std::aligned_storage
Defined in header <type_traits>
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template< std::size_t Len, std::size_t Align = /*default-alignment*/ > struct aligned_storage; |
(since C++11) (deprecated in C++23) |
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Provides the nested type type
, which is a trivial standard-layout type suitable for use as uninitialized storage for any object whose size is at most Len
and whose alignment requirement is a divisor of Align
.
The default value of Align
is the most stringent (the largest) alignment requirement for any object whose size is at most Len
. If the default value is not used, Align
must be the value of alignof(T) for some type T
, or the behavior is undefined.
The behavior is undefined if Len == 0.
It is implementation-defined whether any extended alignment is supported.
The behavior of a program that adds specializations for aligned_storage
is undefined.
Member types
Name | Definition |
type
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a trivial and standard-layout type of at least size Len with alignment requirement Align
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Helper types
template< std::size_t Len, std::size_t Align = /*default-alignment*/ > using aligned_storage_t = typename aligned_storage<Len, Align>::type; |
(since C++14) (deprecated in C++23) |
|
Notes
The type defined by std::aligned_storage<>::type
can be used to create uninitialized memory blocks suitable to hold the objects of given type, optionally aligned stricter than their natural alignment requirement, for example on a cache or page boundary.
As with any other uninitialized storage, the objects are created using placement new and destroyed with explicit destructor calls.
Possible implementation
Except for default argument, aligned_storage is expressible in terms of alignas:
template<std::size_t Len, std::size_t Align = /* default alignment not implemented */> struct aligned_storage { struct type { alignas(Align) unsigned char data[Len]; }; }; |
Example
A primitive static vector class, demonstrating creation, access, and destruction of objects in aligned storage
#include <new> #include <iostream> #include <type_traits> #include <string> template<class T, std::size_t N> class static_vector { // properly aligned uninitialized storage for N T's std::aligned_storage_t<sizeof(T), alignof(T)> data[N]; std::size_t m_size = 0; public: // Create an object in aligned storage template<typename ...Args> void emplace_back(Args&&... args) { if( m_size >= N ) // possible error handling throw std::bad_alloc{}; // construct value in memory of aligned storage // using inplace operator new ::new(&data[m_size]) T(std::forward<Args>(args)...); ++m_size; } // Access an object in aligned storage const T& operator[](std::size_t pos) const { // Note: std::launder is needed after the change of object model in P0137R1 return *std::launder(reinterpret_cast<const T*>(&data[pos])); } // Destroy objects from aligned storage ~static_vector() { for(std::size_t pos = 0; pos < m_size; ++pos) { // Note: std::launder is needed after the change of object model in P0137R1 std::destroy_at(std::launder(reinterpret_cast<T*>(&data[pos]))); } } }; int main() { static_vector<std::string, 10> v1; v1.emplace_back(5, '*'); v1.emplace_back(10, '*'); std::cout << v1[0] << '\n' << v1[1] << '\n'; }
Output:
***** **********
See also
alignas specifier(C++11)
|
specifies that the storage for the variable should be aligned by specific amount |
(C++11) |
obtains the type's alignment requirements (class template) |
(C++17) |
allocates aligned memory (function) |
(C++11)(deprecated in C++23) |
defines the type suitable for use as uninitialized storage for all given types (class template) |
(C++11) |
trivial type with alignment requirement as great as any other scalar type (typedef) |
(C++17) |
pointer optimization barrier (function template) |