/usr/include/scim-1.0/scim_pointer.h is in libscim-dev 1.4.15-6.
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* @brief Smart pointer class interface.
*
* Provides a reference-counted-object aware smart pointer class.
*
* Most code of this file are came from Inti project.
*/
/*
* Smart Common Input Method
*
* Copyright (c) 2002-2005 James Su <suzhe@tsinghua.org.cn>
* Copyright (c) 2002 The Inti Development Team.
*
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this program; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place, Suite 330,
* Boston, MA 02111-1307 USA
*
* $Id: scim_pointer.h,v 1.11 2005/01/10 08:30:54 suzhe Exp $
*/
#ifndef __SCIM_POINTER_H
#define __SCIM_POINTER_H
namespace scim {
/**
* @addtogroup Accessories
* @{
*/
/**
* @class Pointer
* @brief Smart pointer template class.
*
* Pointer is a standard auto_ptr-like smart pointer for managing heap
* allocated reference counted objects. T must be a class derived from
* scim::ReferencedObject.
*/
template <typename T>
class Pointer
{
T *t;
void set(T *object)
{
if (object)
{
if (!object->is_referenced())
object->ref();
object->set_referenced(false);
}
if (t)
t->unref();
t = object;
}
template<typename T1, typename T2>
friend bool operator == (const Pointer<T1>& t1, const Pointer<T2>& t2);
public:
//! @name Constructors
//! @{
Pointer(T *object = 0) : t(0)
{
set(object);
}
//!< Construct a new smart pointer.
//!< @param object - a pointer to an object allocated on the heap.
//!<
//!< <BR>Initialize a new Pointer with any dumb pointer.
Pointer(Pointer& src) : t(0)
{
set(src.get());
}
//!< Copy constructor.
//!< @param src - a reference to a smart pointer.
//!<
//!< <BR>Initialize a new Pointer with any compatible Pointer.
template <typename T1>
Pointer(const Pointer<T1>& src) : t(0)
{
set(src.get());
}
//!< Copy constructor.
//!< @param src - a Pointer to type T1 where T1 is derived from T.
//!<
//!< <BR>Initialize a new Pointer of type T from a Pointer of type T1,
//!< only if T1 is derived from T.
~Pointer()
{
set(0);
}
//!< Destructor.
//!< Decreases the object reference count.
Pointer& operator=(T *object)
{
set(object);
return *this;
}
//!< Assignment operator.
//!< @param object - a pointer to an object allocated on the heap.
//!<
//!< <BR>Releases the current dumb pointer, if any and assigns <EM>object</EM>
//!< to this Pointer, incrementing its reference count.
Pointer& operator=(const Pointer& src)
{
set(src.get());
return *this;
}
//!< Assignment operator.
//!< @param src - a reference to a smart pointer.
//!<
//!< <BR>Releases the current dumb pointer, if any and assigns the dumb pointer
//!< managed by <EM>src</EM> to this Pointer, incrementing its reference count.
template <typename T1>
Pointer& operator=(const Pointer<T1>& src)
{
set(src.get());
return *this;
}
//!< Assignment operator.
//!< @param src - a Pointer to type T1 where T1 is derived from T.
//!<
//!< <BR>Releases the current dumb pointer, if any and assigns the dumb pointer
//!< of type T1 managed by <EM>src</EM> to this Pointer as a dumb pointer of type T,
//!< only if T1 is derived from T. The reference count is incremented.
//! @}
//! @name Accessors
//! @{
T& operator*() const
{
return *get();
}
//!< Dereference operator.
//!< @return a reference to the object pointed to by the dumb pointer.
T* operator->() const
{
return get();
}
//!< Member selection operator.
//!< @return the dumb pointer.
operator T*() const
{
return get();
}
//!< Conversion operator.
//!< Converts a Pointer into its dumb pointer: the C pointer it manages.
//!< Normally it is considered pretty evil to mix smart and regular pointers.
//!< In scim you can safely if you just follow the reference counting rules
//!< for each of them. You can never call delete on Pointer either because
//!< you don't call delete on scim objects; you call unref().
T* get() const
{
return t;
}
//!< Returns the dumb pointer; the regular C pointer managed by the Pointer.
//!< @return the dumb pointer.
bool null() const
{
return t == 0;
}
//!< Returns true if the Pointer has no dumb pointer.
//! @}
//! @name Methods
//! @{
T* release()
{
T *tmp = t;
if (tmp)
tmp->ref();
set(0);
return tmp;
}
//!< Releases the dumb pointer.
//!< @return the regular C pointer previously managed by the Pointer.
//!<
//!< <BR>Before releasing the dumb pointer its reference count is incremented
//!< to prevent it being destroyed. You must call unref() on the pointer to
//!< prevent a memory leak.
void reset(T *object = 0)
{
set(object);
}
//!< Sets a new dumb pointer for the Pointer to manage.
//!< @param object - the new dumb pointer.
//!<
//!< <BR>Releases the current dumb pointer, if any, and assigns <EM>object</EM>
//!< to the Pointer, incrementing its reference count.
//! @}
};
//! @name Equality operators
//! @{
template<typename T1, typename T2>
inline bool operator == (const Pointer<T1>& t1, const Pointer<T2>& t2)
{
return t1.t == t2.t;
}
//!< Compares two Pointers.
//!< @return <EM>true</EM> if both Pointers manage to same dumb pointer.
template<typename T1, typename T2>
inline bool operator != (const Pointer<T1>& t1, const Pointer<T2>& t2)
{
return !(t1 == t2);
}
//!< Compares two Pointers.
//!< @return <EM>true</EM> if both Pointers manage a different dumb pointer.
//! @}
//! @name C++-style casting functions
//! @{
template <typename To, typename From>
inline Pointer<To>
cast_const(const Pointer<From>& from)
{
return Pointer<To>(from ? const_cast<To*>(from.get()) : 0);
}
//!< Removes the <EM>const</EM> qualifier from a managed const dumb pointer.
//!< @param from - a Pointer that manages a const dumb pointer.
//!< @return a new Pointer that manages the non-const dumb pointer.
//!<
//!< <BR>Calls <EM>const_cast</EM> on the dumb pointer and returns the non-const
//!< pointer as a new Pointer.
template <typename To, typename From>
inline Pointer<To>
cast_dynamic(const Pointer<From>& from)
{
return Pointer<To>(dynamic_cast<To*>(from.get()));
}
//!< Casts a managed polymophic dumb pointer down or across its inheritance heirarchy.
//!< @param from - a Pointer managing a polymophic dumb pointer of type From.
//!< @return a new Pointer managing the dumb pointer as a base or sibling pointer of type <EM>To</EM>.
//!<
//!< <BR>Calls <EM>dynmaic_cast</EM> to safely cast a managed polymophic dumb pointer
//!< of type <EM>From</EM> to a base, derived or sibling class pointer of type <EM>To</EM>.
template <typename To, typename From>
inline Pointer<To>
cast_static(const Pointer<From>& from)
{
return Pointer<To>(from ? static_cast<To*>(from.get()) : 0);
}
//!< Casts a managed dumb pointer to a pointer to a related type.
//!< @param from - a Pointer managing a dumb pointer of type From.
//!< @return a new Pointer managing the dumb pointer as a pointer of type <EM>To</EM>.
//!<
//!< <BR>Calls <EM>static_cast</EM> to cast a dumb pointer of type <EM>From</EM> to a
//!< pointer of type <EM>To</EM>.
//! @}
/** @} */
} // namespace scim
#endif //__SCIM_POINTER_H
/*
vi:ts=4:nowrap:ai:expandtab
*/
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