1 /**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
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 **************************************************************************/
18 ///////////////////////////////////////////////////////////////////////////////
20 // This class creates and fills the monitor histograms for the HLT //
22 ///////////////////////////////////////////////////////////////////////////////
25 #include "AliMonitorHLT.h"
26 #include "AliMonitorTrend.h"
27 #include "AliTPCParam.h"
31 #include "AliL3MemHandler.h"
32 #include "AliL3SpacePointData.h"
33 #include "AliL3TrackArray.h"
34 #include "AliL3Track.h"
35 #include "AliL3Transform.h"
36 #include "AliL3Vertex.h"
38 //_____________________________________________________________________________
39 AliMonitorHLT::AliMonitorHLT(AliTPCParam* param):
42 fClustersCharge(NULL),
43 fNClustersVsRow(NULL),
44 fNClustersVsSector(NULL),
59 // create a HLT monitor object with the given parameters
63 //_____________________________________________________________________________
64 void AliMonitorHLT::CreateHistos(TFolder* folder)
66 // create the HLT monitor histograms
68 fFolder = folder->AddFolder("HLT", "HLT");
70 fClustersCharge = CreateHisto1("ClustersCharge",
71 "charge distribution of clusters",
72 100, 0, 1000, "charge", "#Delta N/N",
73 AliMonitorHisto::kNormEvents);
75 Int_t nRows = fParam->GetNRowLow() + fParam->GetNRowUp();
76 fNClustersVsRow = CreateHisto1("NClustersVsRow",
77 "mean number of clusters per pad row",
78 nRows, -0.5, nRows-0.5,
79 "pad row", "<N_{clusters}>",
80 AliMonitorHisto::kNormEvents);
82 Int_t nSector = fParam->GetNInnerSector();
83 fNClustersVsSector = CreateHisto1("NClustersVsSector",
84 "mean number of clusters per sector",
85 nSector, -0.5, nSector-0.5,
86 "sector", "<N_{clusters}>",
87 AliMonitorHisto::kNormEvents);
89 fNTracks = CreateTrend("NTracks", "number of tracks per event",
92 fTrackPt = CreateHisto1("TrackPt", "pt distribution of tracks",
93 90, 0, 3, "p_{t} [GeV/c]", "#Delta N/N",
94 AliMonitorHisto::kNormNone);
96 fTrackEta = CreateHisto1("TrackEta", "eta distribution of tracks",
97 100, -2, 2, "#eta", "#Delta N/N",
98 AliMonitorHisto::kNormEntries);
100 fTrackPhi = CreateHisto1("TrackPhi", "phi distribution of tracks",
101 120, 0, 360, "#phi [#circ]", "#Delta N/N",
102 AliMonitorHisto::kNormEntries);
104 fTrackNHits = CreateHisto1("TrackNHits", "Number of hits per track",
105 200, 0, 200, "N_{hits}", "#Delta N/N",
106 AliMonitorHisto::kNormNone);
108 fTrackXYvsNHits = CreateHisto2("TrackXYvsNHits", "XY vs Number of hits per track",
110 "N_{hits}","Radius [cm]","#Delta N/N",
111 AliMonitorHisto::kNormNone);
113 fTrackZvsNHits = CreateHisto2("TrackZvsNHits", "Z vs Number of hits per track",
114 50, 0, 200,50,-20,20,
115 "N_{hits}","Z [cm]","#Delta N/N",
116 AliMonitorHisto::kNormNone);
118 fTrackDEdxVsP = CreateHisto2("TrackDEdxVsP", "dE/dx of tracks",
119 100, 0, 3, 100, 0, 1000,
120 "p [GeV/c]", "dE/dx", "#Delta N/N",
121 AliMonitorHisto::kNormEntries);
123 fTrackDEdx = CreateHisto1("TrackDEdx", "dE/dx for tracks with 0.4<p<1.0 GeV/c",
125 "dE/dx", "#Delta N/N",
126 AliMonitorHisto::kNormEntries);
128 fTrackDz0 = CreateHisto1("TrackDz0", "Dz0 of tracks",
129 100, -100, 100, "#Delta z0 [cm]", "#Delta N/N",
130 AliMonitorHisto::kNormEntries);
132 fTrackDr0 = CreateHisto1("TrackDr0", "Dr0 of tracks",
133 130, 80, 250, "#Delta r0 [cm]", "#Delta N/N",
134 AliMonitorHisto::kNormEntries);
136 fTrackEtaVsPhi = CreateHisto2("TrackEtaVsPhi", "#phi vs #eta",
137 20, -1, 1, 25, 0, 360,
138 "#eta", "#phi", "#Delta N/N",
139 AliMonitorHisto::kNormNone);
141 fPtEtaVsPhi = CreateHisto2("PtEtaVsPhi", "#phi vs #eta",
142 20, -1, 1, 25, 0, 360,
143 "#eta", "#phi", "#Delta N/N",
144 AliMonitorHisto::kNormNone);
149 //_____________________________________________________________________________
150 void AliMonitorHLT::FillHistos(AliRunLoader* /*runLoader*/,
151 AliRawReader* /*rawReader*/, AliESD* /*esd*/)
153 // fill the HLT monitor histogrms
155 AliL3MemHandler clusterHandler[36];
156 AliL3SpacePointData *clusters[36];
157 for (Int_t iSector = 0; iSector < fParam->GetNInnerSector(); iSector++) {
159 sprintf(fileName, "hlt/points_%d_-1.raw", iSector);
160 if (!clusterHandler[iSector].SetBinaryInput(fileName)) {
161 AliWarning(Form("could not open file %s", fileName));
164 clusters[iSector] = (AliL3SpacePointData*) clusterHandler[iSector].Allocate();
165 UInt_t nClusters = 0;
166 clusterHandler[iSector].Binary2Memory(nClusters, clusters[iSector]);
168 for (UInt_t iCluster = 0; iCluster < nClusters; iCluster++) {
169 AliL3SpacePointData& cluster = clusters[iSector][iCluster];
170 fClustersCharge->Fill(cluster.fCharge);
171 fNClustersVsRow->Fill(cluster.fPadRow);
172 fNClustersVsSector->Fill(iSector);
175 clusterHandler[iSector].CloseBinaryInput();
178 fNClustersVsSector->ScaleErrorBy(10.);
180 AliL3MemHandler memHandler;
181 if (!memHandler.SetBinaryInput("hlt/tracks.raw")) {
182 AliWarning("could not open file hlt/tracks.raw");
185 AliL3TrackArray* tracks = new AliL3TrackArray;
186 memHandler.Binary2TrackArray(tracks);
190 fNTracks->Fill(tracks->GetNTracks());
191 for (Int_t iTrack = 0; iTrack < tracks->GetNTracks(); iTrack++) {
192 AliL3Track* track = tracks->GetCheckedTrack(iTrack);
194 track->CalculateHelix();
195 track->GetClosestPoint(&vertex,xc,yc,zc);
196 if(TMath::Abs(zc)>10.) continue;
197 fTrackPt->Fill(track->GetPt());
198 fTrackEta->Fill(track->GetPseudoRapidity());
199 fTrackPhi->Fill(track->GetPsi() * TMath::RadToDeg());
200 if(track->GetPt()>3.) {
201 fTrackEtaVsPhi->Fill(track->GetPseudoRapidity(),track->GetPsi() * TMath::RadToDeg());
202 fPtEtaVsPhi->Fill(track->GetPseudoRapidity(),track->GetPsi() * TMath::RadToDeg(),track->GetPt());
204 fTrackDz0->Fill(track->GetZ0());
205 fTrackDr0->Fill(track->GetR0());
206 fTrackNHits->Fill(track->GetNHits());
207 fTrackXYvsNHits->Fill(track->GetNHits(),TMath::Sqrt(xc*xc+yc*yc));
208 fTrackZvsNHits->Fill(track->GetNHits(),zc);
211 Int_t nc=track->GetNHits();
212 UInt_t *hits = track->GetHitNumbers();
213 Float_t sampleDEdx[159];
214 for (Int_t iHit = 0; iHit < nc; iHit++) {
215 UInt_t hitID = hits[iHit];
216 Int_t iSector = (hitID>>25) & 0x7f;
217 UInt_t position = hitID&0x3fffff;
218 UChar_t padrow = clusters[iSector][position].fPadRow;
219 Float_t pWidth = AliL3Transform::GetPadPitchWidthLow();
221 pWidth = AliL3Transform::GetPadPitchWidthUp();
222 Float_t corr=1.; if (padrow>63) corr=0.67;
223 sampleDEdx[iHit] = clusters[iSector][position].fCharge/pWidth*corr;
224 Double_t crossingangle = track->GetCrossingAngle(padrow,iSector);
225 Double_t s = sin(crossingangle);
226 Double_t t = track->GetTgl();
227 sampleDEdx[iHit] *= TMath::Sqrt((1-s*s)/(1+t*t));
232 Int_t swap;//stupid sorting
235 for (i=0; i<nc-1; i++) {
236 if (sampleDEdx[i]<=sampleDEdx[i+1]) continue;
237 Float_t tmp=sampleDEdx[i];
238 sampleDEdx[i]=sampleDEdx[i+1]; sampleDEdx[i+1]=tmp;
243 Double_t low=0.05; Double_t up=0.7;
244 Int_t nl=Int_t(low*nc), nu=Int_t(up*nc);
246 for (i=nl; i<=nu; i++) trackDEdx += sampleDEdx[i];
247 trackDEdx /= (nu-nl+1);
249 fTrackDEdxVsP->Fill(track->GetP(),trackDEdx);
250 if(track->GetP()>0.4 && track->GetP()<1.0)
251 fTrackDEdx->Fill(trackDEdx);
255 memHandler.CloseBinaryInput();