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source: BAORadio/AmasNancay/v4/mergeAnaFiles.cc@ 580

Last change on this file since 580 was 577, checked in by campagne, 14 years ago
improve analysis (jec)
File size: 39.4 KB

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1	// Utilisation de SOPHYA pour faciliter les tests ...
2	#include "sopnamsp.h"
3	#include "machdefs.h"
4	#include <dirent.h>
5	#include <matharr.h>
6
7	// include standard c/c++
8	#include <regex.h>
9	#include <stdio.h>
10	#include <stdlib.h>
11	#include <limits>
12	#include <iostream>
13	#include <fstream>
14	#include <string>
15	#include <vector>
16	#include <map>
17	#include <functional>
18	#include <algorithm>
19	#include <numeric>
20	#include <list>
21	#include <exception>
22
23	// include sophya mesure ressource CPU/memoire ...
24	#include "resusage.h"
25	#include "ctimer.h"
26	#include "timing.h"
27	#include "timestamp.h"
28	#include "strutilxx.h"
29	#include "ntuple.h"
30	#include "fioarr.h"
31	#include "tarrinit.h"
32	#include "histinit.h"
33	#include "fitsioserver.h"
34	#include "fiosinit.h"
35	#include "ppersist.h"
36
37	//-----------------------------------------------
38	//Usage
39	//
40	//./Objs/mergeAnaFiles -act meanCalibBAODiffOnOff -inPath /sps/baoradio/AmasNancay/JEC/ -src Abell85 -ppfFile dataRaw -debug 1 -mxcycles 500
41	//./Objs/mergeAnaFiles -src Abell85 -act meanCalibBAODiffOnOff -mxcycles 500 -calibfreq 1410 -inPath /sps/baoradio/AmasNancay/JEC/ -ppfFile dataRaw -debug 1 >& mergeAna-500.log
42	//
43	//
44	//-----------------------------------------------
45	const sa_size_t NUMBER_OF_CHANNELS = 2;
46	const sa_size_t NUMBER_OF_FREQ = 8192;
47	const r_4 LOWER_FREQUENCY = 1250.0; //MHz
48	const r_4 TOTAL_BANDWIDTH = 250.0; //MHz
49	//Input parameters
50	struct Param {
51	int debuglev_; //debug
52	string inPath_; //root directory of the input files
53	string outPath_; //output files are located here
54	string sourceName_; //source name & subdirectory of the input files
55	string ppfFile_; //generic name of the input files
56	int nSliceInFreq_; //used by reduceSpectra() fnc
57	string calibFreq_; //freq. value used for calibration
58	r_4 rcalibFreq_; //float version
59	string calibBandFreq_; //band of freq. used for calibration
60	r_4 rcalibBandFreq_; //float version
61	int maxNumberCycles_;//maximum number of cycles to be treated
62	} para;
63	//--------------------------------------------------------------
64	//Utility functions
65
66	sa_size_t freqToChan(r_4 f){
67	return (sa_size_t)((f-LOWER_FREQUENCY)/TOTAL_BANDWIDTH*NUMBER_OF_FREQ);
68	}
69	//--------
70	//COMPUTE the mean value on a freq. range for all channels
71	//--------
72	void meanInRange(const TMatrix<r_4> mtx,
73	sa_size_t chLow,
74	sa_size_t chHigh,
75	TVector<r_4>& vec){
76
77	sa_size_t nr = mtx.NRows();
78
79	for (sa_size_t ir=0; ir<nr; ir++){
80	TVector<r_4> tmp(mtx(Range(ir),Range(chLow,chHigh)),false);
81	double mean, sigma;
82	MeanSigma(tmp,mean,sigma);
83	vec(ir) = mean;
84	}
85	}
86	//---------
87	class median_of_empty_list_exception:public std::exception{
88	virtual const char* what() const throw() {
89	return "Attempt to take the median of an empty list of numbers. "
90	"The median of an empty list is undefined.";
91	}
92	};
93	template<class RandAccessIter>
94	double median(RandAccessIter begin, RandAccessIter end)
95	throw(median_of_empty_list_exception){
96	if(begin == end){ throw median_of_empty_list_exception(); }
97	std::size_t size = end - begin;
98	std::size_t middleIdx = size/2;
99	RandAccessIter target = begin + middleIdx;
100	std::nth_element(begin, target, end);
101
102	if(size % 2 != 0){ //Odd number of elements
103	return *target;
104	}else{ //Even number of elements
105	double a = *target;
106	RandAccessIter targetNeighbor= target-1;
107	std::nth_element(begin, targetNeighbor, end);
108	return (a+*targetNeighbor)/2.0;
109	}
110	}
111
112	//-------------
113	void split(const string& str, const string& delimiters , vector<string>& tokens) {
114	// Skip delimiters at beginning.
115	string::size_type lastPos = str.find_first_not_of(delimiters, 0);
116	// Find first "non-delimiter".
117	string::size_type pos = str.find_first_of(delimiters, lastPos);
118
119	while (string::npos != pos \|\| string::npos != lastPos)
120	{
121	// Found a token, add it to the vector.
122	tokens.push_back(str.substr(lastPos, pos - lastPos));
123	// Skip delimiters. Note the "not_of"
124	lastPos = str.find_first_not_of(delimiters, pos);
125	// Find next "non-delimiter"
126	pos = str.find_first_of(delimiters, lastPos);
127	}
128	}
129	//--------------------------------------------------------------
130	char regexp (const char string, const char patrn, int begin, int *end) {
131	int i, w=0, len;
132	char *word = NULL;
133	regex_t rgT;
134	regmatch_t match;
135	regcomp(&rgT,patrn,REG_EXTENDED);
136	if ((regexec(&rgT,string,1,&match,0)) == 0) {
137	*begin = (int)match.rm_so;
138	*end = (int)match.rm_eo;
139	len = end-begin;
140	word=(char*)malloc(len+1);
141	for (i=begin; i<end; i++) {
142	word[w] = string[i];
143	w++; }
144	word[w]=0;
145	}
146	regfree(&rgT);
147	return word;
148	}
149	//-------
150	sa_size_t round_sa(r_4 r) {
151	return static_cast<sa_size_t>((r > 0.0) ? (r + 0.5) : (r - 0.5));
152	}
153	//-----
154	string StringToLower(string strToConvert){
155	//change each element of the string to lower case
156	for(unsigned int i=0;i<strToConvert.length();i++) {
157	strToConvert[i] = tolower(strToConvert[i]);
158	}
159	return strToConvert;//return the converted string
160	}
161	//-----
162	bool stringCompare( const string &left, const string &right ){
163	if( left.size() < right.size() )
164	return true;
165	for( string::const_iterator lit = left.begin(), rit = right.begin(); lit != left.end() && rit != right.end(); ++lit, ++rit )
166	if( tolower( lit ) < tolower( rit ) )
167	return true;
168	else if( tolower( lit ) > tolower( rit ) )
169	return false;
170	return false;
171	}
172	//-----
173	list<string> ListOfFileInDir(string dir, string filePettern) throw(string) {
174	list<string> theList;
175
176
177	DIR *dip;
178	struct dirent *dit;
179	string msg; string fileName;
180	string fullFileName;
181	size_t found;
182
183	if ((dip=opendir(dir.c_str())) == NULL ) {
184	msg = "opendir failed on directory "+dir;
185	throw msg;
186	}
187	while ( (dit = readdir(dip)) != NULL ) {
188	fileName = dit->d_name;
189	found=fileName.find(filePettern);
190	if (found != string::npos) {
191	fullFileName = dir + "/";
192	fullFileName += fileName;
193	theList.push_back(fullFileName);
194	}
195	}//eo while
196	if (closedir(dip) == -1) {
197	msg = "closedir failed on directory "+dir;
198	throw msg;
199	}
200
201	theList.sort(stringCompare);
202
203	return theList;
204
205	}
206	//
207	class StringMatch : public unary_function<string,bool> {
208	public:
209	StringMatch(const string& pattern): pattern_(pattern){}
210	bool operator()(const string& aStr) const {
211
212
213	int b,e;
214	regexp(aStr.c_str(),pattern_.c_str(),&b,&e);
215
216	// cout << "investigate " << aStr << " to find " << pattern_
217	// << "[" <<b<<","<<e<<"]"
218	// << endl;
219
220
221	if (b != 0) return false;
222	if (e != (int)aStr.size()) return false;
223	return true;
224
225	}
226	private:
227	string pattern_;
228	};
229	//-------------------------------------------------------
230	//Rebin in frequence + compute mean and sigma
231	void reduceSpectra(const TMatrix<r_4>& specMtxInPut,
232	TMatrix<r_4>& meanMtx,
233	TMatrix<r_4>& sigmaMtx) {
234	sa_size_t nSliceFreq = para.nSliceInFreq_;
235	sa_size_t deltaFreq = NUMBER_OF_FREQ/nSliceFreq;
236	for (sa_size_t iSlice=0; iSlice<nSliceFreq; iSlice++){
237	sa_size_t freqLow= iSlice*deltaFreq;
238	sa_size_t freqHigh= freqLow + deltaFreq -1;
239	for (sa_size_t iCh=0; iCh<NUMBER_OF_CHANNELS; ++iCh){
240	TVector<r_4> reducedRow;
241	reducedRow = specMtxInPut.SubMatrix(Range(iCh),Range(freqLow,freqHigh)).CompactAllDimensions();
242	double mean;
243	double sigma;
244	MeanSigma(reducedRow,mean,sigma);
245	meanMtx(iCh,iSlice) = mean;
246	sigmaMtx(iCh,iSlice) = sigma;
247	}//eo loop on channels
248	}//eo loop on slices
249	}
250	//-------------------------------------------------------
251	//Compute the mean of Diff ON-OFF BAO-calibrated spectra and also the mean/sigma of rebinned spectra
252	//
253	void meanCalibBAODiffOnOffCycles() throw(string) {
254
255	list<string> listOfFiles;
256	string directoryName;
257	directoryName = para.inPath_ + "/" + para.sourceName_;
258
259	//Make the listing of the directory
260	listOfFiles = ListOfFileInDir(directoryName,para.ppfFile_);
261
262	list<string>::const_iterator iFile, iFileEnd, iSpec, iSpecEnd;
263	iFileEnd = listOfFiles.end();
264
265	//mean ON-OFF over the list of cycles
266	TMatrix<r_4> meanDiffONOFF_noCalib(NUMBER_OF_CHANNELS,NUMBER_OF_FREQ); //set to 0
267	TMatrix<r_4> meanDiffONOFF_perRunCalib(NUMBER_OF_CHANNELS,NUMBER_OF_FREQ); //set to 0
268	TMatrix<r_4> meanDiffONOFF_perCycleCalib(NUMBER_OF_CHANNELS,NUMBER_OF_FREQ); //set to 0
269	static const int NINFO=19;
270	char* onffTupleName[NINFO]={"cycle"
271	,"onoffRaw0","onoffRaw1"
272	,"onoffRun0","onoffRun1"
273	,"onoffCycle0","onoffCycle1"
274	,"onoffRaw01420","onoffRaw11420"
275	,"onoffRun01420","onoffRun11420"
276	,"onoffCycle01420","onoffCycle11420"
277	,"onoffRaw01420side","onoffRaw11420side"
278	,"onoffRun01420side","onoffRun11420side"
279	,"onoffCycle01420side","onoffCycle11420side"
280	};
281	NTuple onoffevolution(NINFO,onffTupleName);
282	r_4 xnt[NINFO];
283
284	//Lower and Higher freq. arround the Calibration Freq. bin to perform mean follow up
285	sa_size_t chCalibLow = freqToChan(para.rcalibFreq_ - (para.rcalibBandFreq_*0.5));
286	sa_size_t chCalibHigh = freqToChan(para.rcalibFreq_ + (para.rcalibBandFreq_*0.5));
287	//Lower and Higher freq. just arround 1420.4MHz Freq. bin to perform mean follow up
288	sa_size_t ch1420Low = freqToChan(1420);
289	sa_size_t ch1420High = freqToChan(1421);
290
291	//Lower and Higher freq. on the sides of 1420.4Mhz Freq. bin to perform mean follow up
292	sa_size_t ch1420aLow = freqToChan(1418);
293	sa_size_t ch1420aHigh = freqToChan(1419);
294	sa_size_t ch1420bLow = freqToChan(1422);
295	sa_size_t ch1420bHigh = freqToChan(1423);
296
297
298	if (para.debuglev_>90){
299	cout << "freq. band for follow up [" << chCalibLow << ", "<< chCalibHigh << "]" << endl;
300	cout << "freq. band for follow up [" << ch1420Low << ", "<< ch1420High << "]" << endl;
301	}
302
303	//Loop on files/run
304
305	int totalNumberCycles=0; //total number of cycles for normalisation
306	for (iFile = listOfFiles.begin(); iFile != iFileEnd; ++iFile) {
307	if (para.debuglev_>90){
308	cout << "load file <" << *iFile << ">" << endl;
309	}
310
311	vector<string> tokens;
312	split(*iFile,"_",tokens);
313	string dateOfRun = tokens[1];
314	if (para.debuglev_>90){
315	cout << "date <" << dateOfRun << ">" << endl;
316	}
317	vector<string> tokens2;
318	split(tokens[2],".",tokens2);
319	string srcLower = tokens2[0];
320
321
322
323	PInPersist fin(*iFile);
324	vector<string> vec = fin.GetNameTags();
325
326	vector<string> modeList;
327	modeList.push_back("On");
328	modeList.push_back("Off");
329	vector<string>::const_iterator iMode;
330
331	map<string, list<int> > cycleModeCollect;
332
333	for (iMode = modeList.begin(); iMode!=modeList.end(); ++iMode) {
334	list<string> listOfSpectra;
335	//Keep only required PPF objects
336	string matchstr = "specRaw"+(*iMode)+"[0-9]+";
337	std::remove_copy_if(
338	vec.begin(), vec.end(), back_inserter(listOfSpectra),
339	not1(StringMatch(matchstr))
340	);
341
342	listOfSpectra.sort(stringCompare);
343	iSpecEnd = listOfSpectra.end();
344
345	matchstr = "[0-9]+";
346	//Loop of spectra matrix
347	list<int> listOfCycles;
348	for (iSpec = listOfSpectra.begin(); iSpec!=iSpecEnd; ++iSpec){
349	int b,e;
350	regexp(iSpec->c_str(),matchstr.c_str(),&b,&e);
351	if (para.debuglev_>90){
352	cout << " spactra <" << *iSpec << ">" << endl;
353	cout << " cycle " << iSpec->substr(b) << endl;
354	}
355	listOfCycles.push_back(atoi((iSpec->substr(b)).c_str()));
356	}//end loop spectra
357	cycleModeCollect[*iMode] = listOfCycles;
358	}//end of mode
359
360	//Take the Intersection of the list Of cycles in mode Off and On
361	list<int> commonCycles;
362	set_intersection(cycleModeCollect["On"].begin(),
363	cycleModeCollect["On"].end(),
364	cycleModeCollect["Off"].begin(),
365	cycleModeCollect["Off"].end(),
366	back_inserter(commonCycles)
367	);
368
369	if (para.debuglev_>90){
370	cout << "Liste of cycles common to On & Off: <";
371	for (list<int>::iterator i=commonCycles.begin(); i!=commonCycles.end(); ++i){
372	cout << *i << " ";
373	}
374	cout << ">" << endl;
375	}
376
377	//
378	//Load BAO Calibration factors "per Cycle and Channels"
379	//Compute the mean per Cycle to
380	// fill factors "per Run and Channels" with the same cycle list
381	//
382	//
383	//TODO improve the code....
384
385	TMatrix<r_4> calibBAOfactors_Off_Cycle_Ch0;
386	TMatrix<r_4> calibBAOfactors_Off_Cycle_Ch1;
387	TMatrix<r_4> calibBAOfactors_On_Cycle_Ch0;
388	TMatrix<r_4> calibBAOfactors_On_Cycle_Ch1;
389
390	string calibFileName;
391	ifstream ifs;
392	sa_size_t nr,nc; //values read
393
394	//OFF Cycle per Channel
395	calibFileName = directoryName + "/"
396	+ "calib_" + dateOfRun + "_" + srcLower + "_Off_"
397	+ para.calibFreq_ +"MHz-Ch0Cycles.txt";
398	if(para.debuglev_>0) cout << "Read Calib file " << calibFileName << endl;
399	ifs.open(calibFileName.c_str());
400	if ( ! ifs.is_open() ) {
401
402	throw calibFileName + " cannot be opened...";
403	}
404	calibBAOfactors_Off_Cycle_Ch0.ReadASCII(ifs,nr,nc);
405	if(para.debuglev_>9){
406	cout << "(nr,nc): "<< nr << "," << nc << endl;
407	calibBAOfactors_Off_Cycle_Ch0.Print(cout);
408	cout << endl;
409	}
410
411	TMatrix<r_4> calibBAOfactors_Off_Run_Ch0(nr,nc);
412	calibBAOfactors_Off_Run_Ch0.Column(0) = calibBAOfactors_Off_Cycle_Ch0.Column(0);
413	{//Compute the mean
414	TVector<r_4> coef(calibBAOfactors_Off_Cycle_Ch0(Range::all(),Range::last()),false);
415	double mean,sigma;
416	MeanSigma(coef,mean,sigma);
417	calibBAOfactors_Off_Run_Ch0.Column(1).SetCst(mean);
418	}
419	if(para.debuglev_>9){
420	cout << "Fill calib. with mean value " << endl;
421	calibBAOfactors_Off_Run_Ch0.Print(cout);
422	cout << endl;
423	}
424	ifs.close();
425
426	//
427	calibFileName = directoryName + "/"
428	+ "calib_" + dateOfRun + "_" + srcLower + "_Off_"
429	+ para.calibFreq_ +"MHz-Ch1Cycles.txt";
430	if(para.debuglev_>0) cout << "Read Calib file " << calibFileName << endl;
431	ifs.open(calibFileName.c_str());
432	if ( ! ifs.is_open() ) {
433
434	throw calibFileName + " cannot be opened...";
435	}
436	calibBAOfactors_Off_Cycle_Ch1.ReadASCII(ifs,nr,nc);
437	if(para.debuglev_>9){
438	cout << "(nr,nc): "<< nr << "," << nc << endl;
439	calibBAOfactors_Off_Cycle_Ch1.Print(cout);
440	cout << endl;
441	}
442	TMatrix<r_4> calibBAOfactors_Off_Run_Ch1(nr,nc);
443	calibBAOfactors_Off_Run_Ch1.Column(0) = calibBAOfactors_Off_Cycle_Ch1.Column(0);
444	{//Compute the mean
445	TVector<r_4> coef(calibBAOfactors_Off_Cycle_Ch1(Range::all(),Range::last()),false);
446	double mean,sigma;
447	MeanSigma(coef,mean,sigma);
448	// cout << "Mean: " << mean << " sigma " << sigma << endl;
449	calibBAOfactors_Off_Run_Ch1.Column(1).SetCst(mean);
450	}
451	if(para.debuglev_>9){
452	cout << "Fill calib. with mean value " << endl;
453	calibBAOfactors_Off_Run_Ch1.Print(cout);
454	cout << endl;
455	}
456	ifs.close();
457
458	//ON Cycle per Channel
459	calibFileName = directoryName + "/"
460	+ "calib_" + dateOfRun + "_" + srcLower + "_On_"
461	+ para.calibFreq_ +"MHz-Ch0Cycles.txt";
462	if(para.debuglev_>0) cout << "Read Calib file " << calibFileName << endl;
463	ifs.open(calibFileName.c_str());
464	if ( ! ifs.is_open() ) {
465
466	throw calibFileName + " cannot be opened...";
467	}
468	calibBAOfactors_On_Cycle_Ch0.ReadASCII(ifs,nr,nc);
469	if(para.debuglev_>9){
470	cout << "(nr,nc): "<< nr << "," << nc << endl;
471	calibBAOfactors_On_Cycle_Ch0.Print(cout);
472	cout << endl;
473	}
474
475	TMatrix<r_4> calibBAOfactors_On_Run_Ch0(nr,nc);
476	calibBAOfactors_On_Run_Ch0.Column(0) = calibBAOfactors_On_Cycle_Ch0.Column(0);
477	{//Compute the mean
478	TVector<r_4> coef(calibBAOfactors_On_Cycle_Ch0(Range::all(),Range::last()),false);
479	double mean,sigma;
480	MeanSigma(coef,mean,sigma);
481	// cout << "Mean: " << mean << " sigma " << sigma << endl;
482	calibBAOfactors_On_Run_Ch0.Column(1).SetCst(mean);
483	}
484	if(para.debuglev_>9){
485	cout << "Fill calib. with mean value " << endl;
486	calibBAOfactors_On_Run_Ch0.Print(cout);
487	cout << endl;
488	}
489	ifs.close();
490
491
492	calibFileName = directoryName + "/"
493	+ "calib_" + dateOfRun + "_" + srcLower + "_On_"
494	+ para.calibFreq_ +"MHz-Ch1Cycles.txt";
495	if(para.debuglev_>0) cout << "Read Calib file " << calibFileName << endl;
496	ifs.open(calibFileName.c_str());
497	if ( ! ifs.is_open() ) {
498	throw calibFileName + " cannot be opened...";
499	}
500	calibBAOfactors_On_Cycle_Ch1.ReadASCII(ifs,nr,nc);
501	if(para.debuglev_>9){
502	cout << "(nr,nc): "<< nr << "," << nc << endl;
503	calibBAOfactors_On_Cycle_Ch1.Print(cout);
504	cout << endl;
505	}
506	TMatrix<r_4> calibBAOfactors_On_Run_Ch1(nr,nc);
507	calibBAOfactors_On_Run_Ch1.Column(0) = calibBAOfactors_On_Cycle_Ch1.Column(0);
508	{//Compute the mean
509	TVector<r_4> coef(calibBAOfactors_On_Cycle_Ch1(Range::all(),Range::last()),false);
510	double mean,sigma;
511	MeanSigma(coef,mean,sigma);
512	// cout << "Mean: " << mean << " sigma " << sigma << endl;
513	calibBAOfactors_On_Run_Ch1.Column(1).SetCst(mean);
514	}
515	if(para.debuglev_>9){
516	cout << "Fill calib. with mean value " << endl;
517	calibBAOfactors_On_Run_Ch1.Print(cout);
518	cout << endl;
519	}
520
521	ifs.close();
522
523	//link <cycle> - <calibration coefficient>
524	//We cannot rely on identical cycle list of the OFF and ON calibration
525	map<int,r_4> calibBAO_Off_Run_Ch0;
526	map<int,r_4> calibBAO_Off_Run_Ch1;
527	map<int,r_4> calibBAO_On_Run_Ch0;
528	map<int,r_4> calibBAO_On_Run_Ch1;
529
530	map<int,r_4> calibBAO_Off_Cycle_Ch0;
531	map<int,r_4> calibBAO_Off_Cycle_Ch1;
532	map<int,r_4> calibBAO_On_Cycle_Ch0;
533	map<int,r_4> calibBAO_On_Cycle_Ch1;
534
535	//per Run based BAO coefficients
536	nr = calibBAOfactors_Off_Run_Ch0.NRows();
537	for (sa_size_t ir=0; ir<nr; ++ir){
538	// cout << "Calib. Off Run Ch0 cycle ["<< calibBAOfactors_Off_Run_Ch0(ir,0)<<"], val "
539	// << calibBAOfactors_Off_Run_Ch0(ir,1) << endl;
540
541	calibBAO_Off_Run_Ch0[(int)calibBAOfactors_Off_Run_Ch0(ir,0)]
542	= calibBAOfactors_Off_Run_Ch0(ir,1);
543	calibBAO_Off_Cycle_Ch0[(int)calibBAOfactors_Off_Cycle_Ch0(ir,0)]
544	= calibBAOfactors_Off_Cycle_Ch0(ir,1);
545	calibBAO_Off_Run_Ch1[(int)calibBAOfactors_Off_Run_Ch1(ir,0)]
546	= calibBAOfactors_Off_Run_Ch1(ir,1);
547	calibBAO_Off_Cycle_Ch1[(int)calibBAOfactors_Off_Cycle_Ch1(ir,0)]
548	= calibBAOfactors_Off_Cycle_Ch1(ir,1);
549	}//eo loop on coef Off
550
551	nr = calibBAOfactors_On_Run_Ch0.NRows();
552	for (sa_size_t ir=0; ir<nr; ++ir){
553	calibBAO_On_Run_Ch0[(int)calibBAOfactors_On_Run_Ch0(ir,0)]
554	= calibBAOfactors_On_Run_Ch0(ir,1);
555	calibBAO_On_Cycle_Ch0[(int)calibBAOfactors_On_Cycle_Ch0(ir,0)]
556	= calibBAOfactors_On_Cycle_Ch0(ir,1);
557	calibBAO_On_Run_Ch1[(int)calibBAOfactors_On_Run_Ch1(ir,0)]
558	= calibBAOfactors_On_Run_Ch1(ir,1);
559	calibBAO_On_Cycle_Ch1[(int)calibBAOfactors_On_Cycle_Ch1(ir,0)]
560	= calibBAOfactors_On_Cycle_Ch1(ir,1);
561	}//eo loop on coef On
562
563	//Loop on cyles
564	for (list<int>::iterator ic=commonCycles.begin(); ic!=commonCycles.end(); ++ic){
565
566	//Look if the cycle has been calibrated...
567	bool isCycleCalibrated =
568	( calibBAO_On_Run_Ch0.count(ic)
569	calibBAO_On_Run_Ch1.count(ic)
570	calibBAO_Off_Run_Ch0.count(ic)
571	calibBAO_Off_Run_Ch1.count(ic)
572	calibBAO_On_Cycle_Ch0.count(ic)
573	calibBAO_On_Cycle_Ch1.count(ic)
574	calibBAO_Off_Cycle_Ch0.count(ic)
575	calibBAO_Off_Cycle_Ch1.count(*ic) ) != 0 ? true : false;
576
577	if(para.debuglev_>9) {
578	cout << "Calibration coefficients for cycle "<<*ic << endl;
579	if (isCycleCalibrated) {
580	cout << "Cycle calibrated " << endl;
581	cout << "Off Run Ch0 " << calibBAO_Off_Run_Ch0[*ic] << " "
582	<< "Ch1 " << calibBAO_Off_Run_Ch1[*ic] << "\n"
583	<< "On Run Ch0 " << calibBAO_On_Run_Ch0[*ic] << " "
584	<< "Ch1 " << calibBAO_On_Run_Ch1[*ic] << "\n"
585	<< "Off Cycle Ch0 " << calibBAO_Off_Cycle_Ch0[*ic] << " "
586	<< "Ch1 " << calibBAO_Off_Cycle_Ch1[*ic] << "\n"
587	<< "On Cycle Ch0 " << calibBAO_On_Cycle_Ch0[*ic] << " "
588	<< "Ch1 " << calibBAO_On_Cycle_Ch1[*ic] << endl;
589	} else {
590	cout << "Cycle NOT calibrated " << endl;
591	}
592	}//debug
593
594
595	if ( ! isCycleCalibrated ) continue;
596
597	string ppftag;
598	//load ON phase
599	stringstream cycle;
600	cycle << *ic;
601
602	ppftag = "specRawOn"+cycle.str();
603	TMatrix<r_4> aSpecOn(NUMBER_OF_CHANNELS,NUMBER_OF_FREQ);
604	fin.GetObject(aSpecOn,ppftag);
605
606	TMatrix<r_4> aSpecOn_BAOCalibRun(aSpecOn,false);
607	aSpecOn_BAOCalibRun(Range(0),Range::all()) /= calibBAO_On_Run_Ch0[*ic];
608	aSpecOn_BAOCalibRun(Range(1),Range::all()) /= calibBAO_On_Run_Ch1[*ic];
609
610	TMatrix<r_4> aSpecOn_BAOCalibCycle(aSpecOn,false);
611	aSpecOn_BAOCalibCycle(Range(0),Range::all()) /= calibBAO_On_Cycle_Ch0[*ic];
612	aSpecOn_BAOCalibCycle(Range(1),Range::all()) /= calibBAO_On_Cycle_Ch1[*ic];
613
614	ppftag = "specRawOff"+cycle.str();
615	TMatrix<r_4> aSpecOff(NUMBER_OF_CHANNELS,NUMBER_OF_FREQ);
616	fin.GetObject(aSpecOff,ppftag);
617
618	TMatrix<r_4> aSpecOff_BAOCalibRun(aSpecOff,false);
619	aSpecOff_BAOCalibRun(Range(0),Range::all()) /= calibBAO_Off_Run_Ch0[*ic];
620	aSpecOff_BAOCalibRun(Range(1),Range::all()) /= calibBAO_Off_Run_Ch1[*ic];
621
622	TMatrix<r_4> aSpecOff_BAOCalibCycle(aSpecOff,false);
623	aSpecOff_BAOCalibCycle(Range(0),Range::all()) /= calibBAO_Off_Cycle_Ch0[*ic];
624	aSpecOff_BAOCalibCycle(Range(1),Range::all()) /= calibBAO_Off_Cycle_Ch1[*ic];
625
626
627	//Perform the difference ON-OFF with the different calibration options
628	TMatrix<r_4> diffOnOff_noCalib = aSpecOn - aSpecOff;
629	meanDiffONOFF_noCalib += diffOnOff_noCalib;
630
631	TMatrix<r_4> diffOnOff_perRunCalib = aSpecOn_BAOCalibRun - aSpecOff_BAOCalibRun;
632	meanDiffONOFF_perRunCalib += diffOnOff_perRunCalib;
633
634	TMatrix<r_4> diffOnOff_perCycleCalib = aSpecOn_BAOCalibCycle - aSpecOff_BAOCalibCycle;
635	meanDiffONOFF_perCycleCalib += diffOnOff_perCycleCalib;
636
637	//
638	totalNumberCycles++;
639	//Fill NTuple
640	xnt[0] = totalNumberCycles;
641
642	//Follow up arround the Calibration Freq.
643	TVector<r_4> meanInRange_CalibFreq_noCalib(NUMBER_OF_CHANNELS);
644	meanInRange(diffOnOff_noCalib,chCalibLow,chCalibHigh,meanInRange_CalibFreq_noCalib);
645	xnt[1] = meanInRange_CalibFreq_noCalib(0);
646	xnt[2] = meanInRange_CalibFreq_noCalib(1);
647
648	TVector<r_4> meanInRange_CalibFreq_perRunCalib(NUMBER_OF_CHANNELS);
649	meanInRange(diffOnOff_perRunCalib,chCalibLow,chCalibHigh,meanInRange_CalibFreq_perRunCalib);
650	xnt[3] = meanInRange_CalibFreq_perRunCalib(0);
651	xnt[4] = meanInRange_CalibFreq_perRunCalib(1);
652
653	TVector<r_4> meanInRange_CalibFreq_perCycleCalib(NUMBER_OF_CHANNELS);
654	meanInRange(diffOnOff_perCycleCalib,chCalibLow,chCalibHigh,meanInRange_CalibFreq_perCycleCalib);
655	xnt[5] = meanInRange_CalibFreq_perCycleCalib(0);
656	xnt[6] = meanInRange_CalibFreq_perCycleCalib(1);
657
658
659	//Follow up arround the 1420.4MHz Freq.
660	TVector<r_4> meanInRange_1420Freq_noCalib(NUMBER_OF_CHANNELS);
661	meanInRange(diffOnOff_noCalib,ch1420Low,ch1420High,meanInRange_1420Freq_noCalib);
662	xnt[7] = meanInRange_1420Freq_noCalib(0);
663	xnt[8] = meanInRange_1420Freq_noCalib(1);
664
665	TVector<r_4> meanInRange_1420Freq_perRunCalib(NUMBER_OF_CHANNELS);
666	meanInRange(diffOnOff_perRunCalib,ch1420Low,ch1420High,meanInRange_1420Freq_perRunCalib);
667	xnt[9] = meanInRange_1420Freq_perRunCalib(0);
668	xnt[10] = meanInRange_1420Freq_perRunCalib(1);
669
670	TVector<r_4> meanInRange_1420Freq_perCycleCalib(NUMBER_OF_CHANNELS);
671	meanInRange(diffOnOff_perCycleCalib,ch1420Low,ch1420High,meanInRange_1420Freq_perCycleCalib);
672	xnt[11] = meanInRange_1420Freq_perCycleCalib(0);
673	xnt[12] = meanInRange_1420Freq_perCycleCalib(1);
674
675
676	//Follow up below the 1420.4MHz Freq.
677	TVector<r_4> meanInRange_1420aFreq_noCalib(NUMBER_OF_CHANNELS);
678	meanInRange(diffOnOff_noCalib,ch1420aLow,ch1420aHigh,meanInRange_1420aFreq_noCalib);
679	TVector<r_4> meanInRange_1420bFreq_noCalib(NUMBER_OF_CHANNELS);
680	meanInRange(diffOnOff_noCalib,ch1420bLow,ch1420bHigh,meanInRange_1420bFreq_noCalib);
681
682	xnt[13] = (meanInRange_1420aFreq_noCalib(0) + meanInRange_1420bFreq_noCalib(0))/2.;
683	xnt[14] = (meanInRange_1420aFreq_noCalib(1) + meanInRange_1420bFreq_noCalib(1))/2.;
684
685
686	TVector<r_4> meanInRange_1420aFreq_perRun(NUMBER_OF_CHANNELS);
687	meanInRange(diffOnOff_perRunCalib,ch1420aLow,ch1420aHigh,meanInRange_1420aFreq_perRun);
688	TVector<r_4> meanInRange_1420bFreq_perRun(NUMBER_OF_CHANNELS);
689	meanInRange(diffOnOff_perRunCalib,ch1420bLow,ch1420bHigh,meanInRange_1420bFreq_perRun);
690
691	xnt[15] = (meanInRange_1420aFreq_perRun(0) + meanInRange_1420bFreq_perRun(0))/2.;
692	xnt[16] = (meanInRange_1420aFreq_perRun(1) + meanInRange_1420bFreq_perRun(1))/2.;
693
694
695	TVector<r_4> meanInRange_1420aFreq_perCycle(NUMBER_OF_CHANNELS);
696	meanInRange(diffOnOff_perCycleCalib,ch1420aLow,ch1420aHigh,meanInRange_1420aFreq_perCycle);
697	TVector<r_4> meanInRange_1420bFreq_perCycle(NUMBER_OF_CHANNELS);
698	meanInRange(diffOnOff_perCycleCalib,ch1420bLow,ch1420bHigh,meanInRange_1420bFreq_perCycle);
699
700	xnt[17] = (meanInRange_1420aFreq_perCycle(0) + meanInRange_1420bFreq_perCycle(0))/2.;
701	xnt[18] = (meanInRange_1420aFreq_perCycle(1) + meanInRange_1420bFreq_perCycle(1))/2.;
702
703
704	//store infos to Ntuple
705	onoffevolution.Fill(xnt);
706
707	//Quit if enough
708	if (totalNumberCycles >= para.maxNumberCycles_) break;
709
710	}//eo loop on cycles
711	if (totalNumberCycles >= para.maxNumberCycles_) break;
712
713	}//eo loop on spectra in a file
714	cout << "End of jobs: we have treated " << totalNumberCycles << " cycles" << endl;
715	//Normalisation
716	if(totalNumberCycles > 0){
717	meanDiffONOFF_noCalib /= (r_4)totalNumberCycles;
718	meanDiffONOFF_perRunCalib /= (r_4)totalNumberCycles;
719	meanDiffONOFF_perCycleCalib /= (r_4)totalNumberCycles;
720	}
721
722	//Compute the reduced version of the mean and sigma
723	TMatrix<r_4> meanRedMtx_noCalib(NUMBER_OF_CHANNELS,para.nSliceInFreq_);
724	TMatrix<r_4> sigmaRedMtx_noCalib(NUMBER_OF_CHANNELS,para.nSliceInFreq_);
725	reduceSpectra(meanDiffONOFF_noCalib,meanRedMtx_noCalib,sigmaRedMtx_noCalib);
726
727	TMatrix<r_4> meanRedMtx_perRunCalib(NUMBER_OF_CHANNELS,para.nSliceInFreq_);
728	TMatrix<r_4> sigmaRedMtx_perRunCalib(NUMBER_OF_CHANNELS,para.nSliceInFreq_);
729	reduceSpectra(meanDiffONOFF_perRunCalib,meanRedMtx_perRunCalib,sigmaRedMtx_perRunCalib);
730
731	TMatrix<r_4> meanRedMtx_perCycleCalib(NUMBER_OF_CHANNELS,para.nSliceInFreq_);
732	TMatrix<r_4> sigmaRedMtx_perCycleCalib(NUMBER_OF_CHANNELS,para.nSliceInFreq_);
733	reduceSpectra(meanDiffONOFF_perCycleCalib,meanRedMtx_perCycleCalib,sigmaRedMtx_perCycleCalib);
734
735	{//save the results
736	stringstream tmp;
737	tmp << totalNumberCycles;
738	string fileName = para.outPath_+"/onoffsurvey_"+StringToLower(para.sourceName_)+"-"+tmp.str()+"Cycles.ppf";
739
740	POutPersist fos(fileName);
741	cout << "Save output in " << fileName << endl;
742
743	string tag = "meanNoCalib";
744	fos << PPFNameTag(tag) << meanDiffONOFF_noCalib;
745	tag = "meanPerRunCalib";
746	fos << PPFNameTag(tag) << meanDiffONOFF_perRunCalib;
747	tag = "meanPerCycleCalib";
748	fos << PPFNameTag(tag) << meanDiffONOFF_perCycleCalib;
749
750	tag = "redmeanNoCalib";
751	fos << PPFNameTag(tag) << meanRedMtx_noCalib;
752	tag = "redsigmaNoCalib";
753	fos << PPFNameTag(tag) << sigmaRedMtx_noCalib;
754
755	tag = "redmeanPerRunCalib";
756	fos << PPFNameTag(tag) << meanRedMtx_perRunCalib;
757	tag = "redsigmaPerRunCalib";
758	fos << PPFNameTag(tag) << sigmaRedMtx_perRunCalib;
759
760	tag = "redmeanPerCycleCalib";
761	fos << PPFNameTag(tag) << meanRedMtx_perCycleCalib;
762	tag = "redsigmaPerCycleCalib";
763	fos << PPFNameTag(tag) << sigmaRedMtx_perCycleCalib;
764
765	tag = "onoffevol";
766	fos << PPFNameTag(tag) << onoffevolution;
767	}//end of save
768	}
769	//-------------------------------------------------------
770	//Compute the mean of Diff ON-OFF Raw spectra and also the mean/sigma of rebinned spectra
771	//Used like:
772	//
773	void meanRawDiffOnOffCycles() throw(string) {
774	list<string> listOfFiles;
775	string directoryName;
776	directoryName = para.inPath_ + "/" + para.sourceName_;
777
778	//Make the listing of the directory
779	listOfFiles = ListOfFileInDir(directoryName,para.ppfFile_);
780
781	list<string>::const_iterator iFile, iFileEnd, iSpec, iSpecEnd;
782	iFileEnd = listOfFiles.end();
783
784	StringMatch match("specONOFFRaw[0-9]+"); //Tag of the PPF objects
785	TMatrix<r_4> meanOfSpectra(NUMBER_OF_CHANNELS,NUMBER_OF_FREQ);
786	uint_4 nSpectra=0;
787	//Loop on files
788	for (iFile = listOfFiles.begin(); iFile != iFileEnd; ++iFile) {
789	if (para.debuglev_>90){
790	cout << "load file <" << *iFile << ">" << endl;
791	}
792	PInPersist fin(*iFile);
793	vector<string> vec = fin.GetNameTags();
794	list<string> listOfSpectra;
795	//Keep only required PPF objects
796	std::remove_copy_if(
797	vec.begin(), vec.end(), back_inserter(listOfSpectra),
798	not1(match)
799	);
800
801	listOfSpectra.sort(stringCompare);
802	iSpecEnd = listOfSpectra.end();
803	//Loop of spectra matrix
804	for (iSpec = listOfSpectra.begin(); iSpec !=iSpecEnd; ++iSpec){
805	if (para.debuglev_>90){
806	cout << " spactra <" << *iSpec << ">" << endl;
807	}
808	TMatrix<r_4> aSpec(NUMBER_OF_CHANNELS,NUMBER_OF_FREQ);
809	fin.GetObject(aSpec,*iSpec);
810	//How to see if the GetObject is ok?? Ask Reza
811	nSpectra++;
812	meanOfSpectra+=aSpec;
813	}//eo loop on spectra in a file
814	}//eo loop on files
815
816	//Normalisation
817	if(nSpectra>0)meanOfSpectra/=(r_4)(nSpectra);
818
819	//Compute the reduced version of the mean and sigma
820	TMatrix<r_4> meanRedMtx(NUMBER_OF_CHANNELS,para.nSliceInFreq_);
821	TMatrix<r_4> sigmaRedMtx(NUMBER_OF_CHANNELS,para.nSliceInFreq_);
822	reduceSpectra(meanOfSpectra,meanRedMtx,sigmaRedMtx);
823
824	{//Save the result
825	stringstream tmp;
826	tmp << nSpectra;
827	string fileName = para.outPath_+"/meanDiffOnOffRaw_"+StringToLower(para.sourceName_)+"-"+tmp.str()+"Cycles.ppf";
828	cout << "Save mean based on " << nSpectra << " cycles " << endl;
829	POutPersist fos(fileName);
830
831	string tag = "mean";
832	fos << PPFNameTag(tag) << meanOfSpectra;
833	tag = "meanred";
834	fos << PPFNameTag(tag) << meanRedMtx;
835	tag = "sigmared";
836	fos << PPFNameTag(tag) << sigmaRedMtx;
837	}
838	}
839	//-------------------------------------------------------
840	//Compute the median of Diff ON-OFF Raw spectra and also the mean/sigma of rebinned spectra
841	//Used like:
842	//
843	void medianRawDiffOnOffCycles() throw(string) {
844	list<string> listOfFiles;
845	string directoryName;
846	directoryName = para.inPath_ + "/" + para.sourceName_;
847
848	//Make the listing of the directory
849	listOfFiles = ListOfFileInDir(directoryName,para.ppfFile_);
850
851	list<string>::const_iterator iFile, iFileEnd, iSpec, iSpecEnd;
852	iFileEnd = listOfFiles.end();
853
854
855	TArray<r_4> tableOfSpectra(NUMBER_OF_FREQ,NUMBER_OF_CHANNELS,para.maxNumberCycles_); //para.maxNumberCycles_ should be large enough...
856
857	StringMatch match("specONOFFRaw[0-9]+"); //Tag of the PPF objects
858	uint_4 nSpectra=0;
859	//Loop on files
860	for (iFile = listOfFiles.begin(); iFile != iFileEnd; ++iFile) {
861	if (para.debuglev_>90){
862	cout << "load file <" << *iFile << ">" << endl;
863	}
864	PInPersist fin(*iFile);
865	vector<string> vec = fin.GetNameTags();
866	list<string> listOfSpectra;
867	//Keep only required PPF objects
868	std::remove_copy_if(
869	vec.begin(), vec.end(), back_inserter(listOfSpectra),
870	not1(match)
871	);
872
873	listOfSpectra.sort(stringCompare);
874	iSpecEnd = listOfSpectra.end();
875	//Loop of spectra matrix
876	for (iSpec = listOfSpectra.begin(); iSpec !=iSpecEnd && (sa_size_t)nSpectra < para.maxNumberCycles_ ; ++iSpec){
877	if (para.debuglev_>90){
878	cout << " spactra <" << *iSpec << ">" << endl;
879	}
880	TMatrix<r_4> aSpec(NUMBER_OF_CHANNELS,NUMBER_OF_FREQ);
881	fin.GetObject(aSpec,*iSpec);
882
883	tableOfSpectra(Range::all(),Range::all(),Range(nSpectra)) = aSpec;
884
885	nSpectra++;
886	}//eo loop on spectra in a file
887	}//eo loop on files
888
889
890
891	TMatrix<r_4> medianOfSpectra(NUMBER_OF_CHANNELS,NUMBER_OF_FREQ);
892	//Compute the median for each freq. and Channel
893	for (sa_size_t iCh=0; iCh<NUMBER_OF_CHANNELS; iCh++){
894	for (sa_size_t freq =0; freq<NUMBER_OF_FREQ; freq++){
895	TVector<r_4> tmp0(tableOfSpectra(Range(freq),Range(iCh),Range(0,nSpectra-1)).CompactAllDimensions());
896	vector<r_4> tmp;
897	tmp0.FillTo(tmp);
898	medianOfSpectra(iCh,freq) = median(tmp.begin(),tmp.end());
899	}
900	}
901
902
903	//Compute the reduced version of the mean and sigma
904	TMatrix<r_4> meanRedMtx(NUMBER_OF_CHANNELS,para.nSliceInFreq_);
905	TMatrix<r_4> sigmaRedMtx(NUMBER_OF_CHANNELS,para.nSliceInFreq_);
906	reduceSpectra(medianOfSpectra,meanRedMtx,sigmaRedMtx);
907
908
909	sa_size_t f1320=freqToChan(1320.);
910	sa_size_t f1345=freqToChan(1345.);
911	sa_size_t f1355=freqToChan(1355.);
912	sa_size_t f1380=freqToChan(1380.);
913	//Compute baseline arround 1350Mhz on [1320-1345] U [1355-1380]
914	if (para.debuglev_>9){
915	cout << "Compute baseline arround 1350Mhz on [1320-1345] U [1355-1380]" << endl;
916	}
917	TVector<r_4>meanMed(NUMBER_OF_CHANNELS);
918	for (sa_size_t iCh=0; iCh<NUMBER_OF_CHANNELS; ++iCh){
919	double meanMed1;
920	double sigmaMed1;
921	TVector<r_4> band1;
922	band1 = medianOfSpectra(Range(iCh),Range(f1320,f1345)).CompactAllDimensions();
923	MeanSigma(band1,meanMed1,sigmaMed1);
924	double meanMed2;
925	double sigmaMed2;
926	TVector<r_4> band2;
927	band2 = medianOfSpectra(Range(iCh),Range(f1355,f1380)).CompactAllDimensions();
928	MeanSigma(band2,meanMed2,sigmaMed2);
929	meanMed(iCh) = (meanMed1+meanMed2)*0.5;
930	}
931	meanMed.Print(cout);
932	cout << endl;
933
934
935	//Compute the sigma in the range 1320MHz-1380MHz
936	if (para.debuglev_>9){
937	cout << "Compute the sigma in the range 1320MHz-1380MHz" << endl;
938	}
939	TVector<r_4>sigmaMed(NUMBER_OF_CHANNELS);
940	sa_size_t redf1320=(sa_size_t)((1320.0-LOWER_FREQUENCY)/TOTAL_BANDWIDTH*para.nSliceInFreq_);
941	sa_size_t redf1380=(sa_size_t)((1380.0-LOWER_FREQUENCY)/TOTAL_BANDWIDTH*para.nSliceInFreq_);
942
943	for (sa_size_t iCh=0; iCh<NUMBER_OF_CHANNELS; ++iCh){
944	double meanSigma;
945	double sigmaSigma;
946	TVector<r_4> band;
947	band = sigmaRedMtx(Range(iCh),Range(redf1320,redf1380)).CompactAllDimensions();
948	MeanSigma(band,meanSigma,sigmaSigma);
949	meanSigma *= sqrt(para.nSliceInFreq_); //to scale to orignal spectra
950	sigmaMed(iCh) = meanSigma;
951	}
952	sigmaMed.Print(cout);
953	cout << endl;
954
955
956
957	if (para.debuglev_>9){
958	cout << "Compute medianOfSpectraNorm" << endl;
959	}
960	TMatrix<r_4> medianOfSpectraNorm(medianOfSpectra,false); //do not share the data...
961	for (sa_size_t iCh=0; iCh<NUMBER_OF_CHANNELS; ++iCh){
962	medianOfSpectraNorm.Row(iCh) -= meanMed(iCh);
963	medianOfSpectraNorm.Row(iCh) /= sigmaMed(iCh);
964	}
965
966
967
968	{//Save the result
969	stringstream tmp;
970	tmp << nSpectra;
971	string fileName = para.outPath_+"/medianDiffOnOffRaw_"+StringToLower(para.sourceName_)+"-"+tmp.str()+"Cycles.ppf";
972	cout << "Save median based on " << nSpectra << " cycles " << endl;
973	POutPersist fos(fileName);
974
975	string tag = "median";
976	fos << PPFNameTag(tag) << medianOfSpectra;
977
978	tag = "medianNorm";
979	fos << PPFNameTag(tag) << medianOfSpectraNorm;
980
981
982	tag = "meanmedred";
983	fos << PPFNameTag(tag) << meanRedMtx;
984	tag = "sigmamedred";
985	fos << PPFNameTag(tag) << sigmaRedMtx;
986	tag = "cycleVsfreq";
987
988	TArray<r_4> tarr(tableOfSpectra(Range::all(),Range::all(),Range(0,nSpectra-1)));
989	fos << PPFNameTag(tag) << tarr;
990	}
991	}
992
993	//-------------------------------------------------------
994	int main(int narg, char* arg[]) {
995
996	int rc = 0; //return code
997	string msg; //message used in Exceptions
998
999
1000
1001	//default value for initial parameters (see Para structure on top of the file)
1002	string debuglev = "0";
1003	string action = "meanDiffOnOff";
1004	string inputPath = ".";
1005	string outputPath = ".";
1006	string sourceName = "Abell85";
1007	string ppfFile;
1008	string nSliceInFreq = "32";
1009	string typeOfCalib="perRun";
1010	string calibFreq = "1346";
1011	string calibBandFreq="6.25";
1012	string mxcycles;
1013
1014	// bool okarg=false;
1015	int ka=1;
1016	while (ka<narg) {
1017	if (strcmp(arg[ka],"-h")==0) {
1018	cout << "Usage: -act [meanRawDiffOnOff]\|medianRawDiffOnOff\|meanCalibBAODiffOnOff\n"
1019	<< " -mxcycles <number> (max. number of cycles to be treated)\n"
1020	<< " -calibfreq <number> (cf. freq. used by calibration operation)\n"
1021	<< " -calibbandfreq <number> (cf. band of freq. used by calibration operation)\n"
1022	<< " -src [Abell85]\n"
1023	<< " -inPath [.]\|<top_root_dir of the ppf file>\n"
1024	<< " (ex. /sps/baoradio/AmasNancay/JEC/\n "
1025	<< " -outPath [.]\|<dir of the output> \n"
1026	<< " -nSliceInFreq [32]\|<number of bin in freq. to cumulate>\n"
1027	<< " -ppfFile <generic name of the input ppf files> (ex. diffOnOffRaw)\n"
1028	<< " -debug <level> "
1029	<< endl;
1030	return 0;
1031	}
1032	else if (strcmp(arg[ka],"-debug")==0) {
1033	debuglev=arg[ka+1];
1034	ka+=2;
1035	}
1036	else if (strcmp(arg[ka],"-act")==0) {
1037	action=arg[ka+1];
1038	ka+=2;
1039	}
1040	else if (strcmp(arg[ka],"-calibfreq")==0) {
1041	calibFreq=arg[ka+1];
1042	ka+=2;
1043	}
1044	else if (strcmp(arg[ka],"-calibbandfreq")==0) {
1045	calibBandFreq=arg[ka+1];
1046	ka+=2;
1047	}
1048	else if (strcmp(arg[ka],"-mxcycles")==0) {
1049	mxcycles=arg[ka+1];
1050	ka+=2;
1051	}
1052	else if (strcmp(arg[ka],"-inPath")==0) {
1053	inputPath=arg[ka+1];
1054	ka+=2;
1055	}
1056	else if (strcmp(arg[ka],"-outPath")==0) {
1057	outputPath=arg[ka+1];
1058	ka+=2;
1059	}
1060	else if (strcmp(arg[ka],"-src")==0) {
1061	sourceName=arg[ka+1];
1062	ka+=2;
1063	}
1064	else if (strcmp(arg[ka],"-ppfFile")==0) {
1065	ppfFile=arg[ka+1];
1066	ka+=2;
1067	}
1068	else if (strcmp(arg[ka],"-nSliceInFreq")==0) {
1069	nSliceInFreq=arg[ka+1];
1070	ka+=2;
1071	}
1072	else ka++;
1073	}//eo while
1074
1075	para.debuglev_ = atoi(debuglev.c_str());
1076	para.inPath_ = inputPath;
1077	para.outPath_ = outputPath;
1078	para.sourceName_ = sourceName;
1079	para.ppfFile_ = ppfFile;
1080	para.nSliceInFreq_ = atoi(nSliceInFreq.c_str());
1081	para.calibFreq_ = calibFreq;
1082	para.calibBandFreq_ = calibBandFreq;
1083	para.rcalibFreq_ = atof(calibFreq.c_str());
1084	para.rcalibBandFreq_ = atof(calibBandFreq.c_str());
1085	if (mxcycles != "") {
1086	para.maxNumberCycles_ = atoi(mxcycles.c_str());
1087	} else {
1088	para.maxNumberCycles_ = std::numeric_limits<int>::max();
1089	}
1090
1091	cout << "Dump Initial parameters ............" << endl;
1092	cout << " action = " << action << "\n"
1093	<< " maxNumberCycles = " << para.maxNumberCycles_ << "\n"
1094	<< " inputPath = " << para.inPath_ << "\n"
1095	<< " outputPath = " << para.outPath_ << "\n"
1096	<< " sourceName = " << para.sourceName_ << "\n"
1097	<< " ppfFile = " << para.ppfFile_ << "\n"
1098	<< " nSliceInFreq = " << para.nSliceInFreq_ << "\n"
1099	<< " calibFreq = " << para.calibFreq_ << "\n"
1100	<< " calibBandFreq = " << para.calibBandFreq_ << "\n"
1101	<< " debuglev = " << para.debuglev_ << "\n";
1102	cout << "...................................." << endl;
1103
1104	if ( "" == ppfFile ) {
1105	cerr << "mergeAnaFiles.cc: you have forgotten ppfFile option"
1106	<< endl;
1107	return 999;
1108	}
1109
1110
1111	try {
1112
1113	// int b,e;
1114	// char match=regexp("truc0machin","[a-z]+[0-9]",&b,&e);
1115	// printf("->%s<-\n(b=%d e=%d)\n",match,b,e);
1116
1117	if ( action == "meanRawDiffOnOff" ) {
1118	meanRawDiffOnOffCycles();
1119	} else if (action == "medianRawDiffOnOff") {
1120	medianRawDiffOnOffCycles();
1121	} else if (action == "meanCalibBAODiffOnOff") {
1122	meanCalibBAODiffOnOffCycles();
1123	} else {
1124	msg = "Unknown action " + action;
1125	throw msg;
1126	}
1127
1128
1129	} catch (std::exception& sex) {
1130	cerr << "mergeRawOnOff.cc std::exception :" << (string)typeid(sex).name()
1131	<< "\n msg= " << sex.what() << endl;
1132	rc = 78;
1133	}
1134	catch ( string str ) {
1135	cerr << "mergeRawOnOff.cc Exception raised: " << str << endl;
1136	}
1137	catch (...) {
1138	cerr << "mergeRawOnOff.cc catched unknown (...) exception " << endl;
1139	rc = 79;
1140	}
1141
1142	return 0;
1143
1144	}

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