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ea89c77f27
Summary: MemTable::MultiGet was not considering range tombstones before querying Bloom filter. This means range tombstones would be skipped for keys (or prefixes) with no other entries in the memtable. This could cause old values for a key (in SST files) to still show up until the range tombstone covering it has been flushed. This is fixed by essentially disabling the memtable Bloom filter when there are any range tombstones. (This could be better optimized in the future, but good enough for now.) Did some other cleanup/optimization in the same code to (more than) offset the cost of checking on range tombstones in more cases. There is now notable improvement when memtable_whole_key_filtering and prefix_extractor are used together (unusual), and this makes MultiGet closer to the Get implementation. Pull Request resolved: https://github.com/facebook/rocksdb/pull/9453 Test Plan: new unit test added. Added memtable Bloom to crash test. Performance testing -------------------- Build WAL-only DB (recovers to memtable): ``` TEST_TMPDIR=/dev/shm/rocksdb ./db_bench -benchmarks=fillrandom -num=1000000 -write_buffer_size=250000000 ``` Query test command, to maximize sensitivity to the changed code: ``` TEST_TMPDIR=/dev/shm/rocksdb ./db_bench -use_existing_db -readonly -benchmarks=multireadrandom -num=10000000 -write_buffer_size=250000000 -memtable_bloom_size_ratio=0.015 -multiread_batched -batch_size=24 -threads=8 -memtable_whole_key_filtering=$MWKF -prefix_size=$PXS ``` (Note -num here is 10x larger for mostly memtable misses) Before & after run simultaneously, average over 10 iterations per data point, ops/sec. MWKF=0 PXS=0 (Bloom disabled) Before: 5724844 After: 6722066 MWKF=0 PXS=7 (prefixes hardly unique; Bloom not useful) Before: 9981319 After: 10237990 MWKF=0 PXS=8 (prefixes unique; Bloom useful) Before: 12081715 After: 12117603 MWKF=1 PXS=0 (whole key Bloom useful) Before: 11944354 After: 12096085 MWKF=1 PXS=7 (whole key Bloom useful in new version; prefixes not useful in old version) Before: 9444299 After: 11826029 MWKF=1 PXS=7 (whole key Bloom useful in new version; prefixes useful in old version) Before: 11784465 After: 11778591 Only in this last case is the 'before' *slightly* faster, perhaps because hashing prefixes is slightly faster than hashing whole keys. Otherwise, 'after' is faster. Reviewed By: ajkr Differential Revision: D33805025 Pulled By: pdillinger fbshipit-source-id: 597523cae4f4eafdf6ae6bb2bc6cb46f83b017bf
290 lines
9.4 KiB
C++
290 lines
9.4 KiB
C++
// Copyright (c) 2011-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 <array>
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#include <string>
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#include "db/dbformat.h"
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#include "db/lookup_key.h"
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#include "db/merge_context.h"
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#include "rocksdb/env.h"
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#include "rocksdb/statistics.h"
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#include "rocksdb/types.h"
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#include "util/autovector.h"
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#include "util/math.h"
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namespace ROCKSDB_NAMESPACE {
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class GetContext;
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struct KeyContext {
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const Slice* key;
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LookupKey* lkey;
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Slice ukey_with_ts;
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Slice ukey_without_ts;
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Slice ikey;
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ColumnFamilyHandle* column_family;
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Status* s;
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MergeContext merge_context;
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SequenceNumber max_covering_tombstone_seq;
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bool key_exists;
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bool is_blob_index;
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void* cb_arg;
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PinnableSlice* value;
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std::string* timestamp;
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GetContext* get_context;
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KeyContext(ColumnFamilyHandle* col_family, const Slice& user_key,
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PinnableSlice* val, std::string* ts, Status* stat)
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: key(&user_key),
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lkey(nullptr),
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column_family(col_family),
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s(stat),
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max_covering_tombstone_seq(0),
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key_exists(false),
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is_blob_index(false),
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cb_arg(nullptr),
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value(val),
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timestamp(ts),
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get_context(nullptr) {}
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KeyContext() = default;
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};
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// The MultiGetContext class is a container for the sorted list of keys that
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// we need to lookup in a batch. Its main purpose is to make batch execution
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// easier by allowing various stages of the MultiGet lookups to operate on
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// subsets of keys, potentially non-contiguous. In order to accomplish this,
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// it defines the following classes -
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//
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// MultiGetContext::Range
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// MultiGetContext::Range::Iterator
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// MultiGetContext::Range::IteratorWrapper
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//
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// Here is an example of how this can be used -
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//
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// {
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// MultiGetContext ctx(...);
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// MultiGetContext::Range range = ctx.GetMultiGetRange();
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//
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// // Iterate to determine some subset of the keys
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// MultiGetContext::Range::Iterator start = range.begin();
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// MultiGetContext::Range::Iterator end = ...;
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//
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// // Make a new range with a subset of keys
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// MultiGetContext::Range subrange(range, start, end);
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//
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// // Define an auxillary vector, if needed, to hold additional data for
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// // each key
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// std::array<Foo, MultiGetContext::MAX_BATCH_SIZE> aux;
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//
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// // Iterate over the subrange and the auxillary vector simultaneously
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// MultiGetContext::Range::Iterator iter = subrange.begin();
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// for (; iter != subrange.end(); ++iter) {
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// KeyContext& key = *iter;
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// Foo& aux_key = aux_iter[iter.index()];
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// ...
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// }
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// }
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class MultiGetContext {
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public:
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// Limit the number of keys in a batch to this number. Benchmarks show that
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// there is negligible benefit for batches exceeding this. Keeping this < 32
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// simplifies iteration, as well as reduces the amount of stack allocations
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// that need to be performed
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static const int MAX_BATCH_SIZE = 32;
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static_assert(MAX_BATCH_SIZE < 64, "MAX_BATCH_SIZE cannot exceed 63");
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MultiGetContext(autovector<KeyContext*, MAX_BATCH_SIZE>* sorted_keys,
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size_t begin, size_t num_keys, SequenceNumber snapshot,
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const ReadOptions& read_opts)
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: num_keys_(num_keys),
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value_mask_(0),
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value_size_(0),
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lookup_key_ptr_(reinterpret_cast<LookupKey*>(lookup_key_stack_buf)) {
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assert(num_keys <= MAX_BATCH_SIZE);
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if (num_keys > MAX_LOOKUP_KEYS_ON_STACK) {
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lookup_key_heap_buf.reset(new char[sizeof(LookupKey) * num_keys]);
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lookup_key_ptr_ = reinterpret_cast<LookupKey*>(
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lookup_key_heap_buf.get());
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}
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for (size_t iter = 0; iter != num_keys_; ++iter) {
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// autovector may not be contiguous storage, so make a copy
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sorted_keys_[iter] = (*sorted_keys)[begin + iter];
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sorted_keys_[iter]->lkey = new (&lookup_key_ptr_[iter])
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LookupKey(*sorted_keys_[iter]->key, snapshot, read_opts.timestamp);
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sorted_keys_[iter]->ukey_with_ts = sorted_keys_[iter]->lkey->user_key();
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sorted_keys_[iter]->ukey_without_ts = StripTimestampFromUserKey(
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sorted_keys_[iter]->lkey->user_key(),
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read_opts.timestamp == nullptr ? 0 : read_opts.timestamp->size());
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sorted_keys_[iter]->ikey = sorted_keys_[iter]->lkey->internal_key();
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}
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}
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~MultiGetContext() {
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for (size_t i = 0; i < num_keys_; ++i) {
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lookup_key_ptr_[i].~LookupKey();
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}
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}
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private:
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static const int MAX_LOOKUP_KEYS_ON_STACK = 16;
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alignas(alignof(LookupKey))
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char lookup_key_stack_buf[sizeof(LookupKey) * MAX_LOOKUP_KEYS_ON_STACK];
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std::array<KeyContext*, MAX_BATCH_SIZE> sorted_keys_;
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size_t num_keys_;
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uint64_t value_mask_;
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uint64_t value_size_;
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std::unique_ptr<char[]> lookup_key_heap_buf;
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LookupKey* lookup_key_ptr_;
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public:
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// MultiGetContext::Range - Specifies a range of keys, by start and end index,
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// from the parent MultiGetContext. Each range contains a bit vector that
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// indicates whether the corresponding keys need to be processed or skipped.
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// A Range object can be copy constructed, and the new object inherits the
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// original Range's bit vector. This is useful for progressively skipping
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// keys as the lookup goes through various stages. For example, when looking
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// up keys in the same SST file, a Range is created excluding keys not
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// belonging to that file. A new Range is then copy constructed and individual
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// keys are skipped based on bloom filter lookup.
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class Range {
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public:
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// MultiGetContext::Range::Iterator - A forward iterator that iterates over
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// non-skippable keys in a Range, as well as keys whose final value has been
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// found. The latter is tracked by MultiGetContext::value_mask_
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class Iterator {
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public:
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// -- iterator traits
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using self_type = Iterator;
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using value_type = KeyContext;
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using reference = KeyContext&;
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using pointer = KeyContext*;
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using difference_type = int;
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using iterator_category = std::forward_iterator_tag;
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Iterator(const Range* range, size_t idx)
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: range_(range), ctx_(range->ctx_), index_(idx) {
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while (index_ < range_->end_ &&
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(uint64_t{1} << index_) &
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(range_->ctx_->value_mask_ | range_->skip_mask_))
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index_++;
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}
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Iterator(const Iterator&) = default;
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Iterator& operator=(const Iterator&) = default;
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Iterator& operator++() {
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while (++index_ < range_->end_ &&
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(uint64_t{1} << index_) &
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(range_->ctx_->value_mask_ | range_->skip_mask_))
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;
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return *this;
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}
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bool operator==(Iterator other) const {
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assert(range_->ctx_ == other.range_->ctx_);
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return index_ == other.index_;
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}
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bool operator!=(Iterator other) const {
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assert(range_->ctx_ == other.range_->ctx_);
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return index_ != other.index_;
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}
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KeyContext& operator*() {
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assert(index_ < range_->end_ && index_ >= range_->start_);
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return *(ctx_->sorted_keys_[index_]);
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}
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KeyContext* operator->() {
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assert(index_ < range_->end_ && index_ >= range_->start_);
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return ctx_->sorted_keys_[index_];
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}
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size_t index() { return index_; }
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private:
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friend Range;
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const Range* range_;
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const MultiGetContext* ctx_;
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size_t index_;
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};
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Range(const Range& mget_range,
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const Iterator& first,
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const Iterator& last) {
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ctx_ = mget_range.ctx_;
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start_ = first.index_;
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end_ = last.index_;
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skip_mask_ = mget_range.skip_mask_;
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assert(start_ < 64);
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assert(end_ < 64);
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}
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Range() = default;
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Iterator begin() const { return Iterator(this, start_); }
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Iterator end() const { return Iterator(this, end_); }
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bool empty() const { return RemainingMask() == 0; }
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void SkipIndex(size_t index) { skip_mask_ |= uint64_t{1} << index; }
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void SkipKey(const Iterator& iter) { SkipIndex(iter.index_); }
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bool IsKeySkipped(const Iterator& iter) const {
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return skip_mask_ & (uint64_t{1} << iter.index_);
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}
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// Update the value_mask_ in MultiGetContext so its
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// immediately reflected in all the Range Iterators
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void MarkKeyDone(Iterator& iter) {
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ctx_->value_mask_ |= (uint64_t{1} << iter.index_);
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}
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bool CheckKeyDone(Iterator& iter) const {
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return ctx_->value_mask_ & (uint64_t{1} << iter.index_);
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}
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uint64_t KeysLeft() const { return BitsSetToOne(RemainingMask()); }
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void AddSkipsFrom(const Range& other) {
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assert(ctx_ == other.ctx_);
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skip_mask_ |= other.skip_mask_;
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}
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uint64_t GetValueSize() { return ctx_->value_size_; }
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void AddValueSize(uint64_t value_size) { ctx_->value_size_ += value_size; }
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private:
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friend MultiGetContext;
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MultiGetContext* ctx_;
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size_t start_;
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size_t end_;
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uint64_t skip_mask_;
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Range(MultiGetContext* ctx, size_t num_keys)
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: ctx_(ctx), start_(0), end_(num_keys), skip_mask_(0) {
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assert(num_keys < 64);
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}
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uint64_t RemainingMask() const {
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return (((uint64_t{1} << end_) - 1) & ~((uint64_t{1} << start_) - 1) &
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~(ctx_->value_mask_ | skip_mask_));
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}
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};
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// Return the initial range that encompasses all the keys in the batch
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Range GetMultiGetRange() { return Range(this, num_keys_); }
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};
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} // namespace ROCKSDB_NAMESPACE
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