d1/dec/MuonNavigationPrinter_8cc_source.html

 #include "RecoMuon/Navigation/interface/MuonNavigationPrinter.h"


 #include "TrackingTools/DetLayers/interface/BarrelDetLayer.h"

 #include "TrackingTools/DetLayers/interface/ForwardDetLayer.h"

 #include "DataFormats/GeometrySurface/interface/BoundCylinder.h"

 #include "DataFormats/GeometrySurface/interface/BoundDisk.h"

 #include "RecoMuon/DetLayers/interface/MuonDetLayerGeometry.h"

 #include "RecoTracker/TkDetLayers/interface/GeometricSearchTracker.h"


 #include "FWCore/MessageLogger/interface/MessageLogger.h"


 #include <iostream>

 #include <iomanip>

 using namespace std;


 MuonNavigationPrinter::MuonNavigationPrinter(const MuonDetLayerGeometry * muonLayout, bool enableRPC) {


   edm::LogInfo ("MuonNavigationPrinter")<< "MuonNavigationPrinter::MuonNavigationPrinter" ;

   vector<DetLayer*>::const_iterator iter;

   edm::LogInfo ("MuonNavigationPrinter")<<"================================";

   edm::LogInfo ("MuonNavigationPrinter")<< "BARREL:";

   vector<DetLayer*> barrel;

   if ( enableRPC ) barrel = muonLayout->allBarrelLayers();

   else barrel = muonLayout->allDTLayers();


   edm::LogInfo ("MuonNavigationPrinter")<<"There are "<<barrel.size()<<" Barrel DetLayers";

   for ( iter = barrel.begin(); iter != barrel.end(); iter++ ) printLayer(*iter);

   edm::LogInfo ("MuonNavigationPrinter")<<"================================";

   edm::LogInfo ("MuonNavigationPrinter")  << "BACKWARD:";


   vector<DetLayer*> backward;

   if ( enableRPC ) backward = muonLayout->allBackwardLayers();

   else backward = muonLayout->backwardCSCLayers();


   edm::LogInfo ("MuonNavigationPrinter")<<"There are "<<backward.size()<<" Backward DetLayers";

   for ( iter = backward.begin(); iter != backward.end(); iter++ ) printLayer(*iter);

   edm::LogInfo ("MuonNavigationPrinter") << "==============================";

   edm::LogInfo ("MuonNavigationPrinter") << "FORWARD:";

   vector<DetLayer*> forward;

   if ( enableRPC ) forward = muonLayout->allForwardLayers();

   else forward = muonLayout->forwardCSCLayers();


   edm::LogInfo ("MuonNavigationPrinter")<<"There are "<<forward.size()<<" Forward DetLayers";

   for ( iter = forward.begin(); iter != forward.end(); iter++ ) printLayer(*iter);


 }


 MuonNavigationPrinter::MuonNavigationPrinter(const MuonDetLayerGeometry * muonLayout, const GeometricSearchTracker * tracker) {


   edm::LogInfo ("MuonNavigationPrinter")<< "MuonNavigationPrinter::MuonNavigationPrinter" ;

   vector<DetLayer*>::const_iterator iter;

 //  vector<BarrelDetLayer*>::const_iterator tkiter;

 //  vector<ForwardDetLayer*>::const_iterator tkfiter;

   edm::LogInfo ("MuonNavigationPrinter")<<"================================";

   edm::LogInfo ("MuonNavigationPrinter")<< "BARREL:";

   vector<BarrelDetLayer*> tkbarrel = tracker->barrelLayers();

   edm::LogInfo ("MuonNavigationPrinter")<<"There are "<<tkbarrel.size()<<" Tk Barrel DetLayers";

 //  for ( tkiter = tkbarrel.begin(); tkiter != tkbarrel.end(); tkiter++ ) printLayer(*tkiter);

   vector<DetLayer*> barrel = muonLayout->allBarrelLayers();

   edm::LogInfo ("MuonNavigationPrinter")<<"There are "<<barrel.size()<<" Mu Barrel DetLayers";

   for ( iter = barrel.begin(); iter != barrel.end(); iter++ ) printLayer(*iter);

   edm::LogInfo ("MuonNavigationPrinter")<<"================================";

   edm::LogInfo ("MuonNavigationPrinter")  << "BACKWARD:";

   vector<ForwardDetLayer*> tkbackward = tracker->negForwardLayers();

   edm::LogInfo ("MuonNavigationPrinter")<<"There are "<<tkbackward.size()<<" Tk Backward DetLayers";

   vector<DetLayer*> backward = muonLayout->allBackwardLayers();

   edm::LogInfo ("MuonNavigationPrinter")<<"There are "<<backward.size()<<" Mu Backward DetLayers";

   for ( iter = backward.begin(); iter != backward.end(); iter++ ) printLayer(*iter);

   edm::LogInfo ("MuonNavigationPrinter") << "==============================";

   edm::LogInfo ("MuonNavigationPrinter") << "FORWARD:";

   vector<ForwardDetLayer*> tkforward =  tracker->posForwardLayers();

   edm::LogInfo ("MuonNavigationPrinter")<<"There are "<<tkforward.size()<<" Tk Forward DetLayers";

 //  for ( tkfiter = tkforward.begin(); tkfiter != tkforward.end(); tkfiter++ ) printLayer(*tkfiter);


   vector<DetLayer*> forward = muonLayout->allForwardLayers();

   edm::LogInfo ("MuonNavigationPrinter")<<"There are "<<forward.size()<<" Mu Forward DetLayers";

   for ( iter = forward.begin(); iter != forward.end(); iter++ ) printLayer(*iter);


 }


 void MuonNavigationPrinter::printLayer(DetLayer* layer) const {

   vector<const DetLayer*> nextLayers = layer->nextLayers(insideOut);

   vector<const DetLayer*> compatibleLayers = layer->compatibleLayers(insideOut);

   if (BarrelDetLayer* bdl = dynamic_cast<BarrelDetLayer*>(layer)) {

     edm::LogInfo ("MuonNavigationPrinter")

          << layer->location() << " " << layer->subDetector() << " layer at R: "

          << setiosflags(ios::showpoint | ios::fixed)

          << setw(8) << setprecision(2)

          << bdl->specificSurface().radius() << "  length: "

          << setw(6) << setprecision(2)

          << layer->surface().bounds().length();


   }

   else if (ForwardDetLayer* fdl = dynamic_cast<ForwardDetLayer*>(layer)) {

     edm::LogInfo ("MuonNavigationPrinter") << endl

          << layer->location() << " " << layer->subDetector() << "layer at z: "

          << setiosflags(ios::showpoint | ios::fixed)

          << setw(8) << setprecision(2)

          << layer->surface().position().z() << "  inner r: "

          << setw(6) << setprecision(2)

          << fdl->specificSurface().innerRadius() << "  outer r: "

          << setw(6) << setprecision(2)

          << fdl->specificSurface().outerRadius();

   }

   edm::LogInfo ("MuonNavigationPrinter") << " has " << nextLayers.size() << " next layers in the direction inside-out: ";

   printLayers(nextLayers);


   nextLayers.clear();

   nextLayers = layer->nextLayers(outsideIn);


    edm::LogInfo ("MuonNavigationPrinter") << " has " << nextLayers.size() << " next layers in the direction outside-in: ";

   printLayers(nextLayers);


   edm::LogInfo ("MuonNavigationPrinter") << " has " << compatibleLayers.size() << " compatible layers in the direction inside-out:: ";

   printLayers(compatibleLayers);

   compatibleLayers.clear();

   compatibleLayers = layer->compatibleLayers(outsideIn);


   edm::LogInfo ("MuonNavigationPrinter") << " has " << compatibleLayers.size() << " compatible layers in the direction outside-in: ";

   printLayers(compatibleLayers);


 }


 void MuonNavigationPrinter::printLayers(vector<const DetLayer*> nextLayers) const {


   for ( vector<const DetLayer*>::const_iterator inext = nextLayers.begin();

       inext != nextLayers.end(); inext++ ) {


      edm::LogInfo ("MuonNavigationPrinter") << " --> ";

      if ( (*inext)->location() == GeomDetEnumerators::barrel ) {

       const BarrelDetLayer* l = dynamic_cast<const BarrelDetLayer*>(&(**inext));

       edm::LogInfo ("MuonNavigationPrinter") << (*inext)->location() << " "

            << (*inext)->subDetector()

            << " layer at R: "

            << setiosflags(ios::showpoint | ios::fixed)

            << setw(8) << setprecision(2)

            << l->specificSurface().radius() << "   ";

     }

     else {

       const ForwardDetLayer* l = dynamic_cast<const ForwardDetLayer*>(&(**inext));

        edm::LogInfo ("MuonNavigationPrinter") << (*inext)->location() << " "

            << (*inext)->subDetector()

            << " layer at z: "

            << setiosflags(ios::showpoint | ios::fixed)

            << setw(8) << setprecision(2)

            << l->surface().position().z() << "   ";

     }

     edm::LogInfo ("MuonNavigationPrinter") << setiosflags(ios::showpoint | ios::fixed)

          << setprecision(1)

          << setw(6) << (*inext)->surface().bounds().length() << ", "

          << setw(6) << (*inext)->surface().bounds().width() << ", "

          << setw(4) <<(*inext)->surface().bounds().thickness() << " : "

          << (*inext)->surface().position();

   }


 }


 // /// determine whether the layer is forward or backward

 // string MuonNavigationPrinter::layerPart(const DetLayer* layer) const {


 //   string result = "unknown";


 //   if ( layer->part() == barrel ) return "barrel";

 //   if ( layer->part() == forward && layer->surface().position().z() < 0 ) {

 //     result = "backward";

 //   }

 //   if ( layer->part() == forward && layer->surface().position().z() >= 0 ) {

 //     result = "forward";

 //   }


 //   return result;


 // }


 // /// determine the module (pixel, sililcon, msgc, dt, csc, rpc)

 // string MuonNavigationPrinter::layerModule(const DetLayer* layer) const {


 //   string result = "unknown";


 //   GeomDetEnumerators::SubDetector det = layer->subDetector();


 //   if ( det == Pixel ) return "Pixel";

 //   if ( det == TIB || det == TOB

 //        || det == TID || det == TEC ) return "silicon";

 //   if ( det == DT ) return "DT";

 //   if ( det == CSC ) return "CSC";

 //   if ( det == RPC ) return "RPC";


 //   return result;


 // }


GeometricSearchDet::surface
virtual const BoundSurface & surface() const =0
The surface of the GeometricSearchDet.

MessageLogger.h

outsideIn
Definition: NavigationDirection.h:4

Bounds::length
virtual float length() const =0

Reference_intrackfit_cff.barrel
barrel
Definition: Reference_intrackfit_cff.py:37

DetLayer::location
virtual Location location() const =0
Which part of the detector (barrel, endcap)

BarrelDetLayer
Definition: BarrelDetLayer.h:25

ForwardDetLayer::surface
virtual const BoundSurface & surface() const
The surface of the GeometricSearchDet.
Definition: ForwardDetLayer.h:28

DetLayer::nextLayers
virtual std::vector< const DetLayer * > nextLayers(NavigationDirection direction) const
Definition: DetLayer.cc:35

MuonDetLayerGeometry
Definition: MuonDetLayerGeometry.h:20

DetLayer::subDetector
virtual SubDetector subDetector() const =0
The type of detector (PixelBarrel, PixelEndcap, TIB, TOB, TID, TEC, CSC, DT, RPCBarrel, RPCEndcap)

BoundDisk.h

MuonDetLayerGeometry::allForwardLayers
const std::vector< DetLayer * > & allForwardLayers() const
return all forward (+Z) layers (CSC+RPC), inside-out
Definition: MuonDetLayerGeometry.cc:207

MuonDetLayerGeometry::allDTLayers
const std::vector< DetLayer * > & allDTLayers() const
return the DT DetLayers (barrel), inside-out
Definition: MuonDetLayerGeometry.cc:137

MuonNavigationPrinter::printLayer
void printLayer(DetLayer *) const
print layer
Definition: MuonNavigationPrinter.cc:100

GeometricSearchTracker::barrelLayers
std::vector< BarrelDetLayer * > const & barrelLayers() const
Definition: GeometricSearchTracker.h:30

MuonDetLayerGeometry.h

MuonNavigationPrinter::MuonNavigationPrinter
MuonNavigationPrinter(const MuonDetLayerGeometry *, bool enableRPC=true)
Definition: MuonNavigationPrinter.cc:33

Cylinder::radius
Scalar radius() const
Radius of the cylinder.
Definition: Cylinder.h:55

PV3DBase::z
T z() const
Definition: PV3DBase.h:63

GeometricSearchTracker
Definition: GeometricSearchTracker.h:13

BarrelDetLayer.h

patCandidatesForDimuonsSequences_cff.tracker
tuple tracker
Definition: patCandidatesForDimuonsSequences_cff.py:69

DetLayer
Definition: DetLayer.h:26

GeometricSearchTracker::negForwardLayers
std::vector< ForwardDetLayer * > const & negForwardLayers() const
Definition: GeometricSearchTracker.h:33

edm::LogInfo
Definition: MessageLogger.h:214

MuonDetLayerGeometry::allBackwardLayers
const std::vector< DetLayer * > & allBackwardLayers() const
return all backward (-Z) layers (CSC+RPC), inside-out
Definition: MuonDetLayerGeometry.cc:213

BoundSurface::bounds
const Bounds & bounds() const
Definition: BoundSurface.h:89

GeometricSearchTracker::posForwardLayers
std::vector< ForwardDetLayer * > const & posForwardLayers() const
Definition: GeometricSearchTracker.h:34

insideOut
Definition: NavigationDirection.h:4

ForwardDetLayer.h

MuonDetLayerGeometry::backwardCSCLayers
const std::vector< DetLayer * > & backwardCSCLayers() const
return the backward (-Z) CSC DetLayers, inside-out
Definition: MuonDetLayerGeometry.cc:154

prof2calltree.l
tuple l
Definition: prof2calltree.py:116

BarrelDetLayer::specificSurface
virtual const BoundCylinder & specificSurface() const
Extension of the interface.
Definition: BarrelDetLayer.h:45

GeometricSearchTracker.h

MuonDetLayerGeometry::forwardCSCLayers
const std::vector< DetLayer * > & forwardCSCLayers() const
return the forward (+Z) CSC DetLayers, inside-out
Definition: MuonDetLayerGeometry.cc:148

MuonNavigationPrinter::printLayers
void printLayers(std::vector< const DetLayer * >) const
print next layers
Definition: MuonNavigationPrinter.cc:144

DetLayer::compatibleLayers
std::vector< const DetLayer * > compatibleLayers(NavigationDirection direction) const
Definition: DetLayer.cc:60

ForwardDetLayer
Definition: ForwardDetLayer.h:20

GloballyPositioned::position
const PositionType & position() const
Definition: GloballyPositioned.h:41

BoundCylinder.h

MuonNavigationPrinter.h

MuonDetLayerGeometry::allBarrelLayers
const std::vector< DetLayer * > & allBarrelLayers() const
return all barrel DetLayers (DT+RPC), inside-out
Definition: MuonDetLayerGeometry.cc:196

GeomDetEnumerators::barrel
Definition: GeomDetEnumerators.h:10