auto_ptr Class

 

The latest version of this topic can be found at auto_ptr Class.

Wraps a smart pointer around a resource that ensures the resource is destroyed automatically when control leaves a block.

The more capable unique_ptr class supersedes auto_ptr. For more information, see unique_ptr Class.

For more information about throw() and exception handling, see Exception Specifications (throw).

Syntax

class auto_ptr {  
  public:  
  typedef Type element_type;  
  explicit auto_ptr(Type* ptr = 0) throw();
  auto_ptr(auto_ptr<Type>& right) throw()
  ;  
  template <class Other>  
  operator auto_ptr<Other>() throw();
  template <class Other>  
  auto_ptr<Type>& operator=(auto_ptr<Other>& right) throw();
  template <class Other>  
  auto_ptr(auto_ptr<Other>& right);
  auto_ptr<Type>& operator=(auto_ptr<Type>& right);
  ~auto_ptr();
  Type& operator*() const throw();
  Type * operator->()const throw();
  Type *get() const throw();
  Type *release()throw();
  void reset(Type* ptr = 0);
  };  

Parameters

right
The auto_ptr from which to get an existing resource.

ptr
The pointer specified to replace the stored pointer.

Remarks

The template class describes a smart pointer, called an auto_ptr, to an allocated object. The pointer must be either null or designate an object allocated by new. The auto_ptr transfers ownership if its stored value is assigned to another object. (It replaces the stored value after a transfer with a null pointer.) The destructor for auto_ptr<Type> deletes the allocated object. The auto_ptr<Type> ensures that an allocated object is automatically deleted when control leaves a block, even through a thrown exception. You should not construct two auto_ptr<Type> objects that own the same object.

You can pass an auto_ptr<Type> object by value as an argument to a function call. An auto_ptr cannot be an element of any Standard Library container. You cannot reliably manage a sequence of auto_ptr<Type> objects with a Standard Template Library container.

Members

Constructors

auto_ptr The constructor for objects of type auto_ptr.

Typedefs

element_type The type is a synonym for the template parameter Type.

Member Functions

get The member function returns the stored pointer myptr.
release The member replaces the stored pointer myptr with a null pointer and returns the previously stored pointer.
reset The member function evaluates the expression delete myptr, but only if the stored pointer value myptr changes as a result of function call. It then replaces the stored pointer with ptr.

Operators

operator= An assignment operator that transfers ownership from one auto_ptr object to another.
operator* The dereferencing operator for objects of type auto_ptr.
operator-> The operator for allowing member access.
operator auto_ptr<Other> Casts from one kind of auto_ptr to another kind of auto_ptr.
operator auto_ptr_ref<Other> Casts from an auto_ptr to an auto_ptr_ref.

Requirements

Header: <memory>

Namespace: std

auto_ptr::auto_ptr

The constructor for objects of type auto_ptr.

 
explicit auto  
_  
ptr(Type* 
    ptr 
= 0) throw();

auto  
_  
ptr(auto 
_  
ptr<Type>& 
    right) throw();

auto  
_  
ptr(auto 
_  
ptr  
_  
ref<Type>   
    right) throw();

template <class Other>  
auto 
_  
ptr(auto 
_  
ptr<Other>& 
    right) throw();

Parameters

ptr
The pointer to the object that auto_ptr encapsulates.

right
The auto_ptr object to be copied by the constructor.

Remarks

The first constructor stores ptr in myptr, the stored pointer to the allocated object. The second constructor transfers ownership of the pointer stored in right, by storing right. release in myptr.

The third constructor behaves the same as the second, except that it stores right. ref. release in myptr, where ref is the reference stored in right.

The template constructor behaves the same as the second constructor, provided that a pointer to Other can be implicitly converted to a pointer to Type.

Example

// auto_ptr_auto_ptr.cpp  
// compile with: /EHsc  
#include <memory>  
#include <iostream>  
#include <vector>  
  
using namespace std;  
  
class Int   
{  
public:  
   Int(int i)   
   {  
      cout << "Constructing " << ( void* )this  << endl;   
      x = i;  
      bIsConstructed = true;  
   };  
   ~Int( )   
   {  
      cout << "Destructing " << ( void* )this << endl;   
      bIsConstructed = false;  
   };  
   Int &operator++( )   
   {  
      x++;  
      return *this;  
   };  
   int x;  
private:  
   bool bIsConstructed;  
};  
  
void function ( auto_ptr<Int> &pi )  
{  
   ++( *pi );  
   auto_ptr<Int> pi2( pi );  
   ++( *pi2 );  
   pi = pi2;  
}  
  
int main( )   
{  
   auto_ptr<Int> pi ( new Int( 5 ) );  
   cout << pi->x << endl;  
   function( pi );  
   cout << pi->x << endl;  
}  
Constructing 00311AF8  
5  
7  
Destructing 00311AF8  

auto_ptr::element_type

The type is a synonym for the template parameter Type.

 
typedef Type element  
_  
type;  

auto_ptr::get

The member function returns the stored pointer myptr.

 
Type *get() const throw();

Return Value

The stored pointer myptr.

Example

// auto_ptr_get.cpp  
// compile with: /EHsc  
#include <memory>  
#include <iostream>  
#include <vector>  
using namespace std;  
  
class Int   
{  
public:  
   Int(int i)   
   {  
      x = i;  
      cout << "Constructing " << ( void* )this  << " Value: " << x << endl;   
   };  
   ~Int( )   
   {  
      cout << "Destructing " << ( void* )this << " Value: " << x << endl;   
   };  
  
   int x;  
  
};  
  
int main( )   
{  
   auto_ptr<Int> pi ( new Int( 5 ) );  
   pi.reset( new Int( 6 ) );  
   Int* pi2 = pi.get ( );  
   Int* pi3 = pi.release ( );  
   if (pi2 == pi3)  
      cout << "pi2 == pi3" << endl;  
   delete pi3;  
}  
Constructing 00311AF8 Value: 5  
Constructing 00311B88 Value: 6  
Destructing 00311AF8 Value: 5  
pi2 == pi3  
Destructing 00311B88 Value: 6  

auto_ptr::operator=

An assignment operator that transfers ownership from one auto_ptr object to another.

template <class Other>  
auto_ptr<Type>& operator=(auto_ptr<Other>& right) throw();

auto_ptr<Type>& operator=(auto_ptr<Type>& right) throw();

auto_ptr<Type>& operator=(auto_ptr_ref<Type>  
right) throw();

Parameters

right
An object of type auto_ptr.

Return Value

A reference to an object of type auto_ptr< Type>.

Remarks

The assignment evaluates the expression delete myptr, but only if the stored pointer myptr changes as a result of the assignment. It then transfers ownership of the pointer stored in _ Right, by storing _ Right. release in myptr. The function returns *this.

Example

For an example of the use of the member operator, see auto_ptr::auto_ptr.

auto_ptr::operator*

The dereferencing operator for objects of type auto_ptr.

 
Type& operator*() const throw();

Return Value

A reference to an object of type Type that the pointer owns.

Remarks

The indirection operator returns *get. Hence, the stored pointer must not be null.

Example

For an example of how to use the member function, see auto_ptr::auto_ptr.

auto_ptr::operator->

The operator for allowing member access.

 
Type * operator->() const throw();

Return Value

A member of the object that auto_ptr owns.

Remarks

The selection operator returns get( ), so that the expression ap-> member behaves the same as ( ap. get( ) )-> member, where ap is an object of class auto_ptr< Type>. Hence, the stored pointer must not be null, and Type must be a class, struct, or union type with a member member.

Example

For an example of how to use the member function, see auto_ptr::auto_ptr.

auto_ptr::operator auto_ptr<Other>

Casts from one kind of auto_ptr to another kind of auto_ptr.

 
template <class Other>  
operator auto 
_  
ptr<Other>() throw();

Return Value

The type cast operator returns auto_ptr < Other>( *this).

Example

// auto_ptr_op_auto_ptr.cpp  
// compile with: /EHsc  
#include <memory>  
#include <iostream>  
#include <vector>  
  
using namespace std;  
int main()  
{  
   auto_ptr<int> pi ( new int( 5 ) );  
   auto_ptr<const int> pc = ( auto_ptr<const int> )pi;  
}  

auto_ptr::operator auto_ptr_ref<Other>

Casts from an auto_ptr to an auto_ptr_ref.

 
template <class Other>  
operator auto 
_  
ptr  
_  
ref<Other>() throw();

Return Value

The type cast operator returns auto_ptr_ref< Other>( *this).

Example

// auto_ptr_op_auto_ptr_ref.cpp  
// compile with: /EHsc  
#include <memory>  
#include <iostream>  
#include <vector>  
  
using namespace std;  
  
class C{  
   public:  
   C(int _i) : m_i(_i){  
   }  
   ~C(){  
      cout << "~C:  "<< m_i <<"\n";  
   }  
   C &operator =(const int &x){  
      m_i = x;  
      return *this;  
   }  
   int m_i;  
};  
void f(auto_ptr<C> arg ){  
};  
int main()  
{  
   const auto_ptr<C> ciap ( new C(1) );  
   auto_ptr<C> iap ( new C(2) );  
  
   // Error: this implies transfer of ownership of iap's pointer  
   // f(ciap);   
   f(iap); // compiles, but gives up ownership of pointer  
  
   // here, iap owns a destroyed pointer so the following is bad:  
   // *iap = 5; // BOOM  
  
   cout << "main exiting\n";  
}  
~C:  2  
main exiting  
~C:  1  

auto_ptr::release

The member replaces the stored pointer myptr with a null pointer and returns the previously stored pointer.

 
Type *release() throw();

Return Value

The previously stored pointer.

Remarks

The member replaces the stored pointer myptr with a null pointer and returns the previously stored pointer.

Example

// auto_ptr_release.cpp  
// compile with: /EHsc  
#include <memory>  
#include <iostream>  
#include <vector>  
using namespace std;  
  
class Int   
{  
public:  
   Int( int i )   
   {  
      x = i;  
      cout << "Constructing " << ( void* )this << " Value: " << x << endl;   
   };  
   ~Int( ) {  
      cout << "Destructing " << ( void* )this << " Value: " << x << endl;   
   };  
  
   int x;  
  
};  
  
int main( )   
{  
   auto_ptr<Int> pi ( new Int( 5 ) );  
   pi.reset( new Int( 6 ) );  
   Int* pi2 = pi.get ( );  
   Int* pi3 = pi.release ( );  
   if ( pi2 == pi3 )  
      cout << "pi2 == pi3" << endl;  
   delete pi3;  
}  
Constructing 00311AF8 Value: 5  
Constructing 00311B88 Value: 6  
Destructing 00311AF8 Value: 5  
pi2 == pi3  
Destructing 00311B88 Value: 6  

auto_ptr::reset

The member function evaluates the expression delete myptr, but only if the stored pointer value myptr changes as a result of a function call. It then replaces the stored pointer with ptr.

 
void reset(Type* 
    ptr = 0);

Parameters

ptr
The pointer specified to replace the stored pointer myptr.

Example

// auto_ptr_reset.cpp  
// compile with: /EHsc  
#include <memory>  
#include <iostream>  
#include <vector>  
  
using namespace std;  
  
class Int   
{  
public:  
   Int( int i )   
   {  
      x = i;  
      cout << "Constructing " << ( void* )this << " Value: " << x << endl;   
   };  
   ~Int( )   
   {  
      cout << "Destructing " << ( void* )this << " Value: " << x << endl;   
   };  
  
   int x;  
};  
  
int main( )   
{  
   auto_ptr<Int> pi ( new Int( 5 ) );  
   pi.reset( new Int( 6 ) );  
   Int* pi2 = pi.get ( );  
   Int* pi3 = pi.release ( );  
   if ( pi2 == pi3 )  
      cout << "pi2 == pi3" << endl;  
   delete pi3;  
}  
Constructing 00311AF8 Value: 5  
Constructing 00311B88 Value: 6  
Destructing 00311AF8 Value: 5  
pi2 == pi3  
Destructing 00311B88 Value: 6  

See Also

Thread Safety in the C++ Standard Library
unique_ptr Class