//
// 2. The laser track is accepted for the analysis under certain condition
// (see function Accpet laser)
- //
- // 3. The drift velocity and jitter is calculated event by event
- // (see function drift velocity)
//
+ // 3. The drift velocity and jitter is calculated event by event
+ // (see function drift velocity)
//
+ // 4. The tracks are refitted at different sectors
+ // Fit model
+ // 4.a) line
+ // 4.b) parabola
+ // 4.c) parabola with common P2 for inner and outer
//
// To make laser scan the user interaction neccessary
//
TFile fcalib("CalibObjects.root");
TObjArray * array = (TObjArray*)fcalib.Get("TPCCalib");
AliTPCcalibLaser * laser = ( AliTPCcalibLaser *)array->FindObject("laserTPC");
- laser->DumpMeanInfo(-0.4)
+ laser->DumpMeanInfo(-0,0)
TFile fmean("laserMean.root")
//
// laser track clasification;
TCut cutN("cutN","fTPCncls>70");
TCut cutP("cutP","abs(atan2(x1,x0)-atan2(lx1,lx0))<0.03")
TCut cutA = cutT+cutPt+cutP;
- TFile f("laserTPCDebug.root");
- TTree * treeT = (TTree*)f.Get("Track");
+ TChain * chainTrL = tool.MakeChain("laser.txt","Track",0,10200);
+
//
//
// Analyze LASER scan
//
+
gSystem->AddIncludePath("-I$ALICE_ROOT/TPC/macros");
gROOT->LoadMacro("$ALICE_ROOT/TPC/macros/AliXRDPROOFtoolkit.cxx+")
- AliXRDPROOFtoolkit tool;
+ AliXRDPROOFtoolkit tool;
TChain * chain = tool.MakeChain("laserScan.txt","Mean",0,10200);
chain->Lookup();
AliTPCcalibLaser::DumpScanInfo(chain)
TFile fscan("laserScan.root")
TTree * treeT = (TTree*)fscan.Get("Mean")
-
+ //
+ // Analyze laser
+ //
+ gSystem->AddIncludePath("-I$ALICE_ROOT/TPC/macros");
+ gROOT->LoadMacro("$ALICE_ROOT/TPC/macros/AliXRDPROOFtoolkit.cxx+")
+ AliXRDPROOFtoolkit tool;
+ TChain * chainDrift = tool.MakeChain("laser.txt","driftv",0,10200);
+ chainDrift->Lookup();
+
+ TChain * chain = tool.MakeChain("laser.txt","Residuals",0,10200);
+ chain->Lookup();
+ TChain * chainFit = tool.MakeChain("laser.txt","FitModels",0,10200);
+ chainFit->Lookup();
+
*/
#include "AliESDtrack.h"
#include "AliTPCTracklet.h"
#include "TH1D.h"
+#include "TH1F.h"
+#include "TProfile.h"
#include "TVectorD.h"
#include "TTreeStream.h"
#include "TFile.h"
#include "AliTPCclusterMI.h"
#include "AliTPCseed.h"
#include "AliTracker.h"
+#include "AliLog.h"
#include "TClonesArray.h"
#include "TPad.h"
+#include "TSystem.h"
+#include "TCut.h"
+#include "TChain.h"
+#include "TH2F.h"
+#include "TStatToolkit.h"
+#include "TROOT.h"
#include "TTreeStream.h"
#include <iostream>
#include <sstream>
#include "AliTPCLaserTrack.h"
+#include "AliTPCcalibDB.h"
+#include "AliTPCParam.h"
+#include "TTimeStamp.h"
+#include "AliDCSSensorArray.h"
+#include "AliDCSSensor.h"
using namespace std;
fTracksEsd(336),
fTracksEsdParam(336),
fTracksTPC(336),
- fDeltaZ(336), // array of histograms of delta z for each track
- fDeltaPhi(336), // array of histograms of delta z for each track
- fDeltaPhiP(336), // array of histograms of delta z for each track
- fSignals(336), // array of dedx signals
- fFitAside(new TVectorD(3)), // drift fit - A side
- fFitCside(new TVectorD(3)), // drift fit - C- side
- fRun(0)
+ fFullCalib(kTRUE),
+ fDeltaZ(336),
+ fDeltaP3(336),
+ fDeltaP4(336),
+ fDeltaPhi(336),
+ fDeltaPhiP(336),
+ fSignals(336),
+ //
+ fHisNclIn(0), //->Number of clusters inner
+ fHisNclOut(0), //->Number of clusters outer
+ fHisNclIO(0), //->Number of cluster inner outer
+ fHisLclIn(0), //->Level arm inner
+ fHisLclOut(0), //->Level arm outer
+ fHisLclIO(0), //->Number of cluster inner outer
+ fHisdEdx(0), //->dEdx histo
+ fHisdZfit(0), //->distance to the mirror after linear fit
+ //
+ //
+ fHisChi2YIn1(0), //->chi2 y inner - line
+ fHisChi2YOut1(0), //->chi2 y inner - line
+ fHisChi2YIn2(0), //->chi2 y inner - parabola
+ fHisChi2YOut2(0), //->chi2 y inner - parabola
+ fHisChi2YIO1(0), //->chi2 y IO - common
+ fHisChi2ZIn1(0), //->chi2 z inner - line
+ fHisChi2ZOut1(0), //->chi2 z inner - line
+ fHisChi2ZIn2(0), //->chi2 z inner - parabola
+ fHisChi2ZOut2(0), //->chi2 z inner - parabola
+ fHisChi2ZIO1(0), //->chi2 z IO - common
+ //
+ //
+ fHisPy1vP0(0), //-> delta y P0outer-P0inner - line
+ fHisPy2vP0(0), //-> delta y P0outer-P0inner - parabola
+ fHisPy3vP0(0), //-> delta y P0outer-P0inner - common parabola
+ fHisPy1vP1(0), //-> delta ky P1outer-P1inner - line
+ fHisPy2vP1(0), //-> delta ky P1outer-P1inner - parabola
+ fHisPy3vP1(0), //-> delta ky P1outer-P1inner - common parabola
+ fHisPy2vP2In(0), //-> Curv P2inner - parabola
+ fHisPy2vP2Out(0), //-> Curv P2outer - parabola
+ fHisPy3vP2IO(0), //-> Curv P2outerinner - common parabola
+ //
+ //
+ fHisPz1vP0(0), //-> delta z P0outer-P0inner - line
+ fHisPz2vP0(0), //-> delta z P0outer-P0inner - parabola
+ fHisPz3vP0(0), //-> delta z P0outer-P0inner - common parabola
+ fHisPz1vP1(0), //-> delta kz P1outer-P1inner - line
+ fHisPz2vP1(0), //-> delta kz P1outer-P1inner - parabola
+ fHisPz3vP1(0), //-> delta kz P1outer-P1inner - common parabola
+ fHisPz2vP2In(0), //-> Curv P2inner - parabola
+ fHisPz2vP2Out(0), //-> Curv P2outer - parabola
+ fHisPz3vP2IO(0), //-> Curv P2outerinner - common parabola
+ //
+ fDeltaYres(336), //->2D histo of residuals
+ fDeltaZres(336), //->2D histo fo residuals
+ fDeltaYres2(336), //->2D histo of residuals
+ fDeltaZres2(336), //->2D histo fo residuals
+ //fDeltaYres3(336), //->2D histo of residuals
+ //fDeltaZres3(336), //->2D histo fo residuals
+ fFitAside(new TVectorD(3)),
+ fFitCside(new TVectorD(3)),
+ fFitACside(new TVectorD(4)),
+ fEdgeXcuts(3),
+ fEdgeYcuts(3),
+ fNClCuts(5),
+ fNcuts(0)
{
//
// Constructor
fTracksEsdParam.SetOwner(kTRUE);
}
-AliTPCcalibLaser::AliTPCcalibLaser(const Text_t *name, const Text_t *title):
+AliTPCcalibLaser::AliTPCcalibLaser(const Text_t *name, const Text_t *title, Bool_t full):
AliTPCcalibBase(),
fESD(0),
fESDfriend(0),
fTracksEsd(336),
fTracksEsdParam(336),
fTracksTPC(336),
+ fFullCalib(full),
+ //
fDeltaZ(336), // array of histograms of delta z for each track
- fDeltaPhi(336), // array of histograms of delta z for each track
+ fDeltaP3(336), // array of histograms of delta z for each track
+ fDeltaP4(336), // array of histograms of P3 for each track
+ fDeltaPhi(336), // array of histograms of P4 for each track
fDeltaPhiP(336), // array of histograms of delta z for each track
fSignals(336), // array of dedx signals
+ //
+ //
+ fHisNclIn(0), //->Number of clusters inner
+ fHisNclOut(0), //->Number of clusters outer
+ fHisNclIO(0), //->Number of cluster inner outer
+ fHisLclIn(0), //->Level arm inner
+ fHisLclOut(0), //->Level arm outer
+ fHisLclIO(0), //->Number of cluster inner outer
+ fHisdEdx(0), //->dEdx histo
+ fHisdZfit(0), //->distance to the mirror after linear fit
+ //
+ //
+ fHisChi2YIn1(0), //->chi2 y inner - line
+ fHisChi2YOut1(0), //->chi2 y inner - line
+ fHisChi2YIn2(0), //->chi2 y inner - parabola
+ fHisChi2YOut2(0), //->chi2 y inner - parabola
+ fHisChi2YIO1(0), //->chi2 y IO - common
+ fHisChi2ZIn1(0), //->chi2 z inner - line
+ fHisChi2ZOut1(0), //->chi2 z inner - line
+ fHisChi2ZIn2(0), //->chi2 z inner - parabola
+ fHisChi2ZOut2(0), //->chi2 z inner - parabola
+ fHisChi2ZIO1(0), //->chi2 z IO - common
+ //
+ //
+ fHisPy1vP0(0), //-> delta y P0outer-P0inner - line
+ fHisPy2vP0(0), //-> delta y P0outer-P0inner - parabola
+ fHisPy3vP0(0), //-> delta y P0outer-P0inner - common parabola
+ fHisPy1vP1(0), //-> delta ky P1outer-P1inner - line
+ fHisPy2vP1(0), //-> delta ky P1outer-P1inner - parabola
+ fHisPy3vP1(0), //-> delta ky P1outer-P1inner - common parabola
+ fHisPy2vP2In(0), //-> Curv P2inner - parabola
+ fHisPy2vP2Out(0), //-> Curv P2outer - parabola
+ fHisPy3vP2IO(0), //-> Curv P2outerinner - common parabola
+ //
+ //
+ fHisPz1vP0(0), //-> delta z P0outer-P0inner - line
+ fHisPz2vP0(0), //-> delta z P0outer-P0inner - parabola
+ fHisPz3vP0(0), //-> delta z P0outer-P0inner - common parabola
+ fHisPz1vP1(0), //-> delta kz P1outer-P1inner - line
+ fHisPz2vP1(0), //-> delta kz P1outer-P1inner - parabola
+ fHisPz3vP1(0), //-> delta kz P1outer-P1inner - common parabola
+ fHisPz2vP2In(0), //-> Curv P2inner - parabola
+ fHisPz2vP2Out(0), //-> Curv P2outer - parabola
+ fHisPz3vP2IO(0), //-> Curv P2outerinner - common parabola
+ //
+ //
+ //
+ fDeltaYres(336),
+ fDeltaZres(336),
+ fDeltaYres2(336),
+ fDeltaZres2(336),
+ // fDeltaYres3(336),
+ //fDeltaZres3(336),
fFitAside(new TVectorD(3)), // drift fit - A side
fFitCside(new TVectorD(3)), // drift fit - C- side
- fRun(0)
+ fFitACside(new TVectorD(4)), // drift fit - AC- side
+ fEdgeXcuts(3), // cuts in local x direction; used in the refit of the laser tracks
+ fEdgeYcuts(3), // cuts in local y direction; used in the refit of the laser tracks
+ fNClCuts(5), // cuts on the number of clusters per tracklet; used in the refit of the laser tracks
+ fNcuts(0) // number of cuts
{
SetName(name);
SetTitle(title);
//
// Constructor
//
- fTracksEsdParam.SetOwner(kTRUE);
+ fTracksEsdParam.SetOwner(kTRUE);
}
+AliTPCcalibLaser::AliTPCcalibLaser(const AliTPCcalibLaser& calibLaser):
+ AliTPCcalibBase(calibLaser),
+ fESD(0),
+ fESDfriend(0),
+ fTracksMirror(336),
+ fTracksEsd(336),
+ fTracksEsdParam(336),
+ fTracksTPC(336),
+ fFullCalib(calibLaser.fFullCalib),
+ //
+ fDeltaZ(calibLaser.fDeltaZ), // array of histograms of delta z for each track
+ fDeltaP3(((calibLaser.fDeltaP3))), // array of histograms of delta z for each track
+ fDeltaP4(((calibLaser.fDeltaP4))), // array of histograms of P3 for each track
+ fDeltaPhi(((calibLaser.fDeltaPhi))), // array of histograms of P4 for each track
+ fDeltaPhiP(((calibLaser.fDeltaPhiP))), // array of histograms of delta z for each track
+ fSignals(((calibLaser.fSignals))), // array of dedx signals
+ //
+ //
+ fHisNclIn(new TH2F(*(calibLaser.fHisNclIn))), //->Number of clusters inner
+ fHisNclOut(new TH2F(*(calibLaser.fHisNclOut))), //->Number of clusters outer
+ fHisNclIO(new TH2F(*(calibLaser.fHisNclIO))), //->Number of cluster inner outer
+ fHisLclIn(new TH2F(*(calibLaser.fHisLclIn))), //->Level arm inner
+ fHisLclOut(new TH2F(*(calibLaser.fHisLclOut))), //->Level arm outer
+ fHisLclIO(new TH2F(*(calibLaser.fHisLclIO))), //->Number of cluster inner outer
+ fHisdEdx(new TH2F(*(calibLaser.fHisdEdx))), //
+ fHisdZfit(new TH2F(*(calibLaser.fHisdZfit))), //->distance to the mirror after linear fit
+ //
+ //
+ fHisChi2YIn1(new TH2F(*(calibLaser.fHisChi2YIn1))), //->chi2 y inner - line
+ fHisChi2YOut1(new TH2F(*(calibLaser.fHisChi2YOut1))), //->chi2 y inner - line
+ fHisChi2YIn2(new TH2F(*(calibLaser.fHisChi2YIn2))), //->chi2 y inner - parabola
+ fHisChi2YOut2(new TH2F(*(calibLaser.fHisChi2YOut2))), //->chi2 y inner - parabola
+ fHisChi2YIO1(new TH2F(*(calibLaser.fHisChi2YIO1))), //->chi2 y IO - common
+ fHisChi2ZIn1(new TH2F(*(calibLaser.fHisChi2ZIn1))), //->chi2 z inner - line
+ fHisChi2ZOut1(new TH2F(*(calibLaser.fHisChi2ZOut1))), //->chi2 z inner - line
+ fHisChi2ZIn2(new TH2F(*(calibLaser.fHisChi2ZIn2))), //->chi2 z inner - parabola
+ fHisChi2ZOut2(new TH2F(*(calibLaser.fHisChi2ZOut2))), //->chi2 z inner - parabola
+ fHisChi2ZIO1(new TH2F(*(calibLaser.fHisChi2ZIO1))), //->chi2 z IO - common
+ //
+ //
+ fHisPy1vP0(new TH2F(*(calibLaser.fHisPy1vP0))), //-> delta y P0outer-P0inner - line
+ fHisPy2vP0(new TH2F(*(calibLaser.fHisPy2vP0))), //-> delta y P0outer-P0inner - parabola
+ fHisPy3vP0(new TH2F(*(calibLaser.fHisPy3vP0))), //-> delta y P0outer-P0inner - common parabola
+ fHisPy1vP1(new TH2F(*(calibLaser.fHisPy1vP1))), //-> delta ky P1outer-P1inner - line
+ fHisPy2vP1(new TH2F(*(calibLaser.fHisPy2vP1))), //-> delta ky P1outer-P1inner - parabola
+ fHisPy3vP1(new TH2F(*(calibLaser.fHisPy3vP1))), //-> delta ky P1outer-P1inner - common parabola
+ fHisPy2vP2In(new TH2F(*(calibLaser.fHisPy2vP2In))), //-> Curv P2inner - parabola
+ fHisPy2vP2Out(new TH2F(*(calibLaser.fHisPy2vP2Out))), //-> Curv P2outer - parabola
+ fHisPy3vP2IO(new TH2F(*(calibLaser.fHisPy3vP2IO))), //-> Curv P2outerinner - common parabola
+ //
+ //
+ fHisPz1vP0(new TH2F(*(calibLaser.fHisPz1vP0))), //-> delta z P0outer-P0inner - line
+ fHisPz2vP0(new TH2F(*(calibLaser.fHisPz2vP0))), //-> delta z P0outer-P0inner - parabola
+ fHisPz3vP0(new TH2F(*(calibLaser.fHisPz3vP0))), //-> delta z P0outer-P0inner - common parabola
+ fHisPz1vP1(new TH2F(*(calibLaser. fHisPz1vP1))), //-> delta kz P1outer-P1inner - line
+ fHisPz2vP1(new TH2F(*(calibLaser.fHisPz2vP1))), //-> delta kz P1outer-P1inner - parabola
+ fHisPz3vP1(new TH2F(*(calibLaser.fHisPz3vP1))), //-> delta kz P1outer-P1inner - common parabola
+ fHisPz2vP2In(new TH2F(*(calibLaser.fHisPz2vP2In))), //-> Curv P2inner - parabola
+ fHisPz2vP2Out(new TH2F(*(calibLaser. fHisPz2vP2Out))), //-> Curv P2outer - parabola
+ fHisPz3vP2IO(new TH2F(*(calibLaser.fHisPz3vP2IO))), //-> Curv P2outerinner - common parabola
+ //
+ //
+ fDeltaYres(((calibLaser.fDeltaYres))),
+ fDeltaZres(((calibLaser.fDeltaZres))),
+ fDeltaYres2(((calibLaser.fDeltaYres))),
+ fDeltaZres2(((calibLaser.fDeltaZres))),
+ // fDeltaYres3(((calibLaser.fDeltaYres))),
+ //fDeltaZres3(((calibLaser.fDeltaZres))),
+ fFitAside(new TVectorD(3)), // drift fit - A side
+ fFitCside(new TVectorD(3)), // drift fit - C- side
+ fFitACside(new TVectorD(4)), // drift fit - C- side
+ fEdgeXcuts(3), // cuts in local x direction; used in the refit of the laser tracks
+ fEdgeYcuts(3), // cuts in local y direction; used in the refit of the laser tracks
+ fNClCuts(5), // cuts on the number of clusters per tracklet; used in the refit of the laser tracks
+ fNcuts(0) // number of cuts
+{
+ //
+ // copy constructor
+ //
+}
+
+
+
+AliTPCcalibLaser & AliTPCcalibLaser::operator=(const AliTPCcalibLaser& calibLaser){
+ //
+ // assgnment operator
+ //
+ if (this != &calibLaser) {
+ new (this) AliTPCcalibLaser(calibLaser);
+ }
+ return *this;
+
+}
+
+
+
+
AliTPCcalibLaser::~AliTPCcalibLaser() {
//
// destructor
//
+ if ( fHisNclIn){
+ delete fHisNclIn; //->Number of clusters inner
+ delete fHisNclOut; //->Number of clusters outer
+ delete fHisNclIO; //->Number of cluster inner outer
+ delete fHisLclIn; //->Level arm inner
+ delete fHisLclOut; //->Level arm outer
+ delete fHisLclIO; //->Number of cluster inner outer
+ delete fHisdEdx;
+ delete fHisdZfit;
+ //
+ //
+ delete fHisChi2YIn1; //->chi2 y inner - line
+ delete fHisChi2YOut1; //->chi2 y inner - line
+ delete fHisChi2YIn2; //->chi2 y inner - parabola
+ delete fHisChi2YOut2; //->chi2 y inner - parabola
+ delete fHisChi2YIO1; //->chi2 y IO - common
+ delete fHisChi2ZIn1; //->chi2 z inner - line
+ delete fHisChi2ZOut1; //->chi2 z inner - line
+ delete fHisChi2ZIn2; //->chi2 z inner - parabola
+ delete fHisChi2ZOut2; //->chi2 z inner - parabola
+ delete fHisChi2ZIO1; //->chi2 z IO - common
+ //
+ //
+ delete fHisPy1vP0; //-> delta y P0outer-P0inner - line
+ delete fHisPy2vP0; //-> delta y P0outer-P0inner - parabola
+ delete fHisPy3vP0; //-> delta y P0outer-P0inner - common parabola
+ delete fHisPy1vP1; //-> delta ky P1outer-P1inner - line
+ delete fHisPy2vP1; //-> delta ky P1outer-P1inner - parabola
+ delete fHisPy3vP1; //-> delta ky P1outer-P1inner - common parabola
+ delete fHisPy2vP2In; //-> Curv P2inner - parabola
+ delete fHisPy2vP2Out; //-> Curv P2outer - parabola
+ delete fHisPy3vP2IO; //-> Curv P2outerinner - common parabola
+ //
+ //
+ delete fHisPz1vP0; //-> delta z P0outer-P0inner - line
+ delete fHisPz2vP0; //-> delta z P0outer-P0inner - parabola
+ delete fHisPz3vP0; //-> delta z P0outer-P0inner - common parabola
+ delete fHisPz1vP1; //-> delta kz P1outer-P1inner - line
+ delete fHisPz2vP1; //-> delta kz P1outer-P1inner - parabola
+ delete fHisPz3vP1; //-> delta kz P1outer-P1inner - common parabola
+ delete fHisPz2vP2In; //-> Curv P2inner - parabola
+ delete fHisPz2vP2Out; //-> Curv P2outer - parabola
+ delete fHisPz3vP2IO; //-> Curv P2outerinner - common parabola
+ }
+ //
+ //
+ //
+ fDeltaZ.SetOwner(); //-> array of histograms of delta z for each track
+ fDeltaP3.SetOwner(); //-> array of histograms of P3 for each track
+ fDeltaP4.SetOwner(); //-> array of histograms of P4 for each track
+ fDeltaPhi.SetOwner(); //-> array of histograms of delta z for each track
+ fDeltaPhiP.SetOwner(); //-> array of histograms of delta z for each track
+ fSignals.SetOwner(); //->Array of dedx signals
+
+ fDeltaZ.Delete(); //-> array of histograms of delta z for each track
+ fDeltaP3.Delete(); //-> array of histograms of P3 for each track
+ fDeltaP4.Delete(); //-> array of histograms of P4 for each track
+ fDeltaPhi.Delete(); //-> array of histograms of delta z for each track
+ fDeltaPhiP.Delete(); //-> array of histograms of delta z for each track
+ fSignals.Delete(); //->Array of dedx signals
+
+ fDeltaYres.SetOwner();
+ fDeltaYres.Delete();
+ fDeltaZres.SetOwner();
+ fDeltaZres.Delete();
+ fDeltaYres2.SetOwner();
+ fDeltaYres2.Delete();
+ fDeltaZres2.SetOwner();
+ fDeltaZres2.Delete();
+
+
}
void AliTPCcalibLaser::Process(AliESDEvent * event) {
//
- //
+ //
// Loop over tracks and call Process function
//
+ Int_t kMinTracks=20;
fESD = event;
if (!fESD) {
return;
if (!fESDfriend) {
return;
}
+ if (fESD->GetNumberOfTracks()<kMinTracks) return; //not enough tracks
+ AliDebug(4,Form("Event number in current file: %d",event->GetEventNumberInFile()));
fTracksTPC.Clear();
fTracksEsd.Clear();
fTracksEsdParam.Delete();
+ for (Int_t id=0; id<336;id++) {
+ fCounter[id]=0;
+ fClusterCounter[id]=0;
+ fClusterSatur[id]=0;
+ }
+ static Bool_t init=kFALSE;
+ if (!init){
+ init = kTRUE; // way around for PROOF - to be investigated
+ MakeFitHistos();
+ }
//
Int_t n=fESD->GetNumberOfTracks();
- Int_t run = fESD->GetRunNumber();
- fRun = run;
+ Int_t counter=0;
for (Int_t i=0;i<n;++i) {
AliESDfriendTrack *friendTrack=fESDfriend->GetTrack(i);
AliESDtrack *track=fESD->GetTrack(i);
for (Int_t j=0;(calibObject=friendTrack->GetCalibObject(j));++j)
if ((seed=dynamic_cast<AliTPCseed*>(calibObject)))
break;
- if (track&&seed) FindMirror(track,seed);
+ if (track&&seed &&TMath::Abs(track->Pt()) >1 ) {
+ //filter CE tracks
+ Int_t id = FindMirror(track,seed);
+ if (id>0) counter++;
+ }
//
- }
-
+ }
+ if (counter<kMinTracks) return;
+
FitDriftV();
- MakeDistHisto();
+ if (!fFullCalib) return;
//
- for (Int_t id=0; id<336; id++){
- //
+ for (Int_t id=0; id<336; id++){
//
if (!fTracksEsdParam.At(id)) continue;
+ if (fClusterSatur[id]>0.3) continue; // tracks in saturation
DumpLaser(id);
- RefitLaser(id);
-
+ if ( AcceptLaser(id) && fFitZ[id]<0.5){
+ RefitLaserJW(id);
+ MakeDistHisto(id);
+ }
}
+
}
-void AliTPCcalibLaser::MakeDistHisto(){
+void AliTPCcalibLaser::MakeDistHisto(Int_t id){
//
//
//
- for (Int_t id=0; id<336; id++){
+ // for (Int_t id=0; id<336; id++){
//
//
- if (!fTracksEsdParam.At(id)) continue;
- if (!AcceptLaser(id)) continue;
+ if (!fTracksEsdParam.At(id)) return;
+ if (!AcceptLaser(id)) return;
//
//
TH1F * hisdz = (TH1F*)fDeltaZ.At(id);
+ if (!hisdz) MakeFitHistos();
+ hisdz = (TH1F*)fDeltaZ.At(id);
+ TH1F * hisP3 = (TH1F*)fDeltaP3.At(id);
+ TH1F * hisP4 = (TH1F*)fDeltaP4.At(id);
TH1F * hisdphi = (TH1F*)fDeltaPhi.At(id);
TH1F * hisdphiP = (TH1F*)fDeltaPhiP.At(id);
TH1F * hisSignal = (TH1F*)fSignals.At(id);
-
- if (!hisdz){
- hisdz = new TH1F(Form("hisdz%d",id),Form("hisdz%d",id),1000,-10,10);
- hisdz->SetDirectory(0);
- fDeltaZ.AddAt(hisdz,id);
- //
- hisdphi = new TH1F(Form("hisdphi%d",id),Form("hisdphi%d",id),1000,-1,1);
- hisdphi->SetDirectory(0);
- fDeltaPhi.AddAt(hisdphi,id);
- //
- hisdphiP = new TH1F(Form("hisdphiP%d",id),Form("hisdphiP%d",id),1000,-0.01,0.01);
- hisdphiP->SetDirectory(0);
- fDeltaPhiP.AddAt(hisdphiP,id);
- hisSignal = new TH1F(Form("hisSignal%d",id),Form("hisSignal%d",id),1000,0,1000);
- hisSignal->SetDirectory(0);
- fSignals.AddAt(hisSignal,id);
- }
+ //
AliExternalTrackParam *param=(AliExternalTrackParam*)fTracksEsdParam.At(id);
AliTPCLaserTrack *ltrp = ( AliTPCLaserTrack*)fTracksMirror.At(id);
Float_t dphi = (TMath::ATan2(xyz[1],xyz[0])- TMath::ATan2(lxyz[1],lxyz[0]))*254.;
Float_t dphiP = param->GetParameter()[2]-ltrp->GetParameter()[2];
if (hisdz) hisdz->Fill(dz);
+ if (hisP3) hisP3->Fill(param->GetParameter()[3]);
+ if (hisP4) hisP4->Fill(param->GetParameter()[4]);
if (hisdphi) hisdphi->Fill(dphi);
- if (hisdphiP) hisdphiP->Fill(dphiP);
- if (hisSignal) hisSignal->Fill(track->GetTPCsignal());
- }
+ if (hisdphiP) hisdphiP->Fill(dphiP);
+ if (hisSignal) hisSignal->Fill(TMath::Sqrt(TMath::Abs(track->GetTPCsignal())));
+ // }
}
void AliTPCcalibLaser::FitDriftV(){
//
- // Fit drift velocity - linear approximation in the z and global y
- //
+ // Fit corrections to the drift velocity - linear approximation in the z and global y
+ //The transfromatiom from the drift time to the z position done in AliTPCTracnsform class
+ //
+ /*
+ Formulas:
+
+ z = s* (z0 - vd*(t-t0))
+
+ s - side -1 and +1
+ t0 - time 0
+ vd - nominal drift velocity
+ zs - miscalibrated position
+
+ zs = s*(z0 - vd*(1+vr)*(t-(t0+dt))
+ vr - relative change of the drift velocity
+ dzt - vd*dt
+ dr = zz0-s*z
+ ..
+ ==>
+ zs ~ z - s*vr*(z0-s*z)+s*dzt
+ --------------------------------
+ 1. Correction function vr constant:
+
+
+ dz = zs-z = -s*vr *(z0-s*z)+s*dzt
+ dzs/dl = dz/dl +s*s*vr*dz/dl
+ d(dz/dl) = vr*dz/dl
+ */
+
+ const Float_t kZCut = 240; // remove the closest laser beam
+ const Float_t kSaturCut = 0.05; // remove saturated lasers - cut on fraction of saturated
+ const Float_t kDistCut = 3; // distance sigma cut
+ const Float_t kDistCutAbs = 0.25;
+ const Float_t kMinClusters = 60; // minimal amount of the clusters
+ const Float_t kMinSignal = 16; // minimal mean height of the signal
+ const Float_t kChi2Cut = 0.1; // chi2 cut to accept drift fit
static TLinearFitter fdriftA(3,"hyp2");
static TLinearFitter fdriftC(3,"hyp2");
- fdriftA.ClearPoints();
- fdriftC.ClearPoints();
+ static TLinearFitter fdriftAC(4,"hyp3");
+ TVectorD fitA(3),fitC(3),fitAC(4);
+
+ AliTPCcalibDB* calib=AliTPCcalibDB::Instance();
+ AliTPCParam * tpcparam = calib->GetParameters();
+
//
- for (Int_t id=0; id<336; id++){
- if (!fTracksEsdParam.At(id)) continue;
- if (!AcceptLaser(id)) continue;
- AliExternalTrackParam *param=(AliExternalTrackParam*)fTracksEsdParam.At(id);
- AliTPCLaserTrack *ltrp = ( AliTPCLaserTrack*)fTracksMirror.At(id);
- Double_t xyz[3];
- Double_t pxyz[3];
- Double_t lxyz[3];
- Double_t lpxyz[3];
- param->GetXYZ(xyz);
- param->GetPxPyPz(pxyz);
- ltrp->GetXYZ(lxyz);
- ltrp->GetPxPyPz(lpxyz);
- Double_t xxx[2] = {lxyz[2],lxyz[1]};
- if (ltrp->GetSide()==0){
- fdriftA.AddPoint(xxx,xyz[2],1);
- }else{
- fdriftC.AddPoint(xxx,xyz[2],1);
- }
- }
- Float_t chi2A = 0;
- Float_t chi2C = 0;
+ for (Int_t id=0; id<336; id++) fFitZ[id]=0;
+
+ Float_t chi2A = 10;
+ Float_t chi2C = 10;
+ Float_t chi2AC = 10;
Int_t npointsA=0;
Int_t npointsC=0;
- //
- if (fdriftA.GetNpoints()>10){
- fdriftA.Eval();
- fdriftA.EvalRobust(0.8);
- fdriftA.GetParameters(*fFitAside);
- npointsA= fdriftA.GetNpoints();
- chi2A = fdriftA.GetChisquare()/fdriftA.GetNpoints();
- }
- if (fdriftC.GetNpoints()>10){
- fdriftC.Eval();
- fdriftC.EvalRobust(0.8);
- fdriftC.GetParameters(*fFitCside);
- npointsC= fdriftC.GetNpoints();
- chi2C = fdriftC.GetChisquare()/fdriftC.GetNpoints();
- }
-
- if (fStreamLevel>0){
- TTreeSRedirector *cstream = GetDebugStreamer();
- Int_t time = fESD->GetTimeStamp();
- if (cstream){
- (*cstream)<<"driftv"<<
- "driftA.="<<fFitAside<<
- "driftC.="<<fFitCside<<
- "chi2A="<<chi2A<<
- "chi2C="<<chi2C<<
- "nA="<<npointsA<<
- "nC="<<npointsC<<
- "time="<<time<<
- "\n";
+ Int_t npointsAC=0;
+
+
+ for (Int_t iter=0; iter<3; iter++){
+ fdriftA.ClearPoints();
+ fdriftC.ClearPoints();
+ fdriftAC.ClearPoints();
+ //
+ for (Int_t id=0; id<336; id++){
+ if (!fTracksEsdParam.At(id)) continue;
+ if (!AcceptLaser(id)) continue;
+ if ( fClusterSatur[id]>kSaturCut) continue;
+ if ( fClusterCounter[id]<kMinClusters) continue;
+ AliESDtrack *track = (AliESDtrack*)fTracksEsd.At(id);
+ if (track->GetTPCsignal()<kMinSignal) continue;
+ AliExternalTrackParam *param=(AliExternalTrackParam*)fTracksEsdParam.At(id);
+ AliTPCLaserTrack *ltrp = ( AliTPCLaserTrack*)fTracksMirror.At(id);
+
+ Double_t xyz[3];
+ Double_t pxyz[3];
+ Double_t lxyz[3];
+ Double_t lpxyz[3];
+ param->GetXYZ(xyz);
+ param->GetPxPyPz(pxyz);
+ ltrp->GetXYZ(lxyz);
+ ltrp->GetPxPyPz(lpxyz);
+ if (TMath::Abs(lxyz[2])>kZCut) continue;
+ Float_t sz = (ltrp->GetSide()==0) ? TMath::Sqrt(chi2A): TMath::Sqrt(chi2C);
+ if (npointsAC>0) sz =TMath::Sqrt(chi2AC);
+ if (TMath::Abs(fFitZ[id])>sz*kDistCut) continue;
+ if (iter>0 && TMath::Abs(fFitZ[id])>kDistCutAbs) continue;
+
+ // drift distance
+ Double_t zlength = tpcparam->GetZLength(0);
+ Double_t ldrift = zlength-TMath::Abs(lxyz[2]);
+ Double_t mdrift = zlength-TMath::Abs(xyz[2]);
+ Double_t xxx[2] = {ldrift,lxyz[1]*ldrift/(zlength*250.)};
+ if (ltrp->GetSide()==0){
+ fdriftA.AddPoint(xxx,mdrift,1);
+ }else{
+ fdriftC.AddPoint(xxx,mdrift,1);
+ }
+ Double_t xxx2[3] = {ltrp->GetSide(), ldrift,lxyz[1]*ldrift/(zlength*250.)};
+ fdriftAC.AddPoint(xxx2,mdrift,1);
+ }
+ //
+ if (fdriftA.GetNpoints()>10){
+ //
+ fdriftA.Eval();
+ if (iter==0) fdriftA.EvalRobust(0.7);
+ else fdriftA.EvalRobust(0.8);
+ fdriftA.GetParameters(fitA);
+ npointsA= fdriftA.GetNpoints();
+ chi2A = fdriftA.GetChisquare()/fdriftA.GetNpoints();
+ if (chi2A<kChi2Cut ||(*fFitAside)[0]==0 ) (*fFitAside) = fitA;
+ }
+ if (fdriftC.GetNpoints()>10){
+ fdriftC.Eval();
+ if (iter==0) fdriftC.EvalRobust(0.7);
+ else fdriftC.EvalRobust(0.8);
+ //
+ fdriftC.GetParameters(fitC);
+ npointsC= fdriftC.GetNpoints();
+ chi2C = fdriftC.GetChisquare()/fdriftC.GetNpoints();
+ if (chi2C<kChi2Cut||(*fFitCside)[0]==0) (*fFitCside) = fitC;
+ }
+
+ if (fdriftAC.GetNpoints()>10&&fdriftC.GetNpoints()>10&&fdriftA.GetNpoints()>10){
+ fdriftAC.Eval();
+ if (iter==0) fdriftAC.EvalRobust(0.7);
+ else fdriftAC.EvalRobust(0.8);
+ //
+ fdriftAC.GetParameters(fitAC);
+ npointsAC= fdriftAC.GetNpoints();
+ chi2AC = fdriftAC.GetChisquare()/fdriftAC.GetNpoints();
+ if (chi2AC<kChi2Cut||(*fFitACside)[0]==0) (*fFitACside) = fitAC;
}
+
+ for (Int_t id=0; id<336; id++){
+ if (!fTracksEsdParam.At(id)) continue;
+ //
+ AliExternalTrackParam *param=(AliExternalTrackParam*)fTracksEsdParam.At(id);
+ AliTPCLaserTrack *ltrp = ( AliTPCLaserTrack*)fTracksMirror.At(id);
+ Double_t xyz[3];
+ Double_t pxyz[3];
+ Double_t lxyz[3];
+ Double_t lpxyz[3];
+ param->GetXYZ(xyz);
+ param->GetPxPyPz(pxyz);
+ ltrp->GetXYZ(lxyz);
+ ltrp->GetPxPyPz(lpxyz);
+ Double_t zlength = tpcparam->GetZLength(0);
+ Double_t ldrift = zlength-TMath::Abs(lxyz[2]);
+ Double_t mdrift = zlength-TMath::Abs(xyz[2]);
+
+ Float_t fz =0;
+ if (ltrp->GetSide()==0){
+ fz = (fitA)[0]+(fitA)[1]*ldrift+(fitA)[2]*lxyz[1]*ldrift/(zlength*250.);
+ }else{
+ fz = (fitC)[0]+(fitC)[1]*ldrift+(fitC)[2]*lxyz[1]*ldrift/(zlength*250.);
+ }
+ if (npointsAC>10){
+ fz = (fitAC)[0]+(fitAC)[1]*ltrp->GetSide()+(fitAC)[2]*ldrift+(fitAC)[3]*lxyz[1]*ldrift/(zlength*250.);
+ }
+ fFitZ[id]=mdrift-fz;
+ }
+ if (fStreamLevel>0){
+ TTreeSRedirector *cstream = GetDebugStreamer();
+ TTimeStamp tstamp(fTime);
+ Float_t valuePressure0 = AliTPCcalibDB::GetPressure(tstamp,fRun,0);
+ Float_t valuePressure1 = AliTPCcalibDB::GetPressure(tstamp,fRun,1);
+ Double_t ptrelative0 = AliTPCcalibDB::GetPTRelative(tstamp,fRun,0);
+ Double_t ptrelative1 = AliTPCcalibDB::GetPTRelative(tstamp,fRun,1);
+ Double_t temp0 = AliTPCcalibDB::GetTemperature(tstamp,fRun,0);
+ Double_t temp1 = AliTPCcalibDB::GetTemperature(tstamp,fRun,1);
+ TVectorD vecGoofie(20);
+ AliDCSSensorArray* goofieArray = AliTPCcalibDB::Instance()->GetGoofieSensors(fRun);
+ if (goofieArray)
+ for (Int_t isensor=0; isensor<goofieArray->NumSensors();isensor++){
+ AliDCSSensor *gsensor = goofieArray->GetSensor(isensor);
+ if (gsensor) vecGoofie[isensor]=gsensor->GetValue(tstamp);
+ }
+
+ if (cstream){
+ (*cstream)<<"driftv"<<
+ "run="<<fRun<< // run number
+ "event="<<fEvent<< // event number
+ "time="<<fTime<< // time stamp of event
+ "trigger="<<fTrigger<< // trigger
+ "mag="<<fMagF<< // magnetic field
+ // Environment values
+ "press0="<<valuePressure0<<
+ "press1="<<valuePressure1<<
+ "pt0="<<ptrelative0<<
+ "pt1="<<ptrelative1<<
+ "temp0="<<temp0<<
+ "temp1="<<temp1<<
+ "vecGoofie.="<<&vecGoofie<<
+ //
+ //
+ "iter="<<iter<<
+ "driftA.="<<fFitAside<<
+ "driftC.="<<fFitCside<<
+ "driftAC.="<<fFitACside<<
+ "chi2A="<<chi2A<<
+ "chi2C="<<chi2C<<
+ "chi2AC="<<chi2AC<<
+ "nA="<<npointsA<<
+ "nC="<<npointsC<<
+ "nAC="<<npointsAC<<
+ "\n";
+ }
+ }
+ }
+}
+
+Float_t AliTPCcalibLaser::GetDistance(AliExternalTrackParam *param, AliTPCLaserTrack *ltrp){
+ //
+ // get distance between mirror and laser track
+ //
+ //
+ Double_t xyz[3];
+ Double_t lxyz[3];
+ param->GetXYZ(xyz);
+ ltrp->GetXYZ(lxyz);
+ //
+ //
+ Double_t dist = 0;
+ //radial distance
+ dist+=TMath::Abs((TMath::ATan2(xyz[1],xyz[0])-TMath::ATan2(lxyz[1],lxyz[0]))*param->GetX());
+ //
+ // z distance
+ // apply drift correction if already exist
+ //
+ Float_t dz = 0;
+ if (ltrp->GetSide()==0){
+ if ((*fFitAside)[1]>0.) dz = ((*fFitAside)[0]+(*fFitAside)[1]*lxyz[2]+(*fFitAside)[2]*lxyz[1])-xyz[2];
+ }else{
+ if ((*fFitCside)[1]>0.) dz = ((*fFitCside)[0]+(*fFitCside)[1]*lxyz[2]+(*fFitCside)[2]*lxyz[1])-xyz[2];
}
+ if (TMath::Abs(dz)>3*(TMath::Abs(lxyz[2]-xyz[2])+1)) dz= TMath::Abs(lxyz[2]-xyz[2]);
+ dist+=TMath::Abs(dz);
//
+ // phi dist - divergence on 50 cm
+ //
+ dist = TMath::Abs((param->GetParameter()[2]-ltrp->GetParameter()[2])*50);
+ return dist;
}
//
//
/*
- TCut cutT("cutT","abs(Tr.fP[3])<0.06");
- TCut cutPt("cutPt","abs(Tr.fP[4])<0.1");
- TCut cutN("cutN","fTPCncls>70");
- TCut cutP("cutP","abs(atan2(x1,x0)-atan2(lx1,lx0))<0.03")
- TCut cutA = cutT+cutPt+cutP;
+ TCut cutP0("cutP0","abs((atan2(x1,x0)-atan2(lx1,lx0))*254)<1.5");
+ TCut cutP1("cutP1","abs(LTr.fP[1]-Tr.fP[1])<30");
+ TCut cutP2("cutP2","abs(LTr.fP[2]-Tr.fP[2])<0.03");
+ TCut cutP3("cutP3","abs(Tr.fP[3])<0.05");
+ TCut cutP4("cutPt","abs(Tr.fP[4])<0.1");
+
+ TCut cutA = cutP0+cutP1+cutP2+cutP3+cutP4;
*/
AliExternalTrackParam *param =(AliExternalTrackParam*)fTracksEsdParam.At(id);
AliTPCLaserTrack *ltrp = ( AliTPCLaserTrack*)fTracksMirror.At(id);
- AliESDtrack *track = (AliESDtrack*)fTracksEsd.At(id);
-
- if (TMath::Abs(param->GetParameter()[4])>0.03) return kFALSE;
- if (TMath::Abs(param->GetParameter()[3])>0.06) return kFALSE;
- if (TMath::Abs(param->GetParameter()[2]-ltrp->GetParameter()[2])>0.06) return kFALSE;
- if (TMath::Abs(param->GetParameter()[1]-ltrp->GetParameter()[1])>10) return kFALSE;
- //
- // dedx cut
+ //AliESDtrack *track = (AliESDtrack*)fTracksEsd.At(id);
+ Double_t xyz[3];
+ Double_t lxyz[3];
+ param->GetXYZ(xyz);
+ ltrp->GetXYZ(lxyz);
+ if (TMath::Abs((TMath::ATan2(xyz[1],xyz[0])-TMath::ATan2(lxyz[1],lxyz[0]))*254)>1.5) return kFALSE; //cut y- P0
+ if (TMath::Abs(param->GetParameter()[1]-ltrp->GetParameter()[1])>30) return kFALSE; // cutZ -P1
+ if (TMath::Abs(param->GetParameter()[2]-ltrp->GetParameter()[2])>0.03) return kFALSE; // cut -P2
+ if (TMath::Abs(param->GetParameter()[3])>0.05) return kFALSE; // cut Tl -P3
+ if (TMath::Abs(param->GetParameter()[4])>0.1) return kFALSE; // cut Pt -P4
//
- if (TMath::Abs(track->GetTPCsignal())<20) return kFALSE;
- if (TMath::Abs(track->GetTPCsignal())>800) return kFALSE;
//
- return kTRUE;
+
+ return kTRUE;
}
Int_t AliTPCcalibLaser::FindMirror(AliESDtrack *track, AliTPCseed *seed){
//
// Find corresponding mirror
// add the corresponding tracks
- //
- Float_t kRadius0 = 252;
- Float_t kRadius = 253.4;
+
+
+ Float_t kRadius0 = 252;
+ Float_t kRadius = 253.4;
+
if (!track->GetOuterParam()) return -1;
AliExternalTrackParam param(*(track->GetOuterParam()));
AliTracker::PropagateTrackTo(¶m,kRadius0,0.10566,3,kTRUE);
AliTracker::PropagateTrackTo(¶m,kRadius,0.10566,0.1,kTRUE);
AliTPCLaserTrack ltr;
AliTPCLaserTrack *ltrp=0x0;
+ // AliTPCLaserTrack *ltrpjw=0x0;
//
- Int_t id = AliTPCLaserTrack::IdentifyTrack(¶m);
- if (id!=-1 && (AliTPCLaserTrack::GetTracks()->UncheckedAt(id)))
+ Int_t id = AliTPCLaserTrack::IdentifyTrack(¶m);
+ // Int_t idjw = AliTPCLaserTrack::IdentifyTrackJW(¶m);
+ //AliDebug(4,Form("Identified Track: %03d (%03d)",id,idjw));
+
+ if (id!=-1 && (AliTPCLaserTrack::GetTracks()->UncheckedAt(id)))
ltrp=(AliTPCLaserTrack*)AliTPCLaserTrack::GetTracks()->UncheckedAt(id);
- else
+ else
ltrp=<r;
+
+ if (id<0) return id;
+ fCounter[id]++;
+ //
+ //
+ //
+ Int_t countercl=0;
+ Float_t counterSatur=0;
+ for (Int_t irow=158;irow>-1;--irow) {
+ AliTPCclusterMI *c=seed->GetClusterPointer(irow);
+ if (!c) continue;
+ Double_t pedgeY = c->GetX()*TMath::DegToRad()*(10)-TMath::Abs(c->GetY());
+ Double_t pedgeX = TMath::Min((irow)*0.75, (159.-irow)*1.5);
+ if (pedgeY<3) continue;
+ if (pedgeX<3) continue;
+ countercl++;
+ if (c->GetMax()>900) counterSatur++;
+ }
+ counterSatur/=(countercl+1);
+ //
+ if (counterSatur>fClusterSatur[id]) fClusterSatur[id]=counterSatur;
+ //
+ //
+ Float_t radius=TMath::Abs(ltrp->GetX());
+ AliTracker::PropagateTrackTo(¶m,radius,0.10566,0.01,kTRUE);
+ //
+ if (!fTracksMirror.At(id)) fTracksMirror.AddAt(ltrp,id);
+ Bool_t accept=kTRUE;
+ //
+ // choose closer track
+ //
+ AliExternalTrackParam * param0 = (AliExternalTrackParam *)fTracksEsdParam.At(id);
+ if (param0){
+ Float_t dist0=GetDistance(param0,ltrp);
+ Float_t dist1=GetDistance(¶m,ltrp);
+ if (dist0<dist1) accept=kFALSE;
+ }
- if (id>=0){
- //
- //
- Float_t radius=TMath::Abs(ltrp->GetX());
- AliTracker::PropagateTrackTo(¶m,radius,0.10566,0.01,kTRUE);
- //
- if (!fTracksMirror.At(id)) fTracksMirror.AddAt(ltrp,id);
+ if (accept){
+ fClusterCounter[id]=countercl;
fTracksEsdParam.AddAt(param.Clone(),id);
fTracksEsd.AddAt(track,id);
fTracksTPC.AddAt(seed,id);
- //
}
-
return id;
}
param->GetPxPyPz(pxyz);
ltrp->GetXYZ(lxyz);
ltrp->GetPxPyPz(lpxyz);
-
+ Float_t dist3D = GetDistance(param,ltrp);
+ Float_t dist0 = (TMath::ATan2(xyz[1],xyz[0])-TMath::ATan2(lxyz[1],lxyz[0]))*param->GetX();
+ Float_t distphi = (param->GetParameter()[2]-ltrp->GetParameter()[2])*50;
+
+
if (fStreamLevel>0){
TTreeSRedirector *cstream = GetDebugStreamer();
Int_t time = fESD->GetTimeStamp();
Bool_t accept = AcceptLaser(id);
if (cstream){
(*cstream)<<"Track"<<
- "run="<<fRun<<
+ //
+ "run="<<fRun<< // run number
+ "event="<<fEvent<< // event number
+ "time="<<fTime<< // time stamp of event
+ "trigger="<<fTrigger<< // trigger
+ "mag="<<fMagF<< // magnetic field
+
"id="<<id<<
"accept="<<accept<<
"driftA.="<<fFitAside<<
"driftC.="<<fFitCside<<
"time="<<time<<
+ "dist3D="<<dist3D<<
+ "dist0="<<dist0<<
+ "distphi="<<distphi<<
+ //
+ //
+ "counter="<<fCounter[id]<<
+ "clcounter="<<fClusterCounter[id]<<
+ "satur="<<fClusterSatur[id]<<
+ "fz="<<fFitZ[id]<<
//
"LTr.="<<ltrp<<
"Esd.="<<track<<
}
}
-
-void AliTPCcalibLaser::RefitLaser(Int_t id){
+void AliTPCcalibLaser::RefitLaserJW(Int_t id){
//
- // Refit the track store residuals
+ // Refit the track with different tracklet models:
+ // 1. Per ROC using the kalman filter, different edge cuts
+ // 2. Per ROC linear in y and z
+ // 3. Per ROC quadratic in y and z
+ // 4. Per track offset for each sector, linear for each sector, common quadratic
+ // store x, y, z information for all models and the cluster to calculate the residuals
//
-
- AliTPCseed *track = (AliTPCseed*)fTracksTPC.At(id);
- AliExternalTrackParam *param=(AliExternalTrackParam*)fTracksEsdParam.At(id);
- AliTPCLaserTrack *ltrp = (AliTPCLaserTrack*)fTracksMirror.At(id);
-
+
+ // The clusters which do not fulfill given criteria are skipped
//
- static TLinearFitter fy2(3,"hyp2");
- static TLinearFitter fz2(3,"hyp2");
- static TLinearFitter fy1(2,"hyp1");
- static TLinearFitter fz1(2,"hyp1");
- static TVectorD vecy2,vecz2,vecy1,vecz1;
-
- const Int_t kMinClusters=20;
- Int_t nclusters[72];
+ // Cluters removed from fit
+ // 1. Extended shape > kShapeCut
+ // 2. In saturation Max > kMax
+ // 3. Distance to edge < cutEdge
//
- for (Int_t i=0;i<72;++i) nclusters[i]=0;
+ // Clusters not used for the calibration:
+ //
+ // 1. Extended shape > kShapeCut
+ // 2. In saturation Max > kMax
+
- for (Int_t i=0;i<160;++i) {
- AliTPCclusterMI *c=track->GetClusterPointer(i);
- if (c) nclusters[c->GetDetector()]++;
+ AliTPCseed *track = (AliTPCseed*)fTracksTPC.At(id);
+ AliExternalTrackParam *extparam=(AliExternalTrackParam*)fTracksEsdParam.At(id);
+ AliTPCLaserTrack *ltrp = (AliTPCLaserTrack*)fTracksMirror.At(id);
+
+ AliTPCclusterMI dummyCl;
+
+ //two tracklets
+ Int_t kMaxTracklets=2;
+ Float_t kShapeCut = 1.3;
+ Float_t kRatioCut = 2.;
+
+ Float_t kMax = 900.;
+
+
+ //=============================================//
+ // Linear Fitters for the Different Approaches //
+ //=============================================//
+ //linear fit model in y and z; inner - outer sector
+ static TLinearFitter fy1I(2,"hyp1");
+ static TLinearFitter fy1O(2,"hyp1");
+ static TLinearFitter fz1I(2,"hyp1");
+ static TLinearFitter fz1O(2,"hyp1");
+ //quadratic fit model in y and z; inner - sector
+ static TLinearFitter fy2I(3,"hyp2");
+ static TLinearFitter fy2O(3,"hyp2");
+ static TLinearFitter fz2I(3,"hyp2");
+ static TLinearFitter fz2O(3,"hyp2");
+ //common quadratic fit for IROC and OROC in y and z
+ static TLinearFitter fy4(5,"hyp4");
+ static TLinearFitter fz4(5,"hyp4");
+
+
+ //set standard cuts
+ if ( fNcuts==0 ){
+ fNcuts=1;
+ fEdgeXcuts[0]=4;
+ fEdgeYcuts[0]=3;
+ fNClCuts[0]=20;
}
-
- for (Int_t isec=0; isec<72;isec++){
- if (nclusters[isec]<kMinClusters) continue;
- fy2.ClearPoints();
- fz2.ClearPoints();
- fy1.ClearPoints();
- fz1.ClearPoints();
- //
- for (Int_t irow=0;irow<160;++irow) {
- AliTPCclusterMI *c=track->GetClusterPointer(irow);
- //if (c && RejectCluster(c)) continue;
- if (c&&c->GetDetector()==isec) {
- Double_t xd = c->GetX()-120;;
- Double_t x[2]={xd,xd*xd};
- fy2.AddPoint(x,c->GetY());
- fz2.AddPoint(x,c->GetZ());
+ //=============================//
+ // Loop over all Tracklet Cuts //
+ //=============================//
+ for (Int_t icut=0; icut<fNcuts; icut++){
+ Float_t xinMin = 2500, xinMax=-90;
+ Float_t xoutMin=2500, xoutMax=-90;
+ Float_t msigmaYIn=0;
+ Float_t msigmaYOut=0;
+ Float_t mqratioIn=0;
+ Float_t mqratioOut=0;
+
+
+ AliDebug(4,Form("Processing cut %d for track with ID %d",icut,id));
+ //cut parameters
+ Double_t edgeCutX = fEdgeXcuts[icut];
+ Double_t edgeCutY = fEdgeYcuts[icut];
+ Int_t nclCut = (Int_t)fNClCuts[icut];
+ //=========================//
+ // Parameters to calculate //
+ //=========================//
+ //fit parameter inner, outer tracklet and combined fit
+ TVectorD vecy1resInner(2),vecz1resInner(2); //pol1 fit parameters inner
+ TVectorD vecy2resInner(3),vecz2resInner(3); //pol2 fit parameters inner
+ //
+ TVectorD vecy1resOuter(2),vecz1resOuter(2); //pol1 fit parameters outer
+ TVectorD vecy2resOuter(3),vecz2resOuter(3); //pol2 fit parameters outer
+ TVectorD vecy4res(5),vecz4res(5);
+ // cluster and track positions for each row - used for residuals
+ TVectorD vecgX(159); // global X
+ TVectorD vecgY(159); // global Y
+ TVectorD vecgZ(159); // global Z
+
+ TVectorD vecX(159); // x is the same for all (row center)
+ TVectorD vecYkalman(159); // y from kalman fit
+ TVectorD vecZkalman(159); // z from kalman fit
+ TVectorD vecY1(159); // y from pol1 fit per ROC
+ TVectorD vecZ1(159); // z from pol1 fit per ROC
+ TVectorD vecY2(159); // y from pol2 fit per ROC
+ TVectorD vecZ2(159); // z from pol2 fit per ROC
+ TVectorD vecY4(159); // y from sector fit
+ TVectorD vecZ4(159); // z from sector fit
+ TVectorD vecClY(159); // y cluster position
+ TVectorD vecClZ(159); // z cluster position
+ TVectorD vecSec(159); // sector for each row
+ TVectorD isReject(159); // flag - cluster to be rejected
+ //chi2 of fits
+ Double_t chi2I1z=0; // chi2 of pol1 fit in z (inner)
+ Double_t chi2I1y=0; // chi2 of pol1 fit in y (inner)
+ Double_t chi2O1z=0; // chi2 of pol1 fit in z (outer)
+ Double_t chi2O1y=0; // chi2 of pol1 fit in y (outer)
+ Double_t chi2I2z=0; // chi2 of pol2 fit in z (inner)
+ Double_t chi2I2y=0; // chi2 of pol2 fit in y (inner)
+ Double_t chi2O2z=0; // chi2 of pol2 fit in z (outer)
+ Double_t chi2O2y=0; // chi2 of pol2 fit in y (outer)
+ Double_t chi2IOz=0; // chi2 of hyp4 fit in z (inner+outer)
+ Double_t chi2IOy=0; // chi2 of hyp4 fit in y (inner+outer)
+ //more
+ Int_t innerSector = -1; // number of inner sector
+ Int_t outerSector = -1; // number of outer sector
+ Int_t nclI=0; // number of clusters (inner)
+ Int_t nclO=0; // number of clusters (outer)
+ //=================================================//
+ // Perform the Kalman Fit using the Tracklet Class //
+ //=================================================//
+ AliTPCTracklet::SetEdgeCut(edgeCutX,edgeCutY);
+ TObjArray tracklets=
+ AliTPCTracklet::CreateTracklets(track,AliTPCTracklet::kKalman,
+ kFALSE,nclCut,kMaxTracklets);
+ // tracklet pointers
+ AliTPCTracklet *trInner = (AliTPCTracklet*)tracklets.At(0);
+ AliTPCTracklet *trOuter = (AliTPCTracklet*)tracklets.At(1);
+ AliTPCTracklet *tr=0x0;
+ AliTPCTracklet dummy;
+ //continue if we didn't find a tracklet
+ if ( !trInner && !trOuter ) continue;
+ //================================================================================//
+ // Swap Inner and Outer if necessary (inner sector is definde by smaller local x) //
+ //================================================================================//
+ if ( trInner && trOuter ){
+ if ( !trInner->GetInner() || !trOuter->GetInner() ) continue;
+ if ( trInner->GetInner()->GetX() > trOuter->GetInner()->GetX() ){
+ tr = trInner;
+ trInner=trOuter;
+ trOuter=tr;
+ AliDebug(5,Form("Swapped Sectors: %02d (%f) <-> %02d (%f)", trOuter->GetSector(), trOuter->GetInner()->GetX(), trInner->GetSector(), trInner->GetInner()->GetX()));
+ }
+ } else {
+ if ( trInner ){
+ if ( !trInner->GetInner() ) continue;
+ trOuter=&dummy;
+ if ( trInner->GetSector()>35 ){
+ trOuter=trInner;
+ trInner=&dummy;
+ }
+ } else { //trOuter
+ if ( !trOuter->GetInner() ) continue;
+ trInner=&dummy;
+ if ( trOuter->GetSector()<36 ){
+ trInner=trOuter;
+ trOuter=&dummy;
+ }
+ }
+ }
+ innerSector = trInner->GetSector();
+ if ( innerSector>=0 ) AliDebug(5,Form("Found inner Sector %02d at X %.2f", innerSector, trInner->GetInner()->GetX()));
+ outerSector = trOuter->GetSector();
+ if ( outerSector>=0 ) AliDebug(5,Form("Found outer Sector %02d at X %.2f", outerSector, trOuter->GetInner()->GetX()));
+
+ // array of clusters
+ TClonesArray arrCl("AliTPCclusterMI",159);
+ arrCl.ExpandCreateFast(159);
+ //=======================================//
+ // fill fitters with cluster information //
+ //=======================================//
+ AliDebug(3,"Filing Cluster Information");
+
+ //
+ //
+
+ for (Int_t irow=158;irow>-1;--irow) {
+ AliTPCclusterMI *c=track->GetClusterPointer(irow);
+ AliTPCclusterMI &cl = (AliTPCclusterMI&) (*arrCl[irow]);
+ cl=dummyCl;
+ vecX[irow] = 0;
+ vecClY[irow] = 0;
+ vecClZ[irow] = 0;
+ Float_t meanY=0, sumY=0;
+ for (Int_t drow=-1;drow<=1;drow++) {
+ if (irow+drow<0) continue;
+ if (irow+drow>158) continue;
+ AliTPCclusterMI *ccurrent=track->GetClusterPointer(irow);
+ if (!ccurrent) continue;
+ Int_t roc = static_cast<Int_t>(ccurrent->GetDetector());
+ if ( roc!=innerSector && roc!=outerSector ) continue;
+ if (ccurrent->GetX()<10) continue;
+ if (ccurrent->GetY()==0) continue;
+ meanY+=ccurrent->GetY();
+ sumY++;
+ }
+ if (sumY>0) meanY/=sumY;
+
+ //
+ vecSec[irow]=-1;
+ if (!c) continue;
+ Double_t pedgeY = c->GetX()*TMath::Tan(TMath::DegToRad()*(10))-TMath::Abs(meanY);
+ Double_t pedgeX = TMath::Min((irow)*0.75, (159.-irow)*1.5);
+
+ //
+ Int_t roc = static_cast<Int_t>(c->GetDetector());
+ if ( roc!=innerSector && roc!=outerSector ) continue;
+ vecSec[irow]=roc;
+ //store clusters in clones array
+ cl=*c;
+ //
+ if (c->GetMax()<4) continue; // noise cluster?
+ if (TMath::Abs(c->GetY())<0.0001) continue; // noise cluster?
+ //cluster position
+ vecX[irow] = c->GetX();
+ vecClY[irow] = c->GetY();
+ vecClZ[irow] = c->GetZ();
+ //
+// Float_t gxyz[3];
+// c->GetGlobalXYZ(gxyz);
+// vecgX[irow] = gxyz[0];
+// vecgY[irow] = gxyz[1];
+// vecgZ[irow] = gxyz[2];
+ //
+ Double_t x = vecX[irow]-133.4; //reference is between IROC and OROC
+ Double_t y = vecClY[irow];
+ Double_t z = vecClZ[irow];
+ //
+ Double_t x2[2]={x,x*x}; //linear and parabolic parameters
+ Double_t x4[4]={0,0,0,0}; //hyp4 parameters
+ if ( roc == innerSector ) {
+ x4[0]=1; //offset inner - outer sector
+ x4[1]=x; //slope parameter inner sector
+ } else {
+ x4[2]=x; //slope parameter outer sector
+ }
+ x4[3]=x*x; //common parabolic shape
+ if (pedgeX < fEdgeXcuts[icut]) continue;
+ if (pedgeY < fEdgeYcuts[icut]) continue;
+ if (c->GetMax()>900) continue; // cluster in saturation
+ //
+ if ( roc==innerSector ){
+ fy1I.AddPoint(x2,y);
+ fz1I.AddPoint(x2,z);
+ fy2I.AddPoint(x2,y);
+ fz2I.AddPoint(x2,z);
+ ++nclI;
+ if (c->GetX()<xinMin) xinMin=c->GetX();
+ if (c->GetX()>xinMax) xinMax=c->GetX();
+
+ msigmaYIn +=TMath::Sqrt(c->GetSigmaY2());
+ mqratioIn +=c->GetMax()/c->GetQ();
+
+ }
+ if ( roc==outerSector ){
+ fy1O.AddPoint(x2,y);
+ fz1O.AddPoint(x2,z);
+ fy2O.AddPoint(x2,y);
+ fz2O.AddPoint(x2,z);
+ ++nclO;
+ if (c->GetX()<xoutMin) xoutMin=c->GetX();
+ if (c->GetX()>xoutMax) xoutMax=c->GetX();
+ msigmaYOut +=TMath::Sqrt(c->GetSigmaY2());
+ mqratioOut +=c->GetMax()/c->GetQ();
+
+ }
+ fy4.AddPoint(x4,y);
+ fz4.AddPoint(x4,z);
+ }
+ if (nclI>0) {
+ msigmaYIn/=nclI;
+ mqratioIn/=nclI;
+ }
+ if (nclO>0) {
+ msigmaYOut/=nclO;
+ mqratioOut/=nclO;
+ }
+ //======================================//
+ // Evaluate and retrieve fit parameters //
+ //======================================//
+ AliDebug(5,Form("Evaluating fits with inner (outer) Sec: %02d (%02d)",innerSector,outerSector));
+ //inner sector
+ if ( (innerSector>-1) && (fy1I.GetNpoints()>0) ){
+ fy1I.Eval();
+ fz1I.Eval();
+ fy2I.Eval();
+ fz2I.Eval();
+ fy1I.GetParameters(vecy1resInner);
+ fz1I.GetParameters(vecz1resInner);
+ fy2I.GetParameters(vecy2resInner);
+ fz2I.GetParameters(vecz2resInner);
+ chi2I1y=fy1I.GetChisquare()/(fy1I.GetNpoints()-2);
+ chi2I1z=fz1I.GetChisquare()/(fz1I.GetNpoints()-2);
+ chi2I2y=fy2I.GetChisquare()/(fy2I.GetNpoints()-3);
+ chi2I2z=fz2I.GetChisquare()/(fz2I.GetNpoints()-3);
+ }
+ //outer sector
+ if ( (outerSector>-1) && (fy1O.GetNpoints()>0) ){
+ fy1O.Eval();
+ fz1O.Eval();
+ fy2O.Eval();
+ fz2O.Eval();
+ fy1O.GetParameters(vecy1resOuter);
+ fz1O.GetParameters(vecz1resOuter);
+ fy2O.GetParameters(vecy2resOuter);
+ fz2O.GetParameters(vecz2resOuter);
+ chi2O1y=fy1O.GetChisquare()/(fy1O.GetNpoints()-2);
+ chi2O1z=fz1O.GetChisquare()/(fz1O.GetNpoints()-2);
+ chi2O2y=fy2O.GetChisquare()/(fy2O.GetNpoints()-3);
+ chi2O2z=fz2O.GetChisquare()/(fz2O.GetNpoints()-3);
+ }
+ //combined hyp4 fit
+ if ( innerSector>0 && outerSector>0 ){
+ if (fy4.GetNpoints()>0) {
+ fy4.Eval();
+ fy4.GetParameters(vecy4res);
+ chi2IOy=fy4.GetChisquare()/(fy4.GetNpoints()-5);
+ }
+ if (fz4.GetNpoints()>0) {
+ fz4.Eval();
+ fz4.GetParameters(vecz4res);
+ chi2IOz=fz4.GetChisquare()/(fz4.GetNpoints()-5);
+ }
+ }
+ //clear points
+ fy4.ClearPoints(); fz4.ClearPoints();
+ fy1I.ClearPoints(); fy1O.ClearPoints();
+ fz1I.ClearPoints(); fz1O.ClearPoints();
+ fy2I.ClearPoints(); fy2O.ClearPoints();
+ fz2I.ClearPoints(); fz2O.ClearPoints();
+ //==============================//
+ // calculate tracklet positions //
+ //==============================//
+ AliDebug(4,"Calculate tracklet positions");
+ for (Int_t irow=158;irow>-1;--irow) {
+ isReject[irow]=0;
+ AliTPCclusterMI *c=track->GetClusterPointer(irow);
+ if ( vecSec[irow]!=innerSector && vecSec[irow]!=outerSector ) { // no cluster in given sectors
+ isReject[irow]+=1;
+ }
+
+ if (!c) { //no cluster
+ isReject[irow]+=2;
+ }else{
+ if (c->GetMax()>kMax){ //saturation
+ isReject[irow]+=4;
+ }
+ if ( vecSec[irow] == outerSector ) { //extended shape
+ if (c->GetMax()/c->GetQ()> mqratioOut*kRatioCut) isReject[irow]+=8;
+ if (TMath::Sqrt(c->GetSigmaY2())>msigmaYOut*kShapeCut) isReject[irow]+=16;
+ }else{
+ if (c->GetMax()/c->GetQ()> mqratioIn*kRatioCut) isReject[irow]+=8;
+ if (TMath::Sqrt(c->GetSigmaY2())>msigmaYIn*kShapeCut) isReject[irow]+=16;
+ }
+ }
+
+
+
+ if ( vecSec[irow]==-1 ) continue; //no cluster info
+ if ( vecSec[irow]!=innerSector && vecSec[irow]!=outerSector ) continue;
+ tr=&dummy;
+ Double_t x=vecX[irow];
+ Double_t xref=x-133.4;
+ //
+ Double_t yoffInner=0;
+ Double_t zoffInner=0;
+ Double_t yslopeInner=0;
+ Double_t yslopeOuter=0;
+ Double_t zslopeInner=0;
+ Double_t zslopeOuter=0;
+ //positions of hyperplane fits
+ if ( vecSec[irow] == outerSector ) {
+ tr=trOuter;
+ vecY1[irow]=vecy1resOuter[0]+vecy1resOuter[1]*xref;
+ vecZ1[irow]=vecz1resOuter[0]+vecz1resOuter[1]*xref;
+ vecY2[irow]=vecy2resOuter[0]+vecy2resOuter[1]*xref+vecy2resOuter[2]*xref*xref;
+ vecZ2[irow]=vecz2resOuter[0]+vecz2resOuter[1]*xref+vecz2resOuter[2]*xref*xref;
+ yslopeOuter=vecy4res[3];
+ zslopeOuter=vecz4res[3];
+ } else {
+ tr=trInner;
+ vecY1[irow]=vecy1resInner[0]+vecy1resInner[1]*xref;
+ vecZ1[irow]=vecz1resInner[0]+vecz1resInner[1]*xref;
+ vecY2[irow]=vecy2resInner[0]+vecy2resInner[1]*xref+vecy2resInner[2]*xref*xref;
+ vecZ2[irow]=vecz2resInner[0]+vecz2resInner[1]*xref+vecz2resInner[2]*xref*xref;
+ yoffInner=vecy4res[1];
+ zoffInner=vecz4res[1];
+ yslopeInner=vecy4res[2];
+ zslopeInner=vecz4res[2];
+ }
+ vecY4[irow]=vecy4res[0]+yoffInner+yslopeInner*xref+yslopeOuter*xref+vecy4res[4]*xref*xref;
+ vecZ4[irow]=vecz4res[0]+zoffInner+zslopeInner*xref+zslopeOuter*xref+vecz4res[4]*xref*xref;
+ //positions of kalman fits
+ Double_t gxyz[3],xyz[3];
+ AliExternalTrackParam *param = 0x0;
+ //
+ param=tr->GetInner();
+ if (param){
+ param->GetXYZ(gxyz);
+ Float_t bz = AliTracker::GetBz(gxyz);
+ param->GetYAt(x, bz, xyz[1]);
+ param->GetZAt(x, bz, xyz[2]);
+ vecYkalman[irow]=xyz[1];
+ vecZkalman[irow]=xyz[2];
+ }
+ //
+ //
+ //
+
+ }
+ //=====================================================================//
+ // write results from the different tracklet fits with debug streamers //
+ //=====================================================================//
+ if (fStreamLevel>4){
+ TTreeSRedirector *cstream = GetDebugStreamer();
+ if (cstream){
+ Float_t dedx = track->GetdEdx();
+ (*cstream)<<"FitModels"<<
+ "run="<<fRun<< // run number
+ "event="<<fEvent<< // event number
+ "time="<<fTime<< // time stamp of event
+ "trigger="<<fTrigger<< // trigger
+ "mag="<<fMagF<< // magnetic field
+ //
+ "cutNr=" << icut <<
+ "edgeCutX=" << edgeCutX <<
+ "edgeCutY=" << edgeCutY <<
+ "nclCut=" << nclCut <<
+ "innerSector="<< innerSector <<
+ "outerSector="<< outerSector <<
+ "dEdx=" << dedx <<
+ "LTr.=" << ltrp <<
+ "Tr.=" << extparam <<
+ "yPol1In.=" << &vecy1resInner <<
+ "zPol1In.=" << &vecz1resInner <<
+ "yPol2In.=" << &vecy2resInner <<
+ "zPol2In.=" << &vecz2resInner <<
+ "yPol1Out.=" << &vecy1resOuter <<
+ "zPol1Out.=" << &vecz1resOuter <<
+ "yPol2Out.=" << &vecy2resOuter <<
+ "zPol2Out.=" << &vecz2resOuter <<
+ "yInOut.=" << &vecy4res <<
+ "zInOut.=" << &vecz4res <<
+ "chi2y1In=" << chi2I1y <<
+ "chi2z1In=" << chi2I1z <<
+ "chi2y1Out=" << chi2O1y <<
+ "chi2z1Out=" << chi2O1z <<
+ "chi2y2In=" << chi2I2y <<
+ "chi2z2In=" << chi2I2z <<
+ "chi2y2Out=" << chi2O2y <<
+ "chi2z2Out=" << chi2O2z <<
+ "chi2yInOut=" << chi2IOy <<
+ "chi2zInOut=" << chi2IOz <<
+ "trletIn.=" << trInner <<
+ "trletOut.=" << trOuter <<
+ "nclI=" << nclI <<
+ "nclO=" << nclO <<
+ "xinMin=" << xinMin<<
+ "xinMax=" << xinMax<<
+ "xoutMin=" << xoutMin<<
+ "xoutMax=" << xoutMax<<
+ "msigmaYIn=" <<msigmaYIn<<
+ "msigmaYOut=" <<msigmaYOut<<
+ "mqratioIn=" <<mqratioIn<<
+ "mqratioOut=" << mqratioOut <<
+ "\n";
+ }
+ }
+
+ // wirte residuals information
+ if (fStreamLevel>5){
+ TTreeSRedirector *cstream = GetDebugStreamer();
+ if (cstream){
+ Float_t dedx = track->GetdEdx();
+ (*cstream)<<"Residuals"<<
+ "run="<<fRun<< // run number
+ "event="<<fEvent<< // event number
+ "time="<<fTime<< // time stamp of event
+ "trigger="<<fTrigger<< // trigger
+ "mag="<<fMagF<< // magnetic field
+ //
+ "cutNr=" << icut <<
+ "edgeCutX=" << edgeCutX <<
+ "edgeCutY=" << edgeCutY <<
+ "nclCut=" << nclCut <<
+ "LTr.=" << ltrp <<
+ "Tr.=" << extparam<<
+ "dEdx=" << dedx <<
+ "Cl.=" << &arrCl <<
+ "vX.=" << &vecgX<< // global x
+ "vY.=" << &vecgY<< // global y
+ "vZ.=" << &vecgZ<< // global z
+ "TrX.=" << &vecX <<
+ "TrYpol1.=" << &vecY1 <<
+ "TrZpol1.=" << &vecZ1 <<
+ "TrYpol2.=" << &vecY2 <<
+ "TrZpol2.=" << &vecZ2 <<
+ "TrYInOut.=" << &vecY4 <<
+ "TrZInOut.=" << &vecZ4 <<
+ "ClY.=" << &vecClY <<
+ "ClZ.=" << &vecClZ <<
+ "isReject.=" << &isReject<<
+ "sec.=" << &vecSec <<
+ "nclI=" << nclI <<
+ "nclO=" << nclO <<
+ "xinMin=" << xinMin<<
+ "xinMax=" << xinMax<<
+ "xoutMin=" << xoutMin<<
+ "xoutMax=" << xoutMax<<
+ "msigmaYIn=" <<msigmaYIn<<
+ "msigmaYOut=" <<msigmaYOut<<
+ "mqratioIn=" <<mqratioIn<<
+ "mqratioOut=" << mqratioOut <<
+ "yInOut.=" << &vecy4res <<
+ "zInOut.=" << &vecz4res <<
+ //chi2s
+ "chi2y1In=" << chi2I1y << //
+ "chi2z1In=" << chi2I1z <<
+ "chi2y1Out=" << chi2O1y <<
+ "chi2z1Out=" << chi2O1z <<
+ "chi2y2In=" << chi2I2y <<
+ "chi2z2In=" << chi2I2z <<
+ "chi2y2Out=" << chi2O2y <<
+ "chi2z2Out=" << chi2O2z <<
+ "chi2yInOut=" << chi2IOy <<
+ "chi2zInOut=" << chi2IOz <<
+ // fit parameters
+ "yPol1In.=" << &vecy1resInner <<
+ "zPol1In.=" << &vecz1resInner <<
+ "yPol2In.=" << &vecy2resInner <<
+ "zPol2In.=" << &vecz2resInner <<
+ "yPol1Out.=" << &vecy1resOuter <<
+ "zPol1Out.=" << &vecz1resOuter <<
+ "yPol2Out.=" << &vecy2resOuter <<
+ "zPol2Out.=" << &vecz2resOuter <<
+
+ "\n";
+
+ }
+ }
+ //==========================//
+ // Fill Residual Histograms //
+ //==========================//
+ if (!fHisNclIn) MakeFitHistos();
+
+ TH2F *profy = (TH2F*)fDeltaYres.UncheckedAt(id);
+ TH2F *profz = (TH2F*)fDeltaZres.UncheckedAt(id);
+ TH2F *profy2 = (TH2F*)fDeltaYres2.UncheckedAt(id);
+ TH2F *profz2 = (TH2F*)fDeltaZres2.UncheckedAt(id);
+ // TH2F *profy3 = (TH2F*)fDeltaYres3.UncheckedAt(id);
+ //TH2F *profz3 = (TH2F*)fDeltaZres3.UncheckedAt(id);
+ //
+ for (Int_t irow=158;irow>-1;--irow) {
+ if (vecSec[irow]==-1)continue; // no cluster info
+ if (isReject[irow]>0.5) continue; //
+ //Double_t x = vecX[irow];
+ Double_t ycl = vecClY[irow];
+ Double_t yfit = vecY1[irow];
+ Double_t yfit2 = vecY2[irow];
+ // Double_t yfit3 = vecY2[irow];
+ Double_t zcl = vecClZ[irow];
+ Double_t zfit = vecZ1[irow];
+ Double_t zfit2 = vecZ2[irow];
+ //Double_t zfit3 = vecZ2[irow];
+
+ if (TMath::Abs(yfit-ycl)<2&&TMath::Abs(zfit-zcl)<2){
+ if (profy){
+ profy->Fill(irow,ycl-yfit);
+ profy2->Fill(irow,ycl-yfit2);
+ // profy3->Fill(irow,ycl-yfit3);
+ }
+ if (profz) {
+ profz->Fill(irow,zcl-zfit);
+ profz2->Fill(irow,zcl-zfit2);
+ //profz3->Fill(irow,zcl-zfit3);
+ }
+ }
+ }
+ //
+ //
+ // Fill laser fit histograms
+ //
+ Float_t dedx = track->GetdEdx();
+ if (nclI>20&&nclO>20){
+ fHisNclIn->Fill(id,nclI); //->Number of clusters inner
+ fHisNclOut->Fill(id,nclO); //->Number of clusters outer
+ fHisNclIO->Fill(id,nclI+nclO); //->Number of cluster inner outer
+ //
+ fHisLclIn->Fill(id,xinMax-xinMin); //->Level arm inner
+ fHisLclOut->Fill(id,xoutMax-xoutMin); //->Level arm outer
+ fHisLclIO->Fill(id,xoutMax-xinMin); //->Number of cluster inner outer
+ //
+ fHisdEdx->Fill(id,TMath::Sqrt(TMath::Abs(dedx)));
+ fHisdZfit->Fill(id,fFitZ[id]);
+ //
//
- fy1.AddPoint(x,c->GetY());
- fz1.AddPoint(x,c->GetZ());
+ fHisChi2YIn1->Fill(id,TMath::Sqrt(chi2I1y)); //->chi2 y inner - line
+ fHisChi2YOut1->Fill(id,TMath::Sqrt(chi2O1y)); //->chi2 y inner - line
+ fHisChi2YIn2->Fill(id,TMath::Sqrt(chi2I2y)); //->chi2 y inner - parabola
+ fHisChi2YOut2->Fill(id,TMath::Sqrt(chi2O2y)); //->chi2 y inner - parabola
+ fHisChi2YIO1->Fill(id,TMath::Sqrt(chi2IOy)); //->chi2 y IO - common
+
+
+ fHisChi2ZIn1->Fill(id,TMath::Sqrt(chi2I1z)); //->chi2 z inner - line
+ fHisChi2ZOut1->Fill(id,TMath::Sqrt(chi2O1z)); //->chi2 z inner - line
+ fHisChi2ZIn2->Fill(id,TMath::Sqrt(chi2O2y)); //->chi2 z inner - parabola
+ fHisChi2ZOut2->Fill(id,TMath::Sqrt(chi2O2z)); //->chi2 z inner - parabola
+ fHisChi2ZIO1->Fill(id,TMath::Sqrt(chi2IOz)); //->chi2 z IO - common
+ //
+ //
+ fHisPy1vP0->Fill(id,vecy1resOuter[0]-vecy1resInner[0]); //-> delta y P0outer-P0inner - line
+ fHisPy2vP0->Fill(id,vecy2resOuter[0]-vecy2resInner[0]); //-> delta y P0outer-P0inner - parabola
+ fHisPy3vP0->Fill(id,vecy4res[1]); //-> delta y P0outer-P0inner - common parabola
+ //
+ fHisPy1vP1->Fill(id,vecy1resOuter[1]-vecy1resInner[1]); //-> delta ky P1outer-P1inner - line
+ fHisPy2vP1->Fill(id,vecy2resOuter[1]-vecy2resInner[1]); //-> delta ky P1outer-P1inner - parabola
+ fHisPy3vP1->Fill(id,vecy4res[3]-vecy4res[2]); //-> delta ky P1outer-P1inner - common parabola
+ //
+ fHisPy3vP2IO->Fill(id,vecy4res[4]); //-> Curv P2outerinner - common parabola
+ fHisPz1vP0->Fill(id,vecz1resOuter[0]-vecz1resInner[0]); //-> delta z P0outer-P0inner - line
+ fHisPz2vP0->Fill(id,vecz2resOuter[0]-vecz2resInner[0]); //-> delta z P0outer-P0inner - parabola
+ fHisPz3vP0->Fill(id,vecz4res[1]); //-> delta z P0outer-P0inner - common parabola
+ //
+ fHisPz1vP1->Fill(id,vecz1resOuter[1]-vecz1resInner[1]); //-> delta kz P1outer-P1inner - line
+ fHisPz2vP1->Fill(id,vecz2resOuter[1]-vecz2resInner[1]); //-> delta kz P1outer-P1inner - parabola
+ fHisPz3vP1->Fill(id,vecz4res[3]-vecz4res[2]); //-> delta kz P1outer-P1inner - common parabola
+ fHisPz3vP2IO->Fill(id,vecz4res[4]); //-> Curv P2outerinner - common parabola
}
- }
- fy2.Eval();
- fz2.Eval();
- fy1.Eval();
- fz1.Eval();
- fy1.GetParameters(vecy1);
- fy2.GetParameters(vecy2);
- fz1.GetParameters(vecz1);
- fz2.GetParameters(vecz2);
-
- if (fStreamLevel>0){
- TTreeSRedirector *cstream = GetDebugStreamer();
- if (cstream){
- Float_t dedx = track->GetdEdx();
- (*cstream)<<"Tracklet"<<
- "LTr.="<<ltrp<<
- "Tr.="<<param<<
- "sec="<<isec<<
- "ncl="<<nclusters[isec]<<
- "dedx="<<dedx<<
- "dedx="<<dedx<<
- "vy1.="<<&vecy1<<
- "vy2.="<<&vecy2<<
- "vz1.="<<&vecz1<<
- "vz2.="<<&vecz2<<
- "\n";
+ if(nclI>20){
+ fHisPy2vP2In->Fill(id,vecy2resInner[2]); //-> Curv P2inner - parabola
+ fHisPz2vP2In->Fill(id,vecz2resInner[2]); //-> Curv P2inner - parabola
}
- }
+ //
+ if (nclO>20){
+ fHisPz2vP2Out->Fill(id,vecz2resOuter[2]); //-> Curv P2outer - parabola
+ fHisPy2vP2Out->Fill(id,vecy2resOuter[2]); //-> Curv P2outer - parabola
+ }
+
}
- //
- //
- //
- // for (Int_t irow=0;irow<160;++irow) {
- // AliTPCclusterMI *c=track->GetClusterPointer(irow);
- // if (c && RejectCluster(c)) continue;
- // if (c&&c->GetDetector()==isec) {
- // Double_t x[2]={c->GetX(),c->GetX()*c->GetX()};
- // fy2.AddPoint(&x,c->GetY());
- // fz2.AddPoint(&x,c->GetZ());
- // //
- // fy1.AddPoint(&x,c->GetY());
- // fz1.AddPoint(&x,c->GetZ());
- // }
- // }
-
}
-void AliTPCcalibLaser::DumpMeanInfo(Float_t bfield,Int_t minEntries){
+
+void AliTPCcalibLaser::DumpMeanInfo(Float_t bfield, Int_t run){
//
// Dump information about laser beams
// isOK variable indicates usability of the beam
TH1F * hisphi = (TH1F*)laser->fDeltaPhi.At(id);
TH1F * hisphiP = (TH1F*)laser->fDeltaPhiP.At(id);
TH1F * hisZ = (TH1F*)laser->fDeltaZ.At(id);
+ TH1F * hisP3 = (TH1F*)laser->fDeltaP3.At(id);
+ TH1F * hisP4 = (TH1F*)laser->fDeltaP4.At(id);
TH1F * hisS = (TH1F*)laser->fSignals.At(id);
- if (!hisphi) continue;;
- Double_t entries = hisphi->GetEntries();
- if (entries<minEntries) continue;
+ //if (!hisphi) continue;
+ Double_t entries = (hisphi==0)? 0: hisphi->GetEntries();
+ //if (entries<minEntries) continue;
//
AliTPCLaserTrack *ltrp = (AliTPCLaserTrack*)fTracksMirror.At(id);
if (!ltrp) {
AliTPCLaserTrack::LoadTracks();
ltrp =(AliTPCLaserTrack*)AliTPCLaserTrack::GetTracks()->UncheckedAt(id);
}
+ pcstream->GetFile()->cd();
+ if (hisphi) hisphi->Write();
+ if (hisphiP) hisphiP->Write();
+ if (hisZ) hisZ->Write();
+ if (hisP3) hisP3->Write();
+ if (hisP4) hisP4->Write();
+
Float_t meanphi = hisphi->GetMean();
Float_t rmsphi = hisphi->GetRMS();
//
Float_t meanZ = hisZ->GetMean();
Float_t rmsZ = hisZ->GetRMS();
hisphi->Fit(&fg,"","",hisphi->GetMean()-4*hisphi->GetRMS(),hisphi->GetMean()+4*hisphi->GetRMS());
- Double_t gphi1 = fg.GetParameter(1);
- Double_t gphi2 = fg.GetParameter(2);
+ Double_t gphi1 = fg.GetParameter(1);
+ Double_t gphi2 = fg.GetParameter(2);
hisphiP->Fit(&fg,"","",hisphiP->GetMean()-4*hisphiP->GetRMS(),hisphiP->GetMean()+4*hisphiP->GetRMS());
- Double_t gphiP1 = fg.GetParameter(1);
- Double_t gphiP2 = fg.GetParameter(2);
+ Double_t gphiP1 = fg.GetParameter(1);
+ Double_t gphiP2 = fg.GetParameter(2);
+ //
hisZ->Fit(&fg,"","",hisZ->GetMean()-4*hisZ->GetRMS(),hisZ->GetMean()+4*hisZ->GetRMS());
- Double_t gz1 = fg.GetParameter(1);
- Double_t gz2 = fg.GetParameter(2);
+ Double_t gz1 = fg.GetParameter(1);
+ Double_t gz2 = fg.GetParameter(2);
+ //
+ hisP3->Fit(&fg,"","",hisP3->GetMean()-4*hisP3->GetRMS(),hisP3->GetMean()+4*hisP3->GetRMS());
+ Double_t gp31 = fg.GetParameter(1);
+ Double_t gp32 = fg.GetParameter(2);
+ //
+ hisP4->Fit(&fg,"","",hisP4->GetMean()-4*hisP4->GetRMS(),hisP4->GetMean()+4*hisP4->GetRMS());
+ Double_t gp41 = fg.GetParameter(1);
+ Double_t gp42 = fg.GetParameter(2);
//
Float_t meanS=hisS->GetMean();
//
if (rmsphi>krmsCut1) isOK=kFALSE; // empty in range - not entries inside
if (rmsphi>krmsCut0) if (gphi2/rmsphi>kmultiCut) isOK=kFALSE; // multi peak structure
if (gphiP2>kcutP0) isOK=kFALSE;
+ //
+ //
+ //
+ TH1 *his =0;
+ //
+ his = fHisNclIn->ProjectionY("aaa",id+1,id+1);
+ Float_t mnclIn = his->GetMean();
+ delete his;
+ his = fHisNclOut->ProjectionY("aaa",id+1,id+1);
+ Float_t mnclOut = his->GetMean();
+ delete his;
+ his = fHisNclIO->ProjectionY("aaa",id+1,id+1);
+ Float_t mnclIO = his->GetMean();
+ delete his;
+ his = fHisLclIn->ProjectionY("aaa",id+1,id+1);
+ Float_t mLclIn = his->GetMean();
+ delete his;
+ his = fHisLclOut->ProjectionY("aaa",id+1,id+1);
+ Float_t mLclOut = his->GetMean();
+ delete his;
+ his = fHisLclIO->ProjectionY("aaa",id+1,id+1);
+ Float_t mLclIO = his->GetMean();
+ delete his;
+ //
+ his = fHisdEdx->ProjectionY("aaa",id+1,id+1);
+ Float_t mdEdx = his->GetMean();
+ delete his;
+ //
+ //
+ //
+ //
+ his = fHisChi2YIn1->ProjectionY("aaa",id+1,id+1); //->chi2 y inner - line
+ Float_t mChi2YIn1= his->GetMean();
+ delete his;
+ his = fHisChi2YOut1->ProjectionY("aaa",id+1,id+1); //->chi2 y inner - line
+ Float_t mChi2YOut1 = his->GetMean();
+ delete his;
+ his = fHisChi2YIn2->ProjectionY("aaa",id+1,id+1); //->chi2 y inner - parabola
+ Float_t mChi2YIn2 = his->GetMean();
+ delete his;
+ his = fHisChi2YOut2->ProjectionY("aaa",id+1,id+1); //->chi2 y inner - parabola
+ Float_t mChi2YOut2 = his->GetMean();
+ delete his;
+ his = fHisChi2YIO1->ProjectionY("aaa",id+1,id+1); //->chi2 y IO - common
+ Float_t mChi2YIO1 = his->GetMean();
+ delete his;
+ his = fHisChi2ZIn1->ProjectionY("aaa",id+1,id+1); //->chi2 z inner - line
+ Float_t mChi2ZIn1 = his->GetMean();
+ delete his;
+ his = fHisChi2ZOut1->ProjectionY("aaa",id+1,id+1); //->chi2 z inner - line
+ Float_t mChi2ZOut1 = his->GetMean();
+ delete his;
+ his = fHisChi2ZIn2->ProjectionY("aaa",id+1,id+1); //->chi2 z inner - parabola
+ Float_t mChi2ZIn2 = his->GetMean();
+ delete his;
+ his = fHisChi2ZOut2->ProjectionY("aaa",id+1,id+1); //->chi2 z inner - parabola
+ Float_t mChi2ZOut2 = his->GetMean();
+ delete his;
+ his = fHisChi2ZIO1->ProjectionY("aaa",id+1,id+1); //->chi2 z IO - common
+ Float_t mChi2ZIO1 = his->GetMean();
+ delete his;
+ //
+ // fit res. histos
+ //
+ his = fHisdZfit->ProjectionY("aaa",id+1,id+1);
+ Float_t edZfit = his->GetEntries();
+ Float_t mdZfit = his->GetMean();
+ Float_t rdZfit = his->GetRMS();
+ delete his;
+
+ his = fHisPy1vP0->ProjectionY("aaa",id+1,id+1); //-> delta y P0outer-P0inner - line
+ Float_t ePy1vP0 = his->GetEntries();
+ Float_t mPy1vP0 = his->GetMean();
+ Float_t rPy1vP0 = his->GetRMS();
+ delete his;
+
+ his = fHisPy2vP0->ProjectionY("aaa",id+1,id+1); //-> delta y P0outer-P0inner - parabola
+ Float_t ePy2vP0 = his->GetEntries();
+ Float_t mPy2vP0 = his->GetMean();
+ Float_t rPy2vP0 = his->GetRMS();
+ delete his;
+
+ his = fHisPy3vP0->ProjectionY("aaa",id+1,id+1); //-> delta y P0outer-P0inner - common parabola
+ Float_t ePy3vP0 = his->GetEntries();
+ Float_t mPy3vP0 = his->GetMean();
+ Float_t rPy3vP0 = his->GetRMS();
+ delete his;
+
+ his = fHisPy1vP1->ProjectionY("aaa",id+1,id+1); //-> delta ky P1outer-P1inner - line
+ Float_t ePy1vP1 = his->GetEntries();
+ Float_t mPy1vP1 = his->GetMean();
+ Float_t rPy1vP1 = his->GetRMS();
+ delete his;
+
+ his = fHisPy2vP1->ProjectionY("aaa",id+1,id+1); //-> delta ky P1outer-P1inner - parabola
+ Float_t ePy2vP1 = his->GetEntries();
+ Float_t mPy2vP1 = his->GetMean();
+ Float_t rPy2vP1 = his->GetRMS();
+ delete his;
+
+ his = fHisPy3vP1->ProjectionY("aaa",id+1,id+1); //-> delta ky P1outer-P1inner - common parabola
+ Float_t ePy3vP1 = his->GetEntries();
+ Float_t mPy3vP1 = his->GetMean();
+ Float_t rPy3vP1 = his->GetRMS();
+ delete his;
+
+ his = fHisPy2vP2In->ProjectionY("aaa",id+1,id+1); //-> Curv P2inner - parabola
+ Float_t ePy2vP2In = his->GetEntries();
+ Float_t mPy2vP2In = his->GetMean();
+ Float_t rPy2vP2In = his->GetRMS();
+ delete his;
+
+ his = fHisPy2vP2Out->ProjectionY("aaa",id+1,id+1); //-> Curv P2outer - parabola
+ Float_t ePy2vP2Out = his->GetEntries();
+ Float_t mPy2vP2Out = his->GetMean();
+ Float_t rPy2vP2Out = his->GetRMS();
+ delete his;
+
+ his = fHisPy3vP2IO->ProjectionY("aaa",id+1,id+1); //-> Curv P2outerinner - common parabola
+ Float_t ePy3vP2IO = his->GetEntries();
+ Float_t mPy3vP2IO = his->GetMean();
+ Float_t rPy3vP2IO = his->GetRMS();
+ delete his;
+
+ //
+ //
+ his = fHisPz1vP0->ProjectionY("aaa",id+1,id+1); //-> delta z P0outer-P0inner - line
+ Float_t ePz1vP0 = his->GetEntries();
+ Float_t mPz1vP0 = his->GetMean();
+ Float_t rPz1vP0 = his->GetRMS();
+ delete his;
+
+ his = fHisPz2vP0->ProjectionY("aaa",id+1,id+1); //-> delta z P0outer-P0inner - parabola
+ Float_t ePz2vP0 = his->GetEntries();
+ Float_t mPz2vP0 = his->GetMean();
+ Float_t rPz2vP0 = his->GetRMS();
+ delete his;
+
+ his = fHisPz3vP0->ProjectionY("aaa",id+1,id+1); //-> delta z P0outer-P0inner - common parabola
+ Float_t ePz3vP0 = his->GetEntries();
+ Float_t mPz3vP0 = his->GetMean();
+ Float_t rPz3vP0 = his->GetRMS();
+ delete his;
+
+ his = fHisPz1vP1->ProjectionY("aaa",id+1,id+1); //-> delta kz P1outer-P1inner - line
+ Float_t ePz1vP1 = his->GetEntries();
+ Float_t mPz1vP1 = his->GetMean();
+ Float_t rPz1vP1 = his->GetRMS();
+ delete his;
+
+ his = fHisPz2vP1->ProjectionY("aaa",id+1,id+1); //-> delta kz P1outer-P1inner - parabola
+ Float_t ePz2vP1 = his->GetEntries();
+ Float_t mPz2vP1 = his->GetMean();
+ Float_t rPz2vP1 = his->GetRMS();
+ delete his;
+
+ his = fHisPz3vP1->ProjectionY("aaa",id+1,id+1); //-> delta kz P1outer-P1inner - common parabola
+ Float_t ePz3vP1 = his->GetEntries();
+ Float_t mPz3vP1 = his->GetMean();
+ Float_t rPz3vP1 = his->GetRMS();
+ delete his;
+
+ his = fHisPz2vP2In->ProjectionY("aaa",id+1,id+1); //-> Curv P2inner - parabola
+ Float_t ePz2vP2In = his->GetEntries();
+ Float_t mPz2vP2In = his->GetMean();
+ Float_t rPz2vP2In = his->GetRMS();
+ delete his;
+
+ his = fHisPz2vP2Out->ProjectionY("aaa",id+1,id+1); //-> Curv P2outer - parabola
+ Float_t ePz2vP2Out = his->GetEntries();
+ Float_t mPz2vP2Out = his->GetMean();
+ Float_t rPz2vP2Out = his->GetRMS();
+ delete his;
+
+ his = fHisPz3vP2IO->ProjectionY("aaa",id+1,id+1); //-> Curv P2outerinner - common parabola
+ Float_t ePz3vP2IO = his->GetEntries();
+ Float_t mPz3vP2IO = his->GetMean();
+ Float_t rPz3vP2IO = his->GetRMS();
+ delete his;
+
//
(*pcstream)<<"Mean"<<
- "isOK="<<isOK<<
- "entries="<<entries<< // number of entries
- "bz="<<bfield<< // bfield
+ "run="<<run<< //
+ "isOK="<<isOK<< //
+ "id="<<id<< // track id
+ "entries="<<entries<< // number of entries
+ "bz="<<bfield<< // bfield
"LTr.="<<ltrp<< // refernece track
//
- "lx0="<<lxyz[0]<< // reference x
- "lx1="<<lxyz[1]<< // reference y
- "lx2="<<lxyz[2]<< // refernece z
- "lpx0="<<lpxyz[0]<< // reference x
+ "mnclIn="<<mnclIn<< // mean number of clusters in inner
+ "mnclOut="<<mnclOut<< // mean number of clusters in outer
+ "mnclIO="<<mnclIO<< // mean number of clusters in inner+outer
+ "mLclIn="<<mLclIn<< // mean number of clusters in inner
+ "mLclOut="<<mLclOut<< // mean number of clusters in outer
+ "mLclIO="<<mLclIO<< // mean number of clusters in inner+outer
+ "mdEdx="<<mdEdx<< // mean dEdx
+ "edZfit="<<edZfit<< // entries z fit
+ "mdZfit="<<mdZfit<< // mean z fit
+ "rdZfit="<<rdZfit<< // RMS z fit
+ //
+ //
+ "mChi2YIn1="<<mChi2YIn1<< //->chi2 y inner - line
+ "mChi2YOut1="<<mChi2YOut1<< //->chi2 y inner - line
+ "mChi2YIn2="<<mChi2YIn2<< //->chi2 y inner - parabola
+ "mChi2YOut2="<<mChi2YOut2<< //->chi2 y inner - parabola
+ "mChi2YIO1="<<mChi2YIO1<< //->chi2 y IO - common
+ "mChi2ZIn1="<<mChi2ZIn1<< //->chi2 z inner - line
+ "mChi2ZOut1="<<mChi2ZOut1<< //->chi2 z inner - line
+ "mChi2ZIn2="<<mChi2ZIn2<< //->chi2 z inner - parabola
+ "mChi2ZOut2="<<mChi2ZOut2<< //->chi2 z inner - parabola
+ "mChi2ZIO1="<<mChi2ZIO1<< //->chi2 z IO - common
+ //
+ //
+ "ePy1vP0="<<ePy1vP0<<
+ "mPy1vP0="<<mPy1vP0<<
+ "rPy1vP0="<<rPy1vP0<<
+ "ePy2vP0="<<ePy2vP0<<
+ "mPy2vP0="<<mPy2vP0<<
+ "rPy2vP0="<<rPy2vP0<<
+ "ePy3vP0="<<ePy3vP0<<
+ "mPy3vP0="<<mPy3vP0<<
+ "rPy3vP0="<<rPy3vP0<<
+ "ePy1vP1="<<ePy1vP1<<
+ "mPy1vP1="<<mPy1vP1<<
+ "rPy1vP1="<<rPy1vP1<<
+ "ePy2vP1="<<ePy2vP1<<
+ "mPy2vP1="<<mPy2vP1<<
+ "rPy2vP1="<<rPy2vP1<<
+ "ePy3vP1="<<ePy3vP1<<
+ "mPy3vP1="<<mPy3vP1<<
+ "rPy3vP1="<<rPy3vP1<<
+ "ePy2vP2In="<<ePy2vP2In<<
+ "mPy2vP2In="<<mPy2vP2In<<
+ "rPy2vP2In="<<rPy2vP2In<<
+ "ePy2vP2Out="<<ePy2vP2Out<<
+ "mPy2vP2Out="<<mPy2vP2Out<<
+ "rPy2vP2Out="<<rPy2vP2Out<<
+ "ePy3vP2IO="<<ePy3vP2IO<<
+ "mPy3vP2IO="<<mPy3vP2IO<<
+ "rPy3vP2IO="<<rPy3vP2IO<<
+ //
+ //
+ "ePz1vP0="<<ePz1vP0<<
+ "mPz1vP0="<<mPz1vP0<<
+ "rPz1vP0="<<rPz1vP0<<
+ "ePz2vP0="<<ePz2vP0<<
+ "mPz2vP0="<<mPz2vP0<<
+ "rPz2vP0="<<rPz2vP0<<
+ "ePz3vP0="<<ePz3vP0<<
+ "mPz3vP0="<<mPz3vP0<<
+ "rPz3vP0="<<rPz3vP0<<
+ "ePz1vP1="<<ePz1vP1<<
+ "mPz1vP1="<<mPz1vP1<<
+ "rPz1vP1="<<rPz1vP1<<
+ "ePz2vP1="<<ePz2vP1<<
+ "mPz2vP1="<<mPz2vP1<<
+ "rPz2vP1="<<rPz2vP1<<
+ "ePz3vP1="<<ePz3vP1<<
+ "mPz3vP1="<<mPz3vP1<<
+ "rPz3vP1="<<rPz3vP1<<
+ "ePz2vP2In="<<ePz2vP2In<<
+ "mPz2vP2In="<<mPz2vP2In<<
+ "rPz2vP2In="<<rPz2vP2In<<
+ "ePz2vP2Out="<<ePz2vP2Out<<
+ "mPz2vP2Out="<<mPz2vP2Out<<
+ "rPz2vP2Out="<<rPz2vP2Out<<
+ "ePz3vP2IO="<<ePz3vP2IO<<
+ "mPz3vP2IO="<<mPz3vP2IO<<
+ "rPz3vP2IO="<<rPz3vP2IO<<
+ //
+ //
+ //
+ "lx0="<<lxyz[0]<< // reference x
+ "lx1="<<lxyz[1]<< // reference y
+ "lx2="<<lxyz[2]<< // refernece z
+ "lpx0="<<lpxyz[0]<< // reference x
"lpx1="<<lpxyz[1]<< // reference y
- "lpx2="<<lpxyz[2]<< // refernece z
+ "lpx2="<<lpxyz[2]<< // refernece z
//
"msig="<<meanS<<
//
"rmsZ="<<rmsZ<<
"gz1="<<gz1<<
"gz2="<<gz2<<
+ //
+ "gp31="<<gp31<< //gaus mean - tgl
+ "gp32="<<gp32<< //gaus rms -tgl
+ "gp41="<<gp41<< //gaus mean - P4
+ "gp42="<<gp42<< //gaus rms - P4
"\n";
}
delete pcstream;
+ /*
+ Browse the content
+ TFile fmean("laserMean.root");
+
+
+ */
+
+
}
sprintf(cut,"isOK&&fId==%d",id);
Int_t entries = chain->Draw("bz",cut,"goff");
if (entries<3) continue;
- AliTPCLaserTrack *ltrp = 0;;
+ AliTPCLaserTrack *ltrp = 0;
if (!AliTPCLaserTrack::GetTracks()) AliTPCLaserTrack::LoadTracks();
ltrp =(AliTPCLaserTrack*)AliTPCLaserTrack::GetTracks()->UncheckedAt(id);
Double_t lxyz[3];
TIterator* iter = li->MakeIterator();
AliTPCcalibLaser* cal = 0;
-
+ static Int_t counter0=0;
while ((cal = (AliTPCcalibLaser*)iter->Next())) {
if (!cal->InheritsFrom(AliTPCcalibLaser::Class())) {
- Error("Merge","Attempt to add object of class %s to a %s", cal->ClassName(), this->ClassName());
+ // Error("Merge","Attempt to add object of class %s to a %s", cal->ClassName(), this->ClassName());
return -1;
}
+ printf("Marging number %d\n", counter0);
+ counter0++;
//
- // fHistNTracks->Add(cal->fHistNTracks);
-// fClusters->Add(cal->fClusters);
-// fModules->Add(cal->fModules);
-// fHistPt->Add(cal->fHistPt);
-// fPtResolution->Add(cal->fPtResolution);
-// fDeDx->Add(cal->fDeDx);
-
-
+ MergeFitHistos(cal);
TH1F *h=0x0;
TH1F *hm=0x0;
+ TH2F *h2=0x0;
+ TH2F *h2m=0x0;
+ // TProfile *hp=0x0;
+ //TProfile *hpm=0x0;
for (Int_t id=0; id<336; id++){
// merge fDeltaZ histograms
- hm = (TH1F*)cal->fDeltaZ.At(id);
+ hm = (TH1F*)cal->fDeltaZ.At(id);
h = (TH1F*)fDeltaZ.At(id);
if (!h) {
h=new TH1F(Form("hisdz%d",id),Form("hisdz%d",id),1000,-10,10);
+ h->SetDirectory(0);
fDeltaZ.AddAt(h,id);
}
if (hm) h->Add(hm);
+ // merge fP3 histograms
+ hm = (TH1F*)cal->fDeltaP3.At(id);
+ h = (TH1F*)fDeltaP3.At(id);
+ if (!h) {
+ h=new TH1F(Form("hisPar3v%d",id),Form("hisPar3v%d",id),400,-0.06,0.06);
+ h->SetDirectory(0);
+ fDeltaP3.AddAt(h,id);
+ }
+ if (hm) h->Add(hm);
+ // merge fP4 histograms
+ hm = (TH1F*)cal->fDeltaP4.At(id);
+ h = (TH1F*)fDeltaP4.At(id);
+ if (!h) {
+ h=new TH1F(Form("hisPar4v%d",id),Form("hisPar4v%d",id),200,-0.06,0.06);
+ h->SetDirectory(0);
+ fDeltaP4.AddAt(h,id);
+ }
+ if (hm) h->Add(hm);
+
+ //
// merge fDeltaPhi histograms
- hm = (TH1F*)cal->fDeltaPhi.At(id);
+ hm = (TH1F*)cal->fDeltaPhi.At(id);
h = (TH1F*)fDeltaPhi.At(id);
if (!h) {
h= new TH1F(Form("hisdphi%d",id),Form("hisdphi%d",id),1000,-1,1);
+ h->SetDirectory(0);
fDeltaPhi.AddAt(h,id);
}
if (hm) h->Add(hm);
// merge fDeltaPhiP histograms
- hm = (TH1F*)cal->fDeltaPhiP.At(id);
+ hm = (TH1F*)cal->fDeltaPhiP.At(id);
h = (TH1F*)fDeltaPhiP.At(id);
if (!h) {
h=new TH1F(Form("hisdphiP%d",id),Form("hisdphiP%d",id),1000,-0.01,0.01);
+ h->SetDirectory(0);
fDeltaPhiP.AddAt(h,id);
}
if (hm) h->Add(hm);
// merge fSignals histograms
- hm = (TH1F*)cal->fSignals.At(id);
+ hm = (TH1F*)cal->fSignals.At(id);
h = (TH1F*)fSignals.At(id);
if (!h) {
- h=new TH1F(Form("hisSignal%d",id),Form("hisSignal%d",id),1000,0,1000);
+ h=new TH1F(Form("hisSignal%d",id),Form("hisSignal%d",id),100,0,300);
+ h->SetDirectory(0);
fSignals.AddAt(h,id);
}
- if (hm) h->Add(hm);
+ if (hm) h->Add(hm);
+ //
+ //
+ // merge ProfileY histograms -0
+ h2m = (TH2F*)cal->fDeltaYres.At(id);
+ h2 = (TH2F*)fDeltaYres.At(id);
+ if (h2m&&h2) h2->Add(h2m);
+ //
+ h2m = (TH2F*)cal->fDeltaZres.At(id);
+ h2 = (TH2F*)fDeltaZres.At(id);
+ if (h2m&&h2) h2->Add(h2m);
+ // merge ProfileY histograms - 2
+ h2m = (TH2F*)cal->fDeltaYres2.At(id);
+ h2 = (TH2F*)fDeltaYres2.At(id);
+ if (h2m&&h2) h2->Add(h2m);
+ //
+ h2m = (TH2F*)cal->fDeltaZres2.At(id);
+ h2 = (TH2F*)fDeltaZres2.At(id);
+ if (h2m&&h2) h2->Add(h2m);
+ // merge ProfileY histograms - 3
+ //h2m = (TH2F*)cal->fDeltaYres3.At(id);
+ //h2 = (TH2F*)fDeltaYres3.At(id);
+ //if (h2m) h2->Add(h2m);
+ //
+ //h2m = (TH2F*)cal->fDeltaZres3.At(id);
+ //h2 = (TH2F*)fDeltaZres3.At(id);
+ //if (h2m) h->Add(h2m);
+ //
+ //
}
}
return 0;
}
+void AliTPCcalibLaser::MakeFitHistos(){
+ //
+ // Make a fit histograms
+ //
+ // Number of clusters
+ //
+ //TH2F *fHisNclIn; //->Number of clusters inner
+ //TH2F *fHisNclOut; //->Number of clusters outer
+ //TH2F *fHisNclIO; //->Number of cluster inner outer
+ // TH2F *fHisdEdx; //->dEdx histo
+ fHisNclIn = new TH2F("HisNclIn","HisNclIn",336,0,336,64,10,64);
+ fHisNclOut = new TH2F("HisNclOut","HisNclOut",336,0,336,100,10,100);
+ fHisNclIO = new TH2F("HisNclIO","HisNclIO",336,0,336,160,10,160);
+ //
+ fHisLclIn = new TH2F("HisLclIn","HisLclIn",336,0,336,64,10,64);
+ fHisLclOut = new TH2F("HisLclOut","HisLclOut",336,0,336,100,10,150);
+ fHisLclIO = new TH2F("HisLclIO","HisLclIO",336,0,336,160,10,160);
+ //
+ fHisdEdx = new TH2F("HisdEdx","HisdEdx",336,0,336,160,1,50);
+ fHisdZfit = new TH2F("HisdZfit","HisdZfit",336,0,336,300,-0.3,0.3);
+
+ //
+ // Chi2
+ //
+ // TH2F *fHisChi2YIn1; //->chi2 y inner - line
+ // TH2F *fHisChi2YOut1; //->chi2 y inner - line
+ // TH2F *fHisChi2YIn2; //->chi2 y inner - parabola
+ // TH2F *fHisChi2YOut2; //->chi2 y inner - parabola
+ // TH2F *fHisChi2YIO1; //->chi2 y IO - common
+ fHisChi2YIn1 = new TH2F("Chi2YIn1","Chi2YIn1",336,0,336,500,0.001,0.5);
+ fHisChi2YOut1 = new TH2F("Chi2YOut1","Chi2YOut1",336,0,336,500,0.001,0.5);
+ fHisChi2YIn2 = new TH2F("Chi2YIn2","Chi2YIn2",336,0,336,500,0.001,0.5);
+ fHisChi2YOut2 = new TH2F("Chi2YOut2","Chi2YOut2",336,0,336,500,0.001,0.5);
+ fHisChi2YIO1 = new TH2F("Chi2YIO1","Chi2YIO1",336,0,336,500,0.001,0.5);
+ // TH2F *fHisChi2ZIn1; //->chi2 z inner - line
+ // TH2F *fHisChi2ZOut1; //->chi2 z inner - line
+ // TH2F *fHisChi2ZIn2; //->chi2 z inner - parabola
+ // TH2F *fHisChi2ZOut2; //->chi2 z inner - parabola
+ // TH2F *fHisChi2ZIO1; //->chi2 z IO - common
+ fHisChi2ZIn1 = new TH2F("Chi2ZIn1","Chi2ZIn1",336,0,336,500,0.001,0.5);
+ fHisChi2ZOut1 = new TH2F("Chi2ZOut1","Chi2ZOut1",336,0,336,500,0.001,0.5);
+ fHisChi2ZIn2 = new TH2F("Chi2ZIn2","Chi2ZIn2",336,0,336,500,0.001,0.5);
+ fHisChi2ZOut2 = new TH2F("Chi2ZOut2","Chi2ZOut2",336,0,336,500,0.001,0.5);
+ fHisChi2ZIO1 = new TH2F("Chi2ZIO1","Chi2ZIO1",336,0,336,500,0.001,0.5);
+ //
+ // Fit
+ //
+ //
+ // TH2F *fHisPy1vP0; //-> delta y P0outer-P0inner - line
+ // TH2F *fHisPy2vP0; //-> delta y P0outer-P0inner - parabola
+ // TH2F *fHisPy3vP0; //-> delta y P0outer-P0inner - common parabola
+ // TH2F *fHisPy1vP1; //-> delta ky P1outer-P1inner - line
+ // TH2F *fHisPy2vP1; //-> delta ky P1outer-P1inner - parabola
+ // TH2F *fHisPy3vP1; //-> delta ky P1outer-P1inner - common parabola
+ // TH2F *fHisPy2vP2In; //-> Curv P2inner - parabola
+ // TH2F *fHisPy2vP2Out; //-> Curv P2outer - parabola
+ // TH2F *fHisPy3vP2IO; //-> Curv P2outerinner - common parabola
+ fHisPy1vP0 = new TH2F("HisPy1vP0", "HisPy1vP0",336,0,336,500,-0.3,0.3);
+ fHisPy2vP0 = new TH2F("HisPy2vP0", "HisPy2vP0",336,0,336,500,-0.3,0.3);
+ fHisPy3vP0 = new TH2F("HisPy3vP0", "HisPy3vP0",336,0,336,500,-0.3,0.3);
+ fHisPy1vP1 = new TH2F("HisPy1vP1", "HisPy1vP1",336,0,336,500,-0.01,0.01);
+ fHisPy2vP1 = new TH2F("HisPy2vP1", "HisPy2vP1",336,0,336,500,-0.01,0.01);
+ fHisPy3vP1 = new TH2F("HisPy3vP1", "HisPy3vP1",336,0,336,500,-0.01,0.01);
+ fHisPy2vP2In = new TH2F("HisPy2vP2In", "HisPy2vP2In",336,0,336,500,-0.0003,0.0003);
+ fHisPy2vP2Out= new TH2F("HisPy2vP2Out","HisPy2vP2Out",336,0,336,500,-0.0003,0.0003);
+ fHisPy3vP2IO = new TH2F("HisPy3vP2IO", "HisPy3vP2IO",336,0,336,500,-0.0003,0.0003);
+ //
+ //
+ // TH2F *fHisPz1vP0; //-> delta z P0outer-P0inner - line
+ // TH2F *fHisPz2vP0; //-> delta z P0outer-P0inner - parabola
+ // TH2F *fHisPz3vP0; //-> delta z P0outer-P0inner - common parabola
+ // TH2F *fHisPz1vP1; //-> delta kz P1outer-P1inner - line
+ // TH2F *fHisPz2vP1; //-> delta kz P1outer-P1inner - parabola
+ // TH2F *fHisPz3vP1; //-> delta kz P1outer-P1inner - common parabola
+ // TH2F *fHisPz2vP2In; //-> Curv P2inner - parabola
+ // TH2F *fHisPz2vP2Out; //-> Curv P2outer - parabola
+ // TH2F *fHisPz3vP2IO; //-> Curv P2outerinner - common parabola
+ fHisPz1vP0 = new TH2F("HisPz1vP0", "HisPz1vP0",336,0,336,500,-0.3,0.3);
+ fHisPz2vP0 = new TH2F("HisPz2vP0", "HisPz2vP0",336,0,336,500,-0.3,0.3);
+ fHisPz3vP0 = new TH2F("HisPz3vP0", "HisPz3vP0",336,0,336,500,-0.3,0.3);
+ fHisPz1vP1 = new TH2F("HisPz1vP1", "HisPz1vP1",336,0,336,500,-0.01,0.01);
+ fHisPz2vP1 = new TH2F("HisPz2vP1", "HisPz2vP1",336,0,336,500,-0.01,0.01);
+ fHisPz3vP1 = new TH2F("HisPz3vP1", "HisPz3vP1",336,0,336,500,-0.01,0.01);
+ fHisPz2vP2In = new TH2F("HisPz2vP2In", "HisPz2vP2In",336,0,336,500,-0.0003,0.0003);
+ fHisPz2vP2Out= new TH2F("HisPz2vP2Out","HisPz2vP2Out",336,0,336,500,-0.0002,0.0002);
+ fHisPz3vP2IO = new TH2F("HisPz3vP2IO", "HisPz3vP2IO",336,0,336,500,-0.0002,0.0002);
+
+ fHisNclIn->SetDirectory(0); //->Number of clusters inner
+ fHisNclOut->SetDirectory(0); //->Number of clusters outer
+ fHisNclIO->SetDirectory(0); //->Number of cluster inner outer
+ fHisLclIn->SetDirectory(0); //->Level arm inner
+ fHisLclOut->SetDirectory(0); //->Level arm outer
+ fHisLclIO->SetDirectory(0); //->Number of cluster inner outer
+ fHisdEdx->SetDirectory(0); //->Number of cluster inner outer
+ fHisdZfit->SetDirectory(0); //->Number of cluster inner outer
+ //
+ //
+ fHisChi2YIn1->SetDirectory(0); //->chi2 y inner - line
+ fHisChi2YOut1->SetDirectory(0); //->chi2 y inner - line
+ fHisChi2YIn2->SetDirectory(0); //->chi2 y inner - parabola
+ fHisChi2YOut2->SetDirectory(0); //->chi2 y inner - parabola
+ fHisChi2YIO1->SetDirectory(0); //->chi2 y IO - common
+ fHisChi2ZIn1->SetDirectory(0); //->chi2 z inner - line
+ fHisChi2ZOut1->SetDirectory(0); //->chi2 z inner - line
+ fHisChi2ZIn2->SetDirectory(0); //->chi2 z inner - parabola
+ fHisChi2ZOut2->SetDirectory(0); //->chi2 z inner - parabola
+ fHisChi2ZIO1->SetDirectory(0); //->chi2 z IO - common
+ //
+ //
+ fHisPy1vP0->SetDirectory(0); //-> delta y P0outer-P0inner - line
+ fHisPy2vP0->SetDirectory(0); //-> delta y P0outer-P0inner - parabola
+ fHisPy3vP0->SetDirectory(0); //-> delta y P0outer-P0inner - common parabola
+ fHisPy1vP1->SetDirectory(0); //-> delta ky P1outer-P1inner - line
+ fHisPy2vP1->SetDirectory(0); //-> delta ky P1outer-P1inner - parabola
+ fHisPy3vP1->SetDirectory(0); //-> delta ky P1outer-P1inner - common parabola
+ fHisPy2vP2In->SetDirectory(0); //-> Curv P2inner - parabola
+ fHisPy2vP2Out->SetDirectory(0); //-> Curv P2outer - parabola
+ fHisPy3vP2IO->SetDirectory(0); //-> Curv P2outerinner - common parabola
+ //
+ //
+ fHisPz1vP0->SetDirectory(0); //-> delta z P0outer-P0inner - line
+ fHisPz2vP0->SetDirectory(0); //-> delta z P0outer-P0inner - parabola
+ fHisPz3vP0->SetDirectory(0); //-> delta z P0outer-P0inner - common parabola
+ fHisPz1vP1->SetDirectory(0); //-> delta kz P1outer-P1inner - line
+ fHisPz2vP1->SetDirectory(0); //-> delta kz P1outer-P1inner - parabola
+ fHisPz3vP1->SetDirectory(0); //-> delta kz P1outer-P1inner - common parabola
+ fHisPz2vP2In->SetDirectory(0); //-> Curv P2inner - parabola
+ fHisPz2vP2Out->SetDirectory(0); //-> Curv P2outer - parabola
+ fHisPz3vP2IO->SetDirectory(0); //-> Curv P2outerinner - common parabola
+
+
+ //
+ //
+ //
+ for (Int_t id=0; id<336;id++){
+ TH2F *profy = (TH2F*)fDeltaYres.UncheckedAt(id);
+ TH2F *profz = (TH2F*)fDeltaZres.UncheckedAt(id);
+ TH2F *profy2 = (TH2F*)fDeltaYres2.UncheckedAt(id);
+ TH2F *profz2 = (TH2F*)fDeltaZres2.UncheckedAt(id);
+ // TH2F *profy3 = (TH2F*)fDeltaYres3.UncheckedAt(id);
+ //TH2F *profz3 = (TH2F*)fDeltaZres3.UncheckedAt(id);
+ if (!profy){
+ profy=new TH2F(Form("pry%03d",id),Form("Y Residuals for Laser Beam %03d -Linear",id),160,0,160,50,-0.5,0.5);
+ profy->SetDirectory(0);
+ fDeltaYres.AddAt(profy,id);
+ profy2=new TH2F(Form("pry%03d",id),Form("Y Residuals for Laser Beam %03d -Parabolic",id),160,0,160,50,-0.5,0.5);
+ profy2->SetDirectory(0);
+ fDeltaYres2.AddAt(profy2,id);
+ //profy3=new TH2F(Form("pry%03d",id),Form("Y Residuals for Laser Beam %03d- Parabolic2",id),160,0,160,100,-0.5,0.5);
+ //profy3->SetDirectory(0);
+ //fDeltaYres3.AddAt(profy3,id);
+ }
+ if (!profz){
+ profz=new TH2F(Form("prz%03d",id),Form("Z Residuals for Laser Beam %03d Linear",id),160,0,160,50,-0.5,0.5);
+ profz->SetDirectory(0);
+ fDeltaZres.AddAt(profz,id);
+ profz2=new TH2F(Form("prz%03d",id),Form("Z Residuals for Laser Beam %03d - Parabolic",id),160,0,160,50,-0.5,0.5);
+ profz2->SetDirectory(0);
+ fDeltaZres2.AddAt(profz2,id);
+ //profz3=new TH2F(Form("prz%03d",id),Form("Z Residuals for Laser Beam %03d- Parabolic2",id),160,0,160,100,-0.5,0.5);
+ //profz3->SetDirectory(0);
+ //fDeltaZres3.AddAt(profz3,id);
+ }
+ }
+ //
+ //
+ for (Int_t id=0; id<336;id++){
+ TH1F * hisdz = (TH1F*)fDeltaZ.At(id);
+ TH1F * hisP3 = (TH1F*)fDeltaP3.At(id);
+ TH1F * hisP4 = (TH1F*)fDeltaP4.At(id);
+
+ TH1F * hisdphi = (TH1F*)fDeltaPhi.At(id);
+ TH1F * hisdphiP = (TH1F*)fDeltaPhiP.At(id);
+ TH1F * hisSignal = (TH1F*)fSignals.At(id);
+
+ if (!hisdz){
+ hisdz = new TH1F(Form("hisdz%d",id),Form("hisdz%d",id),1000,-10,10);
+ hisdz->SetDirectory(0);
+ fDeltaZ.AddAt(hisdz,id);
+
+ hisP3 = new TH1F(Form("hisPar3v%d",id),Form("hisPar3v%d",id),400,-0.06,0.06);
+ hisP3->SetDirectory(0);
+ fDeltaP3.AddAt(hisP3,id);
+ //
+ hisP4 = new TH1F(Form("hisPar4v%d",id),Form("hisPar4v%d",id),200,-0.06,0.06);
+ hisP4->SetDirectory(0);
+ fDeltaP4.AddAt(hisP4,id);
+
+ //
+ hisdphi = new TH1F(Form("hisdphi%d",id),Form("hisdphi%d",id),1000,-1,1);
+ hisdphi->SetDirectory(0);
+ fDeltaPhi.AddAt(hisdphi,id);
+ //
+ hisdphiP = new TH1F(Form("hisdphiP%d",id),Form("hisdphiP%d",id),1000,-0.01,0.01);
+ hisdphiP->SetDirectory(0);
+ fDeltaPhiP.AddAt(hisdphiP,id);
+ hisSignal = new TH1F(Form("hisSignal%d",id),Form("hisSignal%d",id),100,0,300);
+ hisSignal->SetDirectory(0);
+ fSignals.AddAt(hisSignal,id);
+ }
+ }
+}
+
+void AliTPCcalibLaser::MergeFitHistos(AliTPCcalibLaser * laser){
+ //
+ // Merge content of histograms
+ //
+ // Only first histogram is checked - all other should be the same
+ if (!laser->fHisNclIn) return; // empty histograms
+ if (!fHisNclIn) MakeFitHistos();
+ //
+
+ fHisNclIn->Add(laser->fHisNclIn ); //->Number of clusters inner
+ fHisNclOut->Add(laser->fHisNclOut ); //->Number of clusters outer
+ fHisNclIO->Add(laser->fHisNclIO ); //->Number of cluster inner outer
+ fHisLclIn->Add(laser->fHisLclIn ); //->Level arm inner
+ fHisLclOut->Add(laser->fHisLclOut ); //->Level arm outer
+ fHisLclIO->Add(laser->fHisLclIO ); //->Number of cluster inner outer
+ fHisdEdx->Add(laser->fHisdEdx ); //->dedx
+ fHisdZfit->Add(laser->fHisdZfit ); //->dedx
+ //
+ //
+ fHisChi2YIn1->Add(laser->fHisChi2YIn1 ); //->chi2 y inner - line
+ fHisChi2YOut1->Add(laser->fHisChi2YOut1 ); //->chi2 y inner - line
+ fHisChi2YIn2->Add(laser->fHisChi2YIn2 ); //->chi2 y inner - parabola
+ fHisChi2YOut2->Add(laser->fHisChi2YOut2 ); //->chi2 y inner - parabola
+ fHisChi2YIO1->Add(laser->fHisChi2YIO1 ); //->chi2 y IO - common
+ fHisChi2ZIn1->Add(laser->fHisChi2ZIn1 ); //->chi2 z inner - line
+ fHisChi2ZOut1->Add(laser->fHisChi2ZOut1 ); //->chi2 z inner - line
+ fHisChi2ZIn2->Add(laser->fHisChi2ZIn2 ); //->chi2 z inner - parabola
+ fHisChi2ZOut2->Add(laser->fHisChi2ZOut2 ); //->chi2 z inner - parabola
+ fHisChi2ZIO1->Add(laser->fHisChi2ZIO1 ); //->chi2 z IO - common
+ //
+ //
+ fHisPy1vP0->Add(laser->fHisPy1vP0 ); //-> delta y P0outer-P0inner - line
+ fHisPy2vP0->Add(laser->fHisPy2vP0 ); //-> delta y P0outer-P0inner - parabola
+ fHisPy3vP0->Add(laser->fHisPy3vP0 ); //-> delta y P0outer-P0inner - common parabola
+ fHisPy1vP1->Add(laser->fHisPy1vP1 ); //-> delta ky P1outer-P1inner - line
+ fHisPy2vP1->Add(laser->fHisPy2vP1 ); //-> delta ky P1outer-P1inner - parabola
+ fHisPy3vP1->Add(laser->fHisPy3vP1 ); //-> delta ky P1outer-P1inner - common parabola
+ fHisPy2vP2In->Add(laser-> fHisPy2vP2In ); //-> Curv P2inner - parabola
+ fHisPy2vP2Out->Add(laser->fHisPy2vP2Out ); //-> Curv P2outer - parabola
+ fHisPy3vP2IO->Add(laser->fHisPy3vP2IO ); //-> Curv P2outerinner - common parabola
+ //
+ //
+ fHisPz1vP0->Add(laser->fHisPz1vP0 ); //-> delta z P0outer-P0inner - line
+ fHisPz2vP0->Add(laser->fHisPz2vP0 ); //-> delta z P0outer-P0inner - parabola
+ fHisPz3vP0->Add(laser->fHisPz3vP0 ); //-> delta z P0outer-P0inner - common parabola
+ fHisPz1vP1->Add(laser->fHisPz1vP1 ); //-> delta kz P1outer-P1inner - line
+ fHisPz2vP1->Add(laser->fHisPz2vP1 ); //-> delta kz P1outer-P1inner - parabola
+ fHisPz3vP1->Add(laser->fHisPz3vP1 ); //-> delta kz P1outer-P1inner - common parabola
+ fHisPz2vP2In->Add(laser->fHisPz2vP2In ); //-> Curv P2inner - parabola
+ fHisPz2vP2Out->Add(laser->fHisPz2vP2Out ); //-> Curv P2outer - parabola
+ fHisPz3vP2IO->Add(laser->fHisPz3vP2IO ); //-> Curv P2outerinner - common parabola
+ //
+ //
+ //
+
+
+
+
+}
+
+
+
+
+void AliTPCcalibLaser::DumpFitInfo(TTree * chainFit,Int_t id){
+ //
+ // Dump fit information - collect information from the streamers
+ //
+ /*
+ TChain * chainFit=0;
+ TChain * chainTrack=0;
+ TChain * chain=0;
+ //
+ gSystem->AddIncludePath("-I$ALICE_ROOT/TPC/macros");
+ gROOT->LoadMacro("$ALICE_ROOT/TPC/macros/AliXRDPROOFtoolkit.cxx+");
+ AliXRDPROOFtoolkit tool;
+ chainTrack = tool.MakeChain("laser.txt","Track",0,10200);
+ chainTrack->Lookup();
+ chainTrack->SetProof(kTRUE);
+ chainDrift = tool.MakeChain("laser.txt","driftv",0,10200);
+ chainDrift->Lookup();
+ chainDrift->SetProof(kTRUE);
+
+ chain = tool.MakeChain("laser.txt","Residuals",0,10200);
+ chain->Lookup();
+ chainFit = tool.MakeChain("laser.txt","FitModels",0,10200);
+ chainFit->Lookup();
+ chainFit->SetProof(kTRUE);
+ chain->SetProof(kTRUE);
+ AliTPCLaserTrack::LoadTracks();
+ //AliTPCcalibLaser::DumpFitInfo(chainFit,0);
+
+ */
+ //
+ // Fit cuts
+ //
+ TCut cutP3("abs(Tr.fP[3])<0.1");
+ TCut cutP4("abs(Tr.fP[4])<0.5");
+ TCut cutPx = cutP3+cutP4;
+ TCut cutChi2YOut("sqrt(chi2y2Out*dEdx)<5&&chi2y2Out>0");
+ TCut cutChi2ZOut("sqrt(chi2z2Out*dEdx)<5&&chi2z2Out>0");
+ TCut cutChi2YIn("sqrt(chi2y2In*dEdx)<5&&chi2y2In>0");
+ TCut cutChi2ZIn("sqrt(chi2z2In*dEdx)<5&&chi2z2In>0");
+ //
+ TCut cutdEdx("sqrt(dEdx)>3");
+ TCut cutDY("abs(yPol2In.fElements[2]*nclI*nclI/4.)<3");
+ TCut cutN("nclO>20&&nclI>20");
+ TCut cutA = cutChi2YOut+cutChi2ZOut+cutChi2YIn+cutChi2ZIn+cutN+cutdEdx+cutPx+"accept";
+ //
+ // Cluster cuts
+ //
+ TCut cutClY("abs(Cl[].fY-TrYpol2.fElements)<0.15");
+ TCut cutClZ("abs(Cl[].fZ-TrZpol2.fElements)<0.15");
+ TCut cutClX("abs(Cl[].fX)>10");
+ TCut cutE("abs(Cl[].fY/Cl[].fX)<0.14");
+ TCut cutSY("sqrt(Cl[].fSigmaY2)>0.05");
+ TCut cutSZ("sqrt(Cl[].fSigmaZ2)>0.05");
+ TCut cutQ("sqrt(Cl[].fMax)>4");
+ TCut cutCl=cutClY+cutClZ+cutClX+cutE+cutSY+cutSZ+cutQ;
+
+
+ TH1F * phisAl = 0;
+ TH1F * phisAccept = 0;
+ TH1F * phisOut = 0;
+ TProfile * pdEdx = 0;
+
+ TProfile * pP0 = 0;
+ TProfile * pP1 = 0;
+ TProfile * pP2 = 0;
+ TProfile * pP3 = 0;
+ TProfile * pP4 = 0;
+ //
+ TProfile * pNclI = 0;
+ TProfile * pNclO = 0;
+ //
+ TProfile * pchi2YIn =0;
+ TProfile * pchi2ZIn =0;
+ TProfile * pchi2YOut =0;
+ TProfile * pchi2ZOut =0;
+ TProfile * pchi2YInOut =0;
+ TProfile * pchi2ZInOut =0;;
+ // laser counters
+ chainFit->Draw("LTr.fId>>hisAl(350,0,350)","LTr.fId<350");
+ phisAl = (TH1F*)gROOT->FindObject("hisAl");
+ chainFit->Draw("LTr.fId>>hisAccept(350,0,350)","LTr.fId<350"+cutA);
+ phisAccept = (TH1F*)gROOT->FindObject("hisAccept");
+ chainFit->Draw("LTr.fId>>hisOut(350,0,350)","LTr.fId<350"+!cutA);
+ phisOut = (TH1F*)gROOT->FindObject("hisOut");
+ //
+ chainFit->Draw("sqrt(dEdx):LTr.fId>>hdEdx(350,0,350)","","prof");
+ pdEdx = (TProfile*)gROOT->FindObject("hdEdx");
+ // track param
+ //
+ chainFit->Draw("Tr.fP[0]:LTr.fId>>hP0(350,0,350)","Tr.fP[4]/sqrt(Tr.fC[14])<20"+cutA,"prof");
+ pP0 = (TProfile*)gROOT->FindObject("hP0");
+ chainFit->Draw("Tr.fP[1]:LTr.fId>>hP1(350,0,350)","Tr.fP[4]/sqrt(Tr.fC[14])<20"+cutA,"prof");
+ pP1 = (TProfile*)gROOT->FindObject("hP1");
+ chainFit->Draw("Tr.fP[2]:LTr.fId>>hP2(350,0,350)","Tr.fP[4]/sqrt(Tr.fC[14])<20"+cutA,"prof");
+ pP2 = (TProfile*)gROOT->FindObject("hP2");
+ chainFit->Draw("Tr.fP[3]:LTr.fId>>hP3(350,0,350)","Tr.fP[4]/sqrt(Tr.fC[14])<20"+cutA,"prof");
+ pP3 = (TProfile*)gROOT->FindObject("hP3");
+ chainFit->Draw("Tr.fP[4]:LTr.fId>>hP4(350,0,350)","Tr.fP[4]/sqrt(Tr.fC[14])<20"+cutA,"prof");
+ pP4 = (TProfile*)gROOT->FindObject("hP4");
+ //
+ chainFit->Draw("nclI:LTr.fId>>hNclI(350,0,350)","","prof");
+ pNclI = (TProfile*)gROOT->FindObject("hNclI");
+ chainFit->Draw("nclO:LTr.fId>>hNclO(350,0,350)","","prof");
+ pNclO = (TProfile*)gROOT->FindObject("hNclO");
+ //
+ //
+ chainFit->Draw("sqrt(chi2y2In):LTr.fId>>hChi2YIn(350,0,350)",cutA+"","prof");
+ pchi2YIn = (TProfile*)gROOT->FindObject("hChi2YIn");
+ chainFit->Draw("sqrt(chi2y2Out):LTr.fId>>hChi2YOut(350,0,350)",cutA+"","prof");
+ pchi2YOut = (TProfile*)gROOT->FindObject("hChi2YOut");
+ chainFit->Draw("sqrt(chi2yInOut):LTr.fId>>hChi2YInOut(350,0,350)",cutA+"","prof");
+ pchi2YInOut = (TProfile*)gROOT->FindObject("hChi2YInOut");
+ chainFit->Draw("sqrt(chi2z2In):LTr.fId>>hChi2ZIn(350,0,350)",cutA+"","prof");
+ pchi2ZIn = (TProfile*)gROOT->FindObject("hChi2ZIn");
+ chainFit->Draw("sqrt(chi2z2Out):LTr.fId>>hChi2ZOut(350,0,350)",cutA+"","prof");
+ pchi2ZOut = (TProfile*)gROOT->FindObject("hChi2ZOut");
+ chainFit->Draw("sqrt(chi2zInOut):LTr.fId>>hChi2ZInOut(350,0,350)",cutA+"","prof");
+ pchi2ZInOut = (TProfile*)gROOT->FindObject("hChi2ZInOut");
+ //
+ // second derivatives
+ //
+ TH2F * phisPy2In = new TH2F("Py2Inner","Py2Inner",350,0,350,100,-0.001,0.001);
+ chainFit->Draw("yPol2In.fElements[2]:LTr.fId>>Py2Inner",cutA,"");
+ TH2F * phisPy2Out = new TH2F("Py2Outer","Py2Outer",350,0,350,200,-0.0005,0.0005);
+ chainFit->Draw("yPol2Out.fElements[2]:LTr.fId>>Py2Outer",cutA,"");
+ TH2F * phisPy2InOut = new TH2F("Py2InOut","Py2InOut",350,0,350,200,-0.0005,0.0005);
+ chainFit->Draw("yInOut.fElements[4]:LTr.fId>>Py2InOut",cutA,"");
+ //
+ phisPy2In->FitSlicesY();
+ TH1D * phisPy2InEntries = (TH1D*)gROOT->FindObject("Py2Inner_0");
+ TH1D * phisPy2InMean = (TH1D*)gROOT->FindObject("Py2Inner_1");
+ TH1D * phisPy2InSigma = (TH1D*)gROOT->FindObject("Py2Inner_2");
+ //
+ phisPy2Out->FitSlicesY();
+ TH1D * phisPy2OutEntries = (TH1D*)gROOT->FindObject("Py2Outer_0");
+ TH1D * phisPy2OutMean = (TH1D*)gROOT->FindObject("Py2Outer_1");
+ TH1D * phisPy2OutSigma = (TH1D*)gROOT->FindObject("Py2Outer_2");
+ //
+ phisPy2InOut->FitSlicesY();
+ TH1D * phisPy2InOutEntries = (TH1D*)gROOT->FindObject("Py2InOut_0");
+ TH1D * phisPy2InOutMean = (TH1D*)gROOT->FindObject("Py2InOut_1");
+ TH1D * phisPy2InOutSigma = (TH1D*)gROOT->FindObject("Py2InOut_2");
+ //
+ TH2F * phisPz2In = new TH2F("Pz2Inner","Pz2Inner",350,0,350,100,-0.001,0.001);
+ chainFit->Draw("zPol2In.fElements[2]:LTr.fId>>Pz2Inner",cutA,"");
+ TH2F * phisPz2Out = new TH2F("Pz2Outer","Pz2Outer",350,0,350,200,-0.0005,0.0005);
+ chainFit->Draw("zPol2Out.fElements[2]:LTr.fId>>Pz2Outer",cutA,"");
+ TH2F * phisPz2InOut = new TH2F("Pz2InOut","Pz2InOut",350,0,350,200,-0.0005,0.0005);
+ chainFit->Draw("zInOut.fElements[4]:LTr.fId>>Pz2InOut",cutA,"");
+ //
+ phisPz2In->FitSlicesY();
+ TH1D * phisPz2InEntries = (TH1D*)gROOT->FindObject("Pz2Inner_0");
+ TH1D * phisPz2InMean = (TH1D*)gROOT->FindObject("Pz2Inner_1");
+ TH1D * phisPz2InSigma = (TH1D*)gROOT->FindObject("Pz2Inner_2");
+ //
+ phisPz2Out->FitSlicesY();
+ TH1D * phisPz2OutEntries = (TH1D*)gROOT->FindObject("Pz2Outer_0");
+ TH1D * phisPz2OutMean = (TH1D*)gROOT->FindObject("Pz2Outer_1");
+ TH1D * phisPz2OutSigma = (TH1D*)gROOT->FindObject("Pz2Outer_2");
+ //
+ phisPz2InOut->FitSlicesY();
+ TH1D * phisPz2InOutEntries = (TH1D*)gROOT->FindObject("Pz2InOut_0");
+ TH1D * phisPz2InOutMean = (TH1D*)gROOT->FindObject("Pz2InOut_1");
+ TH1D * phisPz2InOutSigma = (TH1D*)gROOT->FindObject("Pz2InOut_2");
+ //
+ //
+ //
+
+
+ {
+ TTreeSRedirector *pcstream = new TTreeSRedirector("vscan.root");
+ for (Int_t ilaser=0; ilaser<336; ilaser++){
+ Float_t all=phisAl->GetBinContent(ilaser+1);
+ Float_t accept=phisAccept->GetBinContent(ilaser+1);
+ Float_t out=phisOut->GetBinContent(ilaser+1);
+ Float_t sdedx = pdEdx->GetBinContent(ilaser+1);
+ Float_t mP0 = pP0->GetBinContent(ilaser+1);
+ Float_t mP1 = pP1->GetBinContent(ilaser+1);
+ Float_t mP2 = pP2->GetBinContent(ilaser+1);
+ Float_t mP3 = pP3->GetBinContent(ilaser+1);
+ Float_t mP4 = pP4->GetBinContent(ilaser+1);
+
+
+ Float_t nclI = pNclI->GetBinContent(ilaser+1);
+ Float_t nclO = pNclO->GetBinContent(ilaser+1);
+ //
+ Float_t chi2YIn=pchi2YIn->GetBinContent(ilaser+1);
+ Float_t chi2YOut=pchi2YOut->GetBinContent(ilaser+1);
+ Float_t chi2YInOut=pchi2YInOut->GetBinContent(ilaser+1);
+ Float_t chi2ZIn=pchi2ZIn->GetBinContent(ilaser+1);
+ Float_t chi2ZOut=pchi2ZOut->GetBinContent(ilaser+1);
+ Float_t chi2ZInOut=pchi2ZInOut->GetBinContent(ilaser+1);
+ //
+ Float_t entriesPy2In = phisPy2InEntries->GetBinContent(ilaser+1);
+ Float_t meanPy2In = phisPy2InMean->GetBinContent(ilaser+1);
+ Float_t sigmaPy2In = phisPy2InSigma->GetBinContent(ilaser+1);
+ //
+ Float_t entriesPy2Out = phisPy2OutEntries->GetBinContent(ilaser+1);
+ Float_t meanPy2Out = phisPy2OutMean->GetBinContent(ilaser+1);
+ Float_t sigmaPy2Out = phisPy2OutSigma->GetBinContent(ilaser+1);
+ //
+ Float_t entriesPy2InOut = phisPy2InOutEntries->GetBinContent(ilaser+1);
+ Float_t meanPy2InOut = phisPy2InOutMean->GetBinContent(ilaser+1);
+ Float_t sigmaPy2InOut = phisPy2InOutSigma->GetBinContent(ilaser+1);
+ //
+ Float_t entriesPz2In = phisPz2InEntries->GetBinContent(ilaser+1);
+ Float_t meanPz2In = phisPz2InMean->GetBinContent(ilaser+1);
+ Float_t sigmaPz2In = phisPz2InSigma->GetBinContent(ilaser+1);
+ //
+ Float_t entriesPz2Out = phisPz2OutEntries->GetBinContent(ilaser+1);
+ Float_t meanPz2Out = phisPz2OutMean->GetBinContent(ilaser+1);
+ Float_t sigmaPz2Out = phisPz2OutSigma->GetBinContent(ilaser+1);
+ //
+ Float_t entriesPz2InOut = phisPz2InOutEntries->GetBinContent(ilaser+1);
+ Float_t meanPz2InOut = phisPz2InOutMean->GetBinContent(ilaser+1);
+ Float_t sigmaPz2InOut = phisPz2InOutSigma->GetBinContent(ilaser+1);
+
+ AliTPCLaserTrack* ltrp =(AliTPCLaserTrack*)AliTPCLaserTrack::GetTracks()->UncheckedAt(ilaser);
+ (*pcstream)<<"Scan"<<
+ "Run="<<id<<
+ "LTr.="<<ltrp<<
+ "all="<<all<<
+ "accept="<<accept<<
+ "out="<<out<<
+ "sdedx="<<sdedx<<
+ "mP0="<<mP0<<
+ "mP1="<<mP1<<
+ "mP2="<<mP2<<
+ "mP3="<<mP3<<
+ "mP4="<<mP4<<
+ "nclI="<<nclI<<
+ "nclO="<<nclO<<
+ "chi2YIn="<<chi2YIn<<
+ "chi2YOut="<<chi2YOut<<
+ "chi2YInOut="<<chi2YInOut<<
+ "chi2ZIn="<<chi2ZIn<<
+ "chi2ZOut="<<chi2ZOut<<
+ "chi2ZInOut="<<chi2ZInOut<<
+ //
+ "nPy2In="<<entriesPy2In<<
+ "mPy2In="<<meanPy2In<<
+ "sPy2In="<<sigmaPy2In<<
+ //
+ "nPy2Out="<<entriesPy2Out<<
+ "mPy2Out="<<meanPy2Out<<
+ "sPy2Out="<<sigmaPy2Out<<
+ //
+ "nPy2InOut="<<entriesPy2InOut<<
+ "mPy2InOut="<<meanPy2InOut<<
+ "sPy2InOut="<<sigmaPy2InOut<<
+ //
+ "nPz2In="<<entriesPz2In<<
+ "mPz2In="<<meanPz2In<<
+ "sPz2In="<<sigmaPz2In<<
+ //
+ "nPz2Out="<<entriesPz2Out<<
+ "mPz2Out="<<meanPz2Out<<
+ "sPz2Out="<<sigmaPz2Out<<
+ //
+ "nPz2InOut="<<entriesPz2InOut<<
+ "mPz2InOut="<<meanPz2InOut<<
+ "sPz2InOut="<<sigmaPz2InOut<<
+ "\n";
+ }
+
+ delete pcstream;
+ }
+ /*
+ TFile f("vscan.root");
+ */
+
+ /*
+ pad binning effect
+ chain->Draw("Cl[].fPad-int(Cl[].fPad)",cutA+cutCl+"Cl[].fZ>0&&Cl[].fPad>1","",10000);
+ //
+ chain->Draw("Cl[].fY-TrYpol1.fElements:Cl[].fPad-int(Cl[].fPad)",cutA+cutCl+"Cl[].fZ>0&&Cl[].fPad>1","prof",10000);
+ //
+
+chain->Draw("Cl.fY-TrYpol1.fElements-AliTPCClusterParam::SPosCorrection(0,1,Cl[].fPad,Cl[].fTimeBin,Cl[].fZ,Cl[].fSigmaY2,Cl[].fSigmaZ2,Cl[].fMax):Cl[].fPad-int(Cl[].fPad)",cutA+cutCl+"Cl[].fZ>0&&Cl[].fPad>1","prof",10000);
+
+
+chain->Draw("Cl[].fZ-TrZpol1.fElements-0*AliTPCClusterParam::SPosCorrection(1,1,Cl[].fPad,Cl[].fTimeBin,Cl[].fZ,Cl[].fSigmaY2,Cl[].fSigmaZ2,Cl[].fMax):Cl[].fTimeBin-int(Cl[].fTimeBin)",cutA+cutCl+"Cl[].fZ>0","prof",10000)
+
+ */
+
+
+
+
+
+ /*
+ // check edge effects
+ chain->Draw("Cl.fY-TrYpol1.fElements:Cl.fY/Cl.fX",""+cutA+cutCl,"prof",10000)
+ //
+ chain->Draw("Cl.fY-TrYpol2.fElements:Cl.fPad-int(Cl.fPad)","Cl.fZ>0"+cutA+cutCl+cutE,"prof",100000)
+
+ chain->Draw("Cl.fY-TrYpol2.fElements:Cl.fPad-int(Cl.fPad)","Cl.fX>80&&Cl.fZ>0&&Cl.fDetector>35"+cutA+cutCl+cutE,"prof",100000)
+
+
+
+ chainFit->Draw("yInOut.fElements[4]:LTr.fP[2]","LTr.fP[1]<0"+cutA,"prof",1000);
+ chainFit->Draw("yPol2In.fElements[2]*90*90/4.:LTr.fP[2]","nclO>40&<r.fP[1]<0"+cutA+cutD,"prof")
+
+*/
+
+
+
+
+
+ /*
+ Edge y effect
+
+ dedge = sign(Cl.fY)*(Cl.fX*tan(pi/18)-abs(Cl.fY))
+
+
+ chain->Draw("sign(Cl.fY)*(Cl.fY-TrYpol1.fElements):pi/18-abs(Cl.fY/Cl.fX)>>hisYdphi(100,0,0.03)",""+cutA+cutCl,"prof",10000)
+
+ chain->Draw("sign(Cl.fY)*(Cl.fY-TrYpol1.fElements):Cl.fX*(pi/18-abs(Cl.fY/Cl.fX))>>hisYdy(100,0,5)",""+cutA+cutCl,"prof",10000)
+
+
+
+
+
+ chain->Draw("sign(Cl.fY)*(Cl.fY-TrYpol1.fElements):Cl.fX*(pi/18-abs(Cl.fY/Cl.fX))>>hisYdyIROC(100,0,5)","Cl.fDetector<36"+cutA+cutCl,"prof",100000)
+
+ chain->Draw("sign(Cl.fY)*(Cl.fY-TrYpol1.fElements):Cl.fX*(pi/18-abs(Cl.fY/Cl.fX))>>hisYdyOROC(100,0,5)","Cl.fDetector>36"+cutA+cutCl,"prof",100000)
+
+
+
+ chain->Draw("Cl.fY-TrYpol1.fElements:sign(Cl.fY)*(Cl.fX*tan(pi/18)-abs(Cl.fY))>>his(100,-5,5)",""+cutA+cutCl,"prof",100000)
+
+ chain->Draw("Cl.fY-TrYpol1.fElements:sign(Cl.fY)*(Cl.fX*tan(pi/18)-abs(Cl.fY))>>hisdyInner(100,-5,5)","Cl.fDetector<36"+cutA+cutCl,"prof",100000)
+
+
+
+*/
+
+
+/*
+
+chainFit->Draw("yPol2Out.fElements[2]*90*90/4.:LTr.fP[2]","nclO>40&<r.fP[1]<0"+cutA+cutDY,"prof")
+
+chainFit->Draw("yPol2In.fElements[2]*64*64/4.:LTr.fP[2]","nclI>20&<r.fP[1]<0"+cutA+cutDY,"prof")
+
+
+
+chainFit->Draw("LTr.fId","nclI>10",100000)
+
+chainFit->Draw("yPol2In.fElements[2]:LTr.fId>>his(350,0,350,100,-0.002,0.002)","nclI>20","")
+
+chainFit->Draw("yPol2In.fElements[2]:LTr.fId>>hisPy2In0(350,0,350,100,-0.002,0.002)","nclI>20","");
+
+TH2 * phisPy2In = (TH2*) gROOT->FindObject("hisPy2In0")
+
+*/
+
+}
+
+
+
+
/*
TVectorD fitParam;
TMatrixD covMatrix;
Int_t npoints;
+
TCut cutA("entries>2&&pphi2<3&&abs(gphiP1-pphiP0)<0.003&&abs(gz1)<6");
TEventList listLFit0("listLFit0","listLFit0");
TEventList listLFit1("listLFit1","listLFit1");
-
tree->Draw(">>listLFit0","seed.fdEdx<200&&seed.fdEdx>40");
tree->SetEventList(&listLFit0);
+
+
+ gSystem->Load("libSTAT.so")
+ TStatToolkit toolkit;
+ Double_t chi2;
+ TVectorD fitParam;
+ TMatrixD covMatrix;
+ Int_t npoints;
+
+ chain->SetAlias("dp","((Cl.fPad-int(Cl.fPad))*pi)");
+ chain->SetAlias("dt","((Cl.fTimeBin-int(Cl.fTimeBin))*pi)");
+
+
+ TString fstring="";
+ fstring+="cos(dp)++";
+ fstring+="sin(dp)++";
+ fstring+="cos(dt)++";
+ fstring+="sin(dt)++";
+
+ TString *str = toolkit.FitPlane(chain,"Cl.fZ-TrZInOut.fElements",fstring->Data(), "Cl.fDetector>35", chi2,npoints,fitParam,covMatrix,-1,0,200);
+
+
+
+*/
+
+
+
+/*
+ Edge effects
+ //
+ //
+ //
+ gSystem->AddIncludePath("-I$ALICE_ROOT/TPC/macros");
+ gROOT->LoadMacro("$ALICE_ROOT/TPC/macros/AliXRDPROOFtoolkit.cxx+")
+ AliXRDPROOFtoolkit tool;
+ TChain * chainTrack = tool.MakeChain("laser.txt","Track",0,10200);
+ chainTrack->Lookup();
+ chainTrack->SetProof(kTRUE);
+
+ TChain * chain = tool.MakeChain("laser.txt","Residuals",0,10200);
+ chain->Lookup();
+ TChain * chainFit = tool.MakeChain("laser.txt","FitModels",0,10200);
+ chainFit->Lookup();
+ chainFit->SetProof(kTRUE);
+ chain->SetProof(kTRUE);
+ //
+ // Fit cuts
+ //
+ TCut cutChi2YOut("sqrt(chi2y2Out*dEdx)<10");
+ TCut cutChi2ZOut("sqrt(chi2z2Out*dEdx)<10");
+ TCut cutChi2YIn("sqrt(chi2y2In*dEdx)<10");
+ TCut cutChi2ZIn("sqrt(chi2z2In*dEdx)<10");
+ //
+ TCut cutdEdx("sqrt(dEdx)<30&&sqrt(dEdx)>3");
+ TCut cutDY("abs(yPol2In.fElements[2]*nclO*nclO/4.)<3")
+ TCut cutN("nclO>20&&nclI>20");
+ TCut cutA = cutChi2YOut+cutChi2ZOut+cutChi2YIn+cutChi2ZIn+cutN+cutdEdx;
+ //
+ // Cluster cuts
+ //
+ TCut cutClY("abs(Cl.fY-TrYpol2.fElements)<0.2");
+ TCut cutClZ("abs(Cl.fZ-TrZpol2.fElements)<0.4");
+ TCut cutClX("abs(Cl.fX)>10");
+ TCut cutE("abs(Cl.fY/Cl.fX)<0.14");
+ TCut cutCl=cutClY+cutClZ+cutClX;
+
+
+ // check edge effects
+ chain->Draw("Cl.fY-TrYpol1.fElements:Cl.fY/Cl.fX",""+cutA+cutCl,"prof",10000)
+ //
+ chain->Draw("Cl.fY-TrYpol2.fElements:Cl.fPad-int(Cl.fPad)","Cl.fZ>0"+cutA+cutCl+cutE,"prof",100000)
+
+ chain->Draw("Cl.fY-TrYpol2.fElements:Cl.fPad-int(Cl.fPad)","Cl.fX>80&&Cl.fZ>0&&Cl.fDetector>35"+cutA+cutCl+cutE,"prof",100000)
+
+
+
+ chainFit->Draw("yInOut.fElements[4]:LTr.fP[2]","LTr.fP[1]<0"+cutA,"prof",1000);
+ chainFit->Draw("yPol2In.fElements[2]*90*90/4.:LTr.fP[2]","nclO>40&<r.fP[1]<0"+cutA+cutD,"prof")
+
*/
+