Go to the documentation of this file.00001 #include "RecoTracker/TkDetLayers/interface/TIBLayerBuilder.h"
00002
00003 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00004
00005 #include "RecoTracker/TkDetLayers/interface/TIBRingBuilder.h"
00006
00007 using namespace edm;
00008 using namespace std;
00009
00010 TIBLayer* TIBLayerBuilder::build(const GeometricDet* aTIBLayer,
00011 const TrackerGeometry* theGeomDetGeometry)
00012 {
00013 vector<const GeometricDet*> theGeometricRods = aTIBLayer->components();
00014
00015 vector<vector<const GeometricDet*> > innerGeometricDetRings;
00016 vector<vector<const GeometricDet*> > outerGeometricDetRings;
00017
00018 constructRings(theGeometricRods,innerGeometricDetRings,outerGeometricDetRings);
00019
00020 TIBRingBuilder myRingBuilder;
00021
00022 vector<const TIBRing*> innerRings;
00023 vector<const TIBRing*> outerRings;
00024
00025 for(unsigned int i=0; i<innerGeometricDetRings.size(); i++){
00026 innerRings.push_back(myRingBuilder.build(innerGeometricDetRings[i],theGeomDetGeometry));
00027 outerRings.push_back(myRingBuilder.build(outerGeometricDetRings[i],theGeomDetGeometry));
00028 }
00029
00030 return new TIBLayer(innerRings,outerRings);
00031 }
00032
00033
00034
00035
00036 void
00037 TIBLayerBuilder::constructRings(vector<const GeometricDet*>& theGeometricRods,
00038 vector<vector<const GeometricDet*> >& innerGeometricDetRings,
00039 vector<vector<const GeometricDet*> >& outerGeometricDetRings)
00040 {
00041 double meanPerp=0;
00042 for(vector<const GeometricDet*>::const_iterator it=theGeometricRods.begin();
00043 it!= theGeometricRods.end();it++){
00044 meanPerp = meanPerp + (*it)->positionBounds().perp();
00045 }
00046 meanPerp = meanPerp/theGeometricRods.size();
00047
00048 vector<const GeometricDet*> theInnerGeometricRods;
00049 vector<const GeometricDet*> theOuterGeometricRods;
00050
00051 for(vector<const GeometricDet*>::const_iterator it=theGeometricRods.begin();
00052 it!= theGeometricRods.end();it++){
00053 if( (*it)->positionBounds().perp() < meanPerp) theInnerGeometricRods.push_back(*it);
00054 if( (*it)->positionBounds().perp() > meanPerp) theOuterGeometricRods.push_back(*it);
00055 }
00056
00057 size_t innerLeftRodMaxSize = 0;
00058 size_t innerRightRodMaxSize = 0;
00059 size_t outerLeftRodMaxSize = 0;
00060 size_t outerRightRodMaxSize = 0;
00061
00062 for(vector<const GeometricDet*>::const_iterator it=theInnerGeometricRods.begin();
00063 it!= theInnerGeometricRods.end();it++){
00064 if( (*it)->positionBounds().z() < 0)
00065 innerLeftRodMaxSize = max(innerLeftRodMaxSize, (**it).components().size());
00066 if( (*it)->positionBounds().z() > 0)
00067 innerRightRodMaxSize = max(innerRightRodMaxSize, (**it).components().size());
00068 }
00069
00070 for(vector<const GeometricDet*>::const_iterator it=theOuterGeometricRods.begin();
00071 it!= theOuterGeometricRods.end();it++){
00072 if( (*it)->positionBounds().z() < 0)
00073 outerLeftRodMaxSize = max(outerLeftRodMaxSize, (**it).components().size());
00074 if( (*it)->positionBounds().z() > 0)
00075 outerRightRodMaxSize = max(outerRightRodMaxSize, (**it).components().size());
00076 }
00077
00078 LogDebug("TkDetLayers") << "innerLeftRodMaxSize: " << innerLeftRodMaxSize ;
00079 LogDebug("TkDetLayers") << "innerRightRodMaxSize: " << innerRightRodMaxSize ;
00080
00081 LogDebug("TkDetLayers") << "outerLeftRodMaxSize: " << outerLeftRodMaxSize ;
00082 LogDebug("TkDetLayers") << "outerRightRodMaxSize: " << outerRightRodMaxSize ;
00083
00084 for(unsigned int i=0;i< (innerLeftRodMaxSize+innerRightRodMaxSize);i++){
00085 innerGeometricDetRings.push_back(vector<const GeometricDet*>());
00086 }
00087
00088 for(unsigned int i=0;i< (outerLeftRodMaxSize+outerRightRodMaxSize);i++){
00089 outerGeometricDetRings.push_back(vector<const GeometricDet*>());
00090 }
00091
00092 for(unsigned int ringN = 0; ringN < innerLeftRodMaxSize; ringN++){
00093 for(vector<const GeometricDet*>::const_iterator it=theInnerGeometricRods.begin();
00094 it!= theInnerGeometricRods.end();it++){
00095 if( (*it)->positionBounds().z() < 0){
00096 if( (**it).components().size()>ringN)
00097 innerGeometricDetRings[ringN].push_back( (**it).components()[ringN] );
00098 }
00099 }
00100 }
00101
00102 for(unsigned int ringN = 0; ringN < innerRightRodMaxSize; ringN++){
00103 for(vector<const GeometricDet*>::const_iterator it=theInnerGeometricRods.begin();
00104 it!= theInnerGeometricRods.end();it++){
00105 if( (*it)->positionBounds().z() > 0){
00106 if( (**it).components().size()>ringN)
00107 innerGeometricDetRings[innerLeftRodMaxSize+ringN].push_back( (**it).components()[ringN] );
00108 }
00109 }
00110 }
00111
00112
00113 for(unsigned int ringN = 0; ringN < outerLeftRodMaxSize; ringN++){
00114 for(vector<const GeometricDet*>::const_iterator it=theOuterGeometricRods.begin();
00115 it!= theOuterGeometricRods.end();it++){
00116 if( (*it)->positionBounds().z() < 0){
00117 if( (**it).components().size()>ringN)
00118 outerGeometricDetRings[ringN].push_back( (**it).components()[ringN] );
00119 }
00120 }
00121 }
00122
00123 for(unsigned int ringN = 0; ringN < outerRightRodMaxSize; ringN++){
00124 for(vector<const GeometricDet*>::const_iterator it=theOuterGeometricRods.begin();
00125 it!= theOuterGeometricRods.end();it++){
00126 if( (*it)->positionBounds().z() > 0){
00127 if( (**it).components().size()>ringN)
00128 outerGeometricDetRings[outerLeftRodMaxSize+ringN].push_back( (**it).components()[ringN] );
00129 }
00130 }
00131 }
00132
00133 }
00134
00135
00136