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/data/refman/pasoursint/CMSSW_6_1_2_SLHC2/src/Geometry/ForwardGeometry/src/ZdcTopology.cc

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00001 #include "Geometry/ForwardGeometry/interface/ZdcTopology.h"
00002 #include <cmath>
00003 #include <iostream>
00004 #include <algorithm>
00005 
00006 static const int ICH_EM_MAX = 5;
00007 static const int ICH_HAD_MAX = 4;
00008 static const int ICH_LUM_MAX = 2;
00009 
00010 ZdcTopology::ZdcTopology() :
00011   excludeEM_(false),
00012   excludeHAD_(false),
00013   excludeLUM_(false),
00014   excludeZP_(false),
00015   excludeZN_(false),
00016   firstEMModule_(1),
00017   lastEMModule_(5),
00018   firstHADModule_(1),
00019   lastHADModule_(4), 
00020   firstLUMModule_(1),
00021   lastLUMModule_(2)
00022 {
00023 }
00024 
00025 bool ZdcTopology::valid(const HcalZDCDetId& id) const {
00026   // check the raw rules
00027   bool ok=validRaw(id);
00028   ok=ok && !isExcluded(id);
00029   return ok;
00030 }
00031 
00032 bool ZdcTopology::isExcluded(const HcalZDCDetId& id) const {
00033   bool exed=false;
00034 
00035   //check the for side exclusions
00036   switch(id.zside()){
00037   case( 1): exed = excludeZP_; break;
00038   case(-1): exed = excludeZN_; break;
00039   default: exed = false;
00040   }
00041 
00042   // check for section exclutions
00043   switch (id.section()) {
00044   case(HcalZDCDetId::EM)  : exed = excludeEM_; break; 
00045   case(HcalZDCDetId::HAD) : exed = excludeHAD_; break; 
00046   case(HcalZDCDetId::LUM) : exed = excludeLUM_; break;
00047   default: exed = false;
00048   }
00049 
00050   // check the entire list
00051   if (!exed && !exclusionList_.empty()) {
00052     std::vector<HcalZDCDetId>::const_iterator 
00053       i=std::lower_bound(exclusionList_.begin(),exclusionList_.end(),id);
00054     if (i!=exclusionList_.end() && *i==id) exed=true;
00055   }
00056   return exed;
00057 }
00058 
00059 void ZdcTopology::exclude(const HcalZDCDetId& id) {
00060   std::vector<HcalZDCDetId>::iterator 
00061     i=std::lower_bound(exclusionList_.begin(),exclusionList_.end(),id);
00062   if (i==exclusionList_.end() || *i!=id) {
00063     exclusionList_.insert(i,id);
00064   }
00065 }
00066 
00067 void ZdcTopology::exclude(int zside) {
00068  switch(zside){
00069   case( 1): excludeZP_ = true; break;
00070   case(-1): excludeZN_ = true; break;
00071   default: break;
00072   }
00073 }
00074 
00075 void ZdcTopology::exclude(int zside, HcalZDCDetId::Section section) {
00076   switch(zside){
00077   case( 1): excludeZP_ = true; break;
00078   case(-1): excludeZN_ = true; break;
00079   default: break;
00080   }
00081   switch (section) {
00082   case(HcalZDCDetId::EM)  : excludeEM_ = true; break; 
00083   case(HcalZDCDetId::HAD) : excludeHAD_ = true; break; 
00084   case(HcalZDCDetId::LUM) : excludeLUM_ = true; break;
00085   default: break;
00086   }
00087 }
00088 
00089 int ZdcTopology::exclude(int zside, HcalZDCDetId::Section section, int ich1, int ich2) {
00090   bool exed = false;
00091   switch(zside){
00092   case( 1): exed = excludeZP_; break;
00093   case(-1): exed = excludeZN_; break;
00094   default: exed = false;
00095   }
00096   if (exed) return 0;
00097 
00098   switch (section) {
00099   case(HcalZDCDetId::EM)  : exed = excludeEM_; break; 
00100   case(HcalZDCDetId::HAD) : exed = excludeHAD_; break; 
00101   case(HcalZDCDetId::LUM) : exed = excludeLUM_; break;
00102   default: exed = false;
00103   }
00104   if (exed) return 0;
00105 
00106   bool isPositive = false;
00107   if(zside == 1)isPositive = true;
00108 
00109   int n = 0;
00110   for (int ich = ich1; ich < ich2; ich++){
00111     HcalZDCDetId id(section, isPositive, ich);  
00112     if(validRaw(id))exclude(id);
00113     n++;
00114   }
00115   return n;
00116 }
00117 
00118 bool ZdcTopology::validRaw(const HcalZDCDetId& id) const{
00119   bool ok = true;
00120   if(abs(id.zside())!=1)return false;
00121   if(id.channel() <= 0)return false;
00122   if(!(id.section()== HcalZDCDetId::EM || 
00123        id.section()== HcalZDCDetId::HAD ||
00124        id.section()== HcalZDCDetId::LUM)) return false;
00125   if(id.section()== HcalZDCDetId::EM && id.channel() > ICH_EM_MAX)
00126     return false;
00127   if(id.section()== HcalZDCDetId::HAD && id.channel() > ICH_HAD_MAX)
00128     return false;
00129   if(id.section()== HcalZDCDetId::LUM && id.channel() > ICH_LUM_MAX)
00130     return false;
00131   return ok;
00132 }
00133 
00134 std::vector<DetId> ZdcTopology::transverse(const DetId& id) const{
00135   std::vector<DetId> vNeighborsDetId;
00136   HcalZDCDetId zdcId = HcalZDCDetId(id);
00137   HcalZDCDetId zdcDetId;
00138   if(validRaw(zdcId) && zdcId.section()== HcalZDCDetId::EM){
00139     bool isPositive = false;
00140     if(zdcId.zside()==1)isPositive = true;
00141     if(zdcId.channel()==1){
00142       zdcDetId = HcalZDCDetId(zdcId.section(), isPositive, zdcId.channel()+1);
00143       vNeighborsDetId.push_back(zdcDetId.rawId());
00144       return vNeighborsDetId;
00145     }
00146     if(zdcId.channel()== ICH_EM_MAX){
00147       zdcDetId = HcalZDCDetId(zdcId.section(), isPositive, zdcId.channel()-1);
00148       vNeighborsDetId.push_back(zdcDetId.rawId());
00149       return vNeighborsDetId;
00150     }
00151     zdcDetId = HcalZDCDetId(zdcId.section(), isPositive, zdcId.channel()-1);
00152     vNeighborsDetId.push_back(zdcDetId.rawId());
00153     zdcDetId = HcalZDCDetId(zdcId.section(), isPositive, zdcId.channel()+1);
00154     vNeighborsDetId.push_back(zdcDetId.rawId());
00155   }
00156   return vNeighborsDetId;
00157 }
00158 
00159 std::vector<DetId> ZdcTopology::longitudinal(const DetId& id) const{
00160   std::vector<DetId> vNeighborsDetId;
00161   HcalZDCDetId zdcId = HcalZDCDetId(id);
00162   HcalZDCDetId zdcDetId;
00163   if(validRaw(zdcId) && zdcId.section()== HcalZDCDetId::HAD){
00164     bool isPositive = false;
00165     if(zdcId.zside()==1)isPositive = true;
00166     if(zdcId.channel()==1){
00167       zdcDetId = HcalZDCDetId(zdcId.section(), isPositive, zdcId.channel()+1);
00168       vNeighborsDetId.push_back(zdcDetId.rawId());
00169       return vNeighborsDetId;
00170     }
00171     if(zdcId.channel()== ICH_HAD_MAX){
00172       zdcDetId = HcalZDCDetId(zdcId.section(), isPositive, zdcId.channel()-1);
00173       vNeighborsDetId.push_back(zdcDetId.rawId());
00174       return vNeighborsDetId;
00175     }
00176     zdcDetId = HcalZDCDetId(zdcId.section(), isPositive, zdcId.channel()-1);
00177     vNeighborsDetId.push_back(zdcDetId.rawId());
00178     zdcDetId = HcalZDCDetId(zdcId.section(), isPositive, zdcId.channel()+1);
00179     vNeighborsDetId.push_back(zdcDetId.rawId());
00180   }
00181   if(validRaw(zdcId) && zdcId.section()== HcalZDCDetId::LUM){
00182     bool isPositive = false;
00183     if(zdcId.zside()==1)isPositive = true;
00184     if(zdcId.channel()==1){
00185       zdcDetId = HcalZDCDetId(zdcId.section(), isPositive, zdcId.channel()+1);
00186       vNeighborsDetId.push_back(zdcDetId.rawId());
00187       return vNeighborsDetId;
00188     }
00189     if(zdcId.channel()== ICH_LUM_MAX){
00190       zdcDetId = HcalZDCDetId(zdcId.section(), isPositive, zdcId.channel()-1);
00191       vNeighborsDetId.push_back(zdcDetId.rawId());
00192       return vNeighborsDetId;
00193     }
00194   }
00195   return vNeighborsDetId;
00196 }
00197 
00198 std::vector<DetId> ZdcTopology::east(const DetId& /*id*/) const
00199 {
00200   std::cout << "ZdcTopology::east() not yet implemented" << std::endl;
00201   std::vector<DetId> vNeighborsDetId;
00202   return  vNeighborsDetId;
00203 }
00204 
00205 std::vector<DetId> ZdcTopology::west(const DetId& /*id*/) const
00206 {
00207   std::cout << "ZdcTopology::west() not yet implemented" << std::endl;
00208   std::vector<DetId> vNeighborsDetId;
00209   return  vNeighborsDetId;
00210 }
00211 
00212 std::vector<DetId> ZdcTopology::north(const DetId& /*id*/) const
00213 {
00214   std::cout << "ZdcTopology::north() not yet implemented" << std::endl;
00215   std::vector<DetId> vNeighborsDetId;
00216   return  vNeighborsDetId;
00217 }
00218 std::vector<DetId> ZdcTopology::south(const DetId& /*id*/) const
00219 {
00220   std::cout << "ZdcTopology::south() not yet implemented" << std::endl;
00221   std::vector<DetId> vNeighborsDetId;
00222   return  vNeighborsDetId;
00223 }
00224 std::vector<DetId> ZdcTopology::up(const DetId& /*id*/) const
00225 {
00226   std::cout << "ZdcTopology::up() not yet implemented" << std::endl;
00227   std::vector<DetId> vNeighborsDetId;
00228   return  vNeighborsDetId;
00229 }
00230 std::vector<DetId> ZdcTopology::down(const DetId& /*id*/) const
00231 {
00232   std::cout << "ZdcTopology::down() not yet implemented" << std::endl;
00233   std::vector<DetId> vNeighborsDetId;
00234   return  vNeighborsDetId;
00235 }
00236 
00237 int ZdcTopology::ncells(HcalZDCDetId::Section section) const{
00238   int ncells = 0;
00239   switch (section) {
00240   case(HcalZDCDetId::EM)  : ncells = ICH_EM_MAX; break;
00241   case(HcalZDCDetId::HAD) : ncells = ICH_HAD_MAX; break; 
00242   case(HcalZDCDetId::LUM) : ncells = ICH_LUM_MAX; break;
00243   case(HcalZDCDetId::Unknown) : ncells =0; break;
00244   }
00245   return ncells;
00246 }
00247 
00248 int ZdcTopology::firstCell(HcalZDCDetId::Section section)const {
00249   int firstCell = 0;
00250   switch (section) {
00251   case(HcalZDCDetId::EM) : firstCell = firstEMModule_ ; break;
00252   case(HcalZDCDetId::HAD) : firstCell = firstHADModule_; break; 
00253   case(HcalZDCDetId::LUM) : firstCell = firstLUMModule_; break;
00254   case(HcalZDCDetId::Unknown) : firstCell  = 0; break;
00255   }
00256   return firstCell;
00257 }
00258 
00259 int ZdcTopology::lastCell(HcalZDCDetId::Section section) const {
00260   int lastCell = 0;
00261   switch (section) {
00262   case(HcalZDCDetId::EM) : lastCell = lastEMModule_; break;
00263   case(HcalZDCDetId::HAD) : lastCell = lastHADModule_; break; 
00264   case(HcalZDCDetId::LUM) : lastCell = lastLUMModule_; break;
00265   case(HcalZDCDetId::Unknown) : lastCell  = 0; break;
00266   }
00267   return lastCell;
00268 }
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