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// -*- C++ -*-
//=============================================================================
/**
* @file Based_Pointer_T.h
*
* $Id$
*
* @author Dietrich Quehl <Dietrich.Quehl@med.siemens.de>
* @author Douglas C. Schmidt <schmidt@.cs.wustl.edu>
*/
//=============================================================================
#ifndef ACE_BASED_POINTER_T_H
#define ACE_BASED_POINTER_T_H
#include "ace/pre.h"
#include "ace/config-all.h"
#include "ace/Trace.h"
#if defined (_MSC_VER)
// Suppress warning e.g. "return type for
// 'ACE_Based_Pointer<long>::operator ->' is 'long *' (i.e., not a UDT
// or reference to a UDT. Will produce errors if applied using infix
// notation)"
#pragma warning(disable: 4284)
#endif /* _MSC_VER */
/**
* @class ACE_Based_Pointer_Basic
*
* @brief A proxy that keeps track of the relative offset of a "pointer"
* from its base address.
* This class makes it possible to transparently use "pointers" in
* shared memory as easily as programming with pointers to local
* memory. In particular, we don't need to ensure that the base
* addresses of all the pointers are mapped into separate
* processes at the same absolute memory base address.
*/
template <class CONCRETE>
class ACE_Based_Pointer_Basic
{
public:
/**
* This constructor initializes the <base_offset_> by asking the
* <ACE_BASED_POINTER_REPOSITORY> Singleton for the base address of
* the memory region within which it is instantiated. Two results
* are possible:
*
* 1. An <ACE_*_Memory_Pool> has stored a base address/size pair and the
* new based-pointer instance is located between the base address and
* the base address + size - 1. In this case, the repository
* returns the base address.
*
* 2. No suitable address/size pair was found. The repository
* assumes an address in the regular (not mapped) virtual address
* space of the process and returns 0. In this case, the
* based-pointer uses its address as an offset to it's base
* address 0.
*/
ACE_Based_Pointer_Basic (void);
/**
* Initialize this object using the <initial> pointer. This
* constructor initializes the <base_offset_> by asking the
* <ACE_BASED_POINTER_REPOSITORY> Singleton for the base address of
* the memory region within which it is instantiated. Three results
* are possible:
*
* 1. An <ACE_*_Memory_Pool> has stored a base address/size pair and the
* new based-pointer instance is located between the base address and
* the base address + size - 1. In this case, the repository
* returns the base address.
*
* 2. No suitable address/size pair was found. The repository
* assumes an address in the regular (not mapped) virtual address
* space of the process and returns 0. In this case, the
* based-pointer uses its address as an offset to its base
* address 0.
*
* 3. If <initial> is 0 then set the value of <target_> to -1, which
* indicates a "NULL" pointer.
*/
ACE_Based_Pointer_Basic (CONCRETE *initial);
/// Copy constructor.
ACE_Based_Pointer_Basic (const ACE_Based_Pointer_Basic<CONCRETE> &);
/// Constructor for know base address. <o> is only used to
/// resolve overload ambiguity.
ACE_Based_Pointer_Basic (const void *base_addr, int o);
/// Pseudo-assignment operator.
void operator = (CONCRETE *from);
/// Pseudo-assignment operator.
void operator = (const ACE_Based_Pointer_Basic<CONCRETE> &);
/// Dereference operator.
CONCRETE operator * (void) const;
/// Less than operator.
int operator < (const ACE_Based_Pointer_Basic<CONCRETE> &) const;
/// Less than or equal operator.
int operator <= (const ACE_Based_Pointer_Basic<CONCRETE> &) const;
/// Greater than operator.
int operator > (const ACE_Based_Pointer_Basic<CONCRETE> &) const;
/// Greater than or equal operator.
int operator >= (const ACE_Based_Pointer_Basic<CONCRETE> &) const;
/// Equality operator.
int operator == (const ACE_Based_Pointer_Basic<CONCRETE> &) const;
/// Inequality operator.
int operator != (const ACE_Based_Pointer_Basic<CONCRETE> &) const;
/// Subscript operator.
CONCRETE operator [](int index) const;
/// Increment operator.
void operator+= (int index);
/// Returns the underlying memory address of the smart pointer.
operator CONCRETE *() const;
/// Returns the underlying memory address of the smart pointer.
CONCRETE *addr (void) const;
/// Declare the dynamic allocation hooks.
ACE_ALLOC_HOOK_DECLARE;
/// Dump the state of the object.
void dump (void) const;
protected:
long target_;
/// Keep track of our offset from the base pointer.
long base_offset_;
};
/**
* @class ACE_Based_Pointer
*
* @brief A smart proxy that keeps track of the relative offset of a
* "pointer" from its base address.
*
* This class makes it possible to transparently use "pointers" in
* shared memory as easily as programming with pointers to local
* memory by overloading the C++ delegation operator ->().
*/
template <class CONCRETE>
class ACE_Based_Pointer : public ACE_Based_Pointer_Basic<CONCRETE>
{
public:
// = Initialization method.
/// Constructor. See constructor for <ACE_Based_Pointer_Basic> for
/// details.
ACE_Based_Pointer (void);
/// Initialize this object using the <initial> pointer. See
/// constructor for <ACE_Based_Pointer_Basic> for details.
ACE_Based_Pointer (CONCRETE *initial);
/// Initialize this object with known <base_addr>. <dummy> is
/// a dummy value used to resolve overload ambiguity and it
/// otherwise ignored.
ACE_Based_Pointer (const void *base_addr, int dummy);
/// Copy constructor (not implemented yet).
ACE_Based_Pointer (const ACE_Based_Pointer<CONCRETE> &);
/// Assignment operator.
void operator = (const ACE_Based_Pointer<CONCRETE> &);
/// Pseudo-assignment operator.
void operator = (CONCRETE *from);
/// The C++ "delegation operator".
CONCRETE *operator-> (void);
};
#if defined (__ACE_INLINE__)
#include "ace/Based_Pointer_T.i"
#endif /* __ACE_INLINE__ */
#if defined (ACE_TEMPLATES_REQUIRE_SOURCE)
#include "ace/Based_Pointer_T.cpp"
#endif /* ACE_TEMPLATES_REQUIRE_SOURCE */
#if defined (ACE_TEMPLATES_REQUIRE_PRAGMA)
#pragma implementation ("Based_Pointer_T.cpp")
#endif /* ACE_TEMPLATES_REQUIRE_PRAGMA */
#include "ace/post.h"
#endif /* ACE_BASED_POINTER_T_H */
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