fork of https://github.com/oxigraph/rocksdb and https://github.com/facebook/rocksdb for nextgraph and oxigraph
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446 lines
13 KiB
446 lines
13 KiB
// Copyright (c) 2018-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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#pragma once
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#include <algorithm>
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#include <iterator>
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#include <list>
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#include <map>
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#include <set>
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#include <string>
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#include <vector>
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#include "db/compaction/compaction_iteration_stats.h"
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#include "db/dbformat.h"
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#include "db/pinned_iterators_manager.h"
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#include "db/range_del_aggregator.h"
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#include "db/range_tombstone_fragmenter.h"
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#include "db/version_edit.h"
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#include "rocksdb/comparator.h"
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#include "rocksdb/types.h"
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#include "table/internal_iterator.h"
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#include "table/scoped_arena_iterator.h"
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#include "table/table_builder.h"
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#include "util/heap.h"
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#include "util/kv_map.h"
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namespace ROCKSDB_NAMESPACE {
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class TruncatedRangeDelIterator {
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public:
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TruncatedRangeDelIterator(
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std::unique_ptr<FragmentedRangeTombstoneIterator> iter,
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const InternalKeyComparator* icmp, const InternalKey* smallest,
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const InternalKey* largest);
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bool Valid() const;
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void Next() { iter_->TopNext(); }
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void Prev() { iter_->TopPrev(); }
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void InternalNext() { iter_->Next(); }
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// Seeks to the tombstone with the highest visible sequence number that covers
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// target (a user key). If no such tombstone exists, the position will be at
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// the earliest tombstone that ends after target.
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void Seek(const Slice& target);
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// Seeks to the tombstone with the highest visible sequence number that covers
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// target (a user key). If no such tombstone exists, the position will be at
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// the latest tombstone that starts before target.
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void SeekForPrev(const Slice& target);
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void SeekToFirst();
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void SeekToLast();
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ParsedInternalKey start_key() const {
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return (smallest_ == nullptr ||
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icmp_->Compare(*smallest_, iter_->parsed_start_key()) <= 0)
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? iter_->parsed_start_key()
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: *smallest_;
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}
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ParsedInternalKey end_key() const {
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return (largest_ == nullptr ||
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icmp_->Compare(iter_->parsed_end_key(), *largest_) <= 0)
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? iter_->parsed_end_key()
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: *largest_;
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}
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SequenceNumber seq() const { return iter_->seq(); }
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std::map<SequenceNumber, std::unique_ptr<TruncatedRangeDelIterator>>
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SplitBySnapshot(const std::vector<SequenceNumber>& snapshots);
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SequenceNumber upper_bound() const { return iter_->upper_bound(); }
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SequenceNumber lower_bound() const { return iter_->lower_bound(); }
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private:
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std::unique_ptr<FragmentedRangeTombstoneIterator> iter_;
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const InternalKeyComparator* icmp_;
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const ParsedInternalKey* smallest_ = nullptr;
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const ParsedInternalKey* largest_ = nullptr;
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std::list<ParsedInternalKey> pinned_bounds_;
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const InternalKey* smallest_ikey_;
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const InternalKey* largest_ikey_;
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};
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struct SeqMaxComparator {
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bool operator()(const TruncatedRangeDelIterator* a,
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const TruncatedRangeDelIterator* b) const {
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return a->seq() > b->seq();
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}
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};
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struct StartKeyMinComparator {
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explicit StartKeyMinComparator(const InternalKeyComparator* c) : icmp(c) {}
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bool operator()(const TruncatedRangeDelIterator* a,
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const TruncatedRangeDelIterator* b) const {
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return icmp->Compare(a->start_key(), b->start_key()) > 0;
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}
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const InternalKeyComparator* icmp;
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};
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class ForwardRangeDelIterator {
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public:
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explicit ForwardRangeDelIterator(const InternalKeyComparator* icmp);
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bool ShouldDelete(const ParsedInternalKey& parsed);
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void Invalidate();
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void AddNewIter(TruncatedRangeDelIterator* iter,
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const ParsedInternalKey& parsed) {
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iter->Seek(parsed.user_key);
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PushIter(iter, parsed);
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assert(active_iters_.size() == active_seqnums_.size());
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}
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size_t UnusedIdx() const { return unused_idx_; }
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void IncUnusedIdx() { unused_idx_++; }
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private:
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using ActiveSeqSet =
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std::multiset<TruncatedRangeDelIterator*, SeqMaxComparator>;
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struct EndKeyMinComparator {
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explicit EndKeyMinComparator(const InternalKeyComparator* c) : icmp(c) {}
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bool operator()(const ActiveSeqSet::const_iterator& a,
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const ActiveSeqSet::const_iterator& b) const {
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return icmp->Compare((*a)->end_key(), (*b)->end_key()) > 0;
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}
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const InternalKeyComparator* icmp;
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};
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void PushIter(TruncatedRangeDelIterator* iter,
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const ParsedInternalKey& parsed) {
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if (!iter->Valid()) {
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// The iterator has been fully consumed, so we don't need to add it to
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// either of the heaps.
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return;
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}
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int cmp = icmp_->Compare(parsed, iter->start_key());
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if (cmp < 0) {
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PushInactiveIter(iter);
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} else {
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PushActiveIter(iter);
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}
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}
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void PushActiveIter(TruncatedRangeDelIterator* iter) {
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auto seq_pos = active_seqnums_.insert(iter);
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active_iters_.push(seq_pos);
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}
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TruncatedRangeDelIterator* PopActiveIter() {
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auto active_top = active_iters_.top();
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auto iter = *active_top;
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active_iters_.pop();
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active_seqnums_.erase(active_top);
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return iter;
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}
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void PushInactiveIter(TruncatedRangeDelIterator* iter) {
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inactive_iters_.push(iter);
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}
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TruncatedRangeDelIterator* PopInactiveIter() {
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auto* iter = inactive_iters_.top();
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inactive_iters_.pop();
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return iter;
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}
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const InternalKeyComparator* icmp_;
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size_t unused_idx_;
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ActiveSeqSet active_seqnums_;
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BinaryHeap<ActiveSeqSet::const_iterator, EndKeyMinComparator> active_iters_;
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BinaryHeap<TruncatedRangeDelIterator*, StartKeyMinComparator> inactive_iters_;
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};
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class ReverseRangeDelIterator {
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public:
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explicit ReverseRangeDelIterator(const InternalKeyComparator* icmp);
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bool ShouldDelete(const ParsedInternalKey& parsed);
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void Invalidate();
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void AddNewIter(TruncatedRangeDelIterator* iter,
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const ParsedInternalKey& parsed) {
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iter->SeekForPrev(parsed.user_key);
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PushIter(iter, parsed);
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assert(active_iters_.size() == active_seqnums_.size());
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}
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size_t UnusedIdx() const { return unused_idx_; }
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void IncUnusedIdx() { unused_idx_++; }
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private:
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using ActiveSeqSet =
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std::multiset<TruncatedRangeDelIterator*, SeqMaxComparator>;
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struct EndKeyMaxComparator {
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explicit EndKeyMaxComparator(const InternalKeyComparator* c) : icmp(c) {}
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bool operator()(const TruncatedRangeDelIterator* a,
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const TruncatedRangeDelIterator* b) const {
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return icmp->Compare(a->end_key(), b->end_key()) < 0;
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}
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const InternalKeyComparator* icmp;
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};
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struct StartKeyMaxComparator {
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explicit StartKeyMaxComparator(const InternalKeyComparator* c) : icmp(c) {}
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bool operator()(const ActiveSeqSet::const_iterator& a,
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const ActiveSeqSet::const_iterator& b) const {
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return icmp->Compare((*a)->start_key(), (*b)->start_key()) < 0;
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}
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const InternalKeyComparator* icmp;
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};
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void PushIter(TruncatedRangeDelIterator* iter,
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const ParsedInternalKey& parsed) {
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if (!iter->Valid()) {
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// The iterator has been fully consumed, so we don't need to add it to
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// either of the heaps.
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} else if (icmp_->Compare(iter->end_key(), parsed) <= 0) {
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PushInactiveIter(iter);
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} else {
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PushActiveIter(iter);
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}
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}
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void PushActiveIter(TruncatedRangeDelIterator* iter) {
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auto seq_pos = active_seqnums_.insert(iter);
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active_iters_.push(seq_pos);
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}
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TruncatedRangeDelIterator* PopActiveIter() {
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auto active_top = active_iters_.top();
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auto iter = *active_top;
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active_iters_.pop();
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active_seqnums_.erase(active_top);
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return iter;
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}
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void PushInactiveIter(TruncatedRangeDelIterator* iter) {
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inactive_iters_.push(iter);
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}
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TruncatedRangeDelIterator* PopInactiveIter() {
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auto* iter = inactive_iters_.top();
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inactive_iters_.pop();
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return iter;
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}
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const InternalKeyComparator* icmp_;
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size_t unused_idx_;
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ActiveSeqSet active_seqnums_;
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BinaryHeap<ActiveSeqSet::const_iterator, StartKeyMaxComparator> active_iters_;
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BinaryHeap<TruncatedRangeDelIterator*, EndKeyMaxComparator> inactive_iters_;
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};
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enum class RangeDelPositioningMode { kForwardTraversal, kBackwardTraversal };
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class RangeDelAggregator {
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public:
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explicit RangeDelAggregator(const InternalKeyComparator* icmp)
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: icmp_(icmp) {}
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virtual ~RangeDelAggregator() {}
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virtual void AddTombstones(
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std::unique_ptr<FragmentedRangeTombstoneIterator> input_iter,
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const InternalKey* smallest = nullptr,
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const InternalKey* largest = nullptr) = 0;
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bool ShouldDelete(const Slice& ikey, RangeDelPositioningMode mode) {
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ParsedInternalKey parsed;
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Status pik_status =
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ParseInternalKey(ikey, &parsed, false /* log_err_key */); // TODO
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assert(pik_status.ok());
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if (!pik_status.ok()) {
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return false;
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}
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return ShouldDelete(parsed, mode);
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}
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virtual bool ShouldDelete(const ParsedInternalKey& parsed,
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RangeDelPositioningMode mode) = 0;
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virtual void InvalidateRangeDelMapPositions() = 0;
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virtual bool IsEmpty() const = 0;
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bool AddFile(uint64_t file_number) {
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return files_seen_.insert(file_number).second;
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}
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protected:
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class StripeRep {
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public:
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StripeRep(const InternalKeyComparator* icmp, SequenceNumber upper_bound,
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SequenceNumber lower_bound)
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: icmp_(icmp),
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forward_iter_(icmp),
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reverse_iter_(icmp),
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upper_bound_(upper_bound),
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lower_bound_(lower_bound) {}
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void AddTombstones(std::unique_ptr<TruncatedRangeDelIterator> input_iter) {
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iters_.push_back(std::move(input_iter));
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}
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bool IsEmpty() const { return iters_.empty(); }
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bool ShouldDelete(const ParsedInternalKey& parsed,
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RangeDelPositioningMode mode);
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void Invalidate() {
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if (!IsEmpty()) {
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InvalidateForwardIter();
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InvalidateReverseIter();
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}
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}
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bool IsRangeOverlapped(const Slice& start, const Slice& end);
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private:
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bool InStripe(SequenceNumber seq) const {
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return lower_bound_ <= seq && seq <= upper_bound_;
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}
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void InvalidateForwardIter() { forward_iter_.Invalidate(); }
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void InvalidateReverseIter() { reverse_iter_.Invalidate(); }
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const InternalKeyComparator* icmp_;
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std::vector<std::unique_ptr<TruncatedRangeDelIterator>> iters_;
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ForwardRangeDelIterator forward_iter_;
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ReverseRangeDelIterator reverse_iter_;
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SequenceNumber upper_bound_;
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SequenceNumber lower_bound_;
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};
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const InternalKeyComparator* icmp_;
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private:
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std::set<uint64_t> files_seen_;
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};
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class ReadRangeDelAggregator final : public RangeDelAggregator {
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public:
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ReadRangeDelAggregator(const InternalKeyComparator* icmp,
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SequenceNumber upper_bound)
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: RangeDelAggregator(icmp),
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rep_(icmp, upper_bound, 0 /* lower_bound */) {}
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~ReadRangeDelAggregator() override {}
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using RangeDelAggregator::ShouldDelete;
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void AddTombstones(
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std::unique_ptr<FragmentedRangeTombstoneIterator> input_iter,
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const InternalKey* smallest = nullptr,
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const InternalKey* largest = nullptr) override;
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bool ShouldDelete(const ParsedInternalKey& parsed,
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RangeDelPositioningMode mode) final override {
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if (rep_.IsEmpty()) {
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return false;
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}
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return ShouldDeleteImpl(parsed, mode);
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}
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bool IsRangeOverlapped(const Slice& start, const Slice& end);
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void InvalidateRangeDelMapPositions() override { rep_.Invalidate(); }
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bool IsEmpty() const override { return rep_.IsEmpty(); }
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private:
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StripeRep rep_;
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bool ShouldDeleteImpl(const ParsedInternalKey& parsed,
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RangeDelPositioningMode mode);
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};
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class CompactionRangeDelAggregator : public RangeDelAggregator {
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public:
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CompactionRangeDelAggregator(const InternalKeyComparator* icmp,
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const std::vector<SequenceNumber>& snapshots)
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: RangeDelAggregator(icmp), snapshots_(&snapshots) {}
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~CompactionRangeDelAggregator() override {}
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void AddTombstones(
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std::unique_ptr<FragmentedRangeTombstoneIterator> input_iter,
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const InternalKey* smallest = nullptr,
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const InternalKey* largest = nullptr) override;
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using RangeDelAggregator::ShouldDelete;
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bool ShouldDelete(const ParsedInternalKey& parsed,
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RangeDelPositioningMode mode) override;
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bool IsRangeOverlapped(const Slice& start, const Slice& end);
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void InvalidateRangeDelMapPositions() override {
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for (auto& rep : reps_) {
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rep.second.Invalidate();
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}
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}
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bool IsEmpty() const override {
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for (const auto& rep : reps_) {
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if (!rep.second.IsEmpty()) {
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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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// Creates an iterator over all the range tombstones in the aggregator, for
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// use in compaction. Nullptr arguments indicate that the iterator range is
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// unbounded.
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// NOTE: the boundaries are used for optimization purposes to reduce the
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// number of tombstones that are passed to the fragmenter; they do not
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// guarantee that the resulting iterator only contains range tombstones that
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// cover keys in the provided range. If required, these bounds must be
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// enforced during iteration.
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std::unique_ptr<FragmentedRangeTombstoneIterator> NewIterator(
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const Slice* lower_bound = nullptr, const Slice* upper_bound = nullptr,
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bool upper_bound_inclusive = false);
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private:
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std::vector<std::unique_ptr<TruncatedRangeDelIterator>> parent_iters_;
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std::map<SequenceNumber, StripeRep> reps_;
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const std::vector<SequenceNumber>* snapshots_;
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};
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} // namespace ROCKSDB_NAMESPACE
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