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#ifndef DATA_HH
#define DATA_HH
#include <cctk.h>
#include <cassert>
#include <iostream>
#include <string>
#include <vector>
#include "defs.hh"
#include "dist.hh"
#include "bbox.hh"
#include "gdata.hh"
#include "mem.hh"
#include "vect.hh"
using namespace std;
template<typename T>
class data;
// A distributed multi-dimensional array
template<typename T>
class data: public gdata
{
// Fields
mem<T> * _memory; // the data (if located on this processor)
// For vector groups with contiguous storage
int vectorlength; // number of vector elements
int vectorindex; // index of this vector element
data* vectorleader; // if index!=0: first vector element
private:
// Forbid copying and passing by value
data (data const &);
data & operator= (data const &);
public:
// Constructors
data (const int varindex = -1,
const centering cent = error_centered,
const operator_type transport_operator = op_error,
const int vectorlength = 1, const int vectorindex = 0,
data* const vectorleader = NULL);
data (const int varindex,
const centering cent, const operator_type transport_operator,
const int vectorlength, const int vectorindex,
data* const vectorleader,
const ibbox& extent, const int proc);
// Destructors
virtual ~data ();
// Pseudo constructors
virtual data* make_typed (const int varindex,
const centering cent,
const operator_type transport_operator) const;
// Storage management
virtual void allocate (const ibbox& extent, const int proc,
void* const memptr = NULL, size_t const memsize = 0);
virtual void free ();
virtual size_t allocsize (const ibbox& extent, const int proc) const;
public:
// Data accessors
const T& operator[] (const ivect& index) const
{
assert (_has_storage);
assert (_memory);
return _memory->storage(vectorindex)[offset(index)];
}
T& operator[] (const ivect& index)
{
assert (_has_storage);
assert (_memory);
return _memory->storage(vectorindex)[offset(index)];
}
// Datatype accessors
private:
// maps the C datatype of a data class object to a 0-based index
virtual unsigned int c_datatype () const
{
T dummy;
return dist::c_datatype (dummy);
}
// size of the C datatype
virtual size_t c_datatype_size () const
{
return sizeof (T);
}
// Data manipulators
private:
void
copy_from_innerloop (gdata const * gsrc,
ibbox const & box);
void
transfer_from_innerloop (vector <gdata const *> const & gsrcs,
vector <CCTK_REAL> const & times,
ibbox const & box,
CCTK_REAL time,
int order_space,
int order_time);
void
transfer_time (vector <gdata const *> const & gsrcs,
vector <CCTK_REAL> const & times,
ibbox const & box,
CCTK_REAL time,
int order_space,
int order_time);
void
transfer_p_r (data const * const src,
ibbox const & box,
int order_space);
void
transfer_p_vc_cc (data const * const src,
ibbox const & box,
int order_space);
void
transfer_prolongate (data const * const src,
ibbox const & box,
int order_space);
void
transfer_restrict (data const * const src,
ibbox const & box,
int order_space);
void
time_interpolate (vector <data *> const & srcs,
ibbox const & box,
vector <CCTK_REAL> const & times,
CCTK_REAL time,
int order_time);
public:
// Memory usage
virtual size_t memory () const CCTK_ATTRIBUTE_PURE;
// Output
virtual ostream & output (ostream& os) const;
};
#endif // DATA_HH
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