Iontail object for OCDB

[u/mrichter/AliRoot.git] / T0 / AliT0CalibOffsetChannelsTask.cxx

#include "TChain.h"\r
#include "TTree.h"\r
#include "TH1D.h"\r
#include "TF1.h"\r
#include "TCanvas.h"\r
#include "TObjArray.h"\r
\r
#include "AliAnalysisTask.h"\r
#include "AliAnalysisManager.h"\r
\r
#include "AliESDEvent.h"\r
#include "AliESDInputHandler.h"\r
\r
#include "AliT0CalibOffsetChannelsTask.h"\r
\r
//#include "AliCDBMetaData.h"\r
//#include "AliCDBId.h"\r
//#include "AliCDBEntry.h"\r
//#include "AliCDBManager.h"\r
//#include "AliCDBStorage.h"\r
\r
// Task should calculate channels offset \r
// Authors: Alla \r
\r
ClassImp(AliT0CalibOffsetChannelsTask)\r
//________________________________________________________________________\r
AliT0CalibOffsetChannelsTask::AliT0CalibOffsetChannelsTask() \r
  : AliAnalysisTaskSE(),  fESD(0x0), fTzeroObject(0x0),\r
  fTzeroORA(0x0), fTzeroORC(0x0), fResolution(0x0), fTzeroORAplusORC(0x0),\r
    fRunNumber(0),fRefPMTA(12), fRefPMTC(0)\r
{\r
  // Constructor\r
\r
  for( int ip=0; ip < 24; ip++){\r
    fTimeDiff[ip] = 0;\r
    fCFD[ip]      = 0;\r
    fCDBdelays[ip]= 0;\r
    fCDBcfds[ip]= 0;\r
    if (ip<4 ) fCDBT0s[ip]= 0;\r
  }\r
\r
  // Define input and output slots here\r
  // Input slot #0 works with a TChain\r
  //  DefineInput(0,  TChain::Class());\r
  //  DefineOutput(1, TObjArray::Class());\r
}\r
\r
\r
//________________________________________________________________________\r
AliT0CalibOffsetChannelsTask::AliT0CalibOffsetChannelsTask(const char *name) \r
  : AliAnalysisTaskSE(name), fESD(0), fTzeroObject(0),\r
  fTzeroORA(0x0), fTzeroORC(0x0), fResolution(0x0), fTzeroORAplusORC(0x0),\r
    fRunNumber(0),fRefPMTA(12), fRefPMTC(0)\r
{\r
  // Constructor\r
 \r
  for( int ip=0; ip < 24; ip++){\r
    fTimeDiff[ip] = 0;\r
    fCFD[ip]      = 0;\r
    fCDBdelays[ip]= 0;\r
    fCDBcfds[ip]= 0;\r
    if (ip<4 ) fCDBT0s[ip]= 0;\r
\r
  }\r
 \r
  // Define input and output slots here\r
  // Input slot #0 works with a TChain\r
  DefineInput(0, TChain::Class());\r
  DefineOutput(1, TObjArray::Class());\r
  // Output slot #0 id reserved by the base class for AOD\r
  // Output slot #1 writes into a TH1 container\r
}\r
\r
//________________________________________________________________________\r
AliT0CalibOffsetChannelsTask::~AliT0CalibOffsetChannelsTask() \r
{\r
  // Destructor\r
  // printf("AliT0CalibOffsetChannels~AliT0CalibOffsetChannels() ");\r
  delete fTzeroORA;\r
  delete fTzeroORC;\r
  delete fResolution;\r
  delete fTzeroORAplusORC;\r
  for( Int_t  ip=0; ip < 24; ip++){\r
    delete fTimeDiff[ip];\r
    delete fCFD[ip];\r
  }\r
  \r
  delete fTzeroObject;\r
}\r
\r
//________________________________________________________________________\r
/*void AliT0CalibOffsetChannelsTaskX::ConnectInputData(Option_t *) {\r
  //\r
  //\r
  //\r
  TTree* tree=dynamic_cast<TTree*>(GetInputData(0));\r
  if (!tree) {\r
    printf("ERROR: Could not read chain from input slot 0");\r
  } \r
  else {\r
    AliESDInputHandler *esdH = dynamic_cast<AliESDInputHandler*> (AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler());\r
    if (!esdH) {\r
      printf ("ERROR: Could not get ESDInputHandler");\r
    } \r
    else {\r
      fESD = esdH->GetEvent();\r
      printf ("*** CONNECTED NEW EVENT ****");\r
    }\r
  }\r
}\r
*/\r
//________________________________________________________________________\r
void AliT0CalibOffsetChannelsTask::UserCreateOutputObjects()\r
{\r
  // Create histograms\r
  Float_t low = fCDBcfds[fRefPMTC] - 500;\r
  Float_t high = fCDBcfds[fRefPMTA] + 500;\r
  for (Int_t i=0; i<24; i++) {\r
    fTimeDiff[i]   = new TH1F (Form("CFD1minCFD%d",i+1),"fTimeDiff",150, -300, 300);\r
    fCFD[i]        = new TH1F(Form("CFD%d",i+1),"CFD",250,low, high);//6000, 7000);\r
    //    fCFD[i]        = new TH1F(Form("CFD%d",i+1),"CFD",250, -1000, 1000);//6000, 7000);\r
  }\r
\r
  fTzeroORAplusORC = new TH1F("fTzeroORAplusORC","ORA+ORC /2",200,-4000,4000);   //or A plus or C \r
  fResolution      = new TH1F("fResolution","fResolution",200,-2000,2000);// or A minus or C spectrum\r
  fTzeroORA        = new TH1F("fTzeroORA","fTzeroORA",200,-4000,4000);// or A spectrum\r
  fTzeroORC        = new TH1F("fTzeroORC","fTzeroORC",200,-4000,4000);// or C spectrum\r
\r
  \r
  fTzeroObject     = new TObjArray(0);\r
  fTzeroObject->SetOwner(kTRUE);\r
  \r
  for (Int_t i=0; i<24; i++)\r
    fTzeroObject->AddAtAndExpand(fTimeDiff[i],i);\r
\r
  for (Int_t i=0; i<24; i++)\r
    fTzeroObject->AddAtAndExpand(fCFD[i],i+24); //24 - 48\r
\r
  fTzeroObject->AddAtAndExpand(fTzeroORAplusORC, 48);\r
  fTzeroObject->AddAtAndExpand(fResolution, 49);\r
  fTzeroObject->AddAtAndExpand(fTzeroORA, 50);\r
  fTzeroObject->AddAtAndExpand(fTzeroORC, 51);\r
\r
  PostData(1, fTzeroObject);\r
  // Called once\r
}\r
\r
//________________________________________________________________________\r
void AliT0CalibOffsetChannelsTask::UserExec(Option_t *) \r
{\r
  // Main loop\r
  // Called for each event\r
\r
  // Post output data.\r
\r
  fESD = dynamic_cast<AliESDEvent*>(InputEvent());\r
  if (!fESD) {\r
    printf("ERROR: fESD not available\n");\r
    return;\r
  }\r
  Int_t trigT0 = fESD->GetT0Trig();\r
  Bool_t eq = kTRUE;\r
  fRunNumber =  fESD->GetRunNumber() ;\r
  if( fRunNumber<165747) eq = kFALSE;\r
    \r
  const Double32_t* time = fESD->GetT0time();\r
  const Double32_t* amp = fESD->GetT0amplitude();\r
  \r
  Double32_t diff;\r
  for (Int_t i=0; i<24; i++) {\r
    if( time[i] > 0  && amp[i]>0.1 ){\r
      if (eq)   {\r
        fCFD[i]->Fill( time[i] );//////!!!!!\r
        if(  time[fRefPMTC] > 0 && i<12)   {\r
          diff =  time[i]-time[fRefPMTC];\r
          fTimeDiff[i]->Fill( diff);\r
        }\r
        if(  time[fRefPMTA] >0  && i>11)  {\r
          diff =  time[i]-time[fRefPMTA] ;\r
          fTimeDiff[i]->Fill( diff);\r
        }\r
      } //eq=1\r
      else  {\r
        fCFD[i]->Fill( time[i] + fCDBdelays[i] );\r
        if(  time[fRefPMTC] > 0 && i<12) {\r
          diff =  time[i]-time[fRefPMTC] + fCDBdelays[i];\r
          fTimeDiff[i]->Fill( diff);\r
        } //C\r
        if(  time[fRefPMTA] >0  && i>11) {\r
          diff =  time[i]-time[fRefPMTA] + fCDBdelays[i];\r
          fTimeDiff[i]->Fill( diff);\r
        } //A\r
      } //eq=0\r
    }\r
    \r
  }\r
  if (trigT0>5) {\r
    const Double32_t* mean = fESD->GetT0TOF();\r
    Double32_t meanTOF = mean[0]  +  fCDBT0s[0] ;\r
    Double32_t orA = mean[1]  +  fCDBT0s[1] ;\r
    Double32_t orC = mean[2] + fCDBT0s[2] ;\r
    \r
    if(orA<99999) fTzeroORA->Fill(orA);\r
    if(orC<99999) fTzeroORC->Fill(orC);\r
    if(orA<99999 && orC<99999) fResolution->Fill((orA-orC)/2.);\r
    if(orA<99999 && orC<99999) fTzeroORAplusORC->Fill(meanTOF); \r
  } //if TVDC on\r
    //  printf("%f   %f  %f\n",orA,orC,meanTOF);\r
  PostData(1, fTzeroObject);\r
  }      \r
 //________________________________________________________________________\r
  void AliT0CalibOffsetChannelsTask::Terminate(Option_t *) \r
{\r
  \r
   // Called once at the end of the query\r
}\r
 \r