OMTFConfiguration Class Reference

#include <OMTFConfiguration.h>

Public Types
typedef std::vector< int >	vector1D
typedef std::vector< std::pair< unsigned int, unsigned int > >	vector1D_pair
typedef std::vector< vector1D >	vector2D
typedef std::vector< vector1D_pair >	vector2D_pair
typedef std::vector< vector2D >	vector3D
typedef std::vector< vector2D_pair >	vector3D_pair
typedef std::vector< vector3D >	vector4D

Public Member Functions
void	configure (const L1TMuonOverlapParams *omtfParams)
unsigned int	fwVersion () const
const std::vector< unsigned int > &	getBarrelMax () const
const std::vector< unsigned int > &	getBarrelMin () const
const std::set< int > &	getBendingLayers () const
const vector3D_pair &	getConnections () const
const std::vector< unsigned int > &	getEndcap10DegMax () const
const std::vector< unsigned int > &	getEndcap10DegMin () const
const std::vector< unsigned int > &	getEndcap20DegMax () const
const std::vector< unsigned int > &	getEndcap20DegMin () const
const std::map< int, int > &	getHwToLogicLayer () const
uint32_t	getLayerNumber (uint32_t rawId) const
const std::map< int, int > &	getLogicToHwLayer () const
const std::map< int, int > &	getLogicToLogic () const
vector4D &	getMeasurements4D ()
const vector4D &	getMeasurements4D () const
vector4D &	getMeasurements4Dref ()
const vector4D &	getMeasurements4Dref () const
const std::vector< std::vector< int > > &	getProcessorPhiVsRefLayer () const
const L1TMuonOverlapParams *	getRawParams () const
const std::vector< std::vector< RefHitDef > > &	getRefHitsDefs () const
const std::vector< int > &	getRefToLogicNumber () const
unsigned int	getRegionNumberFromMap (unsigned int iInput, unsigned int iRefLayer, int iPhi) const
const std::vector< std::vector< std::vector< std::pair< int, int > > > > &	getRegionPhisVsRefLayerVsInput () const
int	globalPhiStart (unsigned int iProcessor) const
void	initCounterMatrices ()
bool	isInRegionRange (int iPhiStart, unsigned int coneSize, int iPhi) const
float	minPdfVal () const
unsigned int	nGoldenPatterns () const
unsigned int	nHitsPerLayer () const
unsigned int	nInputs () const
unsigned int	nLayers () const
unsigned int	nLogicRegions () const
unsigned int	nPdfAddrBits () const
unsigned int	nPdfValBits () const
unsigned int	nPhiBins () const
unsigned int	nPhiBits () const
unsigned int	nProcessors () const
unsigned int	nRefHits () const
unsigned int	nRefLayers () const
unsigned int	nTestRefHits () const
	OMTFConfiguration ()
unsigned int	patternsVersion () const

Private Attributes
std::vector< unsigned int >	barrelMax
std::vector< unsigned int >	barrelMin
std::set< int >	bendingLayers
vector3D_pair	connections
	Map of connections. More...
std::vector< unsigned int >	endcap10DegMax
std::vector< unsigned int >	endcap10DegMin
std::vector< unsigned int >	endcap20DegMax
std::vector< unsigned int >	endcap20DegMin
std::map< int, int >	hwToLogicLayer
std::map< int, int >	logicToHwLayer
std::map< int, int >	logicToLogic
vector4D	measurements4D
	4D matrices used during creation of the connections tables. More...
vector4D	measurements4Dref
std::vector< std::vector< int > >	processorPhiVsRefLayer
L1TMuonOverlapParams	rawParams
std::vector< std::vector< RefHitDef > >	refHitsDefs
std::vector< int >	refToLogicNumber
std::vector< std::vector< std::vector< std::pair< int, int > > > >	regionPhisVsRefLayerVsInput

Friends
std::ostream &	operator<< (std::ostream &out, const OMTFConfiguration &aConfig)

Detailed Description

Definition at line 49 of file OMTFConfiguration.h.

Member Typedef Documentation

typedef std::vector<int> OMTFConfiguration::vector1D

Definition at line 57 of file OMTFConfiguration.h.

typedef std::vector< std::pair<unsigned int, unsigned int> > OMTFConfiguration::vector1D_pair

Definition at line 53 of file OMTFConfiguration.h.

typedef std::vector<vector1D > OMTFConfiguration::vector2D

Definition at line 58 of file OMTFConfiguration.h.

typedef std::vector<vector1D_pair > OMTFConfiguration::vector2D_pair

Definition at line 54 of file OMTFConfiguration.h.

typedef std::vector<vector2D > OMTFConfiguration::vector3D

Definition at line 59 of file OMTFConfiguration.h.

typedef std::vector<vector2D_pair > OMTFConfiguration::vector3D_pair

Definition at line 55 of file OMTFConfiguration.h.

typedef std::vector<vector3D > OMTFConfiguration::vector4D

Definition at line 60 of file OMTFConfiguration.h.

Constructor & Destructor Documentation

OMTFConfiguration::OMTFConfiguration ( )

inline

Definition at line 62 of file OMTFConfiguration.h.

References highPtTrackIsolations_cff::coneSize.

{;};

Member Function Documentation

void OMTFConfiguration::configure

(

const L1TMuonOverlapParams *

omtfParams

)

Set chamber sectors connections to logic processros.

Set connections tables

connections tables for each processor each logic cone Vector of all layers

Vector of all logic cones

Vector of all processors

Starting phis of each region Vector of all regions in one processor

Vector of all reflayers

Vector of all inputs

Vector of all processros

Symetrize connections. Use th same connections for all processors

Definition at line 66 of file OMTFConfiguration.cc.

References L1TMuonOverlapParams::LayerMapNode::bendingLayer, L1TMuonOverlapParams::connectedSectorsEnd(), L1TMuonOverlapParams::connectedSectorsStart(), L1TMuonOverlapParams::LayerMapNode::connectedToLayer, popcon2dropbox::copy(), L1TMuonOverlapParams::globalPhiStartMap(), L1TMuonOverlapParams::LayerMapNode::hwNumber, RefHitDef::iInput, RefHitDef::iRefLayer, RefHitDef::iRegion, L1TMuonOverlapParams::layerInputMap(), L1TMuonOverlapParams::layerMap(), L1TMuonOverlapParams::LayerMapNode::logicNumber, L1TMuonOverlapParams::RefLayerMapNode::logicNumber, MuonTCMETValueMapProducer_cff::nLayers, ecaldqm::binning::nPhiBins, RefHitDef::RefHitDef(), L1TMuonOverlapParams::refHitMap(), L1TMuonOverlapParams::RefLayerMapNode::refLayer, and L1TMuonOverlapParams::refLayerMap().

Referenced by OMTFPatternMaker::beginRun(), OMTFReconstruction::beginRun(), and OMTFPatternMaker::endJob().

                                                                       {


  rawParams = *omtfParams;
 
  barrelMin.resize(nProcessors());
  endcap10DegMin.resize(nProcessors());
  endcap20DegMin.resize(nProcessors());

  barrelMax.resize(nProcessors());
  endcap10DegMax.resize(nProcessors());
  endcap20DegMax.resize(nProcessors());

  const std::vector<int> *connectedSectorsStartVec =  omtfParams->connectedSectorsStart();
  const std::vector<int> *connectedSectorsEndVec =  omtfParams->connectedSectorsEnd();

  std::copy(connectedSectorsStartVec->begin(), connectedSectorsStartVec->begin()+6, barrelMin.begin());  
  std::copy(connectedSectorsStartVec->begin()+6, connectedSectorsStartVec->begin()+12, endcap10DegMin.begin());
  std::copy(connectedSectorsStartVec->begin()+12, connectedSectorsStartVec->end(), endcap20DegMin.begin());

  std::copy(connectedSectorsEndVec->begin(), connectedSectorsEndVec->begin()+6, barrelMax.begin());
  std::copy(connectedSectorsEndVec->begin()+6, connectedSectorsEndVec->begin()+12, endcap10DegMax.begin());
  std::copy(connectedSectorsEndVec->begin()+12, connectedSectorsEndVec->end(), endcap20DegMax.begin());

  const std::vector<L1TMuonOverlapParams::LayerMapNode> *layerMap = omtfParams->layerMap();

  for(unsigned int iLayer=0;iLayer<nLayers();++iLayer){
    L1TMuonOverlapParams::LayerMapNode aNode = layerMap->at(iLayer);    
    hwToLogicLayer[aNode.hwNumber] = aNode.logicNumber;
    logicToHwLayer[aNode.logicNumber] = aNode.hwNumber;
    logicToLogic[aNode.logicNumber] = aNode.connectedToLayer;    
    if(aNode.bendingLayer) bendingLayers.insert(aNode.logicNumber);        
  }
  refToLogicNumber.resize(nRefLayers());
  
  const std::vector<L1TMuonOverlapParams::RefLayerMapNode> *refLayerMap = omtfParams->refLayerMap();
  for(unsigned int iRefLayer=0;iRefLayer<nRefLayers();++iRefLayer){
    L1TMuonOverlapParams::RefLayerMapNode aNode = refLayerMap->at(iRefLayer);    
    refToLogicNumber[aNode.refLayer] = aNode.logicNumber;
  }
  std::vector<int> vector1D(nRefLayers(),nPhiBins());
  processorPhiVsRefLayer.assign(nProcessors(),vector1D);

  vector1D_pair aLayer1D(nLayers());
  vector2D_pair aLayer2D;
  aLayer2D.assign(nLogicRegions(),aLayer1D);
  connections.assign(nProcessors(),aLayer2D);

  std::vector<std::pair<int,int> > aRefHit1D(nLogicRegions(),std::pair<int,int>(9999,9999));
  std::vector<std::vector<std::pair<int,int> > > aRefHit2D;
  aRefHit2D.assign(nRefLayers(),aRefHit1D);
  regionPhisVsRefLayerVsInput.assign(nInputs(),aRefHit2D);

  //Vector of ref hit definitions
  std::vector<RefHitDef> aRefHitsDefs(nRefHits());
  refHitsDefs.assign(nProcessors(),aRefHitsDefs);

  const std::vector<int> *phiStartMap =  omtfParams->globalPhiStartMap();
  const std::vector<L1TMuonOverlapParams::RefHitNode> *refHitMap = omtfParams->refHitMap();
  const std::vector<L1TMuonOverlapParams::LayerInputNode> *layerInputMap = omtfParams->layerInputMap();
  unsigned int tmpIndex = 0;  
  for(unsigned int iProcessor=0;iProcessor<nProcessors();++iProcessor){
    for(unsigned int iRefLayer=0;iRefLayer<nRefLayers();++iRefLayer){     
      int iPhiStart = phiStartMap->at(iRefLayer+iProcessor*nRefLayers());
      processorPhiVsRefLayer[iProcessor][iRefLayer] = iPhiStart;
    }
    for(unsigned int iRefHit=0;iRefHit<nRefHits();++iRefHit){
      int iPhiMin = refHitMap->at(iRefHit+iProcessor*nRefHits()).iPhiMin;
      int iPhiMax = refHitMap->at(iRefHit+iProcessor*nRefHits()).iPhiMax;
      unsigned int iInput = refHitMap->at(iRefHit+iProcessor*nRefHits()).iInput;
      unsigned int iRegion = refHitMap->at(iRefHit+iProcessor*nRefHits()).iRegion;
      unsigned int iRefLayer = refHitMap->at(iRefHit+iProcessor*nRefHits()).iRefLayer;
      regionPhisVsRefLayerVsInput[iInput][iRefLayer][iRegion] = std::pair<int,int>(iPhiMin,iPhiMax);
      refHitsDefs[iProcessor][iRefHit] = RefHitDef(iInput,iPhiMin,iPhiMax,iRegion,iRefLayer);
    }
    for(unsigned int iLogicRegion=0;iLogicRegion<nLogicRegions();++iLogicRegion){
      for(unsigned int iLayer=0;iLayer<nLayers();++iLayer){
    tmpIndex = iLayer+iLogicRegion*nLayers() + iProcessor*nLogicRegions()*nLayers();
    unsigned int iFirstInput = layerInputMap->at(tmpIndex).iFirstInput;
    unsigned int nInputsInRegion = layerInputMap->at(tmpIndex).nInputs;
    connections[iProcessor][iLogicRegion][iLayer] = std::pair<unsigned int, unsigned int>(iFirstInput,nInputsInRegion);
    if(iProcessor!=0) connections[iProcessor][iLogicRegion][iLayer] = connections[0][iLogicRegion][iLayer];
      }
    }  
  }

  initCounterMatrices();
  
}

unsigned int OMTFConfiguration::fwVersion ( ) const

inline

Definition at line 92 of file OMTFConfiguration.h.

Referenced by OMTFReconstruction::beginRun(), OMTFSorter::candidates(), OMTFResult::finalise(), and OMTFinputMaker::processDT().

{return (rawParams.fwVersion()>>16) & 0xFFFF;};

const std::vector<unsigned int>& OMTFConfiguration::getBarrelMax ( ) const

inline

Definition at line 119 of file OMTFConfiguration.h.

Referenced by OMTFinputMaker::acceptDigi().

{return barrelMax;}

const std::vector<unsigned int>& OMTFConfiguration::getBarrelMin ( ) const

inline

Definition at line 118 of file OMTFConfiguration.h.

Referenced by OMTFinputMaker::acceptDigi(), and OMTFinputMaker::getInputNumber().

{return barrelMin;}

const std::set<int>& OMTFConfiguration::getBendingLayers ( ) const

inline

Definition at line 115 of file OMTFConfiguration.h.

Referenced by OMTFProcessor::fillCounts(), OMTFResult::finalise(), OMTFProcessor::processInput(), and OMTFinput::shiftMyPhi().

{return bendingLayers;}

const vector3D_pair& OMTFConfiguration::getConnections ( ) const

inline

Definition at line 129 of file OMTFConfiguration.h.

Referenced by OMTFProcessor::restrictInput().

{return connections;};

const std::vector<unsigned int>& OMTFConfiguration::getEndcap10DegMax ( ) const

inline

Definition at line 121 of file OMTFConfiguration.h.

Referenced by OMTFinputMaker::acceptDigi().

{return endcap10DegMax;}

const std::vector<unsigned int>& OMTFConfiguration::getEndcap10DegMin ( ) const

inline

Definition at line 120 of file OMTFConfiguration.h.

Referenced by OMTFinputMaker::acceptDigi(), and OMTFinputMaker::getInputNumber().

{return endcap10DegMin;}

const std::vector<unsigned int>& OMTFConfiguration::getEndcap20DegMax ( ) const

inline

Definition at line 123 of file OMTFConfiguration.h.

Referenced by OMTFinputMaker::acceptDigi().

{return endcap20DegMax;}

const std::vector<unsigned int>& OMTFConfiguration::getEndcap20DegMin ( ) const

inline

Definition at line 122 of file OMTFConfiguration.h.

Referenced by OMTFinputMaker::acceptDigi(), and OMTFinputMaker::getInputNumber().

{return endcap20DegMin;}

const std::map<int,int>& OMTFConfiguration::getHwToLogicLayer ( ) const

inline

Definition at line 112 of file OMTFConfiguration.h.

Referenced by OMTFinputMaker::processCSC(), OMTFinputMaker::processDT(), and OMTFinputMaker::processRPC().

{return hwToLogicLayer;}

uint32_t OMTFConfiguration::getLayerNumber

(

uint32_t

rawId

)

const

Return layer number encoding subsystem, and station number in a simple formula: aLayer+100*detId.subdetId() where aLayer is a layer number counting from vertex

Definition at line 236 of file OMTFConfiguration.cc.

References gather_cfg::cout, MuonSubdetId::CSC, omtf::DataWord64::csc, DetId::det(), MuonSubdetId::DT, dt, GeomDetEnumerators::isBarrel(), RPCDetId::layer(), DetId::Muon, RPCDetId::region(), CSCDetId::ring(), MuonSubdetId::RPC, DTChamberId::station(), CSCDetId::station(), RPCDetId::station(), and DetId::subdetId().

Referenced by OMTFinputMaker::processCSC(), OMTFinputMaker::processDT(), and OMTFinputMaker::processRPC().

                                                               {

  uint32_t aLayer = 0;
  
  DetId detId(rawId);
  if (detId.det() != DetId::Muon){
    std::cout << "PROBLEM: hit in unknown Det, detID: "<<detId.det()<<std::endl;
    return rawId;
  }

  switch (detId.subdetId()) {
  case MuonSubdetId::RPC: {
    RPCDetId aId(rawId);
    bool isBarrel = (aId.region()==0);
    if(isBarrel) aLayer = aId.station() <=2  ? 
           2*( aId.station()-1)+ aId.layer() 
           : aId.station()+2;
    else aLayer = aId.station(); 
    aLayer+= 10*(!isBarrel);
    break;
  }
  case MuonSubdetId::DT: {
    DTChamberId dt(rawId);
    aLayer = dt.station();
    break;
  }
  case MuonSubdetId::CSC: {
    CSCDetId csc(rawId);
    aLayer = csc.station();
    if(csc.ring()==2 && csc.station()==1) aLayer = 1811;//1811 = 2011 - 200, as we want to get 2011 for this chamber.
    if(csc.station()==4) aLayer = 4;
    break;
  }
  }  

  int hwNumber = aLayer+100*detId.subdetId();

  return hwNumber;
}

const std::map<int,int>& OMTFConfiguration::getLogicToHwLayer ( ) const

inline

Definition at line 113 of file OMTFConfiguration.h.

{return logicToHwLayer;}

const std::map<int,int>& OMTFConfiguration::getLogicToLogic ( ) const

inline

Definition at line 114 of file OMTFConfiguration.h.

Referenced by OMTFResult::finalise().

{return logicToLogic;}

vector4D& OMTFConfiguration::getMeasurements4D ( )

inline

Definition at line 131 of file OMTFConfiguration.h.

Referenced by OMTFPatternMaker::endJob(), OMTFConfigMaker::fillInputRange(), and XMLConfigWriter::writeConnectionsData().

{return measurements4D;}

const vector4D& OMTFConfiguration::getMeasurements4D ( ) const

inline

Definition at line 134 of file OMTFConfiguration.h.

{return measurements4D;}

vector4D& OMTFConfiguration::getMeasurements4Dref ( )

inline

Definition at line 132 of file OMTFConfiguration.h.

Referenced by OMTFConfigMaker::fillInputRange(), OMTFConfigMaker::printConnections(), and XMLConfigWriter::writeConnectionsData().

{return measurements4Dref;}

const vector4D& OMTFConfiguration::getMeasurements4Dref ( ) const

inline

Definition at line 135 of file OMTFConfiguration.h.

References edm::operator<<(), and MillePedeFileConverter_cfg::out.

{return measurements4Dref;}

const std::vector<std::vector<int> >& OMTFConfiguration::getProcessorPhiVsRefLayer ( ) const

inline

Definition at line 125 of file OMTFConfiguration.h.

Referenced by XMLConfigWriter::writeConnectionsData().

{return processorPhiVsRefLayer;}

const L1TMuonOverlapParams* OMTFConfiguration::getRawParams ( ) const

inline

Definition at line 95 of file OMTFConfiguration.h.

Referenced by OMTFPatternMaker::endJob().

{return &rawParams;};

const std::vector<std::vector<RefHitDef> >& OMTFConfiguration::getRefHitsDefs ( ) const

inline

Definition at line 127 of file OMTFConfiguration.h.

Referenced by OMTFProcessor::fillCounts(), OMTFinput::getRefHits(), and OMTFProcessor::processInput().

{return refHitsDefs;}

const std::vector<int>& OMTFConfiguration::getRefToLogicNumber ( ) const

inline

Definition at line 116 of file OMTFConfiguration.h.

Referenced by GoldenPattern::addCount(), OMTFProcessor::fillCounts(), OMTFConfigMaker::fillPhiMaps(), OMTFinput::getRefHits(), OMTFConfigMaker::makeConnetionsMap(), GoldenPattern::normalise(), OMTFProcessor::processInput(), and XMLConfigWriter::writeResultsData().

{return refToLogicNumber;}

unsigned int OMTFConfiguration::getRegionNumberFromMap	(	unsigned int	iInput,
		unsigned int	iRefLayer,
		int	iPhi
	)		const

Find logic region number using first input number and then local phi value. The input and phi ranges are taken from DB.

Definition at line 214 of file OMTFConfiguration.cc.

References plotBeamSpotDB::first, RefHitDef::iRegion, and edm::second().

Referenced by OMTFConfigMaker::fillPhiMaps(), and OMTFConfigMaker::makeConnetionsMap().

                                               {

  for(unsigned int iRegion=0;iRegion<nLogicRegions();++iRegion){
    if(iPhi>=regionPhisVsRefLayerVsInput[iInput][iRefLayer][iRegion].first &&
       iPhi<=regionPhisVsRefLayerVsInput[iInput][iRefLayer][iRegion].second)
      return iRegion;
  }

  return 99;
}

const std::vector<std::vector<std::vector<std::pair<int,int> > > >& OMTFConfiguration::getRegionPhisVsRefLayerVsInput ( ) const

inline

Definition at line 126 of file OMTFConfiguration.h.

{return regionPhisVsRefLayerVsInput;}

int OMTFConfiguration::globalPhiStart

(

unsigned int

iProcessor

)

const

Return global phi for beggining of given processor Uses minim phi over all reference layers.

Definition at line 228 of file OMTFConfiguration.cc.

References begin, and end.

Referenced by XMLConfigWriter::writeConnectionsData().

                                                                   {

  return *std::min_element(processorPhiVsRefLayer[iProcessor].begin(),
               processorPhiVsRefLayer[iProcessor].end());

}

void OMTFConfiguration::initCounterMatrices

(

)

Vector of all inputs

Vector of all layers

Vector of all logic cones

Vector of all processors

Definition at line 47 of file OMTFConfiguration.cc.

References MuonTCMETValueMapProducer_cff::nLayers.

                                           {
  
  std::vector<int> aLayer1D(nInputs(),0);

  vector2D aLayer2D;
  aLayer2D.assign(nLayers(),aLayer1D);

  vector3D aLayer3D;
  aLayer3D.assign(nLogicRegions(),aLayer2D);

  measurements4D.assign(nProcessors(),aLayer3D);
  measurements4Dref.assign(nProcessors(),aLayer3D);
}

bool OMTFConfiguration::isInRegionRange	(	int	iPhiStart,
		unsigned int	coneSize,
		int	iPhi
	)		const

Check if given referecne hit is in phi range for some logic cone. Care is needed arounf +Pi and +2Pi points

Definition at line 194 of file OMTFConfiguration.cc.

References createfilelist::int, and ecaldqm::binning::nPhiBins.

                                {

  if(iPhi<0) iPhi+=nPhiBins();
  if(iPhiStart<0) iPhiStart+=nPhiBins();

  if(iPhiStart+(int)coneSize<(int)nPhiBins()){
    return iPhiStart<=iPhi && iPhiStart+(int)coneSize>iPhi;
  }
  else if(iPhi>(int)nPhiBins()/2){
    return iPhiStart<=iPhi;
  }
  else if(iPhi<(int)nPhiBins()/2){
    return iPhi<iPhiStart+(int)coneSize-(int)nPhiBins();
  }
  return false;
}

float OMTFConfiguration::minPdfVal ( ) const

inline

Definition at line 97 of file OMTFConfiguration.h.

Referenced by GoldenPattern::normalise().

{return 0.001;};

unsigned int OMTFConfiguration::nGoldenPatterns ( ) const

inline

Definition at line 110 of file OMTFConfiguration.h.

Referenced by OMTFProcessor::configure().

{return rawParams.nGoldenPatterns();};

unsigned int OMTFConfiguration::nHitsPerLayer ( ) const

inline

Definition at line 99 of file OMTFConfiguration.h.

Referenced by operator<<().

{return rawParams.nHitsPerLayer();};

unsigned int OMTFConfiguration::nInputs ( ) const

inline

Definition at line 109 of file OMTFConfiguration.h.

Referenced by OMTFConfigMaker::fillPhiMaps(), and OMTFConfigMaker::printConnections().

{return rawParams.nInputs();};

unsigned int OMTFConfiguration::nLayers ( ) const

inline

Definition at line 98 of file OMTFConfiguration.h.

Referenced by OMTFProcessor::averagePatterns(), OMTFinput::clear(), OMTFResult::clear(), OMTFProcessor::configure(), OMTFProcessor::fillCounts(), OMTFConfigMaker::fillInputRange(), OMTFinput::mergeData(), operator<<(), OMTFConfigMaker::printConnections(), OMTFProcessor::processInput(), GoldenPattern::reset(), OMTFProcessor::shiftGP(), XMLConfigWriter::writeConnectionsData(), XMLConfigWriter::writeEventData(), XMLConfigWriter::writeGPData(), and XMLConfigWriter::writeResultsData().

{return rawParams.nLayers();};

unsigned int OMTFConfiguration::nLogicRegions ( ) const

inline

Definition at line 108 of file OMTFConfiguration.h.

Referenced by OMTFConfigMaker::makeConnetionsMap(), OMTFConfigMaker::OMTFConfigMaker(), and OMTFConfigMaker::printPhiMap().

{return rawParams.nLogicRegions();};

unsigned int OMTFConfiguration::nPdfAddrBits ( ) const

inline

Definition at line 102 of file OMTFConfiguration.h.

Referenced by GoldenPattern::addCount(), OMTFProcessor::configure(), GoldenPattern::normalise(), operator<<(), GoldenPattern::process1Layer1RefLayer(), GoldenPattern::reset(), OMTFProcessor::shiftGP(), and XMLConfigWriter::writeGPData().

{return rawParams.nPdfAddrBits();};

unsigned int OMTFConfiguration::nPdfValBits ( ) const

inline

Definition at line 103 of file OMTFConfiguration.h.

Referenced by GoldenPattern::normalise(), and operator<<().

{return rawParams.nPdfValBits();};

unsigned int OMTFConfiguration::nPhiBins ( ) const

inline

Definition at line 104 of file OMTFConfiguration.h.

Referenced by GoldenPattern::addCount(), OMTFinput::addLayerHit(), OMTFReconstruction::beginRun(), OMTFinput::clear(), OMTFConfigMaker::fillInputRange(), OMTFConfigMaker::fillPhiMaps(), OMTFinput::getRefHits(), OMTFinputMaker::initialize(), OMTFConfigMaker::OMTFConfigMaker(), GoldenPattern::process1Layer1RefLayer(), OMTFProcessor::restrictInput(), OMTFinput::shiftMyPhi(), XMLConfigWriter::writeConnectionsData(), and XMLConfigWriter::writeEventData().

{return rawParams.nPhiBins();};

unsigned int OMTFConfiguration::nPhiBits ( ) const

inline

Definition at line 101 of file OMTFConfiguration.h.

Referenced by OMTFinput::shiftMyPhi(), and XMLConfigWriter::writeConnectionsData().

{return rawParams.nPhiBits();};

unsigned int OMTFConfiguration::nProcessors ( ) const

inline

Definition at line 107 of file OMTFConfiguration.h.

Referenced by operator<<(), and OMTFReconstruction::reconstruct().

{return rawParams.nProcessors();};

unsigned int OMTFConfiguration::nRefHits ( ) const

inline

Definition at line 105 of file OMTFConfiguration.h.

Referenced by OMTFProcessor::fillCounts(), OMTFProcessor::processInput(), and XMLConfigWriter::writeConnectionsData().

{return rawParams.nRefHits();};

unsigned int OMTFConfiguration::nRefLayers ( ) const

inline

Definition at line 100 of file OMTFConfiguration.h.

Referenced by OMTFProcessor::averagePatterns(), OMTFResult::clear(), OMTFProcessor::configure(), OMTFResult::empty(), OMTFConfigMaker::fillPhiMaps(), OMTFConfigMaker::makeConnetionsMap(), OMTFConfigMaker::OMTFConfigMaker(), operator<<(), OMTFConfigMaker::printPhiMap(), GoldenPattern::reset(), OMTFProcessor::shiftGP(), XMLConfigWriter::writeConnectionsData(), XMLConfigWriter::writeGPData(), and XMLConfigWriter::writeResultsData().

{return rawParams.nRefLayers();};

unsigned int OMTFConfiguration::nTestRefHits ( ) const

inline

Definition at line 106 of file OMTFConfiguration.h.

Referenced by OMTFProcessor::configure(), OMTFProcessor::processInput(), and OMTFReconstruction::writeResultToXML().

{return rawParams.nTestRefHits();};

unsigned int OMTFConfiguration::patternsVersion ( ) const

inline

Definition at line 93 of file OMTFConfiguration.h.

Referenced by XMLConfigWriter::initialiseXMLDocument().

{return rawParams.fwVersion() & 0xFFFF;};

Friends And Related Function Documentation

std::ostream& operator<< ( std::ostream &  out, const OMTFConfiguration &  aConfig  )

friend

Definition at line 171 of file OMTFConfiguration.cc.

                                                                             {


  out<<"nLayers(): "<<aConfig.nLayers()
     <<" nHitsPerLayer(): "<<aConfig.nHitsPerLayer()
     <<" nRefLayers(): "<<aConfig.nRefLayers()
     <<" nPdfAddrBits: "<<aConfig.nPdfAddrBits()
     <<" nPdfValBits: "<<aConfig.nPdfValBits()
     <<std::endl;

  for(unsigned int iProcessor = 0;iProcessor<aConfig.nProcessors(); ++iProcessor){
    out<<"Processor: "<<iProcessor;
    for(unsigned int iRefLayer=0;iRefLayer<aConfig.nRefLayers();++iRefLayer){
      out<<" "<<aConfig.processorPhiVsRefLayer[iProcessor][iRefLayer];
    }
    out<<std::endl;
  }
  
  return out;

}

Member Data Documentation

std::vector<unsigned int> OMTFConfiguration::barrelMax

private

Definition at line 153 of file OMTFConfiguration.h.

std::vector<unsigned int> OMTFConfiguration::barrelMin

private

Starting and final sectors connected to processors. Index: processor number

Definition at line 152 of file OMTFConfiguration.h.

std::set<int> OMTFConfiguration::bendingLayers

private

Definition at line 146 of file OMTFConfiguration.h.

vector3D_pair OMTFConfiguration::connections

private

Map of connections.

Definition at line 181 of file OMTFConfiguration.h.

std::vector<unsigned int> OMTFConfiguration::endcap10DegMax

private

Definition at line 155 of file OMTFConfiguration.h.

std::vector<unsigned int> OMTFConfiguration::endcap10DegMin

private

Definition at line 154 of file OMTFConfiguration.h.

std::vector<unsigned int> OMTFConfiguration::endcap20DegMax

private

Definition at line 157 of file OMTFConfiguration.h.

std::vector<unsigned int> OMTFConfiguration::endcap20DegMin

private

Definition at line 156 of file OMTFConfiguration.h.

std::map<int,int> OMTFConfiguration::hwToLogicLayer

private

Definition at line 143 of file OMTFConfiguration.h.

std::map<int,int> OMTFConfiguration::logicToHwLayer

private

Definition at line 144 of file OMTFConfiguration.h.

std::map<int,int> OMTFConfiguration::logicToLogic

private

Definition at line 145 of file OMTFConfiguration.h.

vector4D OMTFConfiguration::measurements4D

private

4D matrices used during creation of the connections tables.

Definition at line 184 of file OMTFConfiguration.h.

vector4D OMTFConfiguration::measurements4Dref

private

Definition at line 185 of file OMTFConfiguration.h.

std::vector<std::vector<int> > OMTFConfiguration::processorPhiVsRefLayer

private

Starting iPhi for each processor and each referecne layer Global phi scale is used First index: processor number Second index: referecne layer number

Definition at line 163 of file OMTFConfiguration.h.

Referenced by operator<<().

L1TMuonOverlapParams OMTFConfiguration::rawParams

private

Definition at line 141 of file OMTFConfiguration.h.

std::vector<std::vector<RefHitDef> > OMTFConfiguration::refHitsDefs

private

Vector with definitions of reference hits Vector has fixed size of nRefHits Order of elements defines priority order First index: processor number (0-5) Second index: ref hit number (0-127)

Definition at line 178 of file OMTFConfiguration.h.

std::vector<int> OMTFConfiguration::refToLogicNumber

private

Definition at line 147 of file OMTFConfiguration.h.

std::vector<std::vector<std::vector<std::pair<int,int> > > > OMTFConfiguration::regionPhisVsRefLayerVsInput

private

Begin and end local phi for each logis region First index: input number Second index: reference layer number Third index: region pair.first: starting phi of region (inclusive) pair.second: ending phi of region (inclusive)

Definition at line 171 of file OMTFConfiguration.h.