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Classes | Public Member Functions | Private Member Functions | Private Attributes

MuonNavigationSchool Class Reference

#include <MuonNavigationSchool.h>

Inheritance diagram for MuonNavigationSchool:
NavigationSchool

List of all members.

Classes

struct  delete_layer

Public Member Functions

 MuonNavigationSchool (const MuonDetLayerGeometry *, bool enableRPC=true)
 Constructor.
virtual StateType navigableLayers () const
 return navigable layers, from base class
 ~MuonNavigationSchool ()
 Destructor.

Private Member Functions

void addBarrelLayer (BarrelDetLayer *)
 add barrel layer
void addEndcapLayer (ForwardDetLayer *)
 add endcap layer (backward and forward)
float calculateEta (const float &, const float &) const
 calculate pseudorapidity from r and z
void createInverseLinks () const
 establish inward links
void linkBarrelLayers ()
 link barrel layers
void linkEndcapLayers (const MapE &, std::vector< MuonForwardNavigableLayer * > &)
 link endcap layers

Private Attributes

MapE theBackwardLayers
 +z endcap
std::vector
< MuonForwardNavigableLayer * > 
theBackwardNLC
MapB theBarrelLayers
std::vector
< MuonBarrelNavigableLayer * > 
theBarrelNLC
 -z endcap
MapE theForwardLayers
 barrel
std::vector
< MuonForwardNavigableLayer * > 
theForwardNLC
const MuonDetLayerGeometrytheMuonDetLayerGeometry

Detailed Description

Description: Navigation school for the muon system This class defines which DetLayers are reacheable from each Muon DetLayer (DT, CSC and RPC). The reacheableness is based on an eta range criteria.

Date:
2007/06/14 20:31:43
Revision:
1.7
Author:
: Stefano Lacaprara - INFN Padova <stefano.lacaprara@pd.infn.it>

Modification:

Chang Liu: The class links maps for nextLayers and compatibleLayers in the same time.

Description: Navigation school for the muon system This class defines which DetLayers are reacheable from each Muon DetLayer (DT, CSC and RPC). The reacheableness is based on an eta range criteria.

Date:
2008/02/13 13:55:25
Revision:
1.12
Author:
: Stefano Lacaprara - INFN Padova <stefano.lacaprara@pd.infn.it>

Modification:

Chang Liu: The class links maps for nextLayers and compatibleLayers in the same time.

Definition at line 36 of file MuonNavigationSchool.h.


Constructor & Destructor Documentation

MuonNavigationSchool::MuonNavigationSchool ( const MuonDetLayerGeometry muonLayout,
bool  enableRPC = true 
)

Constructor.

Definition at line 40 of file MuonNavigationSchool.cc.

References addBarrelLayer(), addEndcapLayer(), MuonDetLayerGeometry::allBarrelLayers(), MuonDetLayerGeometry::allCSCLayers(), MuonDetLayerGeometry::allDTLayers(), MuonDetLayerGeometry::allEndcapLayers(), MuonDetLayerGeometry::allLayers(), Reference_intrackfit_cff::barrel, createInverseLinks(), Reference_intrackfit_cff::endcap, i, linkBarrelLayers(), linkEndcapLayers(), NavigationSchool::theAllDetLayersInSystem, theBackwardLayers, theBackwardNLC, theForwardLayers, and theForwardNLC.

                                                                                                   : theMuonDetLayerGeometry(muonLayout) {

  theAllDetLayersInSystem=&muonLayout->allLayers(); 

  // get all barrel DetLayers (DT + optional RPC) 
  vector<DetLayer*> barrel;
  if ( enableRPC ) barrel = muonLayout->allBarrelLayers();
  else barrel = muonLayout->allDTLayers();

  for ( vector<DetLayer*>::const_iterator i = barrel.begin(); i != barrel.end(); i++ ) {
    BarrelDetLayer* mbp = dynamic_cast<BarrelDetLayer*>(*i);
    if ( mbp == 0 ) throw Genexception("Bad BarrelDetLayer");
    addBarrelLayer(mbp);
  }

  // get all endcap DetLayers (CSC + optional RPC)
  vector<DetLayer*> endcap;
  if ( enableRPC ) endcap = muonLayout->allEndcapLayers();
  else endcap = muonLayout->allCSCLayers();

  for ( vector<DetLayer*>::const_iterator i = endcap.begin(); i != endcap.end(); i++ ) {
    ForwardDetLayer* mep = dynamic_cast<ForwardDetLayer*>(*i);
    if ( mep == 0 ) throw Genexception("Bad ForwardDetLayer");
    addEndcapLayer(mep);
  }

  // create outward links for all DetLayers
  linkBarrelLayers();
  linkEndcapLayers(theForwardLayers,theForwardNLC);
  linkEndcapLayers(theBackwardLayers,theBackwardNLC);

  // create inverse links
  createInverseLinks();

}
MuonNavigationSchool::~MuonNavigationSchool ( )

Destructor.

Definition at line 78 of file MuonNavigationSchool.cc.

References theBackwardNLC, theBarrelNLC, and theForwardNLC.

                                            {

   for_each(theBarrelNLC.begin(),theBarrelNLC.end(), delete_layer());
   for_each(theForwardNLC.begin(),theForwardNLC.end(), delete_layer());
   for_each(theBackwardNLC.begin(),theBackwardNLC.end(), delete_layer());

}

Member Function Documentation

void MuonNavigationSchool::addBarrelLayer ( BarrelDetLayer mbp) [private]

add barrel layer

create barrel layer map

Definition at line 114 of file MuonNavigationSchool.cc.

References BoundSurface::bounds(), calculateEta(), Bounds::length(), CosmicsPD_Skims::radius, Cylinder::radius(), BarrelDetLayer::specificSurface(), and theBarrelLayers.

Referenced by MuonNavigationSchool().

                                                             {

  const BoundCylinder& bc = mbp->specificSurface();
  float radius = bc.radius();
  float length = bc.bounds().length()/2.;

  float eta_max = calculateEta(radius, length);
  float eta_min = -eta_max;

  theBarrelLayers[mbp] = MuonEtaRange(eta_max, eta_min);

}
void MuonNavigationSchool::addEndcapLayer ( ForwardDetLayer mep) [private]

add endcap layer (backward and forward)

create forwrad/backward layer maps

Definition at line 129 of file MuonNavigationSchool.cc.

References BoundSurface::bounds(), calculateEta(), BoundDisk::innerRadius(), Bounds::length(), BoundDisk::outerRadius(), GloballyPositioned< T >::position(), ForwardDetLayer::specificSurface(), theBackwardLayers, theForwardLayers, and z.

Referenced by MuonNavigationSchool().

                                                              {

  const BoundDisk& bd = mep->specificSurface();
  float outRadius = bd.outerRadius();
  float inRadius = bd.innerRadius();
  float thick = bd.bounds().length()/2.;
  float z = bd.position().z();

  if ( z > 0. ) {
    float eta_min = calculateEta(outRadius, z-thick);
    float eta_max = calculateEta(inRadius, z+thick);
    theForwardLayers[mep] = MuonEtaRange(eta_max, eta_min);
  } else {
    float eta_max = calculateEta(outRadius, z+thick);
    float eta_min = calculateEta(inRadius, z-thick);
    theBackwardLayers[mep] = MuonEtaRange(eta_max, eta_min);
  }

}
float MuonNavigationSchool::calculateEta ( const float &  r,
const float &  z 
) const [private]

calculate pseudorapidity from r and z

Definition at line 151 of file MuonNavigationSchool.cc.

References create_public_lumi_plots::log, and funct::tan().

Referenced by addBarrelLayer(), and addEndcapLayer().

                                                                             {

  if ( z > 0 ) return -log((tan(atan(r/z)/2.)));
  return log(-(tan(atan(r/z)/2.)));

}
void MuonNavigationSchool::createInverseLinks ( ) const [private]

establish inward links

create inverse links (i.e. inwards)

Definition at line 262 of file MuonNavigationSchool.cc.

References MuonBarrelNavigableLayer::getAllOuterBackwardLayers(), MuonBarrelNavigableLayer::getAllOuterBarrelLayers(), MuonBarrelNavigableLayer::getAllOuterForwardLayers(), MuonBarrelNavigableLayer::getOuterBackwardLayers(), MuonBarrelNavigableLayer::getOuterBarrelLayers(), MuonBarrelNavigableLayer::getOuterForwardLayers(), i, MuonForwardNavigableLayer::setInwardCompatibleLinks(), MuonBarrelNavigableLayer::setInwardCompatibleLinks(), MuonBarrelNavigableLayer::setInwardLinks(), MuonForwardNavigableLayer::setInwardLinks(), theBackwardLayers, theBarrelLayers, and theForwardLayers.

Referenced by MuonNavigationSchool().

                                                    {

  // set outward link
  NavigationSetter setter(*this);

  // find for each layer which are the layers pointing to it
  typedef map<const DetLayer*, MapB, less<const DetLayer*> > BarrelMapType;
  typedef map<const DetLayer*, MapE, less<const DetLayer*> > ForwardMapType;

  // map of all DetLayers which can reach a specific DetLayer
  BarrelMapType reachedBarrelLayersMap;
  ForwardMapType reachedForwardLayersMap;

  // map of all DetLayers which is compatible with a specific DetLayer
  BarrelMapType compatibleBarrelLayersMap;
  ForwardMapType compatibleForwardLayersMap;

  // collect all reacheable layers starting from a barrel layer
  for ( MapBI bli  = theBarrelLayers.begin(); 
              bli != theBarrelLayers.end(); bli++ ) {
    // barrel
    MuonBarrelNavigableLayer* mbnl =
      dynamic_cast<MuonBarrelNavigableLayer*>(((*bli).first)->navigableLayer());
    MapB reacheableB = mbnl->getOuterBarrelLayers();
    for (MapBI i = reacheableB.begin(); i != reacheableB.end(); i++ ) {
      reachedBarrelLayersMap[(*i).first].insert(*bli);
    }
    MapB compatibleB = mbnl->getAllOuterBarrelLayers();
    for (MapBI i = compatibleB.begin(); i != compatibleB.end(); i++ ) {
      compatibleBarrelLayersMap[(*i).first].insert(*bli);
    }
    MapE reacheableE = mbnl->getOuterBackwardLayers();
    for (MapEI i = reacheableE.begin(); i != reacheableE.end(); i++ ) {
      reachedBarrelLayersMap[(*i).first].insert(*bli);
    }
    reacheableE = mbnl->getOuterForwardLayers();
    for (MapEI i = reacheableE.begin(); i != reacheableE.end(); i++ ) {
      reachedBarrelLayersMap[(*i).first].insert(*bli);
    }
    MapE compatibleE = mbnl->getAllOuterBackwardLayers();
    for (MapEI i = compatibleE.begin(); i != compatibleE.end(); i++ ) {
      compatibleBarrelLayersMap[(*i).first].insert(*bli);
    }
    compatibleE = mbnl->getAllOuterForwardLayers();
    for (MapEI i = compatibleE.begin(); i != compatibleE.end(); i++ ) {
      compatibleBarrelLayersMap[(*i).first].insert(*bli);
    }

  }

  // collect all reacheable layer starting from a backward layer
  for ( MapEI eli  = theBackwardLayers.begin(); 
              eli != theBackwardLayers.end(); eli++ ) {
    MapE reacheableE =
      dynamic_cast<MuonForwardNavigableLayer*>(((*eli).first)->navigableLayer())->getOuterEndcapLayers();
    for (MapEI i = reacheableE.begin(); i != reacheableE.end(); i++ ) {
      reachedForwardLayersMap[(*i).first].insert(*eli);
    }
  // collect all compatible layer starting from a backward layer
    MapE compatibleE =
      dynamic_cast<MuonForwardNavigableLayer*>(((*eli).first)->navigableLayer())->getAllOuterEndcapLayers();
    for (MapEI i = compatibleE.begin(); i != compatibleE.end(); i++ ) {
      compatibleForwardLayersMap[(*i).first].insert(*eli);
    }
  }

  for ( MapEI eli  = theForwardLayers.begin(); 
              eli != theForwardLayers.end(); eli++ ) {
  // collect all reacheable layer starting from a forward layer
    MapE reacheableE =
      dynamic_cast<MuonForwardNavigableLayer*>(((*eli).first)->navigableLayer())->getOuterEndcapLayers();
    for (MapEI i = reacheableE.begin(); i != reacheableE.end(); i++ ) {
      reachedForwardLayersMap[(*i).first].insert(*eli);
    }
  // collect all compatible layer starting from a forward layer
    MapE compatibleE =
      dynamic_cast<MuonForwardNavigableLayer*>(((*eli).first)->navigableLayer())->getAllOuterEndcapLayers();
    for (MapEI i = compatibleE.begin(); i != compatibleE.end(); i++ ) {
      compatibleForwardLayersMap[(*i).first].insert(*eli);
    }
  }

  // now set inverse link for barrel layers
  for ( MapBI bli  = theBarrelLayers.begin(); 
              bli != theBarrelLayers.end(); bli++ ) {
    MuonBarrelNavigableLayer* mbnl =
      dynamic_cast<MuonBarrelNavigableLayer*>(((*bli).first)->navigableLayer());
    mbnl->setInwardLinks(reachedBarrelLayersMap[(*bli).first]);
    mbnl->setInwardCompatibleLinks(compatibleBarrelLayersMap[(*bli).first]);

  }
  //BACKWARD
  for ( MapEI eli  = theBackwardLayers.begin(); 
              eli != theBackwardLayers.end(); eli++ ) {
    MuonForwardNavigableLayer* mfnl =      
      dynamic_cast<MuonForwardNavigableLayer*>(((*eli).first)->navigableLayer());
    // for backward next layers
    mfnl->setInwardLinks(reachedBarrelLayersMap[(*eli).first],
                         reachedForwardLayersMap[(*eli).first]);
  // for backward compatible layers
    mfnl->setInwardCompatibleLinks(compatibleBarrelLayersMap[(*eli).first],
                         compatibleForwardLayersMap[(*eli).first]);
  }
  //FORWARD
  for ( MapEI eli  = theForwardLayers.begin(); 
              eli != theForwardLayers.end(); eli++ ) {
    MuonForwardNavigableLayer* mfnl = 
      dynamic_cast<MuonForwardNavigableLayer*>(((*eli).first)->navigableLayer());
  // and for forward next layers
    mfnl->setInwardLinks(reachedBarrelLayersMap[(*eli).first],
                         reachedForwardLayersMap[(*eli).first]);
  // and for forward compatible layers
    mfnl->setInwardCompatibleLinks(compatibleBarrelLayersMap[(*eli).first],
                         compatibleForwardLayersMap[(*eli).first]);
  }

}
void MuonNavigationSchool::linkBarrelLayers ( ) [private]

link barrel layers

linking barrel layers outwards

Definition at line 159 of file MuonNavigationSchool.cc.

References theBackwardLayers, theBarrelLayers, theBarrelNLC, and theForwardLayers.

Referenced by MuonNavigationSchool().

                                            {

  for (MapBI bl  = theBarrelLayers.begin();
             bl != theBarrelLayers.end(); bl++) {

    MuonEtaRange range = (*bl).second;

    // first add next barrel layer
    MapBI plusOne(bl);
    plusOne++;
    MapB outerBarrel;
    MapB allOuterBarrel;
    if ( plusOne != theBarrelLayers.end() ) { outerBarrel.insert(*plusOne);}
    // add all outer barrel layers
    for ( MapBI iMBI = plusOne; iMBI!= theBarrelLayers.end(); iMBI++){
      allOuterBarrel.insert(*iMBI);
    }
    // then add all compatible backward layers with an eta criteria
    MapE allOuterBackward;
    for (MapEI el  = theBackwardLayers.begin();
               el != theBackwardLayers.end(); el++) {
      if ( (*el).second.isCompatible(range) ) {
        allOuterBackward.insert(*el);
      }
    }
    //add the backward next layer with an eta criteria
    MapE outerBackward;
    for (MapEI el  = theBackwardLayers.begin();
               el != theBackwardLayers.end(); el++) {
      if ( (*el).second.isCompatible(range) ) {
        outerBackward.insert(*el);
        break;
      }
    }

    // then add all compatible forward layers with an eta criteria
    MapE allOuterForward;
    for (MapEI el  = theForwardLayers.begin();
               el != theForwardLayers.end(); el++) {
      if ( (*el).second.isCompatible(range) ) {
        allOuterForward.insert(*el);
      }
    }

    // then add forward next layer with an eta criteria
    MapE outerForward;
    for (MapEI el  = theForwardLayers.begin();
               el != theForwardLayers.end(); el++) {
      if ( (*el).second.isCompatible(range) ) {
        outerForward.insert(*el);
        break;
      }
    }

    theBarrelNLC.push_back(new MuonBarrelNavigableLayer(
                       (*bl).first,outerBarrel, outerBackward, outerForward,
                       allOuterBarrel,allOuterBackward,allOuterForward));

  }

}
void MuonNavigationSchool::linkEndcapLayers ( const MapE ,
std::vector< MuonForwardNavigableLayer * > &   
) [private]

link endcap layers

linking forward/backward layers outwards

Definition at line 221 of file MuonNavigationSchool.cc.

References MuonEtaRange::add(), MuonEtaRange::isCompatible(), MuonEtaRange::isInside(), prof2calltree::l, max(), GetRecoTauVFromDQM_MC_cff::next, and MuonEtaRange::subtract().

Referenced by MuonNavigationSchool().

                                                                                        {

  for (MapEI el = layers.begin(); el != layers.end(); el++) {

    MuonEtaRange range = (*el).second;
    // first add next endcap layer (if compatible)
    MapEI plusOne(el); 
    plusOne++;
    MapE outerLayers;
    if ( plusOne != layers.end() && (*plusOne).second.isCompatible(range) ) {
        outerLayers.insert(*plusOne);
      if ( !range.isInside((*plusOne).second) ) {
        // then look if the next layer has a wider eta range, if so add it
        MapEI tmpel(plusOne);
        tmpel++;
        MuonEtaRange max((*plusOne).second);
        for ( MapEI l = tmpel; l != layers.end(); l++ ) {
          MuonEtaRange next = (*l).second;
          if ( next.isCompatible(max) && !range.isInside(next) &&
               !next.isInside(max) && next.subtract(max).isInside(range) ) {
            max = max.add(next);
            outerLayers.insert(*l);
          }
        }
      }
    }

    MapE allOuterLayers;
    for (MapEI iMEI = plusOne; iMEI!=layers.end(); iMEI++){
      if ((*iMEI).second.isCompatible(range)) allOuterLayers.insert(*iMEI);
    }
    
    result.push_back(new MuonForwardNavigableLayer(
                   (*el).first,outerLayers, allOuterLayers));
  }

}
MuonNavigationSchool::StateType MuonNavigationSchool::navigableLayers ( ) const [virtual]

return navigable layers, from base class

return all Navigable layers

Implements NavigationSchool.

Definition at line 89 of file MuonNavigationSchool.cc.

References query::result, theBackwardNLC, theBarrelNLC, and theForwardNLC.

                                            {

  StateType result;
  
  vector<MuonBarrelNavigableLayer*>::const_iterator ib;
  vector<MuonForwardNavigableLayer*>::const_iterator ie;

  for ( ib = theBarrelNLC.begin(); ib != theBarrelNLC.end(); ib++ ) {
    result.push_back(*ib);
  }

  for ( ie = theForwardNLC.begin(); ie != theForwardNLC.end(); ie++ ) {
    result.push_back(*ie);
  }

  for ( ie = theBackwardNLC.begin(); ie != theBackwardNLC.end(); ie++ ) {
    result.push_back(*ie);
  }
  
  return result;

}

Member Data Documentation

+z endcap

Definition at line 75 of file MuonNavigationSchool.h.

Referenced by addEndcapLayer(), createInverseLinks(), linkBarrelLayers(), and MuonNavigationSchool().

Definition at line 73 of file MuonNavigationSchool.h.

Referenced by addBarrelLayer(), createInverseLinks(), and linkBarrelLayers().

-z endcap

Definition at line 77 of file MuonNavigationSchool.h.

Referenced by linkBarrelLayers(), navigableLayers(), and ~MuonNavigationSchool().

Definition at line 81 of file MuonNavigationSchool.h.