UseTof Class Reference

Simple algorithm to test functioning of "the other" TDS. More...

#include <UseTof.h>

Inheritance diagram for UseTof:

Public Member Functions
	UseTof (const std::string &name, ISvcLocator *pSvcLocator)
StatusCode	initialize ()
StatusCode	execute ()
StatusCode	finalize ()

Detailed Description

Simple algorithm to test functioning of "the other" TDS.

Definition at line 16 of file UseTof.h.

Constructor & Destructor Documentation

UseTof()

UseTof::UseTof	(	const std::string &	name,
		ISvcLocator *	pSvcLocator
	)

Definition at line 46 of file UseTof.cxx.

  : Algorithm     ( name, pSvcLocator ), m_pCalibDataSvc(0)
{
  // Declare properties here.
 
}

Member Function Documentation

execute()

StatusCode UseTof::execute

(

)

Definition at line 94 of file UseTof.cxx.

                            {
   
  MsgStream log(msgSvc(), name());
 
  // Cheat for now since Windows is having trouble finding definition
  // of Calibdata::Test_t
  std::string fullPath = "/Calib/TofCal";
  log << MSG::INFO<<"execute() fullPath = "<<fullPath<< endreq;
  
  SmartDataPtr<CalibData::TofCalibData> btof(m_pCalibDataSvc, fullPath);
 
  TFile *f1 = new TFile("TofCalConst.root","read");
 
  TTree *btoftree = (TTree*)f1 -> Get("BarTofPar");
  double fCount[10];
  double fLeft[5];
  double fRight[5];
  btoftree ->SetBranchAddress("FCounter0",&fCount[0]);
  btoftree ->SetBranchAddress("FCounter1",&fCount[1]);
  btoftree ->SetBranchAddress("FCounter2",&fCount[2]);
  btoftree ->SetBranchAddress("FCounter3",&fCount[3]);
  btoftree ->SetBranchAddress("FCounter4",&fCount[4]);
  btoftree ->SetBranchAddress("FCounter5",&fCount[5]);
  btoftree ->SetBranchAddress("FCounter6",&fCount[6]);
  btoftree ->SetBranchAddress("FCounter7",&fCount[7]);
  btoftree ->SetBranchAddress("FCounter8",&fCount[8]);
  btoftree ->SetBranchAddress("FCounter9",&fCount[9]);
  btoftree->SetBranchAddress("FLeft0",&fLeft[0]);
  btoftree->SetBranchAddress("FLeft1",&fLeft[1]);
  btoftree->SetBranchAddress("FLeft2",&fLeft[2]);
  btoftree->SetBranchAddress("FLeft3",&fLeft[3]);
  btoftree->SetBranchAddress("FLeft4",&fLeft[4]);
  btoftree->SetBranchAddress("FRight0",&fRight[0]);
  btoftree->SetBranchAddress("FRight1",&fRight[1]);
  btoftree->SetBranchAddress("FRight2",&fRight[2]);
  btoftree->SetBranchAddress("FRight3",&fRight[3]);
  btoftree->SetBranchAddress("FRight4",&fRight[4]);
 
      
 
  for(int i =0;i<176;i++) {
    btoftree -> GetEntry(i);
 
    double bAtten0 = btof->getBTofAtten(i,0);
    double bAtten1 = btof->getBTofAtten(i,1);
    double bP0  = btof->getBTofPleft(i,0);
    double bP1  = btof->getBTofPleft(i,1);
    double bP2  = btof->getBTofPleft(i,2);
    double bP3 = btof->getBTofPleft(i,3);
    double bP4 = btof->getBTofPleft(i,4);
    double bP5 = btof->getBTofPleft(i,5);
    double bP10 = btof->getBTofPright(i,0);
 
    //      double bQ = btof->getBTofQ(i);
    double bSpeed0 = btof->getBTofSpeed(i,0);
    double bSpeed1 = btof->getBTofSpeed(i,1);
    //      double bW1 = btof->getBTofW(i,0);
    //      double bW2 = btof->getBTofW(i,1);
    //      double bW3 = btof->getBTofW(i,2);
    //      double bW4 = btof->getBTofW(i,3);
    //  std::cout<<"=========================================="<<"\n";
    //   std::cout<<"cnt ="<<i<<"\n";
    double fCount1[10],fLeft1[5],fRight1[5];
    for(int j=0;j<10;j++){
      fCount1[j]=btof->getBTofFcounter(i,j);
      if(fCount1[j]!=fCount[j]) std::cout<<"error error error error"<<std::endl;  
      //      std::cout<<"
      //     std::cout<<"   fCount["<<j<<"]="<<fCount[j]<<"    fCount1["<<j<<"]="<<fCount1[j];
    }
    //  std::cout<<"\n"<<"=========================================="<<"\n";
    for(int j=0;j<5;j++){
      fLeft1[j]=btof->getBTofFleft(i,j);
      if(fLeft1[j]!=fLeft[j]) std::cout<<"error error error error"<<std::endl;
      //    std::cout<<"   fLeft["<<j<<"]="<<fLeft[j];
    }
    //    std::cout<<"\n"<<"=========================================="<<"\n";
    
    for(int j=0;j<5;j++){
      fRight1[j]=btof->getBTofFright(i,j);
      if( fRight1[j]!= fRight[j])  std::cout<<"error error error error"<<std::endl;
      //      std::cout<<"   fRight["<<j<<"]="<<fRight[j];
    }
 
 
 /*     std::cout<<"Atten0="<<bAtten0<<"Atten1="<<bAtten1<<"Q="<<bQ<<"Speed0="<<bSpeed0<<"Speed1="<<bSpeed1<<"P0="<<bP0<<"P1="<<bP1<<"P2="<<bP2<<"P3="<<bP3<<"P4="<<bP4<<"P10="<<bP10;
      std::cout<<"\n";
      std::cout<<"P5="<<bP5<<"Q="<<bQ;
      std::cout<<"W1="<<bW1<<"W2="<<bW2<<"W3="<<bW3<<"W4="<<bW4;
      std::cout<<"\n";*/
      /*
      std::cout<<"Atten[1]="<<*(bAtten+1)<<"P0[1]="<<*(bP0+1)<<"P1[1]="<<*(bP1+1)<<"P2[1]="<<*(bP2+1)<<"P3[1]="<<*(bP3+1)<<"P4[1]="<<*(bP4+1);
      std::cout<<"\n";
      std::cout<<"P5[1]="<<*(bP5+1)<<"S[1]="<<*(bS+1)<<"SS[1]="<<*(bSS+1)<<"Veff[1]="<<*(bVeff+1);
      */
      }   
/*   for(int i =0;i<96;i++)
      {
        double eAtten0 = btof->getETofAtten(i,0);
    double eAtten1 = btof->getETofAtten(i,1);
        double eP0  = btof->getETofP(i,0);
    double eP1  = btof->getETofP(i,1);
    double eP2  = btof->getETofP(i,2);
    double eP3 = btof->getETofP(i,3);
    double eP4 = btof->getETofP(i,4);
    double eP5 = btof->getETofP(i,5);
    double eP6 = btof->getETofP(i,6);
        double eSpeed0 = btof->getETofSpeed(i,0);
    double eSpeed1 = btof->getETofSpeed(i,1);
 
    std::cout<<"=========================================="<<"\n";
    std::cout<<"cnt ="<<i<<"\n";
    
    std::cout<<"Atten0="<<eAtten0<<"Atten1="<<eAtten1<<"Speed0="<<eSpeed0<<"Speed1="<<eSpeed1<<"P0="<<eP0<<"P1="<<eP1<<"P2="<<eP2<<"P3="<<eP3<<"P4="<<eP4<<"P6="<<eP6;
    std::cout<<"\n";
    std::cout<<"P5="<<eP5;
    std::cout<<"\n";
      }
*/
 
/*double  P_b[20];
    TTree *btofinnertree = (TTree*)f1 -> Get("BarTofParInner");
    btofinnertree->SetBranchAddress("P0",&P_b[0]);
    btofinnertree->SetBranchAddress("P1",&P_b[1]);
    btofinnertree->SetBranchAddress("P2",&P_b[2]);
    btofinnertree->SetBranchAddress("P3",&P_b[3]);
    btofinnertree->SetBranchAddress("P4",&P_b[4]);
    btofinnertree->SetBranchAddress("P5",&P_b[5]);
    btofinnertree->SetBranchAddress("P6",&P_b[6]);
    btofinnertree->SetBranchAddress("P7",&P_b[7]);
    btofinnertree->SetBranchAddress("P8",&P_b[8]);
    btofinnertree->SetBranchAddress("P9",&P_b[9]);
    btofinnertree->SetBranchAddress("P10",&P_b[10]);
    btofinnertree->SetBranchAddress("P11",&P_b[11]);
    btofinnertree->SetBranchAddress("P12",&P_b[12]);
    btofinnertree->SetBranchAddress("P13",&P_b[13]);
    btofinnertree->SetBranchAddress("P14",&P_b[14]);
    btofinnertree->SetBranchAddress("P15",&P_b[15]);
    btofinnertree->SetBranchAddress("P16",&P_b[16]);
    btofinnertree->SetBranchAddress("P17",&P_b[17]);
    btofinnertree->SetBranchAddress("P18",&P_b[18]);
    btofinnertree->SetBranchAddress("P19",&P_b[19]);
 
   for(int i=0;i<88;i++){
    btofinnertree->GetEntry(i);
   double P[20];
   std::cout<<"\n"<<" i=================       "<<i<<std::endl;
    for(int j=0;j<10;j++){
 //      P[j]=btof->getBTofInnerPleft(i,j);
 
        std::cout<<"   P["<<j<<"]"<< P[j];
  }
   
 for(int j=0;j<10;j++){
//       P[j+10]=btof->getBTofInnerPright(i,j);
        std::cout<<"    P["<<j+10<<"]"<< P[j+10];
}
*/
/*if(P_b[16]!=P[16]){
  std::cout<<"xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"<<std::endl;
  std::cout<<"xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"<<std::endl;
 std::cout<<"xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"<<std::endl;
 std::cout<<"xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"<<std::endl;
 std::cout<<"xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"<<std::endl; 
std::cout<<"xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"<<std::endl;
 std::cout<<"xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"<<std::endl;
}
 std::cout<<"\n";
if(P[16]>0){
std::cout<<"aaa"<<std::endl;
}
std::cout<<"P_b[16]===="<<P_b[16]<<"P_[16]"<<P[16]<<std::endl;
 }
 */
  double sigma[8];
 
  for(int i=0;i<8;i++){
    sigma[i]=btof->getBTofSigmaCorr(0,i);
    std::cout<<" sigma["<<i<<"]="<< sigma[i];
  }
  std::cout<<"\n";
    
  std::cout<<" btof->getRunBegin()"<<btof->getRunBegin(0);
  std::cout<<"btof->getRunEnd()"<<btof->getRunEnd(0);
  std::cout<<"btof->getVersion()"<<btof->getVersion(0);
  std::cout<<"btof->getQCorr()"<<btof->getQCorr(0);
  std::cout<<"btof->getMisLable()"<<btof->getMisLable(0);
  std::cout<<"btof->getQElec()"<<btof->getQElec(0);
  for(int i=0;i<5;i++){
    std::cout<<"i==="<<i<<std::endl;
    std::cout<<"  btof->getBrEast(int index)"<<btof->getBrEast(0,i);
    std::cout<<"  btof->getBrWest(int index)"<<btof->getBrWest(0,i);
    std::cout<<"  btof->getEndcap(int index)"<<btof->getEndcap(0,i);
  }
  //maqm comment because cann't write 
  //    m_pRootSvc->writeToRoot("./Tof_test.root", fullPath);
  
  return StatusCode::SUCCESS;
}

finalize()

StatusCode UseTof::finalize

(

)

Definition at line 295 of file UseTof.cxx.

                             {
 
  MsgStream log(msgSvc(), name());
  log << MSG::INFO 
      << "        UseTof FINALIZE!! "
      << endreq;
  
  return StatusCode::SUCCESS;
}

initialize()

StatusCode UseTof::initialize

(

)

Definition at line 55 of file UseTof.cxx.

                              {
  StatusCode sc;
  MsgStream log(msgSvc(), name());
  log << MSG::INFO << "Initialize()" << endreq;
 
  // So far don't have any properties, but in case we do some day..
//  setProperties();
 
   log<<MSG::INFO << "setProperties()" << endreq;
  
   sc = service("CalibDataSvc", m_pCalibDataSvc, true);
 
  if ( !sc.isSuccess() ) {
    log << MSG::ERROR 
    << "Could not get IDataProviderSvc interface of CalibXmlCnvSvc" 
    << endreq;
    return sc;
  } else {
    log << MSG::DEBUG 
    << "Retrieved IDataProviderSvc interface of CalibXmlCnvSvc" 
    << endreq;
  }
  
  sc = service("CalibRootCnvSvc", m_pRootSvc, true);
  if ( !sc.isSuccess() ) {
    log << MSG::ERROR 
    << "Could not get ICalibRootSvc interface of CalibRootCnvSvc" 
    << endreq;
    return sc;
  }
  // Get properties from the JobOptionsSvc
  
 sc = setProperties();
 
 return StatusCode::SUCCESS;
 
}

---

The documentation for this class was generated from the following files:

• UseTof.h
• UseTof.cxx