more secure string operations
[u/mrichter/AliRoot.git] / TPC / AliTPCcalibTime.cxx
CommitLineData
c74c5f6c 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/*
74235403 17Comments to be written here:
c74c5f6c 18
74235403 191. What do we calibrate.
20
21 Time dependence of gain and drift velocity in order to account for changes in: temperature, pressure, gas composition.
c74c5f6c 22
23 AliTPCcalibTime *calibTime = new AliTPCcalibTime("cosmicTime","cosmicTime",0, 1213.9e+06, 1213.96e+06, 0.04e+04, 0.04e+04);
24
74235403 252. How to interpret results
26
273. Simple example
c74c5f6c 28
74235403 29 a) determine the required time range:
c74c5f6c 30
74235403 31 AliXRDPROOFtoolkit tool;
32 TChain * chain = tool.MakeChain("pass2.txt","esdTree",0,6000);
33 chain->Draw("GetTimeStamp()")
c74c5f6c 34
74235403 35 b) analyse calibration object on Proof in calibration train
c74c5f6c 36
74235403 37 AliTPCcalibTime *calibTime = new AliTPCcalibTime("cosmicTime","cosmicTime", StartTimeStamp, EndTimeStamp, IntegrationTimeVdrift);
c74c5f6c 38
74235403 39 c) plot results
40 .x ~/NimStyle.C
2be25cc9 41 gSystem->Load("libANALYSIS");
42 gSystem->Load("libTPCcalib");
c74c5f6c 43
dde68d36 44 TFile f("CalibObjectsTrain1.root");
45 AliTPCcalibTime *calib = (AliTPCcalibTime *)f->Get("calibTime");
46 calib->GetHistoDrift("all")->Projection(2,0)->Draw()
47 calib->GetFitDrift("all")->Draw("lp")
da6c0bc9 48
74235403 494. Analysis using debug streamers.
da6c0bc9 50
74235403 51 gSystem->AddIncludePath("-I$ALICE_ROOT/TPC/macros");
52 gROOT->LoadMacro("$ALICE_ROOT/TPC/macros/AliXRDPROOFtoolkit.cxx+")
53 AliXRDPROOFtoolkit tool;
3e55050f 54 TChain * chainTime = tool.MakeChainRandom("time.txt","trackInfo",0,10000);
817766d5 55
3e55050f 56 AliXRDPROOFtoolkit::FilterList("timetpctpc.txt","* tpctpc",1)
57 AliXRDPROOFtoolkit::FilterList("timetoftpc.txt","* toftpc",1)
58 AliXRDPROOFtoolkit::FilterList("timeitstpc.txt","* itstpc",1)
59 AliXRDPROOFtoolkit::FilterList("timelaser.txt","* laserInfo",1)
60 TChain * chainTPCTPC = tool.MakeChainRandom("timetpctpc.txt.Good","tpctpc",0,10000);
817766d5 61 TChain * chainTPCITS = tool.MakeChainRandom("timeitstpc.txt.Good","itstpc",0,10000);
3e55050f 62 TChain * chainTPCTOF = tool.MakeChainRandom("timetoftpc.txt.Good","toftpc",0,10000);
817766d5 63 TChain * chainLaser = tool.MakeChainRandom("timelaser.txt.Good","laserInfo",0,10000);
74235403 64 chainTime->Lookup();
dde68d36 65 chainLaser->Lookup();
c74c5f6c 66*/
67
c74c5f6c 68#include "Riostream.h"
2811495d 69#include "TDatabasePDG.h"
70#include "TGraphErrors.h"
c74c5f6c 71#include "TH1F.h"
c74c5f6c 72#include "THnSparse.h"
73#include "TList.h"
74#include "TMath.h"
2811495d 75#include "TTimeStamp.h"
76#include "TTree.h"
c74c5f6c 77#include "TVectorD.h"
2811495d 78//#include "TChain.h"
79//#include "TFile.h"
80
81#include "AliDCSSensor.h"
82#include "AliDCSSensorArray.h"
c74c5f6c 83#include "AliESDEvent.h"
c74c5f6c 84#include "AliESDInputHandler.h"
2811495d 85#include "AliESDVertex.h"
86#include "AliESDfriend.h"
c74c5f6c 87#include "AliLog.h"
817766d5 88#include "AliRelAlignerKalman.h"
2811495d 89#include "AliTPCCalROC.h"
90#include "AliTPCParam.h"
c74c5f6c 91#include "AliTPCTracklet.h"
da6c0bc9 92#include "AliTPCcalibDB.h"
93#include "AliTPCcalibLaser.h"
2811495d 94#include "AliTPCcalibTime.h"
95#include "AliTPCclusterMI.h"
96#include "AliTPCseed.h"
817766d5 97#include "AliTrackPointArray.h"
2811495d 98#include "AliTracker.h"
70036ef3 99#include "AliKFVertex.h"
660f0543 100#include <AliLog.h>
101
c74c5f6c 102ClassImp(AliTPCcalibTime)
103
104
105AliTPCcalibTime::AliTPCcalibTime()
660f0543 106 :AliTPCcalibBase(),
107 fMemoryMode(1), // 0 -do not fill THnSparse with residuals 1- fill only important QA THn 2 - Fill all THnsparse for calibration
da6c0bc9 108 fLaser(0), // pointer to laser calibration
109 fDz(0), // current delta z
d3ce44cb 110 fCutMaxD(3), // maximal distance in rfi ditection
111 fCutMaxDz(25), // maximal distance in rfi ditection
c74c5f6c 112 fCutTheta(0.03), // maximal distan theta
2be25cc9 113 fCutMinDir(-0.99), // direction vector products
b842d904 114 fCutTracks(100),
97d3fea0 115 fArrayLaserA(0), //laser fit parameters C
116 fArrayLaserC(0), //laser fit parameters A
dde68d36 117 fArrayDz(0), //NEW! Tmap of V drifts for different triggers
817766d5 118 fAlignITSTPC(0), //alignemnt array ITS TPC match
119 fAlignTRDTPC(0), //alignemnt array TRD TPC match
120 fAlignTOFTPC(0), //alignemnt array TOF TPC match
97d3fea0 121 fTimeKalmanBin(60*15), //time bin width for kalman - 15 minutes default
2be25cc9 122 fTimeBins(0),
123 fTimeStart(0),
124 fTimeEnd(0),
125 fPtBins(0),
126 fPtStart(0),
127 fPtEnd(0),
128 fVdriftBins(0),
129 fVdriftStart(0),
130 fVdriftEnd(0),
131 fRunBins(0),
132 fRunStart(0),
133 fRunEnd(0)
c74c5f6c 134{
6ba68367 135 //
136 // default constructor
137 //
c74c5f6c 138 AliInfo("Default Constructor");
2be25cc9 139 for (Int_t i=0;i<3;i++) {
140 fHistVdriftLaserA[i]=0;
141 fHistVdriftLaserC[i]=0;
142 }
d3ce44cb 143 for (Int_t i=0;i<10;i++) {
74235403 144 fCosmiMatchingHisto[i]=0;
145 }
391ffdb2 146 //
147 for (Int_t i=0;i<5;i++) {
b9908d0b 148 fResHistoTPCCE[i]=0;
391ffdb2 149 fResHistoTPCITS[i]=0;
150 fResHistoTPCTRD[i]=0;
0b736a46 151 fResHistoTPCTOF[i]=0;
391ffdb2 152 fResHistoTPCvertex[i]=0;
70036ef3 153 fTPCVertex[i]=0;
154 }
155 for (Int_t i=0;i<12;i++) {
156 fTPCVertex[i]=0;
391ffdb2 157 }
b1fea14f 158 for (Int_t i=0;i<5;i++) {
159 fTPCVertexCorrelation[i]=0;
160 }
660f0543 161 static Int_t counter=0;
162 if (1) {
163 TTimeStamp s;
164 Int_t time=s;
165 AliInfo(Form("Counter Constructor\t%d\t%d",counter,time));
166 counter++;
167 }
168
c74c5f6c 169}
170
660f0543 171AliTPCcalibTime::AliTPCcalibTime(const Text_t *name, const Text_t *title, UInt_t StartTime, UInt_t EndTime, Int_t deltaIntegrationTimeVdrift, Int_t memoryMode)
c74c5f6c 172 :AliTPCcalibBase(),
660f0543 173 fMemoryMode(memoryMode), // 0 -do not fill THnSparse with residuals 1- fill only important QA THn 2 - Fill all THnsparse for calibration
d3ce44cb 174 fLaser(0), // pointer to laser calibration
175 fDz(0), // current delta z
176 fCutMaxD(5*0.5356), // maximal distance in rfi ditection
dde68d36 177 fCutMaxDz(40), // maximal distance in rfi ditection
d3ce44cb 178 fCutTheta(5*0.004644),// maximal distan theta
179 fCutMinDir(-0.99), // direction vector products
b842d904 180 fCutTracks(100),
97d3fea0 181 fArrayLaserA(new TObjArray(1000)), //laser fit parameters C
182 fArrayLaserC(new TObjArray(1000)), //laser fit parameters A
dde68d36 183 fArrayDz(0), //Tmap of V drifts for different triggers
817766d5 184 fAlignITSTPC(0), //alignemnt array ITS TPC match
185 fAlignTRDTPC(0), //alignemnt array TRD TPC match
186 fAlignTOFTPC(0), //alignemnt array TOF TPC match
97d3fea0 187 fTimeKalmanBin(60*15), //time bin width for kalman - 15 minutes default
2be25cc9 188 fTimeBins(0),
189 fTimeStart(0),
190 fTimeEnd(0),
191 fPtBins(0),
192 fPtStart(0),
193 fPtEnd(0),
194 fVdriftBins(0),
195 fVdriftStart(0),
196 fVdriftEnd(0),
197 fRunBins(0),
198 fRunStart(0),
199 fRunEnd(0)
c74c5f6c 200{
6ba68367 201 //
202 // Non deafaul constructor - to be used in the Calibration setups
203 //
204
c74c5f6c 205 SetName(name);
206 SetTitle(title);
2be25cc9 207 for (Int_t i=0;i<3;i++) {
208 fHistVdriftLaserA[i]=0;
209 fHistVdriftLaserC[i]=0;
210 }
c74c5f6c 211
391ffdb2 212 for (Int_t i=0;i<5;i++) {
b9908d0b 213 fResHistoTPCCE[i]=0;
391ffdb2 214 fResHistoTPCITS[i]=0;
215 fResHistoTPCTRD[i]=0;
0b736a46 216 fResHistoTPCTOF[i]=0;
391ffdb2 217 fResHistoTPCvertex[i]=0;
218 }
219
220
c74c5f6c 221 AliInfo("Non Default Constructor");
74235403 222 fTimeBins =(EndTime-StartTime)/deltaIntegrationTimeVdrift;
2be25cc9 223 fTimeStart =StartTime; //(((TObjString*)(mapGRP->GetValue("fAliceStartTime")))->GetString()).Atoi();
224 fTimeEnd =EndTime; //(((TObjString*)(mapGRP->GetValue("fAliceStopTime")))->GetString()).Atoi();
dde68d36 225 fPtBins = 400;
2be25cc9 226 fPtStart = -0.04;
227 fPtEnd = 0.04;
dde68d36 228 fVdriftBins = 500;
229 fVdriftStart= -0.1;
230 fVdriftEnd = 0.1;
32100b1d 231 fRunBins = 1000001;
dde68d36 232 fRunStart = -1.5;
32100b1d 233 fRunEnd = 999999.5;
2be25cc9 234
235 Int_t binsVdriftLaser[4] = {fTimeBins , fPtBins , fVdriftBins*20, fRunBins };
236 Double_t xminVdriftLaser[4] = {fTimeStart, fPtStart, fVdriftStart , fRunStart};
237 Double_t xmaxVdriftLaser[4] = {fTimeEnd , fPtEnd , fVdriftEnd , fRunEnd };
dde68d36 238 TString axisTitle[4]={
239 "T",
240 "#delta_{P/T}",
241 "value",
242 "run"
243 };
244 TString histoName[3]={
245 "Loffset",
246 "Lcorr",
247 "Lgy"
248 };
2be25cc9 249
dde68d36 250
2be25cc9 251 for (Int_t i=0;i<3;i++) {
252 fHistVdriftLaserA[i] = new THnSparseF("HistVdriftLaser","HistVdriftLaser;time;p/T ratio;Vdrift;run",4,binsVdriftLaser,xminVdriftLaser,xmaxVdriftLaser);
253 fHistVdriftLaserC[i] = new THnSparseF("HistVdriftLaser","HistVdriftLaser;time;p/T ratio;Vdrift;run",4,binsVdriftLaser,xminVdriftLaser,xmaxVdriftLaser);
dde68d36 254 fHistVdriftLaserA[i]->SetName(histoName[i]);
255 fHistVdriftLaserC[i]->SetName(histoName[i]);
256 for (Int_t iaxis=0; iaxis<4;iaxis++){
257 fHistVdriftLaserA[i]->GetAxis(iaxis)->SetName(axisTitle[iaxis]);
258 fHistVdriftLaserC[i]->GetAxis(iaxis)->SetName(axisTitle[iaxis]);
259 }
2be25cc9 260 }
261 fBinsVdrift[0] = fTimeBins;
262 fBinsVdrift[1] = fPtBins;
263 fBinsVdrift[2] = fVdriftBins;
264 fBinsVdrift[3] = fRunBins;
265 fXminVdrift[0] = fTimeStart;
266 fXminVdrift[1] = fPtStart;
267 fXminVdrift[2] = fVdriftStart;
268 fXminVdrift[3] = fRunStart;
269 fXmaxVdrift[0] = fTimeEnd;
270 fXmaxVdrift[1] = fPtEnd;
271 fXmaxVdrift[2] = fVdriftEnd;
272 fXmaxVdrift[3] = fRunEnd;
273
dde68d36 274 fArrayDz=new TObjArray();
817766d5 275 fAlignITSTPC = new TObjArray; //alignemnt array ITS TPC match
276 fAlignTRDTPC = new TObjArray; //alignemnt array ITS TPC match
277 fAlignTOFTPC = new TObjArray; //alignemnt array ITS TPC match
3e55050f 278 fAlignITSTPC->SetOwner(kTRUE);
279 fAlignTRDTPC->SetOwner(kTRUE);
280 fAlignTOFTPC->SetOwner(kTRUE);
281
c74c5f6c 282
d3ce44cb 283 fCosmiMatchingHisto[0]=new TH1F("Cosmics matching","p0-all" ,100,-10*0.5356 ,10*0.5356 );
284 fCosmiMatchingHisto[1]=new TH1F("Cosmics matching","p1-all" ,100,-10*4.541 ,10*4.541 );
285 fCosmiMatchingHisto[2]=new TH1F("Cosmics matching","p2-all" ,100,-10*0.01134 ,10*0.01134 );
286 fCosmiMatchingHisto[3]=new TH1F("Cosmics matching","p3-all" ,100,-10*0.004644,10*0.004644);
287 fCosmiMatchingHisto[4]=new TH1F("Cosmics matching","p4-all" ,100,-10*0.03773 ,10*0.03773 );
288 fCosmiMatchingHisto[5]=new TH1F("Cosmics matching","p0-isPair",100,-10*0.5356 ,10*0.5356 );
289 fCosmiMatchingHisto[6]=new TH1F("Cosmics matching","p1-isPair",100,-10*4.541 ,10*4.541 );
290 fCosmiMatchingHisto[7]=new TH1F("Cosmics matching","p2-isPair",100,-10*0.01134 ,10*0.01134 );
291 fCosmiMatchingHisto[8]=new TH1F("Cosmics matching","p3-isPair",100,-10*0.004644,10*0.004644);
292 fCosmiMatchingHisto[9]=new TH1F("Cosmics matching","p4-isPair",100,-10*0.03773 ,10*0.03773 );
70036ef3 293 for (Int_t i=0;i<12;i++) {
294 fTPCVertex[i]=0;
295 }
b1fea14f 296 for (Int_t i=0;i<5;i++) {
297 fTPCVertexCorrelation[i]=0;
298 }
391ffdb2 299 BookDistortionMaps();
70036ef3 300
74235403 301}
c74c5f6c 302
303AliTPCcalibTime::~AliTPCcalibTime(){
304 //
6ba68367 305 // Virtual Destructor
c74c5f6c 306 //
660f0543 307 static Int_t counter=0;
308 if (1) {
309 TTimeStamp s;
310 Int_t time=s;
311 AliInfo(Form("Counter Destructor\t%s\t%d\t%d",GetName(),counter,time));
312 counter++;
313 }
d3ce44cb 314 for(Int_t i=0;i<3;i++){
315 if(fHistVdriftLaserA[i]){
316 delete fHistVdriftLaserA[i];
317 fHistVdriftLaserA[i]=NULL;
318 }
319 if(fHistVdriftLaserC[i]){
320 delete fHistVdriftLaserC[i];
321 fHistVdriftLaserC[i]=NULL;
322 }
323 }
dde68d36 324 if(fArrayDz){
325 fArrayDz->SetOwner();
326 fArrayDz->Delete();
327 delete fArrayDz;
328 fArrayDz=NULL;
2be25cc9 329 }
d3ce44cb 330 for(Int_t i=0;i<5;i++){
331 if(fCosmiMatchingHisto[i]){
332 delete fCosmiMatchingHisto[i];
333 fCosmiMatchingHisto[i]=NULL;
334 }
74235403 335 }
391ffdb2 336
337 for (Int_t i=0;i<5;i++) {
b9908d0b 338 delete fResHistoTPCCE[i];
391ffdb2 339 delete fResHistoTPCITS[i];
340 delete fResHistoTPCTRD[i];
0b736a46 341 delete fResHistoTPCTOF[i];
391ffdb2 342 delete fResHistoTPCvertex[i];
b9908d0b 343 fResHistoTPCCE[i]=0;
391ffdb2 344 fResHistoTPCITS[i]=0;
345 fResHistoTPCTRD[i]=0;
0b736a46 346 fResHistoTPCTOF[i]=0;
391ffdb2 347 fResHistoTPCvertex[i]=0;
348 }
349
70036ef3 350 if (fTPCVertex) {
351 for (Int_t i=0;i<12;i++) delete fTPCVertex[i];
352 }
b1fea14f 353 if (fTPCVertexCorrelation) {
354 for (Int_t i=0;i<5;i++) delete fTPCVertexCorrelation[i];
355 }
70036ef3 356
3e55050f 357 fAlignITSTPC->SetOwner(kTRUE);
358 fAlignTRDTPC->SetOwner(kTRUE);
359 fAlignTOFTPC->SetOwner(kTRUE);
360
817766d5 361 fAlignITSTPC->Delete();
362 fAlignTRDTPC->Delete();
363 fAlignTOFTPC->Delete();
3e55050f 364 delete fAlignITSTPC;
365 delete fAlignTRDTPC;
366 delete fAlignTOFTPC;
c74c5f6c 367}
2be25cc9 368
2811495d 369Bool_t AliTPCcalibTime::IsLaser(const AliESDEvent *const /*event*/){
6ba68367 370 //
371 // Indicator is laser event not yet implemented - to be done using trigger info or event specie
372 //
dde68d36 373 return kTRUE; //More accurate creteria to be added
da6c0bc9 374}
2811495d 375Bool_t AliTPCcalibTime::IsCosmics(const AliESDEvent *const /*event*/){
6ba68367 376 //
377 // Indicator is cosmic event not yet implemented - to be done using trigger info or event specie
378 //
379
dde68d36 380 return kTRUE; //More accurate creteria to be added
381}
2811495d 382Bool_t AliTPCcalibTime::IsBeam(const AliESDEvent *const /*event*/){
6ba68367 383 //
384 // Indicator is physic event not yet implemented - to be done using trigger info or event specie
385 //
386
dde68d36 387 return kTRUE; //More accurate creteria to be added
388}
389void AliTPCcalibTime::ResetCurrent(){
390 fDz=0; //Reset current dz
2be25cc9 391}
6ba68367 392
393
394
2be25cc9 395void AliTPCcalibTime::Process(AliESDEvent *event){
6ba68367 396 //
397 // main function to make calibration
398 //
2be25cc9 399 if(!event) return;
400 if (event->GetNumberOfTracks()<2) return;
401 ResetCurrent();
dde68d36 402 if(IsLaser (event)) ProcessLaser (event);
403 if(IsCosmics(event)) ProcessCosmic(event);
404 if(IsBeam (event)) ProcessBeam (event);
2be25cc9 405}
406
407void AliTPCcalibTime::ProcessLaser(AliESDEvent *event){
c74c5f6c 408 //
2be25cc9 409 // Fit drift velocity using laser
410 //
411 // 0. cuts
dde68d36 412 const Int_t kMinTracks = 40; // minimal number of laser tracks
413 const Int_t kMinTracksSide = 20; // minimal number of tracks per side
414 const Float_t kMaxDeltaZ = 30.; // maximal trigger delay
415 const Float_t kMaxDeltaV = 0.05; // maximal deltaV
2be25cc9 416 const Float_t kMaxRMS = 0.1; // maximal RMS of tracks
dde68d36 417 //
2be25cc9 418 /*
419 TCut cutRMS("sqrt(laserA.fElements[4])<0.1&&sqrt(laserC.fElements[4])<0.1");
420 TCut cutZ("abs(laserA.fElements[0]-laserC.fElements[0])<3");
421 TCut cutV("abs(laserA.fElements[1]-laserC.fElements[1])<0.01");
422 TCut cutY("abs(laserA.fElements[2]-laserC.fElements[2])<2");
423 TCut cutAll = cutRMS+cutZ+cutV+cutY;
424 */
425 if (event->GetNumberOfTracks()<kMinTracks) return;
c74c5f6c 426 //
2be25cc9 427 if(!fLaser) fLaser = new AliTPCcalibLaser("laserTPC","laserTPC",kFALSE);
428 fLaser->Process(event);
429 if (fLaser->GetNtracks()<kMinTracks) return; // small amount of tracks cut
dde68d36 430 if (fLaser->fFitAside->GetNrows()==0 && fLaser->fFitCside->GetNrows()==0) return; // no fit neither a or C side
c74c5f6c 431 //
2be25cc9 432 // debug streamer - activate stream level
433 // Use it for tuning of the cuts
da6c0bc9 434 //
dde68d36 435 // cuts to be applied
436 //
437 Int_t isReject[2]={0,0};
438 //
439 // not enough tracks
440 if (TMath::Abs((*fLaser->fFitAside)[3]) < kMinTracksSide) isReject[0]|=1;
441 if (TMath::Abs((*fLaser->fFitCside)[3]) < kMinTracksSide) isReject[1]|=1;
442 // unreasonable z offset
443 if (TMath::Abs((*fLaser->fFitAside)[0])>kMaxDeltaZ) isReject[0]|=2;
444 if (TMath::Abs((*fLaser->fFitCside)[0])>kMaxDeltaZ) isReject[1]|=2;
445 // unreasonable drift velocity
446 if (TMath::Abs((*fLaser->fFitAside)[1]-1)>kMaxDeltaV) isReject[0]|=4;
447 if (TMath::Abs((*fLaser->fFitCside)[1]-1)>kMaxDeltaV) isReject[1]|=4;
448 // big chi2
449 if (TMath::Sqrt(TMath::Abs((*fLaser->fFitAside)[4]))>kMaxRMS ) isReject[0]|=8;
450 if (TMath::Sqrt(TMath::Abs((*fLaser->fFitCside)[4]))>kMaxRMS ) isReject[1]|=8;
451
452
453
454
2be25cc9 455 if (fStreamLevel>0){
456 printf("Trigger: %s\n",event->GetFiredTriggerClasses().Data());
457
da6c0bc9 458 TTreeSRedirector *cstream = GetDebugStreamer();
459 if (cstream){
460 TTimeStamp tstamp(fTime);
2be25cc9 461 (*cstream)<<"laserInfo"<<
da6c0bc9 462 "run="<<fRun<< // run number
463 "event="<<fEvent<< // event number
464 "time="<<fTime<< // time stamp of event
465 "trigger="<<fTrigger<< // trigger
466 "mag="<<fMagF<< // magnetic field
da6c0bc9 467 //laser
dde68d36 468 "rejectA="<<isReject[0]<<
469 "rejectC="<<isReject[1]<<
2be25cc9 470 "laserA.="<<fLaser->fFitAside<<
471 "laserC.="<<fLaser->fFitCside<<
472 "laserAC.="<<fLaser->fFitACside<<
473 "trigger="<<event->GetFiredTriggerClasses()<<
da6c0bc9 474 "\n";
475 }
476 }
2be25cc9 477 //
2be25cc9 478 // fill histos
479 //
480 TVectorD vdriftA(5), vdriftC(5),vdriftAC(5);
481 vdriftA=*(fLaser->fFitAside);
482 vdriftC=*(fLaser->fFitCside);
483 vdriftAC=*(fLaser->fFitACside);
484 Int_t npointsA=0, npointsC=0;
485 Float_t chi2A=0, chi2C=0;
486 npointsA= TMath::Nint(vdriftA[3]);
487 chi2A= vdriftA[4];
488 npointsC= TMath::Nint(vdriftC[3]);
489 chi2C= vdriftC[4];
2be25cc9 490
97d3fea0 491 if (npointsA>kMinTracksSide || npointsC>kMinTracksSide){
492 TVectorD *fitA = new TVectorD(6);
493 TVectorD *fitC = new TVectorD(6);
494 for (Int_t ipar=0; ipar<5; ipar++){
495 (*fitA)[ipar]=vdriftA[ipar];
496 (*fitC)[ipar]=vdriftC[ipar];
497 }
498 (*fitA)[5]=fTime;
499 (*fitC)[5]=fTime;
500 fArrayLaserA->AddLast(fitA);
501 fArrayLaserC->AddLast(fitC);
502 }
503 //
504
2be25cc9 505 TTimeStamp tstamp(fTime);
506 Double_t ptrelative0 = AliTPCcalibDB::GetPTRelative(tstamp,fRun,0);
507 Double_t ptrelative1 = AliTPCcalibDB::GetPTRelative(tstamp,fRun,1);
dde68d36 508 Double_t driftA=0, driftC=0;
509 if (vdriftA[1]>1.-kMaxDeltaV) driftA = 1./vdriftA[1]-1.;
510 if (vdriftC[1]>1.-kMaxDeltaV) driftC = 1./vdriftC[1]-1.;
511 //
512 Double_t vecDriftLaserA[4]={fTime,(ptrelative0+ptrelative1)/2.0,driftA,event->GetRunNumber()};
513 Double_t vecDriftLaserC[4]={fTime,(ptrelative0+ptrelative1)/2.0,driftC,event->GetRunNumber()};
514 // Double_t vecDrift[4] ={fTime,(ptrelative0+ptrelative1)/2.0,1./((*(fLaser->fFitACside))[1])-1,event->GetRunNumber()};
515
516 for (Int_t icalib=0;icalib<3;icalib++){
517 if (icalib==0){ //z0 shift
518 vecDriftLaserA[2]=vdriftA[0]/250.;
519 vecDriftLaserC[2]=vdriftC[0]/250.;
2be25cc9 520 }
dde68d36 521 if (icalib==1){ //vdrel shift
522 vecDriftLaserA[2]=driftA;
523 vecDriftLaserC[2]=driftC;
2be25cc9 524 }
dde68d36 525 if (icalib==2){ //gy shift - full gy - full drift
526 vecDriftLaserA[2]=vdriftA[2]/250.;
527 vecDriftLaserC[2]=vdriftC[2]/250.;
2be25cc9 528 }
391ffdb2 529 //if (isReject[0]==0) fHistVdriftLaserA[icalib]->Fill(vecDriftLaserA);
530 //if (isReject[1]==0) fHistVdriftLaserC[icalib]->Fill(vecDriftLaserC);
531 fHistVdriftLaserA[icalib]->Fill(vecDriftLaserA);
532 fHistVdriftLaserC[icalib]->Fill(vecDriftLaserC);
2be25cc9 533 }
2be25cc9 534}
c74c5f6c 535
2811495d 536void AliTPCcalibTime::ProcessCosmic(const AliESDEvent *const event){
6ba68367 537 //
538 // process Cosmic event - track matching A side C side
539 //
c74c5f6c 540 if (!event) {
541 Printf("ERROR: ESD not available");
542 return;
543 }
544 if (event->GetTimeStamp() == 0 ) {
545 Printf("no time stamp!");
546 return;
547 }
74235403 548
2be25cc9 549 //fd
c74c5f6c 550 // Find cosmic pairs
551 //
552 // Track0 is choosen in upper TPC part
553 // Track1 is choosen in lower TPC part
554 //
cc65e4f5 555 const Int_t kMinClustersCross =30;
556 const Int_t kMinClusters =80;
c74c5f6c 557 Int_t ntracks=event->GetNumberOfTracks();
558 if (ntracks==0) return;
74235403 559 if (ntracks > fCutTracks) return;
560
a390f11f 561 if (GetDebugLevel()>20) printf("Hallo world: Im here\n");
3e0d9569 562 AliESDfriend *esdFriend=(AliESDfriend*)(((AliESDEvent*)event)->FindListObject("AliESDfriend"));
c74c5f6c 563
564 TObjArray tpcSeeds(ntracks);
565 Double_t vtxx[3]={0,0,0};
566 Double_t svtxx[3]={0.000001,0.000001,100.};
567 AliESDVertex vtx(vtxx,svtxx);
568 //
569 // track loop
570 //
cc65e4f5 571 TArrayI clusterSideA(ntracks);
572 TArrayI clusterSideC(ntracks);
c74c5f6c 573 for (Int_t i=0;i<ntracks;++i) {
cc65e4f5 574 clusterSideA[i]=0;
575 clusterSideC[i]=0;
74235403 576 AliESDtrack *track = event->GetTrack(i);
577
578 const AliExternalTrackParam * trackIn = track->GetInnerParam();
579 const AliExternalTrackParam * trackOut = track->GetOuterParam();
580 if (!trackIn) continue;
581 if (!trackOut) continue;
582
6ba68367 583 AliESDfriendTrack *friendTrack = esdFriend->GetTrack(i);
b1c27e4f 584 if (!friendTrack) continue;
3e55050f 585 if (friendTrack) ProcessSame(track,friendTrack,event);
6ba68367 586 if (friendTrack) ProcessAlignITS(track,friendTrack,event,esdFriend);
0dac7b3a 587 if (friendTrack) ProcessAlignTRD(track,friendTrack);
817766d5 588 if (friendTrack) ProcessAlignTOF(track,friendTrack);
74235403 589 TObject *calibObject;
590 AliTPCseed *seed = 0;
591 for (Int_t l=0;(calibObject=friendTrack->GetCalibObject(l));++l) if ((seed=dynamic_cast<AliTPCseed*>(calibObject))) break;
cc65e4f5 592 if (seed) {
593 tpcSeeds.AddAt(seed,i);
594 Int_t nA=0, nC=0;
595 for (Int_t irow=159;irow>0;irow--) {
596 AliTPCclusterMI *cl=seed->GetClusterPointer(irow);
597 if (!cl) continue;
598 if ((cl->GetDetector()%36)<18) nA++;
599 if ((cl->GetDetector()%36)>=18) nC++;
600 }
601 clusterSideA[i]=nA;
602 clusterSideC[i]=nC;
603 }
c74c5f6c 604 }
c74c5f6c 605 if (ntracks<2) return;
606 //
607 // Find pairs
608 //
d3ce44cb 609
c74c5f6c 610 for (Int_t i=0;i<ntracks;++i) {
74235403 611 AliESDtrack *track0 = event->GetTrack(i);
c74c5f6c 612 // track0 - choosen upper part
613 if (!track0) continue;
614 if (!track0->GetOuterParam()) continue;
615 if (track0->GetOuterParam()->GetAlpha()<0) continue;
616 Double_t d1[3];
617 track0->GetDirection(d1);
618 for (Int_t j=0;j<ntracks;++j) {
619 if (i==j) continue;
74235403 620 AliESDtrack *track1 = event->GetTrack(j);
621 //track 1 lower part
622 if (!track1) continue;
623 if (!track1->GetOuterParam()) continue;
cc65e4f5 624 if (track0->GetTPCNcls()+ track1->GetTPCNcls()< kMinClusters) continue;
625 Int_t nAC = TMath::Max( TMath::Min(clusterSideA[i], clusterSideC[j]),
626 TMath::Min(clusterSideC[i], clusterSideA[j]));
627 if (nAC<kMinClustersCross) continue;
628 Int_t nA0=clusterSideA[i];
629 Int_t nC0=clusterSideC[i];
630 Int_t nA1=clusterSideA[j];
631 Int_t nC1=clusterSideC[j];
3e55050f 632 // if (track1->GetOuterParam()->GetAlpha()>0) continue;
74235403 633 //
634 Double_t d2[3];
635 track1->GetDirection(d2);
636
637 AliTPCseed * seed0 = (AliTPCseed*) tpcSeeds.At(i);
638 AliTPCseed * seed1 = (AliTPCseed*) tpcSeeds.At(j);
639 if (! seed0) continue;
640 if (! seed1) continue;
641 Float_t dir = (d1[0]*d2[0] + d1[1]*d2[1] + d1[2]*d2[2]);
642 Float_t dist0 = track0->GetLinearD(0,0);
643 Float_t dist1 = track1->GetLinearD(0,0);
644 //
645 // conservative cuts - convergence to be guarantied
646 // applying before track propagation
3e55050f 647 if (TMath::Abs(TMath::Abs(dist0)-TMath::Abs(dist1))>fCutMaxD) continue; // distance to the 0,0
648 if (TMath::Abs(dir)<TMath::Abs(fCutMinDir)) continue; // direction vector product
74235403 649 Float_t bz = AliTracker::GetBz();
650 Float_t dvertex0[2]; //distance to 0,0
651 Float_t dvertex1[2]; //distance to 0,0
652 track0->GetDZ(0,0,0,bz,dvertex0);
653 track1->GetDZ(0,0,0,bz,dvertex1);
654 if (TMath::Abs(dvertex0[1])>250) continue;
655 if (TMath::Abs(dvertex1[1])>250) continue;
656 //
657 //
658 //
659 Float_t dmax = TMath::Max(TMath::Abs(dist0),TMath::Abs(dist1));
660 AliExternalTrackParam param0(*track0);
661 AliExternalTrackParam param1(*track1);
662 //
663 // Propagate using Magnetic field and correct fo material budget
664 //
9963b5e2 665 AliTracker::PropagateTrackTo(&param0,dmax+1,TDatabasePDG::Instance()->GetParticle("e-")->Mass(),3,kTRUE);
666 AliTracker::PropagateTrackTo(&param1,dmax+1,TDatabasePDG::Instance()->GetParticle("e-")->Mass(),3,kTRUE);
74235403 667 //
668 // Propagate rest to the 0,0 DCA - z should be ignored
669 //
670 //Bool_t b0 = ;
671 param0.PropagateToDCA(&vtx,bz,1000);
672 //Bool_t b1 =
673 param1.PropagateToDCA(&vtx,bz,1000);
74235403 674 param0.GetDZ(0,0,0,bz,dvertex0);
675 param1.GetDZ(0,0,0,bz,dvertex1);
dde68d36 676 Double_t xyz0[3];
677 Double_t xyz1[3];
74235403 678 param0.GetXYZ(xyz0);
679 param1.GetXYZ(xyz1);
680 Bool_t isPair = IsPair(&param0,&param1);
d3ce44cb 681 Bool_t isCross = IsCross(track0, track1);
dde68d36 682 Bool_t isSame = IsSame(track0, track1);
d3ce44cb 683
dde68d36 684 THnSparse* hist=new THnSparseF("","HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
685 TString shortName=hist->ClassName();
686 shortName+="_MEAN_VDRIFT_COSMICS_";
687 delete hist;
688 hist=NULL;
689
3e55050f 690 if((isSame) || (isCross && isPair)){
691 if (track0->GetTPCNcls()+ track1->GetTPCNcls()> 80) {
74235403 692 fDz = param0.GetZ() - param1.GetZ();
cc65e4f5 693 Double_t sign=(nA0>nA1)? 1:-1;
694 fDz*=sign;
74235403 695 TTimeStamp tstamp(fTime);
696 Double_t ptrelative0 = AliTPCcalibDB::GetPTRelative(tstamp,fRun,0);
697 Double_t ptrelative1 = AliTPCcalibDB::GetPTRelative(tstamp,fRun,1);
dde68d36 698 Double_t vecDrift[4]={fTime,(ptrelative0+ptrelative1)/2.0,fDz/500.0,event->GetRunNumber()};
699 THnSparse* curHist=NULL;
700 TString name="";
701
702 name=shortName;
703 name+=event->GetFiredTriggerClasses();
704 name.ToUpper();
705 curHist=(THnSparseF*)fArrayDz->FindObject(name);
74235403 706 if(!curHist){
dde68d36 707 curHist=new THnSparseF(name,"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
708 fArrayDz->AddLast(curHist);
74235403 709 }
dde68d36 710// curHist=(THnSparseF*)(fMapDz->GetValue(event->GetFiredTriggerClasses()));
711// if(!curHist){
712// curHist=new THnSparseF(event->GetFiredTriggerClasses(),"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
713// fMapDz->Add(new TObjString(event->GetFiredTriggerClasses()),curHist);
714// }
715 curHist->Fill(vecDrift);
74235403 716
dde68d36 717 name=shortName;
718 name+="ALL";
719 name.ToUpper();
720 curHist=(THnSparseF*)fArrayDz->FindObject(name);
74235403 721 if(!curHist){
dde68d36 722 curHist=new THnSparseF(name,"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
723 fArrayDz->AddLast(curHist);
74235403 724 }
dde68d36 725// curHist=(THnSparseF*)(fMapDz->GetValue("all"));
726// if(!curHist){
727// curHist=new THnSparseF("all","HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
728// fMapDz->Add(new TObjString("all"),curHist);
729// }
730 curHist->Fill(vecDrift);
74235403 731 }
732 }
d3ce44cb 733 TTreeSRedirector *cstream = GetDebugStreamer();
734 if (fStreamLevel>0){
735 if (cstream){
736 (*cstream)<<"trackInfo"<<
737 "tr0.="<<track0<<
738 "tr1.="<<track1<<
739 "p0.="<<&param0<<
740 "p1.="<<&param1<<
cc65e4f5 741 "nAC="<<nAC<<
742 "nA0="<<nA0<<
743 "nA1="<<nA1<<
744 "nC0="<<nC0<<
745 "nC1="<<nC1<<
d3ce44cb 746 "isPair="<<isPair<<
747 "isCross="<<isCross<<
dde68d36 748 "isSame="<<isSame<<
d3ce44cb 749 "fDz="<<fDz<<
750 "fRun="<<fRun<<
751 "fTime="<<fTime<<
752 "\n";
753 }
754 }
c74c5f6c 755 } // end 2nd order loop
756 } // end 1st order loop
74235403 757
2be25cc9 758 if (fStreamLevel>0){
759 TTreeSRedirector *cstream = GetDebugStreamer();
760 if (cstream){
2be25cc9 761 (*cstream)<<"timeInfo"<<
762 "run="<<fRun<< // run number
763 "event="<<fEvent<< // event number
764 "time="<<fTime<< // time stamp of event
765 "trigger="<<fTrigger<< // trigger
766 "mag="<<fMagF<< // magnetic field
767 // Environment values
2be25cc9 768 //
769 // accumulated values
770 //
771 "fDz="<<fDz<< //! current delta z
2be25cc9 772 "trigger="<<event->GetFiredTriggerClasses()<<
773 "\n";
774 }
775 }
a390f11f 776 if (GetDebugLevel()>20) printf("Trigger: %s\n",event->GetFiredTriggerClasses().Data());
c74c5f6c 777}
778
70036ef3 779void AliTPCcalibTime::ProcessBeam(const AliESDEvent *const event){
780 //
781 //
782 //
783 const Int_t kMinClusters =80;
b1fea14f 784 const Int_t kMinTracks =2; // minimal number of tracks to define the vertex
785 const Int_t kMinTracksVertex=30; // minimal number of tracks to define the cumulative vertex
70036ef3 786 const Double_t kMaxTgl =1.2; // maximal Tgl (z angle)
b1fea14f 787 const Double_t kMinPt =0.2; // minimal pt
788 const Double_t kMaxD0 =5.; // cut on distance to the primary vertex first guess
70036ef3 789 const Double_t kMaxZ0 =20;
b1fea14f 790 const Double_t kMaxD =2.5; // cut on distance to the primary vertex
791 const Double_t kMaxZ =4; // maximal z distance between tracks form the same side
792 const Double_t kMaxChi2 =15; // maximal chi2 of the TPCvertex
793 const Double_t kCumulCovarXY=0.003; //increase the error of cumul vertex 30 microns profile
794 const Double_t kCumulCovarZ=250.; //increase the error of cumul vertex
795 const Double_t kMaxDvertex = 1.0; // cut to accept the vertex;
796 //
797 Int_t flags=0;
798 const Int_t kBuffSize=100;
799 static Double_t deltaZ[kBuffSize]={0};
800 static Int_t counterZ=0;
801 static AliKFVertex cumulVertexA, cumulVertexC, cumulVertexAC; // cumulative vertex
802 AliKFVertex vertexA, vertexC;
70036ef3 803
804 Float_t dca0[2]={0,0};
805 Double_t dcaVertex[2]={0,0};
70036ef3 806 Int_t ntracks=event->GetNumberOfTracks();
807 if (ntracks==0) return;
70036ef3 808 //
809 AliESDfriend *esdFriend=(AliESDfriend*)(((AliESDEvent*)event)->FindListObject("AliESDfriend"));
810 //
811 // Divide tracks to A and C side tracks - using the cluster indexes
812 TObjArray tracksA(ntracks);
813 TObjArray tracksC(ntracks);
6ba68367 814 //
70036ef3 815 AliESDVertex *vertexSPD = (AliESDVertex *)event->GetPrimaryVertexSPD();
816 AliESDVertex *vertex = (AliESDVertex *)event->GetPrimaryVertex();
817 AliESDVertex *vertexTracks = (AliESDVertex *)event->GetPrimaryVertexTracks();
818 Double_t vertexZA[10000], vertexZC[10000];
6ba68367 819 //
70036ef3 820 Int_t ntracksA= 0;
821 Int_t ntracksC= 0;
822 //
823 for (Int_t itrack=0;itrack<ntracks;itrack++) {
824 AliESDtrack *track = event->GetTrack(itrack);
825 AliESDfriendTrack *friendTrack = esdFriend->GetTrack(itrack);
826 if (!friendTrack) continue;
827 if (TMath::Abs(track->GetTgl())>kMaxTgl) continue;
828 if (TMath::Abs(track->Pt())<kMinPt) continue;
829 const AliExternalTrackParam * trackIn = track->GetInnerParam();
830 TObject *calibObject=0;
831 AliTPCseed *seed = 0;
832 Int_t nA=0, nC=0;
833 for (Int_t l=0;(calibObject=friendTrack->GetCalibObject(l));++l) if ((seed=dynamic_cast<AliTPCseed*>(calibObject))) break;
834 if (seed) {
835 for (Int_t irow=159;irow>0;irow--) {
836 AliTPCclusterMI *cl=seed->GetClusterPointer(irow);
837 if (!cl) continue;
838 if ((cl->GetDetector()%36)<18) nA++;
839 if ((cl->GetDetector()%36)>=18) nC++;
840 }
841 if ((nA>kMinClusters || nC>kMinClusters) && (nA*nC==0) ){
842 track->GetImpactParameters(dca0[0],dca0[1]);
843 if (TMath::Abs(dca0[0])>kMaxD0) continue;
844 if (TMath::Abs(dca0[1])>kMaxZ0) continue;
845 AliExternalTrackParam pTPCvertex(*trackIn);
846 if (!AliTracker::PropagateTrackToBxByBz(&pTPCvertex,4.+4.*TMath::Abs(dca0[0]),0.1,2,kTRUE)) continue;
847 pTPCvertex.PropagateToDCA(vertex,AliTracker::GetBz(), kMaxD, dcaVertex,0);
848 if (TMath::Abs(dcaVertex[0])>kMaxD) continue;
849 if (nA>kMinClusters &&nC==0) { tracksA.AddLast(pTPCvertex.Clone()); vertexZA[ntracksA++] = pTPCvertex.GetZ();}
850 if (nC>kMinClusters &&nA==0) {tracksC.AddLast(pTPCvertex.Clone()); vertexZC[ntracksC++] = pTPCvertex.GetZ();}
851 }
852 }
853 }
b1fea14f 854 Double_t medianZA=TMath::Median(ntracksA, vertexZA); // tracks median
855 Double_t medianZC=TMath::Median(ntracksC, vertexZC); // tracks median
70036ef3 856 //
857 ntracksA= tracksA.GetEntriesFast();
858 ntracksC= tracksC.GetEntriesFast();
859 if (ntracksA>kMinTracks && ntracksC>kMinTracks){
b1fea14f 860 deltaZ[counterZ%kBuffSize]=medianZA-medianZC;
70036ef3 861 counterZ+=1;
b1fea14f 862 Double_t medianDelta=(counterZ>=kBuffSize)? TMath::Median(kBuffSize, deltaZ): TMath::Median(counterZ, deltaZ);
70036ef3 863 if (TMath::Abs(medianDelta-(medianZA-medianZC))>kMaxZ) flags+=16;
864 // increse the error of cumulative vertex at the beginning of event
865 cumulVertexA.Covariance(0,0)+=kCumulCovarXY*kCumulCovarXY;
866 cumulVertexA.Covariance(1,1)+=kCumulCovarXY*kCumulCovarXY;
867 cumulVertexA.Covariance(2,2)+=kCumulCovarZ*kCumulCovarZ;
868 cumulVertexC.Covariance(0,0)+=kCumulCovarXY*kCumulCovarXY;
869 cumulVertexC.Covariance(1,1)+=kCumulCovarXY*kCumulCovarXY;
870 cumulVertexC.Covariance(2,2)+=kCumulCovarZ*kCumulCovarZ;
871 cumulVertexAC.Covariance(0,0)+=kCumulCovarXY*kCumulCovarXY;
872 cumulVertexAC.Covariance(1,1)+=kCumulCovarXY*kCumulCovarXY;
873 cumulVertexAC.Covariance(2,2)+=kCumulCovarZ*kCumulCovarZ;
874 //
875 for (Int_t iA=0; iA<ntracksA; iA++){
876 if (flags!=0) continue;
877 AliExternalTrackParam *aliTrack = (AliExternalTrackParam *)tracksA.At(iA);
878 if (TMath::Abs(aliTrack->GetZ()-medianZA)>kMaxZ) continue;
879 AliKFParticle part(*aliTrack,211);
880 vertexA+=part;
70036ef3 881 }
882 for (Int_t iC=0; iC<ntracksC; iC++){
883 if (flags!=0) continue;
884 AliExternalTrackParam *aliTrack = (AliExternalTrackParam *)tracksC.At(iC);
885 if (TMath::Abs(aliTrack->GetZ()-medianZC)>kMaxZ) continue;
886 AliKFParticle part(*aliTrack,211);
887 vertexC+=part;
70036ef3 888 }
b1fea14f 889 //
70036ef3 890 if (vertexA.GetNDF()<kMinTracks) flags+=32;
891 if (vertexC.GetNDF()<kMinTracks) flags+=32;
892 if (TMath::Abs(vertexA.Z()-medianZA)>kMaxZ) flags+=1; //apply cuts
893 if (TMath::Abs(vertexC.Z()-medianZC)>kMaxZ) flags+=2;
894 if (TMath::Abs(vertexA.GetChi2()/vertexA.GetNDF()+vertexC.GetChi2()/vertexC.GetNDF())> kMaxChi2) flags+=4;
b1fea14f 895 //
896 if (flags==0){
897 for (Int_t iA=0; iA<ntracksA; iA++){
898 if (flags!=0) continue;
899 AliExternalTrackParam *aliTrack = (AliExternalTrackParam *)tracksA.At(iA);
900 if (TMath::Abs(aliTrack->GetZ()-medianZA)>kMaxZ) continue;
901 AliKFParticle part(*aliTrack,211);
902 cumulVertexA+=part;
903 cumulVertexAC+=part;
904 }
905 for (Int_t iC=0; iC<ntracksC; iC++){
906 if (flags!=0) continue;
907 AliExternalTrackParam *aliTrack = (AliExternalTrackParam *)tracksC.At(iC);
908 if (TMath::Abs(aliTrack->GetZ()-medianZC)>kMaxZ) continue;
909 AliKFParticle part(*aliTrack,211);
910 cumulVertexC+=part;
911 cumulVertexAC+=part;
912 }
70036ef3 913 //
b1fea14f 914 if (TMath::Abs(cumulVertexA.X()-vertexA.X())>kMaxDvertex) flags+=64;
915 if (TMath::Abs(cumulVertexA.Y()-vertexA.Y())>kMaxDvertex) flags+=64;
916 if (TMath::Abs(cumulVertexA.Z()-vertexA.Z())>kMaxDvertex) flags+=64;
70036ef3 917 //
b1fea14f 918 if (TMath::Abs(cumulVertexC.X()-vertexC.X())>kMaxDvertex) flags+=64;
919 if (TMath::Abs(cumulVertexC.Y()-vertexC.Y())>kMaxDvertex) flags+=64;
920 if (TMath::Abs(cumulVertexC.Z()-vertexC.Z())>kMaxDvertex) flags+=64;
921
922
923 if ( flags==0 && cumulVertexC.GetNDF()>kMinTracksVertex&&cumulVertexA.GetNDF()>kMinTracksVertex){
924 Double_t cont[2]={0,fTime};
925 //
926 cont[0]= cumulVertexA.X();
927 fTPCVertex[0]->Fill(cont);
928 cont[0]= cumulVertexC.X();
929 fTPCVertex[1]->Fill(cont);
930 cont[0]= 0.5*(cumulVertexA.X()-cumulVertexC.X());
931 fTPCVertex[2]->Fill(cont);
932 cont[0]= 0.5*(cumulVertexA.X()+cumulVertexC.X())-vertexSPD->GetX();
933 fTPCVertex[3]->Fill(cont);
934 //
935 cont[0]= cumulVertexA.Y();
936 fTPCVertex[4]->Fill(cont);
937 cont[0]= cumulVertexC.Y();
938 fTPCVertex[5]->Fill(cont);
939 cont[0]= 0.5*(cumulVertexA.Y()-cumulVertexC.Y());
940 fTPCVertex[6]->Fill(cont);
941 cont[0]= 0.5*(cumulVertexA.Y()+cumulVertexC.Y())-vertexSPD->GetY();
942 fTPCVertex[7]->Fill(cont);
943 //
944 //
945 cont[0]= 0.5*(cumulVertexA.Z()+cumulVertexC.Z());
946 fTPCVertex[8]->Fill(cont);
947 cont[0]= 0.5*(cumulVertexA.Z()-cumulVertexC.Z());
948 fTPCVertex[9]->Fill(cont);
949 cont[0]= 0.5*(cumulVertexA.Z()-cumulVertexC.Z());
950 fTPCVertex[10]->Fill(cont);
951 cont[0]= 0.5*(cumulVertexA.Z()+cumulVertexC.Z())-vertexSPD->GetZ();
952 fTPCVertex[11]->Fill(cont);
953 //
954 Double_t correl[2]={0,0};
955 //
956 correl[0]=cumulVertexC.Z();
957 correl[1]=cumulVertexA.Z();
958 fTPCVertexCorrelation[0]->Fill(correl); // fill A side :TPC
959 correl[0]=cumulVertexA.Z();
960 correl[1]=cumulVertexC.Z();
961 fTPCVertexCorrelation[1]->Fill(correl); // fill C side :TPC
962 //
963 correl[0]=vertexSPD->GetZ();
964 correl[1]=cumulVertexA.Z()-correl[0];
965 fTPCVertexCorrelation[2]->Fill(correl); // fill A side :ITS
966 correl[1]=cumulVertexC.Z()-correl[0];
967 fTPCVertexCorrelation[3]->Fill(correl); // fill C side :ITS
968 correl[1]=0.5*(cumulVertexA.Z()+cumulVertexC.Z())-correl[0];
969 fTPCVertexCorrelation[4]->Fill(correl); // fill C side :ITS
970 }
971 }
70036ef3 972 TTreeSRedirector *cstream = GetDebugStreamer();
973 if (cstream){
974 /*
975 TCut cutChi2= "sqrt(vA.fChi2/vA.fNDF+vC.fChi2/vC.fNDF)<10"; // chi2 Cut e.g 10
976 TCut cutXY= "sqrt((vA.fP[0]-vC.fP[0])^2+(vA.fP[0]-vC.fP[1])^2)<5"; // vertex Cut
977 TCut cutZ= "abs(vA.fP[2]-mZA)<3&&abs(vC.fP[2]-mZC)<5"; // vertex Cut
978 tree->Draw("sqrt(vA.fChi2/vA.fNDF)","sqrt(vA.fChi2/vA.fNDF)<100","")
979
980 */
660f0543 981 //vertexA.Print();
982 //vertexC.Print();
70036ef3 983 (*cstream)<<"vertexTPC"<<
984 "flags="<<flags<< // rejection flags
985 "vSPD.="<<vertexSPD<< // SPD vertex
986 "vT.="<<vertexTracks<< // track vertex
987 "v.="<<vertex<< // esd vertex
988 "mZA="<<medianZA<< // median Z position at vertex A side
989 "mZC="<<medianZC<< // median Z position at vertex C side
990 "mDelta="<<medianDelta<< // median delta A side -C side
991 "counter="<<counterZ<< // counter Z
992 //
993 "vA.="<<&vertexA<< // vertex A side
994 "vC.="<<&vertexC<< // vertex C side
995 "cvA.="<<&cumulVertexA<< // cumulative vertex A side
996 "cvC.="<<&cumulVertexC<< // cumulative vertex C side
997 "cvAC.="<<&cumulVertexAC<< // cumulative vertex A+C side
998 "nA="<<ntracksA<< // contributors
999 "nC="<<ntracksC<< // contributors
1000 "\n";
1001 }
1002 }
1003 tracksA.Delete();
1004 tracksC.Delete();
dde68d36 1005}
1006
6ba68367 1007void AliTPCcalibTime::Analyze(){
1008 //
1009 // Special macro to analyze result of calibration and extract calibration entries
1010 // Not yet ported to the Analyze function yet
1011 //
1012}
74235403 1013
2811495d 1014THnSparse* AliTPCcalibTime::GetHistoDrift(const char* name) const
1015{
6ba68367 1016 //
1017 // Get histogram for given trigger mask
1018 //
dde68d36 1019 TIterator* iterator = fArrayDz->MakeIterator();
1020 iterator->Reset();
1021 TString newName=name;
1022 newName.ToUpper();
1023 THnSparse* newHist=new THnSparseF(newName,"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
1024 THnSparse* addHist=NULL;
1025 while((addHist=(THnSparseF*)iterator->Next())){
1026 if(!addHist) continue;
1027 TString histName=addHist->GetName();
1028 if(!histName.Contains(newName)) continue;
1029 addHist->Print();
1030 newHist->Add(addHist);
74235403 1031 }
dde68d36 1032 return newHist;
74235403 1033}
1034
2811495d 1035TObjArray* AliTPCcalibTime::GetHistoDrift() const
1036{
6ba68367 1037 //
1038 // return array of histograms
1039 //
dde68d36 1040 return fArrayDz;
74235403 1041}
1042
1043TGraphErrors* AliTPCcalibTime::GetGraphDrift(const char* name){
6ba68367 1044 //
1045 // Make a drift velocity (delta Z) graph
1046 //
dde68d36 1047 THnSparse* histoDrift=GetHistoDrift(name);
1048 TGraphErrors* graphDrift=NULL;
1049 if(histoDrift){
1050 graphDrift=FitSlices(histoDrift,2,0,400,100,0.05,0.95, kTRUE);
1051 TString end=histoDrift->GetName();
1052 Int_t pos=end.Index("_");
1053 end=end(pos,end.Capacity()-pos);
1054 TString graphName=graphDrift->ClassName();
1055 graphName+=end;
1056 graphName.ToUpper();
1057 graphDrift->SetName(graphName);
74235403 1058 }
1059 return graphDrift;
1060}
1061
dde68d36 1062TObjArray* AliTPCcalibTime::GetGraphDrift(){
6ba68367 1063 //
1064 // make a array of drift graphs
1065 //
dde68d36 1066 TObjArray* arrayGraphDrift=new TObjArray();
1067 TIterator* iterator=fArrayDz->MakeIterator();
74235403 1068 iterator->Reset();
dde68d36 1069 THnSparse* addHist=NULL;
1070 while((addHist=(THnSparseF*)iterator->Next())) arrayGraphDrift->AddLast(GetGraphDrift(addHist->GetName()));
1071 return arrayGraphDrift;
74235403 1072}
1073
dde68d36 1074AliSplineFit* AliTPCcalibTime::GetFitDrift(const char* name){
6ba68367 1075 //
1076 // Make a fit AliSplinefit of drift velocity
1077 //
d3ce44cb 1078 TGraph* graphDrift=GetGraphDrift(name);
dde68d36 1079 AliSplineFit* fitDrift=NULL;
74235403 1080 if(graphDrift && graphDrift->GetN()){
dde68d36 1081 fitDrift=new AliSplineFit();
1082 fitDrift->SetGraph(graphDrift);
1083 fitDrift->SetMinPoints(graphDrift->GetN()+1);
1084 fitDrift->InitKnots(graphDrift,2,0,0.001);
1085 fitDrift->SplineFit(0);
1086 TString end=graphDrift->GetName();
1087 Int_t pos=end.Index("_");
1088 end=end(pos,end.Capacity()-pos);
1089 TString fitName=fitDrift->ClassName();
1090 fitName+=end;
1091 fitName.ToUpper();
1092 //fitDrift->SetName(fitName);
74235403 1093 delete graphDrift;
dde68d36 1094 graphDrift=NULL;
74235403 1095 }
1096 return fitDrift;
1097}
1098
74235403 1099
2811495d 1100Long64_t AliTPCcalibTime::Merge(TCollection *const li) {
6ba68367 1101 //
1102 // Object specific merging procedure
1103 //
c74c5f6c 1104 TIterator* iter = li->MakeIterator();
1105 AliTPCcalibTime* cal = 0;
660f0543 1106 //
c74c5f6c 1107 while ((cal = (AliTPCcalibTime*)iter->Next())) {
1108 if (!cal->InheritsFrom(AliTPCcalibTime::Class())) {
1109 Error("Merge","Attempt to add object of class %s to a %s", cal->ClassName(), this->ClassName());
1110 return -1;
1111 }
2be25cc9 1112 for (Int_t imeas=0; imeas<3; imeas++){
1113 if (cal->GetHistVdriftLaserA(imeas) && cal->GetHistVdriftLaserA(imeas)){
1114 fHistVdriftLaserA[imeas]->Add(cal->GetHistVdriftLaserA(imeas));
1115 fHistVdriftLaserC[imeas]->Add(cal->GetHistVdriftLaserC(imeas));
1116 }
1117 }
9112627b 1118 //
b1fea14f 1119 if (fTPCVertexCorrelation && cal->fTPCVertexCorrelation){
1120 for (Int_t imeas=0; imeas<5; imeas++){
1121 if (fTPCVertexCorrelation[imeas] && cal->fTPCVertexCorrelation[imeas]) fTPCVertexCorrelation[imeas]->Add(cal->fTPCVertexCorrelation[imeas]);
1122 }
1123 }
1124
70036ef3 1125 if (fTPCVertex && cal->fTPCVertex)
1126 for (Int_t imeas=0; imeas<12; imeas++){
660f0543 1127 if (fTPCVertex[imeas] && cal->fTPCVertex[imeas]) fTPCVertex[imeas]->Add(cal->fTPCVertex[imeas]);
70036ef3 1128 }
1129
660f0543 1130 if (fMemoryMode>0) for (Int_t imeas=0; imeas<5; imeas++){
1131 if (fMemoryMode>1){
1132 if ( cal->GetResHistoTPCCE(imeas) && cal->GetResHistoTPCCE(imeas)){
1133 fResHistoTPCCE[imeas]->Add(cal->fResHistoTPCCE[imeas]);
1134 }else{
1135 fResHistoTPCCE[imeas]=(THnSparse*)cal->fResHistoTPCCE[imeas]->Clone();
1136 }
b9908d0b 1137 }
660f0543 1138 //
1139 if ((fMemoryMode>0) &&cal->GetResHistoTPCITS(imeas) && cal->GetResHistoTPCITS(imeas)){
1140 if (fMemoryMode>1 || (imeas%2)==1) fResHistoTPCITS[imeas]->Add(cal->fResHistoTPCITS[imeas]);
1141 if (fMemoryMode>1) fResHistoTPCvertex[imeas]->Add(cal->fResHistoTPCvertex[imeas]);
33fc6b9e 1142 }
660f0543 1143 //
1144 if ((fMemoryMode>1) && cal->fResHistoTPCTRD[imeas]){
33fc6b9e 1145 if (fResHistoTPCTRD[imeas])
1146 fResHistoTPCTRD[imeas]->Add(cal->fResHistoTPCTRD[imeas]);
1147 else
1148 fResHistoTPCTRD[imeas]=(THnSparse*)cal->fResHistoTPCTRD[imeas]->Clone();
1149 }
660f0543 1150 //
1151 if ((fMemoryMode>1) && cal->fResHistoTPCTOF[imeas]){
33fc6b9e 1152 if (fResHistoTPCTOF[imeas])
1153 fResHistoTPCTOF[imeas]->Add(cal->fResHistoTPCTOF[imeas]);
1154 else
1155 fResHistoTPCTOF[imeas]=(THnSparse*)cal->fResHistoTPCTOF[imeas]->Clone();
9112627b 1156 }
660f0543 1157 //
97d3fea0 1158 if (cal->fArrayLaserA){
1159 fArrayLaserA->Expand(fArrayLaserA->GetEntriesFast()+cal->fArrayLaserA->GetEntriesFast());
1160 fArrayLaserC->Expand(fArrayLaserC->GetEntriesFast()+cal->fArrayLaserC->GetEntriesFast());
1161 for (Int_t ical=0; ical<cal->fArrayLaserA->GetEntriesFast(); ical++){
1162 if (cal->fArrayLaserA->UncheckedAt(ical)) fArrayLaserA->AddLast(cal->fArrayLaserA->UncheckedAt(ical)->Clone());
1163 if (cal->fArrayLaserC->UncheckedAt(ical)) fArrayLaserC->AddLast(cal->fArrayLaserC->UncheckedAt(ical)->Clone());
1164 }
1165 }
1166
9112627b 1167 }
dde68d36 1168 TObjArray* addArray=cal->GetHistoDrift();
1169 if(!addArray) return 0;
1170 TIterator* iterator = addArray->MakeIterator();
2be25cc9 1171 iterator->Reset();
dde68d36 1172 THnSparse* addHist=NULL;
660f0543 1173 if ((fMemoryMode>1)) while((addHist=(THnSparseF*)iterator->Next())){
dde68d36 1174 if(!addHist) continue;
2be25cc9 1175 addHist->Print();
dde68d36 1176 THnSparse* localHist=(THnSparseF*)fArrayDz->FindObject(addHist->GetName());
2be25cc9 1177 if(!localHist){
1178 localHist=new THnSparseF(addHist->GetName(),"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
dde68d36 1179 fArrayDz->AddLast(localHist);
2be25cc9 1180 }
1181 localHist->Add(addHist);
1182 }
391ffdb2 1183
d3ce44cb 1184 for(Int_t i=0;i<10;i++) if (cal->GetCosmiMatchingHisto(i)) fCosmiMatchingHisto[i]->Add(cal->GetCosmiMatchingHisto(i));
3e55050f 1185 //
1186 // Merge alignment
1187 //
1188 for (Int_t itype=0; itype<3; itype++){
1189 //
1190 //
1191 TObjArray *arr0= 0;
1192 TObjArray *arr1= 0;
1193 if (itype==0) {arr0=fAlignITSTPC; arr1=cal->fAlignITSTPC;}
1194 if (itype==1) {arr0=fAlignTRDTPC; arr1=cal->fAlignTRDTPC;}
1195 if (itype==2) {arr0=fAlignTOFTPC; arr1=cal->fAlignTOFTPC;}
1196 if (!arr1) continue;
1197 if (!arr0) arr0=new TObjArray(arr1->GetEntriesFast());
1198 if (arr1->GetEntriesFast()>arr0->GetEntriesFast()){
1199 arr0->Expand(arr1->GetEntriesFast());
1200 }
1201 for (Int_t i=0;i<arr1->GetEntriesFast(); i++){
1202 AliRelAlignerKalman *kalman1 = (AliRelAlignerKalman *)arr1->UncheckedAt(i);
1203 AliRelAlignerKalman *kalman0 = (AliRelAlignerKalman *)arr0->UncheckedAt(i);
1204 if (!kalman1) continue;
1205 if (!kalman0) {arr0->AddAt(new AliRelAlignerKalman(*kalman1),i); continue;}
1206 kalman0->SetRejectOutliers(kFALSE);
1207 kalman0->Merge(kalman1);
1208 }
1209 }
1210
c74c5f6c 1211 }
c74c5f6c 1212 return 0;
c74c5f6c 1213}
1214
c74c5f6c 1215Bool_t AliTPCcalibTime::IsPair(AliExternalTrackParam *tr0, AliExternalTrackParam *tr1){
c74c5f6c 1216 /*
1217 // 0. Same direction - OPOSITE - cutDir +cutT
1218 TCut cutDir("cutDir","dir<-0.99")
1219 // 1.
1220 TCut cutT("cutT","abs(Tr1.fP[3]+Tr0.fP[3])<0.03")
1221 //
1222 // 2. The same rphi
1223 TCut cutD("cutD","abs(Tr0.fP[0]+Tr1.fP[0])<5")
1224 //
c74c5f6c 1225 TCut cutPt("cutPt","abs(Tr1.fP[4]+Tr0.fP[4])<1&&abs(Tr0.fP[4])+abs(Tr1.fP[4])<10");
1226 // 1/Pt diff cut
1227 */
1228 const Double_t *p0 = tr0->GetParameter();
1229 const Double_t *p1 = tr1->GetParameter();
74235403 1230 fCosmiMatchingHisto[0]->Fill(p0[0]+p1[0]);
1231 fCosmiMatchingHisto[1]->Fill(p0[1]-p1[1]);
d3ce44cb 1232 fCosmiMatchingHisto[2]->Fill(tr1->GetAlpha()-tr0->GetAlpha()+TMath::Pi());
74235403 1233 fCosmiMatchingHisto[3]->Fill(p0[3]+p1[3]);
1234 fCosmiMatchingHisto[4]->Fill(p0[4]+p1[4]);
1235
c74c5f6c 1236 if (TMath::Abs(p0[3]+p1[3])>fCutTheta) return kFALSE;
1237 if (TMath::Abs(p0[0]+p1[0])>fCutMaxD) return kFALSE;
da6c0bc9 1238 if (TMath::Abs(p0[1]-p1[1])>fCutMaxDz) return kFALSE;
c74c5f6c 1239 Double_t d0[3], d1[3];
1240 tr0->GetDirection(d0);
1241 tr1->GetDirection(d1);
1242 if (d0[0]*d1[0] + d0[1]*d1[1] + d0[2]*d1[2] >fCutMinDir) return kFALSE;
74235403 1243
d3ce44cb 1244 fCosmiMatchingHisto[5]->Fill(p0[0]+p1[0]);
1245 fCosmiMatchingHisto[6]->Fill(p0[1]-p1[1]);
1246 fCosmiMatchingHisto[7]->Fill(tr1->GetAlpha()-tr0->GetAlpha()+TMath::Pi());
1247 fCosmiMatchingHisto[8]->Fill(p0[3]+p1[3]);
1248 fCosmiMatchingHisto[9]->Fill(p0[4]+p1[4]);
1249
c74c5f6c 1250 return kTRUE;
1251}
2811495d 1252Bool_t AliTPCcalibTime::IsCross(AliESDtrack *const tr0, AliESDtrack *const tr1){
cc65e4f5 1253 //
1254 // check if the cosmic pair of tracks crossed A/C side
1255 //
1256 Bool_t result= tr0->GetOuterParam()->GetZ()*tr1->GetOuterParam()->GetZ()<0;
1257 if (result==kFALSE) return result;
1258 result=kTRUE;
1259 return result;
d3ce44cb 1260}
1261
2811495d 1262Bool_t AliTPCcalibTime::IsSame(AliESDtrack *const tr0, AliESDtrack *const tr1){
3e55050f 1263 //
1264 // track crossing the CE
1265 // 0. minimal number of clusters
1266 // 1. Same sector +-1
1267 // 2. Inner and outer track param on opposite side
1268 // 3. Outer and inner track parameter close each to other
1269 // 3.
1270 Bool_t result=kTRUE;
1271 //
1272 // inner and outer on opposite sides in z
1273 //
1274 const Int_t knclCut0 = 30;
1275 const Double_t kalphaCut = 0.4;
1276 //
1277 // 0. minimal number of clusters
1278 //
1279 if (tr0->GetTPCNcls()<knclCut0) return kFALSE;
1280 if (tr1->GetTPCNcls()<knclCut0) return kFALSE;
1281 //
1282 // 1. alpha cut - sector+-1
1283 //
1284 if (TMath::Abs(tr0->GetOuterParam()->GetAlpha()-tr1->GetOuterParam()->GetAlpha())>kalphaCut) return kFALSE;
1285 //
1286 // 2. Z crossing
1287 //
1288 if (tr0->GetOuterParam()->GetZ()*tr0->GetInnerParam()->GetZ()>0) result&=kFALSE;
1289 if (tr1->GetOuterParam()->GetZ()*tr1->GetInnerParam()->GetZ()>0) result&=kFALSE;
1290 if (result==kFALSE){
1291 return result;
1292 }
1293 //
1294 //
1295 const Double_t *p0I = tr0->GetInnerParam()->GetParameter();
1296 const Double_t *p1I = tr1->GetInnerParam()->GetParameter();
1297 const Double_t *p0O = tr0->GetOuterParam()->GetParameter();
1298 const Double_t *p1O = tr1->GetOuterParam()->GetParameter();
1299 //
1300 if (TMath::Abs(p0I[0]-p1I[0])>fCutMaxD) result&=kFALSE;
1301 if (TMath::Abs(p0I[1]-p1I[1])>fCutMaxDz) result&=kFALSE;
1302 if (TMath::Abs(p0I[2]-p1I[2])>fCutTheta) result&=kFALSE;
1303 if (TMath::Abs(p0I[3]-p1I[3])>fCutTheta) result&=kFALSE;
1304 if (TMath::Abs(p0O[0]-p1O[0])>fCutMaxD) result&=kFALSE;
1305 if (TMath::Abs(p0O[1]-p1O[1])>fCutMaxDz) result&=kFALSE;
1306 if (TMath::Abs(p0O[2]-p1O[2])>fCutTheta) result&=kFALSE;
1307 if (TMath::Abs(p0O[3]-p1O[3])>fCutTheta) result&=kFALSE;
1308 if (result==kTRUE){
1309 result=kTRUE; // just to put break point here
1310 }
1311 return result;
dde68d36 1312}
1313
31aa7c5c 1314
2811495d 1315void AliTPCcalibTime::ProcessSame(AliESDtrack *const track, AliESDfriendTrack *const friendTrack, const AliESDEvent *const event){
3e55050f 1316 //
1317 // Process TPC tracks crossing CE
1318 //
1319 // 0. Select only track crossing the CE
1320 // 1. Cut on the track length
b9908d0b 1321 // 2. Refit the the track on A and C side separatelly
3e55050f 1322 // 3. Fill time histograms
1323 const Int_t kMinNcl=100;
1324 const Int_t kMinNclS=25; // minimul number of clusters on the sides
b9908d0b 1325 const Double_t pimass=TDatabasePDG::Instance()->GetParticle("pi+")->Mass();
1326 const Double_t kMaxDy=1; // maximal distance in y
1327 const Double_t kMaxDsnp=0.05; // maximal distance in snp
1328 const Double_t kMaxDtheta=0.05; // maximal distance in theta
1329
3e55050f 1330 if (!friendTrack->GetTPCOut()) return;
1331 //
1332 // 0. Select only track crossing the CE
1333 //
1334 if (track->GetInnerParam()->GetZ()*friendTrack->GetTPCOut()->GetZ()>0) return;
1335 //
1336 // 1. cut on track length
1337 //
1338 if (track->GetTPCNcls()<kMinNcl) return;
1339 //
1340 // 2. Refit track sepparatel on A and C side
1341 //
1342 TObject *calibObject;
1343 AliTPCseed *seed = 0;
1344 for (Int_t l=0;(calibObject=friendTrack->GetCalibObject(l));++l) {
1345 if ((seed=dynamic_cast<AliTPCseed*>(calibObject))) break;
1346 }
1347 if (!seed) return;
1348 //
1349 AliExternalTrackParam trackIn(*track->GetInnerParam());
1350 AliExternalTrackParam trackOut(*track->GetOuterParam());
1351 Double_t cov[3]={0.01,0.,0.01}; //use the same errors
1352 Double_t xyz[3]={0,0.,0.0};
1353 Double_t bz =0;
1354 Int_t nclIn=0,nclOut=0;
70036ef3 1355 trackIn.ResetCovariance(1000.);
1356 trackOut.ResetCovariance(1000.);
3e55050f 1357 //
1358 //2.a Refit inner
1359 //
b9908d0b 1360 Int_t sideIn=0;
3e55050f 1361 for (Int_t irow=0;irow<159;irow++) {
1362 AliTPCclusterMI *cl=seed->GetClusterPointer(irow);
1363 if (!cl) continue;
1364 if (cl->GetX()<80) continue;
b9908d0b 1365 if (sideIn==0){
1366 if (cl->GetDetector()%36<18) sideIn=1;
1367 if (cl->GetDetector()%36>=18) sideIn=-1;
1368 }
1369 if (sideIn== -1 && (cl->GetDetector()%36)<18) break;
1370 if (sideIn== 1 &&(cl->GetDetector()%36)>=18) break;
3e55050f 1371 Int_t sector = cl->GetDetector();
1372 Float_t dalpha = TMath::DegToRad()*(sector%18*20.+10.)-trackIn.GetAlpha();
1373 if (TMath::Abs(dalpha)>0.01){
1374 if (!trackIn.Rotate(TMath::DegToRad()*(sector%18*20.+10.))) break;
1375 }
1376 Double_t r[3]={cl->GetX(),cl->GetY(),cl->GetZ()};
1377 trackIn.GetXYZ(xyz);
1378 bz = AliTracker::GetBz(xyz);
b9908d0b 1379 AliTracker::PropagateTrackToBxByBz(&trackIn,r[0],1.,pimass,kFALSE);
3e55050f 1380 if (!trackIn.PropagateTo(r[0],bz)) break;
1381 nclIn++;
1382 trackIn.Update(&r[1],cov);
1383 }
1384 //
1385 //2.b Refit outer
b9908d0b 1386 //
1387 Int_t sideOut=0;
3e55050f 1388 for (Int_t irow=159;irow>0;irow--) {
1389 AliTPCclusterMI *cl=seed->GetClusterPointer(irow);
1390 if (!cl) continue;
1391 if (cl->GetX()<80) continue;
b9908d0b 1392 if (sideOut==0){
1393 if (cl->GetDetector()%36<18) sideOut=1;
1394 if (cl->GetDetector()%36>=18) sideOut=-1;
1395 if (sideIn==sideOut) break;
1396 }
1397 if (sideOut== -1 && (cl->GetDetector()%36)<18) break;
1398 if (sideOut== 1 &&(cl->GetDetector()%36)>=18) break;
1399 //
3e55050f 1400 Int_t sector = cl->GetDetector();
1401 Float_t dalpha = TMath::DegToRad()*(sector%18*20.+10.)-trackOut.GetAlpha();
1402 if (TMath::Abs(dalpha)>0.01){
1403 if (!trackOut.Rotate(TMath::DegToRad()*(sector%18*20.+10.))) break;
1404 }
1405 Double_t r[3]={cl->GetX(),cl->GetY(),cl->GetZ()};
1406 trackOut.GetXYZ(xyz);
1407 bz = AliTracker::GetBz(xyz);
b9908d0b 1408 AliTracker::PropagateTrackToBxByBz(&trackOut,r[0],1.,pimass,kFALSE);
3e55050f 1409 if (!trackOut.PropagateTo(r[0],bz)) break;
1410 nclOut++;
1411 trackOut.Update(&r[1],cov);
1412 }
1413 trackOut.Rotate(trackIn.GetAlpha());
1414 Double_t meanX = (trackIn.GetX()+trackOut.GetX())*0.5;
1415 trackIn.PropagateTo(meanX,bz);
1416 trackOut.PropagateTo(meanX,bz);
b9908d0b 1417 if (TMath::Abs(trackIn.GetY()-trackOut.GetY())>kMaxDy) return;
1418 if (TMath::Abs(trackIn.GetSnp()-trackOut.GetSnp())>kMaxDsnp) return;
1419 if (TMath::Abs(trackIn.GetTgl()-trackOut.GetTgl())>kMaxDtheta) return;
1420 if (TMath::Min(nclIn,nclOut)>kMinNclS){
1421 FillResHistoTPCCE(&trackIn,&trackOut);
1422 }
3e55050f 1423 TTreeSRedirector *cstream = GetDebugStreamer();
1424 if (cstream){
1425 TVectorD gxyz(3);
1426 trackIn.GetXYZ(gxyz.GetMatrixArray());
1427 TTimeStamp tstamp(fTime);
3e55050f 1428 (*cstream)<<"tpctpc"<<
1429 "run="<<fRun<< // run number
1430 "event="<<fEvent<< // event number
1431 "time="<<fTime<< // time stamp of event
1432 "trigger="<<fTrigger<< // trigger
1433 "mag="<<fMagF<< // magnetic field
3e55050f 1434 //
b9908d0b 1435 "sideIn="<<sideIn<< // side at inner part
1436 "sideOut="<<sideOut<< // side at puter part
3e55050f 1437 "xyz.="<<&gxyz<< // global position
1438 "tIn.="<<&trackIn<< // refitterd track in
1439 "tOut.="<<&trackOut<< // refitter track out
1440 "nclIn="<<nclIn<< //
1441 "nclOut="<<nclOut<< //
1442 "\n";
1443 }
1444 //
1445 // 3. Fill time histograms
1446 // Debug stremaer expression
1447 // chainTPCTPC->Draw("(tIn.fP[1]-tOut.fP[1])*sign(-tIn.fP[3]):tIn.fP[3]","min(nclIn,nclOut)>30","")
1448 if (TMath::Min(nclIn,nclOut)>kMinNclS){
1449 fDz = trackOut.GetZ()-trackIn.GetZ();
1450 if (trackOut.GetTgl()<0) fDz*=-1.;
1451 TTimeStamp tstamp(fTime);
1452 Double_t ptrelative0 = AliTPCcalibDB::GetPTRelative(tstamp,fRun,0);
1453 Double_t ptrelative1 = AliTPCcalibDB::GetPTRelative(tstamp,fRun,1);
1454 Double_t vecDrift[4]={fTime,(ptrelative0+ptrelative1)/2.0,fDz/500.0,event->GetRunNumber()};
1455 //
1456 // fill histograms per trigger class and itegrated
1457 //
1458 THnSparse* curHist=NULL;
1459 for (Int_t itype=0; itype<2; itype++){
1460 TString name="MEAN_VDRIFT_CROSS_";
1461 if (itype==0){
1462 name+=event->GetFiredTriggerClasses();
1463 name.ToUpper();
1464 }else{
1465 name+="ALL";
1466 }
1467 curHist=(THnSparseF*)fArrayDz->FindObject(name);
1468 if(!curHist){
1469 curHist=new THnSparseF(name,"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
1470 fArrayDz->AddLast(curHist);
1471 }
1472 curHist->Fill(vecDrift);
1473 }
1474 }
1475
1476}
817766d5 1477
2811495d 1478void AliTPCcalibTime::ProcessAlignITS(AliESDtrack *const track, AliESDfriendTrack *const friendTrack, const AliESDEvent *const event, AliESDfriend *const esdFriend){
817766d5 1479 //
3e55050f 1480 // Process track - Update TPC-ITS alignment
1481 // Updates:
1482 // 0. Apply standartd cuts
1483 // 1. Recalucluate the current statistic median/RMS
1484 // 2. Apply median+-rms cut
1485 // 3. Update kalman filter
1486 //
1487 const Int_t kMinTPC = 80; // minimal number of TPC cluster
1488 const Int_t kMinITS = 3; // minimal number of ITS cluster
1489 const Double_t kMinZ = 10; // maximal dz distance
b96c3aef 1490 const Double_t kMaxDy = 2.; // maximal dy distance
b1fea14f 1491 const Double_t kMaxAngle= 0.07; // maximal angular distance
3e55050f 1492 const Double_t kSigmaCut= 5; // maximal sigma distance to median
1493 const Double_t kVdErr = 0.1; // initial uncertainty of the vd correction
97d3fea0 1494 const Double_t kT0Err = 3.; // initial uncertainty of the T0 time
3e55050f 1495 const Double_t kVdYErr = 0.05; // initial uncertainty of the vd correction
1496 const Double_t kOutCut = 1.0; // outlyer cut in AliRelAlgnmentKalman
b96c3aef 1497 const Double_t kMinPt = 0.3; // minimal pt
b1fea14f 1498 const Double_t kMax1Pt=0.5; //maximal 1/pt distance
be67055b 1499 const Int_t kN=50; // deepnes of history
3e55050f 1500 static Int_t kglast=0;
1501 static Double_t* kgdP[4]={new Double_t[kN], new Double_t[kN], new Double_t[kN], new Double_t[kN]};
817766d5 1502 //
3e55050f 1503 // 0. Apply standard cuts
b1fea14f 1504 //
817766d5 1505 Int_t dummycl[1000];
817766d5 1506 if (track->GetTPCNcls()<kMinTPC) return; // minimal amount of clusters cut
b96c3aef 1507 if (!track->IsOn(AliESDtrack::kTPCrefit)) return;
817766d5 1508 if (!track->GetInnerParam()) return;
1509 if (!track->GetOuterParam()) return;
b842d904 1510 if (track->GetInnerParam()->Pt()<kMinPt) return;
817766d5 1511 // exclude crossing track
1512 if (track->GetOuterParam()->GetZ()*track->GetInnerParam()->GetZ()<0) return;
70036ef3 1513 if (TMath::Abs(track->GetInnerParam()->GetZ())<kMinZ/3.) return;
b96c3aef 1514 if (track->GetInnerParam()->GetX()>90) return;
817766d5 1515 //
1516 AliExternalTrackParam &pTPC=(AliExternalTrackParam &)(*(track->GetInnerParam()));
b1fea14f 1517 //
1518 AliExternalTrackParam pITS; // ITS standalone if possible
1519 AliExternalTrackParam pITS2; //TPC-ITS track
1520 if (friendTrack->GetITSOut()){
1521 pITS2=(*(friendTrack->GetITSOut())); //TPC-ITS track - snapshot ITS out
1522 pITS2.Rotate(pTPC.GetAlpha());
1523 AliTracker::PropagateTrackToBxByBz(&pITS2,pTPC.GetX(),0.1,0.1,kFALSE);
1524 }
be67055b 1525
b842d904 1526 AliESDfriendTrack *itsfriendTrack=0;
1527 //
1528 // try to find standalone ITS track corresponing to the TPC if possible
1529 //
1530 Bool_t hasAlone=kFALSE;
1531 Int_t ntracks=event->GetNumberOfTracks();
1532 for (Int_t i=0; i<ntracks; i++){
b1fea14f 1533 AliESDtrack * trackITS = event->GetTrack(i);
1534 if (!trackITS) continue;
1535 if (trackITS->GetITSclusters(dummycl)<kMinITS) continue; // minimal amount of clusters
6ba68367 1536 itsfriendTrack = esdFriend->GetTrack(i);
b842d904 1537 if (!itsfriendTrack) continue;
1538 if (!itsfriendTrack->GetITSOut()) continue;
b1fea14f 1539
1540 if (TMath::Abs(pTPC.GetTgl()-itsfriendTrack->GetITSOut()->GetTgl())> kMaxAngle) continue;
1541 if (TMath::Abs(pTPC.GetSigned1Pt()-itsfriendTrack->GetITSOut()->GetSigned1Pt())> kMax1Pt) continue;
b842d904 1542 pITS=(*(itsfriendTrack->GetITSOut()));
1543 //
1544 pITS.Rotate(pTPC.GetAlpha());
be67055b 1545 AliTracker::PropagateTrackToBxByBz(&pITS,pTPC.GetX(),0.1,0.1,kFALSE);
b1fea14f 1546 if (TMath::Abs(pTPC.GetY()-pITS.GetY())> kMaxDy) continue;
1547 if (TMath::Abs(pTPC.GetSnp()-pITS.GetSnp())> kMaxAngle) continue;
b842d904 1548 hasAlone=kTRUE;
1549 }
b1fea14f 1550 if (!hasAlone) {
1551 if (track->GetITSclusters(dummycl)<kMinITS) return;
1552 pITS=pITS2; // use combined track if it has ITS
1553 }
b842d904 1554 //
3e55050f 1555 if (TMath::Abs(pITS.GetY()-pTPC.GetY()) >kMaxDy) return;
1556 if (TMath::Abs(pITS.GetSnp()-pTPC.GetSnp())>kMaxAngle) return;
1557 if (TMath::Abs(pITS.GetTgl()-pTPC.GetTgl())>kMaxAngle) return;
1558 //
1559 // 1. Update median and RMS info
1560 //
b322e06a 1561 TVectorD vecDelta(5),vecMedian(5), vecRMS(5);
3e55050f 1562 TVectorD vecDeltaN(5);
1563 Double_t sign=(pITS.GetParameter()[1]>0)? 1.:-1.;
1564 vecDelta[4]=0;
1565 for (Int_t i=0;i<4;i++){
1566 vecDelta[i]=(pITS.GetParameter()[i]-pTPC.GetParameter()[i])*sign;
1567 kgdP[i][kglast%kN]=vecDelta[i];
1568 }
1569 kglast=(kglast+1);
1570 Int_t entries=(kglast<kN)?kglast:kN;
1571 for (Int_t i=0;i<4;i++){
1572 vecMedian[i] = TMath::Median(entries,kgdP[i]);
1573 vecRMS[i] = TMath::RMS(entries,kgdP[i]);
1574 vecDeltaN[i] = 0;
1575 if (vecRMS[i]>0.){
1576 vecDeltaN[i] = (vecDelta[i]-vecMedian[i])/vecRMS[i];
1577 vecDeltaN[4]+= TMath::Abs(vecDeltaN[i]); //sum of abs residuals
1578 }
1579 }
817766d5 1580 //
3e55050f 1581 // 2. Apply median+-rms cut
817766d5 1582 //
3e55050f 1583 if (kglast<3) return; //median and RMS to be defined
1584 if ( vecDeltaN[4]/4.>kSigmaCut) return;
1585 //
1586 // 3. Update alignment
817766d5 1587 //
97d3fea0 1588 Int_t htime = (fTime-fTimeKalmanBin/2)/fTimeKalmanBin; //time bins number
4486a91f 1589 if (fAlignITSTPC->GetEntriesFast()<htime){
817766d5 1590 fAlignITSTPC->Expand(htime*2+20);
1591 }
1592 AliRelAlignerKalman* align = (AliRelAlignerKalman*)fAlignITSTPC->At(htime);
1593 if (!align){
3e55050f 1594 // make Alignment object if doesn't exist
817766d5 1595 align=new AliRelAlignerKalman();
3e55050f 1596 align->SetRunNumber(fRun);
1597 (*align->GetStateCov())(6,6)=kVdErr*kVdErr;
97d3fea0 1598 (*align->GetStateCov())(7,7)=kT0Err*kT0Err;
3e55050f 1599 (*align->GetStateCov())(8,8)=kVdYErr*kVdYErr;
1600 align->SetOutRejSigma(kOutCut+kOutCut*kN);
1601 align->SetRejectOutliers(kFALSE);
1602
1603 align->SetTPCvd(AliTPCcalibDB::Instance()->GetParameters()->GetDriftV()/1000000.);
817766d5 1604 align->SetMagField(fMagF);
1605 fAlignITSTPC->AddAt(align,htime);
1606 }
817766d5 1607 align->AddTrackParams(&pITS,&pTPC);
5647625c 1608 Double_t averageTime = fTime;
1609 if (align->GetTimeStamp()>0&&align->GetNUpdates()>0){
97d3fea0 1610 averageTime=((Double_t(align->GetTimeStamp())*Double_t(align->GetNUpdates())+Double_t(fTime)))/(Double_t(align->GetNUpdates())+1.);
5647625c 1611 }
1612 align->SetTimeStamp(Int_t(averageTime));
1613
3e55050f 1614 align->SetRunNumber(fRun );
391ffdb2 1615 Float_t dca[2],cov[3];
1616 track->GetImpactParameters(dca,cov);
882f5c06 1617 if (TMath::Abs(dca[0])<kMaxDy){
391ffdb2 1618 FillResHistoTPCITS(&pTPC,&pITS);
1619 FillResHistoTPC(track);
1620 }
3e55050f 1621 //
1622 Int_t nupdates=align->GetNUpdates();
1623 align->SetOutRejSigma(kOutCut+kOutCut*kN/Double_t(nupdates));
1624 align->SetRejectOutliers(kFALSE);
817766d5 1625 TTreeSRedirector *cstream = GetDebugStreamer();
1626 if (cstream && align->GetState() && align->GetState()->GetNrows()>2 ){
817766d5 1627 TVectorD gpTPC(3), gdTPC(3);
1628 TVectorD gpITS(3), gdITS(3);
1629 pTPC.GetXYZ(gpTPC.GetMatrixArray());
1630 pTPC.GetDirection(gdTPC.GetMatrixArray());
1631 pITS.GetXYZ(gpITS.GetMatrixArray());
1632 pITS.GetDirection(gdITS.GetMatrixArray());
1633 (*cstream)<<"itstpc"<<
1634 "run="<<fRun<< // run number
1635 "event="<<fEvent<< // event number
1636 "time="<<fTime<< // time stamp of event
1637 "trigger="<<fTrigger<< // trigger
1638 "mag="<<fMagF<< // magnetic field
817766d5 1639 //
b842d904 1640 "hasAlone="<<hasAlone<< // has ITS standalone ?
1641 "track.="<<track<< // track info
3e55050f 1642 "nmed="<<kglast<< // number of entries to define median and RMS
1643 "vMed.="<<&vecMedian<< // median of deltas
1644 "vRMS.="<<&vecRMS<< // rms of deltas
1645 "vDelta.="<<&vecDelta<< // delta in respect to median
1646 "vDeltaN.="<<&vecDeltaN<< // normalized delta in respect to median
1647 "t.="<<track<< // ful track - find proper cuts
1648 "a.="<<align<< // current alignment
b842d904 1649 "pITS.="<<&pITS<< // track param ITS
1650 "pITS2.="<<&pITS2<< // track param ITS+TPC
3e55050f 1651 "pTPC.="<<&pTPC<< // track param TPC
1652 "gpTPC.="<<&gpTPC<< // global position TPC
1653 "gdTPC.="<<&gdTPC<< // global direction TPC
1654 "gpITS.="<<&gpITS<< // global position ITS
1655 "gdITS.="<<&gdITS<< // global position ITS
817766d5 1656 "\n";
1657 }
817766d5 1658}
3e55050f 1659
1660
1661
1662
2811495d 1663void AliTPCcalibTime::ProcessAlignTRD(AliESDtrack *const track, AliESDfriendTrack *const friendTrack){
0dac7b3a 1664 //
3e55050f 1665 // Process track - Update TPC-TRD alignment
1666 // Updates:
1667 // 0. Apply standartd cuts
1668 // 1. Recalucluate the current statistic median/RMS
1669 // 2. Apply median+-rms cut
1670 // 3. Update kalman filter
1671 //
1672 const Int_t kMinTPC = 80; // minimal number of TPC cluster
1673 const Int_t kMinTRD = 50; // minimal number of TRD cluster
1674 const Double_t kMinZ = 20; // maximal dz distance
9112627b 1675 const Double_t kMaxDy = 5.; // maximal dy distance
1676 const Double_t kMaxAngle= 0.1; // maximal angular distance
1677 const Double_t kSigmaCut= 10; // maximal sigma distance to median
3e55050f 1678 const Double_t kVdErr = 0.1; // initial uncertainty of the vd correction
97d3fea0 1679 const Double_t kT0Err = 3.; // initial uncertainty of the T0 time
3e55050f 1680 const Double_t kVdYErr = 0.05; // initial uncertainty of the vd correction
1681 const Double_t kOutCut = 1.0; // outlyer cut in AliRelAlgnmentKalman
be67055b 1682 const Double_t kRefX = 275; // reference X
1683 const Int_t kN=50; // deepnes of history
3e55050f 1684 static Int_t kglast=0;
1685 static Double_t* kgdP[4]={new Double_t[kN], new Double_t[kN], new Double_t[kN], new Double_t[kN]};
0dac7b3a 1686 //
3e55050f 1687 // 0. Apply standard cuts
0dac7b3a 1688 //
1689 Int_t dummycl[1000];
1690 if (track->GetTRDclusters(dummycl)<kMinTRD) return; // minimal amount of clusters
1691 if (track->GetTPCNcls()<kMinTPC) return; // minimal amount of clusters cut
3e55050f 1692 if (!friendTrack->GetTRDIn()) return;
be67055b 1693 if (!track->IsOn(AliESDtrack::kTRDrefit)) return;
1694 if (!track->IsOn(AliESDtrack::kTRDout)) return;
0dac7b3a 1695 if (!track->GetInnerParam()) return;
be67055b 1696 if (!friendTrack->GetTPCOut()) return;
0dac7b3a 1697 // exclude crossing track
be67055b 1698 if (friendTrack->GetTPCOut()->GetZ()*track->GetInnerParam()->GetZ()<0) return;
3e55050f 1699 if (TMath::Abs(track->GetInnerParam()->GetZ())<kMinZ) return;
0dac7b3a 1700 //
be67055b 1701 AliExternalTrackParam &pTPC=(AliExternalTrackParam &)(*(friendTrack->GetTPCOut()));
1702 AliTracker::PropagateTrackToBxByBz(&pTPC,kRefX,0.1,0.1,kFALSE);
0dac7b3a 1703 AliExternalTrackParam pTRD(*(friendTrack->GetTRDIn()));
3e55050f 1704 pTRD.Rotate(pTPC.GetAlpha());
be67055b 1705 // pTRD.PropagateTo(pTPC.GetX(),fMagF);
1706 AliTracker::PropagateTrackToBxByBz(&pTRD,pTPC.GetX(),0.1,0.1,kFALSE);
1707
3e55050f 1708 ((Double_t*)pTRD.GetCovariance())[2]+=3.*3.; // increas sys errors
1709 ((Double_t*)pTRD.GetCovariance())[9]+=0.1*0.1; // increse sys errors
1710
1711 if (TMath::Abs(pTRD.GetY()-pTPC.GetY()) >kMaxDy) return;
1712 if (TMath::Abs(pTRD.GetSnp()-pTPC.GetSnp())>kMaxAngle) return;
9112627b 1713 // if (TMath::Abs(pTRD.GetTgl()-pTPC.GetTgl())>kMaxAngle) return;
0dac7b3a 1714 //
3e55050f 1715 // 1. Update median and RMS info
0dac7b3a 1716 //
b322e06a 1717 TVectorD vecDelta(5),vecMedian(5), vecRMS(5);
3e55050f 1718 TVectorD vecDeltaN(5);
1719 Double_t sign=(pTRD.GetParameter()[1]>0)? 1.:-1.;
1720 vecDelta[4]=0;
1721 for (Int_t i=0;i<4;i++){
1722 vecDelta[i]=(pTRD.GetParameter()[i]-pTPC.GetParameter()[i])*sign;
1723 kgdP[i][kglast%kN]=vecDelta[i];
1724 }
1725 kglast=(kglast+1);
1726 Int_t entries=(kglast<kN)?kglast:kN;
1727 for (Int_t i=0;i<4;i++){
1728 vecMedian[i] = TMath::Median(entries,kgdP[i]);
be67055b 1729
3e55050f 1730 vecRMS[i] = TMath::RMS(entries,kgdP[i]);
1731 vecDeltaN[i] = 0;
1732 if (vecRMS[i]>0.){
1733 vecDeltaN[i] = (vecDelta[i]-vecMedian[i])/vecRMS[i];
1734 vecDeltaN[4]+= TMath::Abs(vecDeltaN[i]); //sum of abs residuals
1735 }
1736 }
1737 //
1738 // 2. Apply median+-rms cut
1739 //
1740 if (kglast<3) return; //median and RMS to be defined
1741 if ( vecDeltaN[4]/4.>kSigmaCut) return;
1742 //
1743 // 3. Update alignment
0dac7b3a 1744 //
5647625c 1745 //Int_t htime = fTime/3600; //time in hours
97d3fea0 1746 Int_t htime = (Int_t)(fTime-fTimeKalmanBin/2)/fTimeKalmanBin; //time in half hour
4486a91f 1747 if (fAlignTRDTPC->GetEntriesFast()<htime){
0dac7b3a 1748 fAlignTRDTPC->Expand(htime*2+20);
1749 }
1750 AliRelAlignerKalman* align = (AliRelAlignerKalman*)fAlignTRDTPC->At(htime);
1751 if (!align){
3e55050f 1752 // make Alignment object if doesn't exist
0dac7b3a 1753 align=new AliRelAlignerKalman();
3e55050f 1754 align->SetRunNumber(fRun);
1755 (*align->GetStateCov())(6,6)=kVdErr*kVdErr;
97d3fea0 1756 (*align->GetStateCov())(7,7)=kT0Err*kT0Err;
3e55050f 1757 (*align->GetStateCov())(8,8)=kVdYErr*kVdYErr;
1758 align->SetOutRejSigma(kOutCut+kOutCut*kN);
1759 align->SetRejectOutliers(kFALSE);
1760 align->SetTPCvd(AliTPCcalibDB::Instance()->GetParameters()->GetDriftV()/1000000.);
0dac7b3a 1761 align->SetMagField(fMagF);
1762 fAlignTRDTPC->AddAt(align,htime);
1763 }
0dac7b3a 1764 align->AddTrackParams(&pTRD,&pTPC);
5647625c 1765 //align->SetTimeStamp(fTime);
1766 Double_t averageTime = fTime;
1767 if (align->GetTimeStamp()>0 && align->GetNUpdates()>0) {
1768 averageTime = (((Double_t)fTime) + ((Double_t)align->GetTimeStamp())*align->GetNUpdates()) / (align->GetNUpdates() + 1.);
1769 //printf("align->GetTimeStamp() %d, align->GetNUpdates() %d \n", align->GetTimeStamp(), align->GetNUpdates());
1770 }
1771 align->SetTimeStamp((Int_t)averageTime);
1772
1773 //printf("fTime %d, averageTime %d \n", fTime, (Int_t)averageTime);
1774
3e55050f 1775 align->SetRunNumber(fRun );
0b736a46 1776 Float_t dca[2],cov[3];
1777 track->GetImpactParameters(dca,cov);
1778 if (TMath::Abs(dca[0])<kMaxDy){
1779 FillResHistoTPCTRD(&pTPC,&pTRD); //only primaries
1780 }
3e55050f 1781 //
1782 Int_t nupdates=align->GetNUpdates();
1783 align->SetOutRejSigma(kOutCut+kOutCut*kN/Double_t(nupdates));
1784 align->SetRejectOutliers(kFALSE);
0dac7b3a 1785 TTreeSRedirector *cstream = GetDebugStreamer();
1786 if (cstream && align->GetState() && align->GetState()->GetNrows()>2 ){
0dac7b3a 1787 TVectorD gpTPC(3), gdTPC(3);
1788 TVectorD gpTRD(3), gdTRD(3);
1789 pTPC.GetXYZ(gpTPC.GetMatrixArray());
1790 pTPC.GetDirection(gdTPC.GetMatrixArray());
1791 pTRD.GetXYZ(gpTRD.GetMatrixArray());
1792 pTRD.GetDirection(gdTRD.GetMatrixArray());
3e55050f 1793 (*cstream)<<"trdtpc"<<
0dac7b3a 1794 "run="<<fRun<< // run number
1795 "event="<<fEvent<< // event number
1796 "time="<<fTime<< // time stamp of event
1797 "trigger="<<fTrigger<< // trigger
1798 "mag="<<fMagF<< // magnetic field
0dac7b3a 1799 //
3e55050f 1800 "nmed="<<kglast<< // number of entries to define median and RMS
1801 "vMed.="<<&vecMedian<< // median of deltas
1802 "vRMS.="<<&vecRMS<< // rms of deltas
1803 "vDelta.="<<&vecDelta<< // delta in respect to median
1804 "vDeltaN.="<<&vecDeltaN<< // normalized delta in respect to median
1805 "t.="<<track<< // ful track - find proper cuts
1806 "a.="<<align<< // current alignment
1807 "pTRD.="<<&pTRD<< // track param TRD
1808 "pTPC.="<<&pTPC<< // track param TPC
1809 "gpTPC.="<<&gpTPC<< // global position TPC
1810 "gdTPC.="<<&gdTPC<< // global direction TPC
1811 "gpTRD.="<<&gpTRD<< // global position TRD
1812 "gdTRD.="<<&gdTRD<< // global position TRD
0dac7b3a 1813 "\n";
1814 }
0dac7b3a 1815}
817766d5 1816
1817
2811495d 1818void AliTPCcalibTime::ProcessAlignTOF(AliESDtrack *const track, AliESDfriendTrack *const friendTrack){
817766d5 1819 //
817766d5 1820 //
3e55050f 1821 // Process track - Update TPC-TOF alignment
1822 // Updates:
1823 // -1. Make a TOF "track"
1824 // 0. Apply standartd cuts
1825 // 1. Recalucluate the current statistic median/RMS
1826 // 2. Apply median+-rms cut
1827 // 3. Update kalman filter
1828 //
1829 const Int_t kMinTPC = 80; // minimal number of TPC cluster
b842d904 1830 // const Double_t kMinZ = 10; // maximal dz distance
3e55050f 1831 const Double_t kMaxDy = 5.; // maximal dy distance
70036ef3 1832 const Double_t kMaxAngle= 0.05; // maximal angular distance
3e55050f 1833 const Double_t kSigmaCut= 5; // maximal sigma distance to median
1834 const Double_t kVdErr = 0.1; // initial uncertainty of the vd correction
97d3fea0 1835 const Double_t kT0Err = 3.; // initial uncertainty of the T0 time
3e55050f 1836 const Double_t kVdYErr = 0.05; // initial uncertainty of the vd correction
1837
1838 const Double_t kOutCut = 1.0; // outlyer cut in AliRelAlgnmentKalman
be67055b 1839 const Int_t kN=50; // deepnes of history
3e55050f 1840 static Int_t kglast=0;
1841 static Double_t* kgdP[4]={new Double_t[kN], new Double_t[kN], new Double_t[kN], new Double_t[kN]};
817766d5 1842 //
3e55050f 1843 // -1. Make a TOF track-
1844 // Clusters are not in friends - use alingment points
1845 //
1846 if (track->GetTOFsignal()<=0) return;
1847 if (!friendTrack->GetTPCOut()) return;
1848 if (!track->GetInnerParam()) return;
be67055b 1849 if (!friendTrack->GetTPCOut()) return;
817766d5 1850 const AliTrackPointArray *points=friendTrack->GetTrackPointArray();
1851 if (!points) return;
be67055b 1852 AliExternalTrackParam pTPC(*(friendTrack->GetTPCOut()));
3e55050f 1853 AliExternalTrackParam pTOF(pTPC);
1854 Double_t mass = TDatabasePDG::Instance()->GetParticle("mu+")->Mass();
817766d5 1855 Int_t npoints = points->GetNPoints();
1856 AliTrackPoint point;
3e55050f 1857 Int_t naccept=0;
817766d5 1858 //
1859 for (Int_t ipoint=0;ipoint<npoints;ipoint++){
817766d5 1860 points->GetPoint(point,ipoint);
1861 Float_t xyz[3];
1862 point.GetXYZ(xyz);
1863 Double_t r=TMath::Sqrt(xyz[0]*xyz[0]+xyz[1]*xyz[1]);
3e55050f 1864 if (r<350) continue;
817766d5 1865 if (r>400) continue;
3e55050f 1866 AliTracker::PropagateTrackToBxByBz(&pTPC,r,mass,2.,kTRUE);
1867 AliTracker::PropagateTrackToBxByBz(&pTPC,r,mass,0.1,kTRUE);
1868 AliTrackPoint lpoint = point.Rotate(pTPC.GetAlpha());
1869 pTPC.PropagateTo(lpoint.GetX(),fMagF);
1870 pTOF=pTPC;
817766d5 1871 ((Double_t*)pTOF.GetParameter())[0] =lpoint.GetY();
1872 ((Double_t*)pTOF.GetParameter())[1] =lpoint.GetZ();
3e55050f 1873 ((Double_t*)pTOF.GetCovariance())[0]+=3.*3./12.;
1874 ((Double_t*)pTOF.GetCovariance())[2]+=3.*3./12.;
0dac7b3a 1875 ((Double_t*)pTOF.GetCovariance())[5]+=0.1*0.1;
1876 ((Double_t*)pTOF.GetCovariance())[9]+=0.1*0.1;
3e55050f 1877 naccept++;
1878 }
1879 if (naccept==0) return; // no tof match clusters
1880 //
1881 // 0. Apply standard cuts
1882 //
1883 if (track->GetTPCNcls()<kMinTPC) return; // minimal amount of clusters cut
1884 // exclude crossing track
be67055b 1885 if (friendTrack->GetTPCOut()->GetZ()*track->GetInnerParam()->GetZ()<0) return;
3e55050f 1886 //
1887 if (TMath::Abs(pTOF.GetY()-pTPC.GetY()) >kMaxDy) return;
1888 if (TMath::Abs(pTOF.GetSnp()-pTPC.GetSnp())>kMaxAngle) return;
1889 if (TMath::Abs(pTOF.GetTgl()-pTPC.GetTgl())>kMaxAngle) return;
1890 //
1891 // 1. Update median and RMS info
1892 //
b322e06a 1893 TVectorD vecDelta(5),vecMedian(5), vecRMS(5);
3e55050f 1894 TVectorD vecDeltaN(5);
1895 Double_t sign=(pTOF.GetParameter()[1]>0)? 1.:-1.;
1896 vecDelta[4]=0;
1897 for (Int_t i=0;i<4;i++){
1898 vecDelta[i]=(pTOF.GetParameter()[i]-pTPC.GetParameter()[i])*sign;
1899 kgdP[i][kglast%kN]=vecDelta[i];
1900 }
1901 kglast=(kglast+1);
1902 Int_t entries=(kglast<kN)?kglast:kN;
1903 Bool_t isOK=kTRUE;
1904 for (Int_t i=0;i<4;i++){
1905 vecMedian[i] = TMath::Median(entries,kgdP[i]);
1906 vecRMS[i] = TMath::RMS(entries,kgdP[i]);
1907 vecDeltaN[i] = 0;
1908 if (vecRMS[i]>0.){
1909 vecDeltaN[i] = (vecDelta[i]-vecMedian[i])/(vecRMS[i]+1.);
1910 vecDeltaN[4]+= TMath::Abs(vecDeltaN[i]); //sum of abs residuals
1911 if (TMath::Abs(vecDeltaN[i])>kSigmaCut) isOK=kFALSE;
817766d5 1912 }
3e55050f 1913 }
1914 //
1915 // 2. Apply median+-rms cut
1916 //
1917 if (kglast<10) return; //median and RMS to be defined
1918 if (!isOK) return;
1919 //
1920 // 3. Update alignment
1921 //
5647625c 1922 //Int_t htime = fTime/3600; //time in hours
97d3fea0 1923 Int_t htime = (Int_t)(fTime-fTimeKalmanBin)/fTimeKalmanBin; //time bin
4486a91f 1924 if (fAlignTOFTPC->GetEntriesFast()<htime){
3e55050f 1925 fAlignTOFTPC->Expand(htime*2+20);
1926 }
1927 AliRelAlignerKalman* align = (AliRelAlignerKalman*)fAlignTOFTPC->At(htime);
1928 if (!align){
1929 // make Alignment object if doesn't exist
1930 align=new AliRelAlignerKalman();
1931 align->SetRunNumber(fRun);
1932 (*align->GetStateCov())(6,6)=kVdErr*kVdErr;
97d3fea0 1933 (*align->GetStateCov())(7,7)=kT0Err*kT0Err;
3e55050f 1934 (*align->GetStateCov())(8,8)=kVdYErr*kVdYErr;
1935 align->SetOutRejSigma(kOutCut+kOutCut*kN);
1936 align->SetRejectOutliers(kFALSE);
1937 align->SetTPCvd(AliTPCcalibDB::Instance()->GetParameters()->GetDriftV()/1000000.);
1938 align->SetMagField(fMagF);
1939 fAlignTOFTPC->AddAt(align,htime);
1940 }
1941 align->AddTrackParams(&pTOF,&pTPC);
0b736a46 1942 Float_t dca[2],cov[3];
1943 track->GetImpactParameters(dca,cov);
1944 if (TMath::Abs(dca[0])<kMaxDy){
1945 FillResHistoTPCTOF(&pTPC,&pTOF);
1946 }
5647625c 1947 //align->SetTimeStamp(fTime);
1948 Double_t averageTime = fTime;
1949 if (align->GetTimeStamp()>0 && align->GetNUpdates()>0) {
1950 averageTime = (((Double_t)fTime) + ((Double_t)align->GetTimeStamp())*align->GetNUpdates()) / (align->GetNUpdates() + 1.);
1951 //printf("align->GetTimeStamp() %d, align->GetNUpdates() %d \n", align->GetTimeStamp(), align->GetNUpdates());
1952 }
1953 align->SetTimeStamp((Int_t)averageTime);
1954
1955 //printf("fTime %d, averageTime %d \n", fTime, (Int_t)averageTime);
1956
3e55050f 1957 align->SetRunNumber(fRun );
1958 //
1959 Int_t nupdates=align->GetNUpdates();
1960 align->SetOutRejSigma(kOutCut+kOutCut*kN/Double_t(nupdates));
1961 align->SetRejectOutliers(kFALSE);
1962 TTreeSRedirector *cstream = GetDebugStreamer();
1963 if (cstream && align->GetState() && align->GetState()->GetNrows()>2 ){
3e55050f 1964 TVectorD gpTPC(3), gdTPC(3);
1965 TVectorD gpTOF(3), gdTOF(3);
1966 pTPC.GetXYZ(gpTPC.GetMatrixArray());
1967 pTPC.GetDirection(gdTPC.GetMatrixArray());
1968 pTOF.GetXYZ(gpTOF.GetMatrixArray());
1969 pTOF.GetDirection(gdTOF.GetMatrixArray());
1970 (*cstream)<<"toftpc"<<
1971 "run="<<fRun<< // run number
1972 "event="<<fEvent<< // event number
1973 "time="<<fTime<< // time stamp of event
1974 "trigger="<<fTrigger<< // trigger
1975 "mag="<<fMagF<< // magnetic field
3e55050f 1976 //
1977 "nmed="<<kglast<< // number of entries to define median and RMS
1978 "vMed.="<<&vecMedian<< // median of deltas
1979 "vRMS.="<<&vecRMS<< // rms of deltas
1980 "vDelta.="<<&vecDelta<< // delta in respect to median
1981 "vDeltaN.="<<&vecDeltaN<< // normalized delta in respect to median
1982 "t.="<<track<< // ful track - find proper cuts
1983 "a.="<<align<< // current alignment
1984 "pTOF.="<<&pTOF<< // track param TOF
1985 "pTPC.="<<&pTPC<< // track param TPC
1986 "gpTPC.="<<&gpTPC<< // global position TPC
1987 "gdTPC.="<<&gdTPC<< // global direction TPC
1988 "gpTOF.="<<&gpTOF<< // global position TOF
1989 "gdTOF.="<<&gdTOF<< // global position TOF
1990 "\n";
817766d5 1991 }
817766d5 1992}
3e55050f 1993
1994
391ffdb2 1995void AliTPCcalibTime::BookDistortionMaps(){
1996 //
1997 // Book ndimensional histograms of distortions/residuals
1998 // Only primary tracks are selected for analysis
1999 //
2000
b9908d0b 2001 Double_t xminTrack[5], xmaxTrack[5];
2002 Int_t binsTrack[5];
2003 TString axisName[5];
2004 TString axisTitle[5];
391ffdb2 2005 //
882f5c06 2006 binsTrack[0] =50;
391ffdb2 2007 axisName[0] ="#Delta";
2008 axisTitle[0] ="#Delta";
2009 //
70036ef3 2010 binsTrack[1] =44;
2011 xminTrack[1] =-1.1; xmaxTrack[1]=1.1;
391ffdb2 2012 axisName[1] ="tanTheta";
2013 axisTitle[1] ="tan(#Theta)";
2014 //
70036ef3 2015 binsTrack[2] =180;
391ffdb2 2016 xminTrack[2] =-TMath::Pi(); xmaxTrack[2]=TMath::Pi();
2017 axisName[2] ="phi";
2018 axisTitle[2] ="#phi";
2019 //
2020 binsTrack[3] =20;
2021 xminTrack[3] =-1.; xmaxTrack[3]=1.; // 0.33 GeV cut
2022 axisName[3] ="snp";
b9908d0b 2023 axisTitle[3] ="snp";
2024 //
2025 binsTrack[4] =10;
2026 xminTrack[4] =120.; xmaxTrack[4]=215.; // crossing radius for CE only
2027 axisName[4] ="r";
2028 axisTitle[4] ="r(cm)";
391ffdb2 2029 //
2030 // delta y
be67055b 2031 xminTrack[0] =-1.5; xmaxTrack[0]=1.5; //
b9908d0b 2032 fResHistoTPCCE[0] = new THnSparseS("TPCCE#Delta_{Y} (cm)","#Delta_{Y} (cm)", 5, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2033 fResHistoTPCITS[0] = new THnSparseS("TPCITS#Delta_{Y} (cm)","#Delta_{Y} (cm)", 4, binsTrack,xminTrack, xmaxTrack);
2034 fResHistoTPCvertex[0] = new THnSparseS("TPCVertex#Delta_{Y} (cm)","#Delta_{Y} (cm)", 4, binsTrack,xminTrack, xmaxTrack);
be67055b 2035 xminTrack[0] =-1.5; xmaxTrack[0]=1.5; //
391ffdb2 2036 fResHistoTPCTRD[0] = new THnSparseS("TPCTRD#Delta_{Y} (cm)","#Delta_{Y} (cm)", 4, binsTrack,xminTrack, xmaxTrack);
0b736a46 2037 xminTrack[0] =-5; xmaxTrack[0]=5; //
2038 fResHistoTPCTOF[0] = new THnSparseS("TPCTOF#Delta_{Y} (cm)","#Delta_{Y} (cm)", 4, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2039 //
2040 // delta z
9112627b 2041 xminTrack[0] =-3.; xmaxTrack[0]=3.; //
b9908d0b 2042 fResHistoTPCCE[1] = new THnSparseS("TPCCE#Delta_{Z} (cm)","#Delta_{Z} (cm)", 5, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2043 fResHistoTPCITS[1] = new THnSparseS("TPCITS#Delta_{Z} (cm)","#Delta_{Z} (cm)", 4, binsTrack,xminTrack, xmaxTrack);
2044 fResHistoTPCvertex[1] = new THnSparseS("TPCVertex#Delta_{Z} (cm)","#Delta_{Z} (cm)", 4, binsTrack,xminTrack, xmaxTrack);
2045 fResHistoTPCTRD[1] = new THnSparseS("TPCTRD#Delta_{Z} (cm)","#Delta_{Z} (cm)", 4, binsTrack,xminTrack, xmaxTrack);
0b736a46 2046 xminTrack[0] =-5.; xmaxTrack[0]=5.; //
2047 fResHistoTPCTOF[1] = new THnSparseS("TPCTOF#Delta_{Z} (cm)","#Delta_{Z} (cm)", 4, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2048 //
2049 // delta snp-P2
882f5c06 2050 xminTrack[0] =-0.015; xmaxTrack[0]=0.015; //
b9908d0b 2051 fResHistoTPCCE[2] = new THnSparseS("TPCCE#Delta_{#phi}","#Delta_{#phi}", 5, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2052 fResHistoTPCITS[2] = new THnSparseS("TPCITS#Delta_{#phi}","#Delta_{#phi}", 4, binsTrack,xminTrack, xmaxTrack);
9112627b 2053 fResHistoTPCvertex[2] = new THnSparseS("TPCITSv#Delta_{#phi}","#Delta_{#phi}", 4, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2054 fResHistoTPCTRD[2] = new THnSparseS("TPCTRD#Delta_{#phi}","#Delta_{#phi}", 4, binsTrack,xminTrack, xmaxTrack);
0b736a46 2055 fResHistoTPCTOF[2] = new THnSparseS("TPCTOF#Delta_{#phi}","#Delta_{#phi}", 4, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2056 //
2057 // delta theta-P3
9112627b 2058 xminTrack[0] =-0.025; xmaxTrack[0]=0.025; //
b9908d0b 2059 fResHistoTPCCE[3] = new THnSparseS("TPCCE#Delta_{#theta}","#Delta_{#theta}", 5, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2060 fResHistoTPCITS[3] = new THnSparseS("TPCITS#Delta_{#theta}","#Delta_{#theta}", 4, binsTrack,xminTrack, xmaxTrack);
9112627b 2061 fResHistoTPCvertex[3] = new THnSparseS("TPCITSv#Delta_{#theta}","#Delta_{#theta}", 4, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2062 fResHistoTPCTRD[3] = new THnSparseS("TPCTRD#Delta_{#theta}","#Delta_{#theta}", 4, binsTrack,xminTrack, xmaxTrack);
0b736a46 2063 fResHistoTPCTOF[3] = new THnSparseS("TPCTOF#Delta_{#theta}","#Delta_{#theta}", 4, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2064 //
2065 // delta theta-P4
9112627b 2066 xminTrack[0] =-0.2; xmaxTrack[0]=0.2; //
b9908d0b 2067 fResHistoTPCCE[4] = new THnSparseS("TPCCE#Delta_{1/pt}","#Delta_{1/pt}", 5, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2068 fResHistoTPCITS[4] = new THnSparseS("TPCITS#Delta_{1/pt}","#Delta_{1/pt}", 4, binsTrack,xminTrack, xmaxTrack);
9112627b 2069 fResHistoTPCvertex[4] = new THnSparseS("TPCITSv#Delta_{1/pt}","#Delta_{1/pt}", 4, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2070 fResHistoTPCTRD[4] = new THnSparseS("TPCTRD#Delta_{1/pt}","#Delta_{1/pt}", 4, binsTrack,xminTrack, xmaxTrack);
0b736a46 2071 fResHistoTPCTOF[4] = new THnSparseS("TPCTOF#Delta_{1/pt}","#Delta_{1/pt}", 4, binsTrack,xminTrack, xmaxTrack);
391ffdb2 2072 //
2073 for (Int_t ivar=0;ivar<4;ivar++){
b9908d0b 2074 for (Int_t ivar2=0;ivar2<5;ivar2++){
2075 fResHistoTPCCE[ivar]->GetAxis(ivar2)->SetName(axisName[ivar2].Data());
2076 fResHistoTPCCE[ivar]->GetAxis(ivar2)->SetTitle(axisTitle[ivar2].Data());
2077 if (ivar2<4){
2078 fResHistoTPCITS[ivar]->GetAxis(ivar2)->SetName(axisName[ivar2].Data());
2079 fResHistoTPCITS[ivar]->GetAxis(ivar2)->SetTitle(axisTitle[ivar2].Data());
2080 fResHistoTPCTRD[ivar]->GetAxis(ivar2)->SetName(axisName[ivar2].Data());
2081 fResHistoTPCTRD[ivar]->GetAxis(ivar2)->SetTitle(axisTitle[ivar2].Data());
2082 fResHistoTPCvertex[ivar]->GetAxis(ivar2)->SetName(axisName[ivar2].Data());
2083 fResHistoTPCvertex[ivar]->GetAxis(ivar2)->SetTitle(axisTitle[ivar2].Data());
2084 }
391ffdb2 2085 }
2086 }
70036ef3 2087 //
2088 // Book vertex: time histograms
2089 //
2090 Int_t binsVertex[2]={500, fTimeBins};
2091 Double_t aminVertex[2]={-5,fTimeStart};
2092 Double_t amaxVertex[2]={5, fTimeEnd};
2093 const char* hnames[12]={"TPCXAside", "TPCXCside","TPCXACdiff","TPCXAPCdiff",
2094 "TPCYAside", "TPCYCside","TPCYACdiff","TPCYAPCdiff",
2095 "TPCZAPCside", "TPCZAMCside","TPCZACdiff","TPCZAPCdiff"};
2096 const char* anames[12]={"x (cm) - A side ", "x (cm) - C side","#Delta_{x} (cm) - TPC-A-C","#Delta_{x} (cm) - TPC-Common",
2097 "y (cm) - A side ", "y (cm) - C side","#Delta_{x} (cm) - TPC-A-C","#Delta_{y} (cm) - TPC-Common",
2098 "z (cm)", "#Delta_{Z} (cm) A-C side","#Delta_{x} (cm) - TPC-A-C","#Delta_{Z} (cm) TPC-common"};
2099 for (Int_t ihis=0; ihis<12; ihis++) {
2100 if (ihis>=8) aminVertex[0]=-20.;
2101 if (ihis>=8) amaxVertex[0]=20.;
2102 fTPCVertex[ihis]=new THnSparseF(hnames[ihis],hnames[ihis],2,binsVertex,aminVertex,amaxVertex);
2103 fTPCVertex[ihis]->GetAxis(1)->SetTitle("Time");
2104 fTPCVertex[ihis]->GetAxis(0)->SetTitle(anames[ihis]);
2105 }
b1fea14f 2106
2107 Int_t binsVertexC[2]={40, 300};
2108 Double_t aminVertexC[2]={-20,-30};
2109 Double_t amaxVertexC[2]={20,30};
2110 const char* hnamesC[5]={"TPCA_TPC","TPCC_TPC","TPCA_ITS","TPCC_ITS","TPC_ITS"};
2111 for (Int_t ihis=0; ihis<5; ihis++) {
2112 fTPCVertexCorrelation[ihis]=new THnSparseF(hnamesC[ihis],hnamesC[ihis],2,binsVertexC,aminVertexC,amaxVertexC);
2113 fTPCVertexCorrelation[ihis]->GetAxis(1)->SetTitle("z (cm)");
2114 fTPCVertexCorrelation[ihis]->GetAxis(0)->SetTitle("z (cm)");
2115 }
391ffdb2 2116}
2117
2118
b9908d0b 2119void AliTPCcalibTime::FillResHistoTPCCE(const AliExternalTrackParam * pTPCIn, const AliExternalTrackParam * pTPCOut ){
2120 //
2121 // fill residual histograms pTPCOut-pTPCin - trac crossing CE
2122 // Histogram
2123 //
660f0543 2124 if (fMemoryMode<2) return;
b9908d0b 2125 Double_t histoX[5];
2126 Double_t xyz[3];
2127 pTPCIn->GetXYZ(xyz);
2128 Double_t phi= TMath::ATan2(xyz[1],xyz[0]);
2129 histoX[1]= pTPCIn->GetTgl();
2130 histoX[2]= phi;
2131 histoX[3]= pTPCIn->GetSnp();
2132 histoX[4]= pTPCIn->GetX();
2133 AliExternalTrackParam lout(*pTPCOut);
2134 lout.Rotate(pTPCIn->GetAlpha());
2135 lout.PropagateTo(pTPCIn->GetX(),fMagF);
2136 //
2137 for (Int_t ihisto=0; ihisto<5; ihisto++){
2138 histoX[0]=lout.GetParameter()[ihisto]-pTPCIn->GetParameter()[ihisto];
2139 fResHistoTPCCE[ihisto]->Fill(histoX);
2140 }
2141}
391ffdb2 2142void AliTPCcalibTime::FillResHistoTPCITS(const AliExternalTrackParam * pTPCIn, const AliExternalTrackParam * pITSOut ){
2143 //
2144 // fill residual histograms pTPCIn-pITSOut
2145 // Histogram is filled only for primary tracks
2146 //
2147 Double_t histoX[4];
2148 Double_t xyz[3];
2149 pTPCIn->GetXYZ(xyz);
2150 Double_t phi= TMath::ATan2(xyz[1],xyz[0]);
2151 histoX[1]= pTPCIn->GetTgl();
2152 histoX[2]= phi;
2153 histoX[3]= pTPCIn->GetSnp();
9112627b 2154 AliExternalTrackParam lits(*pITSOut);
2155 lits.Rotate(pTPCIn->GetAlpha());
2156 lits.PropagateTo(pTPCIn->GetX(),fMagF);
391ffdb2 2157 //
2158 for (Int_t ihisto=0; ihisto<5; ihisto++){
9112627b 2159 histoX[0]=pTPCIn->GetParameter()[ihisto]-lits.GetParameter()[ihisto];
391ffdb2 2160 fResHistoTPCITS[ihisto]->Fill(histoX);
2161 }
2162}
2163
2164
2165void AliTPCcalibTime::FillResHistoTPC(const AliESDtrack * pTrack){
2166 //
2167 // fill residual histograms pTPC - vertex
2168 // Histogram is filled only for primary tracks
2169 //
660f0543 2170 if (fMemoryMode<2) return;
391ffdb2 2171 Double_t histoX[4];
2172 const AliExternalTrackParam * pTPCIn = pTrack->GetInnerParam();
be67055b 2173 AliExternalTrackParam pTPCvertex(*(pTrack->GetInnerParam()));
9112627b 2174 //
2175 AliExternalTrackParam lits(*pTrack);
be67055b 2176 if (TMath::Abs(pTrack->GetY())>3) return; // beam pipe
2177 pTPCvertex.Rotate(lits.GetAlpha());
2178 //pTPCvertex.PropagateTo(pTPCvertex->GetX(),fMagF);
2179 AliTracker::PropagateTrackToBxByBz(&pTPCvertex,lits.GetX(),0.1,2,kFALSE);
2180 AliTracker::PropagateTrackToBxByBz(&pTPCvertex,lits.GetX(),0.1,0.1,kFALSE);
391ffdb2 2181 Double_t xyz[3];
2182 pTPCIn->GetXYZ(xyz);
2183 Double_t phi= TMath::ATan2(xyz[1],xyz[0]);
2184 histoX[1]= pTPCIn->GetTgl();
2185 histoX[2]= phi;
2186 histoX[3]= pTPCIn->GetSnp();
2187 //
2188 Float_t dca[2], cov[3];
2189 pTrack->GetImpactParametersTPC(dca,cov);
882f5c06 2190 for (Int_t ihisto=0; ihisto<5; ihisto++){
be67055b 2191 histoX[0]=pTPCvertex.GetParameter()[ihisto]-lits.GetParameter()[ihisto];
2192 // if (ihisto<2) histoX[0]=dca[ihisto];
9112627b 2193 fResHistoTPCvertex[ihisto]->Fill(histoX);
391ffdb2 2194 }
2195}
2196
2197
2198void AliTPCcalibTime::FillResHistoTPCTRD(const AliExternalTrackParam * pTPCOut, const AliExternalTrackParam * pTRDIn ){
2199 //
2200 // fill resuidual histogram TPCout-TRDin
2201 //
660f0543 2202 if (fMemoryMode<2) return;
391ffdb2 2203 Double_t histoX[4];
2204 Double_t xyz[3];
2205 pTPCOut->GetXYZ(xyz);
2206 Double_t phi= TMath::ATan2(xyz[1],xyz[0]);
2207 histoX[1]= pTPCOut->GetTgl();
2208 histoX[2]= phi;
2209 histoX[3]= pTPCOut->GetSnp();
2210 //
882f5c06 2211 AliExternalTrackParam ltrd(*pTRDIn);
2212 ltrd.Rotate(pTPCOut->GetAlpha());
be67055b 2213 // ltrd.PropagateTo(pTPCOut->GetX(),fMagF);
2214 AliTracker::PropagateTrackToBxByBz(&ltrd,pTPCOut->GetX(),0.1,0.1,kFALSE);
882f5c06 2215
391ffdb2 2216 for (Int_t ihisto=0; ihisto<5; ihisto++){
882f5c06 2217 histoX[0]=pTPCOut->GetParameter()[ihisto]-ltrd.GetParameter()[ihisto];
391ffdb2 2218 fResHistoTPCTRD[ihisto]->Fill(histoX);
2219 }
2220
2221}
0b736a46 2222
2223void AliTPCcalibTime::FillResHistoTPCTOF(const AliExternalTrackParam * pTPCOut, const AliExternalTrackParam * pTOFIn ){
2224 //
2225 // fill resuidual histogram TPCout-TOFin
2226 // track propagated to the TOF position
660f0543 2227 if (fMemoryMode<2) return;
0b736a46 2228 Double_t histoX[4];
2229 Double_t xyz[3];
2230
2231 AliExternalTrackParam ltpc(*pTPCOut);
2232 ltpc.Rotate(pTOFIn->GetAlpha());
2233 AliTracker::PropagateTrackToBxByBz(&ltpc,pTOFIn->GetX(),0.1,0.1,kFALSE);
2234 //
2235 ltpc.GetXYZ(xyz);
2236 Double_t phi= TMath::ATan2(xyz[1],xyz[0]);
2237 histoX[1]= ltpc.GetTgl();
2238 histoX[2]= phi;
2239 histoX[3]= ltpc.GetSnp();
2240 //
2241 for (Int_t ihisto=0; ihisto<2; ihisto++){
2242 histoX[0]=ltpc.GetParameter()[ihisto]-pTOFIn->GetParameter()[ihisto];
2243 fResHistoTPCTOF[ihisto]->Fill(histoX);
2244 }
2245
2246}