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224 lines
6.8 KiB
C++
224 lines
6.8 KiB
C++
#pragma once
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#include <DB/Interpreters/Aggregator.h>
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#include <DB/DataStreams/IProfilingBlockInputStream.h>
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#include <DB/DataStreams/ParallelInputsProcessor.h>
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namespace DB
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{
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using Poco::SharedPtr;
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/** Агрегирует несколько источников параллельно.
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* Производит агрегацию блоков из разных источников независимо в разных потоках, затем объединяет результаты.
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* Если final == false, агрегатные функции не финализируются, то есть, не заменяются на своё значение, а содержат промежуточное состояние вычислений.
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* Это необходимо, чтобы можно было продолжить агрегацию (например, объединяя потоки частично агрегированных данных).
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*/
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class ParallelAggregatingBlockInputStream : public IProfilingBlockInputStream
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{
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public:
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/** Столбцы из key_names и аргументы агрегатных функций, уже должны быть вычислены.
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*/
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ParallelAggregatingBlockInputStream(BlockInputStreams inputs, const Names & key_names,
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const AggregateDescriptions & aggregates, bool overflow_row_, bool final_, size_t max_threads_,
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size_t max_rows_to_group_by_, OverflowMode group_by_overflow_mode_,
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Compiler * compiler_, UInt32 min_count_to_compile_, size_t group_by_two_level_threshold_)
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: aggregator(key_names, aggregates, overflow_row_, max_rows_to_group_by_, group_by_overflow_mode_,
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compiler_, min_count_to_compile_, group_by_two_level_threshold_),
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final(final_), max_threads(std::min(inputs.size(), max_threads_)),
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keys_size(aggregator.getNumberOfKeys()), aggregates_size(aggregator.getNumberOfAggregates()),
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handler(*this), processor(inputs, max_threads, handler)
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{
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children.insert(children.end(), inputs.begin(), inputs.end());
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}
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String getName() const override { return "ParallelAggregatingBlockInputStream"; }
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String getID() const override
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{
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std::stringstream res;
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res << "ParallelAggregating(";
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Strings children_ids(children.size());
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for (size_t i = 0; i < children.size(); ++i)
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children_ids[i] = children[i]->getID();
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/// Порядок не имеет значения.
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std::sort(children_ids.begin(), children_ids.end());
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for (size_t i = 0; i < children_ids.size(); ++i)
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res << (i == 0 ? "" : ", ") << children_ids[i];
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res << ", " << aggregator.getID() << ")";
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return res.str();
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}
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void cancel() override
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{
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bool old_val = false;
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if (!is_cancelled.compare_exchange_strong(old_val, true, std::memory_order_seq_cst, std::memory_order_relaxed))
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return;
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processor.cancel();
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}
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protected:
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Block readImpl() override
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{
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if (!executed)
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{
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executed = true;
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AggregatedDataVariantsPtr data_variants = executeAndMerge();
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if (data_variants)
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blocks = aggregator.convertToBlocks(*data_variants, final, max_threads);
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it = blocks.begin();
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}
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Block res;
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if (isCancelled() || it == blocks.end())
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return res;
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res = *it;
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++it;
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return res;
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}
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private:
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Aggregator aggregator;
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bool final;
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size_t max_threads;
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size_t keys_size;
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size_t aggregates_size;
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/** Используется, если есть ограничение на максимальное количество строк при агрегации,
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* и если group_by_overflow_mode == ANY.
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* В этом случае, новые ключи не добавляются в набор, а производится агрегация только по
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* ключам, которые уже успели попасть в набор.
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*/
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bool no_more_keys = false;
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bool executed = false;
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BlocksList blocks;
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BlocksList::iterator it;
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Logger * log = &Logger::get("ParallelAggregatingBlockInputStream");
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ManyAggregatedDataVariants many_data;
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Exceptions exceptions;
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struct ThreadData
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{
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size_t src_rows = 0;
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size_t src_bytes = 0;
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StringRefs key;
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ConstColumnPlainPtrs key_columns;
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Aggregator::AggregateColumns aggregate_columns;
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Sizes key_sizes;
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ThreadData(size_t keys_size, size_t aggregates_size)
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{
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key.resize(keys_size);
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key_columns.resize(keys_size);
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aggregate_columns.resize(aggregates_size);
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key_sizes.resize(keys_size);
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}
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};
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std::vector<ThreadData> threads_data;
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struct Handler
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{
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Handler(ParallelAggregatingBlockInputStream & parent_)
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: parent(parent_) {}
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void onBlock(Block & block, size_t thread_num)
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{
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parent.aggregator.executeOnBlock(block, *parent.many_data[thread_num],
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parent.threads_data[thread_num].key_columns, parent.threads_data[thread_num].aggregate_columns,
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parent.threads_data[thread_num].key_sizes, parent.threads_data[thread_num].key,
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parent.no_more_keys);
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parent.threads_data[thread_num].src_rows += block.rowsInFirstColumn();
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parent.threads_data[thread_num].src_bytes += block.bytes();
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}
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void onFinish()
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{
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}
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void onException(ExceptionPtr & exception, size_t thread_num)
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{
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parent.exceptions[thread_num] = exception;
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parent.cancel();
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}
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ParallelAggregatingBlockInputStream & parent;
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};
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Handler handler;
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ParallelInputsProcessor<Handler> processor;
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AggregatedDataVariantsPtr executeAndMerge()
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{
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many_data.resize(max_threads);
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exceptions.resize(max_threads);
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for (size_t i = 0; i < max_threads; ++i)
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threads_data.emplace_back(keys_size, aggregates_size);
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LOG_TRACE(log, "Aggregating");
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Stopwatch watch;
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for (auto & elem : many_data)
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elem = new AggregatedDataVariants;
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processor.process();
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processor.wait();
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rethrowFirstException(exceptions);
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if (isCancelled())
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return nullptr;
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double elapsed_seconds = watch.elapsedSeconds();
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size_t total_src_rows = 0;
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size_t total_src_bytes = 0;
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for (size_t i = 0; i < max_threads; ++i)
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{
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size_t rows = many_data[i]->size();
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LOG_TRACE(log, std::fixed << std::setprecision(3)
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<< "Aggregated. " << threads_data[i].src_rows << " to " << rows << " rows"
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<< " (from " << threads_data[i].src_bytes / 1048576.0 << " MiB)"
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<< " in " << elapsed_seconds << " sec."
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<< " (" << threads_data[i].src_rows / elapsed_seconds << " rows/sec., "
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<< threads_data[i].src_bytes / elapsed_seconds / 1048576.0 << " MiB/sec.)");
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total_src_rows += threads_data[i].src_rows;
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total_src_bytes += threads_data[i].src_bytes;
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}
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LOG_TRACE(log, std::fixed << std::setprecision(3)
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<< "Total aggregated. " << total_src_rows << " rows (from " << total_src_bytes / 1048576.0 << " MiB)"
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<< " in " << elapsed_seconds << " sec."
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<< " (" << total_src_rows / elapsed_seconds << " rows/sec., " << total_src_bytes / elapsed_seconds / 1048576.0 << " MiB/sec.)");
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if (isCancelled())
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return nullptr;
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return aggregator.merge(many_data, max_threads);
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}
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};
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}
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