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New classes for finding multiple vertices (in case of pile-up). They will be used...
[u/mrichter/AliRoot.git] / ITS / AliITSQADataMakerRec.cxx
1 /**************************************************************************
2  * Copyright(c) 2007-2009, 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 /* $Id$ */
17
18 //  *************************************************************
19 //  Checks the quality assurance 
20 //  by comparing with reference data
21 //  contained in a DB
22 //  -------------------------------------------------------------
23 //  W. Ferrarese + P. Cerello Feb 2008
24 //  INFN Torino
25
26 // --- ROOT system ---
27 #include <TH2.h>
28 #include <TTree.h>
29 // --- Standard library ---
30
31 // --- AliRoot header files ---
32 #include "AliITSQADataMakerRec.h"
33 #include "AliITSQASPDDataMakerRec.h"
34 #include "AliITSQASDDDataMakerRec.h"
35 #include "AliITSQASSDDataMakerRec.h"
36 #include "AliLog.h"
37 #include "AliQA.h"
38 #include "AliQAChecker.h"
39 #include "AliITSQAChecker.h"
40 #include "AliRawReader.h"
41 #include "AliESDEvent.h"
42 #include "AliESDtrack.h"
43 #include "AliESDVertex.h"
44 #include "AliMultiplicity.h"
45
46 ClassImp(AliITSQADataMakerRec)
47
48 //____________________________________________________________________________ 
49 AliITSQADataMakerRec::AliITSQADataMakerRec(Bool_t kMode, Short_t subDet, Short_t ldc) :
50 AliQADataMakerRec(AliQA::GetDetName(AliQA::kITS), "ITS Quality Assurance Data Maker"),
51 fkOnline(kMode),
52 fHLTMode(0),
53 fSubDetector(subDet),
54 fLDC(ldc),
55 fSPDDataMaker(NULL),
56 fSDDDataMaker(NULL),
57 fSSDDataMaker(NULL)
58 {
59   //ctor used to discriminate OnLine-Offline analysis
60   if(fSubDetector < 0 || fSubDetector > 3) {
61         AliError("Error: fSubDetector number out of range; return\n");
62   }
63
64   // Initialization for RAW data 
65   if(fSubDetector == 0 || fSubDetector == 1) {
66     AliDebug(1,"AliITSQADM::Create SPD DataMakerRec\n");
67         fSPDDataMaker = new AliITSQASPDDataMakerRec(this,fkOnline);
68   }
69   if(fSubDetector == 0 || fSubDetector == 2) {
70         AliDebug(1,"AliITSQADM::Create SDD DataMakerRec\n");
71         fSDDDataMaker = new AliITSQASDDDataMakerRec(this,fkOnline);
72         if(fkOnline){SetHLTMode(fSDDDataMaker->GetHLTMode()); }
73   }
74   if(fSubDetector == 0 || fSubDetector == 3) {
75         AliDebug(1,"AliITSQADM::Create SSD DataMakerRec\n");
76         fSSDDataMaker = new AliITSQASSDDataMakerRec(this,fkOnline);
77   }
78 }
79
80 //____________________________________________________________________________ 
81 AliITSQADataMakerRec::~AliITSQADataMakerRec(){
82   // destructor
83   if(fSPDDataMaker)delete fSPDDataMaker;
84   if(fSDDDataMaker)delete fSDDDataMaker;
85   if(fSSDDataMaker)delete fSSDDataMaker;
86 }
87
88 //____________________________________________________________________________ 
89 AliITSQADataMakerRec::AliITSQADataMakerRec(const AliITSQADataMakerRec& qadm) :
90 AliQADataMakerRec(),
91 fkOnline(qadm.fkOnline),
92 fHLTMode(qadm.fHLTMode),
93 fSubDetector(qadm.fSubDetector),
94 fLDC(qadm.fLDC),
95 fSPDDataMaker(NULL),
96 fSDDDataMaker(NULL),
97 fSSDDataMaker(NULL)
98 {
99   //copy ctor 
100   SetName((const char*)qadm.GetName()) ; 
101   SetTitle((const char*)qadm.GetTitle());
102 }
103
104 //__________________________________________________________________
105 AliITSQADataMakerRec& AliITSQADataMakerRec::operator = (const AliITSQADataMakerRec& qac )
106 {
107   // Equal operator.
108   this->~AliITSQADataMakerRec();
109   new(this) AliITSQADataMakerRec(qac);
110   return *this;
111 }
112
113 //____________________________________________________________________________ 
114 void AliITSQADataMakerRec::StartOfDetectorCycle()
115 {
116   //Detector specific actions at start of cycle
117   AliDebug(1,"AliITSQADM::Start of ITS Cycle\n");
118   if(fSubDetector == 0 || fSubDetector == 1) fSPDDataMaker->StartOfDetectorCycle();
119   if(fSubDetector == 0 || fSubDetector == 2) fSDDDataMaker->StartOfDetectorCycle();
120   if(fSubDetector == 0 || fSubDetector == 3) fSSDDataMaker->StartOfDetectorCycle();
121 }
122
123 //____________________________________________________________________________ 
124 void AliITSQADataMakerRec::EndOfDetectorCycle(AliQA::TASKINDEX_t task, TObjArray** list)
125 {
126   // launch the QA checking
127
128   for (Int_t specie = 0 ; specie < AliRecoParam::kNSpecies ; specie++) {
129     SetEventSpecie(specie) ; 
130     AliDebug(1,"AliITSDM instantiates checker with Run(AliQA::kITS, task, list[specie])\n"); 
131     if(fSubDetector == 0 || fSubDetector == 1) fSPDDataMaker->EndOfDetectorCycle(task, list[specie]);
132     if(fSubDetector == 0 || fSubDetector == 2) fSDDDataMaker->EndOfDetectorCycle(task, list[specie]);
133     if(fSubDetector == 0 || fSubDetector == 3) fSSDDataMaker->EndOfDetectorCycle(task, list[specie]);
134   }
135   
136   AliQAChecker *qac = AliQAChecker::Instance();
137   AliITSQAChecker *qacb = (AliITSQAChecker *) qac->GetDetQAChecker(0);
138   Int_t subdet=GetSubDet();
139   qacb->SetSubDet(subdet);
140  
141   if(subdet== 0 ){
142     qacb->SetTaskOffset(fSPDDataMaker->GetOffset(task), fSDDDataMaker->GetOffset(task), fSSDDataMaker->GetOffset(task)); //Setting the offset for the QAChecker list
143   }
144  else
145     if(subdet!=0){
146       Int_t offset=GetDetTaskOffset(subdet, task);
147       qacb->SetDetTaskOffset(subdet,offset);
148     }
149
150   qac->Run( AliQA::kITS , task, list);  //temporary skipping the checking
151 }
152
153 //____________________________________________________________________________ 
154 void AliITSQADataMakerRec::EndOfDetectorCycle(const char * /*fgDataName*/)
155 {
156   //eventually used for different  AliQAChecker::Instance()->Run
157 }
158
159 //____________________________________________________________________________ 
160 void AliITSQADataMakerRec::InitRaws()
161 {  
162   // Initialization for RAW data 
163         if(fSubDetector == 0 || fSubDetector == 1) {
164           AliDebug(1,"AliITSQADM:: SPD InitRaws\n");
165           fSPDDataMaker->InitRaws();
166         }
167         if(fSubDetector == 0 || fSubDetector == 2) {
168           AliDebug(1,"AliITSQADM:: SDD InitRaws\n");
169           fSDDDataMaker->InitRaws();
170         }
171         if(fSubDetector == 0 || fSubDetector == 3) {
172           AliDebug(1,"AliITSQADM:: SSD InitRaws\n");
173           fSSDDataMaker->InitRaws();
174         }
175 }
176
177 //____________________________________________________________________________
178 void AliITSQADataMakerRec::MakeRaws(AliRawReader* rawReader)
179
180   // Fill QA for RAW   
181   if(fSubDetector == 0 || fSubDetector == 1) fSPDDataMaker->MakeRaws(rawReader);
182   if(fSubDetector == 0 || fSubDetector == 2) fSDDDataMaker->MakeRaws(rawReader);
183   if(fSubDetector == 0 || fSubDetector == 3) fSSDDataMaker->MakeRaws(rawReader);
184 }
185
186 //____________________________________________________________________________ 
187 void AliITSQADataMakerRec::InitRecPoints()
188 {
189   // Initialization for RECPOINTS
190   if(fSubDetector == 0 || fSubDetector == 1) {
191         AliDebug(1,"AliITSQADM:: SPD InitRecPoints\n");
192     fSPDDataMaker->InitRecPoints();
193   }
194   if(fSubDetector == 0 || fSubDetector == 2) {
195         AliDebug(1,"AliITSQADM:: SDD InitRecPoints\n");
196         fSDDDataMaker->InitRecPoints();
197   }
198   if(fSubDetector == 0 || fSubDetector == 3) {
199         AliDebug(1,"AliITSQADM:: SSD InitRecPoints\n");
200         fSSDDataMaker->InitRecPoints();
201   }
202 }
203
204 //____________________________________________________________________________ 
205 void AliITSQADataMakerRec::MakeRecPoints(TTree * clustersTree)
206 {
207   // Fill QA for recpoints
208   if(fSubDetector == 0 || fSubDetector == 1) fSPDDataMaker->MakeRecPoints(clustersTree);
209   if(fSubDetector == 0 || fSubDetector == 2) fSDDDataMaker->MakeRecPoints(clustersTree);
210   if(fSubDetector == 0 || fSubDetector == 3) fSSDDataMaker->MakeRecPoints(clustersTree);
211 }
212
213
214 //____________________________________________________________________________ 
215 void AliITSQADataMakerRec::InitESDs()
216 {
217   // Create ESDs histograms in ESDs subdir
218
219   Bool_t expertHistogram = kTRUE;
220
221   TH1F *hESDClustersMI = 
222     new TH1F("hESDClustersMI", "N ITS clusters per track (MI); N clusters; Counts",
223              7, -0.5, 6.5);
224   hESDClustersMI->Sumw2();
225   hESDClustersMI->SetMinimum(0);
226   Add2ESDsList(hESDClustersMI, 0);
227
228   TH1F *hESDClusterMapMI =
229     new TH1F("hESDClusterMapMI", "N tracks with point Layer (MI); Layer; N tracks",
230              6, -0.5, 5.5);
231   hESDClusterMapMI->Sumw2();
232   hESDClusterMapMI->SetMinimum(0);
233   Add2ESDsList(hESDClusterMapMI, 1, expertHistogram);
234
235   TH1F *hESDClustersSA = 
236     new TH1F("hESDClustersSA", "N ITS clusters per track (SA); N clusters; Counts",
237              7, -0.5, 6.5);
238   hESDClustersSA->Sumw2();
239   hESDClustersSA->SetMinimum(0);
240   Add2ESDsList(hESDClustersSA, 2);
241
242   TH1F *hESDClusterMapSA =
243     new TH1F("hESDClusterMapSA", "N tracks with point Layer (SA); Layer; N tracks",
244              6, -0.5, 5.5);
245   hESDClusterMapSA->Sumw2();
246   hESDClusterMapSA->SetMinimum(0);
247   Add2ESDsList(hESDClusterMapSA, 3, expertHistogram);
248
249   TH1F *hSPDVertexX = 
250     new TH1F("hSPDVertexX","SPD Vertex x; x [cm]; N events",
251              10000,-2,2);
252   hSPDVertexX->Sumw2();
253   Add2ESDsList(hSPDVertexX, 4);
254
255   TH1F *hSPDVertexY = 
256     new TH1F("hSPDVertexY","SPD Vertex y; y [cm]; N events",
257              10000,-2,2);
258   hSPDVertexY->Sumw2();
259   Add2ESDsList(hSPDVertexY, 5);
260
261   TH1F *hSPDVertexZ = 
262     new TH1F("hSPDVertexZ","SPD Vertex Z; z [cm]; N events",
263              10000,-20,20);
264   hSPDVertexZ->Sumw2();
265   Add2ESDsList(hSPDVertexZ, 6);
266
267   TH1F *hSPDVertexContrOverMult =
268     new TH1F("hSPDVertexContrOverMult","SPD Vertex: contributors / multiplicity; N contributors / SPD multiplicity; N events",
269              100,-4,20);
270   hSPDVertexContrOverMult->Sumw2();
271   Add2ESDsList(hSPDVertexContrOverMult, 7, expertHistogram);
272
273   TH1F *hTrkVertexX = 
274     new TH1F("hTrkVertexX","ITS+TPC Trk Vertex x; x [cm]; N events",
275              10000,-2,2);
276   hTrkVertexX->Sumw2();
277   Add2ESDsList(hTrkVertexX, 8, expertHistogram);
278
279   TH1F *hTrkVertexY = 
280     new TH1F("hTrkVertexY","ITS+TPC Trk Vertex y; y [cm]; N events",
281              10000,-2,2);
282   hTrkVertexY->Sumw2();
283   Add2ESDsList(hTrkVertexY, 9, expertHistogram);
284
285   TH1F *hTrkVertexZ = 
286     new TH1F("hTrkVertexZ","ITS+TPC Trk Vertex Z; z [cm]; N events",
287              10000,-20,20);
288   hTrkVertexZ->Sumw2();
289   Add2ESDsList(hTrkVertexZ, 10, expertHistogram);
290
291   TH1F *hTrkVertexContrOverITSrefit5 =
292     new TH1F("hTrkVertexContrOverITSrefit5","ITS+TPC Trk Vertex: contributors / tracks; N contributors / N trks kITSrefit with 5 or 6 clusters; N events",
293              100,-4,2);
294   hTrkVertexContrOverITSrefit5->Sumw2();
295   Add2ESDsList(hTrkVertexContrOverITSrefit5, 11, expertHistogram);
296
297   TH1F *hSPDTrkVertexDeltaX =
298     new TH1F("hSPDTrkVertexDeltaX","Comparison of SPD and Trk vertices: x; xSPD-xTrk [cm]; N events",
299              1000,-1,1);
300   hSPDTrkVertexDeltaX->Sumw2();
301   Add2ESDsList(hSPDTrkVertexDeltaX, 12, expertHistogram);
302     
303   TH1F *hSPDTrkVertexDeltaY =
304     new TH1F("hSPDTrkVertexDeltaY","Comparison of SPD and Trk vertices: y; ySPD-yTrk [cm]; N events",
305              1000,-1,1);
306   hSPDTrkVertexDeltaY->Sumw2();
307   Add2ESDsList(hSPDTrkVertexDeltaY, 13, expertHistogram);
308     
309   TH1F *hSPDTrkVertexDeltaZ =
310     new TH1F("hSPDTrkVertexDeltaZ","Comparison of SPD and Trk vertices: z; zSPD-zTrk [cm]; N events",
311              1000,-1,1);
312   hSPDTrkVertexDeltaZ->Sumw2();
313   Add2ESDsList(hSPDTrkVertexDeltaZ, 14);
314     
315   // SPD Tracklets
316
317   TH1F* hSPDTracklets = 
318     new TH1F("hSPDTracklets","N SPD Tracklets; N tracklets; Counts",300,0.,300.);
319   hSPDTracklets->Sumw2();
320   Add2ESDsList(hSPDTracklets, 15); 
321
322   TH2F* hSPDTrackletsvsFiredChips0 = 
323     new TH2F("hSPDTrackletsvsFiredChips0","N SPD Tracklets vs N FiredChips Layer0",
324               300,0.,300.,300,0.,300.);
325   hSPDTrackletsvsFiredChips0->GetXaxis()->SetTitle("N SPD Tracklets"); 
326   hSPDTrackletsvsFiredChips0->GetYaxis()->SetTitle("N FiredChips Layer0"); 
327   hSPDTrackletsvsFiredChips0->Sumw2();
328   Add2ESDsList(hSPDTrackletsvsFiredChips0, 16, expertHistogram ); 
329
330   TH2F* hSPDTrackletsvsFiredChips1 = 
331     new TH2F("hSPDTrackletsvsFiredChips1","N SPD Tracklets vs N FiredChips Layer1",
332               300,0.,300.,300,0.,300.);
333   hSPDTrackletsvsFiredChips1->GetXaxis()->SetTitle("N SPD Tracklets"); 
334   hSPDTrackletsvsFiredChips1->GetYaxis()->SetTitle("N FiredChips Layer1"); 
335   hSPDTrackletsvsFiredChips1->Sumw2();
336   Add2ESDsList(hSPDTrackletsvsFiredChips1, 17, expertHistogram); 
337     
338   TH1F* hSPDTrackletsDePhi = 
339     new TH1F("hSPDTrackletsDePhi","DeltaPhi SPD Tracklets; DeltaPhi [rad]; N events",200,-0.2,0.2);
340   hSPDTrackletsDePhi->Sumw2();
341   Add2ESDsList(hSPDTrackletsDePhi, 18); 
342     
343   TH1F* hSPDTrackletsPhi = 
344     new TH1F("hSPDTrackletsPhi","Phi SPD Tracklets; Phi [rad]; N events",1000,0.,2*TMath::Pi());
345   hSPDTrackletsPhi->Sumw2();
346   Add2ESDsList(hSPDTrackletsPhi, 19); 
347     
348   TH1F* hSPDTrackletsTheta = 
349     new TH1F("hSPDTrackletsTheta","Theta SPD Tracklets; Theta [rad]; N events",500,0.,TMath::Pi());
350   hSPDTrackletsTheta->Sumw2();
351   Add2ESDsList(hSPDTrackletsTheta, 20); 
352
353   // map of layers skipped by tracking (set in AliITSRecoParam)
354   TH1F *hESDSkippedLayers = 
355     new TH1F("hESDSkippedLayers", "Map of layers skipped by tracking; Layer; Skipped",
356              6, -0.5, 5.5);
357   hESDSkippedLayers->Sumw2();
358   hESDSkippedLayers->SetMinimum(0);
359   Add2ESDsList(hESDSkippedLayers, 21, expertHistogram);
360
361
362   return;
363 }
364
365 //____________________________________________________________________________
366 void AliITSQADataMakerRec::MakeESDs(AliESDEvent *esd)
367 {
368   // Make QA data from ESDs
369   
370   const Int_t nESDTracks = esd->GetNumberOfTracks();
371   Int_t nITSrefit5 = 0; 
372
373   Int_t idet,status;
374   Float_t xloc,zloc;
375
376   // loop on tracks
377   for(Int_t i = 0; i < nESDTracks; i++) {
378     
379     AliESDtrack *track = esd->GetTrack(i);
380     
381     Int_t nclsITS = track->GetNcls(0);
382
383     Bool_t itsrefit=kFALSE,tpcin=kFALSE;
384     if ((track->GetStatus() & AliESDtrack::kITSrefit)) itsrefit=kTRUE;
385     if ((track->GetStatus() & AliESDtrack::kTPCin)) tpcin=kTRUE;     
386     if(nclsITS>=5 && itsrefit) nITSrefit5++;
387
388     if(tpcin) {
389       GetESDsData(0)->Fill(nclsITS);
390     } else {
391       GetESDsData(2)->Fill(nclsITS);
392     }
393
394     for(Int_t layer=0; layer<6; layer++) {
395
396       if(TESTBIT(track->GetITSClusterMap(),layer)) {
397         if(tpcin) {
398           GetESDsData(1)->Fill(layer);
399         } else {
400           GetESDsData(3)->Fill(layer);
401         }
402       }
403       track->GetITSModuleIndexInfo(layer,idet,status,xloc,zloc);
404       if(status==3) GetESDsData(21)->SetBinContent(layer,1);
405     }     
406
407   } // end loop on tracks
408
409   // vertices
410   const AliESDVertex *vtxSPD = esd->GetPrimaryVertexSPD();
411   const AliESDVertex *vtxTrk = esd->GetPrimaryVertex();
412
413   Int_t mult = ((AliMultiplicity*)(esd->GetMultiplicity()))->GetNumberOfTracklets();
414   if(mult>0)
415     GetESDsData(7)->Fill((Float_t)(vtxSPD->GetNContributors())/(Float_t)mult);
416
417   if(nITSrefit5>0)
418     GetESDsData(11)->Fill((Float_t)(vtxTrk->GetNIndices())/(Float_t)nITSrefit5);
419
420   if(vtxSPD->GetNContributors()>0) {
421     GetESDsData(4)->Fill(vtxSPD->GetXv());
422     GetESDsData(5)->Fill(vtxSPD->GetYv());
423     GetESDsData(6)->Fill(vtxSPD->GetZv());
424   }
425
426   if(vtxTrk->GetNContributors()>0) {
427     GetESDsData(8)->Fill(vtxTrk->GetXv());
428     GetESDsData(9)->Fill(vtxTrk->GetYv());
429     GetESDsData(10)->Fill(vtxTrk->GetZv());
430   }
431
432   if(vtxSPD->GetNContributors()>0 && 
433      vtxTrk->GetNContributors()>0) {
434     GetESDsData(12)->Fill(vtxSPD->GetXv()-vtxTrk->GetXv());
435     GetESDsData(13)->Fill(vtxSPD->GetYv()-vtxTrk->GetYv());
436     GetESDsData(14)->Fill(vtxSPD->GetZv()-vtxTrk->GetZv());
437   }
438
439   // SPD Tracklets
440   GetESDsData(15)->Fill(mult);
441
442   Short_t nFiredChips0 = ((AliMultiplicity*)(esd->GetMultiplicity()))->GetNumberOfFiredChips(0);
443   Short_t nFiredChips1 = ((AliMultiplicity*)(esd->GetMultiplicity()))->GetNumberOfFiredChips(1);
444   GetESDsData(16)->Fill(nFiredChips0,mult);
445   GetESDsData(17)->Fill(nFiredChips1,mult);
446
447   // Loop over tracklets
448   for (Int_t itr=0; itr<mult; ++itr) {
449     Float_t dePhiTr = ((AliMultiplicity*)(esd->GetMultiplicity()))->GetDeltaPhi(itr);
450     Float_t phiTr   = ((AliMultiplicity*)(esd->GetMultiplicity()))->GetPhi(itr);
451     Float_t thetaTr = ((AliMultiplicity*)(esd->GetMultiplicity()))->GetTheta(itr);
452     GetESDsData(18)->Fill(dePhiTr);
453     GetESDsData(19)->Fill(phiTr);
454     GetESDsData(20)->Fill(thetaTr);
455   } // end loop on tracklets
456
457   return;
458 }
459
460 //_________________________________________________________________
461 Int_t AliITSQADataMakerRec::GetDetTaskOffset(Int_t subdet,AliQA::TASKINDEX_t task)
462 {
463   switch(subdet)
464     {
465
466       Int_t offset;
467     case 1:
468       offset=fSPDDataMaker->GetOffset(task);
469       return offset;
470       break;
471     case 2:
472       offset=fSDDDataMaker->GetOffset(task);
473       return offset;
474       break;
475     case 3:
476       offset=fSSDDataMaker->GetOffset(task);
477       return offset;
478       break;
479     default:
480       AliWarning("No specific subdetector (SPD, SDD, SSD) selected!! Offset set to zero \n");
481       offset=0;
482       return offset;
483       break;
484     }
485   //return offset;
486 }