L1GctJetFinderBase.h File Reference

#include "DataFormats/L1GlobalCaloTrigger/interface/L1GctJetCand.h"
#include "DataFormats/L1GlobalCaloTrigger/interface/L1GctInternEtSum.h"
#include "DataFormats/L1GlobalCaloTrigger/interface/L1GctInternHtMiss.h"
#include "L1Trigger/GlobalCaloTrigger/interface/L1GctProcessor.h"
#include "L1Trigger/GlobalCaloTrigger/interface/L1GctRegion.h"
#include "L1Trigger/GlobalCaloTrigger/interface/L1GctJet.h"
#include "L1Trigger/GlobalCaloTrigger/interface/L1GctUnsignedInt.h"
#include "L1Trigger/GlobalCaloTrigger/interface/L1GctJetCount.h"
#include <vector>

Go to the source code of this file.

Classes
struct	L1GctJetFinderBase::hfTowerSumsType
class	L1GctJetFinderBase
	Base class to allow implementation of jetFinder algorithms. More...

Functions
std::ostream &	operator<< (std::ostream &os, const L1GctJetFinderBase &algo)

Function Documentation

operator<<()

std::ostream& operator<<	(	std::ostream &	os,
		const L1GctJetFinderBase &	algo
	)

Definition at line 151 of file L1GctJetFinderBase.cc.

References LEDCalibrationChannels::ieta.

                                                                       {
  using std::endl;
  os << "ID = " << algo.m_id << endl;
  os << "Calibration lut pointers stored for " << algo.m_jetEtCalLuts.size() << " eta bins" << endl;
  for (unsigned ieta = 0; ieta < algo.m_jetEtCalLuts.size(); ieta++) {
    os << "Eta bin " << ieta << ", JetEtCalibrationLut* = " << algo.m_jetEtCalLuts.at(ieta) << endl;
  }
  os << "No of input regions " << algo.m_inputRegions.size() << endl;
  //   for(unsigned i=0; i < algo.m_inputRegions.size(); ++i)
  //     {
  //       os << algo.m_inputRegions.at(i);
  //     }
  os << "No of output jets " << algo.m_outputJets.size() << endl;
  //   for(unsigned i=0; i < algo.m_outputJets.size(); ++i)
  //     {
  //       os << algo.m_outputJets.at(i);
  //     }
  os << "Output total scalar Et " << algo.m_outputEtSum << endl;
  os << "Output vector Et x component " << algo.m_outputExSum << endl;
  os << "Output vector Et y component " << algo.m_outputEySum << endl;
  os << "Output total scalar Ht " << algo.m_outputHtSum << endl;
  os << "Output vector Ht x component " << algo.m_outputHxSum << endl;
  os << "Output vector Ht y component " << algo.m_outputHySum << endl;
  os << endl;

  return os;
}