std::default_delete
Defined in header <memory> | ||
---|---|---|
template< class T > struct default_delete; | (1) | (since C++11) |
template< class T > struct default_delete<T[]>; | (2) | (since C++11) |
std::default_delete
is the default destruction policy used by std::unique_ptr
when no deleter is specified.
1) The non-specialized default_delete
uses delete
to deallocate memory for a single object.
2) A partial specialization for array types that uses delete[]
is also provided.
Member functions
(constructor) | constructs a default_delete object (public member function) |
operator() | deletes the object or array (public member function) |
std::default_delete::default_delete
constexpr default_delete() noexcept = default; | (1) | |
template <class U> default_delete( const default_delete<U>& d ) noexcept; | (2) | (member only of primary default_delete template) |
template<class U> default_delete( const default_delete<U[]>& d) noexcept; | (3) | (since C++17) (member only of the array default_delete specialization) |
std::default_delete
object.std::default_delete
object from another std::default_delete
object. This constructor will only participate in overload resolution if U*
is implicitly convertible to T*
.std::default_delete<U[]>
object from another std::default_delete<U[]>
object. This constructor will only participate in overload resolution if U(*)[]
is implicitly convertible to T(*)[]
.Parameters
d | - | a deleter to copy from |
Notes
The converting constructor template of std::default_delete
makes possible the implicit conversion from std::unique_ptr<Derived>
to std::unique_ptr<Base>
.
std::default_delete::operator()
void operator()(T* ptr) const; | (1) | (as of C++17, no longer a member of the default_delete<T[]> template specialization) |
template <class U> void operator()(U* ptr) const; | (2) | (member only of default_delete<T[]> template specialization, but defined as deleted prior to C++17) |
1) Calls delete (primary template) or delete[] (array specialization) on ptr 2) Defined as deleted | (until C++17) |
1) Calls delete on ptr 2) Calls delete[] on ptr . This function will only participate in overload resolution if U(*)[] is implicitly convertible to T(*)[] . | (since C++17) |
In any case, if U is an incomplete type, the program is ill-formed.
Parameters
ptr | - | an object or array to delete |
Exceptions
No exception guarantees.
Invoking over Incomplete Types
At the point in the code the operator() is called, the type must be complete. In some implementations a static_assert
is used to make sure this is the case. The reason for this requirement is that calling delete on an incomplete type is undefined behavior in C++ if the complete class type has a nontrivial destructor or a deallocation function, as the compiler has no way of knowing whether such functions exist and must be invoked.
Example
#include <memory> #include <vector> #include <algorithm> int main() { // { // std::shared_ptr<int> shared_bad(new int[10]); // } // the destructor calls delete, undefined behavior { std::shared_ptr<int> shared_good(new int[10], std::default_delete<int[]> ()); } // the destructor calls delete[], ok { std::unique_ptr<int> ptr(new int(5)); } // unique_ptr<int> uses default_delete<int> { std::unique_ptr<int[]> ptr(new int[10]); } // unique_ptr<int[]> uses default_delete<int[]> // default_delete can be used anywhere a delete functor is needed std::vector<int*> v; for(int n = 0; n < 100; ++n) v.push_back(new int(n)); std::for_each(v.begin(), v.end(), std::default_delete<int>()); }
See also
(C++11) | smart pointer with unique object ownership semantics (class template) |
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