source: Sophya/trunk/Cosmo/RadioBeam/srcat2cube.cc@ 3799

Last change on this file since 3799 was 3785, checked in by ansari, 15 years ago

Ajout programme srcat2cube.cc de calcul de carte des radio source, Reza 16/06/2010
File size: 5.3 KB
Line 
1/* ------------------------ Projet BAORadio --------------------
2 Programme de fabrication d'un cube 3D (angles,fre)
3 a partir du catalogue de source radio (NVSS)
4 R. Ansari , C. Magneville - Juin 2010
5
6 Usage: srccat2cube CatalogFitsName Out3DPPFName [Out2DMapName]
7--------------------------------------------------------------- */
8
9#include "sopnamsp.h"
10#include "machdefs.h"
11#include <math.h>
12#include <iostream>
13#include <typeinfo>
14
15#include "array.h"
16#include "histats.h"
17
18#include "swfitsdtable.h"
19#include "fitshdtable.h"
20
21#include "randr48.h"
22
23#include "xastropack.h" // Pour faire les conversions de coordonnees celestes
24
25#include "radutil.h"
26
27// Pour l'initialisation des modules
28#include "tarrinit.h"
29#include "histinit.h"
30#include "fiosinit.h"
31
32#include "timing.h"
33#include "ctimer.h"
34
35#include "cubedef.h"
36
37//----------------------------------------------------------------------------
38//----------------------------------------------------------------------------
39int main(int narg, char* arg[])
40{
41 // Sophya modules initialization
42 TArrayInitiator _inia;
43 HiStatsInitiator _inih;
44 FitsIOServerInitiator _inif;
45 //------- AU LIEU DE ------> SophyaInit();
46
47 InitTim(); // Initializing the CPU timer
48 Timer tm("srcat2cube");
49
50 if (narg < 3) {
51 cout << "Usage: srccat2cube NVSS_CatalogFitsName Out3DPPFName [Out2DMapName]\n" << endl;
52 return 1;
53 }
54
55
56 // decodage arguments
57 string outname = arg[2];
58 string inname = arg[1];
59 int rc = 91;
60
61 cout << " ====== srccat2cube : Input NVSS catalog name= " << inname << " OutName=" << outname;
62 bool fginmap=true;
63 try {
64 DataTable nvss;
65 cout << "srccat2cube[1]: reading NVSS catalog from " << inname << endl;
66 {
67 FitsInOutFile fis(inname, FitsInOutFile::Fits_RO);
68 fis >> nvss;
69 }
70 cout << nvss;
71 sa_size_t idxa = nvss.IndexNom("C_RAJ2000");
72 sa_size_t idxd = nvss.IndexNom("C_DEJ2000");
73 sa_size_t idxf = nvss.IndexNom("S1_4");
74 cout << " ... Index Alpha: " << idxa << " Delta: " << idxd << " Flux: " << idxf << endl;
75
76 TArray<r_4> omap(NPhi,NTheta);
77 double tet0 = Theta0Degre;
78 double phi0 = Phi0Degre;
79 double tetmax = tet0+ThetaSizeDegre;
80 double phimax = phi0+PhiSizeDegre;
81
82 cout << "srccat2cube[2]: projecting sources to map ..." << endl;
83
84 sa_size_t srccnt=0;
85 double meanflx=0.;
86 double flxmin=9.e99;
87 double flxmax=-9.e99;
88
89 double dtet = ThetaSizeDegre/(double)NTheta;
90 double dphi = PhiSizeDegre/(double)NPhi;
91 for (sa_size_t n=0; n<nvss.NRows(); n++) {
92 r_8* pline=nvss.GetLineD(n);
93 double alpha=pline[idxa]; // alpha en degre
94 double delta=pline[idxd]; // delta en degre
95 double flx=pline[idxf]*1.e-3; // flux en Jy
96 double tet = 90.-delta;
97 double phi = alpha;
98 sa_size_t i = (phi-phi0)/dphi;
99 sa_size_t j = (tet-tet0)/dtet;
100 if ((i<0)||(i>=omap.SizeX())) continue;
101 if ((j<0)||(j>=omap.SizeY())) continue;
102 omap(i,j) += flx;
103 srccnt++; meanflx+=flx;
104 if (flx<flxmin) flxmin=flx;
105 if (flx>flxmax) flxmax=flx;
106 }
107
108 cout << "srccat2cube[3]: Output rectangular map computed " << endl;
109 meanflx /= (double)srccnt;
110 cout << " SrcCount in map: " << srccnt << " -> meanFlx=" << meanflx << " min=" << flxmin
111 << " max=" << flxmax << " Jy" << endl;
112
113 double mean, sigma;
114 MeanSigma(omap, mean, sigma);
115 cout << " Src Map : Mean=" << mean << " Sigma=" << sigma << " Jy - Sizes:" << endl;
116 omap.Show();
117
118 H21Conversions conv;
119 conv.setRedshift(0.);
120 conv.setOmegaPixDeg2(dphi*dtet);
121 cout << "srccat2cube[4] H21Conversions, OmegaPix=" << conv.getOmegaPix() << " srad"
122 << " toKelvin(1 Jy)= " << conv.toKelvin(1.) << endl;
123 omap *= (r_4)conv.toKelvin(1.);
124 MeanSigma(omap, mean, sigma);
125 cout << " After conversion : Mean=" << mean << " Sigma=" << sigma << " Kelvin " << endl;
126
127 if (narg > 3) {
128 string ppfname = arg[3];
129 cout << " srccat2cube[4]: Saving inmap/outmap tp PPF file-> " << ppfname << endl;
130 POutPersist po(ppfname);
131 po << PPFNameTag("omap") << omap;
132 }
133
134 TArray<r_4> ocube(NPhi,NTheta,NFreq);
135
136 double infreq = 1420.; // frequence de reference du flux des sources
137 double freq0 = Freq0MHz; // Freq0 du cube de sortie
138 double dfreq = FreqSizeMHz/(double)NFreq;
139
140 ThSDR48RandGen rg;
141 for (sa_size_t j=0; j<ocube.SizeY(); j++) {
142 for (sa_size_t i=0; i<ocube.SizeX(); i++) {
143 double freqexpo = rg.Gaussian(sigPLidxSrc,PLidxSrc);
144 for (sa_size_t k=0; k<ocube.SizeZ(); k++) {
145 double rapfreq = pow((freq0+k*dfreq)/infreq, freqexpo);
146 ocube(i,j,k) = AmpPL1*omap(i,j)*rapfreq;
147 }
148 }
149 }
150
151 // On sauve le cube de sortie
152 {
153 cout << " srccat2cube[5]: Saving output cube to -> " << outname << endl;
154 POutPersist poc(outname);
155 poc << ocube;
156 }
157
158 rc = 0;
159 }
160 catch (PThrowable& exc) {
161 cerr << " srccat2cube.cc catched Exception " << exc.Msg() << endl;
162 rc = 77;
163 }
164 catch (std::exception& sex) {
165 cerr << "\n srccat2cube.cc std::exception :"
166 << (string)typeid(sex).name() << "\n msg= "
167 << sex.what() << endl;
168 }
169 catch (...) {
170 cerr << " srccat2cube.cc catched unknown (...) exception " << endl;
171 rc = 78;
172 }
173
174 cout << ">>>> srccat2cube[9] ------- FIN ----------- Rc=" << rc << endl;
175 return rc;
176}
177
178
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