// // macro to create a residual OCDB // /* // // // .x $ALICE_ROOT/TPC/Upgrade/macros/ConfigOCDB.C(1) .L $ALICE_ROOT/TPC/Upgrade/macros/makeResidualSpaceChargeOCDB.C Example usage: ln -sf /hera/alice/wiechula/Upgrade/LUTs_fluctuation/dir1/SpaceChargeFluc10_1.lookup.root current.root ln -sf /hera/alice/wiechula/Upgrade/LUTs_fluctuation/average/SpaceChargeFluc0_1.lookup.root mean.root ln -sf $ALICE_ROOT/OCDB/TPC/Calib/Correction/Run0_999999999_v0_s2.root ocdb.root aliroot -b -q $ALICE_ROOT/TPC/Upgrade/macros/makeResidualSpaceChargeOCDB.C */ void makeResidualSpaceChargeOCDBLookup(const char *ocdbInName="ocdb.root",const char *scCurrentName="current.root", const char *scMeanName="mean.root"){ // // Macro to create a clone original OCDB entry with space point distortion and add there space point // distortions cause by resifual sapce charge // Output is stored by default in the current directory. // // Parameters to Specify: // ocdbInName : path to the original OCDB entry // scCurrentName : path to the fluctuetaed distortion map // scMeanName : path to the mean distortion map // /* scCurrentName="/hera/alice/wiechula/Upgrade/LUTs_fluctuation/dir1/SpaceChargeFluc10_1.lookup.root"; scMeanName="/hera/alice/wiechula/Upgrade/LUTs_fluctuation/average/SpaceChargeFluc0_1.lookup.root"; ocdbInName="$ALICE_ROOT/OCDB/TPC/Calib/Correction/Run0_999999999_v0_s2.root" */ TFile * finCurrent = TFile::Open(scCurrentName); TFile * finMean = TFile::Open(scMeanName); // AliTPCCorrectionLookupTable *spaceChargeCurrent= (AliTPCCorrectionLookupTable *)finCurrent->Get("map"); AliTPCCorrectionLookupTable *spaceChargeMean = (AliTPCCorrectionLookupTable *)finMean->Get("map"); AliTPCInverseCorrection * spaceChargeInverseMean = new AliTPCInverseCorrection(spaceChargeMean); // TObjArray * arraySC = new TObjArray(2); arraySC->AddAt(spaceChargeCurrent,0); arraySC->AddAt(spaceChargeMean,1); AliTPCComposedCorrection *corrSC = new AliTPCComposedCorrection(arraySC,AliTPCComposedCorrection::kParallel); AliTPCComposedCorrection *corrSCW = new AliTPCComposedCorrection(arraySC,AliTPCComposedCorrection::kParallel); AliTPCComposedCorrection::AddVisualCorrection(spaceChargeCurrent,1); AliTPCComposedCorrection::AddVisualCorrection(spaceChargeMean,2); AliTPCComposedCorrection::AddVisualCorrection(spaceChargeInverseMean,3); AliTPCComposedCorrection::AddVisualCorrection(corrSC,4); AliTPCComposedCorrection::AddVisualCorrection(corrSCW,5); // // TLinearFitter fitterR(2,"pol1"); for (Int_t ipoint =0; ipoint<10000; ipoint++){ Double_t z0 = -250+gRandom->Rndm()*500; Double_t r0 = 85+gRandom->Rndm()*(245-85.); Double_t phi0 = gRandom->Rndm()*TMath::TwoPi(); // some problematic parts to be skipped - investigated later Double_t xvalue[2]={0}; if (TMath::Abs(AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,0,1))>50) continue; if (TMath::Abs(AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,0,2))>50) continue; if (TMath::Abs(AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,1,1))>20) continue; if (TMath::Abs(AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,1,2))>20) continue; if (TMath::Abs(AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,2,1))>50) continue; if (TMath::Abs(AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,2,2))>50) continue; // // xvalue[0]=AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,0,2); fitterR.AddPoint(xvalue,AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,0,1)); } fitterR->Eval(); TVectorD weights(2); weights[0]=1; weights[1]=-1; corrSC->SetWeights( &weights); weights[1]=-fitterR->GetParameter(1); corrSCW->SetWeights( &weights); // // // TF1 *fSC = new TF1("fSC","AliTPCCorrection::GetCorrXYZ(x,0,10,0,4)",85,245); TF1 *fSCW = new TF1("fSCW","AliTPCCorrection::GetCorrXYZ(x,0,10,0,5)",85,245); fSC->SetLineColor(2); fSC->SetLineColor(4); fSC->Draw(); fSCW->Draw("same"); gPad->SaveAs("residualMap.pdf"); // // // TFile *fileOCDBIn=TFile::Open(ocdbInName); AliCDBEntry *entry = ( AliCDBEntry *)fileOCDBIn->Get("AliCDBEntry"); TObjArray * array = (TObjArray*)entry->GetObject(); for (Int_t i=0; i<3; i++){ AliTPCComposedCorrection *corr = ( AliTPCComposedCorrection*)array->At(i); if (corr){ TObjArray* corrArray = corr->GetCorrections(); corrArray->AddLast(corrSCW); } } AliCDBMetaData *metaData= new AliCDBMetaData(); metaData->SetObjectClassName("TObjArray"); metaData->SetResponsible("Marian Ivanov"); metaData->SetBeamPeriod(1); metaData->SetAliRootVersion("05-25-01"); //root version metaData->SetComment("Standard+fluctuation"); AliCDBId* id1=NULL; id1=new AliCDBId("TPC/Calib/Correction", 0, 9999999999999999); // TString localStorage = "local://"+gSystem->GetFromPipe("pwd")+"/OCDB"; pocdbStorage = AliCDBManager::Instance()->GetStorage(localStorage.Data()); pocdbStorage->Put(array, (*id1), metaData); } void makeResidualSpaceChargeOCDB(const char *ocdbInName="ocdb.root",const char *scCurrentName="current.root", const char *scMeanName="mean.root"){ // // Macro to create a clone original OCDB entry with space point distortion and add there space point // distortions cause by resifual sapce charge // Output is stored by default in the current directory. // // Parameters to Specify: // ocdbInName : path to the original OCDB entry // scCurrentName : path to the fluctuetaed distortion map // scMeanName : path to the mean distortion map // /* scCurrentName="/hera/alice/miranov/SpaceCharge/Fluctuations/PbPbWithGain/dirmergeAll/dEpsilon20/dir0/SpaceChargeFluc10_1.root"; scMeanName="/hera/alice/miranov/SpaceCharge/Fluctuations/PbPbWithGain/dirmergeAll/dEpsilon20/dir0//SpaceChargeFluc0_1.root"; ocdbInName="$ALICE_ROOT/OCDB/TPC/Calib/Correction/Run0_999999999_v0_s2.root" */ TFile * finCurrent = TFile::Open(scCurrentName); TFile * finMean = TFile::Open(scMeanName); // AliTPCCorrectionLookupTable *spaceChargeCurrent= (AliTPCCorrectionLookupTable *)finCurrent->Get("DistRef"); AliTPCCorrectionLookupTable *spaceChargeMean = (AliTPCCorrectionLookupTable *)finMean->Get("DistRef"); AliTPCInverseCorrection * spaceChargeInverseMean = new AliTPCInverseCorrection(spaceChargeMean); // TObjArray * arraySC = new TObjArray(2); arraySC->AddAt(spaceChargeCurrent,0); arraySC->AddAt(spaceChargeMean,1); AliTPCComposedCorrection *corrSC = new AliTPCComposedCorrection(arraySC,AliTPCComposedCorrection::kParallel); AliTPCComposedCorrection *corrSCW = new AliTPCComposedCorrection(arraySC,AliTPCComposedCorrection::kParallel); AliTPCComposedCorrection::AddVisualCorrection(spaceChargeCurrent,1); AliTPCComposedCorrection::AddVisualCorrection(spaceChargeMean,2); AliTPCComposedCorrection::AddVisualCorrection(spaceChargeInverseMean,3); AliTPCComposedCorrection::AddVisualCorrection(corrSC,4); AliTPCComposedCorrection::AddVisualCorrection(corrSCW,5); // // TLinearFitter fitterR(2,"pol1"); for (Int_t ipoint =0; ipoint<10000; ipoint++){ Double_t z0 = -250+gRandom->Rndm()*500; Double_t r0 = 85+gRandom->Rndm()*(245-85.); Double_t phi0 = gRandom->Rndm()*TMath::TwoPi(); // some problematic parts to be skipped - investigated later Double_t xvalue[2]={0}; if (TMath::Abs(AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,0,1))>50) continue; if (TMath::Abs(AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,0,2))>50) continue; if (TMath::Abs(AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,1,1))>20) continue; if (TMath::Abs(AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,1,2))>20) continue; if (TMath::Abs(AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,2,1))>50) continue; if (TMath::Abs(AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,2,2))>50) continue; // // xvalue[0]=AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,1,2); fitterR.AddPoint(xvalue,AliTPCCorrection::GetCorrXYZ(r0*TMath::Cos(phi0), r0*TMath::Sin(phi0), z0,1,1)); } fitterR->Eval(); TVectorD weights(2); weights[0]=1; weights[1]=-1; corrSC->SetWeights( &weights); weights[1]=-fitterR->GetParameter(1); corrSCW->SetWeights( &weights); // // // TF1 *fSC = new TF1("fSC","AliTPCCorrection::GetCorrXYZ(x,0,10,1,4)",85,245); TF1 *fSCW = new TF1("fSCW","AliTPCCorrection::GetCorrXYZ(x,0,10,1,5)",85,245); fSC->SetLineColor(2); fSC->SetLineColor(4); fSC->GetXaxis()->SetTitle(" R (cm)"); fSC->GetYaxis()->SetTitle(" #Delta_{R#phi} (cm)"); TCanvas * canvasDist = new TCanvas("canvasDist","canvasDist",600,500); TF1 *f1sc = new TF1("f1sc","[0]+[1]*x+[2]*x**2",85,245); TF1 *f1scw = new TF1("f1scw","[0]+[1]*x+[2]*x**2",85,245); { fSC->Draw(); fSCW->Draw(); fSC->SetMinimum(-1); fSC->SetMaximum(2.); fSC->GetHistogram()->SetLineColor(2); fSCW->GetHistogram()->SetLineColor(4); // f1sc->SetLineColor(2); f1scw->SetLineColor(4); f1sc->SetLineWidth(0.5); f1scw->SetLineWidth(0.5); // fSC->GetHistogram()->Fit(f1sc); fSCW->GetHistogram()->Fit(f1scw); // fSC->GetHistogram()->Draw(""); fSCW->GetHistogram()->Draw("same"); // TF1 *f1scp=new TF1(*f1sc); TF1 *f1scm=new TF1(*f1sc); f1scp->SetLineStyle(2); f1scm->SetLineStyle(2); f1scp->SetParameter(0, f1sc->GetParameter(0)+ 0.3); f1scm->SetParameter(0, f1sc->GetParameter(0)- 0.3); f1scp->Draw("same"); f1scm->Draw("same"); // TF1 *f1scwp=new TF1(*f1scw); TF1 *f1scwm=new TF1(*f1scw); f1scwp->SetLineStyle(2); f1scwm->SetLineStyle(2); f1scwp->SetParameter(0, f1scw->GetParameter(0)+ 0.3); f1scwm->SetParameter(0, f1scw->GetParameter(0)- 0.3); f1scwp->Draw("same"); f1scwm->Draw("same"); } TLegend * legend = new TLegend(0.3,0.5,0.89,0.89,"Residual #Delta_{R#phi} distortions and helix fit"); legend->SetBorderSize(0); legend->AddEntry(fSC->GetHistogram(),"Stage 0: #Delta_{R#phic}-#Delta_{R#phimean}"); legend->AddEntry(fSCW->GetHistogram(),"Stage 1: #Delta_{R#phic}-k_{fit}#Delta_{R#phimean}"); legend->Draw(); gPad->SaveAs("residualMapTrackFit.pdf"); // // // TFile *fileOCDBIn=TFile::Open(ocdbInName); AliCDBEntry *entry = ( AliCDBEntry *)fileOCDBIn->Get("AliCDBEntry"); TObjArray * array = (TObjArray*)entry->GetObject(); for (Int_t i=0; i<3; i++){ AliTPCComposedCorrection *corr = ( AliTPCComposedCorrection*)array->At(i); if (corr){ TObjArray* corrArray = corr->GetCorrections(); corrArray->AddLast(corrSCW); } } AliCDBMetaData *metaData= new AliCDBMetaData(); metaData->SetObjectClassName("TObjArray"); metaData->SetResponsible("Marian Ivanov"); metaData->SetBeamPeriod(1); metaData->SetAliRootVersion("05-25-01"); //root version metaData->SetComment("Standard+fluctuation"); AliCDBId* id1=NULL; id1=new AliCDBId("TPC/Calib/Correction", 0, 9999999999999999); // TString localStorage = "local://"+gSystem->GetFromPipe("pwd")+"/OCDB"; pocdbStorage = AliCDBManager::Instance()->GetStorage(localStorage.Data()); pocdbStorage->Put(array, (*id1), metaData); }