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FPulseOverlay_multifile.C@ 17689

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Last change on this file since 17689 was 14782, checked in by Jens Buss, 12 years ago
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1	/******************** FPulseOverlay *********************
2	* read FACT raw data
3	* remove spikes
4	* calculate baseline
5	* find peaks (CFD and normal discriminator)
6	+ seagRCh for Peaks in data
7	+ put peaks into different histos depending on Amplitude
8	+ draw histos for single, double, tripple, ....Photonpulses
9	+ draw Parameterdevelopment
10	so it can be used for detection of other peaks
11	*************************************************************/
12	//----------------------------------------------------------------------------
13	// root libraries
14	//----------------------------------------------------------------------------
15
16	#include <TROOT.h>
17	#include <TCanvas.h>
18	#include <TProfile.h>
19	#include <TTimer.h>
20	#include <TH1F.h>
21	#include <TH2F.h>
22	#include <Getline.h>
23	#include <TLine.h>
24	#include <TBox.h>
25	#include <TMath.h>
26	#include <TFile.h>
27	#include <TStyle.h>
28	#include <TString.h>
29	#include <TObjArray.h>
30	#include <TF1.h>
31	#include<TSystem.h>
32
33	#include <stdio.h>
34	#include <stdint.h>
35	#include <cstdio>
36	#include <iostream>
37	#include <fstream>
38	using namespace std;
39
40	#define NPIX 1440
41	#define FAD_MAX_SAMPLES 1024
42	#define HAVE_ZLIB
43
44	//----------------------------------------------------------------------------
45	// rootmacros
46	//----------------------------------------------------------------------------
47
48	//#include "../fits.h"
49
50	#include "../openFits.h"
51	//#include "../openFits.c"
52
53	#include "../discriminator.h"
54	//#include "../discriminator.C"
55	#include "../zerosearch.h"
56	//#include "../zerosearch.h"
57	# include "../factfir.h"
58	//#include "../factfir.C"
59
60	//#include "../DrsCalibration.C"
61	#include "../DrsCalibration.h"
62
63	#include "../SpikeRemoval.h"
64	//#include "../SpikeRemoval.C"
65
66	#include "rootfilehandler.h"
67	//#include "rootfilehandler.C"
68
69	#include "pixel.h"
70	//#include "pixel.C"
71
72	#include "configfile.h"
73
74
75	//----------------------------------------------------------------------------
76	// Decleration of global variables
77	//----------------------------------------------------------------------------
78
79	bool gBreakout=false;
80
81	vector<int16_t> gAllPixelDataVector;
82	vector<int16_t> gStartCellVector;
83	unsigned int gCurrentEventID;
84	size_t gPXLxROI;
85	UInt_t gRegionOfInterest;
86	UInt_t gNumberOfPixels;
87	TString ghistotitle;
88
89	size_t gTriggerOffsetROI;
90	size_t gRC;
91	size_t gDrs_n;
92	vector<float> gDrsBaseMean;
93	vector<float> gDrsGainMean;
94	vector<float> gDrsTriggeroffsetMean;
95
96	vector<float> gAmeas(FAD_MAX_SAMPLES); // copy of the data (measured amplitude
97	vector<float> gVcorr(FAD_MAX_SAMPLES); // corrected Values
98	vector<float> gVslide(FAD_MAX_SAMPLES); // sliding average result
99	vector<float> gVcfd(FAD_MAX_SAMPLES); // CDF result
100	vector<float> gVcfd2(FAD_MAX_SAMPLES); // CDF result + 2nd sliding average
101
102	int gNEvents=0;
103	float gGainMean = 9;
104	float gBSLMean = 0;
105
106	//typedef struct{
107	// double maxAmpl;
108	// int countOfMax;
109	// } OverlayMaximum;
110
111	//typedef struct{
112	// TString name;
113	// TString title;
114	// TString xTitle;
115	// TString yTitle;
116	// float yMax;
117	// float yMin;
118	//} histAttrib_t;
119
120	//histAttrib_t* gHistoAttrib[maxPulseOrder];
121	//histAttrib_t* gProfileAttrib[maxPulseOrder];
122
123
124	// histograms
125	const int Number_Of_Debug_Histo_Types = 7;
126
127	const unsigned int
128	gAmeas_ = 0,
129	N1mean_ = 1,
130	gVcorr_ = 2,
131	Vtest_ = 3,
132	gVslide_ = 4,
133	gVcfd_ = 5,
134	gVcfd2_ = 6;
135
136	//const char* gHistoTypes[8] = {
137	// "hMaxOverlay",
138	// "hPixelMax",
139	// "hEdgeOverlay",
140	// "hMaxProfile",
141	// "hAllPixelOverlay",
142	// "hAllPixelMax",
143	// "hAllPixelMaxGaus",
144	// "hAllPixelProfile"
145	//};
146
147	//----------------------------------------------------------------------------
148	// Initialisation of histograms
149	//----------------------------------------------------------------------------
150
151	// Temporary Objects
152	TH1F* debugHistos = NULL;
153	//TH2F* hOverlayTemp = NULL;
154	//TH1D* hProjPeak = NULL;
155	TH1F* hTesthisto = NULL;
156	TH2F* hTesthisto2 = NULL;
157
158	//Histogram Parameters
159	Int_t gPixelOverlayXaxisLeft = 0;
160	Int_t gPixelOverlayXaxisRight = 0;
161
162	//Root-File Objects
163	// TObjArray* hList[pixelSetSize] = {NULL};
164	TList* hRootList = NULL;
165
166	TCanvas** cgpPixelPulses = NULL;
167	TCanvas** cgpDistributions = NULL;
168	TCanvas* cFiltered = NULL;
169	TCanvas* cgpTestHistos = NULL;
170
171	//----------------------------------------------------------------------------
172	// Functions
173	//----------------------------------------------------------------------------
174
175	void BookDebugHistos(int );
176	void BookTestHistos( int );
177
178	//void DeletePixelHistos(int );
179	//void SaveHistograms( const char, const char, TObjArray*, int );
180
181	void FillHistograms(Pixel, vector<Region>, int, int, int , int );
182	void DrawTestHistograms( int);
183	bool ProduceDebugHistos( vector<Region> *pZXings);
184	bool UseThisPulse( int, int, int, float, int, int);
185	void UpdateCanvases( int, int, bool);
186	void DeletePixelCanvases( int, int );
187
188	int HandleFitsFile(
189	fits * datafile,
190	TString datafilename,
191	TString drsfilename,
192	int nevents,
193	int npixel,
194	int verbosityLevel
195	);
196
197	TString gDataDirectory;
198	TString gHomeDirectory;
199	TString ghostname;
200
201	//----------------------------------------------------------------------------
202	//----------------------------------------------------------------------------
203	// MAIN - Funtion
204	//----------------------------------------------------------------------------
205	//----------------------------------------------------------------------------
206	int FPulseOverlay_multifile(
207	TString inputPath = "raw/2012/03/09/",
208	TString dataFileIdBase = "20120309",
209	TString dataFileSuffix = ".fits.gz",
210	int firstRunId = 18,
211	int nRuns = 50,
212	TString drsfilename = "20120309_012.drs.fits.gz",
213	TString OutputPath = "analysis/FPulseTemplate/20120309_018/Overlay/",
214	TString OutRootFileName = "20120309_018.root",
215	int firstevent = 1, // Hast to be between 1 and infinity NOT 0!!!!
216	int nevents = 100,
217	int firstpixel = 0,
218	int npixel = 2,
219	int pixelSetSize = 150,
220	int maxPulseOrder = 1,
221	int verbosityLevel = 6, // different verbosity levels can be implemented here
222	TString histoOptions = "SRM",
223	int AmplWindowWidth = 14, //Width of Window for selection of pulses to histograms
224	float GainMean = 9,
225	float BSLMean = -1, //4 Histogramms will be drawn, decide how far pulsehights differ from eachother
226	int avg1 = 8,
227	int avg2 = 8,
228	int OverlayWindowLeft = 70,
229	int OverlayWindowRight = 230,
230	bool ProduceGraphic = false,
231	bool spikeDebug = false,
232	bool debugPixel = false,
233	bool stats = false,
234	bool saveResults = false,
235	bool testmode = false,
236	int refresh_rate = 500 //refresh rate for canvases
237	)
238	{
239	//-----------------------------------------------------------------------------
240	// prepare datafiles
241	//-----------------------------------------------------------------------------
242
243	// declare the data file
244	fits * datafile = NULL;
245
246	// Opens the raw data file and 'binds' the variables given as
247	// Parameters to the data file. So they are filled with
248	// raw data as soon as datafile->GetRow(int) is called.
249
250	//vector of fits files to read
251	vector<TString> datafiles;
252
253	inputPath = SetHostsPaths(false, inputPath );
254	drsfilename.Prepend(inputPath);
255
256	//fill vector of fits files to read
257	cout << "generating file list:" << endl;
258	for (int RunId = firstRunId; RunId < firstRunId + nRuns; RunId++)
259	{
260	TString run_id;
261
262	run_id = "";
263	run_id += RunId;
264	while (run_id.Length() <3)
265	run_id.Prepend("0");
266
267	//filename/path construction
268	TString temp_filename = inputPath;
269	temp_filename.Append(dataFileIdBase);
270	temp_filename.Append("_");
271	temp_filename.Append(run_id);
272	temp_filename.Append(dataFileSuffix);
273
274	cout << "\t checking" << temp_filename;
275
276	//check if file is readable
277	ifstream fits_file(temp_filename);
278	if (fits_file.good())
279	{
280	//fill vector
281	cout << "\t...added" << endl;
282	datafiles.push_back(temp_filename);
283	}
284	else {
285	cout << "\t...failed" << endl;
286	}
287
288	}
289
290	//----------------------------------------------------------------------------
291	// Save-Root-File Settings
292	//----------------------------------------------------------------------------
293
294	OutputPath = SetHostsPaths(true, OutputPath );
295	OutRootFileName.Prepend(OutputPath);
296	// drsfilename = SetHostsPaths(false, drsfilename );
297	// OutRootFileName = SetHostsPaths(true, OutRootFileName );
298	cout << endl;
299	cout << "drs filename:\t" << drsfilename << endl;
300	// cout << "data filename:\t" << datafilename << endl;
301	cout << "out filename:\t" << OutRootFileName << endl;
302
303
304	if (saveResults)
305	{
306	CreateRootFile( OutRootFileName, true, verbosityLevel );
307	}
308
309
310
311
312
313	//----------------------------------------------------------------------------
314	// root global Settings
315	//----------------------------------------------------------------------------
316
317	gGainMean = GainMean;
318	gBSLMean = BSLMean;
319	gPixelOverlayXaxisLeft = OverlayWindowLeft;
320	gPixelOverlayXaxisRight = OverlayWindowRight;
321
322	gStyle->SetPalette(1,0);
323	gROOT->SetStyle("Plain");
324	// gPad->SetGrid();
325
326	//----------------------------------------------------------------------------
327	// root Canvas Settings
328	//----------------------------------------------------------------------------
329	//Canvas Pad numbering
330	int pulsesCanvasFrameNrs[4] = {
331	1, // Top left
332	2, // Top right
333	3, // bottom left
334	4 // bootom right
335	};
336
337	//Canvas Pad numbering
338	int distributionCanvasFrameNrs[4] = {
339	1, // Top left
340	2, // Top right
341	3, // bottom left
342	4 // bootom right
343	};
344
345	if (ProduceGraphic)
346	{
347
348	//Canvases
349	cgpPixelPulses = new TCanvas*[maxPulseOrder];
350	cgpDistributions = new TCanvas*[maxPulseOrder];
351
352	//TCanvas* gpcDevelopment = NULL;
353	TString cName = "";
354	TString cTitle = "";
355
356	//naming of pulse canvases
357	for (
358	int pulse_order = maxPulseOrder - 1;
359	pulse_order >= 0 ;
360	pulse_order--
361	)
362	{
363	cName ="cgpDistributions";
364	cName += pulse_order;
365	cTitle ="Distributions of Pulses with Order of: ";
366	cTitle += pulse_order;
367	cgpDistributions[pulse_order] = new TCanvas(cName,cTitle, 720,pulse_order*20,720,720);
368	cgpDistributions[pulse_order]->Divide(2, 2);
369	cName ="cgpPixelPulses";
370	cName += pulse_order;
371	cTitle ="Overlays of Pulses with Order of: ";
372	cTitle += pulse_order;
373	cgpPixelPulses[pulse_order] = new TCanvas(cName,cTitle, 0,pulse_order*20,720,720);
374	cgpPixelPulses[pulse_order]->Divide(2, 2);
375	}
376
377
378	// Create (pointer to) Canvases, which are used in every run,
379	// also in 'non-debug' runs
380	// Canvases only need if spike Debug, but I want to deklare
381	// the pointers anyway ...
382	if (spikeDebug)
383	{
384	cFiltered = new TCanvas("cFiltered","filtered DRS Waveforms", 1080,420,360,360);
385	cFiltered->Divide(1, 3);
386	}
387
388	if (testmode)
389	{
390	//additional Test histograms
391	cgpTestHistos = new TCanvas( "cgpTestHistos", "Test Histograms", 360, 420, 360, 360 );
392	cgpTestHistos->Divide(2,0);
393	}
394	}
395
396	//-----------------------------------------------------------------------------
397	// Filter-Settings
398	//-----------------------------------------------------------------------------
399	// CFD filter settings
400	int k_cfd = 10;
401	vector<double> a_cfd(k_cfd, 0);
402	double b_cfd = 1.;
403	a_cfd[0]=-0.75;
404	a_cfd[k_cfd-1]=1.;
405
406	//-----------------------------------------------------------------------------
407	// Book the histograms
408	//-----------------------------------------------------------------------------
409
410
411
412	if (testmode)
413	{
414	BookTestHistos( verbosityLevel );
415	}
416	//----------------------------------------------------------------------------
417	// Initialize Pixel
418	//----------------------------------------------------------------------------
419	Pixel** pixel = new Pixel*[NPIX];
420
421	for (int i = 0 ; i < NPIX; i++)
422	{
423	pixel[i] = NULL;
424	}
425
426
427	//-----------------------------------------------------------------------------
428	// Main Cycle
429	//-----------------------------------------------------------------------------
430
431	if ( pixelSetSize == -1 )
432	{
433	pixelSetSize = firstpixel +npixel;
434	}
435	int lastPixelOfSet = 0;
436	//-------------------------------------
437	// Loop over Pixel Sets
438	//-------------------------------------
439	for ( int firstPixelOfSet = firstpixel;
440	firstPixelOfSet < firstpixel + npixel;
441	firstPixelOfSet += pixelSetSize )
442	{
443	lastPixelOfSet = firstPixelOfSet + pixelSetSize-1;
444	if (lastPixelOfSet > firstpixel + npixel)
445	{
446	lastPixelOfSet = firstpixel + npixel;
447	}
448	if (lastPixelOfSet > 1439)
449	{
450	lastPixelOfSet = 1439;
451	}
452	if (verbosityLevel == 0)
453	{
454	cout << "------------------------------------------------" << endl
455	<< "...processing Set from Pixel "
456	<< firstPixelOfSet
457	<< " to Pixel "
458	<< lastPixelOfSet << endl;
459	}
460
461	//-------------------------------------
462	// Loop over Fits Files
463	//-------------------------------------
464
465	for( unsigned int fileId = 0; fileId < datafiles.size(); fileId++ )
466	{
467	datafile = NULL;
468	// int return_val = 0;
469	// return_val = HandleFitsFile(
470	// datafile,
471	// datafiles.at(fileId),
472	// drsfilename,
473	// nevents,
474	// npixel,
475	// verbosityLevel
476	// );
477	// if (return_val)
478	// {
479	// cerr << "ERROR" << endl;
480	// return return_val;
481	// }
482	//==================================================
483
484	// Opens the raw data file and 'binds' the variables given as
485	// Parameters to the data file. So they are filled with
486	// raw data as soon as datafile->GetRow(int) is called.
487	cout << "\nopening " << datafiles.at(fileId) << endl;
488
489	gNEvents = openDataFits(
490	datafiles.at(fileId),
491	&datafile,
492	gAllPixelDataVector,
493	gStartCellVector,
494	gCurrentEventID,
495	gRegionOfInterest,
496	gNumberOfPixels,
497	gPXLxROI,
498	verbosityLevel
499	);
500
501	if (gNEvents == 0)
502	{
503	cout << "return code of OpenDataFile:" << datafiles.at(fileId)<< endl;
504	cout << "is zero -> aborting." << endl;
505	return 1;
506	}
507
508	if (verbosityLevel > 0)
509	{
510	cout << endl <<"number of events in file: "<< gNEvents << "\t";
511	}
512
513	if ( nevents == -1 \|\| nevents > gNEvents ) nevents = gNEvents; // -1 means all!
514
515	if (verbosityLevel > 0)
516	{
517	cout <<"of, which "<< nevents << " will be processed"<< endl;
518	cout <<"Total # of Pixel: "<< gNumberOfPixels << "\t";
519	}
520
521	if ( npixel == -1 \|\| npixel > (int)gNumberOfPixels ) npixel = (int)gNumberOfPixels; // -1 means all!
522
523	if (verbosityLevel > 0)
524	{
525	cout <<"of, which "<< npixel << " will be processed"<< endl;
526	}
527
528	//Get the DRS calibration
529	gRC = openCalibFits(
530	drsfilename,
531	gDrsBaseMean,
532	gDrsGainMean,
533	gDrsTriggeroffsetMean,
534	gTriggerOffsetROI
535	);
536
537	if (gRC == 0)
538	{
539	cout << "return code of openCalibFits:" << drsfilename << endl;
540	cout << "is zero -> aborting." << endl;
541	return 1;
542	}
543
544	//==================================================================
545
546	//--------------------------------------------------------------------
547	// Loop over every Event of Pixel Set
548	//--------------------------------------------------------------------
549	for ( int ev = firstevent ; ev < firstevent + nevents; ev++)
550	{
551	// Get an Event --> consists of 1440 Pixel ...erm....data
552	datafile->GetRow( ev - 1 );
553
554	if (verbosityLevel == 1)
555	{
556	cout << "-------------------------------------" << endl
557	<< "...processing Set from Pixel "
558	<< firstPixelOfSet
559	<< " to Pixel "
560	<< lastPixelOfSet
561	<< "... Event: " << gCurrentEventID
562	<< "/" << nevents << endl;
563	}
564
565	cout << "\t\t success!" << endl;
566	//--------------------------------------------------------------------
567	// Loops over every Pixel of a Set of Pixels
568	//--------------------------------------------------------------------
569	for ( int pixelID = firstPixelOfSet;
570	pixelID < lastPixelOfSet + 1
571	&& pixelID < firstpixel + npixel;
572	pixelID++ )
573	{
574	if (verbosityLevel > 1)
575	{
576	cout << "-------------------------------------" << endl
577	<< "...processing Set from Pixel "
578	<< firstPixelOfSet
579	<< " to Pixel "
580	<< lastPixelOfSet
581	<< "... Event: " << gCurrentEventID
582	<< "/" << nevents << endl
583	<< " Pixel: " << pixelID
584	<< "/" << firstpixel + npixel -1 << endl;
585	}
586
587	//-------------------------------------
588	// Create individual Pixel
589	//-------------------------------------
590	if (ev == firstevent)
591	{
592	pixel[pixelID] = new Pixel(
593	pixelID,
594	maxPulseOrder,
595	verbosityLevel,
596	stats,
597	histoOptions,
598	gPixelOverlayXaxisLeft,
599	gPixelOverlayXaxisRight,
600	gBSLMean,
601	gGainMean
602	);
603	}
604
605	//-------------------------------------
606	// Apply Calibration
607	//-------------------------------------
608	if (verbosityLevel > 2) cout << "...applying DrsCalibration";
609	applyDrsCalibration(
610	gAmeas,
611	pixelID,
612	12,
613	12,
614	gDrsBaseMean,
615	gDrsGainMean,
616	gDrsTriggeroffsetMean,
617	gRegionOfInterest,
618	gAllPixelDataVector,
619	gStartCellVector
620	);
621	if (verbosityLevel > 2) cout << "...done " << endl;
622
623	//-------------------------------------
624	// Apply Filters
625	//-------------------------------------
626	// finds spikes in the raw data, and interpolates the value
627	// spikes are: 1 or 2 slice wide, positive non physical artifacts
628	if (verbosityLevel > 2) cout << "...removeing Spikes";
629	removeSpikes (gAmeas, gVcorr);
630	if (verbosityLevel > 2) cout << "...done " << endl;
631
632	// filter gVcorr with sliding average using FIR filter function
633	if (verbosityLevel > 2) cout << "...applying sliding average filter";
634	sliding_avg(gVcorr, gVslide, avg1);
635	if (verbosityLevel > 2) cout << "...done " << endl;
636
637	// filter gVslide with CFD using FIR filter function
638	if (verbosityLevel > 2) cout << "...apllying factfir filter";
639	factfir(b_cfd , a_cfd, k_cfd, gVslide, gVcfd);
640	if (verbosityLevel > 2) cout << "...done " << endl;
641
642	// filter gVcfd with sliding average using FIR filter function
643	if (verbosityLevel > 2) cout << "...applying 2nd sliding average filter";
644	sliding_avg(gVcfd, gVcfd2, avg2);
645	if (verbosityLevel > 2) cout << "...done " << endl;
646
647	//-------------------------------------
648	// SeagRCh vor Zero crossings
649	//-------------------------------------
650	if (verbosityLevel > 2) cout << endl << "...seagRChing zero crossings" ;
651	// peaks in gAmeas[] are found by seagRChing for zero crossings
652	// in gVcfd2
653	// first Argument 1 means ... rising edge
654	// second Argument 1 means ... seagRCh with stepsize 1 ... 10 is okay as well
655	vector<Region>* pZXings = zerosearch( gVcfd2 , 1 , 8);
656	// pZXings means "zero cross ings"
657	EnlargeRegion(*pZXings, 10, 10);
658	findAbsMaxInRegions(*pZXings, gVslide);
659	removeMaximaBelow( *pZXings, 3.0);
660	removeRegionWithMaxOnEdge( *pZXings, 2);
661	removeRegionOnFallingEdge( *pZXings, 100);
662	findTimeOfHalfMaxLeft(*pZXings, gVslide, gBSLMean, 5, 10, verbosityLevel );
663	removeRegionWithToFlatSlope(*pZXings, 0.5);
664	if (verbosityLevel > 2) cout << "...done" << endl;
665
666	//-----------------------------------------------------------------------------
667	// Fill Overlay Histos
668	//-----------------------------------------------------------------------------
669	if (verbosityLevel > 2)
670	{
671	cout << endl << "Filling Histograms of Pixel# [Set] " << pixelID
672	<< " Pixel# [Got] " << pixel[pixelID]->mChid;
673	}
674	FillHistograms(
675	pixel[pixelID],
676	pZXings,
677	AmplWindowWidth,
678	ev,
679	// histoOptions,
680	maxPulseOrder,
681	verbosityLevel
682	);
683	//-----------------------------------------------------------------------------
684	// Spike Debug
685	//-----------------------------------------------------------------------------
686	if ( spikeDebug )
687	{
688	BookDebugHistos(verbosityLevel );
689	gBreakout = ProduceDebugHistos( pZXings );
690	}// end of if(spikeDebug)
691
692	delete pZXings;
693	if (gBreakout) break;
694	//-------------------------------------
695	// Draw 1. Set of Pixel Histograms
696	//-------------------------------------
697	if ((ev % refresh_rate) == 0)
698	{
699	if (ProduceGraphic)
700	{
701	if (debugPixel)
702	{
703	// for ( int order = 0;
704	// order < maxPulseOrder;
705	// order++
706	// )
707	// {
708	pixel[firstPixelOfSet]->DrawOverlayHistograms(
709	cgpPixelPulses,
710	pulsesCanvasFrameNrs
711	);
712
713	pixel[firstPixelOfSet]->DrawDistributionHistograms(
714	cgpDistributions,
715	distributionCanvasFrameNrs
716	);
717	// }
718	if (testmode)
719	{
720	DrawTestHistograms(
721	verbosityLevel
722	);
723	}
724
725	UpdateCanvases(
726	verbosityLevel,
727	maxPulseOrder,
728	testmode
729	);
730	}
731	}
732	}
733
734	if (gBreakout) break;
735
736	if (verbosityLevel > 1)
737	{
738	cout << endl << "...End of Pixel"
739	<< endl << "-------------------------------------"<< endl;
740	}
741	}//End of Loop over Set
742	//-------------------------------------
743	// end of Loops over Set
744	//-------------------------------------
745
746	}//End of Loop over Events
747	//-------------------------------------
748	// end of Loops over Events
749	//-------------------------------------
750
751	}//End of Loop over Files
752	//-------------------------------------
753	// end of Loops over Files
754	//-------------------------------------
755
756
757	//-------------------------------------
758	// Draw Pixel Histogramms of Overlay Spectra
759	//-------------------------------------
760
761	for ( int pixelID = firstPixelOfSet;
762	pixelID < firstPixelOfSet + pixelSetSize
763	&& pixelID < firstpixel + npixel;
764	pixelID++ )
765	{
766	//here is what happends at the end of each loop over all Events
767
768	if (ProduceGraphic)
769	{
770	pixel[pixelID]->DrawOverlayHistograms(
771	cgpPixelPulses,
772	pulsesCanvasFrameNrs
773	);
774
775	pixel[pixelID]->DrawDistributionHistograms(
776	cgpDistributions,
777	distributionCanvasFrameNrs
778	);
779
780	UpdateCanvases(
781	verbosityLevel,
782	maxPulseOrder,
783	testmode
784	);
785	}
786
787	//Save Histograms of Pixels into Output rootfile
788	if (verbosityLevel > 2)
789	{
790	cout << endl << "Saving Pixel# [Set] " << pixelID
791	<< " Pixel# [Got] " << pixel[pixelID]->mChid;
792	}
793	pixel[pixelID]->SavePixelHistograms( OutRootFileName, saveResults );
794
795
796	if (debugPixel)
797	{
798	//Process gui events asynchronously during input
799	cout << endl;
800	TTimer timer("gSystem->ProcessEvents();", 50, kFALSE);
801	timer.TurnOn();
802	TString input = Getline("Type 'q' to exit, <return> to go on: ");
803	timer.TurnOff();
804	if (input=="q\n") {
805	break;
806	}
807	}
808
809	if (verbosityLevel > 2)
810	{
811	cout << endl << "Deleting Pixel# [Set] " << pixelID
812	<< " Pixel# [Got] " << pixel[pixelID]->mChid;
813	}
814	delete pixel[pixelID];
815
816	if (verbosityLevel > 2)
817	{
818	cout << endl << "...End of Pixel-Set"
819	<< endl << "------------------------------------------------"
820	<< endl;
821	}
822	}
823	}
824	// End of Loop over all Pixels
825
826	//-------------------------------------
827	// Draw Histograms
828	//-------------------------------------
829	TString test = "root";
830	SaveHistograms( //save histograms of generell results into output root file
831	OutRootFileName,
832	test,
833	hRootList,
834	saveResults,
835	verbosityLevel
836	);
837
838	if (ProduceGraphic)
839	{
840	UpdateCanvases(
841	verbosityLevel,
842	maxPulseOrder,
843	testmode
844	);
845
846	//Process gui events asynchronously during input
847	cout << endl;
848	TTimer timer("gSystem->ProcessEvents();", 50, kFALSE);
849	timer.TurnOn();
850	Getline("Press <return> to go on");
851	timer.TurnOff();
852
853	DeletePixelCanvases(
854	maxPulseOrder,
855	verbosityLevel
856	);
857
858	if (testmode)
859	delete cgpTestHistos;
860
861	if (spikeDebug)
862	delete cFiltered;
863	}
864
865	delete datafile;
866	delete[] pixel;
867
868	return( 0 );
869	}
870	//----------------------------------------------------------------------------
871	// end of main function
872	//-----------------------------------------------------------------------------
873
874
875
876
877	//-----------------------------------------------------------------------------
878	// Funktions
879	//-----------------------------------------------------------------------------
880
881	/*
882	ich erzeuge sowas wie 36 pixel mit ca 20 Histogrammen pro pixel
883	wie viel speicher braucht das?
884	Ich brauche eine möglichkeit jedes dieser histogramme zu identifizieren
885	am besten ein array oder eine liste oder einen abstracten datentyp mit den histogrammen als attribute.
886	ne klasse wäre super
887
888	*/
889
890	void BookTestHistos( int verbosityLevel )
891	{
892	if (verbosityLevel > 2) cout << endl << "...book pixel histograms" << endl;
893
894	hTesthisto = new TH1F (
895	"hTesthisto",
896	"Deviation of rising edge and maximum",
897	600,
898	-10.1,
899	10.1
900	);
901	hTesthisto->GetXaxis()->SetTitle( "Timeslices [a.u.]" );
902	hTesthisto->GetYaxis()->SetTitle( "counts" );
903
904	hTesthisto2 = new TH2F (
905	"hTesthisto2",
906	"Deviation of rising edge and maximum by event #",
907	gNEvents,
908	250,
909	800,
910	600,
911	-10.1,
912	10.1
913	);
914	// hTesthisto2->GetXaxis()->SetTitle( "Timeslices [a.u.]" );
915	// hTesthisto2->GetYaxis()->SetTitle( "counts" );
916	// hTesthisto2->SetMarkerStyle( 2 );
917
918	if (verbosityLevel > 2) cout << "...done" << endl;
919	}
920	//end of BookTestHistos
921	//----------------------------------------------------------------------------
922
923
924	void
925	BookDebugHistos( int verbosityLevel )
926	{
927	if (verbosityLevel > 2) cout << endl << "...book histograms" << endl;
928	hRootList = new TList();
929	debugHistos = new TH1F[ Number_Of_Debug_Histo_Types ];
930	for ( int type = 0; type < Number_Of_Debug_Histo_Types; type++){
931	debugHistos[ type ].SetBins(1024, 0, 1024);
932	debugHistos[ type ].SetLineColor(1);
933	debugHistos[ type ].SetLineWidth(2);
934	debugHistos[ type ].SetStats(false);
935
936	// set X axis paras
937	debugHistos[ type ].GetXaxis()->SetLabelSize(0.08);
938	debugHistos[ type ].GetXaxis()->SetTitleSize(0.08);
939	debugHistos[ type ].GetXaxis()->SetTitleOffset(1.0);
940	debugHistos[ type ].GetXaxis()->SetTitle(Form("Time slice [%.1f ns/slice]", 1./2.));
941
942	// set Y axis paras
943	debugHistos[ type ].GetYaxis()->SetLabelSize(0.08);
944	debugHistos[ type ].GetYaxis()->SetTitleSize(0.08);
945	debugHistos[ type ].GetYaxis()->SetTitleOffset(0.3);
946	debugHistos[ type ].GetYaxis()->SetTitle("Amplitude [mV]");
947	// hRootList->Add( &debugHistos[ type ] );
948	}
949	if (verbosityLevel > 2) cout << "...done" << endl;
950	}
951	// end of BookDebugHistos
952	//----------------------------------------------------------------------------
953
954
955	void
956	FillHistograms(
957	Pixel* CurrentPixel,
958	vector<Region>* pZXings,
959	int AmplWindowWidth,
960	int eventNumber,
961	int maxPulseOrder,
962	int verbosityLevel
963	)
964	{
965	if (verbosityLevel > 2) cout << endl << "...filling pulse histograms" ;
966	if (verbosityLevel > 3) cout << endl << "...EventNR " << eventNumber ;
967	bool use_this_peak=false;
968	int order_of_pulse=0;
969	vector<Region>::iterator reg;
970	//Loop over all found zerocrossings in Region
971	for (reg = pZXings->begin() ; reg < pZXings->end() ; reg++)
972	{
973	//skip those who are at the Rim of the ROI
974	if (reg->maxPos < 12 \|\| (unsigned int) reg->maxPos > gRegionOfInterest-12)
975	{
976	if (verbosityLevel > 2) cout << endl << "\t...out of range" << endl;
977	continue;
978	}
979
980	// Define axis range of Histogram
981	int Left = reg->maxPos - gPixelOverlayXaxisLeft;
982	int Right = reg->maxPos + gPixelOverlayXaxisRight;
983	int EdgeLeft = reg->halfRisingEdgePos - gPixelOverlayXaxisLeft;
984	int EdgeRight = reg->halfRisingEdgePos + gPixelOverlayXaxisRight;
985
986	if (Left < 0) Left = 0;
987	if (EdgeLeft < 0) EdgeLeft = 0;
988	if (Right > (int)gAmeas.size() ) Right = gAmeas.size();
989	if (EdgeRight > (int)gAmeas.size() ) EdgeRight = gAmeas.size();
990
991
992	if (verbosityLevel > 2) cout << endl << "\t...choosing Histogram" ;
993	//determine order of pulse and which histogram shall be filled
994	for ( int order = 0; order < maxPulseOrder; order++)
995	{
996	use_this_peak = UseThisPulse(
997	reg->maxPos,
998	order,
999	AmplWindowWidth,
1000	gGainMean,
1001	maxPulseOrder,
1002	verbosityLevel
1003	);
1004	if ( use_this_peak)
1005	{
1006	order_of_pulse = order;
1007	break;
1008	}
1009	}
1010	//Fill histograms
1011	if (use_this_peak)
1012	{
1013	//Histograms for Distributions
1014	if (CurrentPixel->mOptions.Contains("S") )
1015	{
1016	if (verbosityLevel > 2)
1017	cout << endl << "\t...filling Edge Histogram" ;
1018	CurrentPixel->hSlopeRisingEdge[order_of_pulse]->Fill( reg->slopeOfRisingEdge ) ;
1019	}
1020
1021	if (CurrentPixel->mOptions.Contains("R") )
1022	{
1023	if (verbosityLevel > 2)
1024	cout << endl << "\t...filling RisingEdgeToMax Histogram" ;
1025	CurrentPixel->hRisingEdgeToMax[order_of_pulse]->Fill( reg->distanceEdgeToMax ) ;
1026	}
1027
1028	if (CurrentPixel->mOptions.Contains("M") )
1029	{
1030	if (verbosityLevel > 2)
1031	cout << endl << "\t...filling PosOfMax Histogram" ;
1032	CurrentPixel->hPosOfMax[order_of_pulse]->Fill( reg->maxPos ) ;
1033	}
1034
1035	//Histograms for Maximum Overlay
1036	for ( int pos = Left; pos < Right; pos++)
1037	{
1038	CurrentPixel->hMaxOverlay[order_of_pulse]->Fill( pos - (reg->maxPos), gAmeas[pos]) ;
1039	CurrentPixel->hMaxProfile[order_of_pulse]->Fill( pos - (reg->maxPos), gAmeas[pos]) ;
1040	}
1041	//Histograms for Edge Overlay
1042	for ( int pos = EdgeLeft; pos < EdgeRight; pos++)
1043	{
1044	CurrentPixel->hEdgeOverlay[order_of_pulse]->Fill( pos - (reg->halfRisingEdgePos), gAmeas[pos]) ;
1045	CurrentPixel->hEdgeProfile[order_of_pulse]->Fill( pos - (reg->halfRisingEdgePos), gAmeas[pos]) ;
1046	}
1047
1048	if (verbosityLevel > 2) cout << "...done" << endl;
1049	}
1050
1051	//gBreakout option
1052	if (gBreakout)
1053	{
1054	break;
1055	}
1056	}
1057	if (verbosityLevel > 2) cout << "...done" << endl;
1058	}
1059	// end of FillHistograms
1060	//----------------------------------------------------------------------------
1061
1062	bool UseThisPulse(
1063	int maxPos,
1064	int order,
1065	int AmplWindowWidth,
1066	float gainMean,
1067	int maxPulseOrder,
1068	int verbosityLevel
1069	)
1070	{
1071	//determine if pulse is of given order
1072	bool use_this_peak = false;
1073	if (gAmeas[maxPos] >= ((gainMean*(order+1)) - (AmplWindowWidth/2))
1074	&& gAmeas[maxPos] < ((gainMean*(order+1)) + AmplWindowWidth/2))
1075	{
1076	if (verbosityLevel > 3) cout << "...#" << order ;
1077	use_this_peak = true;
1078	}
1079	else
1080	{
1081	if (verbosityLevel > 3)
1082	{
1083	if (order >= (maxPulseOrder - 1))
1084	{
1085	cout << "...NONE" << endl ;
1086	}
1087	}
1088	use_this_peak = false;
1089	}
1090
1091	return use_this_peak;
1092	}
1093
1094
1095	void
1096	DrawTestHistograms(
1097	int verbosityLevel
1098	)
1099	{
1100	if (verbosityLevel > 2) cout << endl << "...drawing pulse histograms TODO CANVAS" ;
1101
1102	// cgpTestHistos->cd(1);
1103	// hTesthisto->Draw();
1104	// cgpTestHistos->cd(2);
1105	// hTesthisto2->Draw("BOX");
1106	}
1107	// end of DrawTestHistograms
1108	//----------------------------------------------------------------------------
1109
1110	void
1111	UpdateCanvases(
1112	int verbosityLevel,
1113	int max_pulse_order,
1114	bool testmode
1115	)
1116	{
1117	if (verbosityLevel > 3) cout << endl << "...updating canvases" ;
1118	for (int pulse_order = 0; pulse_order < max_pulse_order; pulse_order++)
1119	{
1120	cgpPixelPulses[pulse_order]->Modified();
1121	cgpPixelPulses[pulse_order]->Update();
1122	cgpDistributions[pulse_order]->Modified();
1123	cgpDistributions[pulse_order]->Update();
1124	if ( testmode )
1125	{
1126	cgpTestHistos->Modified();
1127	cgpTestHistos->Update();
1128	}
1129	}
1130	}
1131	// end of UpdateCanvases
1132	//----------------------------------------------------------------------------
1133
1134	void
1135	DeletePixelCanvases(
1136	int maxPulseOrder,
1137	int verbosityLevel
1138	)
1139	{
1140	if (verbosityLevel > 2) cout << endl << "...delete pixel Canvases" ;
1141	for (int pulse_order = 0; pulse_order < maxPulseOrder; pulse_order++ )
1142	{
1143	delete cgpPixelPulses[pulse_order];
1144	delete cgpDistributions[pulse_order];
1145	}
1146	delete[] cgpPixelPulses;
1147	delete[] cgpDistributions;
1148	}
1149
1150	//----------------------------------------------------------------------------
1151	//----------------------------------------------------------------------------
1152
1153	bool
1154	ProduceDebugHistos(
1155	vector<Region>* pZXings
1156	)
1157	{
1158	// TODO do this correct. The vectors should be the rigt ones... this is just luck
1159	debugHistos[gAmeas_].GetXaxis()->Set(gAmeas.size() , -0.5 , gAmeas.size()-0.5);
1160	debugHistos[gVcorr_].GetXaxis()->Set(gAmeas.size() , -0.5 , gAmeas.size()-0.5);
1161	debugHistos[gVslide_].GetXaxis()->Set(gAmeas.size() , -0.5 , gAmeas.size()-0.5);
1162	debugHistos[gVcfd_].GetXaxis()->Set(gAmeas.size() , -0.5 , gAmeas.size()-0.5);
1163	debugHistos[gVcfd2_].GetXaxis()->Set(gAmeas.size() , -0.5 , gAmeas.size()-0.5);
1164
1165	for ( unsigned int sl = 0; sl < gRegionOfInterest; sl++)
1166	{
1167	debugHistos[gAmeas_].SetBinContent(sl, gAmeas[sl]);
1168	debugHistos[gVcorr_].SetBinContent(sl, gVcorr[sl]);
1169	debugHistos[gVslide_].SetBinContent( sl, gVslide[sl] );
1170	debugHistos[gVcfd_].SetBinContent( sl, gVcfd[sl] );
1171	debugHistos[gVcfd2_].SetBinContent( sl, gVcfd2[sl] );
1172	}
1173
1174	bool has_negative_slope = false;
1175	cFiltered->cd(1);
1176	gPad->SetGrid();
1177	debugHistos[gAmeas_].Draw();
1178
1179	TF1 *OneEdge;
1180	TLine *OneLine;
1181	TBox *OneBox;
1182	vector<TF1*> MyEdges;
1183	vector<TBox*> MyBoxes;
1184	vector<TBox*> MyLines;
1185
1186	int left = debugHistos[gAmeas_].GetXaxis()->GetFirst();
1187	int right = debugHistos[gAmeas_].GetXaxis()->GetLast();
1188	vector<Region>::iterator region;
1189	for (region = pZXings->begin() ; region < pZXings->end() ; region++)
1190	{
1191	if (region->slopeOfRisingEdge < 0)
1192	{
1193	has_negative_slope = true;
1194	}
1195	}
1196
1197	if (has_negative_slope)
1198	{
1199	for (unsigned int i=0; i<pZXings->size(); i++){
1200	Region* reg = &pZXings->at(i);
1201	cout << "Slope is: " << reg->slopeOfRisingEdge << endl;
1202
1203	// xBegin = (reg->halfRisingEdgePos - reg->distanceEdgeToMax);
1204	// yBegin = reg->integRCeptRisingEdge + reg->slopeOfRisingEdge * (xBegin)
1205
1206	OneEdge = new TF1(
1207	"OneEdge",
1208	"[0]*x+[1]",
1209	left,
1210	right
1211	);
1212
1213	OneEdge->SetParameters(
1214	reg->slopeOfRisingEdge,
1215	reg->interceptRisingEdge
1216	);
1217
1218	OneEdge->SetLineColor(kRed);
1219	OneEdge->SetLineWidth(1);
1220	MyEdges.push_back(OneEdge);
1221
1222	OneEdge->Draw("SAME");
1223	// delete OneEdge;
1224
1225	OneBox = new TBox(
1226	pZXings->at(i).maxPos -10 ,
1227	pZXings->at(i).maxVal -0.5,
1228	pZXings->at(i).maxPos +10 ,
1229	pZXings->at(i).maxVal +0.5);
1230	OneBox->SetLineColor(kBlue);
1231	OneBox->SetLineWidth(1);
1232	OneBox->SetFillStyle(0);
1233	OneBox->SetFillColor(kRed);
1234	MyBoxes.push_back(OneBox);
1235	OneBox->Draw();
1236
1237	OneLine = new TLine(
1238	pZXings->at(i).halfRisingEdgePos,
1239	gAmeas[pZXings->at(i).halfRisingEdgePos],
1240	pZXings->at(i).halfRisingEdgePos,
1241	pZXings->at(i).halfRisingEdgePos * pZXings->at(i).slopeOfRisingEdge + pZXings->at(i).interceptRisingEdge
1242	);
1243	OneLine->SetLineColor(kBlue);
1244	OneLine->SetLineWidth(3);
1245	MyLines.push_back(OneBox);
1246	OneLine->Draw();
1247	}
1248
1249	cFiltered->cd(2);
1250	gPad->SetGrid();
1251	debugHistos[gVslide_].Draw();
1252	debugHistos[gVcorr_].Draw("SAME");
1253
1254	for (unsigned int i=0; i<MyEdges.size(); i++){
1255	MyEdges.at(i)->Draw("SAME");
1256	}
1257	for (unsigned int i=0; i<MyBoxes.size(); i++){
1258	MyBoxes.at(i)->Draw();
1259	}
1260	for (unsigned int i=0; i<MyLines.size(); i++){
1261	MyLines.at(i)->Draw();
1262	}
1263
1264	cFiltered->cd(3);
1265	gPad->SetGrid();
1266	debugHistos[gVcorr_].SetLineColor(kBlue);
1267	debugHistos[gVcorr_].Draw();
1268	debugHistos[gAmeas_].Draw("SAME");
1269	debugHistos[gVslide_].SetLineColor(kRed);
1270	debugHistos[gVslide_].Draw("SAME");
1271	debugHistos[gVcfd_].SetLineColor(kGreen);
1272	debugHistos[gVcfd_].Draw("SAME");
1273	debugHistos[gVcfd2_].SetLineColor(kViolet);
1274	debugHistos[gVcfd2_].Draw("SAME");
1275	for (unsigned int i=0; i<MyEdges.size(); i++){
1276	MyEdges.at(i)->Draw("SAME");
1277	}
1278	for (unsigned int i=0; i<MyBoxes.size(); i++){
1279	MyBoxes.at(i)->Draw();
1280	}
1281	for (unsigned int i=0; i<MyLines.size(); i++){
1282	MyLines.at(i)->Draw();
1283	}
1284
1285
1286	// cFiltered->cd(3);
1287	// gPad->SetGrid();
1288	// debugHistos[gVcfd2_].Draw();
1289	// TLine *zeroline = new TLine(0, 0, 1024, 0);
1290	// zeroline->SetLineColor(kBlue);
1291	// zeroline->Draw();
1292
1293	cFiltered->Update();
1294
1295
1296	//Process gui events asynchronously during input
1297	TTimer timer("gSystem->ProcessEvents();", 50, kFALSE);
1298	timer.TurnOn();
1299	TString input = Getline("Type 'q' to exit, <return> to go on: ");
1300	timer.TurnOff();
1301	if (input=="q\n") {
1302	return true;
1303	}
1304
1305	MyLines.clear();
1306	MyBoxes.clear();
1307	MyEdges.clear();
1308
1309	// for (unsigned int i=0; i<pZXings->size(); i++)
1310	// {
1311	// delete MyEdges.at(i)
1312	// delete MyBoxes.at(i);
1313	// }
1314	// delete OneBox;
1315	// delete OneEdge;
1316	// delete OneLine;
1317
1318	// MyEdges.erase();
1319	// MyBoxes.erase();
1320	}
1321
1322	//TODO!!!!!!!!!
1323	// do some Garbage collection ...
1324	// all the Objects on the heap should be deleted here.
1325	return false;
1326	}// end of if(spikeDebug)
1327
1328	int HandleFitsFile(
1329	fits * datafile,
1330	TString datafilename,
1331	TString drsfilename,
1332	int nevents,
1333	int npixel,
1334	int verbosityLevel
1335	)
1336	{
1337	// Opens the raw data file and 'binds' the variables given as
1338	// Parameters to the data file. So they are filled with
1339	// raw data as soon as datafile->GetRow(int) is called.
1340	cout << "\nopening " << datafilename << endl;
1341
1342	gNEvents = openDataFits(
1343	datafilename,
1344	&datafile,
1345	gAllPixelDataVector,
1346	gStartCellVector,
1347	gCurrentEventID,
1348	gRegionOfInterest,
1349	gNumberOfPixels,
1350	gPXLxROI,
1351	verbosityLevel
1352	);
1353
1354	if (gNEvents == 0)
1355	{
1356	cout << "return code of OpenDataFile:" << datafilename<< endl;
1357	cout << "is zero -> aborting." << endl;
1358	return 1;
1359	}
1360
1361	if (verbosityLevel > 0)
1362	{
1363	cout << endl <<"number of events in file: "<< gNEvents << "\t";
1364	}
1365
1366	if ( nevents == -1 \|\| nevents > gNEvents ) nevents = gNEvents; // -1 means all!
1367
1368	if (verbosityLevel > 0)
1369	{
1370	cout <<"of, which "<< nevents << " will be processed"<< endl;
1371	cout <<"Total # of Pixel: "<< gNumberOfPixels << "\t";
1372	}
1373
1374	if ( npixel == -1 \|\| npixel > (int)gNumberOfPixels ) npixel = (int)gNumberOfPixels; // -1 means all!
1375
1376	if (verbosityLevel > 0)
1377	{
1378	cout <<"of, which "<< npixel << " will be processed"<< endl;
1379	}
1380
1381	//Get the DRS calibration
1382	gRC = openCalibFits(
1383	drsfilename,
1384	gDrsBaseMean,
1385	gDrsGainMean,
1386	gDrsTriggeroffsetMean,
1387	gTriggerOffsetROI
1388	);
1389
1390	if (gRC == 0)
1391	{
1392	cout << "return code of openCalibFits:" << drsfilename << endl;
1393	cout << "is zero -> aborting." << endl;
1394	return 1;
1395	}
1396	return 0;
1397	}
1398
1399	//int main(int argc,char *argv[])
1400	//{
1401
1402	// TString test;
1403	// TString gRCFileName;
1404	// TString processType = "overlay";
1405	// bool gRCFileNameCmdSet = false;
1406	// int verbLevel = 0; // different verbosity levels can be implemented here
1407	// bool verbLevelCmdSet = false;
1408	// bool save = false;
1409	// bool produceGraphic = false;
1410
1411	// // decode arguments
1412	// if(argc < 2)
1413	// {
1414	// printf("no arguements given, using standard arguments\n");
1415	// }
1416
1417	// // set conditions for functions arguments
1418	// for (int i=1;i<argc;i++)
1419	// {
1420	// test = argv[i];
1421
1422	// if (test.Contains("--config_file") \|\| test.Contains("-c"))
1423	// {
1424	// cout << "gRC-File: \"" << argv[i + 1] << "\"" << endl;
1425	// gRCFileName = argv[i + 1];
1426	// gRCFileNameCmdSet = true;
1427	// continue;
1428	// }
1429
1430	// if (test.Contains("--verbosity") \|\| test.Contains("-v"))
1431	// {
1432	// cout << "Verbosity Level: \"" << argv[i + 1] << "\"" << endl;
1433	// verbLevel = atoi(argv[i + 1]);
1434	// continue;
1435	// }
1436
1437	// if (test.Contains("--save") \|\| test.Contains("-s"))
1438	// {
1439	// cout << "will save results" << endl;
1440	// save = true;
1441	// continue;
1442	// }
1443
1444	// if (test.Contains("--graphics") \|\| test.Contains("-g"))
1445	// {
1446	// cout << "will produce graphics" << endl;
1447	// produceGraphic = true;
1448	// continue;
1449	// }
1450	// }
1451
1452	// // reading gRC-File:
1453	// configfile gRCfile( gRCFileName, processType );
1454
1455	// if (save)
1456	// {
1457	// gRCfile.mSave = save;
1458	// }
1459
1460	// if (verbLevelCmdSet)
1461	// {
1462	// gRCfile.mVerbLevel = verbLevel;
1463	// }
1464
1465	// if (produceGraphic)
1466	// {
1467	// gRCfile.mProduceGraphic = produceGraphic;
1468	// }
1469
1470	// FPulseOverlay(
1471	// gRCfile.mInputPath,
1472	// gRCfile.mDataFileName,
1473	// gRCfile.mDrsFileName,
1474	// gRCfile.mOutputPath,
1475	// gRCfile.mOutputFile,
1476	// gRCfile.mFirstEvent,
1477	// gRCfile.mNumEvents,
1478	// gRCfile.mFirstPixel,
1479	// gRCfile.mNumPixel,
1480	// gRCfile.mPixelSetSize,
1481	// gRCfile.mMaxOrder,
1482	// gRCfile.mVerbLevel,
1483	// gRCfile.mHistoOptions,
1484	// gRCfile.mAmplWindowWidth,
1485	// gRCfile.mGainMean,
1486	// gRCfile.mBSLMean,
1487	// gRCfile.mAvg1,
1488	// gRCfile.mAvg2,
1489	// gRCfile.mOverlayWindowLeft,
1490	// gRCfile.mOverlayWindowRight,
1491	// gRCfile.mProduceGraphic,
1492	// gRCfile.mSpikeDebug,
1493	// gRCfile.mDbgPixel,
1494	// gRCfile.mPrintStats,
1495	// gRCfile.mSave,
1496	// gRCfile.mTestMode,
1497	// gRCfile.mRefreshRate
1498	// );
1499	// return 0;
1500
1501	//}

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source: fact/tools/rootmacros/PulseTemplates/FPulseOverlay_multifile.C@ 17689

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