mirror of https://github.com/axmolengine/axmol.git
272 lines
7.8 KiB
C++
272 lines
7.8 KiB
C++
/*
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* Copyright 2021 Google Inc. All rights reserved.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifndef FLATBUFFERS_VECTOR_DOWNWARD_H_
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#define FLATBUFFERS_VECTOR_DOWNWARD_H_
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#include "flatbuffers/base.h"
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#include "flatbuffers/default_allocator.h"
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#include "flatbuffers/detached_buffer.h"
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namespace flatbuffers {
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// This is a minimal replication of std::vector<uint8_t> functionality,
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// except growing from higher to lower addresses. i.e. push_back() inserts data
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// in the lowest address in the vector.
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// Since this vector leaves the lower part unused, we support a "scratch-pad"
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// that can be stored there for temporary data, to share the allocated space.
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// Essentially, this supports 2 std::vectors in a single buffer.
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class vector_downward {
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public:
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explicit vector_downward(size_t initial_size, Allocator *allocator,
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bool own_allocator, size_t buffer_minalign)
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: allocator_(allocator),
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own_allocator_(own_allocator),
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initial_size_(initial_size),
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buffer_minalign_(buffer_minalign),
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reserved_(0),
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size_(0),
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buf_(nullptr),
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cur_(nullptr),
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scratch_(nullptr) {}
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vector_downward(vector_downward &&other)
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// clang-format on
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: allocator_(other.allocator_),
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own_allocator_(other.own_allocator_),
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initial_size_(other.initial_size_),
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buffer_minalign_(other.buffer_minalign_),
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reserved_(other.reserved_),
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size_(other.size_),
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buf_(other.buf_),
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cur_(other.cur_),
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scratch_(other.scratch_) {
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// No change in other.allocator_
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// No change in other.initial_size_
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// No change in other.buffer_minalign_
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other.own_allocator_ = false;
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other.reserved_ = 0;
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other.buf_ = nullptr;
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other.cur_ = nullptr;
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other.scratch_ = nullptr;
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}
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vector_downward &operator=(vector_downward &&other) {
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// Move construct a temporary and swap idiom
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vector_downward temp(std::move(other));
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swap(temp);
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return *this;
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}
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~vector_downward() {
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clear_buffer();
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clear_allocator();
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}
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void reset() {
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clear_buffer();
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clear();
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}
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void clear() {
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if (buf_) {
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cur_ = buf_ + reserved_;
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} else {
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reserved_ = 0;
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cur_ = nullptr;
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}
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size_ = 0;
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clear_scratch();
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}
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void clear_scratch() { scratch_ = buf_; }
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void clear_allocator() {
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if (own_allocator_ && allocator_) { delete allocator_; }
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allocator_ = nullptr;
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own_allocator_ = false;
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}
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void clear_buffer() {
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if (buf_) Deallocate(allocator_, buf_, reserved_);
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buf_ = nullptr;
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}
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// Relinquish the pointer to the caller.
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uint8_t *release_raw(size_t &allocated_bytes, size_t &offset) {
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auto *buf = buf_;
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allocated_bytes = reserved_;
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offset = static_cast<size_t>(cur_ - buf_);
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// release_raw only relinquishes the buffer ownership.
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// Does not deallocate or reset the allocator. Destructor will do that.
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buf_ = nullptr;
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clear();
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return buf;
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}
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// Relinquish the pointer to the caller.
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DetachedBuffer release() {
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// allocator ownership (if any) is transferred to DetachedBuffer.
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DetachedBuffer fb(allocator_, own_allocator_, buf_, reserved_, cur_,
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size());
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if (own_allocator_) {
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allocator_ = nullptr;
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own_allocator_ = false;
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}
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buf_ = nullptr;
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clear();
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return fb;
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}
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size_t ensure_space(size_t len) {
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FLATBUFFERS_ASSERT(cur_ >= scratch_ && scratch_ >= buf_);
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if (len > static_cast<size_t>(cur_ - scratch_)) { reallocate(len); }
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// Beyond this, signed offsets may not have enough range:
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// (FlatBuffers > 2GB not supported).
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FLATBUFFERS_ASSERT(size() < FLATBUFFERS_MAX_BUFFER_SIZE);
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return len;
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}
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inline uint8_t *make_space(size_t len) {
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if (len) {
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ensure_space(len);
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cur_ -= len;
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size_ += static_cast<uoffset_t>(len);
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}
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return cur_;
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}
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// Returns nullptr if using the DefaultAllocator.
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Allocator *get_custom_allocator() { return allocator_; }
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inline uoffset_t size() const { return size_; }
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uoffset_t scratch_size() const {
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return static_cast<uoffset_t>(scratch_ - buf_);
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}
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size_t capacity() const { return reserved_; }
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uint8_t *data() const {
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FLATBUFFERS_ASSERT(cur_);
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return cur_;
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}
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uint8_t *scratch_data() const {
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FLATBUFFERS_ASSERT(buf_);
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return buf_;
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}
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uint8_t *scratch_end() const {
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FLATBUFFERS_ASSERT(scratch_);
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return scratch_;
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}
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uint8_t *data_at(size_t offset) const { return buf_ + reserved_ - offset; }
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void push(const uint8_t *bytes, size_t num) {
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if (num > 0) { memcpy(make_space(num), bytes, num); }
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}
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// Specialized version of push() that avoids memcpy call for small data.
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template<typename T> void push_small(const T &little_endian_t) {
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make_space(sizeof(T));
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*reinterpret_cast<T *>(cur_) = little_endian_t;
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}
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template<typename T> void scratch_push_small(const T &t) {
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ensure_space(sizeof(T));
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*reinterpret_cast<T *>(scratch_) = t;
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scratch_ += sizeof(T);
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}
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// fill() is most frequently called with small byte counts (<= 4),
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// which is why we're using loops rather than calling memset.
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void fill(size_t zero_pad_bytes) {
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make_space(zero_pad_bytes);
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for (size_t i = 0; i < zero_pad_bytes; i++) cur_[i] = 0;
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}
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// Version for when we know the size is larger.
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// Precondition: zero_pad_bytes > 0
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void fill_big(size_t zero_pad_bytes) {
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memset(make_space(zero_pad_bytes), 0, zero_pad_bytes);
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}
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void pop(size_t bytes_to_remove) {
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cur_ += bytes_to_remove;
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size_ -= static_cast<uoffset_t>(bytes_to_remove);
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}
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void scratch_pop(size_t bytes_to_remove) { scratch_ -= bytes_to_remove; }
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void swap(vector_downward &other) {
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using std::swap;
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swap(allocator_, other.allocator_);
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swap(own_allocator_, other.own_allocator_);
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swap(initial_size_, other.initial_size_);
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swap(buffer_minalign_, other.buffer_minalign_);
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swap(reserved_, other.reserved_);
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swap(size_, other.size_);
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swap(buf_, other.buf_);
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swap(cur_, other.cur_);
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swap(scratch_, other.scratch_);
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}
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void swap_allocator(vector_downward &other) {
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using std::swap;
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swap(allocator_, other.allocator_);
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swap(own_allocator_, other.own_allocator_);
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}
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private:
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// You shouldn't really be copying instances of this class.
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FLATBUFFERS_DELETE_FUNC(vector_downward(const vector_downward &));
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FLATBUFFERS_DELETE_FUNC(vector_downward &operator=(const vector_downward &));
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Allocator *allocator_;
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bool own_allocator_;
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size_t initial_size_;
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size_t buffer_minalign_;
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size_t reserved_;
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uoffset_t size_;
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uint8_t *buf_;
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uint8_t *cur_; // Points at location between empty (below) and used (above).
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uint8_t *scratch_; // Points to the end of the scratchpad in use.
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void reallocate(size_t len) {
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auto old_reserved = reserved_;
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auto old_size = size();
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auto old_scratch_size = scratch_size();
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reserved_ +=
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(std::max)(len, old_reserved ? old_reserved / 2 : initial_size_);
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reserved_ = (reserved_ + buffer_minalign_ - 1) & ~(buffer_minalign_ - 1);
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if (buf_) {
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buf_ = ReallocateDownward(allocator_, buf_, old_reserved, reserved_,
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old_size, old_scratch_size);
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} else {
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buf_ = Allocate(allocator_, reserved_);
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}
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cur_ = buf_ + reserved_ - old_size;
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scratch_ = buf_ + old_scratch_size;
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}
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};
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} // namespace flatbuffers
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#endif // FLATBUFFERS_VECTOR_DOWNWARD_H_
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