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// Copyright 2019 The Abseil Authors.
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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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// https://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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#ifndef ABSL_CONTAINER_INTERNAL_INLINED_VECTOR_INTERNAL_H_
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#define ABSL_CONTAINER_INTERNAL_INLINED_VECTOR_INTERNAL_H_
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#include <cstddef>
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#include <cstring>
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#include <iterator>
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#include <memory>
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#include <utility>
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#include "absl/base/macros.h"
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#include "absl/container/internal/compressed_tuple.h"
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#include "absl/memory/memory.h"
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#include "absl/meta/type_traits.h"
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namespace absl {
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namespace inlined_vector_internal {
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template <typename Iterator>
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using IsAtLeastForwardIterator = std::is_convertible<
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typename std::iterator_traits<Iterator>::iterator_category,
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std::forward_iterator_tag>;
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template <typename AllocatorType>
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using IsMemcpyOk = absl::conjunction<
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std::is_same<std::allocator<typename AllocatorType::value_type>,
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AllocatorType>,
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absl::is_trivially_copy_constructible<typename AllocatorType::value_type>,
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absl::is_trivially_copy_assignable<typename AllocatorType::value_type>,
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absl::is_trivially_destructible<typename AllocatorType::value_type>>;
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template <typename AllocatorType, typename ValueType, typename SizeType>
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void DestroyElements(AllocatorType* alloc_ptr, ValueType* destroy_first,
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SizeType destroy_size) {
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using AllocatorTraits = absl::allocator_traits<AllocatorType>;
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for (SizeType i = 0; i < destroy_size; ++i) {
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AllocatorTraits::destroy(*alloc_ptr, destroy_first + i);
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}
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#ifndef NDEBUG
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// Overwrite unused memory with `0xab` so we can catch uninitialized usage.
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//
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// Cast to `void*` to tell the compiler that we don't care that we might be
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// scribbling on a vtable pointer.
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void* memory = reinterpret_cast<void*>(destroy_first);
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size_t memory_size = sizeof(ValueType) * destroy_size;
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std::memset(memory, 0xab, memory_size);
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#endif // NDEBUG
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}
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template <typename AllocatorType, typename ValueType, typename ValueAdapter,
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typename SizeType>
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void ConstructElements(AllocatorType* alloc_ptr, ValueType* construct_first,
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ValueAdapter* values_ptr, SizeType construct_size) {
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// If any construction fails, all completed constructions are rolled back.
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for (SizeType i = 0; i < construct_size; ++i) {
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ABSL_INTERNAL_TRY {
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values_ptr->ConstructNext(alloc_ptr, construct_first + i);
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}
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ABSL_INTERNAL_CATCH_ANY {
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inlined_vector_internal::DestroyElements(alloc_ptr, construct_first, i);
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ABSL_INTERNAL_RETHROW;
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}
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}
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}
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template <typename AllocatorType>
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struct StorageView {
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using pointer = typename AllocatorType::pointer;
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using size_type = typename AllocatorType::size_type;
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pointer data;
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size_type size;
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size_type capacity;
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};
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template <typename AllocatorType, typename Iterator>
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class IteratorValueAdapter {
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using pointer = typename AllocatorType::pointer;
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using AllocatorTraits = absl::allocator_traits<AllocatorType>;
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public:
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explicit IteratorValueAdapter(const Iterator& it) : it_(it) {}
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void ConstructNext(AllocatorType* alloc_ptr, pointer construct_at) {
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AllocatorTraits::construct(*alloc_ptr, construct_at, *it_);
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++it_;
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}
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private:
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Iterator it_;
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};
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template <typename AllocatorType>
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class CopyValueAdapter {
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using pointer = typename AllocatorType::pointer;
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using const_pointer = typename AllocatorType::const_pointer;
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using const_reference = typename AllocatorType::const_reference;
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using AllocatorTraits = absl::allocator_traits<AllocatorType>;
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public:
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explicit CopyValueAdapter(const_reference v) : ptr_(std::addressof(v)) {}
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void ConstructNext(AllocatorType* alloc_ptr, pointer construct_at) {
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AllocatorTraits::construct(*alloc_ptr, construct_at, *ptr_);
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}
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private:
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const_pointer ptr_;
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};
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template <typename AllocatorType>
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class DefaultValueAdapter {
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using pointer = typename AllocatorType::pointer;
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using value_type = typename AllocatorType::value_type;
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using AllocatorTraits = absl::allocator_traits<AllocatorType>;
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public:
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explicit DefaultValueAdapter() {}
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void ConstructNext(AllocatorType* alloc_ptr, pointer construct_at) {
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AllocatorTraits::construct(*alloc_ptr, construct_at);
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}
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};
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template <typename T, size_t N, typename A>
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class Storage {
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public:
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using allocator_type = A;
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using value_type = typename allocator_type::value_type;
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using pointer = typename allocator_type::pointer;
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using const_pointer = typename allocator_type::const_pointer;
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using reference = typename allocator_type::reference;
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using const_reference = typename allocator_type::const_reference;
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using rvalue_reference = typename allocator_type::value_type&&;
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using size_type = typename allocator_type::size_type;
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using difference_type = typename allocator_type::difference_type;
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using iterator = pointer;
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using const_iterator = const_pointer;
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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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using MoveIterator = std::move_iterator<iterator>;
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using AllocatorTraits = absl::allocator_traits<allocator_type>;
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using IsMemcpyOk = inlined_vector_internal::IsMemcpyOk<allocator_type>;
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using StorageView = inlined_vector_internal::StorageView<allocator_type>;
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template <typename Iterator>
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using IteratorValueAdapter =
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inlined_vector_internal::IteratorValueAdapter<allocator_type, Iterator>;
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using CopyValueAdapter =
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inlined_vector_internal::CopyValueAdapter<allocator_type>;
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using DefaultValueAdapter =
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inlined_vector_internal::DefaultValueAdapter<allocator_type>;
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Storage() : metadata_() {}
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explicit Storage(const allocator_type& alloc)
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: metadata_(alloc, /* empty and inlined */ 0) {}
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~Storage() { DestroyAndDeallocate(); }
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size_type GetSize() const { return GetSizeAndIsAllocated() >> 1; }
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bool GetIsAllocated() const { return GetSizeAndIsAllocated() & 1; }
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pointer GetInlinedData() {
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return reinterpret_cast<pointer>(
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std::addressof(data_.inlined.inlined_data[0]));
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}
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const_pointer GetInlinedData() const {
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return reinterpret_cast<const_pointer>(
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std::addressof(data_.inlined.inlined_data[0]));
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}
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pointer GetAllocatedData() { return data_.allocated.allocated_data; }
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const_pointer GetAllocatedData() const {
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return data_.allocated.allocated_data;
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}
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size_type GetAllocatedCapacity() const {
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return data_.allocated.allocated_capacity;
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}
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StorageView MakeStorageView() {
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return GetIsAllocated() ? StorageView{GetAllocatedData(), GetSize(),
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GetAllocatedCapacity()}
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: StorageView{GetInlinedData(), GetSize(),
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static_cast<size_type>(N)};
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}
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allocator_type* GetAllocPtr() {
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return std::addressof(metadata_.template get<0>());
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}
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const allocator_type* GetAllocPtr() const {
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return std::addressof(metadata_.template get<0>());
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}
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void SetIsAllocated() { GetSizeAndIsAllocated() |= 1; }
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void SetAllocatedSize(size_type size) {
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GetSizeAndIsAllocated() = (size << 1) | static_cast<size_type>(1);
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}
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void SetInlinedSize(size_type size) { GetSizeAndIsAllocated() = size << 1; }
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void AddSize(size_type count) { GetSizeAndIsAllocated() += count << 1; }
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void SetAllocatedData(pointer data, size_type capacity) {
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data_.allocated.allocated_data = data;
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data_.allocated.allocated_capacity = capacity;
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}
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void SwapSizeAndIsAllocated(Storage* other) {
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using std::swap;
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swap(GetSizeAndIsAllocated(), other->GetSizeAndIsAllocated());
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}
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void SwapAllocatedSizeAndCapacity(Storage* other) {
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using std::swap;
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swap(data_.allocated, other->data_.allocated);
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}
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void MemcpyContents(const Storage& other) {
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assert(IsMemcpyOk::value);
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GetSizeAndIsAllocated() = other.GetSizeAndIsAllocated();
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data_ = other.data_;
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}
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void DestroyAndDeallocate();
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template <typename ValueAdapter>
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void Initialize(ValueAdapter values, size_type new_size);
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private:
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size_type& GetSizeAndIsAllocated() { return metadata_.template get<1>(); }
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const size_type& GetSizeAndIsAllocated() const {
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return metadata_.template get<1>();
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}
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using Metadata =
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container_internal::CompressedTuple<allocator_type, size_type>;
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struct Allocated {
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pointer allocated_data;
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size_type allocated_capacity;
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};
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struct Inlined {
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using InlinedDataElement =
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absl::aligned_storage_t<sizeof(value_type), alignof(value_type)>;
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InlinedDataElement inlined_data[N];
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};
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union Data {
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Allocated allocated;
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Inlined inlined;
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};
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Metadata metadata_;
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Data data_;
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};
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template <typename T, size_t N, typename A>
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void Storage<T, N, A>::DestroyAndDeallocate() {
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StorageView storage_view = MakeStorageView();
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inlined_vector_internal::DestroyElements(GetAllocPtr(), storage_view.data,
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storage_view.size);
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if (GetIsAllocated()) {
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AllocatorTraits::deallocate(*GetAllocPtr(), storage_view.data,
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storage_view.capacity);
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}
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}
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template <typename T, size_t N, typename A>
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template <typename ValueAdapter>
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auto Storage<T, N, A>::Initialize(ValueAdapter values, size_type new_size)
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-> void {
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// Only callable from constructors!
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assert(!GetIsAllocated());
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assert(GetSize() == 0);
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pointer construct_data;
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if (new_size > static_cast<size_type>(N)) {
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// Because this is only called from the `InlinedVector` constructors, it's
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// safe to take on the allocation with size `0`. If `ConstructElements(...)`
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// throws, deallocation will be automatically handled by `~Storage()`.
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construct_data = AllocatorTraits::allocate(*GetAllocPtr(), new_size);
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SetAllocatedData(construct_data, new_size);
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SetIsAllocated();
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} else {
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construct_data = GetInlinedData();
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}
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inlined_vector_internal::ConstructElements(GetAllocPtr(), construct_data,
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&values, new_size);
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// Since the initial size was guaranteed to be `0` and the allocated bit is
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// already correct for either case, *adding* `new_size` gives us the correct
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// result faster than setting it directly.
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AddSize(new_size);
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}
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} // namespace inlined_vector_internal
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} // namespace absl
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#endif // ABSL_CONTAINER_INTERNAL_INLINED_VECTOR_INTERNAL_H_
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