mirror of
https://github.com/facebook/rocksdb.git
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35ad531be3
Summary: Separate a new class InternalIterator from class Iterator, when the look-up is done internally, which also means they operate on key with sequence ID and type. This change will enable potential future optimizations but for now InternalIterator's functions are still the same as Iterator's. At the same time, separate the cleanup function to a separate class and let both of InternalIterator and Iterator inherit from it. Test Plan: Run all existing tests. Reviewers: igor, yhchiang, anthony, kradhakrishnan, IslamAbdelRahman, rven Reviewed By: rven Subscribers: leveldb, dhruba Differential Revision: https://reviews.facebook.net/D48549
341 lines
9.9 KiB
C++
341 lines
9.9 KiB
C++
// Copyright (c) 2013, 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 "table/merger.h"
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#include <vector>
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#include "rocksdb/comparator.h"
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#include "rocksdb/iterator.h"
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#include "rocksdb/options.h"
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#include "table/internal_iterator.h"
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#include "table/iter_heap.h"
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#include "table/iterator_wrapper.h"
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#include "util/arena.h"
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#include "util/heap.h"
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#include "util/stop_watch.h"
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#include "util/sync_point.h"
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#include "util/perf_context_imp.h"
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#include "util/autovector.h"
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namespace rocksdb {
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// Without anonymous namespace here, we fail the warning -Wmissing-prototypes
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namespace {
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typedef BinaryHeap<IteratorWrapper*, MaxIteratorComparator> MergerMaxIterHeap;
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typedef BinaryHeap<IteratorWrapper*, MinIteratorComparator> MergerMinIterHeap;
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} // namespace
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const size_t kNumIterReserve = 4;
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class MergingIterator : public InternalIterator {
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public:
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MergingIterator(const Comparator* comparator, InternalIterator** children,
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int n, bool is_arena_mode)
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: is_arena_mode_(is_arena_mode),
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comparator_(comparator),
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current_(nullptr),
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direction_(kForward),
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minHeap_(comparator_) {
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children_.resize(n);
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for (int i = 0; i < n; i++) {
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children_[i].Set(children[i]);
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}
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for (auto& child : children_) {
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if (child.Valid()) {
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minHeap_.push(&child);
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}
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}
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current_ = CurrentForward();
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}
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virtual void AddIterator(InternalIterator* iter) {
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assert(direction_ == kForward);
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children_.emplace_back(iter);
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auto new_wrapper = children_.back();
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if (new_wrapper.Valid()) {
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minHeap_.push(&new_wrapper);
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current_ = CurrentForward();
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}
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}
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virtual ~MergingIterator() {
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for (auto& child : children_) {
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child.DeleteIter(is_arena_mode_);
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}
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}
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virtual bool Valid() const override { return (current_ != nullptr); }
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virtual void SeekToFirst() override {
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ClearHeaps();
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for (auto& child : children_) {
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child.SeekToFirst();
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if (child.Valid()) {
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minHeap_.push(&child);
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}
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}
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direction_ = kForward;
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current_ = CurrentForward();
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}
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virtual void SeekToLast() override {
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ClearHeaps();
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InitMaxHeap();
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for (auto& child : children_) {
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child.SeekToLast();
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if (child.Valid()) {
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maxHeap_->push(&child);
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}
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}
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direction_ = kReverse;
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current_ = CurrentReverse();
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}
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virtual void Seek(const Slice& target) override {
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ClearHeaps();
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for (auto& child : children_) {
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{
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PERF_TIMER_GUARD(seek_child_seek_time);
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child.Seek(target);
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}
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PERF_COUNTER_ADD(seek_child_seek_count, 1);
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if (child.Valid()) {
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PERF_TIMER_GUARD(seek_min_heap_time);
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minHeap_.push(&child);
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}
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}
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direction_ = kForward;
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{
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PERF_TIMER_GUARD(seek_min_heap_time);
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current_ = CurrentForward();
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}
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}
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virtual void Next() override {
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assert(Valid());
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// Ensure that all children are positioned after key().
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// If we are moving in the forward direction, it is already
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// true for all of the non-current children since current_ is
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// the smallest child and key() == current_->key().
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if (direction_ != kForward) {
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// Otherwise, advance the non-current children. We advance current_
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// just after the if-block.
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ClearHeaps();
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for (auto& child : children_) {
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if (&child != current_) {
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child.Seek(key());
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if (child.Valid() && comparator_->Equal(key(), child.key())) {
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child.Next();
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}
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}
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if (child.Valid()) {
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minHeap_.push(&child);
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}
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}
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direction_ = kForward;
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// The loop advanced all non-current children to be > key() so current_
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// should still be strictly the smallest key.
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assert(current_ == CurrentForward());
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}
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// For the heap modifications below to be correct, current_ must be the
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// current top of the heap.
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assert(current_ == CurrentForward());
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// as the current points to the current record. move the iterator forward.
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current_->Next();
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if (current_->Valid()) {
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// current is still valid after the Next() call above. Call
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// replace_top() to restore the heap property. When the same child
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// iterator yields a sequence of keys, this is cheap.
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minHeap_.replace_top(current_);
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} else {
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// current stopped being valid, remove it from the heap.
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minHeap_.pop();
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}
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current_ = CurrentForward();
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}
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virtual void Prev() override {
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assert(Valid());
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// Ensure that all children are positioned before key().
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// If we are moving in the reverse direction, it is already
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// true for all of the non-current children since current_ is
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// the largest child and key() == current_->key().
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if (direction_ != kReverse) {
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// Otherwise, retreat the non-current children. We retreat current_
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// just after the if-block.
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ClearHeaps();
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InitMaxHeap();
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for (auto& child : children_) {
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if (&child != current_) {
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child.Seek(key());
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if (child.Valid()) {
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// Child is at first entry >= key(). Step back one to be < key()
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TEST_SYNC_POINT_CALLBACK("MergeIterator::Prev:BeforePrev", &child);
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child.Prev();
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} else {
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// Child has no entries >= key(). Position at last entry.
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TEST_SYNC_POINT("MergeIterator::Prev:BeforeSeekToLast");
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child.SeekToLast();
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}
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}
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if (child.Valid()) {
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maxHeap_->push(&child);
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}
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}
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direction_ = kReverse;
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// Note that we don't do assert(current_ == CurrentReverse()) here
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// because it is possible to have some keys larger than the seek-key
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// inserted between Seek() and SeekToLast(), which makes current_ not
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// equal to CurrentReverse().
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current_ = CurrentReverse();
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}
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// For the heap modifications below to be correct, current_ must be the
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// current top of the heap.
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assert(current_ == CurrentReverse());
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current_->Prev();
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if (current_->Valid()) {
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// current is still valid after the Prev() call above. Call
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// replace_top() to restore the heap property. When the same child
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// iterator yields a sequence of keys, this is cheap.
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maxHeap_->replace_top(current_);
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} else {
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// current stopped being valid, remove it from the heap.
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maxHeap_->pop();
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}
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current_ = CurrentReverse();
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}
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virtual Slice key() const override {
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assert(Valid());
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return current_->key();
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}
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virtual Slice value() const override {
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assert(Valid());
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return current_->value();
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}
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virtual Status status() const override {
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Status s;
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for (auto& child : children_) {
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s = child.status();
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if (!s.ok()) {
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break;
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}
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}
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return s;
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}
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private:
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// Clears heaps for both directions, used when changing direction or seeking
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void ClearHeaps();
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// Ensures that maxHeap_ is initialized when starting to go in the reverse
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// direction
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void InitMaxHeap();
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bool is_arena_mode_;
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const Comparator* comparator_;
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autovector<IteratorWrapper, kNumIterReserve> children_;
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// Cached pointer to child iterator with the current key, or nullptr if no
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// child iterators are valid. This is the top of minHeap_ or maxHeap_
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// depending on the direction.
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IteratorWrapper* current_;
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// Which direction is the iterator moving?
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enum Direction {
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kForward,
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kReverse
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};
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Direction direction_;
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MergerMinIterHeap minHeap_;
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// Max heap is used for reverse iteration, which is way less common than
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// forward. Lazily initialize it to save memory.
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std::unique_ptr<MergerMaxIterHeap> maxHeap_;
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IteratorWrapper* CurrentForward() const {
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assert(direction_ == kForward);
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return !minHeap_.empty() ? minHeap_.top() : nullptr;
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}
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IteratorWrapper* CurrentReverse() const {
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assert(direction_ == kReverse);
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assert(maxHeap_);
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return !maxHeap_->empty() ? maxHeap_->top() : nullptr;
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}
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};
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void MergingIterator::ClearHeaps() {
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minHeap_.clear();
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if (maxHeap_) {
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maxHeap_->clear();
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}
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}
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void MergingIterator::InitMaxHeap() {
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if (!maxHeap_) {
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maxHeap_.reset(new MergerMaxIterHeap(comparator_));
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}
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}
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InternalIterator* NewMergingIterator(const Comparator* cmp,
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InternalIterator** list, int n,
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Arena* arena) {
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assert(n >= 0);
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if (n == 0) {
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return NewEmptyInternalIterator(arena);
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} else if (n == 1) {
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return list[0];
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} else {
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if (arena == nullptr) {
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return new MergingIterator(cmp, list, n, false);
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} else {
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auto mem = arena->AllocateAligned(sizeof(MergingIterator));
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return new (mem) MergingIterator(cmp, list, n, true);
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}
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}
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}
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MergeIteratorBuilder::MergeIteratorBuilder(const Comparator* comparator,
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Arena* a)
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: first_iter(nullptr), use_merging_iter(false), arena(a) {
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auto mem = arena->AllocateAligned(sizeof(MergingIterator));
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merge_iter = new (mem) MergingIterator(comparator, nullptr, 0, true);
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}
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void MergeIteratorBuilder::AddIterator(InternalIterator* iter) {
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if (!use_merging_iter && first_iter != nullptr) {
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merge_iter->AddIterator(first_iter);
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use_merging_iter = true;
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}
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if (use_merging_iter) {
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merge_iter->AddIterator(iter);
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} else {
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first_iter = iter;
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}
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}
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InternalIterator* MergeIteratorBuilder::Finish() {
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if (!use_merging_iter) {
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return first_iter;
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} else {
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auto ret = merge_iter;
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merge_iter = nullptr;
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return ret;
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}
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}
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} // namespace rocksdb
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