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Last change on this file since 5972 was 4797, checked in by wittek, 20 years ago
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1	/* ======================================================================== *\
2	!
3	! *
4	! * This file is part of MARS, the MAGIC Analysis and Reconstruction
5	! * Software. It is distributed to you in the hope that it can be a useful
6	! * and timesaving tool in analysing Data of imaging Cerenkov telescopes.
7	! * It is distributed WITHOUT ANY WARRANTY.
8	! *
9	! * Permission to use, copy, modify and distribute this software and its
10	! * documentation for any purpose is hereby granted without fee,
11	! * provided that the above copyright notice appear in all copies and
12	! * that both that copyright notice and this permission notice appear
13	! * in supporting documentation. It is provided "as is" without express
14	! * or implied warranty.
15	! *
16	!
17	! Author(s): Robert Wagner, 2/2004 <mailto:rwagner@mppmu.mpg.de>
18	! Javier López , 4/2004 <mailto:jlopez@ifae.es>
19	! Wolfgang Wittek, 8/2004 <mailto:wittek@mppmu.mpg.de>
20	!
21	! Copyright: MAGIC Software Development, 2000-2004
22	!
23	!
24	\* ======================================================================== */
25
26	/////////////////////////////////////////////////////////////////////////////
27	//
28	// MFindStars
29	//
30	/////////////////////////////////////////////////////////////////////////////
31	#include "MFindStars.h"
32
33	#include <TMinuit.h>
34	#include <TStopwatch.h>
35	#include <TTimer.h>
36	#include <TString.h>
37	#include <TFile.h>
38	#include <TTree.h>
39	#include <TCanvas.h>
40	#include <TH1F.h>
41	#include <TF1.h>
42	#include <TEllipse.h>
43
44
45	#include "MObservatory.h"
46	#include "MAstroCamera.h"
47	#include "MMcConfigRunHeader.h"
48
49	#include "MLog.h"
50	#include "MLogManip.h"
51
52	#include "MHCamera.h"
53
54	#include "MGeomCam.h"
55	#include "MGeomPix.h"
56	#include "MCameraDC.h"
57	#include "MTime.h"
58	#include "MReportDrive.h"
59	#include "MStarCam.h"
60	#include "MStarPos.h"
61
62	#include "MParList.h"
63	#include "MTaskList.h"
64
65	ClassImp(MFindStars);
66	using namespace std;
67
68	const Float_t sqrt2 = sqrt(2.);
69	const Float_t sqrt3 = sqrt(3.);
70	const UInt_t lastInnerPixel = 396;
71
72
73	//______________________________________________________________________________
74	//
75	// The 2D uncorrelated gaussian function used to fit the spot of the star
76	//
77	static Double_t func(float x,float y,Double_t *par)
78	{
79	Double_t value=par[0]exp( -(x-par[1])(x-par[1])/(2par[2]par[2]) )
80	exp( -(y-par[3])(y-par[3])/(2par[4]par[4]) );
81	return value;
82	}
83
84	//______________________________________________________________________________
85	//
86	// The 2D correlated gaussian function used to fit the spot of the star
87	//
88	static Double_t funcCG(float x,float y,Double_t *par)
89	{
90	Double_t temp = 1.0-par[5]*par[5];
91	// Double_t value = par[0] / (2.0TMath::Pi()par[2]par[4]sqrt(temp))
92	Double_t value = par[0]
93	* exp( -0.5/temp * ( (x-par[1])(x-par[1])/(par[2]par[2])
94	-2.0par[5] (x-par[1])(y-par[3])/(par[2]par[4])
95	+ (y-par[3])(y-par[3])/(par[4]par[4]) ) );
96	return value;
97	}
98
99	//______________________________________________________________________________
100	//
101	// Function used by Minuit to do the fit
102	//
103	static void fcn(Int_t &npar, Double_t gin, Double_t &f, Double_t par, Int_t iflag)
104	{
105
106	MParList* plist = (MParList*)gMinuit->GetObjectFit();
107	MTaskList* tlist = (MTaskList*)plist->FindObject("MTaskList");
108	MFindStars* find = (MFindStars*)tlist->FindObject("MFindStars");
109	MStarCam* stars =
110	(MStarCam*)plist->FindObject("MStarCam","MStarCam");
111	MGeomCam* geom = (MGeomCam*)plist->FindObject("MGeomCam");
112
113	MHCamera& display = (MHCamera&)find->GetDisplay();
114
115	Float_t innerped = stars->GetInnerPedestalDC();
116	Float_t innerrms = stars->GetInnerPedestalRMSDC();
117	Float_t outerped = stars->GetOuterPedestalDC();
118	Float_t outerrms = stars->GetOuterPedestalRMSDC();
119
120	UInt_t numPixels = geom->GetNumPixels();
121
122
123	//calculate chisquare
124	Double_t chisq = 0;
125	Double_t delta;
126	Double_t x,y,z;
127	Double_t errorz=0;
128
129	UInt_t usedPx=0;
130	for (UInt_t pixid=1; pixid<numPixels; pixid++)
131	{
132
133
134	if (display.IsUsed(pixid))
135	{
136	x = (*geom)[pixid].GetX();
137	y = (*geom)[pixid].GetY();
138
139	z = display.GetBinContent(pixid+1)
140	- (pixid>lastInnerPixel?outerped:innerped);
141	errorz=(pixid>lastInnerPixel?outerrms:innerrms);
142
143
144	if (errorz > 0.0)
145	{
146	usedPx++;
147
148	Double_t fu;
149	if (find->GetUseCorrelatedGauss())
150	fu = funcCG(x,y,par);
151	else
152	fu = func(x,y,par);
153
154	delta = (z-fu) / errorz;
155	chisq += delta*delta;
156
157	if (iflag == 3)
158	{
159	gLog << "fcn : usedPx, pixid, content, pedestal,z, fu, errorz, delta = "
160	<< usedPx << ", " << pixid << ", "
161	<< display.GetBinContent(pixid+1) << ", "
162	<< (pixid>lastInnerPixel?outerped:innerped)
163	<< ", " << z << ", " << fu << ", " << errorz
164	<< ", " << delta << endl;
165	}
166	}
167	else
168	cerr << " TMinuit::fcn errorz[" << pixid << "] " << errorz << endl;
169	}
170	}
171	f = chisq;
172
173	find->SetChisquare(chisq);
174	find->SetDegreesofFreedom(usedPx);
175
176	//gLog << "fcn : chisq, usedPx = " << chisq << ", " << usedPx << endl;
177	}
178
179	//-------------------------------------------------------------------------
180	//
181	// Constructor
182	//
183
184	MFindStars::MFindStars(const char name, const char title):
185	fGeomCam(NULL), fCurr(NULL), fTimeCurr(NULL), fDrive(NULL), fStars(NULL),
186	fNumVar(6)
187	{
188	fName = name ? name : "MFindStars";
189	fTitle = title ? title : "Tool to find stars from DC Currents";
190
191	// the correlated Gauss function
192	// is fitted by default
193	fNumVar = 6;
194	fUseCorrelatedGauss = kTRUE;
195
196	fNumIntegratedEvents=0;
197	fMaxNumIntegratedEvents = 10;
198	fRingInterest = 125.; //[mm] ~ 0.4 deg
199	fDCTailCut = 4;
200
201	fPixelsUsed.Set(577);
202	fPixelsUsed.Reset((Char_t)kTRUE);
203
204	//Fitting(Minuit) initialitation
205	const Float_t pixelSize = 31.5; //[mm]
206	fMinuitPrintOutLevel = -1;
207	//fMinuitPrintOutLevel = 3;
208
209	fVname = new TString[fNumVar];
210	fVinit.Set(fNumVar);
211	fStep.Set(fNumVar);
212	fLimlo.Set(fNumVar);
213	fLimup.Set(fNumVar);
214	fFix.Set(fNumVar);
215
216	fVname[0] = "max";
217	fVinit[0] = 10.*fMaxNumIntegratedEvents;
218	fStep[0] = fVinit[0]/sqrt2;
219	fLimlo[0] = fMinDCForStars;
220	fLimup[0] = 30.*fMaxNumIntegratedEvents;
221	fFix[0] = 0;
222
223	fVname[1] = "meanx";
224	fVinit[1] = 0.;
225	fStep[1] = fVinit[1]/sqrt2;
226	fLimlo[1] = -600.;
227	fLimup[1] = 600.;
228	fFix[1] = 0;
229
230	fVname[2] = "sigmax";
231	fVinit[2] = pixelSize;
232	fStep[2] = fVinit[2]/sqrt2;
233	fLimlo[2] = pixelSize/(2*sqrt3);
234	fLimup[2] = 500.;
235	fFix[2] = 0;
236
237	fVname[3] = "meany";
238	fVinit[3] = 0.;
239	fStep[3] = fVinit[3]/sqrt2;
240	fLimlo[3] = -600.;
241	fLimup[3] = 600.;
242	fFix[3] = 0;
243
244	fVname[4] = "sigmay";
245	fVinit[4] = pixelSize;
246	fStep[4] = fVinit[4]/sqrt2;
247	fLimlo[4] = pixelSize/(2*sqrt3);
248	fLimup[4] = 500.;
249	fFix[4] = 0;
250
251	if (fUseCorrelatedGauss)
252	{
253	fVname[5] = "xycorr";
254	fVinit[5] = 0.0;
255	fStep[5] = 0.1;
256	fLimlo[5] = -1.0;
257	fLimup[5] = 1.0;
258	fFix[5] = 0;
259	}
260
261	fObjectFit = NULL;
262	// fMethod = "SIMPLEX";
263	fMethod = "MIGRAD";
264	// fMethod = "MINIMIZE";
265	fNulloutput = kFALSE;
266
267	// Set output level
268	// fLog->SetOutputLevel(3); // No dbg messages
269
270	fGeometryFile="";
271	fBSCFile="";
272	}
273
274	//-------------------------------------------------------------------------
275	//
276	// Set 'fUseCorrelatedGauss' flag
277	//
278	// if 'fUseCorrelatedGauss' is TRUE a 2dim Gaussian with correlation
279	// will be fitted
280	//
281
282	void MFindStars::SetUseCorrelatedGauss(Bool_t usecorrgauss)
283	{
284	fUseCorrelatedGauss = usecorrgauss;
285
286	if (usecorrgauss)
287	fNumVar = 6;
288	else
289	fNumVar = 5;
290	}
291
292	//-------------------------------------------------------------------------
293	//
294	// PreProcess
295	//
296
297	Int_t MFindStars::PreProcess(MParList *pList)
298	{
299
300	fGeomCam = (MGeomCam*)pList->FindObject(AddSerialNumber("MGeomCam"));
301
302	if (!fGeomCam)
303	{
304	*fLog << err << AddSerialNumber("MGeomCam") << " not found ... aborting" << endl;
305	return kFALSE;
306	}
307
308	// Initialize camera display with the MGeomCam information
309	fDisplay.SetGeometry(*fGeomCam,"FindStarsDisplay","FindStarsDisplay");
310	fDisplay.SetUsed(fPixelsUsed);
311
312	fCurr = (MCameraDC*)pList->FindObject(AddSerialNumber("MCameraDC"));
313
314	if (!fCurr)
315	{
316	*fLog << err << AddSerialNumber("MCameraDC") << " not found ... aborting" << endl;
317	return kFALSE;
318	}
319
320	fTimeCurr = (MTime*)pList->FindObject(AddSerialNumber("MTimeCurrents"));
321
322	if (!fTimeCurr)
323	{
324	*fLog << err << AddSerialNumber("MTimeCurrents") << " not found ... aborting" << endl;
325	return kFALSE;
326	}
327
328	fDrive = (MReportDrive*)pList->FindObject(AddSerialNumber("MReportDrive"));
329
330	if (!fDrive)
331	{
332
333	*fLog << warn << AddSerialNumber("MReportDrive") << " not found ... ignored." << endl;
334
335	}
336	else
337	{
338
339	MObservatory magic1;
340
341	MMcConfigRunHeader *config=0;
342	MGeomCam *geom=0;
343
344	TFile file(fGeometryFile);
345	TTree tree = (TTree)file.Get("RunHeaders");
346	tree->SetBranchAddress("MMcConfigRunHeader", &config);
347	if (tree->GetBranch("MGeomCam")) tree->SetBranchAddress("MGeomCam", &geom);
348	tree->GetEntry(0);
349
350	fAstro.SetMirrors(*config->GetMirrors());
351	fAstro.SetGeom(*geom);
352	fAstro.ReadBSC(fBSCFile);
353
354	fAstro.SetObservatory(magic1);
355
356	}
357
358
359	fStars = (MStarCam*)pList->FindCreateObj(AddSerialNumber("MStarCam"),"MStarCam");
360	if (!fStars)
361	{
362	*fLog << err << AddSerialNumber("MStarCam") << " cannot be created ... aborting" << endl;
363	return kFALSE;
364	}
365
366	fMinDCForStars = 1.*fMaxNumIntegratedEvents; //[uA]
367
368	// Initialize the TMinuit object
369
370	TMinuit *gMinuit = new TMinuit(fNumVar); //initialize TMinuit with a maximum of params
371	gMinuit->SetFCN(fcn);
372
373	Double_t arglist[10];
374	Int_t ierflg = 0;
375
376	arglist[0] = 1;
377	gMinuit->mnexcm("SET ERR", arglist ,1,ierflg);
378	arglist[0] = fMinuitPrintOutLevel;
379	gMinuit->mnexcm("SET PRI", arglist ,1,ierflg);
380
381	// suppress warnings
382	Int_t errWarn;
383	Double_t tmpwar = 0;
384	gMinuit->mnexcm("SET NOW", &tmpwar, 0, errWarn);
385
386
387	// Set MParList object pointer to allow mimuit to access internally
388	gMinuit->SetObjectFit(pList);
389
390	return kTRUE;
391	}
392
393	//------------------------------------------------------------------------
394	//
395	// Process :
396	//
397	//
398	//
399	//
400
401	Int_t MFindStars::Process()
402	{
403
404	UInt_t numPixels = fGeomCam->GetNumPixels();
405	TArrayC origPixelsUsed;
406	origPixelsUsed.Set(numPixels);
407
408	if (fNumIntegratedEvents >= fMaxNumIntegratedEvents) {
409
410	//Fist delete the previous stars in the list
411	fStars->GetList()->Delete();
412
413	if (fDrive) {
414
415	//If drive information is provided we take RaDec info
416	//from the drive and let the star list fill by the astrocamera.
417
418	//FIXME: rwagner: Doesn't work as expected
419	//FIXME: rwagner: For the time being set manually.
420	//fAstro.SetRaDec(fDrive->GetRa(), fDrive->GetDec());
421
422	fAstro.SetTime(*fTimeCurr);
423	fAstro.SetGuiActive();
424	fAstro.FillStarList(fStars->GetList());
425
426	//cout << "Number of Stars added by astrocamera is "
427	// <<fStars->GetList()->GetSize() << endl;
428
429	MStarPos* starpos;
430	TIter Next(fStars->GetList());
431	while ((starpos=(MStarPos*)Next())) {
432	//starpos->SetCalcValues(40,40,starpos->GetXExp(), starpos->GetYExp(),
433	// fRingInterest/2, fRingInterest/2,
434	// 0., 0., 0., 0.);
435	//starpos->SetFitValues (40,40,starpos->GetXExp(), starpos->GetYExp(),
436	// fRingInterest/2, fRingInterest/2, 0.,
437	// 0., 0., 0., 0., -1);
438	}
439
440	for (UInt_t pix=1; pix<numPixels; pix++) {
441	if (fDisplay.IsUsed(pix))
442	origPixelsUsed[pix]=(Char_t)kTRUE;
443	else
444	origPixelsUsed[pix]=(Char_t)kFALSE;
445	}
446
447	DCPedestalCalc();
448
449	}
450	else
451	{
452
453	cout << "No drive information available: Will not use a star catalog to identify stars."<< endl;
454
455	for (UInt_t pix=1; pix<numPixels; pix++) {
456	if (fDisplay.IsUsed(pix))
457	origPixelsUsed[pix]=(Char_t)kTRUE;
458	else
459	origPixelsUsed[pix]=(Char_t)kFALSE;
460	}
461
462	if (DCPedestalCalc()) {
463
464	Float_t innermin = fStars->GetInnerPedestalDC()+fDCTailCut*fStars->GetInnerPedestalRMSDC();
465	Float_t outermin = fStars->GetOuterPedestalDC()+fDCTailCut*fStars->GetOuterPedestalRMSDC();
466	fMinDCForStars = innermin>outermin?innermin:outermin;
467	if (fMinuitPrintOutLevel>=0) *fLog << dbg << "fMinDCForStars = " << fMinDCForStars << endl;
468
469	// Find the star candidates searching the most brights pairs of pixels
470	Float_t maxPixelDC;
471	MGeomPix maxPixel;
472
473	while(FindPixelWithMaxDC(maxPixelDC, maxPixel)) {
474	MStarPos *starpos = new MStarPos;
475
476	starpos->SetExpValues(maxPixelDC,maxPixel.GetX(),maxPixel.GetY());
477
478	//starpos->SetCalcValues(maxPixelDC, maxPixelDC,
479	// maxPixel.GetX(), maxPixel.GetY(),
480	// fRingInterest/2, fRingInterest/2,
481	// 0., 0., 0., 0.);
482
483	//starpos->SetFitValues(maxPixelDC, maxPixelDC,
484	// maxPixel.GetX(), maxPixel.GetY(),
485	// fRingInterest/2, fRingInterest/2, 0.,
486	// 0., 0., 0., 0., -1);
487
488	fStars->GetList()->Add(starpos);
489	ShadowStar(starpos);
490	}
491	fDisplay.SetUsed(origPixelsUsed);
492	}
493	}
494
495	//Show the stars found
496	//fStars->Print("namepossizechierr");
497
498	//loop to extract position of stars on the camera
499	if (fStars->GetList()->GetSize() == 0) {
500	*fLog << err << GetName() << "No stars candidates in the camera." << endl;
501	return kCONTINUE;
502	} else
503	{
504	//*fLog << inf << GetName() << " found " << fStars->GetList()->GetSize()
505	// << " star candidates in the camera." << endl;
506	}
507
508	for (UInt_t pix=1; pix<numPixels; pix++) {
509	if (fDisplay.IsUsed(pix))
510	origPixelsUsed[pix]=(Char_t)kTRUE;
511	else
512	origPixelsUsed[pix]=(Char_t)kFALSE;
513	}
514
515	TIter Next(fStars->GetList());
516	MStarPos* star;
517	while ((star=(MStarPos*)Next())) {
518	FindStar(star);
519	ShadowStar(star);
520	}
521
522	//Show the stars found: Here it is interesting to see what FindStars
523	//made out of the positions we gave to it.
524	if (fMinuitPrintOutLevel>=0)
525	fStars->Print("namepossizchierr");
526
527	//After finding stars reset all variables
528	fDisplay.Reset();
529	fStars->GetDisplay().Reset(); //FIXME: Put this display just in the container
530	fDisplay.SetUsed(origPixelsUsed);
531	fNumIntegratedEvents=0;
532	}
533
534	for (UInt_t pix=1; pix<numPixels; pix++) {
535	if (fDisplay.IsUsed(pix))
536	origPixelsUsed[pix]=(Char_t)kTRUE;
537	else
538	origPixelsUsed[pix]=(Char_t)kFALSE;
539
540	}
541
542	fDisplay.AddCamContent(*fCurr);
543	fNumIntegratedEvents++;
544	fDisplay.SetUsed(origPixelsUsed);
545
546	return kTRUE;
547	}
548
549	Int_t MFindStars::PostProcess()
550	{
551	return kTRUE;
552	}
553
554	void MFindStars::SetBlindPixels(TArrayS blindpixels)
555	{
556	Int_t npix = blindpixels.GetSize();
557
558	for (Int_t idx=0; idx<npix; idx++)
559	{
560	fPixelsUsed[blindpixels[idx]]=(Char_t)kFALSE;
561	if (fMinuitPrintOutLevel>=0) *fLog << dbg << "MFindStars::SetBlindPixels fDisplay.IsUsed(" <<blindpixels[idx] << ") kFALSE" << endl;
562	}
563
564	fDisplay.SetUsed(fPixelsUsed);
565	}
566
567	//-------------------------------------------------------------------------
568	//
569	// DCPedestalCalc :
570	//
571	//
572	//
573	//
574
575	Bool_t MFindStars::DCPedestalCalc()
576	{
577	//-------------------------------------------------------------
578	// save pointer to the MINUIT object for optimizing the supercuts
579	// because it will be overwritten
580	// when fitting the alpha distribution in MHFindSignificance
581	TMinuit *savePointer = gMinuit;
582	//-------------------------------------------------------------
583
584	UInt_t numPixels = fGeomCam->GetNumPixels();
585	Float_t ped;
586	Float_t rms;
587
588	//TH1F *dchist = new TH1F[2];
589	TH1F *dchist[2];
590	TString tit;
591	TString nam;
592	for (UInt_t i=0; i<2; i++)
593	{
594	nam = i;
595	tit = "dchist[";
596	tit += i;
597	tit += "]";
598	dchist[i] = new TH1F(nam, tit,
599	26,0.4fMaxNumIntegratedEvents,3.fMaxNumIntegratedEvents);
600	}
601
602	for (UInt_t pix=1; pix<=lastInnerPixel; pix++)
603	dchist[0]->Fill(fDisplay.GetBinContent(pix+1));
604	for (UInt_t pix=lastInnerPixel+1; pix<numPixels; pix++)
605	dchist[1]->Fill(fDisplay.GetBinContent(pix+1));
606
607	// inner/outer pixels
608	for (UInt_t i=0; i<2; i++)
609	{
610	Float_t nummaxprobdc = dchist[i]->GetBinContent(dchist[i]->GetMaximumBin());
611	Float_t maxprobdc = dchist[i]->GetBinCenter(dchist[i]->GetMaximumBin());
612	UInt_t bin = dchist[i]->GetMaximumBin();
613	do
614	{
615	bin++;
616	}
617	while(dchist[i]->GetBinContent(bin)/nummaxprobdc > 0.5);
618	Float_t halfmaxprobdc = dchist[i]->GetBinCenter(bin);
619
620	if (fMinuitPrintOutLevel>=0) *fLog << dbg << " maxprobdc[high] " << maxprobdc << "[" << nummaxprobdc << "] ";
621	if (fMinuitPrintOutLevel>=0) *fLog << dbg << " halfmaxprobdc[high] " << halfmaxprobdc << "[" << dchist[i]->GetBinContent(bin) << "]" << endl;
622
623	Float_t rmsguess = TMath::Abs(maxprobdc-halfmaxprobdc);
624	Float_t min = maxprobdc-3*rmsguess;
625	min = (min<0.?0.:min);
626	Float_t max = maxprobdc+3*rmsguess;
627
628	if (fMinuitPrintOutLevel>=0) *fLog << dbg << " maxprobdc " << maxprobdc << " rmsguess " << rmsguess << endl;
629
630	TF1 func("func","gaus",min,max);
631	func.SetParameters(nummaxprobdc, maxprobdc, rmsguess);
632
633	dchist[i]->Fit("func","QR0");
634
635	UInt_t aproxnumdegrees = 6*(bin-dchist[i]->GetMaximumBin());
636	Float_t chiq = func.GetChisquare();
637	ped = func.GetParameter(1);
638	rms = func.GetParameter(2);
639
640	if (fMinuitPrintOutLevel>=0) *fLog << dbg << " ped " << ped << " rms " << rms << " chiq/ndof " << chiq << "/" << aproxnumdegrees << endl;
641
642	Int_t numsigmas = 5;
643	Axis_t minbin = ped-numsigmas*rms/dchist[i]->GetBinWidth(1);
644	minbin=minbin<1?1:minbin;
645	Axis_t maxbin = ped+numsigmas*rms/dchist[i]->GetBinWidth(1);
646	if (fMinuitPrintOutLevel>=0) *fLog << dbg << " Number of pixels with dc under " << numsigmas << " sigmas = " << dchist[i]->Integral((int)minbin,(int)maxbin) << endl;
647
648	//Check results from the fit are consistent
649	if (ped < 0. \|\| rms < 0.)
650	{
651	*fLog << dbg << "dchist[i]->GetEntries()" << dchist[i]->GetEntries();
652	// TCanvas *c1 = new TCanvas("c2","c2",500,800);
653	// dchist[i]->Draw();
654	// c1->Print("dchist.ps");
655	// delete c1;
656	// exit(1);
657	}
658	else if (TMath::Abs(ped-maxprobdc) > rmsguess \|\| rms > rmsguess)
659	{
660	*fLog << warn << GetName() << " Pedestal DC fit give non consistent results for " << (i==0?"Inner":"Outer") << "pixels." << endl;
661	*fLog << warn << " maxprobdc " << maxprobdc << " rmsguess " << rmsguess << endl;
662	*fLog << warn << " ped " << ped << " rms " << rms << " chiq/ndof " << chiq << "/" << aproxnumdegrees << endl;
663	ped = maxprobdc;
664	rms = rmsguess/1.175; // FWHM=2.35*rms
665	}
666
667	if (i == 0)
668	{
669	fStars->SetInnerPedestalDC(ped);
670	fStars->SetInnerPedestalRMSDC(rms);
671	}
672	else
673	{
674	fStars->SetOuterPedestalDC(ped);
675	fStars->SetOuterPedestalRMSDC(rms);
676	}
677	}
678
679
680
681	for (UInt_t i=0; i<2; i++)
682	{
683	delete dchist[i];
684	}
685	//delete [] dchist;
686
687	//=================================================================
688
689	// reset gMinuit to the MINUIT object for optimizing the supercuts
690	gMinuit = savePointer;
691	//-------------------------------------------
692
693	if (fStars->GetInnerPedestalDC() < 0. \|\| fStars->GetInnerPedestalRMSDC() < 0. \|\| fStars->GetOuterPedestalDC() < 0. \|\| fStars->GetOuterPedestalRMSDC() < 0.)
694	return kFALSE;
695
696	return kTRUE;
697	}
698
699	Bool_t MFindStars::FindPixelWithMaxDC(Float_t &maxDC, MGeomPix &maxPix)
700	{
701	UInt_t numPixels = fGeomCam->GetNumPixels();
702
703	// Find the two close pixels with the maximun dc
704	UInt_t maxPixIdx[2];
705
706	maxDC = 0;
707
708	for (UInt_t pix=1; pix<numPixels; pix++)
709	{
710	if(fDisplay.IsUsed(pix))
711	{
712	Float_t dc[2];
713	dc[0] = fDisplay.GetBinContent(pix+1);
714	if (dc[0] < fMinDCForStars)
715	continue;
716
717	MGeomPix &g = (*fGeomCam)[pix];
718	Int_t numNextNeighbors = g.GetNumNeighbors();
719
720	Float_t dcsum;
721	for(Int_t nextNeighbor=0; nextNeighbor<numNextNeighbors; nextNeighbor++)
722	{
723	UInt_t swneighbor = g.GetNeighbor(nextNeighbor);
724	if(fDisplay.IsUsed(swneighbor))
725	{
726	dc[1] = fDisplay.GetBinContent(swneighbor+1);
727	if (dc[1] < fMinDCForStars)
728	continue;
729
730	dcsum = dc[0] + dc[1];
731
732	if(dcsum > maxDC*2)
733	{
734	if(dc[0]>=dc[1])
735	{
736	maxPixIdx[0] = pix;
737	maxPixIdx[1] = swneighbor;
738	maxDC = dc[0];
739	}
740	else
741	{
742	maxPixIdx[1] = pix;
743	maxPixIdx[0] = swneighbor;
744	maxDC = dc[1];
745	}
746	}
747	}
748	}
749	}
750	}
751
752	if (maxDC == 0)
753	{
754	*fLog << warn << " No found pixels with maximum dc" << endl;
755	return kFALSE;
756	}
757
758	maxPix = (*fGeomCam)[maxPixIdx[0]];
759
760	if (fMinuitPrintOutLevel>=0) *fLog << dbg << "Star candidate maxDC(" << setw(3) << maxDC << " uA) x position(" << setw(3) << maxPix.GetX() << " mm) x position(" << setw(3) << maxPix.GetY() << " mm) swnumber(" << maxPixIdx[0] << ")" << endl;
761
762	return kTRUE;
763	}
764
765
766	//----------------------------------------------------------------------------
767	//
768	// FindStar
769	//
770	//
771	//
772
773	Bool_t MFindStars::FindStar(MStarPos* star)
774	{
775	UInt_t numPixels = fGeomCam->GetNumPixels();
776	Float_t innerped = fStars->GetInnerPedestalDC();
777	Float_t outerped = fStars->GetOuterPedestalDC();
778
779	TArrayC origPixelsUsed;
780	origPixelsUsed.Set(numPixels);
781
782	for (UInt_t pix=1; pix<numPixels; pix++)
783	{
784	if (fDisplay.IsUsed(pix))
785	origPixelsUsed[pix]=(Char_t)kTRUE;
786	else
787	origPixelsUsed[pix]=(Char_t)kFALSE;
788	}
789
790	Float_t expX = star->GetXExp();
791	Float_t expY = star->GetYExp();
792
793	Float_t max =0;
794	UInt_t pixmax =0;
795	Float_t meanX =0;
796	Float_t meanY =0;
797	Float_t meanSqX =0;
798	Float_t meanSqY =0;
799	Float_t sumCharge =0;
800	Float_t sumSqCharge =0;
801	UInt_t usedInnerPx =0;
802	UInt_t usedOuterPx =0;
803	Float_t factor = 1.0;
804
805	Float_t meanXold = 1.e10;
806	Float_t meanYold = 1.e10;
807
808	const Float_t meanPresition = 3.; //[mm]
809	const UInt_t maxNumIterations = 10;
810	UInt_t numIterations = 0;
811
812	//-------------------- start of iteration loop -----------------------
813	for (UInt_t it=0; it<maxNumIterations; it++)
814	{
815	//rwagner: Need to find px with highest dc and need to assume it is
816	// somewhere near the center of the star
817	//after that we need to REDEFINE our roi! because expected pos could be
818	// quite off that px!
819
820	// 1.) Initial roi around expected position
821
822	for (UInt_t pix=1; pix<numPixels; pix++)
823	{
824
825	Float_t pixXpos=(*fGeomCam)[pix].GetX();
826	Float_t pixYpos=(*fGeomCam)[pix].GetY();
827	Float_t dist = sqrt((pixXpos-expX)*(pixXpos-expX)+
828	(pixYpos-expY)*(pixYpos-expY));
829
830	if ((dist < fRingInterest) && fDisplay.IsUsed(pix))
831	fPixelsUsed[pix]=(Char_t)kTRUE;
832	else
833	fPixelsUsed[pix]=(Char_t)kFALSE;
834	}
835	fDisplay.SetUsed(fPixelsUsed);
836
837	// 2.) Find px with highest dc in that region
838
839	max = 0.0;
840	pixmax = 0;
841	for(UInt_t pix=0; pix<numPixels; pix++)
842	if(fDisplay.IsUsed(pix))
843	{
844	Float_t charge = fDisplay.GetBinContent(pix+1);
845	if (charge>max)
846	{
847	max=charge;
848	pixmax=pix;
849	}
850	}
851
852	// 3.) make it new center
853
854	expX = (*fGeomCam)[pixmax].GetX();
855	expY = (*fGeomCam)[pixmax].GetY();
856
857	for (UInt_t pix=1; pix<numPixels; pix++)
858	fPixelsUsed[pix]=(Char_t)kTRUE;
859	fDisplay.SetUsed(fPixelsUsed);
860
861	// First define a area of interest around the expected position of the star
862	for (UInt_t pix=1; pix<numPixels; pix++)
863	{
864	Float_t pixXpos=(*fGeomCam)[pix].GetX();
865	Float_t pixYpos=(*fGeomCam)[pix].GetY();
866	Float_t dist = sqrt((pixXpos-expX)*(pixXpos-expX)+
867	(pixYpos-expY)*(pixYpos-expY));
868
869	if ((dist < fRingInterest) && fDisplay.IsUsed(pix))
870	fPixelsUsed[pix]=(Char_t)kTRUE;
871	else
872	fPixelsUsed[pix]=(Char_t)kFALSE;
873	}
874
875	fDisplay.SetUsed(fPixelsUsed);
876
877	// determine mean x and mean y
878	max = 0.0;
879	pixmax = 0;
880	meanX = 0.0;
881	meanY = 0.0;
882	meanSqX = 0.0;
883	meanSqY = 0.0;
884	sumCharge = 0.0;
885	sumSqCharge = 0.0;
886	usedInnerPx = 0;
887	usedOuterPx = 0;
888
889	for(UInt_t pix=0; pix<numPixels; pix++)
890	{
891	if(fDisplay.IsUsed(pix))
892	{
893	pix>lastInnerPixel?usedOuterPx++:usedInnerPx++;
894
895	Float_t charge = fDisplay.GetBinContent(pix+1);
896	Float_t pixXpos = (*fGeomCam)[pix].GetX();
897	Float_t pixYpos = (*fGeomCam)[pix].GetY();
898
899	if (charge>max)
900	{
901	max=charge;
902	pixmax=pix;
903	}
904
905	meanX += charge*pixXpos;
906	meanY += charge*pixYpos;
907	meanSqX += chargepixXpospixXpos;
908	meanSqY += chargepixYpospixYpos;
909	sumCharge += charge;
910	sumSqCharge += charge*charge;
911	}
912	}
913
914	if (fMinuitPrintOutLevel>=0) *fLog << dbg << " usedInnerPx " << usedInnerPx << " usedOuterPx " << usedOuterPx << endl;
915
916	meanX /= sumCharge;
917	meanY /= sumCharge;
918	meanSqX /= sumCharge;
919	meanSqY /= sumCharge;
920	factor = sqrt( sumSqCharge/(sumCharge*sumCharge) );
921
922	// stop iteration when (meanX, meanY) becomes stable
923	if ( TMath::Abs(meanX-meanXold) < meanPresition &&
924	TMath::Abs(meanY-meanYold) < meanPresition )
925	break;
926
927	meanXold = meanX;
928	meanYold = meanY;
929	numIterations++;
930	}
931	// this statement was commented out because the condition
932	// was never fulfilled :
933	//while(TMath::Abs(meanX-expX) > meanPresition \|\|
934	// TMath::Abs(meanY-expY) > meanPresition);
935	//-------------------- end of iteration loop -----------------------
936
937	if (numIterations >= maxNumIterations)
938	{
939	*fLog << warn << GetName() << "Mean calculation not converged after "
940	<< maxNumIterations << " iterations" << endl;
941	}
942
943
944	//Float_t rmsX = (meanSqX - meanXmeanX) - fRingInterestfRingInterest/12;
945	//Float_t rmsY = (meanSqY - meanYmeanY) - fRingInterestfRingInterest/12;
946
947	Float_t rmsX = (meanSqX - meanX*meanX);
948	Float_t rmsY = (meanSqY - meanY*meanY);
949
950	if ( rmsX > 0)
951	rmsX = TMath::Sqrt(rmsX);
952	else
953	{
954	*fLog << warn << " MFindStars::FindStar negative rmsX² " << rmsX << endl;
955	*fLog << warn << " meanSqX " << meanSqX << " meanX " << meanX << " fRingInterest " << fRingInterest << " sumCharge " << sumCharge << endl;
956	rmsX = 0.;
957	}
958
959	if ( rmsY > 0)
960	rmsY = TMath::Sqrt(rmsY);
961	else
962	{
963	*fLog << warn << " MFindStars::FindStar negative rmsY² " << rmsY << endl;
964	*fLog << warn << " meanSqY " << meanSqY << " meanY " << meanY << " fRingInterest " << fRingInterest << " sumCharge " << sumCharge<< endl;
965	rmsY = 0.;
966	}
967
968	Float_t deltameanX = factor * rmsX;
969	Float_t deltameanY = factor * rmsY;
970
971
972	// Substrack pedestal DC
973	sumCharge-= (usedInnerPxinnerped+usedOuterPxouterped)/(usedInnerPx+usedOuterPx);
974	max-=pixmax>lastInnerPixel?outerped:innerped;
975
976
977	star->SetCalcValues( sumCharge, max, meanX, meanY, rmsX, rmsY,
978	0., deltameanXdeltameanX, 0., deltameanYdeltameanY);
979
980	if (rmsX <= 0. \|\| rmsY <= 0.)
981	return kFALSE;
982
983
984	// fit the star spot using TMinuit
985
986
987	for (UInt_t pix=1; pix<numPixels; pix++)
988	if (fDisplay.IsUsed(pix))
989	if (fMinuitPrintOutLevel>=0) *fLog << dbg << "[fit the star spot] fDisplay.IsUsed(" << pix << ") kTRUE" << endl;
990
991	if (fMinuitPrintOutLevel>=0) *fLog << dbg << "fMinDCForStars " << fMinDCForStars << " pixmax>lastInnerPixel?outerped:innerped " << (pixmax>lastInnerPixel?outerped:innerped) << " fMaxNumIntegratedEvents " << fMaxNumIntegratedEvents << endl;
992
993	//Initialize variables for fit
994	fVinit[0] = max;
995	fLimlo[0] = fMinDCForStars-(pixmax>lastInnerPixel?outerped:innerped);
996	fLimup[0] = 30*fMaxNumIntegratedEvents-(pixmax>lastInnerPixel?outerped:innerped);
997	fVinit[1] = meanX;
998	fVinit[2] = rmsX;
999	fVinit[3] = meanY;
1000	fVinit[4] = rmsY;
1001	//Init steps
1002	for(Int_t i=0; i<fNumVar; i++)
1003	{
1004	if (fVinit[i] != 0)
1005	fStep[i] = TMath::Abs(fVinit[i]/sqrt2);
1006	else
1007	fStep[i] = 0.1;
1008
1009	if (fMinuitPrintOutLevel>=0) *fLog << dbg << " fVinit[" << i << "] " << fVinit[i];
1010	if (fMinuitPrintOutLevel>=0) *fLog << dbg << " fStep[" << i << "] " << fStep[i];
1011	if (fMinuitPrintOutLevel>=0) *fLog << dbg << " fLimlo[" << i << "] " << fLimlo[i];
1012	if (fMinuitPrintOutLevel>=0) *fLog << dbg << " fLimup[" << i << "] " << fLimup[i] << endl;
1013	}
1014
1015
1016	// -------------------------------------------
1017	// call MINUIT
1018
1019	Double_t arglist[10];
1020	Int_t ierflg = 0;
1021
1022	for (Int_t i=0; i<fNumVar; i++)
1023	gMinuit->mnparm(i, fVname[i], fVinit[i], fStep[i], fLimlo[i], fLimup[i], ierflg);
1024
1025	TStopwatch clock;
1026	clock.Start();
1027
1028	// Now ready for minimization step
1029	arglist[0] = 500;
1030	arglist[1] = 1.;
1031	gMinuit->mnexcm(fMethod, arglist ,2,ierflg);
1032
1033	// call fcn with iflag = 3
1034	//arglist[0] = 3;
1035	//Int_t ierflg3;
1036	//gMinuit->mnexcm("CALL", arglist, 1, ierflg3);
1037
1038	clock.Stop();
1039
1040	if(fMinuitPrintOutLevel>=0)
1041	{
1042	if (fMinuitPrintOutLevel>=0) *fLog << dbg << "Time spent for the minimization in MINUIT : " << endl;;
1043	clock.Print();
1044	}
1045
1046
1047	//---------- for the uncorrelated Gauss fit (start) ---------
1048	if (!fUseCorrelatedGauss)
1049	{
1050	Double_t integratedCharge;
1051	Double_t maxFit, maxFitError;
1052	Double_t meanXFit, meanXFitError;
1053	Double_t sigmaX, sigmaXError;
1054	Double_t meanYFit, meanYFitError;
1055	Double_t sigmaY, sigmaYError;
1056	Float_t chisquare = GetChisquare();
1057	Int_t degrees = GetDegreesofFreedom()-fNumVar;
1058
1059	if (!ierflg)
1060	{
1061	gMinuit->GetParameter(0, maxFit, maxFitError);
1062	gMinuit->GetParameter(1, meanXFit, meanXFitError);
1063	gMinuit->GetParameter(2, sigmaX, sigmaXError);
1064	gMinuit->GetParameter(3, meanYFit, meanYFitError);
1065	gMinuit->GetParameter(4, sigmaY, sigmaYError);
1066
1067	//FIXME: Do the integral properlly
1068	integratedCharge = 0.;
1069	}
1070	else
1071	{
1072	maxFit = 0.;
1073	meanXFit = 0.;
1074	sigmaX = 0.;
1075	meanYFit = 0.;
1076	sigmaY = 0.;
1077	integratedCharge = 0.;
1078
1079	*fLog << err << "TMinuit::Call error " << ierflg << endl;
1080	}
1081
1082	// get error matrix
1083	Double_t matrix[5][5];
1084	gMinuit->mnemat(&matrix[0][0],5);
1085
1086	star->SetFitValues(integratedCharge,maxFit, meanXFit, meanYFit,
1087	sigmaX, sigmaY, 0.0,
1088	matrix[1][1], matrix[1][3], matrix[3][3],
1089	chisquare, degrees);
1090	}
1091	//---------- for the uncorrelated Gauss fit (end) ---------
1092
1093	//---------- for the correlated Gauss fit (start) ---------
1094	if (fUseCorrelatedGauss)
1095	{
1096	TArrayD fValues(fNumVar);
1097	TArrayD fErrors(fNumVar);
1098
1099	const static Int_t fNdim = 6;
1100	Double_t matrix[fNdim][fNdim];
1101
1102	Double_t fmin = 0.0;
1103	Double_t fedm = 0.0;
1104	Double_t errdef = 0.0;
1105	Int_t npari = 0;
1106	Int_t nparx = 0;
1107	Int_t istat = 0;
1108	gMinuit->mnstat(fmin, fedm, errdef, npari, nparx, istat);
1109	if (fMinuitPrintOutLevel>=0)
1110	{
1111	*fLog << dbg
1112	<< "Status of Correlated Gauss fit to the DC currents : " << endl;
1113	}
1114	if (fMinuitPrintOutLevel>=0)
1115	{
1116	*fLog << dbg
1117	<< " fmin, fedm, errdef, npari, nparx, istat = "
1118	<< fmin << ", " << fedm << ", " << errdef << ", " << npari
1119	<< ", " << nparx << ", " << istat << endl;
1120	}
1121
1122	if (!ierflg)
1123	{
1124	for (Int_t k=0; k<fNumVar; k++)
1125	gMinuit->GetParameter( k, fValues[k], fErrors[k] );
1126	}
1127	else
1128	{
1129	*fLog << err << "Correlated Gauss fit failed : ierflg, istat = "
1130	<< ierflg << ", " << istat << endl;
1131	}
1132
1133	Float_t charge = 0.0;
1134	Float_t chi2 = fmin;
1135	Int_t ndof = GetDegreesofFreedom()-fNumVar;
1136
1137	//get error matrix
1138	if (istat >= 1)
1139	{
1140	gMinuit->mnemat( &matrix[0][0], fNdim);
1141
1142	// copy covariance matrix into a matrix which includes also the fixed
1143	// parameters
1144	TString name;
1145	Double_t bnd1, bnd2, val, err;
1146	Int_t jvarbl;
1147	Int_t kvarbl;
1148	for (Int_t j=0; j<fNumVar; j++)
1149	{
1150	if (gMinuit)
1151	gMinuit->mnpout(j, name, val, err, bnd1, bnd2, jvarbl);
1152
1153	for (Int_t k=0; k<fNumVar; k++)
1154	{
1155	if (gMinuit)
1156	gMinuit->mnpout(k, name, val, err, bnd1, bnd2, kvarbl);
1157
1158	matrix[j][k] = jvarbl==0 \|\| kvarbl==0 ? 0 : matrix[jvarbl-1][kvarbl-1];
1159	}
1160	}
1161	}
1162	else
1163	{
1164	// error matrix was not calculated, construct it
1165	if (fMinuitPrintOutLevel>=0)
1166	{
1167	*fLog << warn
1168	<< "error matrix is not defined, construct it" << endl;
1169	}
1170	for (Int_t j=0; j<fNumVar; j++)
1171	{
1172	for (Int_t k=0; k<fNumVar; k++)
1173	matrix[j][k] = 0;
1174
1175	matrix[j][j] = fErrors[j]*fErrors[j];
1176	}
1177	}
1178
1179	if (fMinuitPrintOutLevel>=0)
1180	{
1181	*fLog << "Before calling SetFitValues : " << endl;
1182	*fLog << "fValues = " << fValues[0] << ", " << fValues[1] << ", "
1183	<< fValues[2] << ", " << fValues[3] << ", " << fValues[4]
1184	<< ", " << fValues[5] << endl;
1185
1186	*fLog << "fErrors = " << fErrors[0] << ", " << fErrors[1] << ", "
1187	<< fErrors[2] << ", " << fErrors[3] << ", " << fErrors[4]
1188	<< ", " << fErrors[5] << endl;
1189
1190	*fLog << "error matrix = " << matrix[0][0] << " " << matrix[0][1]
1191	<< " " << matrix[0][2] << " " << matrix[0][3]
1192	<< " " << matrix[0][4] << " " << matrix[0][5]
1193	<< endl;
1194	*fLog << " " << matrix[1][0] << " " << matrix[1][1]
1195	<< " " << matrix[1][2] << " " << matrix[1][3]
1196	<< " " << matrix[1][4] << " " << matrix[1][5]
1197	<< endl;
1198	*fLog << " " << matrix[2][0] << " " << matrix[2][1]
1199	<< " " << matrix[2][2] << " " << matrix[2][3]
1200	<< " " << matrix[2][4] << " " << matrix[2][5]
1201	<< endl;
1202	*fLog << " " << matrix[3][0] << " " << matrix[3][1]
1203	<< " " << matrix[3][2] << " " << matrix[3][3]
1204	<< " " << matrix[3][4] << " " << matrix[3][5]
1205	<< endl;
1206	*fLog << " " << matrix[4][0] << " " << matrix[4][1]
1207	<< " " << matrix[4][2] << " " << matrix[4][3]
1208	<< " " << matrix[4][4] << " " << matrix[4][5]
1209	<< endl;
1210	*fLog << " " << matrix[5][0] << " " << matrix[5][1]
1211	<< " " << matrix[5][2] << " " << matrix[5][3]
1212	<< " " << matrix[5][4] << " " << matrix[5][5]
1213	<< endl;
1214	}
1215
1216	star->SetFitValues(charge, fValues[0], fValues[1], fValues[3],
1217	fValues[2], fValues[4], fValues[5],
1218	matrix[1][1], matrix[1][3],matrix[3][3],
1219	chi2, ndof);
1220	}
1221
1222	//---------- for the correlated Gauss fit (end) ---------
1223
1224
1225	// reset the display to the starting values
1226	fDisplay.SetUsed(origPixelsUsed);
1227
1228	if (ierflg)
1229	return kCONTINUE;
1230	return kTRUE;
1231	}
1232
1233	Bool_t MFindStars::ShadowStar(MStarPos* star)
1234	{
1235	UInt_t numPixels = fGeomCam->GetNumPixels();
1236
1237	// Define an area around the star which will be set unused.
1238	UInt_t shadowPx=0;
1239	for (UInt_t pix=1; pix<numPixels; pix++)
1240	{
1241	Float_t pixXpos = (*fGeomCam)[pix].GetX();
1242	Float_t pixYpos = (*fGeomCam)[pix].GetY();
1243	Float_t starXpos = star->GetMeanX();
1244	Float_t starYpos = star->GetMeanY();
1245
1246	Float_t starSize = 3sqrt( star->GetSigmaX()star->GetSigmaX()
1247	+ star->GetSigmaY()*star->GetSigmaY() );
1248
1249	Float_t dist = sqrt((pixXpos-starXpos)*(pixXpos-starXpos)+
1250	(pixYpos-starYpos)*(pixYpos-starYpos));
1251
1252	if (dist > starSize && fDisplay.IsUsed(pix))
1253	fPixelsUsed[pix]=(Char_t)kTRUE;
1254	else
1255	{
1256	fPixelsUsed[pix]=(Char_t)kFALSE;
1257	shadowPx++;
1258	}
1259	}
1260
1261	if (fMinuitPrintOutLevel>=0) *fLog << dbg << " shadowPx " << shadowPx << endl;
1262
1263	fDisplay.SetUsed(fPixelsUsed);
1264
1265	return kTRUE;
1266	}
1267
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