std::allocate_shared, std::allocate_shared_for_overwrite
Defined in header <memory>
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template< class T, class Alloc, class... Args > shared_ptr<T> allocate_shared( const Alloc& alloc, Args&&... args ); |
(1) | (since C++11) (T is non-array) |
template< class T, class Alloc > shared_ptr<T> allocate_shared( const Alloc& alloc, std::size_t N ); |
(2) | (since C++20) (T is U[]) |
template< class T, class Alloc > shared_ptr<T> allocate_shared( const Alloc& alloc ); |
(3) | (since C++20) (T is U[N]) |
template< class T, class Alloc > shared_ptr<T> allocate_shared( const Alloc& alloc, std::size_t N, |
(4) | (since C++20) (T is U[]) |
template< class T, class Alloc > shared_ptr<T> allocate_shared( const Alloc& alloc, |
(5) | (since C++20) (T is U[N]) |
template< class T, class Alloc > shared_ptr<T> allocate_shared_for_overwrite( const Alloc& alloc ); |
(6) | (since C++20) (T is not U[]) |
template< class T, class Alloc > shared_ptr<T> allocate_shared_for_overwrite( const Alloc& alloc, std::size_t N ); |
(7) | (since C++20) (T is U[]) |
T
and wraps it in a std::shared_ptr using args as the parameter list for the constructor of T
. The object is constructed as if by the expression ::new (pv) T(v)(until C++20)std::allocator_traits<A2>::construct(a, pv, v)(since C++20), where pv
is an internal void* pointer to storage suitable to hold an object of type T
and a
is a copy of the allocator rebound to std::remove_cv_t<T>. The storage is typically larger than sizeof(T)
in order to use one allocation for both the control block of the shared pointer and the T
object. The std::shared_ptr constructor called by this function enables shared_from_this
with a pointer to the newly constructed object of type T
. All memory allocation is done using a copy of alloc, which must satisfy the Allocator requirements. This overload participates in overload resolution only if T is not an array type.a2
of type A2
is the copy of the allocator rebound to manage objects of type std::remove_cv_t<std::remove_all_extents_t<T>>. The overload (2) creates an array of size N along its first dimension. The array elements are initialized in ascending order of their addresses, and when their lifetime ends are destroyed in the reverse order of their original construction.T
is not an array type and (3) if T
is U[N]
, except that the created object is default-initialized.For allocate_shared
, the object (or the individual array elements for (2-5))(since C++20) are destroyed via the expression std::allocator_traits<A2>::destroy(a, p), where p
is a pointer to the object and a
is a copy of the allocator passed to allocate_shared
, rebound to the type of the object being destroyed.
For |
(since C++20) |
Parameters
alloc | - | the Allocator to use |
args... | - | list of arguments with which an instance of T will be constructed
|
N | - | array size to use |
u | - | the initial value to initialize every element of the array |
Return value
std::shared_ptr of an instance of type T
.
Exceptions
Can throw the exceptions thrown from Alloc::allocate() or from the constructor of T
. If an exception is thrown, (1) has no effect. If an exception is thrown during the construction of the array, already-initialized elements are destroyed in reverse order(since C++20).
Notes
Like std::make_shared, this function typically performs only one allocation, and places both the T
object and the control block in the allocated memory block (the standard recommends but does not require this, all known implementations do this). A copy of alloc is stored as part of the control block so that it can be used to deallocate it once both shared and weak reference counts reach zero.
Unlike the std::shared_ptr
constructors
, std::allocate_shared
does not accept a separate custom deleter: the supplied allocator is used for destruction of the control block and the T
object, and for deallocation of their shared memory block.
std::shared_ptr supports array types (as of C++17), but |
(until C++20) |
A constructor enables shared_from_this
with a pointer ptr of type U*
means that it determines if U
has an unambiguous and accessible(since C++17) base class that is a specialization of std::enable_shared_from_this, and if so, the constructor evaluates
if (ptr != nullptr && ptr->weak_this
.expired())
ptr->weak_this
= std::shared_ptr<std::remove_cv_t<U>>
(*this, const_cast<std::remove_cv_t<U>*>(ptr));
.
The assignment to the weak_this
is not atomic and conflicts with any potentially concurrent access to the same object. This ensures that future calls to shared_from_this() would share ownership with the std::shared_ptr created by this raw pointer constructor.
The test ptr->weak_this
.expired() in the code above makes sure that weak_this
is not reassigned if it already indicates an owner. This test is required as of C++17.
Feature-test macro | Value | Std | Feature |
---|---|---|---|
__cpp_lib_smart_ptr_for_overwrite |
202002L | (C++20) | Smart pointer creation with default initialization (std::allocate_shared_for_overwrite , std::make_shared_for_overwrite, std::make_unique_for_overwrite); overloads (6,7)
|
Example
#include <cstddef> #include <iostream> #include <memory> #include <memory_resource> #include <vector> class Value { int i; public: Value(int i) : i(i) { std::cout << "Value(), i = " << i << '\n'; } ~Value() { std::cout << "~Value(), i = " << i << '\n'; } void print() const { std::cout << "i = " << i << '\n'; } }; int main() { // Create a polymorphic allocator using the monotonic buffer resource std::byte buffer[sizeof(Value) * 8]; std::pmr::monotonic_buffer_resource resource(buffer, sizeof(buffer)); std::pmr::polymorphic_allocator<Value> allocator(&resource); std::vector<std::shared_ptr<Value>> v; for (int i{}; i != 4; ++i) // Use std::allocate_shared with the custom allocator v.emplace_back(std::allocate_shared<Value>(allocator, i)); for (const auto& sp : v) sp->print(); } //< All shared pointers will automatically clean up when they go out of scope.
Output:
Value(), i = 0 Value(), i = 1 Value(), i = 2 Value(), i = 3 i = 0 i = 1 i = 2 i = 3 ~Value(), i = 0 ~Value(), i = 1 ~Value(), i = 2 ~Value(), i = 3
See also
constructs new shared_ptr (public member function) | |
creates a shared pointer that manages a new object (function template) |