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// This may look like C, but it's really -*- C++ -*-
// $Id$
// ***************************************************
// Operations on the generic unbounded sequence class.
// ***************************************************
template <class T> ACE_INLINE T *
TAO_Unbounded_Sequence<T>::allocbuf (CORBA::ULong size)
{
return new T[size];
}
template <class T> ACE_INLINE void
TAO_Unbounded_Sequence<T>::freebuf (T *buffer)
{
delete [] buffer;
}
template <class T> ACE_INLINE
TAO_Unbounded_Sequence<T>::TAO_Unbounded_Sequence (void)
{
}
template <class T> ACE_INLINE
TAO_Unbounded_Sequence<T>::TAO_Unbounded_Sequence (CORBA::ULong maximum)
: TAO_Unbounded_Base_Sequence (maximum,
TAO_Unbounded_Sequence<T>::allocbuf (maximum))
{
}
template <class T> ACE_INLINE
TAO_Unbounded_Sequence<T>::TAO_Unbounded_Sequence (CORBA::ULong maximum,
CORBA::ULong length,
T *data,
CORBA::Boolean release)
: TAO_Unbounded_Base_Sequence (maximum, length, data, release)
{
}
template <class T> ACE_INLINE T *
TAO_Unbounded_Sequence<T>::get_buffer (CORBA::Boolean orphan)
{
T *result = 0;
if (orphan == 0)
{
// We retain ownership.
if (this->buffer_ == 0)
{
result = TAO_Unbounded_Sequence<T>::allocbuf (this->length_);
this->buffer_ = result;
}
else
{
result =
ACE_reinterpret_cast (T*, this->buffer_);
}
}
else // if (orphan == 1)
{
if (this->release_ != 0)
{
// We set the state back to default and relinquish
// ownership.
result = ACE_reinterpret_cast(T*,this->buffer_);
this->maximum_ = 0;
this->length_ = 0;
this->buffer_ = 0;
this->release_ = 0;
}
/* else
// Oops, it's not our buffer to relinquish...
return 0;
*/
}
return result;
}
template <class T> ACE_INLINE const T *
TAO_Unbounded_Sequence<T>::get_buffer (void) const
{
return ACE_reinterpret_cast(const T * ACE_CAST_CONST, this->buffer_);
}
template <class T> ACE_INLINE void
TAO_Unbounded_Sequence<T>::replace (CORBA::ULong max,
CORBA::ULong length,
T *data,
CORBA::Boolean release)
{
this->maximum_ = max;
this->length_ = length;
if (this->buffer_ && this->release_ == 1)
{
T *tmp = ACE_reinterpret_cast(T*,this->buffer_);
TAO_Unbounded_Sequence<T>::freebuf (tmp);
}
TAO_Unbounded_Sequence<T>::freebuf ((T *) this->buffer_);
this->buffer_ = data;
this->release_ = release;
}
// ***************************************************
// operations on the generic Bounded sequence class
// ***************************************************
template <class T, CORBA::ULong MAX> ACE_INLINE T *
TAO_Bounded_Sequence<T, MAX>::allocbuf (CORBA::ULong)
{
return new T[MAX];
}
template <class T, CORBA::ULong MAX> ACE_INLINE void
TAO_Bounded_Sequence<T, MAX>::freebuf (T *buffer)
{
delete [] buffer;
}
template <class T, CORBA::ULong MAX> ACE_INLINE
TAO_Bounded_Sequence<T, MAX>::TAO_Bounded_Sequence (void)
: TAO_Bounded_Base_Sequence (MAX, 0, allocbuf (MAX), 1)
{
}
template <class T, CORBA::ULong MAX> ACE_INLINE
TAO_Bounded_Sequence<T, MAX>::TAO_Bounded_Sequence (CORBA::ULong length,
T *data,
CORBA::Boolean release)
: TAO_Bounded_Base_Sequence (MAX, length, data, release)
{
this->_allocate_buffer (MAX);
}
template <class T, CORBA::ULong MAX> ACE_INLINE T *
TAO_Bounded_Sequence<T, MAX>::get_buffer (CORBA::Boolean orphan)
{
T *result = 0;
if (orphan == 0)
{
// We retain ownership.
if (this->buffer_ == 0)
{
result = TAO_Bounded_Sequence<T,MAX>::allocbuf (this->maximum_);
this->buffer_ = result;
}
else
{
result =
ACE_reinterpret_cast (T*, this->buffer_);
}
}
else // if (orphan == 1)
{
if (this->release_ != 0)
{
// We set the state back to default and relinquish
// ownership.
result = ACE_reinterpret_cast(T*,this->buffer_);
this->maximum_ = 0;
this->length_ = 0;
this->buffer_ = 0;
this->release_ = 0;
}
}
return result;
}
template <class T, CORBA::ULong MAX> ACE_INLINE const T *
TAO_Bounded_Sequence<T, MAX>::get_buffer (void) const
{
return ACE_reinterpret_cast(const T * ACE_CAST_CONST, this->buffer_);
}
template <class T, CORBA::ULong MAX> ACE_INLINE void
TAO_Bounded_Sequence<T, MAX>::replace (CORBA::ULong max,
CORBA::ULong length,
T *data,
CORBA::Boolean release)
{
this->maximum_ = max;
this->length_ = length;
if (this->buffer_ && this->release_ == 1)
{
T* tmp = ACE_reinterpret_cast(T*, this->buffer_);
TAO_Bounded_Sequence<T, MAX>::freebuf (tmp);
}
this->buffer_ = data;
this->release_ = release;
}
template <class T, CORBA::ULong MAX> ACE_INLINE T &
TAO_Bounded_Sequence<T, MAX>::operator[] (CORBA::ULong i)
{
ACE_ASSERT (i < this->maximum_);
T *tmp = ACE_reinterpret_cast (T*,this->buffer_);
return tmp[i];
}
template <class T, CORBA::ULong MAX> ACE_INLINE const T &
TAO_Bounded_Sequence<T, MAX>::operator[] (CORBA::ULong i) const
{
ACE_ASSERT (i < this->maximum_);
const T* tmp = ACE_reinterpret_cast (const T* ACE_CAST_CONST,this->buffer_);
return tmp[i];
}
// *************************************************************
// Inline operations for class TAO_Object_Manager<T>
// *************************************************************
template <class T> ACE_INLINE
TAO_Object_Manager<T>::~TAO_Object_Manager (void)
{
}
template <class T> ACE_INLINE
TAO_Object_Manager<T>::TAO_Object_Manager (const TAO_Object_Manager &rhs)
: ptr_ (rhs.ptr_),
release_ (rhs.release_)
{
}
template <class T> ACE_INLINE
TAO_Object_Manager<T>::TAO_Object_Manager(T** buffer, CORBA::Boolean release)
: ptr_ (buffer),
release_ (release)
{
}
template <class T> ACE_INLINE
TAO_Object_Manager<T>::operator const T* () const // cast
{
return *this->ptr_;
}
template <class T> ACE_INLINE
TAO_Object_Manager<T>::operator T* &() // cast
{
return *this->ptr_;
}
template <class T> ACE_INLINE const T *
TAO_Object_Manager<T>::in (void) const
{
return *this->ptr_;
}
template <class T> ACE_INLINE T *&
TAO_Object_Manager<T>::inout (void)
{
return *this->ptr_;
}
template <class T> ACE_INLINE T *&
TAO_Object_Manager<T>::out (void)
{
CORBA::release (*this->ptr_);
*this->ptr_ = T::_nil ();
return *this->ptr_;
}
template <class T> ACE_INLINE T *
TAO_Object_Manager<T>::_retn (void)
{
T *temp = *this->ptr_;
*this->ptr_ = T::_nil ();
return temp;
}
// *************************************************************
// class TAO_Unbounded_Object_Sequence
// *************************************************************
//default constructor
template <class T> ACE_INLINE
TAO_Unbounded_Object_Sequence<T>::TAO_Unbounded_Object_Sequence (void)
{
}
template <class T> ACE_INLINE
TAO_Unbounded_Object_Sequence<T>::
TAO_Unbounded_Object_Sequence (CORBA::ULong maximum,
CORBA::ULong length,
T* *value,
CORBA::Boolean release)
: TAO_Unbounded_Base_Sequence (maximum, length, value, release)
{
}
template <class T> ACE_INLINE TAO_Object_Manager<T>
TAO_Unbounded_Object_Sequence<T>::operator[] (CORBA::ULong index) const
{
ACE_ASSERT (index < this->maximum_);
T ** const tmp = ACE_reinterpret_cast (T ** ACE_CAST_CONST, this->buffer_);
return TAO_Object_Manager<T> (tmp + index, this->release_);
}
// *************************************************************
// class TAO_Bounded_Object_Sequence
// *************************************************************
template<class T, CORBA::ULong MAX> ACE_INLINE
TAO_Bounded_Object_Sequence<T,MAX>::~TAO_Bounded_Object_Sequence (void)
{
this->_deallocate_buffer ();
}
template <class T, CORBA::ULong MAX> ACE_INLINE
TAO_Bounded_Object_Sequence<T,MAX>::
TAO_Bounded_Object_Sequence (CORBA::ULong length,
T **value,
CORBA::Boolean release)
: TAO_Bounded_Base_Sequence (MAX, length, value, release)
{
}
template <class T, CORBA::ULong MAX> ACE_INLINE TAO_Object_Manager<T>
TAO_Bounded_Object_Sequence<T, MAX>::operator[] (CORBA::ULong index) const
{
ACE_ASSERT (index < this->maximum_);
T **const tmp = ACE_reinterpret_cast (T ** ACE_CAST_CONST, this->buffer_);
return TAO_Object_Manager<T> (tmp + index, this->release_);
}
// *************************************************************
// class TAO_Unbounded_Pseudo_Sequence
// *************************************************************
//default constructor
template <class T> ACE_INLINE
TAO_Unbounded_Pseudo_Sequence<T>::TAO_Unbounded_Pseudo_Sequence (void)
{
}
template <class T> ACE_INLINE
TAO_Unbounded_Pseudo_Sequence<T>::
TAO_Unbounded_Pseudo_Sequence (CORBA::ULong maximum,
CORBA::ULong length,
T* *value,
CORBA::Boolean release)
: TAO_Unbounded_Base_Sequence (maximum, length, value, release)
{
}
template <class T> ACE_INLINE TAO_Object_Manager<T>
TAO_Unbounded_Pseudo_Sequence<T>::operator[] (CORBA::ULong index) const
{
ACE_ASSERT (index < this->maximum_);
T ** const tmp = ACE_reinterpret_cast (T ** ACE_CAST_CONST, this->buffer_);
return TAO_Object_Manager<T> (tmp + index, this->release_);
}
// *************************************************************
// class TAO_Bounded_Pseudo_Sequence
// *************************************************************
template<class T, CORBA::ULong MAX> ACE_INLINE
TAO_Bounded_Pseudo_Sequence<T,MAX>::~TAO_Bounded_Pseudo_Sequence (void)
{
this->_deallocate_buffer ();
}
template <class T, CORBA::ULong MAX> ACE_INLINE
TAO_Bounded_Pseudo_Sequence<T,MAX>::
TAO_Bounded_Pseudo_Sequence (CORBA::ULong length,
T **value,
CORBA::Boolean release)
: TAO_Bounded_Base_Sequence (MAX, length, value, release)
{
}
template <class T, CORBA::ULong MAX> ACE_INLINE TAO_Object_Manager<T>
TAO_Bounded_Pseudo_Sequence<T, MAX>::operator[] (CORBA::ULong index) const
{
ACE_ASSERT (index < this->maximum_);
T **const tmp = ACE_reinterpret_cast (T ** ACE_CAST_CONST, this->buffer_);
return TAO_Object_Manager<T> (tmp + index, this->release_);
}
// *************************************************************
// class TAO_Bounded_String_Sequence
// *************************************************************
template<CORBA::ULong MAX> ACE_INLINE
TAO_Bounded_String_Sequence<MAX>::~TAO_Bounded_String_Sequence (void)
{
this->_deallocate_buffer ();
}
template<CORBA::ULong MAX> ACE_INLINE
TAO_Bounded_String_Sequence<MAX>::
TAO_Bounded_String_Sequence (CORBA::ULong length,
char **value,
CORBA::Boolean release)
: TAO_Bounded_Base_Sequence (MAX, length, value, release)
{
}
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