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source: Sophya/trunk/SophyaPI/PIext/nomimagadapter.cc@ 1451

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Last change on this file since 1451 was 1321, checked in by ercodmgr, 25 years ago
Adaptateur de TArray et lecture FITS - Reza 13/11/2000
File size: 6.3 KB

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1	#include "machdefs.h"
2	#include <stdlib.h>
3	#include <typeinfo>
4	#include <iostream.h>
5	#include <string>
6
7	#include "datatype.h"
8
9	#include "nomimagadapter.h"
10	#include "pimgadapter.h"
11
12	#ifdef SANS_EVOLPLANCK
13	#include "fitsimage.h"
14	#else
15	#include "objfitter.h"
16	#include "fitstarray.h"
17	#endif
18
19
20
21	//---------------------------------------------------------------
22	// Class Adaptateur d'objet (Pour NamedObjMgr) d'objet Image<T>
23	//---------------------------------------------------------------
24
25
26	/* --Methode-- */
27	template <class T>
28	NOMAdapter_Image<T>::NOMAdapter_Image(Image<T> * o)
29	: NObjMgrAdapter(o)
30	{
31	mImg = o;
32	}
33
34	/* --Methode-- */
35	template <class T>
36	NOMAdapter_Image<T>::~NOMAdapter_Image()
37	{
38	}
39
40	/* --Methode-- */
41	template <class T>
42	NObjMgrAdapter* NOMAdapter_Image<T>::Clone(AnyDataObj* o)
43	{
44	Image<T>* im = dynamic_cast<Image<T> *>(o);
45	if (im) return ( new NOMAdapter_Image<T>(im) );
46	return ( new NObjMgrAdapter(o) );
47	}
48
49	/* --Methode-- */
50	template <class T>
51	string NOMAdapter_Image<T>::GetDataObjType()
52	{
53	string type = "Image< ";
54	// type += DecodeTypeIdName(typeid(T).name());
55	type += DataTypeInfo<T>::getTypeName();
56	type += " > ";
57	return(type);
58	}
59
60	/* --Methode-- */
61	template <class T>
62	AnyDataObj* NOMAdapter_Image<T>::CloneDataObj(bool share)
63	{
64	#ifdef SANS_EVOLPLANCK
65	FitsImage<T> * fima = dynamic_cast<FitsImage<T> *>(mImg);
66	if (fima == NULL) return( new Image<T>(*mImg ) );
67	else return ( new FitsImage<T>(*fima) );
68	#else
69	return( new Image<T>(*mImg, share) );
70	#endif
71	}
72
73	/* --Methode-- */
74	template <class T>
75	void NOMAdapter_Image<T>::ReadFits(string const & flnm)
76	{
77	#ifdef SANS_EVOLPLANCK
78	cerr << " NOMAdapter_Image<T>::ReadFits() Non disponible !! " << endl;
79	#else
80	FitsInFile fis(flnm);
81	fis >> (*mImg);
82	#endif
83	}
84
85	/* --Methode-- */
86	template <class T>
87	void NOMAdapter_Image<T>::SaveFits(string const & flnm)
88	{
89	#ifdef SANS_EVOLPLANCK
90	FitsImage<T> fim(*mImg, 1);
91	fim.Save(flnm);
92	#else
93	FitsOutFile fos(flnm);
94	fos << (*mImg);
95	#endif
96	}
97
98	#ifndef SANS_EVOLPLANCK
99	void NOMAdapter_Image< uint_2 >::SaveFits(string const & flnm)
100	{
101	cout << " NOMAdapter_Image< uint_2 >::SaveFits() - Error "
102	<< " Not supported uint_2 data type ! " << endl;
103	}
104
105	void NOMAdapter_Image< uint_2 >::ReadFits(string const & flnm)
106	{
107	cout << " NOMAdapter_Image< uint_2 >::ReadFits() - Error "
108	<< " Not supported uint_2 data type ! " << endl;
109	}
110	#endif
111
112	/* --Methode-- */
113	template <class T>
114	void NOMAdapter_Image<T>::SavePPF(POutPersist& pos, string const & nom)
115	{
116	#ifdef SANS_EVOLPLANCK
117	// PEIDA-EROS L'histo est lui-meme PPersist
118	string tag = nom; // A cause de const
119	mImg->Write(pos,0,tag);
120	#else
121	string s = typeid(*mObj).name();
122	cout << "NOMAdapter_Image<T>::SavePPF() - Error : Not supported for " << s << endl;
123	#endif
124	}
125
126	/* --Methode-- */
127	template <class T>
128	void NOMAdapter_Image<T>::Print(ostream& os)
129	{
130	mImg->Print(os);
131	}
132
133
134	/* --Methode-- */
135	template <class T>
136	P2DArrayAdapter* NOMAdapter_Image<T>::Get2DArray(string &)
137	{
138	return ( new ImageAdapter<T>(mImg, false) );
139	}
140
141	/* --Methode-- */
142	template <class T>
143	NTupleInterface* NOMAdapter_Image<T>::GetNTupleInterface(bool& adel)
144	{
145	adel = true;
146	return( new NTupInt_Image<T>(mImg) );
147	}
148
149	/* --Methode-- */
150	template <class T>
151	GeneralFitData* NOMAdapter_Image<T>::GetGeneralFitData(bool& adel
152	,GeneralFitData::FitErrType errtype,double errscale,double errmin
153	,int i1,int i2,int j1,int j2)
154	{
155	adel = false;
156	if(!mImg) return(NULL);
157
158	int nx = mImg->XSize();
159	int ny = mImg->YSize();
160	if(nx<=0 \|\| ny<=0) return(NULL);
161
162	i1 = (i1<0\|\|i1>=nx)? 0: i1;
163	i2 = (i2<0\|\|i2>=nx\|\|i2<i1)? nx-1: i2;
164	j1 = (j1<0\|\|j1>=ny)? 0: j1;
165	j2 = (j2<0\|\|j2>=ny\|\|j2<j1)? ny-1: j2;
166
167	GeneralFitData* mGData = new GeneralFitData(2,(i2-i1+1)*(j2-j1+1),0);
168	adel = true;
169
170	for(int i=i1;i<=i2;i++) for(int j=j1;j<=j2;j++) {
171	double x = mImg->XPos(i);
172	double y = mImg->YPos(j);
173	double f = (*mImg)(i,j);
174	double e = 1.;
175	e = GeneralFitData::ComputeError(f,e,errtype,errscale,errmin);
176	mGData->AddData2(x,y,f,e);
177	}
178
179	return mGData;
180	}
181
182	template <class T>
183	AnyDataObj* NOMAdapter_Image<T>::FitResidusObj(GeneralFit& mfit)
184	{
185	#ifdef SANS_EVOLPLANCK
186	RzImage* rzim = mImg->FitResidus(mfit);
187	ImageR4* im = new ImageR4(*rzim);
188	return im;
189	#else
190	Image<T>* im = new Image<T>(ObjectFitter::FitResidus(*mImg,mfit));
191	return im;
192	#endif
193	}
194
195	template <class T>
196	AnyDataObj* NOMAdapter_Image<T>::FitFunctionObj(GeneralFit& mfit)
197	{
198	#ifdef SANS_EVOLPLANCK
199	RzImage* rzim = mImg->FitFunction(mfit);
200	ImageR4* im = new ImageR4(*rzim);
201	return im;
202	#else
203	Image<T>* im = NULL;
204	//im = new Image<T>(ObjectFitter::FitFunction(*mImg,mfit));
205	return im;
206	#endif
207	}
208
209
210	// -------------------------------------------------------------
211
212	/* --Methode-- */
213	template <class T>
214	NTupInt_Image<T>::NTupInt_Image(Image<T>* m)
215	{
216	mImg = m;
217	}
218
219	/* --Methode-- */
220	template <class T>
221	NTupInt_Image<T>::~NTupInt_Image()
222	{
223	}
224
225	/* --Methode-- */
226	template <class T>
227	uint_4 NTupInt_Image<T>::NbLines() const
228	{
229	return( mImg->XSize() * mImg->YSize() );
230	}
231
232	/* --Methode-- */
233	template <class T>
234	uint_4 NTupInt_Image<T>::NbColumns() const
235	{
236	return(3);
237	}
238
239	/* --Methode-- */
240	template <class T>
241	r_8* NTupInt_Image<T>::GetLineD(int n) const
242	{
243	int i,j;
244	if ((n < 0) \|\| (n >= mImg->XSize() * mImg->YSize() ))
245	for(i=0; i<3; i++) mRet[i] = 0.;
246	else {
247	i = n%mImg->XSize(); j = n/mImg->XSize();
248	mRet[0] = i; mRet[1] = j; mRet[2] = (*mImg)(i,j);
249	}
250	return(mRet);
251	}
252
253	/* --Methode-- */
254	template <class T>
255	string NTupInt_Image<T>::VarList_C(const char* nx) const
256	{
257	string nomx;
258	if (nx) nomx = nx;
259	else nomx = "_xh_";
260	string vardec = "double x,y,pix,i,j,val; \n";
261	vardec += "x = i = " + nomx + "[0]; y = j = " + nomx + "[1]; pix = val = " + nomx + "[2]; \n";
262	return(vardec);
263	}
264
265	#ifdef __CXX_PRAGMA_TEMPLATES__
266	#pragma define_template NOMAdapter_Image<uint_2>
267	#pragma define_template NOMAdapter_Image<int_4>
268	#pragma define_template NOMAdapter_Image<r_4>
269	#pragma define_template NTupInt_Image<uint_2>
270	#pragma define_template NTupInt_Image<int_4>
271	#pragma define_template NTupInt_Image<r_4>
272	#ifdef SANS_EVOLPLANCK
273	#pragma define_template NOMAdapter_Image<int_2>
274	#pragma define_template NTupInt_Image<int_2>
275	#endif
276	#endif
277	#if defined(ANSI_TEMPLATES) \|\| defined(__ANSI_TEMPLATES__) \|\| defined(__GNU_TEMPLATES__)
278	template class NOMAdapter_Image<uint_2>;
279	template class NOMAdapter_Image<int_4>;
280	template class NOMAdapter_Image<r_4>;
281	template class NTupInt_Image<uint_2>;
282	template class NTupInt_Image<int_4>;
283	template class NTupInt_Image<r_4>;
284	#ifdef SANS_EVOLPLANCK
285	template class NOMAdapter_Image<int_2>;
286	template class NTupInt_Image<int_2>;
287	#endif
288	#endif
289
290

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