std::auto_ptr<T>::auto_ptr
explicit auto_ptr( X* p = 0 ) throw(); |
(1) | (deprecated in C++11) (removed in C++17) |
auto_ptr( auto_ptr& r ) throw(); |
(2) | (deprecated in C++11) (removed in C++17) |
template< class Y > auto_ptr( auto_ptr<Y>& r ) throw(); |
(3) | (deprecated in C++11) (removed in C++17) |
auto_ptr( auto_ptr_ref<X> m ) throw(); |
(4) | (deprecated in C++11) (removed in C++17) |
Constructs the auto_ptr from a pointer that refers to the object to manage.
auto_ptr with pointer
p.
auto_ptr with the pointer held in
r.
r.release() is called to acquire the ownership of the object.
Y* must be implicitly convertible to
T*.
auto_ptr with the pointer held in the
auto_ptr instance referred to by
m.
p.release() is called for the
auto_ptr p that
m holds to acquire the ownership of the object.
auto_ptr_ref is an implementation-defined type that holds a reference to
auto_ptr.
std::auto_ptr is implicitly
convertible to and
assignable from this type. The implementation is allowed to provide the template with a different name or implement equivalent functionality in other ways.
Parameters
| p | - | a pointer to an object to manage |
| r | - | another auto_ptr to transfer the ownership of the object from |
| m | - | an implementation-defined type that holds a reference to auto_ptr |
Notes
The constructor and the copy assignment operator from auto_ptr_ref is provided to allow copy-constructing and assigning std::auto_ptr from nameless temporaries. Since its copy constructor and copy assignment operator take the argument as non-const reference, they cannot bind rvalue arguments directly. However, a user-defined conversion can be executed (which releases the original auto_ptr), followed by a call to the constructor or copy-assignment operator that take auto_ptr_ref by value. This is an early implementation of move semantics.
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