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source: Sophya/trunk/AddOn/TAcq/brprocGain.cc@ 4012

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Last change on this file since 4012 was 3994, checked in by campagne, 14 years ago
correct bug appel a FillPwrTmDTable avec le bon spectre median (JEC)
File size: 6.9 KB

Line
1	//----------------------------------------------------------------
2	// Projet BAORadio - (C) LAL/IRFU 2008-2010
3	// Classes de threads de traitement pour BAORadio
4	//----------------------------------------------------------------
5
6	#include <stdlib.h>
7	#include <string.h>
8	#include <unistd.h>
9	#include <fstream>
10	#include <signal.h>
11	#include <algorithm>
12
13	#include "pexceptions.h"
14	#include "tvector.h"
15	#include "ntuple.h"
16	#include "datatable.h"
17	#include "histos.h"
18	#include "fioarr.h"
19	#include "matharr.h"
20	#include "timestamp.h"
21	#include "ctimer.h"
22	#include "fftpserver.h"
23	#include "fitsarrhand.h"
24
25	#include "FFTW/fftw3.h"
26
27
28	#include "pciewrap.h"
29	#include "brpaqu.h"
30
31	#include "brprocGain.h"
32
33
34
35
36	//---------------------------------------------------------------------
37	// Classe de traitement de spectres -
38	// Calcul de spectres de gain
39	//---------------------------------------------------------------------
40	/* --Methode-- */
41	BRGainCalculator::BRGainCalculator(RAcqMemZoneMgr& memgr, string outpath, uint_4 nmean,
42	bool fgdatafft, bool fgsinglechan)
43	: BRMeanSpecCalculator(memgr,outpath,nmean,fgdatafft,fgsinglechan), forceMedianFreqFilter_(false), medianFilterHalfWidth_(50), nbwin4mean_(nmean)
44	{
45
46	// cout << "(JEC): BRGainCalculator Ctor " << endl;
47
48
49	setNameId("gainCalc",1);
50
51	uint_4 nb_octets_entrop = 0; //this value is valid for Dec. 2010 data at Nancay
52
53	const char* venvp = NULL;
54	venvp=getenv("BRANA_NBYTECUT");
55	if (venvp!=NULL){
56	nb_octets_entrop = atoi(venvp);
57	cout << "BRGainCalculator : BRANA_NBYTECUT : " << nb_octets_entrop << endl;
58	}
59
60	BRPaquet paq(memgr_.PaqSize()-nb_octets_entrop);
61
62	if (fgsinglechannel_) {
63	medfiltspecmtx_.SetSize(memgr_.NbFibres(), paq.DataSize()/2);
64	}
65	else {
66	medfiltspecmtx_.SetSize(2*memgr_.NbFibres(), paq.DataSize()/4);
67	}
68	//init
69	medfiltspecmtx_ = (r_4)(0.);
70	nummedianfile_ = 0;
71	nbtot_specwin_ = 0;
72	windowTime_ = TimeStamp(); //default
73
74	}
75
76
77	/* --Methode-- */
78	BRGainCalculator::~BRGainCalculator()
79	{
80	cout << "(JEC): BRGainCalculator Dtor: nbtot_specwin = " << nbtot_specwin_
81	<< "nbwin4mean = " << nbwin4mean_ << endl;
82	if(nbtot_specwin_>nbwin4mean_*0.5)SaveMedianSpectra();
83	}
84
85
86
87	/* --Methode-- */
88	void BRGainCalculator::ProcSpecWin(uint_8 numpaqstart, uint_8 numpaqend)
89	{
90
91	// cout << "(JEC): BRGainCalculator ProcSpecWin: "<< nbtot_specwin_
92	// << endl;
93
94
95
96	//JEC 13/12/10 save the filtered spectra
97	if ( (nbtot_specwin_>0)&&(nbtot_specwin_%nbwin4mean_==0) ) SaveMedianSpectra();
98
99	// Get time of window
100	windowTime_ = getObsTime();
101
102	if (prtlev_>1) {
103	cout << " BRGainCalculator::ProcSpecWin() num_win=" << nbtot_specwin_ << " numpaqstart=" << numpaqstart
104	<< " numpaqend=" << numpaqend << " nbwin4mean = " << nbwin4mean_ << endl;
105	cout << " (1) ObsTime=" << windowTime_ << " TimeTag=" << getCurTimeTagSeconds() << " s. FrameCounter="
106	<< getCurFrameCounter() << endl;
107	}
108	//DBG cout << "BRGainCalculator::ProcSpecWin()/Debug: numpaqstart=" << numpaqstart
109	//DBG << " numpaqend=" << numpaqend << endl;
110
111
112	//Implement the median filter at a fixed freq. but on all paquets of the window
113	//then apply a median filter on the frequencies
114	for(sa_size_t i=0; i<spec_window_.SizeY(); i++) { //loop on channel (voie)
115	TVector<r_4> medianFilterPaq(spec_window_.SizeX());
116	//we keep freq. = 0 for compatibility
117	for (sa_size_t f=0; f<spec_window_.SizeX(); f++) {
118	std::vector<r_4> val1;
119	TVector<r_4> tval1(spec_window_(Range(f),Range(i),Range::all()).CompactAllDimensions());
120	tval1.FillTo(val1);
121	std::nth_element(val1.begin(),
122	val1.begin()+val1.size()/2,
123	val1.end());
124	medianFilterPaq(f) = *(val1.begin()+val1.size()/2);
125	}//eo loop on frequencies
126
127
128
129	if(forceMedianFreqFilter_) {
130	//perform a median filter on the frequencies
131	TVector<r_4> medianFilterFreq = medfiltspecmtx_.Row(i);
132	sa_size_t hww = medianFilterHalfWidth_; //half freq window for filtering
133	sa_size_t fMin = 0.;
134	sa_size_t fMax = spec_window_.SizeX()-1;
135	for (sa_size_t f=0; f<spec_window_.SizeX(); f++) {
136	sa_size_t first = (f-hww >= fMin) ? f-hww : fMin;
137	sa_size_t last = (f+hww <= fMax) ? f+hww : fMax;
138	std::vector<r_4> val2;
139	medianFilterPaq(Range(first,last)).FillTo(val2);
140	std::nth_element(val2.begin(),
141	val2.begin()+val2.size()/2,
142	val2.end());
143	medianFilterFreq(f) = *(val2.begin()+val2.size()/2); //Notice the "+" for later take the mean
144	}//eo loop on frequencies
145	} else {
146	// cout<< "(JEC) ProcSpecWin debug medfiltspecmtx/medianFilterPaq "<< endl;
147	// medfiltspecmtx_.Row(i).Show();
148	// medianFilterPaq.Transpose().Show();
149	medfiltspecmtx_.Row(i) += medianFilterPaq.Transpose();
150	}
151	}//eo loop on channels
152
153	//We always end here with a medfiltspecmtx Matrix Row=[0,NCha-1] x Col=[0,fMax]
154
155
156	if (nbtot_specwin_<nmaxfiles_specw_) SaveSpectraWindow();
157
158
159	nbtot_specwin_++;
160	return;
161	}
162
163
164	/* --Methode-- */
165	//JEC 13/12/10 Start
166	void BRGainCalculator::SaveMedianSpectra()
167	{
168
169	cout << "(JEC): BRGainCalculator SaveMedianSpectra ("<<nummedianfile_<<") nbwin = "<< nbwin4mean_
170	<< " nbtot_specwin = " << nbtot_specwin_
171	<< endl;
172	if (prtlev_>1) {
173	cout << " BRGainCalculator:SaveMedianSpectra() nbwin4mean = " << nbwin4mean_ << endl
174	<< " (2) ObsTime=" << windowTime_ << " Total Intensity " << 0.5*medfiltspecmtx_.Sum() << endl;
175	}
176
177	//JEC compute power spectrum
178
179
180
181
182	for(sa_size_t ir=0; ir< medfiltspecmtx_.NRows(); ir++){
183	char buff[32];
184	sprintf(buff,"NPAQSUM_%d",(int)ir);
185	medfiltspecmtx_.Info()["NPAQSUM"] = nbtot_specwin_;
186	medfiltspecmtx_.Info()[buff] = nbtot_specwin_;
187	if ( nbtot_specwin_ > 0) {
188	medfiltspecmtx_.Row(ir) /= (r_4)nbtot_specwin_;
189	}
190	}//eo loop on channels
191	//JEC timeStamp in the day @ millisec: faudra gerer le passage a minuit!
192	//Reza : getObsTimeSeconds() fournit le temps ecoule en seconde a partir de 0h00 de la date du premier fichier
193	medfiltspecmtx_.Info()["TIMEWIN"] = (windowTime_.SecondsPart())*1000.;
194	if (nbpmoyttfc_>1) {
195	moyfc_/=(double)nbpmoyttfc_;
196	moytt_/=(double)nbpmoyttfc_;
197	}
198	string ikey,ikdesc;
199	ikey="MeanFC"; ikdesc="Mean FrameCounter";
200	medfiltspecmtx_.Info().SetI(ikey,moyfc_);
201	medfiltspecmtx_.Info().SetComment(ikey,ikdesc);
202	ikey="MeanTT"; ikdesc="Mean TimeTag";
203	medfiltspecmtx_.Info().SetD(ikey,moytt_);
204	medfiltspecmtx_.Info().SetComment(ikey,ikdesc);
205
206	char nfile[64];
207	string flnm;
208	{
209	sprintf(nfile,"medfiltmtx%d.fits",nummedianfile_);
210	flnm="!"+outpath_+nfile;
211	FitsInOutFile fos(flnm,FitsInOutFile::Fits_Create);
212	fos << medfiltspecmtx_;
213	cout << nummedianfile_ << "-BRGainCalculator::ProcSpecWin() save filtered spectra matrix in "
214	<< flnm << endl;
215	}
216
217	//increment the file index
218	nummedianfile_++;
219
220	if (dtpms_!=NULL) FillPwrTmDTable(medfiltspecmtx_);
221
222	//reset the matirx
223	medfiltspecmtx_ = (r_4)(0.);
224	//reset counter
225	nbtot_specwin_ = 0;
226	moyfc_=moytt_=0.;
227	nbpmoyttfc_=0;
228
229	return;
230	}
231	//JEC 13/12/10 End

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