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// 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 <cassert>
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#include <initializer_list>
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#include <iterator>
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#include <stdexcept>
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#include <vector>
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#include "port/lang.h"
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#include "rocksdb/rocksdb_namespace.h"
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namespace ROCKSDB_NAMESPACE {
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// A vector that leverages pre-allocated stack-based array to achieve better
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// performance for array with small amount of items.
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//
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// The interface resembles that of vector, but with less features since we aim
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// to solve the problem that we have in hand, rather than implementing a
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// full-fledged generic container.
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//
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// Currently we don't support:
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// * shrink_to_fit()
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// If used correctly, in most cases, people should not touch the
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// underlying vector at all.
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// * random insert()/erase(), please only use push_back()/pop_back().
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// * No move/swap operations. Each autovector instance has a
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// stack-allocated array and if we want support move/swap operations, we
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// need to copy the arrays other than just swapping the pointers. In this
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// case we'll just explicitly forbid these operations since they may
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// lead users to make false assumption by thinking they are inexpensive
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// operations.
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//
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// Naming style of public methods almost follows that of the STL's.
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template <class T, size_t kSize = 8>
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class autovector {
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public:
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// General STL-style container member types.
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using value_type = T;
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using difference_type = typename std::vector<T>::difference_type;
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using size_type = typename std::vector<T>::size_type;
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using reference = value_type&;
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using const_reference = const value_type&;
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using pointer = value_type*;
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using const_pointer = const value_type*;
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// This class is the base for regular/const iterator
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template <class TAutoVector, class TValueType>
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class iterator_impl {
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public:
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// -- iterator traits
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using self_type = iterator_impl<TAutoVector, TValueType>;
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using value_type = TValueType;
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using reference = TValueType&;
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using pointer = TValueType*;
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using difference_type = typename TAutoVector::difference_type;
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using iterator_category = std::random_access_iterator_tag;
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iterator_impl(TAutoVector* vect, size_t index)
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: vect_(vect), index_(index){};
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iterator_impl(const iterator_impl&) = default;
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~iterator_impl() {}
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iterator_impl& operator=(const iterator_impl&) = default;
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// -- Advancement
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// ++iterator
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self_type& operator++() {
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++index_;
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return *this;
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}
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// iterator++
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self_type operator++(int) {
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auto old = *this;
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++index_;
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return old;
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}
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// --iterator
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self_type& operator--() {
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--index_;
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return *this;
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}
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// iterator--
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self_type operator--(int) {
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auto old = *this;
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--index_;
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return old;
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}
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self_type operator-(difference_type len) const {
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return self_type(vect_, index_ - len);
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}
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difference_type operator-(const self_type& other) const {
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assert(vect_ == other.vect_);
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return index_ - other.index_;
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}
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self_type operator+(difference_type len) const {
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return self_type(vect_, index_ + len);
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}
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self_type& operator+=(difference_type len) {
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index_ += len;
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return *this;
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}
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self_type& operator-=(difference_type len) {
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index_ -= len;
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return *this;
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}
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// -- Reference
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reference operator*() const {
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assert(vect_->size() >= index_);
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return (*vect_)[index_];
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}
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pointer operator->() const {
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assert(vect_->size() >= index_);
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return &(*vect_)[index_];
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}
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reference operator[](difference_type len) const { return *(*this + len); }
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// -- Logical Operators
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bool operator==(const self_type& other) const {
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assert(vect_ == other.vect_);
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return index_ == other.index_;
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}
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bool operator!=(const self_type& other) const { return !(*this == other); }
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bool operator>(const self_type& other) const {
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assert(vect_ == other.vect_);
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return index_ > other.index_;
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}
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bool operator<(const self_type& other) const {
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assert(vect_ == other.vect_);
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return index_ < other.index_;
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}
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bool operator>=(const self_type& other) const {
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assert(vect_ == other.vect_);
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return index_ >= other.index_;
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}
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bool operator<=(const self_type& other) const {
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assert(vect_ == other.vect_);
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return index_ <= other.index_;
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}
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private:
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TAutoVector* vect_ = nullptr;
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size_t index_ = 0;
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};
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using iterator = iterator_impl<autovector, value_type>;
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using const_iterator = iterator_impl<const autovector, const value_type>;
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using reverse_iterator = std::reverse_iterator<iterator>;
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using const_reverse_iterator = std::reverse_iterator<const_iterator>;
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autovector() : values_(reinterpret_cast<pointer>(buf_)) {}
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autovector(std::initializer_list<T> init_list)
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: values_(reinterpret_cast<pointer>(buf_)) {
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for (const T& item : init_list) {
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push_back(item);
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}
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}
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~autovector() { clear(); }
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// -- Immutable operations
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// Indicate if all data resides in in-stack data structure.
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bool only_in_stack() const {
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// If no element was inserted at all, the vector's capacity will be `0`.
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return vect_.capacity() == 0;
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}
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size_type size() const { return num_stack_items_ + vect_.size(); }
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// resize does not guarantee anything about the contents of the newly
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// available elements
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void resize(size_type n) {
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if (n > kSize) {
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vect_.resize(n - kSize);
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while (num_stack_items_ < kSize) {
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new ((void*)(&values_[num_stack_items_++])) value_type();
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}
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num_stack_items_ = kSize;
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} else {
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vect_.clear();
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while (num_stack_items_ < n) {
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new ((void*)(&values_[num_stack_items_++])) value_type();
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}
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while (num_stack_items_ > n) {
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values_[--num_stack_items_].~value_type();
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}
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}
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}
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bool empty() const { return size() == 0; }
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size_type capacity() const { return kSize + vect_.capacity(); }
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void reserve(size_t cap) {
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if (cap > kSize) {
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vect_.reserve(cap - kSize);
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}
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assert(cap <= capacity());
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}
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const_reference operator[](size_type n) const {
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assert(n < size());
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if (n < kSize) {
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return values_[n];
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}
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return vect_[n - kSize];
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}
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reference operator[](size_type n) {
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assert(n < size());
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if (n < kSize) {
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return values_[n];
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}
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return vect_[n - kSize];
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}
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const_reference at(size_type n) const {
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assert(n < size());
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return (*this)[n];
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}
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reference at(size_type n) {
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assert(n < size());
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return (*this)[n];
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}
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reference front() {
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assert(!empty());
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return *begin();
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}
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const_reference front() const {
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assert(!empty());
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return *begin();
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}
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reference back() {
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assert(!empty());
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return *(end() - 1);
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}
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const_reference back() const {
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assert(!empty());
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return *(end() - 1);
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}
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// -- Mutable Operations
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void push_back(T&& item) {
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if (num_stack_items_ < kSize) {
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new ((void*)(&values_[num_stack_items_])) value_type();
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values_[num_stack_items_++] = std::move(item);
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} else {
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vect_.push_back(item);
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}
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}
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void push_back(const T& item) {
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if (num_stack_items_ < kSize) {
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new ((void*)(&values_[num_stack_items_])) value_type();
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values_[num_stack_items_++] = item;
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} else {
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vect_.push_back(item);
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}
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}
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template <class... Args>
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#if _LIBCPP_STD_VER > 14
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reference emplace_back(Args&&... args) {
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if (num_stack_items_ < kSize) {
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return *(new ((void*)(&values_[num_stack_items_++]))
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value_type(std::forward<Args>(args)...));
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} else {
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return vect_.emplace_back(std::forward<Args>(args)...);
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}
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}
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#else
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void emplace_back(Args&&... args) {
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if (num_stack_items_ < kSize) {
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new ((void*)(&values_[num_stack_items_++]))
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value_type(std::forward<Args>(args)...);
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} else {
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vect_.emplace_back(std::forward<Args>(args)...);
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}
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}
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#endif
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void pop_back() {
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assert(!empty());
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if (!vect_.empty()) {
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vect_.pop_back();
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} else {
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values_[--num_stack_items_].~value_type();
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}
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}
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void clear() {
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while (num_stack_items_ > 0) {
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values_[--num_stack_items_].~value_type();
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}
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vect_.clear();
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}
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// -- Copy and Assignment
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autovector& assign(const autovector& other);
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autovector(const autovector& other) { assign(other); }
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autovector& operator=(const autovector& other) { return assign(other); }
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autovector(autovector&& other) noexcept { *this = std::move(other); }
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autovector& operator=(autovector&& other);
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// -- Iterator Operations
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iterator begin() { return iterator(this, 0); }
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const_iterator begin() const { return const_iterator(this, 0); }
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iterator end() { return iterator(this, this->size()); }
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const_iterator end() const { return const_iterator(this, this->size()); }
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reverse_iterator rbegin() { return reverse_iterator(end()); }
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const_reverse_iterator rbegin() const {
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return const_reverse_iterator(end());
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}
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reverse_iterator rend() { return reverse_iterator(begin()); }
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const_reverse_iterator rend() const {
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return const_reverse_iterator(begin());
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}
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private:
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size_type num_stack_items_ = 0; // current number of items
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alignas(alignof(
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value_type)) char buf_[kSize *
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sizeof(value_type)]; // the first `kSize` items
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pointer values_;
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// used only if there are more than `kSize` items.
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std::vector<T> vect_;
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};
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template <class T, size_t kSize>
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autovector<T, kSize>& autovector<T, kSize>::assign(
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const autovector<T, kSize>& other) {
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values_ = reinterpret_cast<pointer>(buf_);
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// copy the internal vector
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vect_.assign(other.vect_.begin(), other.vect_.end());
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// copy array
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num_stack_items_ = other.num_stack_items_;
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std::copy(other.values_, other.values_ + num_stack_items_, values_);
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return *this;
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}
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template <class T, size_t kSize>
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autovector<T, kSize>& autovector<T, kSize>::operator=(
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autovector<T, kSize>&& other) {
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values_ = reinterpret_cast<pointer>(buf_);
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vect_ = std::move(other.vect_);
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size_t n = other.num_stack_items_;
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num_stack_items_ = n;
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other.num_stack_items_ = 0;
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for (size_t i = 0; i < n; ++i) {
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values_[i] = std::move(other.values_[i]);
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}
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return *this;
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}
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} // namespace ROCKSDB_NAMESPACE
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