2 The class for calculating the global (not detector specific) quality assurance.
3 It reuses the following TLists from its base class
4 AliQADataMaker::fRecPointsQAList (for keeping the track residuals)
5 AliQADataMaker::fESDsQAList (for keeping global ESD QA data)
11 #include "AliQAChecker.h"
12 #include "AliGlobalQADataMaker.h"
13 #include "AliGeomManager.h"
14 #include "AliESDEvent.h"
16 #include "AliRawReader.h"
18 ClassImp(AliGlobalQADataMaker)
20 //____________________________________________________________________________
21 void AliGlobalQADataMaker::EndOfDetectorCycle(AliQA::TASKINDEX_t task, TObjArray ** list)
23 //Detector specific actions at end of cycle
25 AliQAChecker::Instance()->Run(AliQA::kGLOBAL, task, list) ;
28 //____________________________________________________________________________
29 void AliGlobalQADataMaker::InitRaws()
31 // create Raws histograms in Raws subdir
34 //____________________________________________________________________________
35 void AliGlobalQADataMaker::InitRecPoints() {
36 //------------------------------------------------------
37 // This function books the histograms of *track*residuals*
38 // as a part of global QA
39 //------------------------------------------------------
40 const Char_t *name[]={
41 "SPD1 residuals Y","SPD1 residuals Z",
42 "SPD2 residuals Y","SPD2 residuals Z",
43 "SDD1 residuals Y","SDD1 residuals Z",
44 "SDD2 residuals Y","SDD2 residuals Z",
45 "SSD1 residuals Y","SSD1 residuals Z",
46 "SSD2 residuals Y","SSD2 residuals Z",
48 "TPC1 residuals Y","TPC1 residuals Z",
49 "TPC2 residuals Y","TPC2 residuals Z",
51 "TRD1 residuals Y","TRD1 residuals Z",
52 "TRD2 residuals Y","TRD2 residuals Z",
53 "TRD3 residuals Y","TRD3 residuals Z",
54 "TRD4 residuals Y","TRD4 residuals Z",
55 "TRD5 residuals Y","TRD5 residuals Z",
56 "TRD6 residuals Y","TRD6 residuals Z",
58 "TOF residuals Y","TOF residuals Z",
60 "PHOS1 residuals Y","PHOS1 residuals Z",
61 "PHOS2 residuals Y","PHOS2 residuals Z",
63 "HMPID residuals Y","HMPID residuals Z",
65 "MUON residuals Y","MUON residuals Z",
67 "EMCAL residuals Y","EMCAL residuals Z"
70 for (Int_t m=1; m<AliGeomManager::kLastLayer; m++) {
72 TH1F *h=new TH1F(name[i],name[i],100,-5.,5.);
73 Add2RecPointsList(h,i);
74 h=new TH1F(name[i+1],name[i+1],100,-5.,5.);
75 Add2RecPointsList(h,i+1);
79 new TH1F("SSD1 absolute residuals Y for Z<0 (cm)",
80 "SSD1 absolute residuals Y for Z<0 (cm)",100,-2.,2.),40);
82 new TH1F("SSD1 absolute residuals Z for Z<0 (cm)",
83 "SSD1 absolute residuals Z for Z<0 (cm)",100,-2.,2.),41);
85 new TH1F("SSD1 absolute residuals Y for Z>0 (cm)",
86 "SSD1 absolute residuals Y for Z>0 (cm)",100,-2.,2.),42);
88 new TH1F("SSD1 absolute residuals Z for Z>0 (cm)",
89 "SSD1 absolute residuals Z for Z>0 (cm)",100,-2.,2.),43);
93 new TH1F("SSD2 absolute residuals Y for Z<0 (cm)",
94 "SSD2 absolute residuals Y for Z<0 (cm)",100,-3.,3.),44);
96 new TH1F("SSD2 absolute residuals Z for Z<0 (cm)",
97 "SSD2 absolute residuals Z for Z<0 (cm)",100,-3.,3.),45);
99 new TH1F("SSD2 absolute residuals Y for Z>0 (cm)",
100 "SSD2 absolute residuals Y for Z>0 (cm)",100,-3.,3.),46);
102 new TH1F("SSD2 absolute residuals Z for Z>0 (cm)",
103 "SSD2 absolute residuals Z for Z>0 (cm)",100,-3.,3.),47);
107 //____________________________________________________________________________
108 void AliGlobalQADataMaker::InitESDs() {
109 //------------------------------------------------------
110 // This function books the ESD QA histograms
111 // as a part of global QA
112 //------------------------------------------------------
114 {// Cluster related QA
115 const Char_t *name[]={
116 "Fraction of the assigned clusters in ITS",
117 "Fraction of the assigned clusters in TPC",
118 "Fraction of the assigned clusters in TRD"
120 Add2ESDsList(new TH1F(name[0],name[0],100,0.,2.),kClr0);
121 Add2ESDsList(new TH1F(name[1],name[1],100,0.,2.),kClr1);
122 Add2ESDsList(new TH1F(name[2],name[2],100,0.,2.),kClr2);
126 const Char_t *name[]={
127 "Track azimuthal distribution (rad)", // kTrk0
128 "Track pseudo-rapidity distribution", // kTrk1
129 "TPC: track momentum distribution (GeV)", // kTrk2
130 "TPC-ITS matched: track momentum distribution (GeV)", // kTrk3
131 "TPC-TOF matched: track momentum distribution (GeV)", // kTrk4
132 "TPC-ITS track-matching probability", // kTrk5
133 "TPC-TOF track-matching probability" // kTrk6
135 Add2ESDsList(new TH1F(name[0],name[0],100,-0.02,6.30),kTrk0);
136 Add2ESDsList(new TH1F(name[1],name[1],100,-2.00,2.00),kTrk1);
137 Add2ESDsList(new TH1F(name[2],name[2],50, 0.20,5.00),kTrk2);
138 Add2ESDsList(new TH1F(name[3],name[3],50, 0.20,5.00),kTrk3);
139 Add2ESDsList(new TH1F(name[4],name[4],50, 0.20,5.00),kTrk4);
140 Add2ESDsList(new TH1F(name[5],name[5],50, 0.20,5.00),kTrk5);
141 Add2ESDsList(new TH1F(name[6],name[6],50, 0.20,5.00),kTrk6);
145 const Char_t *name[]={
147 "Lambda0 + Lambda0Bar mass (GeV)"
149 Add2ESDsList(new TH1F(name[0],name[0],50, 0.4477,0.5477),kV0s0);
150 Add2ESDsList(new TH1F(name[1],name[1],50, 1.0657,1.1657),kV0s1);
154 const Char_t *name[]={
155 "ITS: dEdx (ADC) for particles with momentum 0.4 - 0.5 (GeV)",
156 "TPC: dEdx (ADC) for particles with momentum 0.4 - 0.5 (GeV)",
157 "TOF: tracking - measured (ps)"
159 Add2ESDsList(new TH1F(name[0],name[0],50,0.00,200.),kPid0);
160 Add2ESDsList(new TH1F(name[1],name[1],50,0.00,100.),kPid1);
161 Add2ESDsList(new TH1F(name[2],name[2],50,-3500.,3500.),kPid2);
166 //____________________________________________________________________________
167 void AliGlobalQADataMaker::MakeRaws(AliRawReader* rawReader)
169 //Fill prepared histograms with Raw digit properties
174 //____________________________________________________________________________
175 void AliGlobalQADataMaker::MakeESDs(AliESDEvent * event) {
176 //-----------------------------------------------------------
177 // This function fills the ESD QA histograms
178 // as a part of global QA
179 //-----------------------------------------------------------
180 const AliESDEvent *esd=event;
182 Int_t ntrk=esd->GetNumberOfTracks() ;
183 for (Int_t i=0; i<ntrk; i++) {
184 const AliESDtrack *track=esd->GetTrack(i);
186 // Cluster related QA
187 if (track->IsOn(AliESDtrack::kITSrefit)) {
188 Int_t n=track->GetITSclusters(0);
189 GetESDsData(kClr0)->Fill(Float_t(n)/6.); //6 is the number of ITS layers
192 if (track->IsOn(AliESDtrack::kTPCrefit)) {
193 Int_t n =track->GetTPCNcls();
194 Int_t nf=track->GetTPCNclsF(); // number of crossed TPC pad rows
196 Double_t val = n*1.0/nf;
197 GetESDsData(kClr1)->Fill(val);
201 if (track->IsOn(AliESDtrack::kTRDrefit)) {
202 Int_t n=track->GetTRDclusters(0);
203 GetESDsData(kClr2)->Fill(Float_t(n)/(6*24));//(6*24) is the number of TRD time bins
206 Double_t p=track->GetP();
209 if (track->IsOn(AliESDtrack::kTPCrefit)) {
211 track->GetDZ(0.,0.,0.,esd->GetMagneticField(),dz);
212 if ((TMath::Abs(dz[0])<3.) && (TMath::Abs(dz[1])<3.)) { // beam pipe
213 Double_t phi=track->Phi();
214 GetESDsData(kTrk0)->Fill(phi);
215 Double_t y=track->Eta();
216 GetESDsData(kTrk1)->Fill(y);
218 if (TMath::Abs(y)<0.9) {
219 GetESDsData(kTrk2)->Fill(p);
220 if (track->IsOn(AliESDtrack::kITSrefit)) GetESDsData(kTrk3)->Fill(p);
221 if (track->IsOn(AliESDtrack::kTOFout)) GetESDsData(kTrk4)->Fill(p);
227 if ((p>0.4) && (p<0.5)) {
228 if (track->IsOn(AliESDtrack::kITSpid)) {
229 Double_t dedx=track->GetITSsignal();
230 GetESDsData(kPid0)->Fill(dedx);
232 if (track->IsOn(AliESDtrack::kTPCpid)) {
233 Double_t dedx=track->GetTPCsignal();
234 GetESDsData(kPid1)->Fill(dedx);
238 if (track->IsOn(AliESDtrack::kTOFpid)) {
240 track->GetIntegratedTimes(times);
241 Double_t tof=track->GetTOFsignal();
242 GetESDsData(kPid2)->Fill(times[2]-tof);
247 TH1 *tpc=GetESDsData(kTrk2); tpc->Sumw2();
248 TH1 *its=GetESDsData(kTrk3); its->Sumw2();
249 TH1 *tof=GetESDsData(kTrk4); tof->Sumw2();
250 GetESDsData(kTrk5)->Divide(its,tpc,1,1.,"b");
251 GetESDsData(kTrk6)->Divide(tof,tpc,1,1.,"b");
254 Int_t nV0=esd->GetNumberOfV0s();
255 for (Int_t i=0; i<nV0; i++) {
257 AliESDv0 v0(*esd->GetV0(i));
259 v0.ChangeMassHypothesis(kK0Short);
260 mass=v0.GetEffMass();
261 GetESDsData(kV0s0)->Fill(mass);
263 v0.ChangeMassHypothesis(kLambda0);
264 mass=v0.GetEffMass();
265 GetESDsData(kV0s1)->Fill(mass);
267 v0.ChangeMassHypothesis(kLambda0Bar);
268 mass=v0.GetEffMass();
269 GetESDsData(kV0s1)->Fill(mass);