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source: Sophya/trunk/SophyaPI/PIext/nomtmatvecadapter.cc@ 2335

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Last change on this file since 2335 was 2335, checked in by ansari, 23 years ago
Compil sur SGI-CC avec LANG:std suite au remplacement xxstream.h par xxstream (gcc 3.1) / ajout template <> pour specialisation template - Reza 10/03/2003
File size: 10.6 KB

Rev	Line
[585]	1	#include "machdefs.h"
	2	#include <stdlib.h>
	3	#include <typeinfo>
[2322]	4	#include <iostream>
[585]	5	#include <string>
	6	#include <complex>
	7
[1224]	8	#include "datatype.h"
	9
[585]	10	#include "tvector.h"
[1207]	11	#include "objfitter.h"
[585]	12	#include "nomtmatvecadapter.h"
[1905]	13	#include "piyfxdrw.h"
[585]	14	#include "pitvmaad.h"
	15
[810]	16	#include "fioarr.h"
[1321]	17	#include "fitstarray.h"
[585]	18
	19
	20	//----------------------------------------------------------------
	21	// Class Adaptateur d'objet (Pour NamedObjMgr) d'objet TMatrix<T>
	22	//----------------------------------------------------------------
	23
	24
	25	/* --Methode-- */
	26	template <class T>
	27	NOMAdapter_TMatrix<T>::NOMAdapter_TMatrix(TMatrix<T>* o)
	28	: NObjMgrAdapter(o)
	29	{
	30	mMtx = o;
	31	}
	32
	33	/* --Methode-- */
	34	template <class T>
	35	NOMAdapter_TMatrix<T>::~NOMAdapter_TMatrix()
	36	{
	37	}
	38
	39	/* --Methode-- */
	40	template <class T>
	41	NObjMgrAdapter* NOMAdapter_TMatrix<T>::Clone(AnyDataObj* o)
	42	{
	43	TMatrix<T>* m = dynamic_cast<TMatrix<T> *>(o);
	44	if (m) return ( new NOMAdapter_TMatrix<T>(m) );
	45	return ( new NObjMgrAdapter(o) );
	46	}
	47
	48	/* --Methode-- */
	49	template <class T>
[1165]	50	string NOMAdapter_TMatrix<T>::GetDataObjType()
[585]	51	{
[1165]	52	string type = "TMatrix< ";
	53
	54	TVector<T>* v = dynamic_cast<TVector<T> *>(mMtx);
	55	if (v != NULL) type = "TVector< ";
	56
[1224]	57	// type += DecodeTypeIdName(typeid(T).name());
[1237]	58	type += DataTypeInfo<T>::getTypeName();
[1165]	59	type += " > ";
	60	return(type);
	61	}
	62
	63	/* --Methode-- */
	64	template <class T>
[1315]	65	AnyDataObj* NOMAdapter_TMatrix<T>::CloneDataObj(bool share)
[1165]	66	{
[585]	67	if (mMtx == NULL) return(NULL);
	68	TVector<T>* v = dynamic_cast<TVector<T> *>(mMtx);
[1315]	69	if (v != NULL) return( new TVector<T>(*v, share) );
	70	else return ( new TMatrix<T>(*mMtx, share) );
[585]	71	}
	72
	73	/* --Methode-- */
	74	template <class T>
[1321]	75	void NOMAdapter_TMatrix<T>::ReadFits(string const & flnm)
	76	{
	77	FitsInFile fis(flnm);
	78	fis >> (*mMtx);
	79	}
	80
	81	/* --Methode-- */
	82	template <class T>
	83	void NOMAdapter_TMatrix<T>::SaveFits(string const & flnm)
	84	{
	85	FitsOutFile fos(flnm);
	86	fos << (*mMtx);
	87	}
	88	// ---- Specialisation pour complexes -----
[2335]	89	#if defined(__SGICC__)
	90	template <>
	91	#endif
[1321]	92	void NOMAdapter_TMatrix< complex<r_4> >::ReadFits(string const & flnm)
	93	{
	94	cout << " NOMAdapter_TMatrix< complex<r_4> >::ReadFits() - Error "
	95	<< " Not supported (complex data type)" << endl;
	96	}
[2335]	97	#if defined(__SGICC__)
	98	template <>
	99	#endif
[1321]	100	void NOMAdapter_TMatrix< complex<r_4> >::SaveFits(string const & flnm)
	101	{
	102	cout << " NOMAdapter_TMatrix< complex<r_4> >::SaveFits() - Error "
	103	<< " Not supported (complex data type)" << endl;
	104	}
	105
[2335]	106	#if defined(__SGICC__)
	107	template <>
	108	#endif
[1321]	109	void NOMAdapter_TMatrix< complex<r_8> >::ReadFits(string const & flnm)
	110	{
	111	cout << " NOMAdapter_TMatrix< complex<r_8> >::ReadFits() - Error "
	112	<< " Not supported (complex data type)" << endl;
	113	}
[2335]	114	#if defined(__SGICC__)
	115	template <>
	116	#endif
[1321]	117	void NOMAdapter_TMatrix< complex<r_8> >::SaveFits(string const & flnm)
	118	{
	119	cout << " NOMAdapter_TMatrix< complex<r_8> >::SaveFits() - Error "
	120	<< " Not supported (complex data type)" << endl;
	121	}
	122
	123	/* --Methode-- */
	124	template <class T>
[585]	125	void NOMAdapter_TMatrix<T>::SavePPF(POutPersist& pos, string const & nom)
	126	{
	127	if (mMtx == NULL) return;
	128	TVector<T>* v = dynamic_cast<TVector<T> *>(mMtx);
	129	if (v != NULL) {
[810]	130	FIO_TArray<T> fio(v);
[585]	131	fio.Write(pos, nom);
	132	}
	133	else {
[810]	134	FIO_TArray<T> fio(mMtx);
[585]	135	fio.Write(pos, nom);
	136	}
	137	}
	138
	139	/* --Methode-- */
	140	template <class T>
	141	void NOMAdapter_TMatrix<T>::Print(ostream& os)
	142	{
	143	TVector<T>* v = dynamic_cast<TVector<T> *>(mMtx);
	144	if (v != NULL) os << (*v);
	145	else os << (*mMtx);
	146	}
	147
	148	/* --Methode-- */
	149	template <class T>
	150	PIDrawer* NOMAdapter_TMatrix<T>::GetDrawer(string & dopt)
	151	{
	152	TVector<T>* v = dynamic_cast<TVector<T> *>(mMtx);
	153	if (v == NULL) return(NULL);
	154	else {
[1971]	155	dopt = "thinline " + dopt;
[585]	156	return( new PIYfXDrawer( new POTVectorAdapter<T>(v, false), NULL, true) );
	157	}
	158	}
	159
	160	/* --Methode-- */
	161	template <class T>
	162	P2DArrayAdapter* NOMAdapter_TMatrix<T>::Get2DArray(string &)
	163	{
	164	return ( new POTMatrixAdapter<T>(mMtx, false) );
	165	}
	166
	167	/* --Methode-- */
	168	template <class T>
	169	NTupleInterface* NOMAdapter_TMatrix<T>::GetNTupleInterface(bool& adel)
	170	{
	171	adel = true;
	172	return( new NTupInt_TMatrix<T>(mMtx) );
	173	}
	174
	175
[1207]	176	/* --Methode-- */
	177	template <class T>
	178	GeneralFitData* NOMAdapter_TMatrix<T>::GetGeneralFitData(bool& adel
	179	,GeneralFitData::FitErrType errtype,double errscale,double errmin
	180	,int i1,int i2,int j1,int j2)
	181	{
	182	adel = false;
	183	if(!mMtx) return(NULL);
[585]	184
[1207]	185	int nx,ny;
	186	TVector<T>* vec = dynamic_cast<TVector<T> *>(mMtx);
	187
	188	if(vec) { // C'est un TVector
	189	nx = vec->NElts();
	190	ny = 1;
	191	} else {
	192	nx = mMtx->NRows();
	193	ny = mMtx->NCol();
	194	if(nx<=0 \|\| ny<=0) return(NULL);
	195	}
	196
	197	i1 = (i1<0\|\|i1>=nx)? 0: i1;
	198	i2 = (i2<0\|\|i2>=nx\|\|i2<i1)? nx-1: i2;
	199	j1 = (j1<0\|\|j1>=ny)? 0: j1;
	200	j2 = (j2<0\|\|j2>=ny\|\|j2<j1)? ny-1: j2;
	201
	202	GeneralFitData* mGData = NULL;
	203
	204	if(vec) { // C'est un TVector
	205	mGData = new GeneralFitData(1,(i2-i1+1),0);
	206	adel = true;
	207	for(int i=i1;i<=i2;i++) {
	208	double x = (double) i;
	209	double f = (*vec)(i);
	210	double e = 1.;
	211	e = GeneralFitData::ComputeError(f,e,errtype,errscale,errmin);
	212	mGData->AddData1(x,f,e);
	213	}
	214	} else {
	215	mGData = new GeneralFitData(2,(i2-i1+1)*(j2-j1+1),0);
	216	adel = true;
	217	for(int i=i1;i<=i2;i++) for(int j=j1;j<=j2;j++) {
	218	double x = (double) i;
	219	double y = (double) j;
	220	double f = (*mMtx)(i,j);
	221	double e = 1.;
	222	e = GeneralFitData::ComputeError(f,e,errtype,errscale,errmin);
	223	mGData->AddData2(x,y,f,e);
	224	}
	225	}
	226
	227	return mGData;
	228	}
	229
	230	template <class T>
	231	AnyDataObj* NOMAdapter_TMatrix<T>::FitResidusObj(GeneralFit& mfit)
	232	{
	233	TVector<T>* vec = dynamic_cast<TVector<T> *>(mMtx);
	234	if(vec) {
	235	TVector<T>* v = new TVector<T>(ObjectFitter::FitResidus(*vec,mfit),true);
	236	return v;
	237	} else {
	238	TMatrix<T>* m = new TMatrix<T>(ObjectFitter::FitResidus(*mMtx,mfit),true);
	239	return m;
	240	}
	241	}
	242
	243	template <class T>
	244	AnyDataObj* NOMAdapter_TMatrix<T>::FitFunctionObj(GeneralFit& mfit)
	245	{
	246	TVector<T>* vec = dynamic_cast<TVector<T> *>(mMtx);
	247	if(vec) {
	248	TVector<T>* v = new TVector<T>(ObjectFitter::FitFunction(*vec,mfit),true);
	249	return v;
	250	} else {
	251	TMatrix<T>* m = new TMatrix<T>(ObjectFitter::FitFunction(*mMtx,mfit),true);
	252	return m;
	253	}
	254	}
	255
[1315]	256	// ---- Specialisation pour complexes -----
[2335]	257	#if defined(__SGICC__)
	258	template <>
	259	#endif
[1315]	260	GeneralFitData* NOMAdapter_TMatrix< complex<r_4> >::GetGeneralFitData(bool& adel
	261	,GeneralFitData::FitErrType errtype,double errscale,double errmin
	262	,int i1,int i2,int j1,int j2)
	263	{
	264	return(NULL);
	265	}
[1207]	266
[2335]	267	#if defined(__SGICC__)
	268	template <>
	269	#endif
[1315]	270	AnyDataObj* NOMAdapter_TMatrix< complex<r_4> >::FitResidusObj(GeneralFit& mfit)
	271	{
	272	return(NULL);
	273	}
	274
[2335]	275	#if defined(__SGICC__)
	276	template <>
	277	#endif
[1315]	278	AnyDataObj* NOMAdapter_TMatrix< complex<r_4> >::FitFunctionObj(GeneralFit& mfit)
	279	{
	280	return(NULL);
	281	}
	282
[2335]	283	#if defined(__SGICC__)
	284	template <>
	285	#endif
[1315]	286	GeneralFitData* NOMAdapter_TMatrix< complex<r_8> >::GetGeneralFitData(bool& adel
	287	,GeneralFitData::FitErrType errtype,double errscale,double errmin
	288	,int i1,int i2,int j1,int j2)
	289	{
	290	return(NULL);
	291	}
	292
[2335]	293	#if defined(__SGICC__)
	294	template <>
	295	#endif
[1315]	296	AnyDataObj* NOMAdapter_TMatrix< complex<r_8> >::FitResidusObj(GeneralFit& mfit)
	297	{
	298	return(NULL);
	299	}
	300
[2335]	301	#if defined(__SGICC__)
	302	template <>
	303	#endif
[1315]	304	AnyDataObj* NOMAdapter_TMatrix< complex<r_8> >::FitFunctionObj(GeneralFit& mfit)
	305	{
	306	return(NULL);
	307	}
	308
[585]	309	// -------------------------------------------------------------
	310
	311	/* --Methode-- */
	312	template <class T>
	313	NTupInt_TMatrix<T>::NTupInt_TMatrix(TMatrix<T>* m)
	314	{
	315	mMtx = m;
	316	}
	317
	318	/* --Methode-- */
	319	template <class T>
	320	NTupInt_TMatrix<T>::~NTupInt_TMatrix()
	321	{
	322	}
	323
	324	/* --Methode-- */
	325	template <class T>
	326	uint_4 NTupInt_TMatrix<T>::NbLines() const
	327	{
	328	return( mMtx->NRows()*mMtx->NCols() );
	329	}
	330
	331	/* --Methode-- */
	332	template <class T>
	333	uint_4 NTupInt_TMatrix<T>::NbColumns() const
	334	{
	335	return(8);
	336	}
	337
	338	/* --Methode-- */
	339	template <class T>
	340	r_8* NTupInt_TMatrix<T>::GetLineD(int n) const
	341	{
	342	int i,j;
	343	if ((n < 0) \|\| (n >= (int)(mMtx->NRows()*mMtx->NCols()) )) {
	344	mRet[0] = n;
	345	for(i=1; i<8; i++) mRet[i] = 0.;
	346	}
	347	else {
	348	i = n/mMtx->NCols(); j = n%mMtx->NCols();
	349	mRet[0] = n; mRet[1] = i; mRet[2] = j;
	350	mRet[3] = (*mMtx)(i,j);
	351	mRet[4] = mRet[2]; mRet[5] = 0.;
	352	mRet[6] = mRet[2]; mRet[7] = 0.;
	353	}
	354	return(mRet);
	355	}
	356
	357	/* --Methode-- */
	358	template <class T>
	359	string NTupInt_TMatrix<T>::VarList_C(const char* nx) const
	360	{
	361	string nomx;
	362	if (nx) nomx = nx;
	363	else nomx = "_xh_";
	364	string vardec = "double n,r,c,val,real,imag,mod,phas; \n";
	365	vardec += "n = " + nomx + "[0]; r = " + nomx + "[1]; c = " + nomx + "[2]; \n";
	366	vardec += "val = " + nomx + "[3]; \n";
	367	vardec += "real = " + nomx + "[4]; imag = " + nomx + "[5]; \n";
	368	vardec += "mod = " + nomx + "[6]; phas = " + nomx + "[7]; \n";
	369	return(vardec);
	370	}
	371
	372	/* --Methode-- */
[2335]	373	#if defined(__SGICC__)
	374	template <>
	375	#endif
[1315]	376	r_8* NTupInt_TMatrix< complex<r_4> >::GetLineD(int n) const
[585]	377	{
	378	int i,j;
	379	if ((n < 0) \|\| (n >= (int)(mMtx->NRows()*mMtx->NCols()) )) {
	380	mRet[0] = n;
	381	for(i=1; i<8; i++) mRet[i] = 0.;
	382	}
	383	else {
	384	i = n/mMtx->NCols(); j = n%mMtx->NCols();
	385	mRet[0] = n; mRet[1] = i; mRet[2] = j;
	386	mRet[4] = (mMtx)(i,j).real(); mRet[5] = (mMtx)(i,j).imag();
	387	mRet[3] = mRet[6] = sqrt(mRet[4]mRet[4]+mRet[5]mRet[5]);
	388	mRet[7] = atan2(mRet[5], mRet[4]);
	389	}
	390	return(mRet);
	391	}
	392
[2335]	393	#if defined(__SGICC__)
	394	template <>
	395	#endif
[1315]	396	r_8* NTupInt_TMatrix< complex<r_8> >::GetLineD(int n) const
[585]	397	{
	398	int i,j;
	399	if ((n < 0) \|\| (n >= (int)(mMtx->NRows()*mMtx->NCols()) )) {
	400	mRet[0] = n;
	401	for(i=1; i<8; i++) mRet[i] = 0.;
	402	}
	403	else {
	404	i = n/mMtx->NCols(); j = n%mMtx->NCols();
	405	mRet[0] = n; mRet[1] = i; mRet[2] = j;
	406	mRet[4] = (mMtx)(i,j).real(); mRet[5] = (mMtx)(i,j).imag();
	407	mRet[3] = mRet[6] = sqrt(mRet[4]mRet[4]+mRet[5]mRet[5]);
	408	mRet[7] = atan2(mRet[5], mRet[4]);
	409	}
	410	return(mRet);
	411	}
	412
	413
	414	#ifdef __CXX_PRAGMA_TEMPLATES__
	415	//#pragma define_template NOMAdapter_TMatrix<uint_2>
	416	//#pragma define_template NOMAdapter_TMatrix<int_2>
	417	#pragma define_template NOMAdapter_TMatrix<int_4>
	418	#pragma define_template NOMAdapter_TMatrix<r_4>
	419	#pragma define_template NOMAdapter_TMatrix<r_8>
[1315]	420	#pragma define_template NOMAdapter_TMatrix< complex<r_4> >
	421	#pragma define_template NOMAdapter_TMatrix< complex<r_8> >
[585]	422	//#pragma define_template NTupInt_TMatrix<uint_2>
	423	//#pragma define_template NTupInt_TMatrix<int_2>
	424	#pragma define_template NTupInt_TMatrix<int_4>
	425	#pragma define_template NTupInt_TMatrix<r_4>
	426	#pragma define_template NTupInt_TMatrix<r_8>
[719]	427	#pragma define_template NTupInt_TMatrix< complex<r_4> >
	428	#pragma define_template NTupInt_TMatrix< complex<r_8> >
[585]	429	#endif
	430
	431	#if defined(ANSI_TEMPLATES)
	432	//template class NOMAdapter_TMatrix<uint_2>;
	433	//template class NOMAdapter_TMatrix<int_2>;
	434	template class NOMAdapter_TMatrix<int_4>;
	435	template class NOMAdapter_TMatrix<r_4>;
	436	template class NOMAdapter_TMatrix<r_8>;
[1315]	437	template class NOMAdapter_TMatrix< complex<r_4> >;
	438	template class NOMAdapter_TMatrix< complex<r_8> >;
[585]	439	// template class NTupInt_TMatrix<uint_2>;
	440	// template class NTupInt_TMatrix<int_2>;
	441	template class NTupInt_TMatrix<int_4>;
	442	template class NTupInt_TMatrix<r_4>;
	443	template class NTupInt_TMatrix<r_8>;
[719]	444	template class NTupInt_TMatrix< complex<r_4> >;
	445	template class NTupInt_TMatrix< complex<r_8> >;
[585]	446	#endif

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