move(row_ranges));

                         DCHECK_EQ(split.segment_offsets.second - split.segment_offsets.first,
                                   split.segment_row_ranges.size());

                         partitial_read_source.rs_splits.emplace_back(std::move(split));

                         scanners.emplace_back(
                                 _build_scanner(tablet, version, _key_ranges,
                                                {std::move(partitial_read_source.rs_splits),
                                                 entire_read_source.delete_predicates}));

                         partitial_read_source = {};
                         split = RowSetSplits(reader->clone());
                         row_ranges = RowRanges();

                         segment_start = offset_in_segment < rows_of_segment ? i : i + 1;
                         rows_collected = 0;
                     }
                 }

                 // The non-empty `row_ranges` means there are some rows left in this segment not added into `split`.
                 if (!row_ranges.is_empty()) {
                     DCHECK_GT(rows_collected, 0);
                     DCHECK_EQ(row_ranges.to(), rows_of_segment);
                     split.segment_row_ranges.emplace_back(std::move(row_ranges));
                 }
             }

             DCHECK_LE(rows_collected, _rows_per_scanner);
             if (rows_collected > 0) {
                 split.segment_offsets.first = segment_start;
                 split.segment_offsets.second = segments_rows.size();
                 DCHECK_GT(split.segment_offsets.second, split.segment_offsets.first);
                 DCHECK_EQ(split.segment_row_ranges.size(),
                           split.segment_offsets.second - split.segment_offsets.first);
                 partitial_read_source.rs_splits.emplace_back(std::move(split));
             }
         } // end `for (auto& rowset : rowsets)`

         DCHECK_LE(rows_collected, _rows_per_scanner);
         if (rows_collected > 0) {
             DCHECK_GT(partitial_read_source.rs_splits.size(), 0);
 #ifndef NDEBUG
             for (auto& split : partitial_read_source.rs_splits) {
                 DCHECK(split.rs_reader != nullptr);
                 DCHECK_LT(split.segment_offsets.first, split.segment_offsets.second);
                 DCHECK_EQ(split.segment_row_ranges.size(),
                           split.segment_offsets.second - split.segment_offsets.first);
             }
 #endif
             scanners.emplace_back(_build_scanner(tablet, version, _key_ranges,
                                                  {std::move(partitial_read_source.rs_splits),
                                                   entire_read_source.delete_predicates}));
         }
     }

     return Status::OK();
 }

 /**
  * Load rowsets of each tablet with specified version, segments of each rowset.
  */
 Status ParallelScannerBuilder::_load() {
     _total_rows = 0;
     size_t idx = 0;
     for (auto&& [tablet, version] : _tablets) {
         const auto tablet_id = tablet->tablet_id();
         _all_read_sources[tablet_id] = _read_sources[idx];
         const auto& read_source = _all_read_sources[tablet_id];
         for (auto& rs_split : read_source.rs_splits) {
             auto rowset = rs_split.rs_reader->rowset();
             RETURN_IF_ERROR(rowset->load());
             const auto rowset_id = rowset->rowset_id();

             auto beta_rowset = std::dynamic_pointer_cast<BetaRowset>(rowset);
             std::vector<uint32_t> segment_rows;
             RETURN_IF_ERROR(beta_rowset->get_segment_num_rows(&segment_rows));
             auto segment_count = rowset->num_segments();
             for (int64_t i = 0; i != segment_count; i++) {
                 _all_segments_rows[rowset_id].emplace_back(segment_rows[i]);
             }
             _total_rows += rowset->num_rows();
         }
         idx++;
     }

     _rows_per_scanner = _total_rows / _max_scanners_count;
     _rows_per_scanner = std::max<size_t>(_rows_per_scanner, _min_rows_per_scanner);

     return Status::OK();
 }

 std::shared_ptr<OlapScanner> ParallelScannerBuilder::_build_scanner(
         BaseTabletSPtr tablet, int64_t version, const std::vector<OlapScanRange*>& key_ranges,
         TabletReader::ReadSource&& read_source) {
     OlapScanner::Params params {_state,  _scanner_profile.get(), key_ranges, std::move(tablet),
                                 version, std::move(read_source), _limit,     _is_preaggregation};
     return OlapScanner::create_shared(_parent, std::move(params));
 }

 } // namespace doris
	// Licensed to the Apache Software Foundation (ASF) under one
	// or more contributor license agreements. See the NOTICE file
	// distributed with this work for additional information
	// regarding copyright ownership. The ASF licenses this file
	// to you under the Apache License, Version 2.0 (the
	// "License"); you may not use this file except in compliance
	// with the License. You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing,
	// software distributed under the License is distributed on an
	// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	// KIND, either express or implied. See the License for the
	// specific language governing permissions and limitations
	// under the License.

	#include "parallel_scanner_builder.h"

	#include <cstddef>

	#include "cloud/cloud_storage_engine.h"
	#include "cloud/cloud_tablet_hotspot.h"
	#include "cloud/config.h"
	#include "common/status.h"
	#include "olap/rowset/beta_rowset.h"
	#include "olap/segment_loader.h"
	#include "pipeline/exec/olap_scan_operator.h"
	#include "vec/exec/scan/olap_scanner.h"

	namespace doris {

	using namespace vectorized;

	Status ParallelScannerBuilder::build_scanners(std::list<ScannerSPtr>& scanners) {
	RETURN_IF_ERROR(_load());
	if (_is_dup_mow_key) {
	return _build_scanners_by_rowid(scanners);
	} else {
	// TODO: support to split by key range
	return Status::NotSupported("split by key range not supported yet.");
	}
	}

	Status ParallelScannerBuilder::_build_scanners_by_rowid(std::list<ScannerSPtr>& scanners) {
	DCHECK_GE(_rows_per_scanner, _min_rows_per_scanner);

	for (auto&& [tablet, version] : _tablets) {
	DCHECK(_all_read_sources.contains(tablet->tablet_id()));
	auto& entire_read_source = _all_read_sources[tablet->tablet_id()];

	if (config::is_cloud_mode()) {
	// FIXME(plat1ko): Avoid pointer cast
	ExecEnv::GetInstance()->storage_engine().to_cloud().tablet_hotspot().count(*tablet);
	}

	// `rs_splits` in `entire read source` will be devided into several partitial read sources
	// to build several parallel scanners, based on segment rows number. All the partitial read sources
	// share the same delete predicates from their corresponding entire read source.
	TabletReader::ReadSource partitial_read_source;
	int64_t rows_collected = 0;
	for (auto& rs_split : entire_read_source.rs_splits) {
	auto reader = rs_split.rs_reader;
	auto rowset = reader->rowset();
	const auto rowset_id = rowset->rowset_id();

	const auto& segments_rows = _all_segments_rows[rowset_id];

	if (rowset->num_rows() == 0) {
	continue;
	}

	int64_t segment_start = 0;
	auto split = RowSetSplits(reader->clone());

	for (size_t i = 0; i != segments_rows.size(); ++i) {
	const size_t rows_of_segment = segments_rows[i];
	RowRanges row_ranges;
	int64_t offset_in_segment = 0;

	// try to split large segments into RowRanges
	while (offset_in_segment < rows_of_segment) {
	const int64_t remaining_rows = rows_of_segment - offset_in_segment;
	auto rows_need = _rows_per_scanner - rows_collected;

	// 0.9: try to avoid splitting the segments into excessively small parts.
	if (rows_need >= remaining_rows * 0.9) {
	rows_need = remaining_rows;
	}
	DCHECK_LE(rows_need, remaining_rows);

	// RowRange stands for range: [From, To), From is inclusive, To is exclusive.
	row_ranges.add({offset_in_segment,
	offset_in_segment + static_cast<int64_t>(rows_need)});
	rows_collected += rows_need;
	offset_in_segment += rows_need;

	// If collected enough rows, build a new scanner
	if (rows_collected >= _rows_per_scanner) {
	split.segment_offsets.first = segment_start,
	split.segment_offsets.second = i + 1;
	split.segment_row_ranges.emplace_back(std::move(row_ranges));

	DCHECK_EQ(split.segment_offsets.second - split.segment_offsets.first,
	split.segment_row_ranges.size());

	partitial_read_source.rs_splits.emplace_back(std::move(split));

	scanners.emplace_back(
	_build_scanner(tablet, version, _key_ranges,
	{std::move(partitial_read_source.rs_splits),
	entire_read_source.delete_predicates}));

	partitial_read_source = {};
	split = RowSetSplits(reader->clone());
	row_ranges = RowRanges();

	segment_start = offset_in_segment < rows_of_segment ? i : i + 1;
	rows_collected = 0;
	}
	}

	// The non-empty `row_ranges` means there are some rows left in this segment not added into `split`.
	if (!row_ranges.is_empty()) {
	DCHECK_GT(rows_collected, 0);
	DCHECK_EQ(row_ranges.to(), rows_of_segment);
	split.segment_row_ranges.emplace_back(std::move(row_ranges));
	}
	}

	DCHECK_LE(rows_collected, _rows_per_scanner);
	if (rows_collected > 0) {
	split.segment_offsets.first = segment_start;
	split.segment_offsets.second = segments_rows.size();
	DCHECK_GT(split.segment_offsets.second, split.segment_offsets.first);
	DCHECK_EQ(split.segment_row_ranges.size(),
	split.segment_offsets.second - split.segment_offsets.first);
	partitial_read_source.rs_splits.emplace_back(std::move(split));
	}
	} // end `for (auto& rowset : rowsets)`

	DCHECK_LE(rows_collected, _rows_per_scanner);
	if (rows_collected > 0) {
	DCHECK_GT(partitial_read_source.rs_splits.size(), 0);
	#ifndef NDEBUG
	for (auto& split : partitial_read_source.rs_splits) {
	DCHECK(split.rs_reader != nullptr);
	DCHECK_LT(split.segment_offsets.first, split.segment_offsets.second);
	DCHECK_EQ(split.segment_row_ranges.size(),
	split.segment_offsets.second - split.segment_offsets.first);
	}
	#endif
	scanners.emplace_back(_build_scanner(tablet, version, _key_ranges,
	{std::move(partitial_read_source.rs_splits),
	entire_read_source.delete_predicates}));
	}
	}

	return Status::OK();
	}

	/**
	* Load rowsets of each tablet with specified version, segments of each rowset.
	*/
	Status ParallelScannerBuilder::_load() {
	_total_rows = 0;
	size_t idx = 0;
	for (auto&& [tablet, version] : _tablets) {
	const auto tablet_id = tablet->tablet_id();
	_all_read_sources[tablet_id] = _read_sources[idx];
	const auto& read_source = _all_read_sources[tablet_id];
	for (auto& rs_split : read_source.rs_splits) {
	auto rowset = rs_split.rs_reader->rowset();
	RETURN_IF_ERROR(rowset->load());
	const auto rowset_id = rowset->rowset_id();

	auto beta_rowset = std::dynamic_pointer_cast<BetaRowset>(rowset);
	std::vector<uint32_t> segment_rows;
	RETURN_IF_ERROR(beta_rowset->get_segment_num_rows(&segment_rows));
	auto segment_count = rowset->num_segments();
	for (int64_t i = 0; i != segment_count; i++) {
	_all_segments_rows[rowset_id].emplace_back(segment_rows[i]);
	}
	_total_rows += rowset->num_rows();
	}
	idx++;
	}

	_rows_per_scanner = _total_rows / _max_scanners_count;
	_rows_per_scanner = std::max<size_t>(_rows_per_scanner, _min_rows_per_scanner);

	return Status::OK();
	}

	std::shared_ptr<OlapScanner> ParallelScannerBuilder::_build_scanner(
	BaseTabletSPtr tablet, int64_t version, const std::vector<OlapScanRange*>& key_ranges,
	TabletReader::ReadSource&& read_source) {
	OlapScanner::Params params {_state, _scanner_profile.get(), key_ranges, std::move(tablet),
	version, std::move(read_source), _limit, _is_preaggregation};
	return OlapScanner::create_shared(_parent, std::move(params));
	}

	} // namespace doris