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source: Sophya/trunk/SophyaLib/SkyMap/localmap.h@ 3751

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Last change on this file since 3751 was 3174, checked in by ansari, 19 years ago
Ajout methodes RenewObjId() pour cartes spheriques et localmap - Reza 05/02/2007
File size: 12.1 KB

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1	// This may look like C code, but it is really -- C++ --
2	#ifndef LOCALMAP_SEEN
3	#define LOCALMAP_SEEN
4
5	#include "pixelmap.h"
6	#include "sphericalmap.h"
7	#include "ndatablock.h"
8
9	#include "anydataobj.h"
10	#include "ppersist.h"
11
12
13
14	// *************** Class LocalMap ***************************
15
16
17
18	namespace SOPHYA {
19
20
21	template <class T>
22	class FIO_LocalMap;
23
24	template<class T>
25	class FITS_LocalMap;
26
27	/* Class LocalMap */
28
29
30	template<class T>
31	class LocalMap : public PixelMap<T>
32	{
33
34	// friend declaration for classes which handle persistence and FITS IO
35	friend class FIO_LocalMap<T>;
36	friend class FITS_LocalMap<T>;
37
38	public:
39
40	LocalMap();
41	LocalMap(int_4 nx, int_4 ny);
42	LocalMap(int_4 nx, int_4 ny, double angleX,double angleY, double theta0,double phi0,int_4 x0,int_4 y0,double angle=0.);
43	LocalMap(int_4 nx, int_4 ny, double angleX,double angleY, double theta0,double phi0, double angle=0.);
44	LocalMap(const LocalMap<T>& lm, bool share);
45	LocalMap(const LocalMap<T>& lm);
46	virtual ~LocalMap();
47
48	inline virtual bool IsTemp(void) const { return pixels_.IsTemp();}
49
50	/! Setting blockdata to temporary (see ndatablock documentation) /
51	inline virtual void SetTemp(bool temp=false) const {pixels_.SetTemp(temp);};
52
53
54	// ---------- Overloading of () to access pixel number k ----
55
56	inline T& operator()(int_4 k) {return(this->PixVal(k));}
57	inline T const& operator()(int_4 k) const {return(this->PixVal(k));}
58	inline T& operator()(int_4 ix, int_4 iy) {return this->PixVal(iy*nSzX_+ix);};
59	inline T const& operator()(int_4 ix, int_4 iy) const {return this->PixVal(iy*nSzX_+ix);};
60
61	// Acces a un pixel
62	inline T& operator()(double theta,double phi) {return(this->PixValSph(theta,phi));};
63	inline T const& operator()(double theta,double phi) const {return(this->PixValSph(theta,phi));};
64
65	// ---------- Definition of PixelMap abstract methods -------
66
67	virtual int_4 NbPixels() const; // D.Y. int change en int_4 rationalisation Mac
68
69	virtual T& PixVal(int_4 k);
70	virtual T const& PixVal(int_4 k) const;
71	//! if fg = true, will generate exceptions , when theta-phi out of range
72	inline void SetThrowExceptionWhenOutofMapFlag(bool fg = false) { exc_outofmap_ = fg; }
73
74	//! true --> exceptions wil be active when theta-phi out of range
75	inline bool GetThrowExceptionWhenOutofMapFlag() { return exc_outofmap_; }
76
77	virtual bool ContainsSph(double theta, double phi) const;
78	//! return pixel number correspoinding to (theta,phi)
79	virtual int_4 PixIndexSph(double theta,double phi) const;
80
81	//! return (theta,phi) correspoinding to pixel number k
82	virtual void PixThetaPhi(int_4 k,double& theta,double& phi) const;
83
84	//! set all pixel values equal to v
85	virtual T SetPixels(T v);
86
87	// return the solid angle covered by pixel k (steradians)
88	virtual double PixSolAngle(int_4 k) const;
89
90	// ---------- Specific methods ------------------------------
91
92	void ReSize(int_4 nx, int_4 ny);
93
94	void SetOrigin(double theta=90.,double phi=0.,double angle=0.);
95	void SetOrigin(double theta,double phi,int_4 x0,int_4 y0,double angle=0.);
96	void SetSize(double angleX,double angleY);
97
98	/*! \fn TypeOfMap()
99	return the string "LOCAL"
100	*/
101	inline virtual string TypeOfMap() const {return string("LOCAL");};
102
103
104	/! Check to see if the local mapping is done /
105	inline bool LocalMap_isDone() const {return( originSet_ && angleSized_ && pixelSized_);};
106
107	void PixThetaPhi(int_4 ip,int_4 it, double& theta,double& phi) const;
108
109
110	void ProjectionToSphere(SphericalMap<T>&) const;
111
112	/* There should be a more complex algorithm somewhere to combine several local maps to a full sphere.
113	-> static method, or separate class */
114
115	/! provides a integer characterizing the pixelization refinement (here : number of pixels) /
116	inline virtual int_4 SizeIndex() const {return(nPix_);}
117	inline int_4 Size_x() const {return nSzX_;}
118	inline int_4 Size_y() const {return nSzY_;}
119
120	/* Je rajoute ces 2 fonctions inlines pour compatibilite d'interface
121	avec TArray - Reza 30/8/2000 */
122	inline int_4 SizeX() const {return nSzX_;}
123	inline int_4 SizeY() const {return nSzY_;}
124
125	inline void Origin(double& theta,double& phi,int_4& x0,int_4& y0,double& angle) const {theta= thetaDegresC_; phi= phiDegresC_; x0= x0_; y0= y0_;angle= angleDegres_;}
126
127	/! total aperture in theta and phi, in degrees ( from SetSize() ) /
128	inline void Aperture(double& anglex,double& angley) const {anglex= angleDegresX_; angley= angleDegresY_;}
129
130
131	/* Acces to the DataBlock */
132	inline NDataBlock<T>& DataBlock() {return pixels_.DataBlock();}
133	inline const NDataBlock<T>& DataBlock() const {return pixels_.DataBlock();}
134
135	/* Acces to the matrix */
136	//! access to matrix
137	/*!
138	\warning : a pixel is defined by the pair of a phi-like index
139	(x-axis) and a theta-like index (y-axis). The phi-like index denotes
140	the column number in the matrix ; the theta-like index denotes the
141	row number.
142	*/
143	inline TMatrix<T>& Matrix() {return pixels_;}
144	inline const TMatrix<T>& Matrix() const {return pixels_;}
145
146	/* impression */
147	void print(ostream& os) const;
148
149	// Operations diverses = , +=, ...
150
151
152	virtual LocalMap<T>& Set(const LocalMap<T>& a);
153	inline LocalMap<T>& operator = (const LocalMap<T>& a) {return Set(a);}
154
155	// A += -= *= /= x (ajoute, soustrait, ... x a tous les elements)
156
157	//! Fill LocalMap with all elements equal to \b x
158	virtual LocalMap<T>& SetT(T a);
159	inline LocalMap<T>& operator = (T a) {return SetT(a);}
160
161	// Add \b x to all elements
162	virtual LocalMap<T>& Add(T a);
163	inline LocalMap<T>& operator += (T x) { return Add(x); }
164	// Substract \b x to all elements
165	virtual LocalMap<T>& Sub(T a,bool fginv=false);
166	inline LocalMap<T>& operator -= (T x) { return Sub(x); }
167	// Multiply all elements by \b x
168	virtual LocalMap<T>& Mul(T a);
169	inline LocalMap<T>& operator *= (T x) { return Mul(x); }
170	// Divide all elements by \b x
171	virtual LocalMap<T>& Div(T a);
172	inline LocalMap<T>& operator /= (T x) { return Div(x); }
173
174	// A += -= (ajoute, soustrait element par element les deux spheres )
175	//! Operator LocalMap += LocalMap
176	virtual LocalMap<T>& AddElt(const LocalMap<T>& a);
177	inline LocalMap<T>& operator += (const LocalMap<T>& a) { return AddElt(a); }
178
179
180
181	virtual LocalMap<T>& SubElt(const LocalMap<T>& a);
182	//! Operator LocalMap -= LocalMap
183	inline LocalMap<T>& operator -= (const LocalMap<T>& a) { return SubElt(a); }
184	// Multiplication, division element par element les deux LocalMap
185	virtual LocalMap<T>& MulElt(const LocalMap<T>& a);
186	inline LocalMap<T>& operator *= (const LocalMap<T>& a) { return MulElt(a); }
187	virtual LocalMap<T>& DivElt(const LocalMap<T>& a);
188	inline LocalMap<T>& operator /= (const LocalMap<T>& a) { return DivElt(a); }
189
190
191	void CloneOrShare(const LocalMap<T>& a);
192	void Share(const LocalMap<T>& a);
193	LocalMap<T>& CopyElt(const LocalMap<T>& a);
194
195	//! assign a new object Id (or DataRef Id) - useful for PPF write operations
196	inline void RenewObjId() { pixels_.RenewObjId(); }
197
198	// ---------- Méthodes internes -----------------------------
199
200	private :
201
202	void InitNul();
203	void SetCoorC(double theta0, double phi0);
204	TMatrix<double> CalculMatricePassage();
205	void Getij(int_4 k,int_4& i,int_4& j) const;
206	void PixToSphereC(int_4 ip, int_4 it, double& XP, double& YP, double& ZP) const;
207
208	void recopierVariablesSimples(const LocalMap<T>& lm);
209
210	void initializationError() const;
211
212
213	// ---------- Variables internes ----------------------------
214	// variables suffisantes pour reconstruire l'objet
215
216	bool pixelSized_;
217	bool angleSized_;
218	bool originSet_;
219
220	int_4 nSzX_;
221	int_4 nSzY_;
222	double angleDegresX_;
223	double angleDegresY_;
224	double thetaDegresC_;
225	double phiDegresC_;
226	int_4 x0_;
227	int_4 y0_;
228	double angleDegres_;
229
230
231	// NDataBlock<T> pixels_;
232	TMatrix<T> pixels_;
233
234
235	// variables derivees (redondantes, precalculees pour ameliorer
236	// les performances)
237
238	int_4 nPix_;
239
240
241	double thetaC_;
242	double phiC_;
243	double csthC_;
244	double snthC_;
245	double csphC_;
246	double snphC_;
247	double XC_;
248	double YC_;
249	double ZC_;
250
251
252	double angle_;
253	double cosAngle_;
254	double sinAngle_;
255	double deltaPhi_;
256	double deltaTheta_;
257
258	bool exc_outofmap_;
259
260
261	};
262
263	////////////////////////////////////////////////////////////////
264	// Surcharge d'operateurs A (+,-,*,/) (T) x
265	/*! \ingroup SkyMap \fn operator+(const LocalMap<T>&,T)
266	\brief Operator LocalMap = LocalMap + constant */
267	template <class T> inline LocalMap<T> operator + (const LocalMap<T>& a, T b)
268	{LocalMap<T> result; result.CloneOrShare(a); result.SetTemp(true);
269	result.Add(b); return result;}
270	/*! \ingroup SkyMap \fn operator+(T,const LocalMap<T>&)
271	\brief Operator LocalMap = constant + LocalMap */
272	template <class T> inline LocalMap<T> operator + (T b,const LocalMap<T>& a)
273	{LocalMap<T> result; result.CloneOrShare(a); result.SetTemp(true);
274	result.Add(b); return result;}
275
276
277	/*! \ingroup SkyMap\fn operator-(const LocalMap<T>&,T)
278	\brief Operator LocalMap = LocalMap - constant */
279	template <class T> inline LocalMap<T> operator - (const LocalMap<T>& a, T b)
280	{LocalMap<T> result; result.CloneOrShare(a); result.SetTemp(true);
281	result.Sub(b); return result;}
282
283	/*! \ingroup \fn operator-(T,const LocalMap<T>&)
284	\brief Operator LocalMap = constant - LocalMap */
285	template <class T> inline LocalMap<T> operator - (T b,const LocalMap<T>& a)
286	{LocalMap<T> result; result.CloneOrShare(a); result.SetTemp(true);
287	result.Sub(b,true); return result;}
288
289	/! \ingroup SkyMap \fn operator(const LocalMap<T>&,T)
290	\brief Operator LocalMap = LocalMap * constant */
291	template <class T> inline LocalMap<T> operator * (const LocalMap<T>& a, T b)
292	{LocalMap<T> result; result.CloneOrShare(a); result.SetTemp(true);
293	result.Mul(b); return result;}
294
295	/! \ingroup SkyMap \fn operator(T,const LocalMap<T>&)
296	\brief Operator LocalMap = constant * LocalMap */
297	template <class T> inline LocalMap<T> operator * (T b,const LocalMap<T>& a)
298	{LocalMap<T> result; result.CloneOrShare(a); result.SetTemp(true);
299	result.Mul(b); return result;}
300
301	/*! \ingroup SkyMap \fn operator/(const LocalMap<T>&,T)
302	\brief Operator LocalMap = LocalMap / constant */
303	template <class T> inline LocalMap<T> operator / (const LocalMap<T>& a, T b)
304	{LocalMap<T> result; result.CloneOrShare(a); result.SetTemp(true);
305	result.Div(b); return result;}
306
307	/*! \ingroup SkyMap \fn operator/(T,const LocalMap<T>&)
308	\brief Operator LocalMap = constant / LocalMap */
309	template <class T> inline LocalMap<T> operator / (T b, const LocalMap<T>& a)
310	{LocalMap<T> result; result.CloneOrShare(a); result.SetTemp(true);
311	result.Div(b, true); return result;}
312
313	////////////////////////////////////////////////////////////////
314	// Surcharge d'operateurs C = A (+,-) B
315
316	/*! \ingroup SkyMap \fn operator+(const LocalMap<T>&,const LocalMap<T>&)
317	\brief Operator LocalMap = LocalMap + LocalMap */
318	template <class T>
319	inline LocalMap<T> operator + (const LocalMap<T>& a,const LocalMap<T>& b)
320	{ LocalMap<T> result; result.SetTemp(true);
321	if (b.IsTemp()) { result.Share(b); result.AddElt(a); }
322	else { result.CloneOrShare(a); result.AddElt(b); }
323	return result; }
324
325	/*! \ingroup SkyMap \fn operator-(const LocalMap<T>&,const LocalMap<T>&)
326	\brief Operator LocalMap = LocalMap - LocalMap */
327	template <class T>
328	inline LocalMap<T> operator - (const LocalMap<T>& a,const LocalMap<T>& b)
329	{ LocalMap<T> result; result.SetTemp(true);
330	if (b.IsTemp()) { result.Share(b); result.SubElt(a); }
331	else { result.CloneOrShare(a); result.SubElt(b); }
332	return result; }
333
334	////////////////////////////////////////////////////////////////
335	// Surcharge d'operateurs C = A (*,/) B
336
337	/! \ingroup SkyMap \fn operator(const LocalMap<T>&,const LocalMap<T>&)
338	\brief Operator LocalMap = LocalMap * LocalMap (pixel by pixel multiply)*/
339	template <class T>
340	inline LocalMap<T> operator * (const LocalMap<T>& a,const LocalMap<T>& b)
341	{ LocalMap<T> result; result.SetTemp(true);
342	if (b.IsTemp()) { result.Share(b); result.MulElt(a); }
343	else { result.CloneOrShare(a); result.MulElt(b); }
344	return result; }
345
346	/*! \ingroup SkyMap \fn operator/(const LocalMap<T>&,const LocalMap<T>&)
347	\brief Operator LocalMap = LocalMap / LocalMap (pixel by pixel divide)*/
348	template <class T>
349	inline LocalMap<T> operator / (const LocalMap<T>& a,const LocalMap<T>& b)
350	{ LocalMap<T> result; result.SetTemp(true);
351	result.CloneOrShare(a); result.DivElt(b);
352	return result; }
353
354
355
356	} // Fin du namespace
357
358	#endif

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