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source: Sophya/trunk/SophyaLib/TArray/utilarr.cc@ 1516

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Last change on this file since 1516 was 1412, checked in by ansari, 25 years ago
Modifs sur TMatrix::Transpose() et ajout methode SetSize comme alias de ReSize ds TMatrix et TVector - Reza 20/2/2001
File size: 4.2 KB

Rev	Line
[785]	1	// Utility classes for template numerical arrays
	2	// R. Ansari, C.Magneville 03/2000
	3
	4	#include "machdefs.h"
	5	#include "utilarr.h"
[850]	6	#include "srandgen.h"
[785]	7
	8	// Classe utilitaires
[850]	9
[1103]	10	Sequence::~Sequence()
	11	{
	12	}
	13
[894]	14	//////////////////////////////////////////////////////////
[926]	15	/*!
	16	\class SOPHYA::RandomSequence
	17	\ingroup TArray
[1404]	18	Base class to generate a sequence of random values
[926]	19	*/
	20
[894]	21	//! Constructor
	22	/*!
	23	\param typ : generator type
	24	\param m : mean parameter of the generator (if needed)
	25	\param s : sigma parameter of the generator (if needed)
	26	*/
[850]	27	RandomSequence::RandomSequence(int typ, double m, double s)
	28	{
	29	typ_ = (typ == Flat) ? Flat : Gaussian;
	30	mean_ = m;
	31	sig_ = s;
	32	}
[1103]	33	RandomSequence::~RandomSequence()
	34	{
	35	}
[850]	36
[894]	37	//! Return random sequence values.
[935]	38	/*!
	39	\return If typ = Flat : return [-1,+1]*sig + mean
	40	\return If typ = Gaussian : return gaussian distributed
	41	with \b mean mean and sigma \b sig
	42	*/
[850]	43	double RandomSequence::Rand()
	44	{
	45	if (typ_ == Flat)
	46	return(drandpm1()*sig_ + mean_);
	47	else return(GauRnd(mean_, sig_));
	48	}
	49
[1156]	50	MuTyV & RandomSequence::Value(sa_size_t k) const
[1103]	51	{
	52	if (typ_ == Flat) retv_ = drandpm1()*sig_ + mean_;
	53	else retv_ = GauRnd(mean_, sig_);
	54	return retv_;
	55	}
[850]	56
[1103]	57
[894]	58	//////////////////////////////////////////////////////////
[926]	59	/*!
[1103]	60	\class SOPHYA::RegularSequence
[926]	61	\ingroup TArray
	62	Class to generate a sequence of values
	63	*/
	64
[894]	65	//! Constructor
	66	/*!
	67	\param start : start value
	68	\param step : step value
[1404]	69	\param f : pointer to the sequence function (default = NULL, f(x)=x )
[894]	70
[1103]	71	See \ref RegularSequenceOperat "operator()"
[894]	72	*/
[1103]	73	RegularSequence::RegularSequence(double start, double step, Arr_DoubleFunctionOfX f)
[785]	74	{
	75	start_ = start;
	76	step_ = step;
	77	myf_ = f;
	78	}
	79
[1103]	80	RegularSequence::~RegularSequence()
[850]	81	{
	82	}
	83
[894]	84	//! Get the \b k th value
	85	/*!
	86	\param k : index of the value
[1103]	87	\anchor RegularSequenceOperat
[1404]	88
	89	\return f(start+k*step)
[894]	90
	91	*/
[1103]	92
[1156]	93	MuTyV & RegularSequence::Value (sa_size_t k) const
[785]	94	{
[1103]	95	double x = start_+(double)k*step_;
	96	if (myf_) x = myf_(x);
	97	retv_ = x;
	98	return(retv_);
[785]	99	}
	100
[1404]	101	/*!
	102	\class SOPHYA::EnumeratedSequence
	103	\ingroup TArray
	104	Explicitly defined sequence of values. The comma operator has
	105	been redefined to let an easy definition of sequences.
	106
	107	\code
	108	// Initializing a sequence
	109	EnumeratedSequence es;
	110	es = 11, 22, 33, 44, 55, 66;
	111
	112	for(int k=0; k<8; k++)
	113	cout << " k= " << k << " es(k)= " << es(k) << endl;
	114	\endcode
	115	*/
	116
	117	EnumeratedSequence::EnumeratedSequence()
	118	{
	119	}
	120
[1103]	121	EnumeratedSequence::~EnumeratedSequence()
	122	{
	123	}
	124
[1404]	125	//! Return the k th value in the sequence (default = 0)
[1156]	126	MuTyV & EnumeratedSequence::Value (sa_size_t k) const
[1103]	127	{
	128	if (k >= vecv_.size()) retv_ = 0;
	129	else retv_ = vecv_[k];
	130	return(retv_);
	131	}
	132
	133	EnumeratedSequence & EnumeratedSequence::operator , (MuTyV const & v)
	134	{
	135	vecv_.push_back(v);
	136	return(*this);
	137	}
	138
[1156]	139	EnumeratedSequence & EnumeratedSequence::operator = (MuTyV const & v)
	140	{
	141	vecv_.clear();
	142	vecv_.push_back(v);
	143	return(*this);
	144	}
	145
[894]	146	//////////////////////////////////////////////////////////
[926]	147	/*!
	148	\class SOPHYA::Range
	149	\ingroup TArray
	150	Class to define a range of indexes
	151	*/
	152
[894]	153	//! Constructor
	154	/*!
	155	Define a range of indexes
[1412]	156	\param start : start index (inclusive)
	157	\param end : end index (inclusive)
	158	\param size : size (number of elements, used if end \<= start)
	159	\param step : step (or stride)
[894]	160
	161	\warning If \b end \> \b start, \b size is computed automatically
	162	\warning If not \b size is fixed and \b end recomputed
	163	*/
[1156]	164	Range::Range(sa_size_t start, sa_size_t end, sa_size_t size, sa_size_t step)
[785]	165	{
	166	start_ = start;
	167	step_ = (step > 0) ? step : 1;
[813]	168	if (end > start) { // Taille calcule automatiquement
	169	end_ = end;
	170	if (step_ > ((end_-start_)+1)) size_ = 1;
	171	else size_ = ((end-start)+1)/step_;
	172	}
	173	else { // Taille fixee
	174	size_ = size;
	175	end_ = start_+size_*step_;
	176	}
[785]	177	}
	178
[804]	179	/*
[1156]	180	Range & Range::operator = (sa_size_t start)
[785]	181	{
	182	start_ = start;
	183	size_ = 1;
	184	step_ = 1;
	185	return (*this);
	186	}
[804]	187	*/
	188
	189
[894]	190	//////////////////////////////////////////////////////////
[926]	191	/*!
	192	\class SOPHYA::IdentityMatrix
	193	\ingroup TArray
	194	Class to define an identity matrix
	195	*/
	196
[894]	197	//! Constructor of a (n,n) diagonal matrix with value diag on the diagonal
[1156]	198	IdentityMatrix::IdentityMatrix(double diag, sa_size_t n)
[804]	199	{
	200	size_ = n;
	201	diag_ = diag;
	202	}

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