-AliJetReader *CreateJetReader(Char_t *jr); // Common config\r
-AliJetFinder *CreateJetFinder(Char_t *jf);\r
+AliJetReader *CreateJetReader(Char_t *jr,UInt_t filterMask); // Common config\r
+AliJetFinder *CreateJetFinder(Char_t *jf,Float_t radius = -1);\r
+\r
+AliAnalysisTaskJets *AddTaskJets(Char_t *jr, Char_t *jf,Float_t radius = -1,UInt_t filterMask = 0); // for the new AF\r
+Int_t AddTaskJetsDelta(char *nonStdFile = "",UInt_t filterMask = 0,Bool_t kUseAODMC = kTRUE,UInt_t runFlag = 1|4|32|128|256); \r
+AliAnalysisTaskJets *AddTaskJets(UInt_t filterMask = 0);\r
+\r
+AliAnalysisTaskJets *AddTaskJets(UInt_t filterMask ){\r
+ // fills the standard "jets" branch in the AOD\r
+ // need the ESDFilter to run before, to access the AODtracks\r
+ // Tracks selected by the first Filter (1<<0)\r
+ // needs to be adapted for different cuts\r
+ \r
+ // UA1 as standard chosen, since it is the most robust and simple JF\r
+ // R = 0.4 suffficient to provide accurate jet axis for correlation studies\r
+ // energy resolution suffers a little\r
+ // Acceptance of jets not limited by the Jet Finder but should be done\r
+ // by user to abs(eta) < 0.5 \r
+\r
+ return AddTaskJets("AOD","UA1",0.4,filterMask);\r
\r
-AliAnalysisTaskJets *AddTaskJets(Char_t *jr, Char_t *jf); // for the new AF\r
-AliAnalysisTaskJets *AddTaskJets(Char_t *jr, Char_t *jf,AliAnalysisManager* mgr,AliAnalysisDataContainer *cinput); // for the old AF\r
+}\r
+\r
+\r
+\r
+Int_t AddTaskJetsDelta(char *nonStdFile,UInt_t filterMask,Bool_t kUseAODMC,UInt_t runFlag){\r
+\r
+ // Adds a whole set of jet finders all to be written\r
+ // to a delta AOD\r
+ \r
+ // this can in principle be done also with on the fly \r
+ // if we have an ESD input jet fidner task does automatically fetch the ouput aod\r
+\r
+ AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();\r
+ if (!mgr) {\r
+ ::Error("AddTaskJetsDelta", "No analysis manager to connect to.");\r
+ return 0;\r
+ } \r
+ \r
+ // Check the analysis type using the event handlers connected to the analysis manager.\r
+ //==============================================================================\r
+ if (!mgr->GetInputEventHandler()) {\r
+ ::Error("AddTaskJetsDelta", "This task requires an input event handler");\r
+ return 0;\r
+ }\r
\r
-AliAnalysisTaskJets *AddTaskJets(Char_t *jr, Char_t *jf)\r
+ AliAODHandler *aodh = (AliAODHandler*)mgr->GetOutputEventHandler();\r
+ if (!aodh) {\r
+ ::Error("AddTaskJetsDelta", "This task needs an output event handler");\r
+ return 0;\r
+ } \r
+\r
+ TString outFile(nonStdFile);\r
+\r
+ AliAnalysisTaskJets *jetana = 0;\r
+ Int_t iCount = 0;\r
+\r
+ // Jet Fidners Selected by run flag first bit 2^0 second by 2^1 etc\r
+ const char *cJF[14] = {"UA1","UA1","UA1", "CDF", "CDF","DA","DA","SISCONE","SISCONE","FASTJET","FASTJET","FASTKT","FASTKT","UA1LO"};\r
+ const Float_t radius[14] = { 0.4, 0.7, 1.0, 0.4, 0.7, 0.4, 0.7, 0.4, 0.7, 0.4, 0.7, 0.4, 0.7, 0.4};\r
+ UInt_t flag[14] = { 6, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7};\r
+ // flag[5] = 0; // set siscone to 0 for proof mode...\r
+ // flag first bit AOD, second bit AODMC2 third bit AODMC2 third (8) bit AOODMC2b (limited acceptance)\r
+ // i.e. 7 all, 6 only MC2 and MC\r
+ // this stay at three\r
+ const char *cReader[4] = {"AOD","AODMC","AODMC2","AODMC2b"}; \r
+\r
+ \r
+\r
+ for(int i = 0; i< 14;i++){\r
+ if(!(runFlag&(1<<i)))continue;\r
+ if(!kUseAODMC)flag[i]&=1; // switch OFF MC if we do not have it\r
+ for(int ib = 0;ib<4;ib++){ \r
+ if(flag[i]&(1<<ib)){\r
+ jetana = AddTaskJets(cReader[ib],cJF[i],radius[i],filterMask);\r
+ if(jetana){\r
+ char *cRadius = "";\r
+ if(radius[i]>0)cRadius = Form("%02d",(int)((radius[i]+0.01)*10.)); // add an offset beacuse of precision\r
+ // jetana->SetNonStdBranch(Form("jets%s_%s%s",cReader[ib],cJF[i],cRadius)); // done in addtask jets\r
+ if(outFile.Length()>0)jetana->SetNonStdOutputFile(outFile.Data());\r
+ iCount++;\r
+ }\r
+ }\r
+ }\r
+ }\r
+ \r
+ Printf("Added %d JetFinders",iCount);\r
+}\r
+\r
+\r
+\r
+\r
+\r
+\r
+AliAnalysisTaskJets *AddTaskJets(Char_t *jr, Char_t *jf, Float_t radius,UInt_t filterMask)\r
{\r
// Creates a jet finder task, configures it and adds it to the analysis manager.\r
\r
return NULL;\r
}\r
\r
+ AliAODHandler *aodh = (AliAODHandler*)mgr->GetOutputEventHandler();\r
+ if (!aodh) {\r
+ ::Error("AddTaskJets", "This task needs an output event handler");\r
+ return NULL;\r
+ } \r
+\r
+\r
// Create the task and configure it.\r
//===========================================================================\r
AliAnalysisTaskJets *jetana;\r
- AliJetReader *er = CreateJetReader(jr);\r
+ AliJetReader *er = CreateJetReader(jr,filterMask);\r
// Define jet header and jet finder\r
- AliJetFinder *jetFinder = CreateJetFinder(jf);\r
+ AliJetFinder *jetFinder = CreateJetFinder(jf,radius);\r
\r
if (jetFinder){\r
if (er) jetFinder->SetJetReader(er);\r
}\r
\r
- jetana = new AliAnalysisTaskJets(Form("JetAnalysis%s%s",jr,jf));\r
- AliAnalysisDataContainer *cout_jet = mgr->CreateContainer(Form("jethist%s%s",jr,jf), TList::Class(),\r
- AliAnalysisManager::kOutputContainer, Form("jethist%s_%s.root",jr,jf));\r
- // Connect jet finder to task.\r
- jetana->SetJetFinder(jetFinder);\r
- jetana->SetConfigFile("");\r
- jetana->SetDebugLevel(10);\r
- mgr->AddTask(jetana);\r
+ char *cRadius = "";\r
+ if(radius>0)cRadius = Form("%02d",(int)((radius+0.01)*10.));\r
\r
- // Create ONLY the output containers for the data produced by the task.\r
- // Get and connect other common input/output containers via the manager as below\r
- //==============================================================================\r
- mgr->ConnectInput (jetana, 0, mgr->GetCommonInputContainer());\r
-// AOD output slot will be used in a different way in future\r
- mgr->ConnectOutput (jetana, 0, mgr->GetCommonOutputContainer());\r
- mgr->ConnectOutput (jetana, 1, cout_jet);\r
- \r
- return jetana;\r
-}\r
-\r
-AliAnalysisTaskJets *AddTaskJets(Char_t *jr, Char_t *jf,AliAnalysisManager* mgr,AliAnalysisDataContainer *cinput)\r
-{\r
- // This is only for running on PROOF with the old root version 5-22-00 \r
- // and the older version of the AF\r
+ jetana = new AliAnalysisTaskJets(Form("JetAnalysis%s_%s%s",jr,jf,cRadius));\r
\r
- // Creates a jet fider task, configures it and adds it to the analysis manager.\r
- // Get the pointer to the existing analysis manager via the static access method.\r
- //==============================================================================\r
-\r
- if (!mgr) {\r
- ::Error("AddTaskJets", "No analysis manager to connect to.");\r
- return NULL;\r
- } \r
- \r
- // Check the analysis type using the event handlers connected to the analysis manager.\r
- //==============================================================================\r
- if (!mgr->GetInputEventHandler()) {\r
- ::Error("AddTaskJets", "This task requires an input event handler");\r
- return NULL;\r
+ TString cAdd = "";\r
+ if(filterMask==32){\r
+ // this is the standard mask do not add anything\r
+ // should be changed after current train over all data is finished \r
+ // now needed for merging\r
+ }\r
+ else{\r
+ cAdd += Form("_Filter%05d",filterMask);\r
}\r
\r
- // Create the task and configure it.\r
- //===========================================================================\r
- AliAnalysisTaskJets *jetana;\r
- AliJetReader *er = CreateJetReader(jr);\r
-\r
- // Define jet header and jet finder\r
- AliJetFinder *jetFinder = CreateJetFinder(jf);\r
+ TString c_jr(jr);\r
+ c_jr.ToLower();\r
+ TString c_jf(jf);\r
+ c_jf.ToLower();\r
\r
- if (jetFinder){\r
- if (er) jetFinder->SetJetReader(er);\r
+ if(c_jf.CompareTo("ua1")==0 && TMath::Abs(radius-0.4) < 0.01 && c_jr.CompareTo("aod") == 0){\r
+ // do nothing, this is the standard jet finder R = 0.4, UA1 on AOD\r
}\r
+ else{\r
+ TString bName = Form("jets%s_%s%s%s",jr,jf,cRadius,cAdd.Data());\r
+ jetana->SetNonStdBranch(bName.Data());\r
+ Printf("Set jet branchname \"%s\"",bName.Data());\r
+ \r
+ }\r
+\r
+\r
+ AliAnalysisDataContainer *cout_jet = mgr->CreateContainer(\r
+ Form("jethist_%s_%s%s%s",\r
+ c_jr.Data(),\r
+ c_jf.Data(),\r
+ cRadius,\r
+ cAdd.Data()), \r
+ TList::Class(),\r
+ AliAnalysisManager::kOutputContainer, \r
+ Form("%s:PWG4_jethist_%s_%s%s",AliAnalysisManager::GetCommonFileName(),\r
+ c_jr.Data(),\r
+ c_jf.Data(),\r
+ cRadius,\r
+ cAdd.Data()));\r
\r
- jetana = new AliAnalysisTaskJets(Form("JetAnalysis%s%s",jr,jf));\r
- AliAnalysisDataContainer *cout_jet = mgr->CreateContainer(Form("jethist%s%s",jr,jf), TList::Class(),AliAnalysisManager::kOutputContainer, Form("jethist%s_%s.root",jr,jf));\r
// Connect jet finder to task.\r
jetana->SetJetFinder(jetFinder);\r
jetana->SetConfigFile("");\r
- jetana->SetDebugLevel(10);\r
+ jetana->SetDebugLevel(2);\r
+ if(TMath::Abs((radius-0.4))< 0.02&&c_jf.Contains("fastjet")){\r
+ jetana->SetFilterPt(10.);\r
+ }\r
+\r
+\r
mgr->AddTask(jetana);\r
\r
- // Create the output containers for the data produced by the task.\r
+\r
+ // Create ONLY the output containers for the data produced by the task.\r
+ // Get and connect other common input/output containers via the manager as below\r
//==============================================================================\r
- // AOD output slot will be used in a different way in future\r
- // we need to have different names for each usage\r
- c_aodjet = mgr->CreateContainer(Form("cAODjet%s%s",jr,jf), TTree::Class(),\r
- AliAnalysisManager::kExchangeContainer);\r
- // Connect to data containers\r
- mgr->ConnectInput (jetana,0, cinput );\r
- mgr->ConnectOutput (jetana,0, c_aodjet );\r
+ mgr->ConnectInput (jetana, 0, mgr->GetCommonInputContainer());\r
+// AOD output slot will be used in a different way in future\r
+ mgr->ConnectOutput (jetana, 0, mgr->GetCommonOutputContainer());\r
mgr->ConnectOutput (jetana, 1, cout_jet);\r
\r
return jetana;\r
}\r
\r
-AliJetFinder *CreateJetFinder(Char_t *jf){\r
+AliJetFinder *CreateJetFinder(Char_t *jf,Float_t radius){\r
+ AliJetFinder *jetFinder = 0;\r
\r
switch (jf) {\r
case "CDF":\r
AliCdfJetHeader *jh = new AliCdfJetHeader();\r
jh->SetRadius(0.7);\r
- \r
+ if(radius>0)jh->SetRadius(radius); \r
+ jh->SetAODwrite(kTRUE);\r
+ jh->SetAODtracksWrite(kTRUE);\r
+ // jh->SetDebugCDF(1);\r
jetFinder = new AliCdfJetFinder();\r
- jetFinder->SetOutputFile("jets.root");\r
if (jh) jetFinder->SetJetHeader(jh);\r
break;\r
\r
AliDAJetHeader *jh=new AliDAJetHeader();\r
jh->SetComment("DA jet code with default parameters");\r
jh->SelectJets(kTRUE);\r
- jh->SetNclust(10);\r
- \r
+// jh->SetNeff(200);\r
+// jh->SetEtaEff(2.2);\r
+ if(radius>0)jh->SetRadius(radius);\r
+ jh->SetEtMin(5.);\r
jetFinder = new AliDAJetFinder();\r
if (jh) jetFinder->SetJetHeader(jh);\r
break;\r
\r
+ case "FASTJET":\r
+ // DEFAULT is ANTI KT\r
+ AliFastJetHeaderV1 *jh = new AliFastJetHeaderV1();\r
+ jh->SetRparam(0.4); // setup parameters \r
+ Double_t rBkg = 0.6;\r
+ if(radius>0)jh->SetRparam(radius);\r
+ jh->SetAlgorithm(2); // antikt from fastjet/JetDefinition.hh\r
+ jetFinder = new AliFastJetFinder();\r
+ jh->SetPtMin(1);\r
+ jh->SetRparamBkg(rBkg);\r
+ jh->SetGhostEtaMax(0.9+rBkg);\r
+ if (jh) jetFinder->SetJetHeader(jh);\r
+ break;\r
\r
- case "Fastjet":\r
- AliFastJetHeader *jh = new AliFastJetHeader();\r
- jh->SetRparam(0.7); // setup parameters \r
-\r
+ case "FASTKT":\r
+ AliFastJetHeaderV1 *jh = new AliFastJetHeaderV1();\r
+ jh->SetRparam(0.4); // setup parameters \r
+ Double_t rBkg = 0.6;\r
+ if(radius>0)jh->SetRparam(radius);\r
+ jh->SetAlgorithm(0); // kt from fastjet/JetDefinition.hh\r
+ jh->SetPtMin(1);\r
+ jh->SetRparamBkg(rBkg);\r
+ jh->SetGhostEtaMax(0.9+rBkg);\r
jetFinder = new AliFastJetFinder();\r
- jetFinder->SetOutputFile("jets.root");\r
+ if (jh) jetFinder->SetJetHeader(jh);\r
+ break;\r
+\r
+ case "SISCONE":\r
+ AliSISConeJetHeader * jh = new AliSISConeJetHeader();\r
+\r
+ jh->SetJetEtaMax(1.5);\r
+ jh->SetJetEtaMin(-1.5);\r
+\r
+ //siscone parameters\r
+ jh->SetConeRadius(0.4); // default cone radius\r
+ if(radius>0)jh->SetConeRadius(radius); // cone radius\r
+\r
+ jh->SetOverlapThreshold(0.75); // overlap parameter, between 0 and 1 excluded!! 0.75 value is advised\r
+ jh->SetPtProtojetMin(0); // pt min of protojets\r
+ jh->SetMinJetPt(5); // Ptmin of jets (GeV)\r
+\r
+ //do you want to subtract BG (0 = no, 1 = yes)\r
+ jh->SetBGMode(0);\r
+\r
+ //for background\r
+ jh->SetRapRange( -0.9, 0.9); // rapidity range for subtracting background must be < ghostmaxrap-0.95*R\r
+ jh->SetPhiRange(0 , 2*TMath::Pi()); // phi range for subtracting background\r
+ \r
+ //to determine jets area\r
+ jh->SetBGAlgorithm(1); // algorithm for rho calculation : 0 = kT, 1 = Cambridge\r
+ jh->SetGhostEtaMax(4); // eta max where ghosts are generated \r
+ jh->SetGhostArea(0.05); // area of a ghost \r
+ jh->SetMeanGhostKt(1e-100); // average transverse momentum of the ghosts.\r
+ jh->SetAreaTypeNumber(4); // from 1 to 5 : 1 = active_area, 2 = active_area_explicit_ghosts, 3 = one_ghost_passive_area, 4 = passive_area, 5 = voronoi_area\r
+ jetFinder = new AliSISConeJetFinder();\r
if (jh) jetFinder->SetJetHeader(jh);\r
break;\r
\r
jh->SetComment("UA1 jet code with default parameters");\r
jh->BackgMode(0);\r
jh->SetRadius(0.4);\r
- jh->SetEtSeed(4.);\r
+ if(radius>0)jh->SetRadius(radius);\r
+ jh->SetEtSeed(2.);\r
+ jh->SetNAcceptJets(6);\r
+ jh->SetLegoNbinPhi(432);\r
+ jh->SetLegoNbinEta(274);\r
+ jh->SetLegoEtaMin(-2);\r
+ jh->SetLegoEtaMax(+2);\r
+ jh->SetMinJetEt(5.);\r
+ jh->SetJetEtaMax(1.5);\r
+ jh->SetJetEtaMin(-1.5);\r
+\r
+ jetFinder = new AliUA1JetFinderV1();\r
+ if (jh) jetFinder->SetJetHeader(jh);\r
+ break;\r
+ case "UA1LO":\r
+ AliUA1JetHeaderV1 *jh=new AliUA1JetHeaderV1();\r
+ jh->SetComment("UA1 jet code with Lo Pt settings parameters");\r
+ jh->BackgMode(0);\r
+ jh->SetRadius(0.4);\r
+ if(radius>0)jh->SetRadius(radius);\r
+ jh->SetEtSeed(1.);\r
+ jh->SetNAcceptJets(6);\r
jh->SetLegoNbinPhi(432);\r
jh->SetLegoNbinEta(274);\r
jh->SetLegoEtaMin(-2);\r
jh->SetLegoEtaMax(+2);\r
- jh->SetMinJetEt(10.);\r
+ jh->SetMinJetEt(1.);\r
jh->SetJetEtaMax(1.5);\r
jh->SetJetEtaMin(-1.5);\r
\r
if (jh) jetFinder->SetJetHeader(jh);\r
break;\r
\r
+\r
+\r
case "UA1MC":\r
AliUA1JetHeaderV1 *jh=new AliUA1JetHeaderV1();\r
jh->SetComment("UA1 jet code with default MC parameters");\r
jh->BackgMode(0);\r
jh->SetRadius(1.0);\r
+ if(radius>0)jh->SetRadius(radius);\r
jh->SetEtSeed(4.);\r
+ jh->SetNAcceptJets(6);\r
jh->SetLegoNbinPhi(432);\r
jh->SetLegoNbinEta(274);\r
jh->SetLegoEtaMin(-2);\r
jh->SetLegoEtaMax(+2);\r
- jh->SetMinJetEt(10.);\r
+ jh->SetMinJetEt(5.);\r
jh->SetJetEtaMax(1.5);\r
jh->SetJetEtaMin(-1.5);\r
-\r
jetFinder = new AliUA1JetFinderV1();\r
if (jh) jetFinder->SetJetHeader(jh);\r
break;\r
- case default:\r
- ::Error("AddTaskJets", "Wrong jet finder selected\n");\r
- return 0;\r
+ default:\r
+ Printf("\n >>>>>>> AddTaskJets Error Wrong jet finder selected\n");\r
+ break;\r
}\r
\r
return jetFinder;\r
\r
}\r
\r
-AliJetReader *CreateJetReader(Char_t *jr){\r
+AliJetReader *CreateJetReader(Char_t *jr,UInt_t filterMask){\r
AliJetReader *er = 0;\r
-\r
+ const Float_t ptCut = 0.15 ; // cut on track p_T\r
switch (jr) {\r
case "MC":\r
AliJetKineReaderHeader *jrh = new AliJetKineReaderHeader();\r
jrh->SetComment("MC full Kinematics");\r
jrh->SetFastSimTPC(kFALSE);\r
jrh->SetFastSimEMCAL(kFALSE);\r
- jrh->SetPtCut(0.);\r
+ jrh->SetPtCut(ptCut);\r
jrh->SetFiducialEta(-2.1,2.1); // to take all MC particles default is 0 .9 \r
// Define reader and set its header \r
er = new AliJetKineReader();\r
break;\r
case "MC2":\r
AliJetKineReaderHeader *jrh = new AliJetKineReaderHeader();\r
- jrh->SetComment("MC full Kinematics spearate config");\r
+ jrh->SetComment("MC full Kinematics spearate config charged only");\r
jrh->SetFastSimTPC(kFALSE);\r
jrh->SetFastSimEMCAL(kFALSE);\r
- jrh->SetPtCut(0.);\r
+ jrh->SetChargedOnly(kTRUE);\r
+ jrh->SetPtCut(ptCut);\r
jrh->SetFiducialEta(-2.1,2.1); // to take all MC particles default is 0 .9 \r
// Define reader and set its header \r
er = new AliJetKineReader();\r
case "ESD":\r
AliJetESDReaderHeader *jrh = new AliJetESDReaderHeader();\r
jrh->SetComment("Testing");\r
- jrh->SetFirstEvent(0);\r
+ jrh->SetFirstEvent(0.);\r
jrh->SetLastEvent(1000);\r
- jrh->SetPtCut(0.);\r
+ jrh->SetPtCut(ptCut);\r
jrh->SetReadSignalOnly(kFALSE);\r
// Define reader and set its header \r
er = new AliJetESDReader();\r
case "AOD":\r
AliJetAODReaderHeader *jrh = new AliJetAODReaderHeader();\r
jrh->SetComment("AOD Reader");\r
- jrh->SetPtCut(0.);\r
- jrh->SetTestFilterMask(1<<0);\r
+ jrh->SetPtCut(0.15); // set low p_T cut of to 150 MeV\r
+ jrh->SetTestFilterMask(32); // Change this one for a different set of cuts\r
+ if(filterMask>0)jrh->SetTestFilterMask(filterMask); \r
+ // Define reader and set its header\r
+ er = new AliJetAODReader();\r
+ er->SetReaderHeader(jrh);\r
+ break;\r
+ case "AODMC":\r
+ AliJetAODReaderHeader *jrh = new AliJetAODReaderHeader();\r
+ jrh->SetComment("AOD MC Reader");\r
+ jrh->SetPtCut(ptCut);\r
+ jrh->SetFiducialEta(-2.1,2.1); // to take all MC particles default is 0.9\r
+ jrh->SetReadAODMC(1);// 1 all primary MC , 2 all primary charged\r
+ // Define reader and set its header\r
+ er = new AliJetAODReader();\r
+ er->SetReaderHeader(jrh);\r
+ break;\r
+ case "AODMC2":\r
+ AliJetAODReaderHeader *jrh = new AliJetAODReaderHeader();\r
+ jrh->SetComment("AOD MC Reader");\r
+ jrh->SetPtCut(ptCut);\r
+ jrh->SetFiducialEta(-2.1,2.1); // to take all MC particles default is 0.9\r
+ jrh->SetReadAODMC(2);// 1 all primary MC , 2 all primary charged\r
+ // Define reader and set its header\r
+ er = new AliJetAODReader();\r
+ er->SetReaderHeader(jrh);\r
+ break;\r
+ case "AODMC2b":\r
+ AliJetAODReaderHeader *jrh = new AliJetAODReaderHeader();\r
+ jrh->SetComment("AOD MC Reader");\r
+ jrh->SetPtCut(ptCut);\r
+ jrh->SetFiducialEta(-0.9,0.9); // to take all MC particles default is 0.9\r
+ jrh->SetReadAODMC(2);// 1 all primary MC , 2 all primary charged\r
// Define reader and set its header\r
er = new AliJetAODReader();\r
er->SetReaderHeader(jrh);\r