/usr/include/ace/Value_Ptr.h is in libace-dev 6.0.1-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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//==========================================================================
/**
* @file Value_Ptr.h
*
* $Id: Value_Ptr.h 92386 2010-10-28 07:44:37Z johnnyw $
*
* Value_Ptr implementation based on code in Herb Sutter's book "More
* Exceptional C++".
*
* @author Ossama Othman <ossama@dre.vanderbilt.edu>
*/
//==========================================================================
#ifndef ACE_VALUE_PTR_H
#define ACE_VALUE_PTR_H
#include "ace/config-lite.h"
#include <algorithm>
ACE_BEGIN_VERSIONED_NAMESPACE_DECL
namespace ACE
{
/**
* @struct VP_traits
*
* @brief @c Value_Ptr traits template structure.
*
* The @c Value_Ptr template class delegates some operations to this
* template traits structure.
*
* Specialize this trait template if cloning through copy
* construction is not sufficient. For example, to avoid slicing
* when copying an object through a base class pointer, one can
* implement a virtual "clone" method that can be used to
* polymorphically invoke the appropriate cloning operation(s).
* That virtual method would then be invoked by the @c VP_traits\<\>
* specialization.
*/
template <typename T>
struct VP_traits
{
/// Copy the given object.
static T * clone (T const * p) { return new T (*p); }
};
/**
* @class Value_Ptr
*
* @brief Smart pointer implementation designed for use as a class
* member.
*
* Using a @c std::auto_ptr\<\> as a class member is sometimes
* problematic since ownership of memory is transferred when copying
* such members. This @c Value_Ptr class is explicitly designed to
* avoid such problems by performing copies of the underlying object
* rather than transfer ownership. This, for example, allows it to
* be readily used as a member in classes placed inside STL
* containers.
*
* @see Item 31 in "More Exceptional C++" by Herb Sutter.
*/
template <typename T>
class Value_Ptr
{
public:
/// Constructor.
explicit Value_Ptr (T * p = 0) : p_ (p) { }
/// Destructor.
~Value_Ptr (void) { delete this->p_; }
/// Deference operator.
T & operator* (void) const { return *this->p_; }
/// Pointer operator.
T * operator-> (void) const { return this->p_; }
/// Non-throwing swap operation used to make assignment strongly
/// exception-safe.
/**
* @note As implemented, the swap operation may not work correctly
* for @c auto_ptr\<\>s, but why would one use an @c
* auto_ptr\<\> as the template argument for this particular
* template class!?
*/
void swap (Value_Ptr & other) { std::swap (this->p_, other.p_); }
/// Copy constructor.
Value_Ptr (Value_Ptr const & other)
: p_ (create_from (other.p_)) { }
/// Assignment operator.
Value_Ptr & operator= (Value_Ptr const & other)
{
// Strongly exception-safe.
Value_Ptr temp (other);
this->swap (temp);
return *this;
}
/// Converting copy constructor.
template <typename U>
Value_Ptr (Value_Ptr<U> const & other)
: p_ (create_from (other.p_)) { }
/// Converting assignment operator.
template <typename U>
Value_Ptr & operator= (Value_Ptr<U> const & other)
{
// Strongly exception-safe.
Value_Ptr temp (other);
this->swap (temp);
return *this;
}
private:
/// Copying method invoked when copy constructing.
template <typename U>
T * create_from (U const * p) const
{
return p ? VP_traits<U>::clone (p) : 0;
}
private:
template <typename U> friend class Value_Ptr;
/// Object owned by this @c Value_Ptr.
T * p_;
};
}
ACE_END_VERSIONED_NAMESPACE_DECL
#endif /* ACE_VALUE_PTR_H */
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