* removed HLT logging
[u/mrichter/AliRoot.git] / CORRFW / AliCFTrackIsPrimaryCuts.cxx
CommitLineData
563113d0 1/**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
3 * *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
6 * *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
15
16// The class AliCFTrackIsPrimaryCut is designed to select reconstructed tracks
17// with a small impact parameter and tracks which are (not) daughters of kink
18// decays and to provide corresponding QA histograms.
19// This class inherits from the Analysis' Framework abstract base class
20// AliAnalysisCuts and is a part of the Correction Framework.
21// This class acts on single, reconstructed tracks, it is applicable on
22// ESD and AOD data.
23// It mainly consists of a IsSelected function that returns a boolean.
24// This function checks whether the considered track passes a set of cuts:
89d7d478 25// - min. and max. distance to main vertex in transverse plane (xy)
26// - min. and max. longitudinal distance to main vertex (z)
27// - min. and max. distance to main vertex as ellpise in xy - z plane
28// - all above cuts on absolute values or in units of sigma (resolution)
29// - min. and max. distance to main vertex in units of sigma (resolution)
30// - max. transverse (xy) and longitudinal (z) impact parameter resolution
563113d0 31// - require that the dca calculation doesn't fail
32// - accept or not accept daughter tracks of kink decays
33//
c66800ea 34// By default, the distance to 'vertex calculated from tracks' is used.
c2c45ca4 35// Optionally the SPD (tracklet based) or TPC (TPC only tracks based) vertex
36// can be used.
37// Note: the distance to the TPC-vertex is already stored in the ESD,
38// the distance to the SPD-vertex has to be re-calculated by propagating each
39// track while executing this cut.
c66800ea 40//
563113d0 41// The cut values for these cuts are set with the corresponding set functions.
42// All cut classes provided by the correction framework are supposed to be
43// added in the Analysis Framwork's class AliAnalysisFilter and applied by
44// the filter via a loop.
45//
46// author: I. Kraus (Ingrid.Kraus@cern.ch)
47// idea taken form
48// AliESDtrackCuts writte by Jan Fiete Grosse-Oetringhaus and
49// AliRsnDaughterCut class written by A. Pulvirenti.
50
51#include <TCanvas.h>
52#include <TDirectory.h>
563113d0 53#include <TH2.h>
62037e79 54#include <TBits.h>
55
563113d0 56#include <AliESDtrack.h>
8f7575ff 57#include <AliESDEvent.h>
563113d0 58#include <AliLog.h>
59#include "AliCFTrackIsPrimaryCuts.h"
60
61ClassImp(AliCFTrackIsPrimaryCuts)
62
63//__________________________________________________________________________________
64AliCFTrackIsPrimaryCuts::AliCFTrackIsPrimaryCuts() :
65 AliCFCutBase(),
c2c45ca4 66 fESD(0x0),
67 fUseSPDvertex(0),
c66800ea 68 fUseTPCvertex(0),
89d7d478 69 fMinDCAToVertexXY(0),
70 fMinDCAToVertexZ(0),
71 fMaxDCAToVertexXY(0),
72 fMaxDCAToVertexZ(0),
73 fDCAToVertex2D(0),
74 fAbsDCAToVertex(0),
75 fNSigmaToVertexMin(0),
563113d0 76 fNSigmaToVertexMax(0),
89d7d478 77 fSigmaDCAxy(0),
78 fSigmaDCAz(0),
563113d0 79 fRequireSigmaToVertex(0),
8edd0c2c 80 fAODType(AliAODTrack::kUndef),
563113d0 81 fAcceptKinkDaughters(0),
82 fhCutStatistics(0),
83 fhCutCorrelation(0),
84 fBitmap(0x0),
85 fhNBinsNSigma(0),
86 fhNBinsRequireSigma(0),
87 fhNBinsAcceptKink(0),
88 fhNBinsDcaXY(0),
89 fhNBinsDcaZ(0),
90 fhNBinsDcaXYnorm(0),
91 fhNBinsDcaZnorm(0),
89d7d478 92 fhNBinsSigmaDcaXY(0),
93 fhNBinsSigmaDcaZ(0),
563113d0 94 fhBinLimNSigma(0x0),
95 fhBinLimRequireSigma(0x0),
96 fhBinLimAcceptKink(0x0),
97 fhBinLimDcaXY(0x0),
98 fhBinLimDcaZ(0x0),
99 fhBinLimDcaXYnorm(0x0),
89d7d478 100 fhBinLimDcaZnorm(0x0),
101 fhBinLimSigmaDcaXY(0x0),
102 fhBinLimSigmaDcaZ(0x0)
563113d0 103{
104 //
105 // Default constructor
106 //
563113d0 107 Initialise();
108}
109//__________________________________________________________________________________
110AliCFTrackIsPrimaryCuts::AliCFTrackIsPrimaryCuts(Char_t* name, Char_t* title) :
111 AliCFCutBase(name,title),
c2c45ca4 112 fESD(0x0),
113 fUseSPDvertex(0),
c66800ea 114 fUseTPCvertex(0),
89d7d478 115 fMinDCAToVertexXY(0),
116 fMinDCAToVertexZ(0),
117 fMaxDCAToVertexXY(0),
118 fMaxDCAToVertexZ(0),
119 fDCAToVertex2D(0),
120 fAbsDCAToVertex(0),
121 fNSigmaToVertexMin(0),
563113d0 122 fNSigmaToVertexMax(0),
89d7d478 123 fSigmaDCAxy(0),
124 fSigmaDCAz(0),
563113d0 125 fRequireSigmaToVertex(0),
8edd0c2c 126 fAODType(AliAODTrack::kUndef),
563113d0 127 fAcceptKinkDaughters(0),
128 fhCutStatistics(0),
129 fhCutCorrelation(0),
130 fBitmap(0x0),
131 fhNBinsNSigma(0),
132 fhNBinsRequireSigma(0),
133 fhNBinsAcceptKink(0),
134 fhNBinsDcaXY(0),
135 fhNBinsDcaZ(0),
136 fhNBinsDcaXYnorm(0),
137 fhNBinsDcaZnorm(0),
89d7d478 138 fhNBinsSigmaDcaXY(0),
139 fhNBinsSigmaDcaZ(0),
563113d0 140 fhBinLimNSigma(0x0),
141 fhBinLimRequireSigma(0x0),
142 fhBinLimAcceptKink(0x0),
143 fhBinLimDcaXY(0x0),
144 fhBinLimDcaZ(0x0),
145 fhBinLimDcaXYnorm(0x0),
89d7d478 146 fhBinLimDcaZnorm(0x0),
147 fhBinLimSigmaDcaXY(0x0),
148 fhBinLimSigmaDcaZ(0x0)
563113d0 149{
150 //
151 // Constructor
152 //
563113d0 153 Initialise();
154}
155//__________________________________________________________________________________
156AliCFTrackIsPrimaryCuts::AliCFTrackIsPrimaryCuts(const AliCFTrackIsPrimaryCuts& c) :
157 AliCFCutBase(c),
c2c45ca4 158 fESD(c.fESD),
159 fUseSPDvertex(c.fUseSPDvertex),
c66800ea 160 fUseTPCvertex(c.fUseTPCvertex),
89d7d478 161 fMinDCAToVertexXY(c.fMinDCAToVertexXY),
162 fMinDCAToVertexZ(c.fMinDCAToVertexZ),
163 fMaxDCAToVertexXY(c.fMaxDCAToVertexXY),
164 fMaxDCAToVertexZ(c.fMaxDCAToVertexZ),
165 fDCAToVertex2D(c.fDCAToVertex2D),
166 fAbsDCAToVertex(c.fAbsDCAToVertex),
167 fNSigmaToVertexMin(c.fNSigmaToVertexMin),
563113d0 168 fNSigmaToVertexMax(c.fNSigmaToVertexMax),
89d7d478 169 fSigmaDCAxy(c.fSigmaDCAxy),
170 fSigmaDCAz(c.fSigmaDCAz),
563113d0 171 fRequireSigmaToVertex(c.fRequireSigmaToVertex),
8edd0c2c 172 fAODType(c.fAODType),
563113d0 173 fAcceptKinkDaughters(c.fAcceptKinkDaughters),
174 fhCutStatistics(c.fhCutStatistics),
175 fhCutCorrelation(c.fhCutCorrelation),
176 fBitmap(c.fBitmap),
177 fhNBinsNSigma(c.fhNBinsNSigma),
178 fhNBinsRequireSigma(c.fhNBinsRequireSigma),
179 fhNBinsAcceptKink(c.fhNBinsAcceptKink),
180 fhNBinsDcaXY(c.fhNBinsDcaXY),
181 fhNBinsDcaZ(c.fhNBinsDcaZ),
182 fhNBinsDcaXYnorm(c.fhNBinsDcaXYnorm),
183 fhNBinsDcaZnorm(c.fhNBinsDcaZnorm),
89d7d478 184 fhNBinsSigmaDcaXY(c.fhNBinsSigmaDcaXY),
185 fhNBinsSigmaDcaZ(c.fhNBinsSigmaDcaZ),
563113d0 186 fhBinLimNSigma(c.fhBinLimNSigma),
187 fhBinLimRequireSigma(c.fhBinLimRequireSigma),
188 fhBinLimAcceptKink(c.fhBinLimAcceptKink),
189 fhBinLimDcaXY(c.fhBinLimDcaXY),
190 fhBinLimDcaZ(c.fhBinLimDcaZ),
191 fhBinLimDcaXYnorm(c.fhBinLimDcaXYnorm),
89d7d478 192 fhBinLimDcaZnorm(c.fhBinLimDcaZnorm),
193 fhBinLimSigmaDcaXY(c.fhBinLimSigmaDcaXY),
194 fhBinLimSigmaDcaZ(c.fhBinLimSigmaDcaZ)
563113d0 195{
196 //
197 // copy constructor
198 //
199 ((AliCFTrackIsPrimaryCuts &) c).Copy(*this);
200}
201//__________________________________________________________________________________
202AliCFTrackIsPrimaryCuts& AliCFTrackIsPrimaryCuts::operator=(const AliCFTrackIsPrimaryCuts& c)
203{
204 //
205 // Assignment operator
206 //
207 if (this != &c) {
208 AliCFCutBase::operator=(c) ;
c2c45ca4 209 fESD = c.fESD;
210 fUseSPDvertex = c.fUseSPDvertex;
c66800ea 211 fUseTPCvertex = c.fUseTPCvertex;
89d7d478 212 fMinDCAToVertexXY = c.fMinDCAToVertexXY;
213 fMinDCAToVertexZ = c.fMinDCAToVertexZ;
214 fMaxDCAToVertexXY = c.fMaxDCAToVertexXY;
215 fMaxDCAToVertexZ = c.fMaxDCAToVertexZ;
216 fDCAToVertex2D = c.fDCAToVertex2D;
217 fAbsDCAToVertex = c.fAbsDCAToVertex;
218 fNSigmaToVertexMin = c.fNSigmaToVertexMin ;
563113d0 219 fNSigmaToVertexMax = c.fNSigmaToVertexMax ;
89d7d478 220 fSigmaDCAxy = c.fSigmaDCAxy ;
221 fSigmaDCAz = c.fSigmaDCAz ;
563113d0 222 fRequireSigmaToVertex = c.fRequireSigmaToVertex ;
8edd0c2c 223 fAODType = c.fAODType ;
563113d0 224 fAcceptKinkDaughters = c.fAcceptKinkDaughters ;
225 fhCutStatistics = c.fhCutStatistics ;
226 fhCutCorrelation = c.fhCutCorrelation ;
227 fBitmap = c.fBitmap;
228 fhNBinsNSigma = c.fhNBinsNSigma;
229 fhNBinsRequireSigma = c.fhNBinsRequireSigma;
230 fhNBinsAcceptKink = c.fhNBinsAcceptKink;
231 fhNBinsDcaXY = c.fhNBinsDcaXY;
232 fhNBinsDcaZ = c.fhNBinsDcaZ;
233 fhNBinsDcaXYnorm = c.fhNBinsDcaXYnorm;
234 fhNBinsDcaZnorm = c.fhNBinsDcaZnorm;
89d7d478 235 fhNBinsSigmaDcaXY = c.fhNBinsSigmaDcaXY;
236 fhNBinsSigmaDcaZ = c.fhNBinsSigmaDcaZ;
563113d0 237 fhBinLimNSigma = c.fhBinLimNSigma;
238 fhBinLimRequireSigma = c.fhBinLimRequireSigma;
239 fhBinLimAcceptKink = c.fhBinLimAcceptKink;
240 fhBinLimDcaXY = c.fhBinLimDcaXY;
241 fhBinLimDcaZ = c.fhBinLimDcaZ;
242 fhBinLimDcaXYnorm = c.fhBinLimDcaXYnorm;
243 fhBinLimDcaZnorm = c.fhBinLimDcaZnorm;
89d7d478 244 fhBinLimSigmaDcaXY = c.fhBinLimSigmaDcaXY;
245 fhBinLimSigmaDcaZ = c.fhBinLimSigmaDcaZ;
62037e79 246
c66800ea 247 for (Int_t j=0; j<6; j++) fDCA[j] = c.fDCA[j];
8edd0c2c 248 for (Int_t j=0; j<c.kNStepQA; j++){
249 if(c.fhDcaXYvsDcaZ[j]) fhDcaXYvsDcaZ[j] = (TH2F*)c.fhDcaXYvsDcaZ[j]->Clone();
8edd0c2c 250 for (Int_t i=0; i<c.kNHist; i++){
563113d0 251 if(c.fhQA[i][j]) fhQA[i][j] = (TH1F*)c.fhQA[i][j]->Clone();
563113d0 252 }
253 }
563113d0 254 ((AliCFTrackIsPrimaryCuts &) c).Copy(*this);
255 }
256 return *this;
257}
258//__________________________________________________________________________________
259AliCFTrackIsPrimaryCuts::~AliCFTrackIsPrimaryCuts()
260{
261 //
262 // destructor
263 //
264 if (fhCutStatistics) delete fhCutStatistics;
265 if (fhCutCorrelation) delete fhCutCorrelation;
266
267 for (Int_t j=0; j<kNStepQA; j++){
62037e79 268 if(fhDcaXYvsDcaZ[j]) delete fhDcaXYvsDcaZ[j];
62037e79 269 for (Int_t i=0; i<kNHist; i++)
270 if(fhQA[i][j]) delete fhQA[i][j];
563113d0 271 }
c2c45ca4 272 if(fESD) delete fESD;
62037e79 273 if(fBitmap) delete fBitmap;
274 if(fhBinLimNSigma) delete fhBinLimNSigma;
275 if(fhBinLimRequireSigma) delete fhBinLimRequireSigma;
276 if(fhBinLimAcceptKink) delete fhBinLimAcceptKink;
277 if(fhBinLimDcaXY) delete fhBinLimDcaXY;
278 if(fhBinLimDcaZ) delete fhBinLimDcaZ;
279 if(fhBinLimDcaXYnorm) delete fhBinLimDcaXYnorm;
280 if(fhBinLimDcaZnorm) delete fhBinLimDcaZnorm;
89d7d478 281 if(fhBinLimSigmaDcaXY) delete fhBinLimSigmaDcaXY;
282 if(fhBinLimSigmaDcaZ) delete fhBinLimSigmaDcaZ;
563113d0 283}
284//__________________________________________________________________________________
285void AliCFTrackIsPrimaryCuts::Initialise()
286{
287 //
288 // sets everything to zero
289 //
c2c45ca4 290 fUseSPDvertex = 0;
c66800ea 291 fUseTPCvertex = 0;
89d7d478 292 fMinDCAToVertexXY = 0;
293 fMinDCAToVertexZ = 0;
294 fMaxDCAToVertexXY = 0;
295 fMaxDCAToVertexZ = 0;
296 fDCAToVertex2D = 0;
297 fAbsDCAToVertex = 0;
298 fNSigmaToVertexMin = 0;
563113d0 299 fNSigmaToVertexMax = 0;
89d7d478 300 fSigmaDCAxy = 0;
301 fSigmaDCAz = 0;
563113d0 302 fRequireSigmaToVertex = 0;
303 fAcceptKinkDaughters = 0;
8edd0c2c 304 fAODType = AliAODTrack::kUndef;
563113d0 305
89d7d478 306 SetMinDCAToVertexXY();
307 SetMinDCAToVertexZ();
308 SetMaxDCAToVertexXY();
309 SetMaxDCAToVertexZ();
310 SetDCAToVertex2D();
311 SetAbsDCAToVertex();
312 SetMinNSigmaToVertex();
563113d0 313 SetMaxNSigmaToVertex();
89d7d478 314 SetMaxSigmaDCAxy();
315 SetMaxSigmaDCAz();
563113d0 316 SetRequireSigmaToVertex();
cced7196 317 SetAcceptKinkDaughters();
8edd0c2c 318 SetAODType();
563113d0 319
c66800ea 320 for (Int_t j=0; j<6; j++) fDCA[j] = 0.;
563113d0 321 for (Int_t j=0; j<kNStepQA; j++) {
563113d0 322 fhDcaXYvsDcaZ[j] = 0x0;
62037e79 323 for (Int_t i=0; i<kNHist; i++)
324 fhQA[i][j] = 0x0;
563113d0 325 }
326 fhCutStatistics = 0;
327 fhCutCorrelation = 0;
62037e79 328 fBitmap=new TBits(0);
329
563113d0 330 //set default bining for QA histograms
c66800ea 331 SetHistogramBins(kCutNSigmaToVertex,100,0.,10.);
62037e79 332 SetHistogramBins(kCutRequireSigmaToVertex,5,-0.75,1.75);
333 SetHistogramBins(kCutAcceptKinkDaughters,5,-0.75,1.75);
334 SetHistogramBins(kDcaXY,500,-10.,10.);
335 SetHistogramBins(kDcaZ,500,-10.,10.);
336 SetHistogramBins(kDcaXYnorm,500,-10.,10.);
337 SetHistogramBins(kDcaZnorm,500,-10.,10.);
89d7d478 338 SetHistogramBins(kSigmaDcaXY,500,-0.1,0.9);
339 SetHistogramBins(kSigmaDcaZ,500,-0.1,0.9);
563113d0 340}
341//__________________________________________________________________________________
342void AliCFTrackIsPrimaryCuts::Copy(TObject &c) const
343{
344 //
345 // Copy function
346 //
347 AliCFTrackIsPrimaryCuts& target = (AliCFTrackIsPrimaryCuts &) c;
348
349 target.Initialise();
350
351 if (fhCutStatistics) target.fhCutStatistics = (TH1F*) fhCutStatistics->Clone();
352 if (fhCutCorrelation) target.fhCutCorrelation = (TH2F*) fhCutCorrelation->Clone();
353
c66800ea 354 for (Int_t j=0; j<6; j++) target.fDCA[j] = fDCA[j];
563113d0 355 for (Int_t j=0; j<kNStepQA; j++){
563113d0 356 if(fhDcaXYvsDcaZ[j]) target.fhDcaXYvsDcaZ[j] = (TH2F*)fhDcaXYvsDcaZ[j]->Clone();
62037e79 357 for (Int_t i=0; i<kNHist; i++)
358 if(fhQA[i][j]) target.fhQA[i][j] = (TH1F*)fhQA[i][j]->Clone();
563113d0 359 }
563113d0 360 TNamed::Copy(c);
361}
563113d0 362//__________________________________________________________________________________
c2c45ca4 363void AliCFTrackIsPrimaryCuts::SetEvtInfo(TObject* esd) {
364 //
8f7575ff 365 // Sets pointer to esd event information (AliESDEvent)
c2c45ca4 366 //
367 if (!esd) {
8f7575ff 368 AliError("Pointer to AliESDEvent !");
c2c45ca4 369 return;
370 }
371 TString className(esd->ClassName());
8f7575ff 372 if (className.CompareTo("AliESDEvent") != 0) {
373 AliError("argument must point to an AliESDEvent !");
c2c45ca4 374 return ;
375 }
8f7575ff 376 fESD = (AliESDEvent*) esd;
c2c45ca4 377}
378//__________________________________________________________________________________
379void AliCFTrackIsPrimaryCuts::UseSPDvertex(Bool_t b) {
380 fUseSPDvertex = b;
381 if(fUseTPCvertex) fUseSPDvertex = kFALSE;
382}
383//__________________________________________________________________________________
384void AliCFTrackIsPrimaryCuts::UseTPCvertex(Bool_t b) {
385 fUseTPCvertex = b;
386 if(fUseTPCvertex) fUseSPDvertex = kFALSE;
387}
388//__________________________________________________________________________________
c66800ea 389void AliCFTrackIsPrimaryCuts::GetDCA(AliESDtrack* esdTrack)
390{
391 if (!esdTrack) return;
392
393 Float_t b[2] = {0.,0.};
394 Float_t bCov[3] = {0.,0.,0.};
c2c45ca4 395 if(!fUseSPDvertex && !fUseTPCvertex) esdTrack->GetImpactParameters(b,bCov);
396 if( fUseTPCvertex) esdTrack->GetImpactParametersTPC(b,bCov);
397
398 if( fUseSPDvertex) {
399 if (!fESD) return;
400 const AliESDVertex *vtx = fESD->GetVertex();
401 const Double_t Bz = fESD->GetMagneticField();
402 AliExternalTrackParam *cParam = 0;
403 Bool_t success = esdTrack->RelateToVertex(vtx, Bz, kVeryBig, cParam);
404 if (success) esdTrack->GetImpactParameters(b,bCov);
405 }
c66800ea 406
407 if (bCov[0]<=0 || bCov[2]<=0) {
408 bCov[0]=0; bCov[2]=0;
409 }
410 fDCA[0] = b[0]; // impact parameter xy
411 fDCA[1] = b[1]; // impact parameter z
412 fDCA[2] = TMath::Sqrt(bCov[0]); // resolution xy
413 fDCA[3] = TMath::Sqrt(bCov[2]); // resolution z
414
415 if (!fAbsDCAToVertex) {
416 if (fDCA[2] > 0) fDCA[0] = fDCA[0]/fDCA[2]; // normalised impact parameter xy
417 if (fDCA[3] > 0) fDCA[1] = fDCA[1]/fDCA[3]; // normalised impact parameter z
418 }
419
420 // get n_sigma
c2c45ca4 421 if(!fUseSPDvertex && !fUseTPCvertex)
c66800ea 422 fDCA[5] = AliESDtrackCuts::GetSigmaToVertex(esdTrack);
423
424 if(fUseTPCvertex) {
425 fDCA[5] = -1;
426 if (fDCA[2]==0 || fDCA[3]==0)
427 return;
428 fDCA[5] = 1000.;
429 Float_t d = TMath::Sqrt(TMath::Power(b[0]/fDCA[2],2) + TMath::Power(b[1]/fDCA[3],2));
430 if (TMath::Exp(-d * d / 2) < 1e-15)
431 return;
432 fDCA[5] = TMath::ErfInverse(1 - TMath::Exp(-d * d / 2)) * TMath::Sqrt(2);
433 }
434 return;
435}
436//__________________________________________________________________________________
107a3100 437void AliCFTrackIsPrimaryCuts::SelectionBitMap(TObject* obj)
563113d0 438{
439 //
440 // test if the track passes the single cuts
441 // and store the information in a bitmap
442 //
443
444 // bitmap stores the decision of each single cut
445 for(Int_t i=0; i<kNCuts; i++)fBitmap->SetBitNumber(i,kFALSE);
446
107a3100 447 // check TObject and cast into ESDtrack
448 if (!obj) return;
8edd0c2c 449 if (!obj->InheritsFrom("AliVParticle")) {
450 AliError("object must derived from AliVParticle !");
451 return;
452 }
453
454 Bool_t isESDTrack = strcmp(obj->ClassName(),"AliESDtrack") == 0 ? kTRUE : kFALSE ;
455 Bool_t isAODTrack = strcmp(obj->ClassName(),"AliAODTrack") == 0 ? kTRUE : kFALSE ;
456
457 AliESDtrack * esdTrack = 0x0 ;
458 AliAODTrack * aodTrack = 0x0 ;
459 if (isESDTrack) esdTrack = dynamic_cast<AliESDtrack*>(obj);
460 if (isAODTrack) aodTrack = dynamic_cast<AliAODTrack*>(obj);
563113d0 461
8edd0c2c 462 // get the track to vertex parameter for ESD track
c66800ea 463 if (isESDTrack) GetDCA(esdTrack);
89d7d478 464
c66800ea 465 Float_t bxy = 0, bz = 0;
466 if (isESDTrack) {
467 bxy = TMath::Abs(fDCA[0]);
468 bz = TMath::Abs(fDCA[1]);
469 }
89d7d478 470 Float_t b2Dmin = 0, b2Dmax = 0;
c66800ea 471 if (isESDTrack) {
89d7d478 472 if (fMinDCAToVertexXY>0 && fMinDCAToVertexZ>0)
c66800ea 473 b2Dmin = fDCA[0]*fDCA[0]/fMinDCAToVertexXY/fMinDCAToVertexXY + fDCA[1]*fDCA[1]/fMinDCAToVertexZ/fMinDCAToVertexZ;
89d7d478 474 if (fMaxDCAToVertexXY>0 && fMaxDCAToVertexZ>0)
c66800ea 475 b2Dmax = fDCA[0]*fDCA[0]/fMaxDCAToVertexXY/fMaxDCAToVertexXY + fDCA[1]*fDCA[1]/fMaxDCAToVertexZ/fMaxDCAToVertexZ;
89d7d478 476 }
563113d0 477
478 // fill the bitmap
479 Int_t iCutBit = 0;
8edd0c2c 480
481 if (isESDTrack) {
c66800ea 482 if (fDCAToVertex2D || (!fDCAToVertex2D && bxy >= fMinDCAToVertexXY && bxy <= fMaxDCAToVertexXY)) {
89d7d478 483 fBitmap->SetBitNumber(iCutBit,kTRUE);
484 }
485 }
486 else fBitmap->SetBitNumber(iCutBit,kTRUE);
487
488 iCutBit++;
489
490 if (isESDTrack) {
c66800ea 491 if (fDCAToVertex2D || (!fDCAToVertex2D && bz >= fMinDCAToVertexZ && bz <= fMaxDCAToVertexZ)) {
89d7d478 492 fBitmap->SetBitNumber(iCutBit,kTRUE);
493 }
494 }
495 else fBitmap->SetBitNumber(iCutBit,kTRUE);
496
497 iCutBit++;
498
499 if (isESDTrack) {
500 if (!fDCAToVertex2D || (fDCAToVertex2D && b2Dmin > 1 && b2Dmax < 1)) {
8edd0c2c 501 fBitmap->SetBitNumber(iCutBit,kTRUE);
502 }
503 }
504 else fBitmap->SetBitNumber(iCutBit,kTRUE);
505
563113d0 506 iCutBit++;
8edd0c2c 507
508 if (isESDTrack) {
c66800ea 509 if (fDCA[5] >= fNSigmaToVertexMin && fDCA[5] <= fNSigmaToVertexMax) {
89d7d478 510 fBitmap->SetBitNumber(iCutBit,kTRUE);
511 }
512 }
513 else fBitmap->SetBitNumber(iCutBit,kTRUE);
514
515 iCutBit++;
516
517 if (isESDTrack) {
c66800ea 518 if (fDCA[2] < fSigmaDCAxy) {
89d7d478 519 fBitmap->SetBitNumber(iCutBit,kTRUE);
520 }
521 }
522 else fBitmap->SetBitNumber(iCutBit,kTRUE);
523
524 iCutBit++;
525
526 if (isESDTrack) {
c66800ea 527 if (fDCA[3] < fSigmaDCAz) {
89d7d478 528 fBitmap->SetBitNumber(iCutBit,kTRUE);
529 }
530 }
531 else fBitmap->SetBitNumber(iCutBit,kTRUE);
532
533 iCutBit++;
534
535 if (isESDTrack) {
c66800ea 536 if (!fRequireSigmaToVertex || (fDCA[5]>=0 && fRequireSigmaToVertex)) {
8edd0c2c 537 fBitmap->SetBitNumber(iCutBit,kTRUE);
538 }
539 }
540 else fBitmap->SetBitNumber(iCutBit,kTRUE);
541
563113d0 542 iCutBit++;
563113d0 543
8edd0c2c 544 if (esdTrack) {
545 if (fAcceptKinkDaughters || (!fAcceptKinkDaughters && esdTrack->GetKinkIndex(0)<=0)) {
546 fBitmap->SetBitNumber(iCutBit,kTRUE);
547 }
548 }
549 else fBitmap->SetBitNumber(iCutBit,kTRUE);
550
551 iCutBit++;
552
553 if (isAODTrack) {
554 if (fAODType==AliAODTrack::kUndef || fAODType == aodTrack->GetType()) {
555 fBitmap->SetBitNumber(iCutBit,kTRUE);
556 }
557 }
558 else fBitmap->SetBitNumber(iCutBit,kTRUE);
559
107a3100 560 return;
563113d0 561}
562//__________________________________________________________________________________
563Bool_t AliCFTrackIsPrimaryCuts::IsSelected(TObject* obj) {
564 //
565 // loops over decisions of single cuts and returns if the track is accepted
566 //
107a3100 567 SelectionBitMap(obj);
563113d0 568
107a3100 569 if (fIsQAOn) FillHistograms(obj,0);
563113d0 570 Bool_t isSelected = kTRUE;
571
107a3100 572 for (UInt_t icut=0; icut<fBitmap->GetNbits();icut++) {
573 if(!fBitmap->TestBitNumber(icut)) {
574 isSelected = kFALSE;
575 break;
576 }
577 }
578 if (!isSelected) return kFALSE ;
579 if (fIsQAOn) FillHistograms(obj,1);
580 return kTRUE;
563113d0 581}
582//__________________________________________________________________________________
583void AliCFTrackIsPrimaryCuts::SetHistogramBins(Int_t index, Int_t nbins, Double_t *bins)
584{
585 //
586 // variable bin size
587 //
588 if(!fIsQAOn) return;
589
590 switch(index){
591 case kCutNSigmaToVertex:
db6722a5 592 fhNBinsNSigma=nbins+1;
563113d0 593 fhBinLimNSigma=new Double_t[nbins+1];
594 for(Int_t i=0;i<nbins+1;i++)fhBinLimNSigma[i]=bins[i];
595 break;
596
597 case kCutRequireSigmaToVertex:
db6722a5 598 fhNBinsRequireSigma=nbins+1;
563113d0 599 fhBinLimRequireSigma=new Double_t[nbins+1];
600 for(Int_t i=0;i<nbins+1;i++)fhBinLimRequireSigma[i]=bins[i];
601 break;
602
603 case kCutAcceptKinkDaughters:
db6722a5 604 fhNBinsAcceptKink=nbins+1;
563113d0 605 fhBinLimAcceptKink=new Double_t[nbins+1];
606 for(Int_t i=0;i<nbins+1;i++)fhBinLimAcceptKink[i]=bins[i];
607 break;
608
609 case kDcaXY:
db6722a5 610 fhNBinsDcaXY=nbins+1;
563113d0 611 fhBinLimDcaXY=new Double_t[nbins+1];
612 for(Int_t i=0;i<nbins+1;i++)fhBinLimDcaXY[i]=bins[i];
613 break;
62037e79 614
563113d0 615 case kDcaZ:
db6722a5 616 fhNBinsDcaZ=nbins+1;
563113d0 617 fhBinLimDcaZ=new Double_t[nbins+1];
618 for(Int_t i=0;i<nbins+1;i++)fhBinLimDcaZ[i]=bins[i];
619 break;
62037e79 620
563113d0 621 case kDcaXYnorm:
db6722a5 622 fhNBinsDcaXYnorm=nbins+1;
563113d0 623 fhBinLimDcaXYnorm=new Double_t[nbins+1];
624 for(Int_t i=0;i<nbins+1;i++)fhBinLimDcaXYnorm[i]=bins[i];
625 break;
62037e79 626
563113d0 627 case kDcaZnorm:
db6722a5 628 fhNBinsDcaZnorm=nbins+1;
563113d0 629 fhBinLimDcaZnorm=new Double_t[nbins+1];
630 for(Int_t i=0;i<nbins+1;i++)fhBinLimDcaZnorm[i]=bins[i];
631 break;
89d7d478 632
633 case kSigmaDcaXY:
634 fhNBinsSigmaDcaXY=nbins+1;
635 fhBinLimSigmaDcaXY=new Double_t[nbins+1];
636 for(Int_t i=0;i<nbins+1;i++)fhBinLimSigmaDcaXY[i]=bins[i];
637 break;
638
639 case kSigmaDcaZ:
640 fhNBinsSigmaDcaZ=nbins+1;
641 fhBinLimSigmaDcaZ=new Double_t[nbins+1];
642 for(Int_t i=0;i<nbins+1;i++)fhBinLimSigmaDcaZ[i]=bins[i];
643 break;
563113d0 644 }
645}
646//__________________________________________________________________________________
647void AliCFTrackIsPrimaryCuts::SetHistogramBins(Int_t index, Int_t nbins, Double_t xmin, Double_t xmax)
648{
649 //
650 // fixed bin size
651 //
563113d0 652 switch(index){
653 case kCutNSigmaToVertex:
db6722a5 654 fhNBinsNSigma=nbins+1;
563113d0 655 fhBinLimNSigma=new Double_t[nbins+1];
656 for(Int_t i=0;i<nbins+1;i++)fhBinLimNSigma[i]=xmin+i*(xmax-xmin)/Double_t(nbins);
657 break;
658
659 case kCutRequireSigmaToVertex:
db6722a5 660 fhNBinsRequireSigma=nbins+1;
563113d0 661 fhBinLimRequireSigma=new Double_t[nbins+1];
662 for(Int_t i=0;i<nbins+1;i++)fhBinLimRequireSigma[i]=xmin+i*(xmax-xmin)/Double_t(nbins);
663 break;
664
665 case kCutAcceptKinkDaughters:
db6722a5 666 fhNBinsAcceptKink=nbins+1;
563113d0 667 fhBinLimAcceptKink=new Double_t[nbins+1];
668 for(Int_t i=0;i<nbins+1;i++)fhBinLimAcceptKink[i]=xmin+i*(xmax-xmin)/Double_t(nbins);
669 break;
670
671 case kDcaXY:
db6722a5 672 fhNBinsDcaXY=nbins+1;
563113d0 673 fhBinLimDcaXY=new Double_t[nbins+1];
674 for(Int_t i=0;i<nbins+1;i++)fhBinLimDcaXY[i]=xmin+i*(xmax-xmin)/Double_t(nbins);
675 break;
62037e79 676
563113d0 677 case kDcaZ:
db6722a5 678 fhNBinsDcaZ=nbins+1;
563113d0 679 fhBinLimDcaZ=new Double_t[nbins+1];
680 for(Int_t i=0;i<nbins+1;i++)fhBinLimDcaZ[i]=xmin+i*(xmax-xmin)/Double_t(nbins);
681 break;
62037e79 682
563113d0 683 case kDcaXYnorm:
db6722a5 684 fhNBinsDcaXYnorm=nbins+1;
563113d0 685 fhBinLimDcaXYnorm=new Double_t[nbins+1];
686 for(Int_t i=0;i<nbins+1;i++)fhBinLimDcaXYnorm[i]=xmin+i*(xmax-xmin)/Double_t(nbins);
687 break;
62037e79 688
563113d0 689 case kDcaZnorm:
db6722a5 690 fhNBinsDcaZnorm=nbins+1;
563113d0 691 fhBinLimDcaZnorm=new Double_t[nbins+1];
692 for(Int_t i=0;i<nbins+1;i++)fhBinLimDcaZnorm[i]=xmin+i*(xmax-xmin)/Double_t(nbins);
693 break;
89d7d478 694
695 case kSigmaDcaXY:
696 fhNBinsSigmaDcaXY=nbins+1;
697 fhBinLimSigmaDcaXY=new Double_t[nbins+1];
698 for(Int_t i=0;i<nbins+1;i++)fhBinLimSigmaDcaXY[i]=xmin+i*(xmax-xmin)/Double_t(nbins);
699 break;
700
701 case kSigmaDcaZ:
702 fhNBinsSigmaDcaZ=nbins+1;
703 fhBinLimSigmaDcaZ=new Double_t[nbins+1];
704 for(Int_t i=0;i<nbins+1;i++)fhBinLimSigmaDcaZ[i]=xmin+i*(xmax-xmin)/Double_t(nbins);
705 break;
563113d0 706 }
707}
708//__________________________________________________________________________________
709 void AliCFTrackIsPrimaryCuts::DefineHistograms() {
710 //
711 // histograms for cut variables, cut statistics and cut correlations
712 //
563113d0 713 Int_t color = 2;
714
715 // book cut statistics and cut correlation histograms
716 fhCutStatistics = new TH1F(Form("%s_cut_statistics",GetName()), Form("%s cut statistics",GetName()), kNCuts,0.5,kNCuts+0.5);
717 fhCutStatistics->SetLineWidth(2);
89d7d478 718 fhCutStatistics->GetXaxis()->SetBinLabel(1,"dca xy");
719 fhCutStatistics->GetXaxis()->SetBinLabel(2,"dca z");
720 fhCutStatistics->GetXaxis()->SetBinLabel(3,"dca ellipse");
721 fhCutStatistics->GetXaxis()->SetBinLabel(4,"n dca");
722 fhCutStatistics->GetXaxis()->SetBinLabel(5,"sigma dca xy");
723 fhCutStatistics->GetXaxis()->SetBinLabel(6,"sigma dca z");
724 fhCutStatistics->GetXaxis()->SetBinLabel(7,"require dca");
725 fhCutStatistics->GetXaxis()->SetBinLabel(8,"kink daughter");
726 fhCutStatistics->GetXaxis()->SetBinLabel(9,"AOD type");
563113d0 727
728 fhCutCorrelation = new TH2F(Form("%s_cut_correlation",GetName()), Form("%s cut correlation",GetName()), kNCuts,0.5,kNCuts+0.5,kNCuts,0.5,kNCuts+0.5);
729 fhCutCorrelation->SetLineWidth(2);
89d7d478 730 fhCutCorrelation->GetXaxis()->SetBinLabel(1,"dca xy");
731 fhCutCorrelation->GetXaxis()->SetBinLabel(2,"dca z");
732 fhCutCorrelation->GetXaxis()->SetBinLabel(3,"dca ellipse");
733 fhCutCorrelation->GetXaxis()->SetBinLabel(4,"n dca");
734 fhCutCorrelation->GetXaxis()->SetBinLabel(5,"sigma dca xy");
735 fhCutCorrelation->GetXaxis()->SetBinLabel(6,"sigma dca z");
736 fhCutCorrelation->GetXaxis()->SetBinLabel(7,"require dca");
737 fhCutCorrelation->GetXaxis()->SetBinLabel(8,"kink daughter");
738 fhCutCorrelation->GetXaxis()->SetBinLabel(9,"AOD type");
739
740 fhCutCorrelation->GetYaxis()->SetBinLabel(1,"dca xy");
741 fhCutCorrelation->GetYaxis()->SetBinLabel(2,"dca z");
742 fhCutCorrelation->GetYaxis()->SetBinLabel(3,"dca ellipse");
743 fhCutCorrelation->GetYaxis()->SetBinLabel(4,"n dca");
744 fhCutCorrelation->GetYaxis()->SetBinLabel(5,"sigma dca xy");
745 fhCutCorrelation->GetYaxis()->SetBinLabel(6,"sigma dca z");
746 fhCutCorrelation->GetYaxis()->SetBinLabel(7,"require dca");
747 fhCutCorrelation->GetYaxis()->SetBinLabel(8,"kink daughter");
748 fhCutCorrelation->GetYaxis()->SetBinLabel(9,"AOD type");
563113d0 749
750 // book QA histograms
751 Char_t str[256];
752 for (Int_t i=0; i<kNStepQA; i++) {
753 if (i==0) sprintf(str," ");
754 else sprintf(str,"_cut");
62037e79 755
563113d0 756 fhDcaXYvsDcaZ[i] = new TH2F(Form("%s_dcaXYvsDcaZ%s",GetName(),str),"",200,-10,10,200,-10,10);
db6722a5 757 fhQA[kCutNSigmaToVertex][i] = new TH1F(Form("%s_nSigmaToVertex%s",GetName(),str),"",fhNBinsNSigma-1,fhBinLimNSigma);
758 fhQA[kCutRequireSigmaToVertex][i] = new TH1F(Form("%s_requireSigmaToVertex%s",GetName(),str),"",fhNBinsRequireSigma-1,fhBinLimRequireSigma);
759 fhQA[kCutAcceptKinkDaughters][i] = new TH1F(Form("%s_acceptKinkDaughters%s",GetName(),str),"",fhNBinsAcceptKink-1,fhBinLimAcceptKink);
760 fhQA[kDcaXY][i] = new TH1F(Form("%s_dcaXY%s",GetName(),str),"",fhNBinsDcaXY-1,fhBinLimDcaXY);
761 fhQA[kDcaZ][i] = new TH1F(Form("%s_dcaZ%s",GetName(),str),"",fhNBinsDcaZ-1,fhBinLimDcaZ);
762 fhQA[kDcaXYnorm][i] = new TH1F(Form("%s_dcaXYnorm%s",GetName(),str),"",fhNBinsDcaXYnorm-1,fhBinLimDcaXYnorm);
763 fhQA[kDcaZnorm][i] = new TH1F(Form("%s_dcaZnorm%s",GetName(),str),"",fhNBinsDcaZnorm-1,fhBinLimDcaZnorm);
89d7d478 764 fhQA[kSigmaDcaXY][i] = new TH1F(Form("%s_sigmaDcaXY%s",GetName(),str),"",fhNBinsSigmaDcaXY-1,fhBinLimSigmaDcaXY);
765 fhQA[kSigmaDcaZ][i] = new TH1F(Form("%s_sigmaDcaZ%s",GetName(),str),"",fhNBinsSigmaDcaZ-1,fhBinLimSigmaDcaZ);
563113d0 766
767 fhDcaXYvsDcaZ[i]->SetXTitle("impact par. d_{z}");
768 fhDcaXYvsDcaZ[i]->SetYTitle("impact par. d_{xy}");
563113d0 769
770 fhQA[kCutNSigmaToVertex][i]->SetXTitle("n #sigma to vertex");
771 fhQA[kCutRequireSigmaToVertex][i]->SetXTitle("require #sigma to vertex");
772 fhQA[kCutAcceptKinkDaughters][i]->SetXTitle("accept kink daughters");
773 fhQA[kDcaXY][i]->SetXTitle("impact par. d_{xy}");
774 fhQA[kDcaZ][i]->SetXTitle("impact par. d_{z}");
775 fhQA[kDcaXYnorm][i]->SetXTitle("norm. impact par. d_{xy} / #sigma_{xy}");
776 fhQA[kDcaZnorm][i]->SetXTitle("norm. impact par. d_{z} / #sigma_{z}");
89d7d478 777 fhQA[kSigmaDcaXY][i]->SetXTitle("impact par. resolution #sigma_{xy}");
778 fhQA[kSigmaDcaZ][i]->SetXTitle("impact par. resolution #sigma_{z}");
563113d0 779 }
563113d0 780 for(Int_t i=0; i<kNHist; i++) fhQA[i][1]->SetLineColor(color);
563113d0 781}
782//__________________________________________________________________________________
783void AliCFTrackIsPrimaryCuts::FillHistograms(TObject* obj, Bool_t f)
784{
785 //
786 // fill the QA histograms
787 //
563113d0 788
107a3100 789 if (!obj) return;
563113d0 790
8edd0c2c 791 Bool_t isESDTrack = strcmp(obj->ClassName(),"AliESDtrack") == 0 ? kTRUE : kFALSE ;
792 Bool_t isAODTrack = strcmp(obj->ClassName(),"AliAODTrack") == 0 ? kTRUE : kFALSE ;
563113d0 793
8edd0c2c 794 AliESDtrack * esdTrack = 0x0 ;
795 AliAODTrack * aodTrack = 0x0 ;
796 if (isESDTrack) esdTrack = dynamic_cast<AliESDtrack*>(obj);
797 if (isAODTrack) aodTrack = dynamic_cast<AliAODTrack*>(obj);
563113d0 798
8edd0c2c 799 // f = 0: fill histograms before cuts
800 // f = 1: fill histograms after cuts
563113d0 801
89d7d478 802 // get the track to vertex parameter for ESD track
8edd0c2c 803 if (esdTrack) {
563113d0 804
c66800ea 805 fhQA[kDcaZ][f]->Fill(fDCA[1]);
806 fhQA[kDcaXY][f]->Fill(fDCA[0]);
807 fhDcaXYvsDcaZ[f]->Fill(fDCA[1],fDCA[0]);
808 fhQA[kSigmaDcaXY][f]->Fill(fDCA[2]);
809 fhQA[kSigmaDcaZ][f]->Fill(fDCA[3]);
810// // // // // // // delete histograms
811 fhQA[kDcaZnorm][f]->Fill(fDCA[1]);
812 fhQA[kDcaXYnorm][f]->Fill(fDCA[0]);
813
814 fhQA[kCutNSigmaToVertex][f]->Fill(fDCA[5]);
815 if (fDCA[5]<0 && fRequireSigmaToVertex) fhQA[kCutRequireSigmaToVertex][f]->Fill(0.);
816 if (!(fDCA[5]<0 && fRequireSigmaToVertex)) fhQA[kCutRequireSigmaToVertex][f]->Fill(1.);
817
8edd0c2c 818 if (!fAcceptKinkDaughters && esdTrack->GetKinkIndex(0)>0) fhQA[kCutAcceptKinkDaughters][f]->Fill(0.);
819 if (!(!fAcceptKinkDaughters && esdTrack->GetKinkIndex(0)>0)) fhQA[kCutAcceptKinkDaughters][f]->Fill(0.);
820 }
c66800ea 821
563113d0 822 // fill cut statistics and cut correlation histograms with information from the bitmap
823 if (f) return;
824
825 // Get the bitmap of the single cuts
826 if ( !obj ) return;
107a3100 827 SelectionBitMap(obj);
563113d0 828
829 // Number of single cuts in this class
107a3100 830 UInt_t ncuts = fBitmap->GetNbits();
563113d0 831 for(UInt_t bit=0; bit<ncuts;bit++) {
107a3100 832 if (!fBitmap->TestBitNumber(bit)) {
563113d0 833 fhCutStatistics->Fill(bit+1);
834 for (UInt_t bit2=bit; bit2<ncuts;bit2++) {
107a3100 835 if (!fBitmap->TestBitNumber(bit2))
563113d0 836 fhCutCorrelation->Fill(bit+1,bit2+1);
837 }
838 }
839 }
840}
841//__________________________________________________________________________________
842void AliCFTrackIsPrimaryCuts::SaveHistograms(const Char_t* dir) {
843 //
844 // saves the histograms in a directory (dir)
845 //
846 if(!fIsQAOn) return;
847
848 if (!dir)
849 dir = GetName();
850
851 gDirectory->mkdir(dir);
852 gDirectory->cd(dir);
853
854 gDirectory->mkdir("before_cuts");
855 gDirectory->mkdir("after_cuts");
856
857 fhCutStatistics->Write();
858 fhCutCorrelation->Write();
859
860 for (Int_t j=0; j<kNStepQA; j++) {
861 if (j==0)
862 gDirectory->cd("before_cuts");
863 else
864 gDirectory->cd("after_cuts");
865
866 fhDcaXYvsDcaZ[j] ->Write();
563113d0 867
868 for(Int_t i=0; i<kNHist; i++) fhQA[i][j]->Write();
869
870 gDirectory->cd("../");
871 }
872 gDirectory->cd("../");
873}
874//__________________________________________________________________________________
875void AliCFTrackIsPrimaryCuts::DrawHistograms()
876{
877 //
878 // draws some histograms
879 //
880 if(!fIsQAOn) return;
881
882 // pad margins
883 Float_t right = 0.03;
884 Float_t left = 0.175;
885 Float_t top = 0.03;
886 Float_t bottom = 0.175;
887
888 TCanvas* canvas1 = new TCanvas("Track_QA_Primary_1", "Track QA Primary 1", 800, 500);
889 canvas1->Divide(2, 1);
890
891 canvas1->cd(1);
892 fhCutStatistics->SetStats(kFALSE);
893 fhCutStatistics->LabelsOption("v");
894 gPad->SetLeftMargin(left);
895 gPad->SetBottomMargin(0.25);
896 gPad->SetRightMargin(right);
897 gPad->SetTopMargin(0.1);
898 fhCutStatistics->Draw();
899
900 canvas1->cd(2);
901 fhCutCorrelation->SetStats(kFALSE);
902 fhCutCorrelation->LabelsOption("v");
903 gPad->SetLeftMargin(0.30);
904 gPad->SetRightMargin(bottom);
905 gPad->SetTopMargin(0.1);
906 gPad->SetBottomMargin(0.25);
907 fhCutCorrelation->Draw("COLZ");
908
909 canvas1->SaveAs(Form("%s.eps", canvas1->GetName()));
910 canvas1->SaveAs(Form("%s.ps", canvas1->GetName()));
911
912 // -----
913
914 TCanvas* canvas2 = new TCanvas("Track_QA_Primary_2", "Track QA Primary 2", 800, 800);
915 canvas2->Divide(2, 2);
916
917 canvas2->cd(1);
918 gPad->SetRightMargin(right);
919 gPad->SetLeftMargin(left);
920 gPad->SetTopMargin(top);
921 gPad->SetBottomMargin(bottom);
922 fhQA[kDcaXY][0]->SetStats(kFALSE);
923 fhQA[kDcaXY][0]->Draw();
924 fhQA[kDcaXY][1]->Draw("same");
925
926 canvas2->cd(2);
927 gPad->SetRightMargin(right);
928 gPad->SetLeftMargin(left);
929 gPad->SetTopMargin(top);
930 gPad->SetBottomMargin(bottom);
931 fhQA[kDcaZ][0]->SetStats(kFALSE);
932 fhQA[kDcaZ][0]->Draw();
933 fhQA[kDcaZ][1]->Draw("same");
934
935 canvas2->cd(3);
936// fhDXYvsDZ[0]->SetStats(kFALSE);
937 gPad->SetLogz();
938 gPad->SetLeftMargin(bottom);
939 gPad->SetTopMargin(0.1);
940 gPad->SetBottomMargin(bottom);
941 gPad->SetRightMargin(0.2);
942 fhDcaXYvsDcaZ[0]->Draw("COLZ");
943
944 canvas2->cd(4);
945// fhDXYvsDZ[1]->SetStats(kFALSE);
946 gPad->SetLogz();
947 gPad->SetLeftMargin(bottom);
948 gPad->SetTopMargin(0.1);
949 gPad->SetBottomMargin(bottom);
950 gPad->SetRightMargin(0.2);
951 fhDcaXYvsDcaZ[1]->Draw("COLZ");
952
953 canvas2->SaveAs(Form("%s.eps", canvas2->GetName()));
954 canvas2->SaveAs(Form("%s.ps", canvas2->GetName()));
955
956 // -----
957
c66800ea 958 TCanvas* canvas3 = new TCanvas("Track_QA_Primary_3", "Track QA Primary 3", 800, 400);
959 canvas3->Divide(2, 1);
563113d0 960
961 canvas3->cd(1);
962 gPad->SetRightMargin(right);
963 gPad->SetLeftMargin(left);
964 gPad->SetTopMargin(top);
965 gPad->SetBottomMargin(bottom);
966 fhQA[kDcaXYnorm][0]->SetStats(kFALSE);
967 fhQA[kDcaXYnorm][0]->Draw();
968 fhQA[kDcaXYnorm][1]->Draw("same");
969
970 canvas3->cd(2);
971 gPad->SetRightMargin(right);
972 gPad->SetLeftMargin(left);
973 gPad->SetTopMargin(top);
974 gPad->SetBottomMargin(bottom);
975 fhQA[kDcaZnorm][0]->SetStats(kFALSE);
976 fhQA[kDcaZnorm][0]->Draw();
977 fhQA[kDcaZnorm][1]->Draw("same");
978
563113d0 979 canvas3->SaveAs(Form("%s.eps", canvas3->GetName()));
980 canvas3->SaveAs(Form("%s.ps", canvas3->GetName()));
981
982 // -----
983
89d7d478 984 TCanvas* canvas4 = new TCanvas("Track_QA_Primary_4", "Track QA Primary 4", 1200, 800);
985 canvas4->Divide(3, 2);
563113d0 986
987 canvas4->cd(1);
988 gPad->SetRightMargin(right);
989 gPad->SetLeftMargin(left);
990 gPad->SetTopMargin(top);
991 gPad->SetBottomMargin(bottom);
89d7d478 992 fhQA[kSigmaDcaXY][0]->SetStats(kFALSE);
993 fhQA[kSigmaDcaXY][0]->Draw();
994 fhQA[kSigmaDcaXY][1]->Draw("same");
995
996 canvas4->cd(2);
997 gPad->SetRightMargin(right);
998 gPad->SetLeftMargin(left);
999 gPad->SetTopMargin(top);
1000 gPad->SetBottomMargin(bottom);
1001 fhQA[kSigmaDcaZ][0]->SetStats(kFALSE);
1002 fhQA[kSigmaDcaZ][0]->Draw();
1003 fhQA[kSigmaDcaZ][1]->Draw("same");
1004
1005 canvas4->cd(4);
1006 gPad->SetRightMargin(right);
1007 gPad->SetLeftMargin(left);
1008 gPad->SetTopMargin(top);
1009 gPad->SetBottomMargin(bottom);
563113d0 1010 fhQA[kCutNSigmaToVertex][0]->SetStats(kFALSE);
1011 fhQA[kCutNSigmaToVertex][0]->Draw();
1012 fhQA[kCutNSigmaToVertex][1]->Draw("same");
1013
89d7d478 1014 canvas4->cd(5);
563113d0 1015 gPad->SetRightMargin(right);
1016 gPad->SetLeftMargin(left);
1017 gPad->SetTopMargin(top);
1018 gPad->SetBottomMargin(bottom);
1019 fhQA[kCutRequireSigmaToVertex][0]->SetStats(kFALSE);
1020 fhQA[kCutRequireSigmaToVertex][0]->Draw();
1021 fhQA[kCutRequireSigmaToVertex][1]->Draw("same");
1022
89d7d478 1023 canvas4->cd(6);
563113d0 1024 gPad->SetRightMargin(right);
1025 gPad->SetLeftMargin(left);
1026 gPad->SetTopMargin(top);
1027 gPad->SetBottomMargin(bottom);
1028 fhQA[kCutAcceptKinkDaughters][0]->SetStats(kFALSE);
1029 fhQA[kCutAcceptKinkDaughters][0]->Draw();
1030 fhQA[kCutAcceptKinkDaughters][1]->Draw("same");
1031
1032 canvas4->SaveAs(Form("%s.eps", canvas4->GetName()));
1033 canvas4->SaveAs(Form("%s.ps", canvas4->GetName()));
1034}
1035//__________________________________________________________________________________
107a3100 1036void AliCFTrackIsPrimaryCuts::AddQAHistograms(TList *qaList) {
563113d0 1037 //
1038 // saves the histograms in a TList
1039 //
107a3100 1040 DefineHistograms();
563113d0 1041
1042 qaList->Add(fhCutStatistics);
1043 qaList->Add(fhCutCorrelation);
1044
1045 for (Int_t j=0; j<kNStepQA; j++) {
1046 qaList->Add(fhDcaXYvsDcaZ[j]);
563113d0 1047 for(Int_t i=0; i<kNHist; i++)
62037e79 1048 qaList->Add(fhQA[i][j]);
563113d0 1049 }
1050}