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/data/refman/pasoursint/CMSSW_5_3_3/src/L1TriggerConfig/DTTPGConfig/src/DTConfigManager.cc

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00001 //----------------------------------------------------------------------
00002 //
00003 //   Class: DTConfigManager
00004 //
00005 //   Description: DT Configuration manager includes config classes for every single chip
00006 //
00007 //
00008 //   Author List:
00009 //   C.Battilana
00010 //
00011 //   april 07 : SV DTConfigTrigUnit added
00012 //   april 07 : CB Removed DTGeometry dependecies
00013 //-----------------------------------------------------------------------
00014 
00015 //-----------------------
00016 // This Class's Header --
00017 //-----------------------
00018 #include "L1TriggerConfig/DTTPGConfig/interface/DTConfigManager.h"
00019 
00020 //---------------
00021 // C++ Headers --
00022 //---------------
00023 #include <iostream>
00024 #include <iomanip>
00025 #include <fstream>
00026 #include <sstream>
00027 
00028 
00029 //-------------------------------
00030 // Collaborating Class Headers --
00031 //-------------------------------
00032 #include "DataFormats/MuonDetId/interface/DTSuperLayerId.h"
00033 
00034 using namespace std;
00035 
00036 //----------------
00037 // Constructors --
00038 //----------------
00039 
00040 DTConfigManager::DTConfigManager(){
00041 
00042 }
00043         
00044 //--------------
00045 // Destructor --
00046 //--------------
00047 
00048 DTConfigManager::~DTConfigManager(){
00049 
00050   my_sectcollmap.clear();
00051   my_trigunitmap.clear();
00052   my_tsphimap.clear();
00053   my_tsthetamap.clear();
00054   my_tracomap.clear();
00055   my_btimap.clear();
00056 
00057 }
00058 
00059 //--------------
00060 // Operations --
00061 //--------------
00062 
00063 DTConfigBti* DTConfigManager::getDTConfigBti(DTBtiId btiid) const {
00064   
00065   DTChamberId chambid = btiid.SLId().chamberId();
00066   BtiMap::const_iterator biter1 = my_btimap.find(chambid);
00067   if (biter1 == my_btimap.end()){
00068     std::cout << "DTConfigManager::getConfigBti : Chamber (" << chambid.wheel()
00069               << "," << chambid.sector()
00070               << "," << chambid.station() 
00071               << ") not found, return 0" << std::endl;
00072     return 0;
00073   }
00074   
00075   innerBtiMap::const_iterator biter2 = (*biter1).second.find(btiid);
00076   if (biter2 == (*biter1).second.end()){
00077     std::cout << "DTConfigManager::getConfigBti : BTI (" << btiid.wheel()
00078               << "," << btiid.sector()
00079               << "," << btiid.station()
00080               << "," << btiid.superlayer()
00081               << "," << btiid.bti()
00082               << ") not found, return 0" << std::endl;
00083     return 0;
00084   }
00085   return const_cast<DTConfigBti*>(&(*biter2).second);
00086 
00087 }  
00088 
00089 const std::map<DTBtiId,DTConfigBti>& DTConfigManager::getDTConfigBtiMap(DTChamberId chambid) const {
00090   
00091   BtiMap::const_iterator biter = my_btimap.find(chambid);
00092   if (biter == my_btimap.end()){
00093     std::cout << "DTConfigManager::getConfigBtiMap : Chamber (" << chambid.wheel()
00094               << "," << chambid.sector()
00095               << "," << chambid.station() 
00096               << ") not found, return a reference to the end of the map" << std::endl;
00097   }
00098   
00099   return (*biter).second;
00100 
00101 }
00102 
00103 DTConfigTraco* DTConfigManager::getDTConfigTraco(DTTracoId tracoid) const {
00104   
00105   DTChamberId chambid = tracoid.ChamberId();
00106   TracoMap::const_iterator titer1 = my_tracomap.find(chambid);
00107   if (titer1 == my_tracomap.end()){
00108     std::cout << "DTConfigManager::getConfigTraco : Chamber (" << chambid.wheel()
00109               << "," << chambid.sector()
00110               << "," << chambid.station() 
00111               << ") not found, return 0" << std::endl;
00112     return 0;
00113   }
00114   
00115   innerTracoMap::const_iterator titer2 = (*titer1).second.find(tracoid);
00116   if (titer2 == (*titer1).second.end()){
00117     std::cout << "DTConfigManager::getConfigTraco : TRACO (" << tracoid.wheel()
00118               << "," << tracoid.sector()
00119               << "," << tracoid.station()
00120               << "," << tracoid.traco()
00121               << ") not found, return a reference to the end of the map" << std::endl;
00122     return 0;
00123   }
00124   return const_cast<DTConfigTraco*>(&(*titer2).second);
00125 
00126 }
00127 
00128 const std::map<DTTracoId,DTConfigTraco>& DTConfigManager::getDTConfigTracoMap(DTChamberId chambid) const {
00129   
00130   TracoMap::const_iterator titer = my_tracomap.find(chambid);
00131   if (titer == my_tracomap.end()){
00132     std::cout << "DTConfigManager::getConfigTracoMap : Chamber (" << chambid.wheel()
00133               << "," << chambid.sector()
00134               << "," << chambid.station() 
00135               << ") not found, return 0" << std::endl;
00136   }
00137 
00138   return (*titer).second;
00139 
00140 }
00141 
00142 DTConfigTSTheta* DTConfigManager::getDTConfigTSTheta(DTChamberId chambid) const {
00143  
00144   TSThetaMap::const_iterator thiter = my_tsthetamap.find(chambid);
00145   if (thiter == my_tsthetamap.end()){
00146     std::cout << "DTConfigManager::getConfigTSTheta : Chamber (" << chambid.wheel()
00147               << "," << chambid.sector()
00148               << "," << chambid.station() 
00149               << ") not found, return 0" << std::endl;
00150     return 0;
00151   }
00152   
00153   return const_cast<DTConfigTSTheta*>(&(*thiter).second);
00154 
00155 }
00156 
00157 DTConfigTSPhi* DTConfigManager::getDTConfigTSPhi(DTChamberId chambid) const {
00158   
00159   TSPhiMap::const_iterator phiter = my_tsphimap.find(chambid);
00160   if (phiter == my_tsphimap.end()){
00161     std::cout << "DTConfigManager::getConfigTSPhi : Chamber (" << chambid.wheel()
00162               << "," << chambid.sector()
00163               << "," << chambid.station() 
00164               << ") not found, return 0" << std::endl;
00165     return 0;
00166   }
00167 
00168   return const_cast<DTConfigTSPhi*>(&(*phiter).second);
00169 
00170 }
00171   
00172 DTConfigTrigUnit* DTConfigManager::getDTConfigTrigUnit(DTChamberId chambid) const {
00173   
00174    TrigUnitMap::const_iterator tuiter = my_trigunitmap.find(chambid);
00175    if (tuiter == my_trigunitmap.end()){
00176      std::cout << "DTConfigManager::getConfigTrigUnit : Chamber (" << chambid.wheel()
00177               << "," << chambid.sector()
00178               << "," << chambid.station() 
00179               << ") not found, return 0" << std::endl;
00180      return 0;
00181    }
00182 
00183    return const_cast<DTConfigTrigUnit*>(&(*tuiter).second);
00184 
00185 }
00186 
00187 DTConfigLUTs* DTConfigManager::getDTConfigLUTs(DTChamberId chambid) const {
00188   
00189    LUTMap::const_iterator lutiter = my_lutmap.find(chambid);
00190    if (lutiter == my_lutmap.end()){
00191      std::cout << "DTConfigManager::getConfigLUTs : Chamber (" << chambid.wheel()
00192               << "," << chambid.sector()
00193               << "," << chambid.station() 
00194               << ") not found, return 0" << std::endl;
00195      return 0;
00196    }
00197 
00198    return const_cast<DTConfigLUTs*>(&(*lutiter).second);
00199 
00200 }
00201 
00202 DTConfigSectColl* DTConfigManager::getDTConfigSectColl(DTSectCollId scid) const {
00203   
00204   SectCollMap::const_iterator sciter = my_sectcollmap.find(scid);
00205   if (sciter == my_sectcollmap.end()){
00206     std::cout << "DTConfigManager::getConfigSectColl : SectorCollector (" << scid.wheel()
00207               << "," << scid.sector() 
00208               << ") not found, return 0" << std::endl;
00209     return 0;
00210   }
00211 
00212   return const_cast<DTConfigSectColl*>(&(*sciter).second);
00213 
00214 }
00215 
00216 DTConfigPedestals* DTConfigManager::getDTConfigPedestals() const{
00217   
00218   return  const_cast<DTConfigPedestals*>(&my_pedestals);
00219 
00220 }
00221  
00222 int DTConfigManager::getBXOffset() const {
00223 
00224   int ST = static_cast<int>(getDTConfigBti(DTBtiId(1,1,1,1,1))->ST());
00225   return (ST/2 + ST%2);
00226 
00227 }
00228 
00229 void DTConfigManager::setDTConfigBti(DTBtiId btiid,DTConfigBti conf){
00230 
00231   DTChamberId chambid = btiid.SLId().chamberId();
00232   my_btimap[chambid][btiid] = conf;
00233 
00234 }  
00235 
00236 void DTConfigManager::setDTConfigTraco(DTTracoId tracoid,DTConfigTraco conf){
00237 
00238   DTChamberId chambid = tracoid.ChamberId();
00239   my_tracomap[chambid][tracoid] = conf;
00240 
00241 }  
00242 
00243 void DTConfigManager::dumpLUTParam(DTChamberId &chambid) const {
00244 
00245   // open txt file
00246   string name = "Lut_from_param";
00247   name += ".txt";
00248 
00249   ofstream fout;
00250   fout.open(name.c_str(),ofstream::app);
00251 
00252   // get wheel, station, sector from chamber 
00253   int wh = chambid.wheel();
00254   int st = chambid.station();
00255   int se = chambid.sector();
00256 
00257   //cout << "Dumping lut command for wh " << wh << " st " << st << " se " << se << endl;
00258 
00259   fout << wh;
00260   fout << "\t" << st;
00261   fout << "\t" << se;
00262 
00263   // get parameters from configuration
00264   // get DTConfigLUTs for this chamber
00265   DTConfigLUTs* _confLUTs = getDTConfigLUTs(chambid);
00266   short int btic = getDTConfigTraco(DTTracoId(wh,st,se,1))->BTIC(); 
00267   float d = _confLUTs->D();
00268   float xcn = _confLUTs->Xcn();
00269   //fout << "\td\t" << d << "\txcn\t" << xcn << "\t"; 
00270   //fout << "btic\t" << btic << "\t";
00271 
00272   // *** dump TRACO LUT command
00273   fout << "\tA8";
00274   short int Low_byte = (btic & 0x00FF);   // output in hex bytes format with zero padding
00275   short int High_byte =( btic>>8 & 0x00FF);
00276   fout << setw(2) << setfill('0') << hex << High_byte << setw(2) << setfill('0') << Low_byte;
00277 
00278   // convert parameters from IEE32 float to DSP float format
00279   short int DSPmantissa = 0;
00280   short int DSPexp = 0;
00281 
00282   // d parameter conversion and dump
00283   _confLUTs->IEEE32toDSP(d, DSPmantissa, DSPexp);
00284   Low_byte = (DSPmantissa & 0x00FF);   // output in hex bytes format with zero padding
00285   High_byte =( DSPmantissa>>8 & 0x00FF);
00286   fout << setw(2) << setfill('0') << hex << High_byte << setw(2) << setfill('0') << Low_byte;
00287   Low_byte = (DSPexp & 0x00FF);
00288   High_byte =( DSPexp>>8 & 0x00FF);
00289   fout << setw(2) << setfill('0') << High_byte << setw(2) << setfill('0') << Low_byte;
00290 
00291   // xnc parameter conversion and dump
00292   DSPmantissa = 0;
00293   DSPexp = 0;
00294   _confLUTs->IEEE32toDSP(xcn, DSPmantissa, DSPexp);
00295   Low_byte = (DSPmantissa & 0x00FF);   // output in hex bytes format with zero padding
00296   High_byte =( DSPmantissa>>8 & 0x00FF);
00297   fout << setw(2) << setfill('0') << hex << High_byte << setw(2) << setfill('0') << Low_byte;
00298   Low_byte = (DSPexp & 0x00FF);
00299   High_byte =( DSPexp>>8 & 0x00FF);
00300   fout << setw(2) << setfill('0') << High_byte << setw(2) << setfill('0') << Low_byte;
00301 
00302   // sign bits
00303   short int xcn_sign = _confLUTs->Wheel();
00304   Low_byte = (xcn_sign & 0x00FF);   // output in hex bytes format with zero padding
00305   High_byte =( xcn_sign>>8 & 0x00FF);
00306   fout << setw(2) << setfill('0') << hex << High_byte << setw(2) << setfill('0') << Low_byte << dec << "\n";
00307 
00308   fout.close();
00309 
00310   return;
00311 
00312 }