49c5a12dbe
Summary: Pull Request resolved: https://github.com/facebook/rocksdb/pull/5390 Differential Revision: D15579388 Pulled By: vjnadimpalli fbshipit-source-id: 5bfc95e31554b8ff05b97b76d6534113f527f366
485 lines
16 KiB
C++
485 lines
16 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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#include "db/range_del_aggregator.h"
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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 "include/rocksdb/comparator.h"
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#include "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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#include "util/vector_iterator.h"
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namespace rocksdb {
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TruncatedRangeDelIterator::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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: iter_(std::move(iter)),
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icmp_(icmp),
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smallest_ikey_(smallest),
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largest_ikey_(largest) {
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if (smallest != nullptr) {
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pinned_bounds_.emplace_back();
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auto& parsed_smallest = pinned_bounds_.back();
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if (!ParseInternalKey(smallest->Encode(), &parsed_smallest)) {
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assert(false);
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}
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smallest_ = &parsed_smallest;
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}
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if (largest != nullptr) {
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pinned_bounds_.emplace_back();
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auto& parsed_largest = pinned_bounds_.back();
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if (!ParseInternalKey(largest->Encode(), &parsed_largest)) {
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assert(false);
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}
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if (parsed_largest.type == kTypeRangeDeletion &&
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parsed_largest.sequence == kMaxSequenceNumber) {
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// The file boundary has been artificially extended by a range tombstone.
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// We do not need to adjust largest to properly truncate range
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// tombstones that extend past the boundary.
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} else if (parsed_largest.sequence == 0) {
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// The largest key in the sstable has a sequence number of 0. Since we
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// guarantee that no internal keys with the same user key and sequence
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// number can exist in a DB, we know that the largest key in this sstable
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// cannot exist as the smallest key in the next sstable. This further
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// implies that no range tombstone in this sstable covers largest;
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// otherwise, the file boundary would have been artificially extended.
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//
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// Therefore, we will never truncate a range tombstone at largest, so we
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// can leave it unchanged.
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} else {
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// The same user key may straddle two sstable boundaries. To ensure that
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// the truncated end key can cover the largest key in this sstable, reduce
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// its sequence number by 1.
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parsed_largest.sequence -= 1;
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}
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largest_ = &parsed_largest;
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}
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}
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bool TruncatedRangeDelIterator::Valid() const {
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return iter_->Valid() &&
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(smallest_ == nullptr ||
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icmp_->Compare(*smallest_, iter_->parsed_end_key()) < 0) &&
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(largest_ == nullptr ||
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icmp_->Compare(iter_->parsed_start_key(), *largest_) < 0);
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}
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void TruncatedRangeDelIterator::Next() { iter_->TopNext(); }
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void TruncatedRangeDelIterator::Prev() { iter_->TopPrev(); }
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void TruncatedRangeDelIterator::InternalNext() { iter_->Next(); }
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// NOTE: target is a user key
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void TruncatedRangeDelIterator::Seek(const Slice& target) {
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if (largest_ != nullptr &&
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icmp_->Compare(*largest_, ParsedInternalKey(target, kMaxSequenceNumber,
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kTypeRangeDeletion)) <= 0) {
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iter_->Invalidate();
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return;
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}
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if (smallest_ != nullptr &&
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icmp_->user_comparator()->Compare(target, smallest_->user_key) < 0) {
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iter_->Seek(smallest_->user_key);
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return;
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}
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iter_->Seek(target);
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}
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// NOTE: target is a user key
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void TruncatedRangeDelIterator::SeekForPrev(const Slice& target) {
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if (smallest_ != nullptr &&
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icmp_->Compare(ParsedInternalKey(target, 0, kTypeRangeDeletion),
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*smallest_) < 0) {
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iter_->Invalidate();
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return;
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}
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if (largest_ != nullptr &&
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icmp_->user_comparator()->Compare(largest_->user_key, target) < 0) {
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iter_->SeekForPrev(largest_->user_key);
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return;
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}
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iter_->SeekForPrev(target);
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}
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void TruncatedRangeDelIterator::SeekToFirst() {
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if (smallest_ != nullptr) {
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iter_->Seek(smallest_->user_key);
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return;
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}
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iter_->SeekToTopFirst();
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}
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void TruncatedRangeDelIterator::SeekToLast() {
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if (largest_ != nullptr) {
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iter_->SeekForPrev(largest_->user_key);
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return;
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}
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iter_->SeekToTopLast();
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}
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std::map<SequenceNumber, std::unique_ptr<TruncatedRangeDelIterator>>
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TruncatedRangeDelIterator::SplitBySnapshot(
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const std::vector<SequenceNumber>& snapshots) {
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using FragmentedIterPair =
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std::pair<const SequenceNumber,
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std::unique_ptr<FragmentedRangeTombstoneIterator>>;
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auto split_untruncated_iters = iter_->SplitBySnapshot(snapshots);
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std::map<SequenceNumber, std::unique_ptr<TruncatedRangeDelIterator>>
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split_truncated_iters;
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std::for_each(
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split_untruncated_iters.begin(), split_untruncated_iters.end(),
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[&](FragmentedIterPair& iter_pair) {
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std::unique_ptr<TruncatedRangeDelIterator> truncated_iter(
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new TruncatedRangeDelIterator(std::move(iter_pair.second), icmp_,
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smallest_ikey_, largest_ikey_));
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split_truncated_iters.emplace(iter_pair.first,
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std::move(truncated_iter));
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});
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return split_truncated_iters;
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}
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ForwardRangeDelIterator::ForwardRangeDelIterator(
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const InternalKeyComparator* icmp)
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: icmp_(icmp),
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unused_idx_(0),
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active_seqnums_(SeqMaxComparator()),
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active_iters_(EndKeyMinComparator(icmp)),
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inactive_iters_(StartKeyMinComparator(icmp)) {}
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bool ForwardRangeDelIterator::ShouldDelete(const ParsedInternalKey& parsed) {
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// Move active iterators that end before parsed.
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while (!active_iters_.empty() &&
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icmp_->Compare((*active_iters_.top())->end_key(), parsed) <= 0) {
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TruncatedRangeDelIterator* iter = PopActiveIter();
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do {
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iter->Next();
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} while (iter->Valid() && icmp_->Compare(iter->end_key(), parsed) <= 0);
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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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// Move inactive iterators that start before parsed.
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while (!inactive_iters_.empty() &&
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icmp_->Compare(inactive_iters_.top()->start_key(), parsed) <= 0) {
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TruncatedRangeDelIterator* iter = PopInactiveIter();
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while (iter->Valid() && icmp_->Compare(iter->end_key(), parsed) <= 0) {
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iter->Next();
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}
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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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return active_seqnums_.empty()
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? false
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: (*active_seqnums_.begin())->seq() > parsed.sequence;
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}
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void ForwardRangeDelIterator::Invalidate() {
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unused_idx_ = 0;
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active_iters_.clear();
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active_seqnums_.clear();
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inactive_iters_.clear();
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}
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ReverseRangeDelIterator::ReverseRangeDelIterator(
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const InternalKeyComparator* icmp)
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: icmp_(icmp),
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unused_idx_(0),
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active_seqnums_(SeqMaxComparator()),
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active_iters_(StartKeyMaxComparator(icmp)),
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inactive_iters_(EndKeyMaxComparator(icmp)) {}
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bool ReverseRangeDelIterator::ShouldDelete(const ParsedInternalKey& parsed) {
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// Move active iterators that start after parsed.
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while (!active_iters_.empty() &&
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icmp_->Compare(parsed, (*active_iters_.top())->start_key()) < 0) {
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TruncatedRangeDelIterator* iter = PopActiveIter();
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do {
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iter->Prev();
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} while (iter->Valid() && icmp_->Compare(parsed, iter->start_key()) < 0);
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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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// Move inactive iterators that end after parsed.
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while (!inactive_iters_.empty() &&
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icmp_->Compare(parsed, inactive_iters_.top()->end_key()) < 0) {
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TruncatedRangeDelIterator* iter = PopInactiveIter();
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while (iter->Valid() && icmp_->Compare(parsed, iter->start_key()) < 0) {
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iter->Prev();
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}
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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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return active_seqnums_.empty()
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? false
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: (*active_seqnums_.begin())->seq() > parsed.sequence;
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}
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void ReverseRangeDelIterator::Invalidate() {
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unused_idx_ = 0;
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active_iters_.clear();
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active_seqnums_.clear();
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inactive_iters_.clear();
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}
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bool RangeDelAggregator::StripeRep::ShouldDelete(
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const ParsedInternalKey& parsed, RangeDelPositioningMode mode) {
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if (!InStripe(parsed.sequence) || IsEmpty()) {
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return false;
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}
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switch (mode) {
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case RangeDelPositioningMode::kForwardTraversal:
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InvalidateReverseIter();
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// Pick up previously unseen iterators.
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for (auto it = std::next(iters_.begin(), forward_iter_.UnusedIdx());
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it != iters_.end(); ++it, forward_iter_.IncUnusedIdx()) {
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auto& iter = *it;
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forward_iter_.AddNewIter(iter.get(), parsed);
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}
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return forward_iter_.ShouldDelete(parsed);
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case RangeDelPositioningMode::kBackwardTraversal:
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InvalidateForwardIter();
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// Pick up previously unseen iterators.
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for (auto it = std::next(iters_.begin(), reverse_iter_.UnusedIdx());
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it != iters_.end(); ++it, reverse_iter_.IncUnusedIdx()) {
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auto& iter = *it;
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reverse_iter_.AddNewIter(iter.get(), parsed);
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}
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return reverse_iter_.ShouldDelete(parsed);
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default:
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assert(false);
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return false;
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}
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}
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bool RangeDelAggregator::StripeRep::IsRangeOverlapped(const Slice& start,
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const Slice& end) {
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Invalidate();
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// Set the internal start/end keys so that:
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// - if start_ikey has the same user key and sequence number as the
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// current end key, start_ikey will be considered greater; and
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// - if end_ikey has the same user key and sequence number as the current
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// start key, end_ikey will be considered greater.
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ParsedInternalKey start_ikey(start, kMaxSequenceNumber,
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static_cast<ValueType>(0));
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ParsedInternalKey end_ikey(end, 0, static_cast<ValueType>(0));
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for (auto& iter : iters_) {
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bool checked_candidate_tombstones = false;
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for (iter->SeekForPrev(start);
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iter->Valid() && icmp_->Compare(iter->start_key(), end_ikey) <= 0;
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iter->Next()) {
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checked_candidate_tombstones = true;
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if (icmp_->Compare(start_ikey, iter->end_key()) < 0 &&
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icmp_->Compare(iter->start_key(), end_ikey) <= 0) {
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return true;
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}
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}
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if (!checked_candidate_tombstones) {
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// Do an additional check for when the end of the range is the begin
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// key of a tombstone, which we missed earlier since SeekForPrev'ing
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// to the start was invalid.
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iter->SeekForPrev(end);
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if (iter->Valid() && icmp_->Compare(start_ikey, iter->end_key()) < 0 &&
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icmp_->Compare(iter->start_key(), end_ikey) <= 0) {
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return true;
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}
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}
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}
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return false;
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}
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void ReadRangeDelAggregator::AddTombstones(
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std::unique_ptr<FragmentedRangeTombstoneIterator> input_iter,
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const InternalKey* smallest, const InternalKey* largest) {
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if (input_iter == nullptr || input_iter->empty()) {
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return;
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}
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rep_.AddTombstones(
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std::unique_ptr<TruncatedRangeDelIterator>(new TruncatedRangeDelIterator(
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std::move(input_iter), icmp_, smallest, largest)));
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}
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bool ReadRangeDelAggregator::ShouldDeleteImpl(const ParsedInternalKey& parsed,
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RangeDelPositioningMode mode) {
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return rep_.ShouldDelete(parsed, mode);
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}
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bool ReadRangeDelAggregator::IsRangeOverlapped(const Slice& start,
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const Slice& end) {
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InvalidateRangeDelMapPositions();
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return rep_.IsRangeOverlapped(start, end);
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}
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void CompactionRangeDelAggregator::AddTombstones(
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std::unique_ptr<FragmentedRangeTombstoneIterator> input_iter,
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const InternalKey* smallest, const InternalKey* largest) {
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if (input_iter == nullptr || input_iter->empty()) {
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return;
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}
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assert(input_iter->lower_bound() == 0);
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assert(input_iter->upper_bound() == kMaxSequenceNumber);
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parent_iters_.emplace_back(new TruncatedRangeDelIterator(
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std::move(input_iter), icmp_, smallest, largest));
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auto split_iters = parent_iters_.back()->SplitBySnapshot(*snapshots_);
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for (auto& split_iter : split_iters) {
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auto it = reps_.find(split_iter.first);
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if (it == reps_.end()) {
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bool inserted;
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SequenceNumber upper_bound = split_iter.second->upper_bound();
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SequenceNumber lower_bound = split_iter.second->lower_bound();
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std::tie(it, inserted) = reps_.emplace(
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split_iter.first, StripeRep(icmp_, upper_bound, lower_bound));
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assert(inserted);
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}
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assert(it != reps_.end());
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it->second.AddTombstones(std::move(split_iter.second));
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}
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}
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bool CompactionRangeDelAggregator::ShouldDelete(const ParsedInternalKey& parsed,
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RangeDelPositioningMode mode) {
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auto it = reps_.lower_bound(parsed.sequence);
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if (it == reps_.end()) {
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return false;
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}
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return it->second.ShouldDelete(parsed, mode);
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}
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namespace {
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class TruncatedRangeDelMergingIter : public InternalIterator {
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public:
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TruncatedRangeDelMergingIter(
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const InternalKeyComparator* icmp, const Slice* lower_bound,
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const Slice* upper_bound, bool upper_bound_inclusive,
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const std::vector<std::unique_ptr<TruncatedRangeDelIterator>>& children)
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: icmp_(icmp),
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lower_bound_(lower_bound),
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upper_bound_(upper_bound),
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upper_bound_inclusive_(upper_bound_inclusive),
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heap_(StartKeyMinComparator(icmp)) {
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for (auto& child : children) {
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if (child != nullptr) {
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assert(child->lower_bound() == 0);
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assert(child->upper_bound() == kMaxSequenceNumber);
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children_.push_back(child.get());
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}
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}
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}
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bool Valid() const override {
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return !heap_.empty() && BeforeEndKey(heap_.top());
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}
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Status status() const override { return Status::OK(); }
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void SeekToFirst() override {
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heap_.clear();
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for (auto& child : children_) {
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if (lower_bound_ != nullptr) {
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child->Seek(*lower_bound_);
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} else {
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child->SeekToFirst();
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}
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if (child->Valid()) {
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heap_.push(child);
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}
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}
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}
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void Next() override {
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auto* top = heap_.top();
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top->InternalNext();
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if (top->Valid()) {
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heap_.replace_top(top);
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} else {
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heap_.pop();
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}
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}
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Slice key() const override {
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auto* top = heap_.top();
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cur_start_key_.Set(top->start_key().user_key, top->seq(),
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kTypeRangeDeletion);
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return cur_start_key_.Encode();
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}
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Slice value() const override {
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auto* top = heap_.top();
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assert(top->end_key().sequence == kMaxSequenceNumber);
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return top->end_key().user_key;
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}
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// Unused InternalIterator methods
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void Prev() override { assert(false); }
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void Seek(const Slice& /* target */) override { assert(false); }
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void SeekForPrev(const Slice& /* target */) override { assert(false); }
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void SeekToLast() override { assert(false); }
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private:
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bool BeforeEndKey(const TruncatedRangeDelIterator* iter) const {
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if (upper_bound_ == nullptr) {
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return true;
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}
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int cmp = icmp_->user_comparator()->Compare(iter->start_key().user_key,
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*upper_bound_);
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return upper_bound_inclusive_ ? cmp <= 0 : cmp < 0;
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}
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const InternalKeyComparator* icmp_;
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const Slice* lower_bound_;
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const Slice* upper_bound_;
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bool upper_bound_inclusive_;
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BinaryHeap<TruncatedRangeDelIterator*, StartKeyMinComparator> heap_;
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std::vector<TruncatedRangeDelIterator*> children_;
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mutable InternalKey cur_start_key_;
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};
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} // namespace
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std::unique_ptr<FragmentedRangeTombstoneIterator>
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CompactionRangeDelAggregator::NewIterator(const Slice* lower_bound,
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const Slice* upper_bound,
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bool upper_bound_inclusive) {
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InvalidateRangeDelMapPositions();
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std::unique_ptr<TruncatedRangeDelMergingIter> merging_iter(
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new TruncatedRangeDelMergingIter(icmp_, lower_bound, upper_bound,
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upper_bound_inclusive, parent_iters_));
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auto fragmented_tombstone_list =
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std::make_shared<FragmentedRangeTombstoneList>(
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std::move(merging_iter), *icmp_, true /* for_compaction */,
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*snapshots_);
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return std::unique_ptr<FragmentedRangeTombstoneIterator>(
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new FragmentedRangeTombstoneIterator(
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fragmented_tombstone_list, *icmp_,
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kMaxSequenceNumber /* upper_bound */));
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}
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} // namespace rocksdb
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