diff options
Diffstat (limited to 'third_party/abseil-cpp/absl/container/internal/inlined_vector.h')
| -rw-r--r-- | third_party/abseil-cpp/absl/container/internal/inlined_vector.h | 898 |
1 files changed, 469 insertions, 429 deletions
diff --git a/third_party/abseil-cpp/absl/container/internal/inlined_vector.h b/third_party/abseil-cpp/absl/container/internal/inlined_vector.h index 4d80b727bf..1d7d6cda72 100644 --- a/third_party/abseil-cpp/absl/container/internal/inlined_vector.h +++ b/third_party/abseil-cpp/absl/container/internal/inlined_vector.h @@ -21,8 +21,11 @@ #include <iterator> #include <limits> #include <memory> +#include <new> +#include <type_traits> #include <utility> +#include "absl/base/attributes.h" #include "absl/base/macros.h" #include "absl/container/internal/compressed_tuple.h" #include "absl/memory/memory.h" @@ -33,96 +36,135 @@ namespace absl { ABSL_NAMESPACE_BEGIN namespace inlined_vector_internal { +// GCC does not deal very well with the below code +#if !defined(__clang__) && defined(__GNUC__) +#pragma GCC diagnostic push +#pragma GCC diagnostic ignored "-Warray-bounds" +#pragma GCC diagnostic ignored "-Wmaybe-uninitialized" +#endif + +template <typename A> +using AllocatorTraits = std::allocator_traits<A>; +template <typename A> +using ValueType = typename AllocatorTraits<A>::value_type; +template <typename A> +using SizeType = typename AllocatorTraits<A>::size_type; +template <typename A> +using Pointer = typename AllocatorTraits<A>::pointer; +template <typename A> +using ConstPointer = typename AllocatorTraits<A>::const_pointer; +template <typename A> +using SizeType = typename AllocatorTraits<A>::size_type; +template <typename A> +using DifferenceType = typename AllocatorTraits<A>::difference_type; +template <typename A> +using Reference = ValueType<A>&; +template <typename A> +using ConstReference = const ValueType<A>&; +template <typename A> +using Iterator = Pointer<A>; +template <typename A> +using ConstIterator = ConstPointer<A>; +template <typename A> +using ReverseIterator = typename std::reverse_iterator<Iterator<A>>; +template <typename A> +using ConstReverseIterator = typename std::reverse_iterator<ConstIterator<A>>; +template <typename A> +using MoveIterator = typename std::move_iterator<Iterator<A>>; + template <typename Iterator> using IsAtLeastForwardIterator = std::is_convertible< typename std::iterator_traits<Iterator>::iterator_category, std::forward_iterator_tag>; -template <typename AllocatorType, - typename ValueType = - typename absl::allocator_traits<AllocatorType>::value_type> +template <typename A> using IsMemcpyOk = - absl::conjunction<std::is_same<AllocatorType, std::allocator<ValueType>>, - absl::is_trivially_copy_constructible<ValueType>, - absl::is_trivially_copy_assignable<ValueType>, - absl::is_trivially_destructible<ValueType>>; + absl::conjunction<std::is_same<A, std::allocator<ValueType<A>>>, + absl::is_trivially_copy_constructible<ValueType<A>>, + absl::is_trivially_copy_assignable<ValueType<A>>, + absl::is_trivially_destructible<ValueType<A>>>; + +template <typename T> +struct TypeIdentity { + using type = T; +}; -template <typename AllocatorType, typename Pointer, typename SizeType> -void DestroyElements(AllocatorType* alloc_ptr, Pointer destroy_first, - SizeType destroy_size) { - using AllocatorTraits = absl::allocator_traits<AllocatorType>; +// Used for function arguments in template functions to prevent ADL by forcing +// callers to explicitly specify the template parameter. +template <typename T> +using NoTypeDeduction = typename TypeIdentity<T>::type; +template <typename A> +void DestroyElements(NoTypeDeduction<A>& allocator, Pointer<A> destroy_first, + SizeType<A> destroy_size) { if (destroy_first != nullptr) { - for (auto i = destroy_size; i != 0;) { + for (SizeType<A> i = destroy_size; i != 0;) { --i; - AllocatorTraits::destroy(*alloc_ptr, destroy_first + i); - } - -#if !defined(NDEBUG) - { - using ValueType = typename AllocatorTraits::value_type; - - // Overwrite unused memory with `0xab` so we can catch uninitialized - // usage. - // - // Cast to `void*` to tell the compiler that we don't care that we might - // be scribbling on a vtable pointer. - void* memory_ptr = destroy_first; - auto memory_size = destroy_size * sizeof(ValueType); - std::memset(memory_ptr, 0xab, memory_size); + AllocatorTraits<A>::destroy(allocator, destroy_first + i); } -#endif // !defined(NDEBUG) } } -template <typename AllocatorType, typename Pointer, typename ValueAdapter, - typename SizeType> -void ConstructElements(AllocatorType* alloc_ptr, Pointer construct_first, - ValueAdapter* values_ptr, SizeType construct_size) { - for (SizeType i = 0; i < construct_size; ++i) { - ABSL_INTERNAL_TRY { - values_ptr->ConstructNext(alloc_ptr, construct_first + i); - } +template <typename A> +struct Allocation { + Pointer<A> data; + SizeType<A> capacity; +}; + +template <typename A, + bool IsOverAligned = + (alignof(ValueType<A>) > ABSL_INTERNAL_DEFAULT_NEW_ALIGNMENT)> +struct MallocAdapter { + static Allocation<A> Allocate(A& allocator, SizeType<A> requested_capacity) { + return {AllocatorTraits<A>::allocate(allocator, requested_capacity), + requested_capacity}; + } + + static void Deallocate(A& allocator, Pointer<A> pointer, + SizeType<A> capacity) { + AllocatorTraits<A>::deallocate(allocator, pointer, capacity); + } +}; + +template <typename A, typename ValueAdapter> +void ConstructElements(NoTypeDeduction<A>& allocator, + Pointer<A> construct_first, ValueAdapter& values, + SizeType<A> construct_size) { + for (SizeType<A> i = 0; i < construct_size; ++i) { + ABSL_INTERNAL_TRY { values.ConstructNext(allocator, construct_first + i); } ABSL_INTERNAL_CATCH_ANY { - inlined_vector_internal::DestroyElements(alloc_ptr, construct_first, i); + DestroyElements<A>(allocator, construct_first, i); ABSL_INTERNAL_RETHROW; } } } -template <typename Pointer, typename ValueAdapter, typename SizeType> -void AssignElements(Pointer assign_first, ValueAdapter* values_ptr, - SizeType assign_size) { - for (SizeType i = 0; i < assign_size; ++i) { - values_ptr->AssignNext(assign_first + i); +template <typename A, typename ValueAdapter> +void AssignElements(Pointer<A> assign_first, ValueAdapter& values, + SizeType<A> assign_size) { + for (SizeType<A> i = 0; i < assign_size; ++i) { + values.AssignNext(assign_first + i); } } -template <typename AllocatorType> +template <typename A> struct StorageView { - using AllocatorTraits = absl::allocator_traits<AllocatorType>; - using Pointer = typename AllocatorTraits::pointer; - using SizeType = typename AllocatorTraits::size_type; - - Pointer data; - SizeType size; - SizeType capacity; + Pointer<A> data; + SizeType<A> size; + SizeType<A> capacity; }; -template <typename AllocatorType, typename Iterator> +template <typename A, typename Iterator> class IteratorValueAdapter { - using AllocatorTraits = absl::allocator_traits<AllocatorType>; - using Pointer = typename AllocatorTraits::pointer; - public: explicit IteratorValueAdapter(const Iterator& it) : it_(it) {} - void ConstructNext(AllocatorType* alloc_ptr, Pointer construct_at) { - AllocatorTraits::construct(*alloc_ptr, construct_at, *it_); + void ConstructNext(A& allocator, Pointer<A> construct_at) { + AllocatorTraits<A>::construct(allocator, construct_at, *it_); ++it_; } - void AssignNext(Pointer assign_at) { + void AssignNext(Pointer<A> assign_at) { *assign_at = *it_; ++it_; } @@ -131,166 +173,123 @@ class IteratorValueAdapter { Iterator it_; }; -template <typename AllocatorType> +template <typename A> class CopyValueAdapter { - using AllocatorTraits = absl::allocator_traits<AllocatorType>; - using ValueType = typename AllocatorTraits::value_type; - using Pointer = typename AllocatorTraits::pointer; - using ConstPointer = typename AllocatorTraits::const_pointer; - public: - explicit CopyValueAdapter(const ValueType& v) : ptr_(std::addressof(v)) {} + explicit CopyValueAdapter(ConstPointer<A> p) : ptr_(p) {} - void ConstructNext(AllocatorType* alloc_ptr, Pointer construct_at) { - AllocatorTraits::construct(*alloc_ptr, construct_at, *ptr_); + void ConstructNext(A& allocator, Pointer<A> construct_at) { + AllocatorTraits<A>::construct(allocator, construct_at, *ptr_); } - void AssignNext(Pointer assign_at) { *assign_at = *ptr_; } + void AssignNext(Pointer<A> assign_at) { *assign_at = *ptr_; } private: - ConstPointer ptr_; + ConstPointer<A> ptr_; }; -template <typename AllocatorType> +template <typename A> class DefaultValueAdapter { - using AllocatorTraits = absl::allocator_traits<AllocatorType>; - using ValueType = typename AllocatorTraits::value_type; - using Pointer = typename AllocatorTraits::pointer; - public: explicit DefaultValueAdapter() {} - void ConstructNext(AllocatorType* alloc_ptr, Pointer construct_at) { - AllocatorTraits::construct(*alloc_ptr, construct_at); + void ConstructNext(A& allocator, Pointer<A> construct_at) { + AllocatorTraits<A>::construct(allocator, construct_at); } - void AssignNext(Pointer assign_at) { *assign_at = ValueType(); } + void AssignNext(Pointer<A> assign_at) { *assign_at = ValueType<A>(); } }; -template <typename AllocatorType> +template <typename A> class AllocationTransaction { - using AllocatorTraits = absl::allocator_traits<AllocatorType>; - using Pointer = typename AllocatorTraits::pointer; - using SizeType = typename AllocatorTraits::size_type; - public: - explicit AllocationTransaction(AllocatorType* alloc_ptr) - : alloc_data_(*alloc_ptr, nullptr) {} + explicit AllocationTransaction(A& allocator) + : allocator_data_(allocator, nullptr), capacity_(0) {} ~AllocationTransaction() { if (DidAllocate()) { - AllocatorTraits::deallocate(GetAllocator(), GetData(), GetCapacity()); + MallocAdapter<A>::Deallocate(GetAllocator(), GetData(), GetCapacity()); } } AllocationTransaction(const AllocationTransaction&) = delete; void operator=(const AllocationTransaction&) = delete; - AllocatorType& GetAllocator() { return alloc_data_.template get<0>(); } - Pointer& GetData() { return alloc_data_.template get<1>(); } - SizeType& GetCapacity() { return capacity_; } + A& GetAllocator() { return allocator_data_.template get<0>(); } + Pointer<A>& GetData() { return allocator_data_.template get<1>(); } + SizeType<A>& GetCapacity() { return capacity_; } bool DidAllocate() { return GetData() != nullptr; } - Pointer Allocate(SizeType capacity) { - GetData() = AllocatorTraits::allocate(GetAllocator(), capacity); - GetCapacity() = capacity; - return GetData(); + + Pointer<A> Allocate(SizeType<A> requested_capacity) { + Allocation<A> result = + MallocAdapter<A>::Allocate(GetAllocator(), requested_capacity); + GetData() = result.data; + GetCapacity() = result.capacity; + return result.data; + } + + ABSL_MUST_USE_RESULT Allocation<A> Release() && { + Allocation<A> result = {GetData(), GetCapacity()}; + Reset(); + return result; } + private: void Reset() { GetData() = nullptr; GetCapacity() = 0; } - private: - container_internal::CompressedTuple<AllocatorType, Pointer> alloc_data_; - SizeType capacity_ = 0; + container_internal::CompressedTuple<A, Pointer<A>> allocator_data_; + SizeType<A> capacity_; }; -template <typename AllocatorType> +template <typename A> class ConstructionTransaction { - using AllocatorTraits = absl::allocator_traits<AllocatorType>; - using Pointer = typename AllocatorTraits::pointer; - using SizeType = typename AllocatorTraits::size_type; - public: - explicit ConstructionTransaction(AllocatorType* alloc_ptr) - : alloc_data_(*alloc_ptr, nullptr) {} + explicit ConstructionTransaction(A& allocator) + : allocator_data_(allocator, nullptr), size_(0) {} ~ConstructionTransaction() { if (DidConstruct()) { - inlined_vector_internal::DestroyElements(std::addressof(GetAllocator()), - GetData(), GetSize()); + DestroyElements<A>(GetAllocator(), GetData(), GetSize()); } } ConstructionTransaction(const ConstructionTransaction&) = delete; void operator=(const ConstructionTransaction&) = delete; - AllocatorType& GetAllocator() { return alloc_data_.template get<0>(); } - Pointer& GetData() { return alloc_data_.template get<1>(); } - SizeType& GetSize() { return size_; } + A& GetAllocator() { return allocator_data_.template get<0>(); } + Pointer<A>& GetData() { return allocator_data_.template get<1>(); } + SizeType<A>& GetSize() { return size_; } bool DidConstruct() { return GetData() != nullptr; } template <typename ValueAdapter> - void Construct(Pointer data, ValueAdapter* values_ptr, SizeType size) { - inlined_vector_internal::ConstructElements(std::addressof(GetAllocator()), - data, values_ptr, size); + void Construct(Pointer<A> data, ValueAdapter& values, SizeType<A> size) { + ConstructElements<A>(GetAllocator(), data, values, size); GetData() = data; GetSize() = size; } - void Commit() { + void Commit() && { GetData() = nullptr; GetSize() = 0; } private: - container_internal::CompressedTuple<AllocatorType, Pointer> alloc_data_; - SizeType size_ = 0; + container_internal::CompressedTuple<A, Pointer<A>> allocator_data_; + SizeType<A> size_; }; template <typename T, size_t N, typename A> class Storage { public: - using AllocatorTraits = absl::allocator_traits<A>; - using allocator_type = typename AllocatorTraits::allocator_type; - using value_type = typename AllocatorTraits::value_type; - using pointer = typename AllocatorTraits::pointer; - using const_pointer = typename AllocatorTraits::const_pointer; - using size_type = typename AllocatorTraits::size_type; - using difference_type = typename AllocatorTraits::difference_type; - - using reference = value_type&; - using const_reference = const value_type&; - using RValueReference = value_type&&; - using iterator = pointer; - using const_iterator = const_pointer; - using reverse_iterator = std::reverse_iterator<iterator>; - using const_reverse_iterator = std::reverse_iterator<const_iterator>; - using MoveIterator = std::move_iterator<iterator>; - using IsMemcpyOk = inlined_vector_internal::IsMemcpyOk<allocator_type>; - - using StorageView = inlined_vector_internal::StorageView<allocator_type>; - - template <typename Iterator> - using IteratorValueAdapter = - inlined_vector_internal::IteratorValueAdapter<allocator_type, Iterator>; - using CopyValueAdapter = - inlined_vector_internal::CopyValueAdapter<allocator_type>; - using DefaultValueAdapter = - inlined_vector_internal::DefaultValueAdapter<allocator_type>; - - using AllocationTransaction = - inlined_vector_internal::AllocationTransaction<allocator_type>; - using ConstructionTransaction = - inlined_vector_internal::ConstructionTransaction<allocator_type>; - - static size_type NextCapacity(size_type current_capacity) { + static SizeType<A> NextCapacity(SizeType<A> current_capacity) { return current_capacity * 2; } - static size_type ComputeCapacity(size_type current_capacity, - size_type requested_capacity) { + static SizeType<A> ComputeCapacity(SizeType<A> current_capacity, + SizeType<A> requested_capacity) { return (std::max)(NextCapacity(current_capacity), requested_capacity); } @@ -298,140 +297,137 @@ class Storage { // Storage Constructors and Destructor // --------------------------------------------------------------------------- - Storage() : metadata_() {} + Storage() : metadata_(A(), /* size and is_allocated */ 0) {} - explicit Storage(const allocator_type& alloc) : metadata_(alloc, {}) {} + explicit Storage(const A& allocator) + : metadata_(allocator, /* size and is_allocated */ 0) {} ~Storage() { - pointer data = GetIsAllocated() ? GetAllocatedData() : GetInlinedData(); - inlined_vector_internal::DestroyElements(GetAllocPtr(), data, GetSize()); - DeallocateIfAllocated(); + if (GetSizeAndIsAllocated() == 0) { + // Empty and not allocated; nothing to do. + } else if (IsMemcpyOk<A>::value) { + // No destructors need to be run; just deallocate if necessary. + DeallocateIfAllocated(); + } else { + DestroyContents(); + } } // --------------------------------------------------------------------------- // Storage Member Accessors // --------------------------------------------------------------------------- - size_type& GetSizeAndIsAllocated() { return metadata_.template get<1>(); } + SizeType<A>& GetSizeAndIsAllocated() { return metadata_.template get<1>(); } - const size_type& GetSizeAndIsAllocated() const { + const SizeType<A>& GetSizeAndIsAllocated() const { return metadata_.template get<1>(); } - size_type GetSize() const { return GetSizeAndIsAllocated() >> 1; } + SizeType<A> GetSize() const { return GetSizeAndIsAllocated() >> 1; } bool GetIsAllocated() const { return GetSizeAndIsAllocated() & 1; } - pointer GetAllocatedData() { return data_.allocated.allocated_data; } + Pointer<A> GetAllocatedData() { return data_.allocated.allocated_data; } - const_pointer GetAllocatedData() const { + ConstPointer<A> GetAllocatedData() const { return data_.allocated.allocated_data; } - pointer GetInlinedData() { - return reinterpret_cast<pointer>( + Pointer<A> GetInlinedData() { + return reinterpret_cast<Pointer<A>>( std::addressof(data_.inlined.inlined_data[0])); } - const_pointer GetInlinedData() const { - return reinterpret_cast<const_pointer>( + ConstPointer<A> GetInlinedData() const { + return reinterpret_cast<ConstPointer<A>>( std::addressof(data_.inlined.inlined_data[0])); } - size_type GetAllocatedCapacity() const { + SizeType<A> GetAllocatedCapacity() const { return data_.allocated.allocated_capacity; } - size_type GetInlinedCapacity() const { return static_cast<size_type>(N); } + SizeType<A> GetInlinedCapacity() const { return static_cast<SizeType<A>>(N); } - StorageView MakeStorageView() { - return GetIsAllocated() - ? StorageView{GetAllocatedData(), GetSize(), - GetAllocatedCapacity()} - : StorageView{GetInlinedData(), GetSize(), GetInlinedCapacity()}; + StorageView<A> MakeStorageView() { + return GetIsAllocated() ? StorageView<A>{GetAllocatedData(), GetSize(), + GetAllocatedCapacity()} + : StorageView<A>{GetInlinedData(), GetSize(), + GetInlinedCapacity()}; } - allocator_type* GetAllocPtr() { - return std::addressof(metadata_.template get<0>()); - } + A& GetAllocator() { return metadata_.template get<0>(); } - const allocator_type* GetAllocPtr() const { - return std::addressof(metadata_.template get<0>()); - } + const A& GetAllocator() const { return metadata_.template get<0>(); } // --------------------------------------------------------------------------- // Storage Member Mutators // --------------------------------------------------------------------------- + ABSL_ATTRIBUTE_NOINLINE void InitFrom(const Storage& other); + template <typename ValueAdapter> - void Initialize(ValueAdapter values, size_type new_size); + void Initialize(ValueAdapter values, SizeType<A> new_size); template <typename ValueAdapter> - void Assign(ValueAdapter values, size_type new_size); + void Assign(ValueAdapter values, SizeType<A> new_size); template <typename ValueAdapter> - void Resize(ValueAdapter values, size_type new_size); + void Resize(ValueAdapter values, SizeType<A> new_size); template <typename ValueAdapter> - iterator Insert(const_iterator pos, ValueAdapter values, - size_type insert_count); + Iterator<A> Insert(ConstIterator<A> pos, ValueAdapter values, + SizeType<A> insert_count); template <typename... Args> - reference EmplaceBack(Args&&... args); + Reference<A> EmplaceBack(Args&&... args); - iterator Erase(const_iterator from, const_iterator to); + Iterator<A> Erase(ConstIterator<A> from, ConstIterator<A> to); - void Reserve(size_type requested_capacity); + void Reserve(SizeType<A> requested_capacity); void ShrinkToFit(); void Swap(Storage* other_storage_ptr); void SetIsAllocated() { - GetSizeAndIsAllocated() |= static_cast<size_type>(1); + GetSizeAndIsAllocated() |= static_cast<SizeType<A>>(1); } void UnsetIsAllocated() { - GetSizeAndIsAllocated() &= ((std::numeric_limits<size_type>::max)() - 1); + GetSizeAndIsAllocated() &= ((std::numeric_limits<SizeType<A>>::max)() - 1); } - void SetSize(size_type size) { + void SetSize(SizeType<A> size) { GetSizeAndIsAllocated() = - (size << 1) | static_cast<size_type>(GetIsAllocated()); + (size << 1) | static_cast<SizeType<A>>(GetIsAllocated()); } - void SetAllocatedSize(size_type size) { - GetSizeAndIsAllocated() = (size << 1) | static_cast<size_type>(1); + void SetAllocatedSize(SizeType<A> size) { + GetSizeAndIsAllocated() = (size << 1) | static_cast<SizeType<A>>(1); } - void SetInlinedSize(size_type size) { - GetSizeAndIsAllocated() = size << static_cast<size_type>(1); + void SetInlinedSize(SizeType<A> size) { + GetSizeAndIsAllocated() = size << static_cast<SizeType<A>>(1); } - void AddSize(size_type count) { - GetSizeAndIsAllocated() += count << static_cast<size_type>(1); + void AddSize(SizeType<A> count) { + GetSizeAndIsAllocated() += count << static_cast<SizeType<A>>(1); } - void SubtractSize(size_type count) { + void SubtractSize(SizeType<A> count) { assert(count <= GetSize()); - GetSizeAndIsAllocated() -= count << static_cast<size_type>(1); - } - - void SetAllocatedData(pointer data, size_type capacity) { - data_.allocated.allocated_data = data; - data_.allocated.allocated_capacity = capacity; + GetSizeAndIsAllocated() -= count << static_cast<SizeType<A>>(1); } - void AcquireAllocatedData(AllocationTransaction* allocation_tx_ptr) { - SetAllocatedData(allocation_tx_ptr->GetData(), - allocation_tx_ptr->GetCapacity()); - - allocation_tx_ptr->Reset(); + void SetAllocation(Allocation<A> allocation) { + data_.allocated.allocated_data = allocation.data; + data_.allocated.allocated_capacity = allocation.capacity; } void MemcpyFrom(const Storage& other_storage) { - assert(IsMemcpyOk::value || other_storage.GetIsAllocated()); + assert(IsMemcpyOk<A>::value || other_storage.GetIsAllocated()); GetSizeAndIsAllocated() = other_storage.GetSizeAndIsAllocated(); data_ = other_storage.data_; @@ -439,22 +435,23 @@ class Storage { void DeallocateIfAllocated() { if (GetIsAllocated()) { - AllocatorTraits::deallocate(*GetAllocPtr(), GetAllocatedData(), - GetAllocatedCapacity()); + MallocAdapter<A>::Deallocate(GetAllocator(), GetAllocatedData(), + GetAllocatedCapacity()); } } private: - using Metadata = - container_internal::CompressedTuple<allocator_type, size_type>; + ABSL_ATTRIBUTE_NOINLINE void DestroyContents(); + + using Metadata = container_internal::CompressedTuple<A, SizeType<A>>; struct Allocated { - pointer allocated_data; - size_type allocated_capacity; + Pointer<A> allocated_data; + SizeType<A> allocated_capacity; }; struct Inlined { - alignas(value_type) char inlined_data[sizeof(value_type[N])]; + alignas(ValueType<A>) char inlined_data[sizeof(ValueType<A>[N])]; }; union Data { @@ -462,33 +459,75 @@ class Storage { Inlined inlined; }; + template <typename... Args> + ABSL_ATTRIBUTE_NOINLINE Reference<A> EmplaceBackSlow(Args&&... args); + Metadata metadata_; Data data_; }; template <typename T, size_t N, typename A> +void Storage<T, N, A>::DestroyContents() { + Pointer<A> data = GetIsAllocated() ? GetAllocatedData() : GetInlinedData(); + DestroyElements<A>(GetAllocator(), data, GetSize()); + DeallocateIfAllocated(); +} + +template <typename T, size_t N, typename A> +void Storage<T, N, A>::InitFrom(const Storage& other) { + const SizeType<A> n = other.GetSize(); + assert(n > 0); // Empty sources handled handled in caller. + ConstPointer<A> src; + Pointer<A> dst; + if (!other.GetIsAllocated()) { + dst = GetInlinedData(); + src = other.GetInlinedData(); + } else { + // Because this is only called from the `InlinedVector` constructors, it's + // safe to take on the allocation with size `0`. If `ConstructElements(...)` + // throws, deallocation will be automatically handled by `~Storage()`. + SizeType<A> requested_capacity = ComputeCapacity(GetInlinedCapacity(), n); + Allocation<A> allocation = + MallocAdapter<A>::Allocate(GetAllocator(), requested_capacity); + SetAllocation(allocation); + dst = allocation.data; + src = other.GetAllocatedData(); + } + if (IsMemcpyOk<A>::value) { + std::memcpy(reinterpret_cast<char*>(dst), + reinterpret_cast<const char*>(src), n * sizeof(ValueType<A>)); + } else { + auto values = IteratorValueAdapter<A, ConstPointer<A>>(src); + ConstructElements<A>(GetAllocator(), dst, values, n); + } + GetSizeAndIsAllocated() = other.GetSizeAndIsAllocated(); +} + +template <typename T, size_t N, typename A> template <typename ValueAdapter> -auto Storage<T, N, A>::Initialize(ValueAdapter values, size_type new_size) +auto Storage<T, N, A>::Initialize(ValueAdapter values, SizeType<A> new_size) -> void { // Only callable from constructors! assert(!GetIsAllocated()); assert(GetSize() == 0); - pointer construct_data; + Pointer<A> construct_data; if (new_size > GetInlinedCapacity()) { // Because this is only called from the `InlinedVector` constructors, it's // safe to take on the allocation with size `0`. If `ConstructElements(...)` // throws, deallocation will be automatically handled by `~Storage()`. - size_type new_capacity = ComputeCapacity(GetInlinedCapacity(), new_size); - construct_data = AllocatorTraits::allocate(*GetAllocPtr(), new_capacity); - SetAllocatedData(construct_data, new_capacity); + SizeType<A> requested_capacity = + ComputeCapacity(GetInlinedCapacity(), new_size); + Allocation<A> allocation = + MallocAdapter<A>::Allocate(GetAllocator(), requested_capacity); + construct_data = allocation.data; + SetAllocation(allocation); SetIsAllocated(); } else { construct_data = GetInlinedData(); } - inlined_vector_internal::ConstructElements(GetAllocPtr(), construct_data, - &values, new_size); + ConstructElements<A>(GetAllocator(), construct_data, values, new_size); // Since the initial size was guaranteed to be `0` and the allocated bit is // already correct for either case, *adding* `new_size` gives us the correct @@ -498,18 +537,20 @@ auto Storage<T, N, A>::Initialize(ValueAdapter values, size_type new_size) template <typename T, size_t N, typename A> template <typename ValueAdapter> -auto Storage<T, N, A>::Assign(ValueAdapter values, size_type new_size) -> void { - StorageView storage_view = MakeStorageView(); +auto Storage<T, N, A>::Assign(ValueAdapter values, SizeType<A> new_size) + -> void { + StorageView<A> storage_view = MakeStorageView(); - AllocationTransaction allocation_tx(GetAllocPtr()); + AllocationTransaction<A> allocation_tx(GetAllocator()); - absl::Span<value_type> assign_loop; - absl::Span<value_type> construct_loop; - absl::Span<value_type> destroy_loop; + absl::Span<ValueType<A>> assign_loop; + absl::Span<ValueType<A>> construct_loop; + absl::Span<ValueType<A>> destroy_loop; if (new_size > storage_view.capacity) { - size_type new_capacity = ComputeCapacity(storage_view.capacity, new_size); - construct_loop = {allocation_tx.Allocate(new_capacity), new_size}; + SizeType<A> requested_capacity = + ComputeCapacity(storage_view.capacity, new_size); + construct_loop = {allocation_tx.Allocate(requested_capacity), new_size}; destroy_loop = {storage_view.data, storage_view.size}; } else if (new_size > storage_view.size) { assign_loop = {storage_view.data, storage_view.size}; @@ -520,18 +561,16 @@ auto Storage<T, N, A>::Assign(ValueAdapter values, size_type new_size) -> void { destroy_loop = {storage_view.data + new_size, storage_view.size - new_size}; } - inlined_vector_internal::AssignElements(assign_loop.data(), &values, - assign_loop.size()); + AssignElements<A>(assign_loop.data(), values, assign_loop.size()); - inlined_vector_internal::ConstructElements( - GetAllocPtr(), construct_loop.data(), &values, construct_loop.size()); + ConstructElements<A>(GetAllocator(), construct_loop.data(), values, + construct_loop.size()); - inlined_vector_internal::DestroyElements(GetAllocPtr(), destroy_loop.data(), - destroy_loop.size()); + DestroyElements<A>(GetAllocator(), destroy_loop.data(), destroy_loop.size()); if (allocation_tx.DidAllocate()) { DeallocateIfAllocated(); - AcquireAllocatedData(&allocation_tx); + SetAllocation(std::move(allocation_tx).Release()); SetIsAllocated(); } @@ -540,125 +579,119 @@ auto Storage<T, N, A>::Assign(ValueAdapter values, size_type new_size) -> void { template <typename T, size_t N, typename A> template <typename ValueAdapter> -auto Storage<T, N, A>::Resize(ValueAdapter values, size_type new_size) -> void { - StorageView storage_view = MakeStorageView(); - - IteratorValueAdapter<MoveIterator> move_values( - MoveIterator(storage_view.data)); - - AllocationTransaction allocation_tx(GetAllocPtr()); - ConstructionTransaction construction_tx(GetAllocPtr()); - - absl::Span<value_type> construct_loop; - absl::Span<value_type> move_construct_loop; - absl::Span<value_type> destroy_loop; - - if (new_size > storage_view.capacity) { - size_type new_capacity = ComputeCapacity(storage_view.capacity, new_size); - pointer new_data = allocation_tx.Allocate(new_capacity); - construct_loop = {new_data + storage_view.size, - new_size - storage_view.size}; - move_construct_loop = {new_data, storage_view.size}; - destroy_loop = {storage_view.data, storage_view.size}; - } else if (new_size > storage_view.size) { - construct_loop = {storage_view.data + storage_view.size, - new_size - storage_view.size}; +auto Storage<T, N, A>::Resize(ValueAdapter values, SizeType<A> new_size) + -> void { + StorageView<A> storage_view = MakeStorageView(); + Pointer<A> const base = storage_view.data; + const SizeType<A> size = storage_view.size; + A& alloc = GetAllocator(); + if (new_size <= size) { + // Destroy extra old elements. + DestroyElements<A>(alloc, base + new_size, size - new_size); + } else if (new_size <= storage_view.capacity) { + // Construct new elements in place. + ConstructElements<A>(alloc, base + size, values, new_size - size); } else { - destroy_loop = {storage_view.data + new_size, storage_view.size - new_size}; - } - - construction_tx.Construct(construct_loop.data(), &values, - construct_loop.size()); - - inlined_vector_internal::ConstructElements( - GetAllocPtr(), move_construct_loop.data(), &move_values, - move_construct_loop.size()); - - inlined_vector_internal::DestroyElements(GetAllocPtr(), destroy_loop.data(), - destroy_loop.size()); - - construction_tx.Commit(); - if (allocation_tx.DidAllocate()) { + // Steps: + // a. Allocate new backing store. + // b. Construct new elements in new backing store. + // c. Move existing elements from old backing store to now. + // d. Destroy all elements in old backing store. + // Use transactional wrappers for the first two steps so we can roll + // back if necessary due to exceptions. + AllocationTransaction<A> allocation_tx(alloc); + SizeType<A> requested_capacity = + ComputeCapacity(storage_view.capacity, new_size); + Pointer<A> new_data = allocation_tx.Allocate(requested_capacity); + + ConstructionTransaction<A> construction_tx(alloc); + construction_tx.Construct(new_data + size, values, new_size - size); + + IteratorValueAdapter<A, MoveIterator<A>> move_values( + (MoveIterator<A>(base))); + ConstructElements<A>(alloc, new_data, move_values, size); + + DestroyElements<A>(alloc, base, size); + std::move(construction_tx).Commit(); DeallocateIfAllocated(); - AcquireAllocatedData(&allocation_tx); + SetAllocation(std::move(allocation_tx).Release()); SetIsAllocated(); } - SetSize(new_size); } template <typename T, size_t N, typename A> template <typename ValueAdapter> -auto Storage<T, N, A>::Insert(const_iterator pos, ValueAdapter values, - size_type insert_count) -> iterator { - StorageView storage_view = MakeStorageView(); +auto Storage<T, N, A>::Insert(ConstIterator<A> pos, ValueAdapter values, + SizeType<A> insert_count) -> Iterator<A> { + StorageView<A> storage_view = MakeStorageView(); - size_type insert_index = - std::distance(const_iterator(storage_view.data), pos); - size_type insert_end_index = insert_index + insert_count; - size_type new_size = storage_view.size + insert_count; + SizeType<A> insert_index = + std::distance(ConstIterator<A>(storage_view.data), pos); + SizeType<A> insert_end_index = insert_index + insert_count; + SizeType<A> new_size = storage_view.size + insert_count; if (new_size > storage_view.capacity) { - AllocationTransaction allocation_tx(GetAllocPtr()); - ConstructionTransaction construction_tx(GetAllocPtr()); - ConstructionTransaction move_construciton_tx(GetAllocPtr()); + AllocationTransaction<A> allocation_tx(GetAllocator()); + ConstructionTransaction<A> construction_tx(GetAllocator()); + ConstructionTransaction<A> move_construction_tx(GetAllocator()); - IteratorValueAdapter<MoveIterator> move_values( - MoveIterator(storage_view.data)); + IteratorValueAdapter<A, MoveIterator<A>> move_values( + MoveIterator<A>(storage_view.data)); - size_type new_capacity = ComputeCapacity(storage_view.capacity, new_size); - pointer new_data = allocation_tx.Allocate(new_capacity); + SizeType<A> requested_capacity = + ComputeCapacity(storage_view.capacity, new_size); + Pointer<A> new_data = allocation_tx.Allocate(requested_capacity); - construction_tx.Construct(new_data + insert_index, &values, insert_count); + construction_tx.Construct(new_data + insert_index, values, insert_count); - move_construciton_tx.Construct(new_data, &move_values, insert_index); + move_construction_tx.Construct(new_data, move_values, insert_index); - inlined_vector_internal::ConstructElements( - GetAllocPtr(), new_data + insert_end_index, &move_values, - storage_view.size - insert_index); + ConstructElements<A>(GetAllocator(), new_data + insert_end_index, + move_values, storage_view.size - insert_index); - inlined_vector_internal::DestroyElements(GetAllocPtr(), storage_view.data, - storage_view.size); + DestroyElements<A>(GetAllocator(), storage_view.data, storage_view.size); - construction_tx.Commit(); - move_construciton_tx.Commit(); + std::move(construction_tx).Commit(); + std::move(move_construction_tx).Commit(); DeallocateIfAllocated(); - AcquireAllocatedData(&allocation_tx); + SetAllocation(std::move(allocation_tx).Release()); SetAllocatedSize(new_size); - return iterator(new_data + insert_index); + return Iterator<A>(new_data + insert_index); } else { - size_type move_construction_destination_index = + SizeType<A> move_construction_destination_index = (std::max)(insert_end_index, storage_view.size); - ConstructionTransaction move_construction_tx(GetAllocPtr()); + ConstructionTransaction<A> move_construction_tx(GetAllocator()); - IteratorValueAdapter<MoveIterator> move_construction_values( - MoveIterator(storage_view.data + - (move_construction_destination_index - insert_count))); - absl::Span<value_type> move_construction = { + IteratorValueAdapter<A, MoveIterator<A>> move_construction_values( + MoveIterator<A>(storage_view.data + + (move_construction_destination_index - insert_count))); + absl::Span<ValueType<A>> move_construction = { storage_view.data + move_construction_destination_index, new_size - move_construction_destination_index}; - pointer move_assignment_values = storage_view.data + insert_index; - absl::Span<value_type> move_assignment = { + Pointer<A> move_assignment_values = storage_view.data + insert_index; + absl::Span<ValueType<A>> move_assignment = { storage_view.data + insert_end_index, move_construction_destination_index - insert_end_index}; - absl::Span<value_type> insert_assignment = {move_assignment_values, - move_construction.size()}; + absl::Span<ValueType<A>> insert_assignment = {move_assignment_values, + move_construction.size()}; - absl::Span<value_type> insert_construction = { + absl::Span<ValueType<A>> insert_construction = { insert_assignment.data() + insert_assignment.size(), insert_count - insert_assignment.size()}; move_construction_tx.Construct(move_construction.data(), - &move_construction_values, + move_construction_values, move_construction.size()); - for (pointer destination = move_assignment.data() + move_assignment.size(), - last_destination = move_assignment.data(), - source = move_assignment_values + move_assignment.size(); + for (Pointer<A> + destination = move_assignment.data() + move_assignment.size(), + last_destination = move_assignment.data(), + source = move_assignment_values + move_assignment.size(); ;) { --destination; --source; @@ -666,114 +699,115 @@ auto Storage<T, N, A>::Insert(const_iterator pos, ValueAdapter values, *destination = std::move(*source); } - inlined_vector_internal::AssignElements(insert_assignment.data(), &values, - insert_assignment.size()); + AssignElements<A>(insert_assignment.data(), values, + insert_assignment.size()); - inlined_vector_internal::ConstructElements( - GetAllocPtr(), insert_construction.data(), &values, - insert_construction.size()); + ConstructElements<A>(GetAllocator(), insert_construction.data(), values, + insert_construction.size()); - move_construction_tx.Commit(); + std::move(move_construction_tx).Commit(); AddSize(insert_count); - return iterator(storage_view.data + insert_index); + return Iterator<A>(storage_view.data + insert_index); } } template <typename T, size_t N, typename A> template <typename... Args> -auto Storage<T, N, A>::EmplaceBack(Args&&... args) -> reference { - StorageView storage_view = MakeStorageView(); - - AllocationTransaction allocation_tx(GetAllocPtr()); - - IteratorValueAdapter<MoveIterator> move_values( - MoveIterator(storage_view.data)); +auto Storage<T, N, A>::EmplaceBack(Args&&... args) -> Reference<A> { + StorageView<A> storage_view = MakeStorageView(); + const SizeType<A> n = storage_view.size; + if (ABSL_PREDICT_TRUE(n != storage_view.capacity)) { + // Fast path; new element fits. + Pointer<A> last_ptr = storage_view.data + n; + AllocatorTraits<A>::construct(GetAllocator(), last_ptr, + std::forward<Args>(args)...); + AddSize(1); + return *last_ptr; + } + // TODO(b/173712035): Annotate with musttail attribute to prevent regression. + return EmplaceBackSlow(std::forward<Args>(args)...); +} - pointer construct_data; - if (storage_view.size == storage_view.capacity) { - size_type new_capacity = NextCapacity(storage_view.capacity); - construct_data = allocation_tx.Allocate(new_capacity); - } else { - construct_data = storage_view.data; +template <typename T, size_t N, typename A> +template <typename... Args> +auto Storage<T, N, A>::EmplaceBackSlow(Args&&... args) -> Reference<A> { + StorageView<A> storage_view = MakeStorageView(); + AllocationTransaction<A> allocation_tx(GetAllocator()); + IteratorValueAdapter<A, MoveIterator<A>> move_values( + MoveIterator<A>(storage_view.data)); + SizeType<A> requested_capacity = NextCapacity(storage_view.capacity); + Pointer<A> construct_data = allocation_tx.Allocate(requested_capacity); + Pointer<A> last_ptr = construct_data + storage_view.size; + + // Construct new element. + AllocatorTraits<A>::construct(GetAllocator(), last_ptr, + std::forward<Args>(args)...); + // Move elements from old backing store to new backing store. + ABSL_INTERNAL_TRY { + ConstructElements<A>(GetAllocator(), allocation_tx.GetData(), move_values, + storage_view.size); } - - pointer last_ptr = construct_data + storage_view.size; - - AllocatorTraits::construct(*GetAllocPtr(), last_ptr, - std::forward<Args>(args)...); - - if (allocation_tx.DidAllocate()) { - ABSL_INTERNAL_TRY { - inlined_vector_internal::ConstructElements( - GetAllocPtr(), allocation_tx.GetData(), &move_values, - storage_view.size); - } - ABSL_INTERNAL_CATCH_ANY { - AllocatorTraits::destroy(*GetAllocPtr(), last_ptr); - ABSL_INTERNAL_RETHROW; - } - - inlined_vector_internal::DestroyElements(GetAllocPtr(), storage_view.data, - storage_view.size); - - DeallocateIfAllocated(); - AcquireAllocatedData(&allocation_tx); - SetIsAllocated(); + ABSL_INTERNAL_CATCH_ANY { + AllocatorTraits<A>::destroy(GetAllocator(), last_ptr); + ABSL_INTERNAL_RETHROW; } + // Destroy elements in old backing store. + DestroyElements<A>(GetAllocator(), storage_view.data, storage_view.size); + DeallocateIfAllocated(); + SetAllocation(std::move(allocation_tx).Release()); + SetIsAllocated(); AddSize(1); return *last_ptr; } template <typename T, size_t N, typename A> -auto Storage<T, N, A>::Erase(const_iterator from, const_iterator to) - -> iterator { - StorageView storage_view = MakeStorageView(); +auto Storage<T, N, A>::Erase(ConstIterator<A> from, ConstIterator<A> to) + -> Iterator<A> { + StorageView<A> storage_view = MakeStorageView(); - size_type erase_size = std::distance(from, to); - size_type erase_index = - std::distance(const_iterator(storage_view.data), from); - size_type erase_end_index = erase_index + erase_size; + SizeType<A> erase_size = std::distance(from, to); + SizeType<A> erase_index = + std::distance(ConstIterator<A>(storage_view.data), from); + SizeType<A> erase_end_index = erase_index + erase_size; - IteratorValueAdapter<MoveIterator> move_values( - MoveIterator(storage_view.data + erase_end_index)); + IteratorValueAdapter<A, MoveIterator<A>> move_values( + MoveIterator<A>(storage_view.data + erase_end_index)); - inlined_vector_internal::AssignElements(storage_view.data + erase_index, - &move_values, - storage_view.size - erase_end_index); + AssignElements<A>(storage_view.data + erase_index, move_values, + storage_view.size - erase_end_index); - inlined_vector_internal::DestroyElements( - GetAllocPtr(), storage_view.data + (storage_view.size - erase_size), - erase_size); + DestroyElements<A>(GetAllocator(), + storage_view.data + (storage_view.size - erase_size), + erase_size); SubtractSize(erase_size); - return iterator(storage_view.data + erase_index); + return Iterator<A>(storage_view.data + erase_index); } template <typename T, size_t N, typename A> -auto Storage<T, N, A>::Reserve(size_type requested_capacity) -> void { - StorageView storage_view = MakeStorageView(); +auto Storage<T, N, A>::Reserve(SizeType<A> requested_capacity) -> void { + StorageView<A> storage_view = MakeStorageView(); if (ABSL_PREDICT_FALSE(requested_capacity <= storage_view.capacity)) return; - AllocationTransaction allocation_tx(GetAllocPtr()); + AllocationTransaction<A> allocation_tx(GetAllocator()); - IteratorValueAdapter<MoveIterator> move_values( - MoveIterator(storage_view.data)); + IteratorValueAdapter<A, MoveIterator<A>> move_values( + MoveIterator<A>(storage_view.data)); - size_type new_capacity = + SizeType<A> new_requested_capacity = ComputeCapacity(storage_view.capacity, requested_capacity); - pointer new_data = allocation_tx.Allocate(new_capacity); + Pointer<A> new_data = allocation_tx.Allocate(new_requested_capacity); - inlined_vector_internal::ConstructElements(GetAllocPtr(), new_data, - &move_values, storage_view.size); + ConstructElements<A>(GetAllocator(), new_data, move_values, + storage_view.size); - inlined_vector_internal::DestroyElements(GetAllocPtr(), storage_view.data, - storage_view.size); + DestroyElements<A>(GetAllocator(), storage_view.data, storage_view.size); DeallocateIfAllocated(); - AcquireAllocatedData(&allocation_tx); + SetAllocation(std::move(allocation_tx).Release()); SetIsAllocated(); } @@ -782,41 +816,44 @@ auto Storage<T, N, A>::ShrinkToFit() -> void { // May only be called on allocated instances! assert(GetIsAllocated()); - StorageView storage_view{GetAllocatedData(), GetSize(), - GetAllocatedCapacity()}; + StorageView<A> storage_view{GetAllocatedData(), GetSize(), + GetAllocatedCapacity()}; if (ABSL_PREDICT_FALSE(storage_view.size == storage_view.capacity)) return; - AllocationTransaction allocation_tx(GetAllocPtr()); + AllocationTransaction<A> allocation_tx(GetAllocator()); - IteratorValueAdapter<MoveIterator> move_values( - MoveIterator(storage_view.data)); + IteratorValueAdapter<A, MoveIterator<A>> move_values( + MoveIterator<A>(storage_view.data)); - pointer construct_data; + Pointer<A> construct_data; if (storage_view.size > GetInlinedCapacity()) { - size_type new_capacity = storage_view.size; - construct_data = allocation_tx.Allocate(new_capacity); + SizeType<A> requested_capacity = storage_view.size; + construct_data = allocation_tx.Allocate(requested_capacity); + if (allocation_tx.GetCapacity() >= storage_view.capacity) { + // Already using the smallest available heap allocation. + return; + } } else { construct_data = GetInlinedData(); } ABSL_INTERNAL_TRY { - inlined_vector_internal::ConstructElements(GetAllocPtr(), construct_data, - &move_values, storage_view.size); + ConstructElements<A>(GetAllocator(), construct_data, move_values, + storage_view.size); } ABSL_INTERNAL_CATCH_ANY { - SetAllocatedData(storage_view.data, storage_view.capacity); + SetAllocation({storage_view.data, storage_view.capacity}); ABSL_INTERNAL_RETHROW; } - inlined_vector_internal::DestroyElements(GetAllocPtr(), storage_view.data, - storage_view.size); + DestroyElements<A>(GetAllocator(), storage_view.data, storage_view.size); - AllocatorTraits::deallocate(*GetAllocPtr(), storage_view.data, - storage_view.capacity); + MallocAdapter<A>::Deallocate(GetAllocator(), storage_view.data, + storage_view.capacity); if (allocation_tx.DidAllocate()) { - AcquireAllocatedData(&allocation_tx); + SetAllocation(std::move(allocation_tx).Release()); } else { UnsetIsAllocated(); } @@ -834,57 +871,60 @@ auto Storage<T, N, A>::Swap(Storage* other_storage_ptr) -> void { Storage* large_ptr = other_storage_ptr; if (small_ptr->GetSize() > large_ptr->GetSize()) swap(small_ptr, large_ptr); - for (size_type i = 0; i < small_ptr->GetSize(); ++i) { + for (SizeType<A> i = 0; i < small_ptr->GetSize(); ++i) { swap(small_ptr->GetInlinedData()[i], large_ptr->GetInlinedData()[i]); } - IteratorValueAdapter<MoveIterator> move_values( - MoveIterator(large_ptr->GetInlinedData() + small_ptr->GetSize())); + IteratorValueAdapter<A, MoveIterator<A>> move_values( + MoveIterator<A>(large_ptr->GetInlinedData() + small_ptr->GetSize())); - inlined_vector_internal::ConstructElements( - large_ptr->GetAllocPtr(), - small_ptr->GetInlinedData() + small_ptr->GetSize(), &move_values, - large_ptr->GetSize() - small_ptr->GetSize()); + ConstructElements<A>(large_ptr->GetAllocator(), + small_ptr->GetInlinedData() + small_ptr->GetSize(), + move_values, + large_ptr->GetSize() - small_ptr->GetSize()); - inlined_vector_internal::DestroyElements( - large_ptr->GetAllocPtr(), - large_ptr->GetInlinedData() + small_ptr->GetSize(), - large_ptr->GetSize() - small_ptr->GetSize()); + DestroyElements<A>(large_ptr->GetAllocator(), + large_ptr->GetInlinedData() + small_ptr->GetSize(), + large_ptr->GetSize() - small_ptr->GetSize()); } else { Storage* allocated_ptr = this; Storage* inlined_ptr = other_storage_ptr; if (!allocated_ptr->GetIsAllocated()) swap(allocated_ptr, inlined_ptr); - StorageView allocated_storage_view{allocated_ptr->GetAllocatedData(), - allocated_ptr->GetSize(), - allocated_ptr->GetAllocatedCapacity()}; + StorageView<A> allocated_storage_view{ + allocated_ptr->GetAllocatedData(), allocated_ptr->GetSize(), + allocated_ptr->GetAllocatedCapacity()}; - IteratorValueAdapter<MoveIterator> move_values( - MoveIterator(inlined_ptr->GetInlinedData())); + IteratorValueAdapter<A, MoveIterator<A>> move_values( + MoveIterator<A>(inlined_ptr->GetInlinedData())); ABSL_INTERNAL_TRY { - inlined_vector_internal::ConstructElements( - inlined_ptr->GetAllocPtr(), allocated_ptr->GetInlinedData(), - &move_values, inlined_ptr->GetSize()); + ConstructElements<A>(inlined_ptr->GetAllocator(), + allocated_ptr->GetInlinedData(), move_values, + inlined_ptr->GetSize()); } ABSL_INTERNAL_CATCH_ANY { - allocated_ptr->SetAllocatedData(allocated_storage_view.data, - allocated_storage_view.capacity); + allocated_ptr->SetAllocation( + {allocated_storage_view.data, allocated_storage_view.capacity}); ABSL_INTERNAL_RETHROW; } - inlined_vector_internal::DestroyElements(inlined_ptr->GetAllocPtr(), - inlined_ptr->GetInlinedData(), - inlined_ptr->GetSize()); + DestroyElements<A>(inlined_ptr->GetAllocator(), + inlined_ptr->GetInlinedData(), inlined_ptr->GetSize()); - inlined_ptr->SetAllocatedData(allocated_storage_view.data, - allocated_storage_view.capacity); + inlined_ptr->SetAllocation( + {allocated_storage_view.data, allocated_storage_view.capacity}); } swap(GetSizeAndIsAllocated(), other_storage_ptr->GetSizeAndIsAllocated()); - swap(*GetAllocPtr(), *other_storage_ptr->GetAllocPtr()); + swap(GetAllocator(), other_storage_ptr->GetAllocator()); } +// End ignore "array-bounds" and "maybe-uninitialized" +#if !defined(__clang__) && defined(__GNUC__) +#pragma GCC diagnostic pop +#endif + } // namespace inlined_vector_internal ABSL_NAMESPACE_END } // namespace absl |