tnt_fortran_array3d.h @ eba0cb5f

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Last change on this file since eba0cb5f was f2d6445, checked in by Mathieu Doucet <doucetm@…>, 17 years ago
moving realSpaceModeling to trunk
Property mode set to `100644`
File size: 4.4 KB

Rev	Line
[f2d6445]	1	/*
	2	*
	3	* Template Numerical Toolkit (TNT): Three-dimensional Fortran numerical array
	4	*
	5	* Mathematical and Computational Sciences Division
	6	* National Institute of Technology,
	7	* Gaithersburg, MD USA
	8	*
	9	*
	10	* This software was developed at the National Institute of Standards and
	11	* Technology (NIST) by employees of the Federal Government in the course
	12	* of their official duties. Pursuant to title 17 Section 105 of the
	13	* United States Code, this software is not subject to copyright protection
	14	* and is in the public domain. NIST assumes no responsibility whatsoever for
	15	* its use by other parties, and makes no guarantees, expressed or implied,
	16	* about its quality, reliability, or any other characteristic.
	17	*
	18	*/
	19
	20
	21
	22	#ifndef TNT_FORTRAN_ARRAY3D_H
	23	#define TNT_FORTRAN_ARRAY3D_H
	24
	25	#include <cstdlib>
	26	#include <iostream>
	27	#ifdef TNT_BOUNDS_CHECK
	28	#include <assert.h>
	29	#endif
	30	#include "tnt_i_refvec.h"
	31
	32	namespace TNT
	33	{
	34
	35	template <class T>
	36	class Fortran_Array3D
	37	{
	38
	39
	40	private:
	41
	42
	43	i_refvec<T> v_;
	44	int m_;
	45	int n_;
	46	int k_;
	47	T* data_;
	48
	49	public:
	50
	51	typedef T value_type;
	52
	53	Fortran_Array3D();
	54	Fortran_Array3D(int m, int n, int k);
	55	Fortran_Array3D(int m, int n, int k, T *a);
	56	Fortran_Array3D(int m, int n, int k, const T &a);
	57	inline Fortran_Array3D(const Fortran_Array3D &A);
	58	inline Fortran_Array3D & operator=(const T &a);
	59	inline Fortran_Array3D & operator=(const Fortran_Array3D &A);
	60	inline Fortran_Array3D & ref(const Fortran_Array3D &A);
	61	Fortran_Array3D copy() const;
	62	Fortran_Array3D & inject(const Fortran_Array3D & A);
	63	inline T& operator()(int i, int j, int k);
	64	inline const T& operator()(int i, int j, int k) const ;
	65	inline int dim1() const;
	66	inline int dim2() const;
	67	inline int dim3() const;
	68	inline int ref_count() const;
	69	~Fortran_Array3D();
	70
	71
	72	};
	73
	74	template <class T>
	75	Fortran_Array3D<T>::Fortran_Array3D() : v_(), m_(0), n_(0), k_(0), data_(0) {}
	76
	77
	78	template <class T>
	79	Fortran_Array3D<T>::Fortran_Array3D(const Fortran_Array3D<T> &A) :
	80	v_(A.v_), m_(A.m_), n_(A.n_), k_(A.k_), data_(A.data_) {}
	81
	82
	83
	84	template <class T>
	85	Fortran_Array3D<T>::Fortran_Array3D(int m, int n, int k) :
	86	v_(mnk), m_(m), n_(n), k_(k), data_(v_.begin()) {}
	87
	88
	89
	90	template <class T>
	91	Fortran_Array3D<T>::Fortran_Array3D(int m, int n, int k, const T &val) :
	92	v_(mnk), m_(m), n_(n), k_(k), data_(v_.begin())
	93	{
	94	for (T* p = data_; p < data_ + mnk; p++)
	95	*p = val;
	96	}
	97
	98	template <class T>
	99	Fortran_Array3D<T>::Fortran_Array3D(int m, int n, int k, T *a) :
	100	v_(a), m_(m), n_(n), k_(k), data_(v_.begin()) {}
	101
	102
	103
	104
	105	template <class T>
	106	inline T& Fortran_Array3D<T>::operator()(int i, int j, int k)
	107	{
	108	#ifdef TNT_BOUNDS_CHECK
	109	assert(i >= 1);
	110	assert(i <= m_);
	111	assert(j >= 1);
	112	assert(j <= n_);
	113	assert(k >= 1);
	114	assert(k <= k_);
	115	#endif
	116
	117	return data_[(k-1)m_n_ + (j-1) * m_ + i-1];
	118
	119	}
	120
	121	template <class T>
	122	inline const T& Fortran_Array3D<T>::operator()(int i, int j, int k) const
	123	{
	124	#ifdef TNT_BOUNDS_CHECK
	125	assert(i >= 1);
	126	assert(i <= m_);
	127	assert(j >= 1);
	128	assert(j <= n_);
	129	assert(k >= 1);
	130	assert(k <= k_);
	131	#endif
	132
	133	return data_[(k-1)m_n_ + (j-1) * m_ + i-1];
	134	}
	135
	136
	137	template <class T>
	138	Fortran_Array3D<T> & Fortran_Array3D<T>::operator=(const T &a)
	139	{
	140
	141	T end = data_ + m_n_*k_;
	142
	143	for (T p=data_; p != end; p++ = a);
	144
	145	return *this;
	146	}
	147
	148	template <class T>
	149	Fortran_Array3D<T> Fortran_Array3D<T>::copy() const
	150	{
	151
	152	Fortran_Array3D B(m_, n_, k_);
	153	B.inject(*this);
	154	return B;
	155
	156	}
	157
	158
	159	template <class T>
	160	Fortran_Array3D<T> & Fortran_Array3D<T>::inject(const Fortran_Array3D &A)
	161	{
	162
	163	if (m_ == A.m_ && n_ == A.n_ && k_ == A.k_)
	164	{
	165	T *p = data_;
	166	T end = data_ + m_n_*k_;
	167	const T* q = A.data_;
	168	for (; p < end; p++ = q++);
	169	}
	170	return *this;
	171	}
	172
	173
	174
	175
	176	template <class T>
	177	Fortran_Array3D<T> & Fortran_Array3D<T>::ref(const Fortran_Array3D<T> &A)
	178	{
	179
	180	if (this != &A)
	181	{
	182	v_ = A.v_;
	183	m_ = A.m_;
	184	n_ = A.n_;
	185	k_ = A.k_;
	186	data_ = A.data_;
	187	}
	188	return *this;
	189	}
	190
	191	template <class T>
	192	Fortran_Array3D<T> & Fortran_Array3D<T>::operator=(const Fortran_Array3D<T> &A)
	193	{
	194	return ref(A);
	195	}
	196
	197	template <class T>
	198	inline int Fortran_Array3D<T>::dim1() const { return m_; }
	199
	200	template <class T>
	201	inline int Fortran_Array3D<T>::dim2() const { return n_; }
	202
	203	template <class T>
	204	inline int Fortran_Array3D<T>::dim3() const { return k_; }
	205
	206
	207	template <class T>
	208	inline int Fortran_Array3D<T>::ref_count() const
	209	{
	210	return v_.ref_count();
	211	}
	212
	213	template <class T>
	214	Fortran_Array3D<T>::~Fortran_Array3D()
	215	{
	216	}
	217
	218
	219	} /* namespace TNT */
	220
	221	#endif
	222	/* TNT_FORTRAN_ARRAY3D_H */
	223

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source: sasview/realSpaceModeling/iqPy/libiqPy/tnt/tnt_fortran_array3d.h @ eba0cb5f

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