reverting r45444 to disentangle modules and make porting possible
[u/mrichter/AliRoot.git] / HLT / QA / AliHLTTPCQADataMaker.cxx
CommitLineData
341aab10 1// $Id$
ed292d06 2
3//**************************************************************************
4//* This file is property of and copyright by the ALICE HLT Project *
5//* ALICE Experiment at CERN, All rights reserved. *
6//* *
019f778f 7//* Primary Authors: Zhong-Bao Yin <Zhong-Bao.Yin@cern.ch> *
8//* Matthias Richter <Matthias.Richter@ift.uib.no> *
ed292d06 9//* for The ALICE HLT Project. *
10//* *
11//* Permission to use, copy, modify and distribute this software and its *
12//* documentation strictly for non-commercial purposes is hereby granted *
13//* without fee, provided that the above copyright notice appears in all *
14//* copies and that both the copyright notice and this permission notice *
15//* appear in the supporting documentation. The authors make no claims *
16//* about the suitability of this software for any purpose. It is *
17//* provided "as is" without express or implied warranty. *
18//**************************************************************************
19
4f11f6c7 20/** @file AliHLTTPCQADataMaker.cxx
019f778f 21 @author Zhongbao Yin, Matthias Richter
ed292d06 22 @date 2009-05-14
23 @brief Container for the HLT offline QA
24*/
4f11f6c7 25#include "AliHLTTPCQADataMaker.h"
4c080b28 26#include "AliESDEvent.h"
27#include <iostream>
28
019f778f 29#include "TH1F.h"
30#include "TH2F.h"
31
32#include "AliESDtrack.h"
33
4c080b28 34using namespace std;
ed292d06 35
36/** ROOT macro for the implementation of ROOT specific class methods */
4f11f6c7 37ClassImp(AliHLTTPCQADataMaker)
ed292d06 38
4f11f6c7 39AliHLTTPCQADataMaker::AliHLTTPCQADataMaker()
40 : AliHLTQADataMakerBase()
ed292d06 41{
42 // see header file for class documentation
43 // or
44 // refer to README to build package
45 // or
46 // visit http://web.ift.uib.no/~kjeks/doc/alice-hlt
47}
48
4f11f6c7 49AliHLTTPCQADataMaker::~AliHLTTPCQADataMaker()
ed292d06 50{
51 // see header file for class documentation
52}
53
4f11f6c7 54void AliHLTTPCQADataMaker::StartOfDetectorCycle()
ed292d06 55{
56 // see header file for class documentation
57}
58
4f11f6c7 59void AliHLTTPCQADataMaker::EndOfDetectorCycle(AliQAv1::TASKINDEX_t, TObjArray** /*list*/)
ed292d06 60{
61 // see header file for class documentation
019f778f 62
63 if(GetESDsData(kPHLT)->GetEntries()){
64 GetESDsData(kPRatio)->Sumw2();
65 GetESDsData(kPRatio)->Add(GetESDsData(kPOffline));
66 GetESDsData(kPRatio)->Divide(GetESDsData(kPHLT));
67 }
68
69 if(GetESDsData(kPHLTFired)->GetEntries()){
70 GetESDsData(kPRatioFired)->Sumw2();
71 GetESDsData(kPRatioFired)->Add(GetESDsData(kPOfflineFired));
72 GetESDsData(kPRatioFired)->Divide(GetESDsData(kPHLTFired));
73 }
74
75
ed292d06 76}
4c080b28 77
4f11f6c7 78void AliHLTTPCQADataMaker::MakeRaws(AliRawReader * rawReader)
4c080b28 79{
80 // see header file for class documentation
81 if (!rawReader) return;
82}
83
4f11f6c7 84void AliHLTTPCQADataMaker::InitESDs(){
019f778f 85
86 //create ESDs histograms in ESDs subdir
87 const Bool_t expert = kTRUE ;
88 const Bool_t image = kTRUE ;
89
90 TH2F * histESDMultiplicity =
91 new TH2F("hESDMultiplicity",
92 "Number of tracks from all events; Number of offline tracks; Number of HLT tracks",
93 300, 0, 300, 300, 0, 300);
94 histESDMultiplicity->Sumw2();
95 Add2ESDsList(histESDMultiplicity, kMultiplicity, !expert, image);
96
97 TH2F * histESDMultiplicityFired =
98 new TH2F("hESDMultiplicityFired",
99 "Number of tracks from HLT triggered events; Number of offline tracks; Number of HLT tracks",
100 300, 0, 300, 300, 0, 300);
101 histESDMultiplicityFired->Sumw2();
102 Add2ESDsList(histESDMultiplicityFired, kMultiplicityFired, !expert, image);
103
104 TH2F * histESDNCls =
105 new TH2F("hESDNCls", "Mean number of TPC clusters from all events; Offline; HLT",
106 200, 0, 200, 200, 0, 200);
107 histESDNCls->Sumw2();
108 Add2ESDsList(histESDNCls, kNCls, !expert, image);
109
110 TH2F * histESDNClsFired =
111 new TH2F("hESDNClsFired", "Mean number of TPC clusters from triggered events; Offline; HLT",
112 200, 0, 200, 200, 0, 200);
113 histESDNClsFired->Sumw2();
114 Add2ESDsList(histESDNClsFired, kNClsFired, !expert, image);
115
116 TH1F * histPHLT
117 = new TH1F("hPHLT", "P distribution for all events from HLT; P [GeV/c]",
118 100, -0.5, 99.5);
119 histPHLT->Sumw2();
120 Add2ESDsList(histPHLT, kPHLT, !expert, image);
121
122 TH1F * histPOffline
123 = new TH1F("hPOffline",
124 "P distribution for all events from offline; P [GeV/c]",
125 100, -0.5, 99.5);
126 histPOffline->Sumw2();
127 Add2ESDsList(histPOffline, kPOffline, !expert, image);
128
129 TH1F * histPHLTFired
130 = new TH1F("hPHLTFired",
131 "P distribution for fired events from HLT; P [GeV/c]",
132 100, -0.5, 99.5);
133 histPHLTFired->Sumw2();
134 Add2ESDsList(histPHLTFired, kPHLTFired, !expert, image);
135
136 TH1F * histPOfflineFired
137 = new TH1F("hPOfflineFired",
138 "P distribution for fired events from offline; P [GeV/c]",
139 100, -0.5, 99.5);
140 histPOfflineFired->Sumw2();
141 Add2ESDsList(histPOfflineFired, kPOfflineFired, !expert, image);
142
143 TH1F * histPRatio
144 = new TH1F("hPRatio",
145 "Ratio of P distribution for all events; P [GeV/c]",
146 100, -0.5, 99.5);
147 histPRatio->Sumw2();
148 Add2ESDsList(histPRatio, kPRatio, !expert, image);
149
150 TH1F * histPRatioFired
151 = new TH1F("hPRatioFired",
152 "Ratio of P distribution for fired events; P [GeV/c]",
153 100, -0.5, 99.5);
154 histPRatioFired->Sumw2();
155 Add2ESDsList(histPRatioFired, kPRatioFired, !expert, image);
156
157 TH1F * histPtHLT
158 = new TH1F("hPtHLT",
159 "P_{T} distribution for all events from HLT; P_{T} [GeV/c]",
160 200, -100.5, 99.5);
161 histPtHLT->Sumw2();
162 Add2ESDsList(histPtHLT, kPtHLT, !expert, image);
163
164 TH1F * histPtOffline
165 = new TH1F("hPtOffline",
166 "P_{T} distribution for all events from offline; P_{T} [GeV/c]",
167 200, -100.5, 99.5);
168 histPtOffline->Sumw2();
169 Add2ESDsList(histPtOffline, kPtOffline, !expert, image);
170
171 TH1F * histPtHLTFired
172 = new TH1F("hPtHLTFired",
173 "P_{T} distribution for fired events from HLT; P_{T} [GeV/c]",
174 200, -100.5, 99.5);
175 histPtHLTFired->Sumw2();
176 Add2ESDsList(histPtHLTFired, kPtHLTFired, !expert, image);
177
178 TH1F * histPtOfflineFired
179 = new TH1F("hPtOfflineFired",
180 "P_{T} distribution for fired events from offline; P_{T} [GeV/c]",
181 200, -100.5, 99.5);
182 histPtOfflineFired->Sumw2();
183 Add2ESDsList(histPtOfflineFired, kPtOfflineFired, !expert, image);
184
185 TH1F * histNClsPerTrkHLT
186 = new TH1F("hNClsPerTrkHLT", "Clusters per HLT track; N cluster; Counts",
187 200, 0, 200);
188 histNClsPerTrkHLT->Sumw2();
189 Add2ESDsList(histNClsPerTrkHLT, kNClsPerTrkHLT, !expert, image);
190
191 TH1F * histNClsPerTrkOffline
192 = new TH1F("hNClsPerTrkOffline",
193 "Clusters per offline track; N cluster; Counts",
194 200, 0, 200);
195 histNClsPerTrkOffline->Sumw2();
196 Add2ESDsList(histNClsPerTrkOffline, kNClsPerTrkOffline, !expert, image);
197
198TH1F * histNClsPerTrkHLTFired
199 = new TH1F("hNClsPerTrkHLTFired",
200 "Clusters per HLT track from HLT fired events; N cluster; Counts",
201 200, 0, 200);
202 histNClsPerTrkHLTFired->Sumw2();
203 Add2ESDsList(histNClsPerTrkHLTFired, kNClsPerTrkHLTFired, !expert, image);
204
205 TH1F * histNClsPerTrkOfflineFired
206 = new TH1F("hNClsPerTrkOfflineFired",
207 "Clusters per offline track from HLT fired events; N cluster; Counts",
208 200, 0, 200);
209 histNClsPerTrkOfflineFired->Sumw2();
210 Add2ESDsList(histNClsPerTrkOfflineFired, kNClsPerTrkOfflineFired, !expert, image);
211
212 TH1F * histPhiHLT =
213 new TH1F("hPhiHLT", "Phi distribution of HLT tracks; Phi; Counts",
214 360, 0, 360);
215 histPhiHLT->Sumw2();
216 Add2ESDsList(histPhiHLT, kPhiHLT, !expert, image);
217
218 TH1F * histPhiOffline =
219 new TH1F("hPhiOffline",
220 "Phi distribution of offline tracks; Phi; Counts",
221 360, 0, 360);
222 histPhiOffline->Sumw2();
223 Add2ESDsList(histPhiOffline, kPhiOffline, !expert, image);
224
225 TH1F * histPhiHLTFired =
226 new TH1F("hPhiHLTFired", "Phi distribution of HLT tracks from HLT fired event ; Phi; Counts",
227 360, 0, 360);
228 histPhiHLTFired->Sumw2();
229 Add2ESDsList(histPhiHLTFired, kPhiHLTFired, !expert, image);
230
231 TH1F * histPhiOfflineFired =
232 new TH1F("hPhiOfflineFired",
233 "Phi distribution of offline tracks from HLT fired events; Phi; Counts",
234 360, 0, 360);
235 histPhiOfflineFired->Sumw2();
236 Add2ESDsList(histPhiOfflineFired, kPhiOfflineFired, !expert, image);
237
238 TH1F * histEtaHLT =
239 new TH1F("hEtaHLT", "Eta distribution of HLT tracks; Eta; Counts",
240 200, -1, 1);
241 histEtaHLT->Sumw2();
242 Add2ESDsList(histEtaHLT, kEtaHLT, !expert, image);
243
244 TH1F * histEtaOffline =
245 new TH1F("hEtaOffline", "Eta distribution of offline tracks; Eta; Counts",
246 200, -1, 1);
247 histEtaHLT->Sumw2();
248 Add2ESDsList(histEtaOffline, kEtaOffline, !expert, image);
249
250 TH1F * histEtaHLTFired =
251 new TH1F("hEtaHLTFired",
252 "Eta distribution of HLT tracks from HLT fired events; Eta; Counts",
253 200, -1, 1);
254 histEtaHLTFired->Sumw2();
255 Add2ESDsList(histEtaHLTFired, kEtaHLTFired, !expert, image);
256
257 TH1F * histEtaOfflineFired =
258 new TH1F("hEtaOfflineFired",
259 "Eta distribution of offline tracks from HLT fired events; Eta; Counts",
260 200, -1, 1);
261 histEtaHLTFired->Sumw2();
262 Add2ESDsList(histEtaOfflineFired, kEtaOfflineFired, !expert, image);
263
264}
265
4f11f6c7 266void AliHLTTPCQADataMaker::MakeESDs(AliESDEvent * esd, AliESDEvent* hltesd)
4c080b28 267{
268 // HLT QA on ESDs
269 if (!esd || !hltesd) {
270 AliError("invalid parameter: missing ESDs");
271 return;
272 }
019f778f 273
274 // make QA data from ESDs
4f11f6c7 275
019f778f 276 const Int_t nESDTracks = esd->GetNumberOfTracks();
277 const Int_t nHLTesdTracks = hltesd->GetNumberOfTracks();
278 GetESDsData(kMultiplicity)->Fill(nESDTracks, nHLTesdTracks);
279
280 Int_t nClsHLT = 0;
281 Int_t nClsOffline = 0;
282
283 for(Int_t i = 0; i < nESDTracks; i++){
284 AliESDtrack * esdTrk = esd->GetTrack(i);
285 GetESDsData(kPOffline)->Fill(esdTrk->P());
286 GetESDsData(kPtOffline)->Fill(esdTrk->GetSignedPt());
287 GetESDsData(kNClsPerTrkOffline)->Fill(esdTrk->GetTPCNcls());
288 GetESDsData(kPhiOffline)->Fill(esdTrk->Phi()*TMath::RadToDeg());
289 GetESDsData(kEtaOffline)->Fill(esdTrk->Eta());
290 nClsOffline+=esdTrk->GetTPCNcls();
291 }
292
293 for(Int_t i = 0; i < nHLTesdTracks; i++){
294 AliESDtrack * hltEsdTrk = hltesd->GetTrack(i);
295 GetESDsData(kPHLT)->Fill(hltEsdTrk->P());
296 GetESDsData(kPtHLT)->Fill(hltEsdTrk->GetSignedPt());
297 GetESDsData(kNClsPerTrkHLT)->Fill(hltEsdTrk->GetTPCNcls());
298 GetESDsData(kPhiHLT)->Fill(hltEsdTrk->Phi()*TMath::RadToDeg());
299 GetESDsData(kEtaHLT)->Fill(hltEsdTrk->Eta());
300 nClsHLT += hltEsdTrk->GetTPCNcls();
301 }
302
303 if(nESDTracks)
80d83a65 304 nClsOffline /= Float_t(nESDTracks);
019f778f 305 if(nHLTesdTracks)
80d83a65 306 nClsHLT /= Float_t(nHLTesdTracks);
019f778f 307
308 GetESDsData(kNCls)->Fill(nClsOffline, nClsHLT);
309
310
311 if(hltesd->IsHLTTriggerFired()){
312 GetESDsData(kMultiplicityFired)->Fill(nESDTracks, nHLTesdTracks);
313 GetESDsData(kNClsFired)->Fill(nClsOffline, nClsHLT);
314
315 for(Int_t i = 0; i < nESDTracks; i++){
316 AliESDtrack * esdTrk = esd->GetTrack(i);
317 GetESDsData(kPOfflineFired)->Fill(esdTrk->P());
318 GetESDsData(kPtOfflineFired)->Fill(esdTrk->GetSignedPt());
319 GetESDsData(kNClsPerTrkOfflineFired)->Fill(esdTrk->GetTPCNcls());
320 GetESDsData(kPhiOfflineFired)->Fill(esdTrk->Phi()*TMath::RadToDeg());
321 GetESDsData(kEtaOfflineFired)->Fill(esdTrk->Eta());
322 }
323
324 for(Int_t i = 0; i < nHLTesdTracks; i++){
325 AliESDtrack * hltEsdTrk = hltesd->GetTrack(i);
326 GetESDsData(kPHLTFired)->Fill(hltEsdTrk->P());
327 GetESDsData(kPtHLTFired)->Fill(hltEsdTrk->GetSignedPt());
328 GetESDsData(kNClsPerTrkHLTFired)->Fill(hltEsdTrk->GetTPCNcls());
329 GetESDsData(kPhiHLTFired)->Fill(hltEsdTrk->Phi()*TMath::RadToDeg());
330 GetESDsData(kEtaHLTFired)->Fill(hltEsdTrk->Eta());
331 }
332
333
334 }
4f11f6c7 335
4c080b28 336}