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119 lines
3.1 KiB
C++
119 lines
3.1 KiB
C++
#include <Storages/MergeTree/LevelMergeSelector.h>
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#include <cmath>
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namespace DB
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{
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namespace
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{
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/** Estimates best set of parts to merge within passed alternatives.
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* It is selected simply: by minimal size.
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*/
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struct Estimator
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{
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using Iterator = LevelMergeSelector::PartsInPartition::const_iterator;
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void consider(Iterator begin, Iterator end, size_t sum_size)
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{
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double current_score = sum_size;
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if (!min_score || current_score < min_score)
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{
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min_score = current_score;
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best_begin = begin;
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best_end = end;
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}
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}
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LevelMergeSelector::PartsInPartition getBest() const
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{
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return LevelMergeSelector::PartsInPartition(best_begin, best_end);
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}
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double min_score = 0;
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Iterator best_begin {};
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Iterator best_end {};
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};
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void selectWithinPartition(
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const LevelMergeSelector::PartsInPartition & parts,
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const size_t max_total_size_to_merge,
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Estimator & estimator,
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const LevelMergeSelector::Settings & settings)
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{
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size_t parts_size = parts.size();
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if (parts_size < settings.parts_to_merge)
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return;
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/// To easily calculate sum size in any range.
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size_t parts_count = parts.size();
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size_t prefix_sum = 0;
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std::vector<size_t> prefix_sums(parts.size() + 1);
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for (size_t i = 0; i < parts_count; ++i)
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{
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prefix_sum += parts[i].size;
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prefix_sums[i + 1] = prefix_sum;
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}
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/// Use "corrected" level. It will be non-decreasing while traversing parts right to left.
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/// This is done for compatibility with another algorithms.
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size_t corrected_level_at_left = 0;
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size_t corrected_level_at_right = 0;
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size_t range_end = parts_size;
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size_t range_begin = range_end - settings.parts_to_merge;
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for (size_t i = range_begin; i < range_end; ++i)
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if (corrected_level_at_left < parts[i].level)
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corrected_level_at_left = parts[i].level;
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while (true)
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{
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if (corrected_level_at_left < parts[range_begin].level)
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corrected_level_at_left = parts[range_begin].level;
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if (corrected_level_at_right < parts[range_end - 1].level)
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corrected_level_at_right = parts[range_end - 1].level;
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/// Leftmost range of same corrected level.
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if (corrected_level_at_left == corrected_level_at_right
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&& (range_begin == 0 || parts[range_begin - 1].level > corrected_level_at_left))
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{
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size_t range_size = prefix_sums[range_end] - prefix_sums[range_begin];
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if (range_size <= max_total_size_to_merge)
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estimator.consider(parts.begin() + range_begin, parts.begin() + range_end, range_size);
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break; /// Minumum level is enough.
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}
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if (range_begin == 0)
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break;
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--range_begin;
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--range_end;
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}
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}
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}
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LevelMergeSelector::PartsInPartition LevelMergeSelector::select(
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const Partitions & partitions,
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const size_t max_total_size_to_merge)
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{
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Estimator estimator;
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for (const auto & partition : partitions)
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selectWithinPartition(partition, max_total_size_to_merge, estimator, settings);
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return estimator.getBest();
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}
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}
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