fork of https://github.com/oxigraph/rocksdb and https://github.com/facebook/rocksdb for nextgraph and oxigraph
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443 lines
15 KiB
443 lines
15 KiB
// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under the BSD-style license found in the
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// LICENSE file in the root directory of this source tree. An additional grant
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// of patent rights can be found in the PATENTS file in the same directory.
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//
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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#include "db/compaction.h"
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#ifndef __STDC_FORMAT_MACROS
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#define __STDC_FORMAT_MACROS
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#endif
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#include <inttypes.h>
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#include <vector>
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#include "rocksdb/compaction_filter.h"
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#include "db/column_family.h"
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#include "util/logging.h"
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#include "util/sync_point.h"
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namespace rocksdb {
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uint64_t TotalFileSize(const std::vector<FileMetaData*>& files) {
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uint64_t sum = 0;
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for (size_t i = 0; i < files.size() && files[i]; i++) {
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sum += files[i]->fd.GetFileSize();
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}
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return sum;
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}
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void Compaction::SetInputVersion(Version* _input_version) {
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input_version_ = _input_version;
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cfd_ = input_version_->cfd();
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cfd_->Ref();
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input_version_->Ref();
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edit_.SetColumnFamily(cfd_->GetID());
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}
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void Compaction::GetBoundaryKeys(
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VersionStorageInfo* vstorage,
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const std::vector<CompactionInputFiles>& inputs, Slice* smallest_user_key,
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Slice* largest_user_key) {
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bool initialized = false;
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const Comparator* ucmp = vstorage->InternalComparator()->user_comparator();
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for (size_t i = 0; i < inputs.size(); ++i) {
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if (inputs[i].files.empty()) {
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continue;
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}
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if (inputs[i].level == 0) {
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// we need to consider all files on level 0
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for (const auto* f : inputs[i].files) {
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const Slice& start_user_key = f->smallest.user_key();
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if (!initialized ||
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ucmp->Compare(start_user_key, *smallest_user_key) < 0) {
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*smallest_user_key = start_user_key;
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}
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const Slice& end_user_key = f->largest.user_key();
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if (!initialized ||
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ucmp->Compare(end_user_key, *largest_user_key) > 0) {
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*largest_user_key = end_user_key;
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}
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initialized = true;
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}
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} else {
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// we only need to consider the first and last file
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const Slice& start_user_key = inputs[i].files[0]->smallest.user_key();
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if (!initialized ||
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ucmp->Compare(start_user_key, *smallest_user_key) < 0) {
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*smallest_user_key = start_user_key;
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}
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const Slice& end_user_key = inputs[i].files.back()->largest.user_key();
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if (!initialized || ucmp->Compare(end_user_key, *largest_user_key) > 0) {
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*largest_user_key = end_user_key;
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}
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initialized = true;
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}
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}
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}
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// helper function to determine if compaction is creating files at the
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// bottommost level
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bool Compaction::IsBottommostLevel(
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int output_level, VersionStorageInfo* vstorage,
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const std::vector<CompactionInputFiles>& inputs) {
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if (inputs[0].level == 0 &&
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inputs[0].files.back() != vstorage->LevelFiles(0).back()) {
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return false;
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}
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Slice smallest_key, largest_key;
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GetBoundaryKeys(vstorage, inputs, &smallest_key, &largest_key);
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// Checks whether there are files living beyond the output_level.
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// If lower levels have files, it checks for overlap between files
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// if the compaction process and those files.
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// Bottomlevel optimizations can be made if there are no files in
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// lower levels or if there is no overlap with the files in
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// the lower levels.
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for (int i = output_level + 1; i < vstorage->num_levels(); i++) {
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// It is not the bottommost level if there are files in higher
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// levels when the output level is 0 or if there are files in
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// higher levels which overlap with files to be compacted.
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// output_level == 0 means that we want it to be considered
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// s the bottommost level only if the last file on the level
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// is a part of the files to be compacted - this is verified by
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// the first if condition in this function
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if (vstorage->NumLevelFiles(i) > 0 &&
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(output_level == 0 ||
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vstorage->OverlapInLevel(i, &smallest_key, &largest_key))) {
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return false;
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}
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}
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return true;
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}
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// test function to validate the functionality of IsBottommostLevel()
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// function -- determines if compaction with inputs and storage is bottommost
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bool Compaction::TEST_IsBottommostLevel(
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int output_level, VersionStorageInfo* vstorage,
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const std::vector<CompactionInputFiles>& inputs) {
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return IsBottommostLevel(output_level, vstorage, inputs);
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}
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bool Compaction::IsFullCompaction(
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VersionStorageInfo* vstorage,
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const std::vector<CompactionInputFiles>& inputs) {
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size_t num_files_in_compaction = 0;
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size_t total_num_files = 0;
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for (int l = 0; l < vstorage->num_levels(); l++) {
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total_num_files += vstorage->NumLevelFiles(l);
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}
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for (size_t i = 0; i < inputs.size(); i++) {
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num_files_in_compaction += inputs[i].size();
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}
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return num_files_in_compaction == total_num_files;
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}
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Compaction::Compaction(VersionStorageInfo* vstorage,
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const MutableCFOptions& _mutable_cf_options,
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std::vector<CompactionInputFiles> _inputs,
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int _output_level, uint64_t _target_file_size,
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uint64_t _max_grandparent_overlap_bytes,
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uint32_t _output_path_id, CompressionType _compression,
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std::vector<FileMetaData*> _grandparents,
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bool _manual_compaction, double _score,
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bool _deletion_compaction,
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CompactionReason _compaction_reason)
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: start_level_(_inputs[0].level),
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output_level_(_output_level),
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max_output_file_size_(_target_file_size),
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max_grandparent_overlap_bytes_(_max_grandparent_overlap_bytes),
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mutable_cf_options_(_mutable_cf_options),
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input_version_(nullptr),
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number_levels_(vstorage->num_levels()),
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cfd_(nullptr),
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output_path_id_(_output_path_id),
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output_compression_(_compression),
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deletion_compaction_(_deletion_compaction),
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inputs_(std::move(_inputs)),
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grandparents_(std::move(_grandparents)),
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score_(_score),
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bottommost_level_(IsBottommostLevel(output_level_, vstorage, inputs_)),
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is_full_compaction_(IsFullCompaction(vstorage, inputs_)),
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is_manual_compaction_(_manual_compaction),
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compaction_reason_(_compaction_reason) {
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MarkFilesBeingCompacted(true);
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if (is_manual_compaction_) {
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compaction_reason_ = CompactionReason::kManualCompaction;
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}
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#ifndef NDEBUG
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for (size_t i = 1; i < inputs_.size(); ++i) {
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assert(inputs_[i].level > inputs_[i - 1].level);
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}
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#endif
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// setup input_levels_
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{
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input_levels_.resize(num_input_levels());
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for (size_t which = 0; which < num_input_levels(); which++) {
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DoGenerateLevelFilesBrief(&input_levels_[which], inputs_[which].files,
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&arena_);
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}
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}
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Slice smallest_user_key;
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GetBoundaryKeys(vstorage, inputs_, &smallest_user_key, &largest_user_key_);
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}
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Compaction::~Compaction() {
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if (input_version_ != nullptr) {
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input_version_->Unref();
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}
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if (cfd_ != nullptr) {
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if (cfd_->Unref()) {
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delete cfd_;
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}
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}
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}
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bool Compaction::InputCompressionMatchesOutput() const {
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int base_level = input_version_->storage_info()->base_level();
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bool matches = (GetCompressionType(*cfd_->ioptions(), start_level_,
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base_level) == output_compression_);
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if (matches) {
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TEST_SYNC_POINT("Compaction::InputCompressionMatchesOutput:Matches");
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return true;
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}
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TEST_SYNC_POINT("Compaction::InputCompressionMatchesOutput:DidntMatch");
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return matches;
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}
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bool Compaction::IsTrivialMove() const {
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// Avoid a move if there is lots of overlapping grandparent data.
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// Otherwise, the move could create a parent file that will require
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// a very expensive merge later on.
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// If start_level_== output_level_, the purpose is to force compaction
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// filter to be applied to that level, and thus cannot be a trivial move.
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// Check if start level have files with overlapping ranges
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if (start_level_ == 0 &&
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input_version_->storage_info()->level0_non_overlapping() == false) {
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// We cannot move files from L0 to L1 if the files are overlapping
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return false;
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}
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if (is_manual_compaction_ &&
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(cfd_->ioptions()->compaction_filter != nullptr ||
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cfd_->ioptions()->compaction_filter_factory != nullptr)) {
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// This is a manual compaction and we have a compaction filter that should
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// be executed, we cannot do a trivial move
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return false;
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}
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// Used in universal compaction, where trivial move can be done if the
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// input files are non overlapping
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if ((cfd_->ioptions()->compaction_options_universal.allow_trivial_move) &&
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(output_level_ != 0)) {
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return is_trivial_move_;
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}
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return (start_level_ != output_level_ && num_input_levels() == 1 &&
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input(0, 0)->fd.GetPathId() == output_path_id() &&
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InputCompressionMatchesOutput() &&
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TotalFileSize(grandparents_) <= max_grandparent_overlap_bytes_);
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}
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void Compaction::AddInputDeletions(VersionEdit* out_edit) {
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for (size_t which = 0; which < num_input_levels(); which++) {
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for (size_t i = 0; i < inputs_[which].size(); i++) {
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out_edit->DeleteFile(level(which), inputs_[which][i]->fd.GetNumber());
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}
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}
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}
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bool Compaction::KeyNotExistsBeyondOutputLevel(
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const Slice& user_key, std::vector<size_t>* level_ptrs) const {
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assert(input_version_ != nullptr);
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assert(level_ptrs != nullptr);
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assert(level_ptrs->size() == static_cast<size_t>(number_levels_));
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assert(cfd_->ioptions()->compaction_style != kCompactionStyleFIFO);
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if (cfd_->ioptions()->compaction_style == kCompactionStyleUniversal) {
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return bottommost_level_;
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}
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// Maybe use binary search to find right entry instead of linear search?
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const Comparator* user_cmp = cfd_->user_comparator();
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for (int lvl = output_level_ + 1; lvl < number_levels_; lvl++) {
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const std::vector<FileMetaData*>& files =
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input_version_->storage_info()->LevelFiles(lvl);
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for (; level_ptrs->at(lvl) < files.size(); level_ptrs->at(lvl)++) {
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auto* f = files[level_ptrs->at(lvl)];
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if (user_cmp->Compare(user_key, f->largest.user_key()) <= 0) {
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// We've advanced far enough
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if (user_cmp->Compare(user_key, f->smallest.user_key()) >= 0) {
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// Key falls in this file's range, so definitely
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// exists beyond output level
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return false;
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}
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break;
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}
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}
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}
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return true;
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}
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// Mark (or clear) each file that is being compacted
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void Compaction::MarkFilesBeingCompacted(bool mark_as_compacted) {
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for (size_t i = 0; i < num_input_levels(); i++) {
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for (size_t j = 0; j < inputs_[i].size(); j++) {
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assert(mark_as_compacted ? !inputs_[i][j]->being_compacted :
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inputs_[i][j]->being_compacted);
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inputs_[i][j]->being_compacted = mark_as_compacted;
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}
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}
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}
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// Sample output:
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// If compacting 3 L0 files, 2 L3 files and 1 L4 file, and outputting to L5,
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// print: "3@0 + 2@3 + 1@4 files to L5"
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const char* Compaction::InputLevelSummary(
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InputLevelSummaryBuffer* scratch) const {
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int len = 0;
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bool is_first = true;
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for (auto& input_level : inputs_) {
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if (input_level.empty()) {
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continue;
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}
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if (!is_first) {
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len +=
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snprintf(scratch->buffer + len, sizeof(scratch->buffer) - len, " + ");
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} else {
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is_first = false;
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}
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len += snprintf(scratch->buffer + len, sizeof(scratch->buffer) - len,
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"%" ROCKSDB_PRIszt "@%d", input_level.size(),
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input_level.level);
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}
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snprintf(scratch->buffer + len, sizeof(scratch->buffer) - len,
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" files to L%d", output_level());
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return scratch->buffer;
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}
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uint64_t Compaction::CalculateTotalInputSize() const {
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uint64_t size = 0;
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for (auto& input_level : inputs_) {
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for (auto f : input_level.files) {
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size += f->fd.GetFileSize();
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}
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}
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return size;
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}
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void Compaction::ReleaseCompactionFiles(Status status) {
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MarkFilesBeingCompacted(false);
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cfd_->compaction_picker()->ReleaseCompactionFiles(this, status);
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}
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void Compaction::ResetNextCompactionIndex() {
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assert(input_version_ != nullptr);
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input_version_->storage_info()->ResetNextCompactionIndex(start_level_);
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}
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namespace {
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int InputSummary(const std::vector<FileMetaData*>& files, char* output,
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int len) {
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*output = '\0';
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int write = 0;
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for (size_t i = 0; i < files.size(); i++) {
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int sz = len - write;
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int ret;
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char sztxt[16];
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AppendHumanBytes(files.at(i)->fd.GetFileSize(), sztxt, 16);
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ret = snprintf(output + write, sz, "%" PRIu64 "(%s) ",
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files.at(i)->fd.GetNumber(), sztxt);
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if (ret < 0 || ret >= sz) break;
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write += ret;
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}
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// if files.size() is non-zero, overwrite the last space
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return write - !!files.size();
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}
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} // namespace
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void Compaction::Summary(char* output, int len) {
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int write =
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snprintf(output, len, "Base version %" PRIu64
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" Base level %d, inputs: [",
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input_version_->GetVersionNumber(),
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start_level_);
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if (write < 0 || write >= len) {
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return;
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}
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for (size_t level_iter = 0; level_iter < num_input_levels(); ++level_iter) {
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if (level_iter > 0) {
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write += snprintf(output + write, len - write, "], [");
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if (write < 0 || write >= len) {
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return;
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}
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}
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write +=
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InputSummary(inputs_[level_iter].files, output + write, len - write);
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if (write < 0 || write >= len) {
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return;
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}
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}
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snprintf(output + write, len - write, "]");
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}
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uint64_t Compaction::OutputFilePreallocationSize() const {
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uint64_t preallocation_size = 0;
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if (cfd_->ioptions()->compaction_style == kCompactionStyleLevel ||
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output_level() > 0) {
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preallocation_size = max_output_file_size_;
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} else {
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// output_level() == 0
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assert(num_input_levels() > 0);
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for (const auto& f : inputs_[0].files) {
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preallocation_size += f->fd.GetFileSize();
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}
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}
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// Over-estimate slightly so we don't end up just barely crossing
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// the threshold
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return preallocation_size + (preallocation_size / 10);
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}
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std::unique_ptr<CompactionFilter> Compaction::CreateCompactionFilter() const {
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if (!cfd_->ioptions()->compaction_filter_factory) {
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return nullptr;
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}
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CompactionFilter::Context context;
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context.is_full_compaction = is_full_compaction_;
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context.is_manual_compaction = is_manual_compaction_;
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context.column_family_id = cfd_->GetID();
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return cfd_->ioptions()->compaction_filter_factory->CreateCompactionFilter(
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context);
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}
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bool Compaction::IsOutputLevelEmpty() const {
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return inputs_.back().level != output_level_ || inputs_.back().empty();
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}
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bool Compaction::ShouldFormSubcompactions() const {
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if (mutable_cf_options_.max_subcompactions <= 1 || cfd_ == nullptr) {
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return false;
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}
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if (cfd_->ioptions()->compaction_style == kCompactionStyleLevel) {
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return start_level_ == 0 && !IsOutputLevelEmpty();
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} else if (cfd_->ioptions()->compaction_style == kCompactionStyleUniversal) {
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return number_levels_ > 1 && output_level_ > 0;
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} else {
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return false;
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}
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}
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} // namespace rocksdb
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