/usr/include/BoxLib/PArray.H is in libbox-dev 2.5-3.
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** (c) 1996-2000 The Regents of the University of California (through
** E.O. Lawrence Berkeley National Laboratory), subject to approval by
** the U.S. Department of Energy. Your use of this software is under
** license -- the license agreement is attached and included in the
** directory as license.txt or you may contact Berkeley Lab's Technology
** Transfer Department at TTD@lbl.gov. NOTICE OF U.S. GOVERNMENT RIGHTS.
** The Software was developed under funding from the U.S. Government
** which consequently retains certain rights as follows: the
** U.S. Government has been granted for itself and others acting on its
** behalf a paid-up, nonexclusive, irrevocable, worldwide license in the
** Software to reproduce, prepare derivative works, and perform publicly
** and display publicly. Beginning five (5) years after the date
** permission to assert copyright is obtained from the U.S. Department of
** Energy, and subject to any subsequent five (5) year renewals, the
** U.S. Government is granted for itself and others acting on its behalf
** a paid-up, nonexclusive, irrevocable, worldwide license in the
** Software to reproduce, prepare derivative works, distribute copies to
** the public, perform publicly and display publicly, and to permit
** others to do so.
*/
#ifndef BL_PARRAY_H
#define BL_PARRAY_H
//
// $Id: PArray.H,v 1.24 2002/11/12 20:49:35 lijewski Exp $
//
#include <Array.H>
//
//@Man:
//@Memo:
/*@Doc: An enum that controls whether or not class PArray<T>
manages the pointed to objects, as well as the pointer itself.
Valid values are PArrayNoManage and PArrayManage.
*/
enum PArrayPolicy
{
PArrayNoManage = 0,
PArrayManage = 1
};
//
//@Man:
//@Memo: An Array of Pointers to Objects of Type T
/*@Doc:
The PArray<T> class is similar to the Array<T> class except that it
implements an array of pointers to objects of type T rather than an array
of the objects themselves. As with Array<T> objects, PArray<T> objects
know about their length, can be dynamically resized and have built-in
automatic bounds checking.
When a PArray<T> object is destructed, should only the pointers be
destructed or should the objects to which they point also be deleted?
The PArray<T> class allows for both scenarios. By default, it will
only remove the pointers. If the array is constructed with the
PArrayManage argument it will also delete all the objects pointed to
in the array.
This is a concrete class, not a polymorphic one.
PArray<T>s do NOT provide a copy constructor or an assignment operator.
*/
template <class T>
class PArray
{
public:
/*@ManDoc: Constructs a PArray<T> with no elements. The default memory
management policy is not to delete the underlying objects
upon destruction.
*/
explicit PArray (PArrayPolicy _managed = PArrayNoManage);
/*@ManDoc: Constructs a PArray<T> of length len of null pointers.
The default memory management policy is not to delete the
underlying objects upon destruction.
*/
explicit PArray (int len,
PArrayPolicy _managed = PArrayNoManage);
/*@ManDoc: The destructor. If the memory management policy was
set to Manage upon construction, this destructor will
also delete all objects referenced by the pointers in
this array.
*/
~PArray ();
//
//@ManDoc: Returns true if the i'th element is not the null pointer.
//
bool defined (int i) const;
/*@ManDoc: Returns a constant reference to the object pointed to by the
i'th element in this PArray<T>. Performs bounds checking
when the library is compiled in debug mode.
*/
const T& operator[] (int i) const;
/*@ManDoc: Returns a reference to the object pointed to by the
i'th element in this PArray<T>. Performs bounds checking
when the library is compiled in debug mode.
*/
T& operator[] (int i);
/*@ManDoc: Returns a constant reference to the object pointed to by the
i'th element in the PArray. It is an error if the i'th element
is the null pointer.
*/
const T& get (int i) const;
/*@ManDoc: Returns a reference to the object pointed to by the i'th
element in the PArray. It is an error if the i'th element
is the null pointer.
*/
T& get (int i);
/*@ManDoc: Defines the i'th element of this PArray<T> to the pointer
value elem. It is an error if the i'th element previously
had a value.
*/
void set (int i,
T* elem);
//
//@ManDoc: Returns the number of elements.
//
int size () const;
/*@ManDoc: This function sets each pointer in this PArray<T> to null.
If the memory management policy was set to Manage
upon construction, this function will also delete all objects
referenced by the pointers in this array.
*/
void clear ();
/*@ManDoc: The i'th element in this PArray<T> is set to null.
If the memory management policy was set to Manage
upon construction, this function will also delete the object
referenced by that pointer.
*/
void clear (int i);
/*@ManDoc: This function changes the size of the array to newsize
while preserving the value of as many array elements as
possible. If newsize is greater than the current length,
the array is grown and the new elements are null pointers.
If newsize is less than the current length the array is
cropped with the remaining elements retaining their
original pointer values. If the memory management policy
was set to Manage, any cropped pointers are deleted.
*/
void resize (int newsize);
/*@ManDoc: This function does a resize and changes the PArrayPolicy.
(Especially for arrays of PArray where the user wants
the default policy to be managed--the default constructor
makes the default unmanaged). If the new managed policy is
different from the old one, none of the elements of the
original are retained.
*/
void resize (int newsize,
PArrayPolicy newmanagedpolicy);
/*@ManDoc: Removes the i'th element from the PArray and returns the
pointer to the calling function. Nulls out the pointer
in the PArray<T>.
*/
T* remove (int i);
protected:
//
// The underlying representation.
//
Array<void*> vp;
//
// The memory management policy.
//
PArrayPolicy managed;
public:
//
// Disallow these. FIXME
//
PArray (const PArray<T>&);
// PArray<T> operator= (const PArray<T>&);
};
template <class T>
PArray<T>::PArray (const PArray<T>& c)
{
BL_ASSERT(c.size()==0);
managed = c.managed;
}
template <class T>
PArray<T>::PArray (PArrayPolicy _managed)
:
managed(_managed)
{}
template <class T>
inline
bool
PArray<T>::defined (int i) const
{
return vp[i] != 0;
}
template <class T>
inline
const T&
PArray<T>::operator[] (int i) const
{
BL_ASSERT(vp[i] != 0);
return *((T*)(vp[i]));
}
template <class T>
inline
T&
PArray<T>::operator[] (int i)
{
BL_ASSERT(vp[i] != 0);
return *((T*)(vp[i]));
}
template <class T>
inline
const T&
PArray<T>::get (int i) const
{
BL_ASSERT(vp[i] != 0);
return *((T*)(vp[i]));
}
template <class T>
inline
T&
PArray<T>::get (int i)
{
BL_ASSERT(vp[i] != 0);
return *((T*)(vp[i]));
}
template <class T>
inline
void
PArray<T>::set (int i,
T* elem)
{
BL_ASSERT(vp[i] == 0);
vp[i] = elem;
}
template <class T>
inline
int
PArray<T>::size () const
{
return vp.size();
}
template <class T>
T*
PArray<T>::remove (int i)
{
BL_ASSERT(vp[i] != 0);
void* tmp = vp[i];
vp[i] = 0;
return (T*) tmp;
}
template <class T>
void
PArray<T>::clear (int n)
{
if (managed)
delete ((T*)(vp[n]));
vp[n] = 0;
}
template <class T>
PArray<T>::PArray (int len,
PArrayPolicy _managed)
:
vp(len),
managed(_managed)
{
for (int i = 0; i < size(); i++)
vp[i] = 0;
}
template <class T>
void
PArray<T>::clear ()
{
if (managed)
{
for (int i = 0; i < size(); ++i)
{
delete ((T*)(vp[i]));
}
}
for (int i = 0; i < size(); ++i)
vp[i] = 0;
}
template <class T>
PArray<T>::~PArray ()
{
clear();
}
template <class T>
void
PArray<T>::resize (int newlen)
{
void** ovp = vp.size() ? &vp[0] : 0;
int oldlen = vp.size();
vp.resize(newlen);
for (int i = oldlen; i < newlen; ++i)
vp[i] = 0;
if (managed)
{
for (int i = newlen; i < oldlen; i++)
{
delete ((T*)(ovp[i]));
ovp[i] = 0;
}
}
}
template <class T>
void
PArray<T>::resize (int newlen,
PArrayPolicy newmanagedpolicy)
{
if (newmanagedpolicy == managed)
{
resize(newlen);
}
else
{
clear();
resize(newlen);
managed = newmanagedpolicy;
}
}
#endif /*BL_PARRAY_H*/
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