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lib_ex_pour_HZpp/Partie_2/algebre_lineaire/MV++/mv/include/mvvc.h

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/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
/* */
/* */
/* MV++ Numerical Matrix/Vector C++ Library */
/* MV++ Version 1.5 */
/* */
/* R. Pozo */
/* National Institute of Standards and Technology */
/* */
/* NOTICE */
/* */
/* Permission to use, copy, modify, and distribute this software and */
/* its documentation for any purpose and without fee is hereby granted */
/* provided that this permission notice appear in all copies and */
/* supporting documentation. */
/* */
/* Neither the Institution (National Institute of Standards and Technology) */
/* nor the author makes any representations about the suitability of this */
/* software for any purpose. This software is provided ``as is''without */
/* expressed or implied warranty. */
/* */
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
//
// mv_vector_COMPLEX.h Basic vector class (COMPLEX precision)
//
#ifndef _MV_VECTOR_COMPLEX_H
#define _MV_VECTOR_COMPLEX_H
#include <stdlib.h>
#include <iostream.h> // for formatted printing of matrices
#include <complex.h> // ajout GR
typedef complex <double> COMPLEX ; // ajout GR
#include "mvvc.h" // ajout GR
#ifdef MV_VECTOR_BOUNDS_CHECK
# include <assert.h>
#endif
#include "mvvind.h"
// this is really used as a sort of global constant. The reason
// for creating its own type is that so it can be overloaded to perform
// a deep or shallow assignement. (Any variable of type MV_Vector_::ref_type
// has only one possible value: one.)
// It is included as a seperate file to avoid multiple definitions.
#include "mvvrf.h"
class MV_Vector_COMPLEX
{
protected:
COMPLEX *p_;
unsigned int dim_;
int ref_; // 0 or 1; does this own its own memory space?
public:
/*::::::::::::::::::::::::::*/
/* Constructors/Destructors */
/*::::::::::::::::::::::::::*/
MV_Vector_COMPLEX();
MV_Vector_COMPLEX(unsigned int);
MV_Vector_COMPLEX(unsigned int, const COMPLEX&);
MV_Vector_COMPLEX(COMPLEX*, unsigned int);
MV_Vector_COMPLEX(const COMPLEX*, unsigned int);
MV_Vector_COMPLEX(const MV_Vector_COMPLEX &);
// reference of an exisiting data structure
//
// note that ref() is initalized with i rather than 1.
// this is so compilers will not generate a warning that i was
// not used in the construction. (MV_Vector::ref_type is an enum that
// can *only* have the value of 1.
//
MV_Vector_COMPLEX(COMPLEX* d, unsigned int N, MV_Vector_::ref_type i) :
p_(d), dim_(N), ref_(i) {}
MV_Vector_COMPLEX(const MV_Vector_COMPLEX &V, MV_Vector_::ref_type i) :
p_(V.p_), dim_(V.dim_), ref_(i) {}
~MV_Vector_COMPLEX();
/*::::::::::::::::::::::::::::::::*/
/* Indices and access operations */
/*::::::::::::::::::::::::::::::::*/
COMPLEX& operator()(unsigned int i)
{
# ifdef MV_VECTOR_BOUNDS_CHECK
assert(i < dim_);
# endif
return p_[i];
}
const COMPLEX& operator()(unsigned int i) const
{
# ifdef MV_VECTOR_BOUNDS_CHECK
assert(i < dim_);
# endif
return p_[i];
}
COMPLEX& operator[](unsigned int i)
{
# ifdef MV_VECTOR_BOUNDS_CHECK
assert(i < dim_);
# endif
return p_[i];
}
const COMPLEX& operator[](unsigned int i) const
{
# ifdef MV_VECTOR_BOUNDS_CHECK
assert(i < dim_);
# endif
return p_[i];
}
MV_Vector_COMPLEX operator()(const MV_VecIndex &I) ;
MV_Vector_COMPLEX operator()(void);
const MV_Vector_COMPLEX operator()(void) const;
const MV_Vector_COMPLEX operator()(const MV_VecIndex &I) const;
inline unsigned int size() const { return dim_;}
inline unsigned int dim() const { return dim_;}
inline int ref() const { return ref_;}
inline int null() const {return dim_== 0;}
//
// Create a new *uninitalized* vector of size N
MV_Vector_COMPLEX & newsize(unsigned int );
/*::::::::::::::*/
/* Assignment */
/*::::::::::::::*/
MV_Vector_COMPLEX & operator=(const MV_Vector_COMPLEX&);
MV_Vector_COMPLEX & operator=(const COMPLEX&);
friend ostream& operator<<(ostream &s, const MV_Vector_COMPLEX &A);
};
#endif
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