mirror of
https://github.com/facebook/rocksdb.git
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fdf882ded2
Summary: When dynamically linking two binaries together, different builds of RocksDB from two sources might cause errors. To provide a tool for user to solve the problem, the RocksDB namespace is changed to a flag which can be overridden in build time. Pull Request resolved: https://github.com/facebook/rocksdb/pull/6433 Test Plan: Build release, all and jtest. Try to build with ROCKSDB_NAMESPACE with another flag. Differential Revision: D19977691 fbshipit-source-id: aa7f2d0972e1c31d75339ac48478f34f6cfcfb3e
257 lines
9.3 KiB
C++
257 lines
9.3 KiB
C++
// 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 <list>
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#include <memory>
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#include <set>
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#include <string>
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#include <vector>
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#include "db/dbformat.h"
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#include "db/pinned_iterators_manager.h"
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#include "rocksdb/status.h"
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#include "table/internal_iterator.h"
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namespace ROCKSDB_NAMESPACE {
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struct FragmentedRangeTombstoneList {
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public:
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// A compact representation of a "stack" of range tombstone fragments, which
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// start and end at the same user keys but have different sequence numbers.
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// The members seq_start_idx and seq_end_idx are intended to be parameters to
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// seq_iter().
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struct RangeTombstoneStack {
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RangeTombstoneStack(const Slice& start, const Slice& end, size_t start_idx,
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size_t end_idx)
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: start_key(start),
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end_key(end),
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seq_start_idx(start_idx),
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seq_end_idx(end_idx) {}
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Slice start_key;
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Slice end_key;
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size_t seq_start_idx;
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size_t seq_end_idx;
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};
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FragmentedRangeTombstoneList(
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std::unique_ptr<InternalIterator> unfragmented_tombstones,
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const InternalKeyComparator& icmp, bool for_compaction = false,
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const std::vector<SequenceNumber>& snapshots = {});
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std::vector<RangeTombstoneStack>::const_iterator begin() const {
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return tombstones_.begin();
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}
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std::vector<RangeTombstoneStack>::const_iterator end() const {
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return tombstones_.end();
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}
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std::vector<SequenceNumber>::const_iterator seq_iter(size_t idx) const {
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return std::next(tombstone_seqs_.begin(), idx);
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}
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std::vector<SequenceNumber>::const_iterator seq_begin() const {
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return tombstone_seqs_.begin();
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}
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std::vector<SequenceNumber>::const_iterator seq_end() const {
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return tombstone_seqs_.end();
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}
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bool empty() const { return tombstones_.empty(); }
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// Returns true if the stored tombstones contain with one with a sequence
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// number in [lower, upper].
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bool ContainsRange(SequenceNumber lower, SequenceNumber upper) const;
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private:
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// Given an ordered range tombstone iterator unfragmented_tombstones,
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// "fragment" the tombstones into non-overlapping pieces, and store them in
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// tombstones_ and tombstone_seqs_.
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void FragmentTombstones(
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std::unique_ptr<InternalIterator> unfragmented_tombstones,
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const InternalKeyComparator& icmp, bool for_compaction,
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const std::vector<SequenceNumber>& snapshots);
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std::vector<RangeTombstoneStack> tombstones_;
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std::vector<SequenceNumber> tombstone_seqs_;
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std::set<SequenceNumber> seq_set_;
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std::list<std::string> pinned_slices_;
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PinnedIteratorsManager pinned_iters_mgr_;
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};
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// FragmentedRangeTombstoneIterator converts an InternalIterator of a range-del
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// meta block into an iterator over non-overlapping tombstone fragments. The
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// tombstone fragmentation process should be more efficient than the range
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// tombstone collapsing algorithm in RangeDelAggregator because this leverages
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// the internal key ordering already provided by the input iterator, if
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// applicable (when the iterator is unsorted, a new sorted iterator is created
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// before proceeding). If there are few overlaps, creating a
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// FragmentedRangeTombstoneIterator should be O(n), while the RangeDelAggregator
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// tombstone collapsing is always O(n log n).
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class FragmentedRangeTombstoneIterator : public InternalIterator {
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public:
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FragmentedRangeTombstoneIterator(
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const FragmentedRangeTombstoneList* tombstones,
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const InternalKeyComparator& icmp, SequenceNumber upper_bound,
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SequenceNumber lower_bound = 0);
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FragmentedRangeTombstoneIterator(
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const std::shared_ptr<const FragmentedRangeTombstoneList>& tombstones,
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const InternalKeyComparator& icmp, SequenceNumber upper_bound,
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SequenceNumber lower_bound = 0);
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void SeekToFirst() override;
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void SeekToLast() override;
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void SeekToTopFirst();
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void SeekToTopLast();
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// NOTE: Seek and SeekForPrev do not behave in the way InternalIterator
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// seeking should behave. This is OK because they are not currently used, but
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// eventually FragmentedRangeTombstoneIterator should no longer implement
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// InternalIterator.
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//
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// Seeks to the range tombstone that covers target at a seqnum in the
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// snapshot. If no such tombstone exists, seek to the earliest tombstone in
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// the snapshot that ends after target.
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void Seek(const Slice& target) override;
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// Seeks to the range tombstone that covers target at a seqnum in the
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// snapshot. If no such tombstone exists, seek to the latest tombstone in the
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// snapshot that starts before target.
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void SeekForPrev(const Slice& target) override;
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void Next() override;
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void Prev() override;
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void TopNext();
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void TopPrev();
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bool Valid() const override;
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Slice key() const override {
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MaybePinKey();
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return current_start_key_.Encode();
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}
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Slice value() const override { return pos_->end_key; }
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bool IsKeyPinned() const override { return false; }
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bool IsValuePinned() const override { return true; }
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Status status() const override { return Status::OK(); }
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bool empty() const { return tombstones_->empty(); }
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void Invalidate() {
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pos_ = tombstones_->end();
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seq_pos_ = tombstones_->seq_end();
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pinned_pos_ = tombstones_->end();
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pinned_seq_pos_ = tombstones_->seq_end();
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}
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RangeTombstone Tombstone() const {
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return RangeTombstone(start_key(), end_key(), seq());
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}
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Slice start_key() const { return pos_->start_key; }
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Slice end_key() const { return pos_->end_key; }
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SequenceNumber seq() const { return *seq_pos_; }
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ParsedInternalKey parsed_start_key() const {
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return ParsedInternalKey(pos_->start_key, kMaxSequenceNumber,
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kTypeRangeDeletion);
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}
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ParsedInternalKey parsed_end_key() const {
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return ParsedInternalKey(pos_->end_key, kMaxSequenceNumber,
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kTypeRangeDeletion);
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}
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SequenceNumber MaxCoveringTombstoneSeqnum(const Slice& user_key);
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// Splits the iterator into n+1 iterators (where n is the number of
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// snapshots), each providing a view over a "stripe" of sequence numbers. The
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// iterators are keyed by the upper bound of their ranges (the provided
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// snapshots + kMaxSequenceNumber).
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//
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// NOTE: the iterators in the returned map are no longer valid if their
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// parent iterator is deleted, since they do not modify the refcount of the
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// underlying tombstone list. Therefore, this map should be deleted before
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// the parent iterator.
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std::map<SequenceNumber, std::unique_ptr<FragmentedRangeTombstoneIterator>>
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SplitBySnapshot(const std::vector<SequenceNumber>& snapshots);
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SequenceNumber upper_bound() const { return upper_bound_; }
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SequenceNumber lower_bound() const { return lower_bound_; }
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private:
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using RangeTombstoneStack = FragmentedRangeTombstoneList::RangeTombstoneStack;
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struct RangeTombstoneStackStartComparator {
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explicit RangeTombstoneStackStartComparator(const Comparator* c) : cmp(c) {}
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bool operator()(const RangeTombstoneStack& a,
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const RangeTombstoneStack& b) const {
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return cmp->Compare(a.start_key, b.start_key) < 0;
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}
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bool operator()(const RangeTombstoneStack& a, const Slice& b) const {
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return cmp->Compare(a.start_key, b) < 0;
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}
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bool operator()(const Slice& a, const RangeTombstoneStack& b) const {
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return cmp->Compare(a, b.start_key) < 0;
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}
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const Comparator* cmp;
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};
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struct RangeTombstoneStackEndComparator {
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explicit RangeTombstoneStackEndComparator(const Comparator* c) : cmp(c) {}
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bool operator()(const RangeTombstoneStack& a,
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const RangeTombstoneStack& b) const {
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return cmp->Compare(a.end_key, b.end_key) < 0;
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}
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bool operator()(const RangeTombstoneStack& a, const Slice& b) const {
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return cmp->Compare(a.end_key, b) < 0;
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}
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bool operator()(const Slice& a, const RangeTombstoneStack& b) const {
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return cmp->Compare(a, b.end_key) < 0;
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}
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const Comparator* cmp;
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};
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void MaybePinKey() const {
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if (pos_ != tombstones_->end() && seq_pos_ != tombstones_->seq_end() &&
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(pinned_pos_ != pos_ || pinned_seq_pos_ != seq_pos_)) {
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current_start_key_.Set(pos_->start_key, *seq_pos_, kTypeRangeDeletion);
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pinned_pos_ = pos_;
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pinned_seq_pos_ = seq_pos_;
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}
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}
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void SeekToCoveringTombstone(const Slice& key);
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void SeekForPrevToCoveringTombstone(const Slice& key);
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void ScanForwardToVisibleTombstone();
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void ScanBackwardToVisibleTombstone();
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bool ValidPos() const {
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return Valid() && seq_pos_ != tombstones_->seq_iter(pos_->seq_end_idx);
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}
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const RangeTombstoneStackStartComparator tombstone_start_cmp_;
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const RangeTombstoneStackEndComparator tombstone_end_cmp_;
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const InternalKeyComparator* icmp_;
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const Comparator* ucmp_;
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std::shared_ptr<const FragmentedRangeTombstoneList> tombstones_ref_;
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const FragmentedRangeTombstoneList* tombstones_;
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SequenceNumber upper_bound_;
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SequenceNumber lower_bound_;
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std::vector<RangeTombstoneStack>::const_iterator pos_;
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std::vector<SequenceNumber>::const_iterator seq_pos_;
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mutable std::vector<RangeTombstoneStack>::const_iterator pinned_pos_;
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mutable std::vector<SequenceNumber>::const_iterator pinned_seq_pos_;
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mutable InternalKey current_start_key_;
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};
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} // namespace ROCKSDB_NAMESPACE
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