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/data/refman/pasoursint/CMSSW_5_3_0/src/SimMuon/RPCDigitizer/src/RPCSimAverage.cc

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00001 #include "Geometry/RPCGeometry/interface/RPCRoll.h"
00002 #include "Geometry/RPCGeometry/interface/RPCRollSpecs.h"
00003 #include "SimMuon/RPCDigitizer/src/RPCSimAverage.h"
00004 
00005 #include "SimMuon/RPCDigitizer/src/RPCSynchronizer.h"
00006 #include "Geometry/CommonTopologies/interface/RectangularStripTopology.h"
00007 #include "Geometry/CommonTopologies/interface/TrapezoidalStripTopology.h"
00008 
00009 #include <cmath>
00010 #include "FWCore/ServiceRegistry/interface/Service.h"
00011 #include "FWCore/Utilities/interface/RandomNumberGenerator.h"
00012 #include "FWCore/Utilities/interface/Exception.h"
00013 #include "CLHEP/Random/RandomEngine.h"
00014 #include "CLHEP/Random/RandFlat.h"
00015 #include <CLHEP/Random/RandGaussQ.h>
00016 #include <CLHEP/Random/RandFlat.h>
00017 
00018 #include <FWCore/Framework/interface/Frameworkfwd.h>
00019 #include <FWCore/Framework/interface/EventSetup.h>
00020 #include <FWCore/Framework/interface/EDAnalyzer.h>
00021 #include <FWCore/Framework/interface/Event.h>
00022 #include "FWCore/ParameterSet/interface/ParameterSet.h"
00023 #include <FWCore/Framework/interface/ESHandle.h>
00024 
00025 #include "SimDataFormats/TrackingHit/interface/PSimHitContainer.h"
00026 #include "SimDataFormats/TrackingHit/interface/PSimHit.h"
00027 #include "Geometry/RPCGeometry/interface/RPCGeometry.h"
00028 #include <Geometry/Records/interface/MuonGeometryRecord.h>
00029 #include "DataFormats/MuonDetId/interface/RPCDetId.h"
00030 #include "SimMuon/RPCDigitizer/src/RPCSimSetUp.h"
00031 
00032 #include<cstring>
00033 #include<iostream>
00034 #include<fstream>
00035 #include<string>
00036 #include<vector>
00037 #include<stdlib.h>
00038 #include <utility>
00039 #include <map>
00040 
00041 //#include "CLHEP/config/CLHEP.h"
00042 #include "CLHEP/Random/Random.h"
00043 #include "CLHEP/Random/RandFlat.h"
00044 #include "CLHEP/Random/RandPoissonQ.h"
00045 
00046 using namespace std;
00047 
00048 RPCSimAverage::RPCSimAverage(const edm::ParameterSet& config) : 
00049   RPCSim(config)
00050 {
00051 
00052   aveEff = config.getParameter<double>("averageEfficiency");
00053   aveCls = config.getParameter<double>("averageClusterSize");
00054   resRPC = config.getParameter<double>("timeResolution");
00055   timOff = config.getParameter<double>("timingRPCOffset");
00056   dtimCs = config.getParameter<double>("deltatimeAdjacentStrip");
00057   resEle = config.getParameter<double>("timeJitter");
00058   sspeed = config.getParameter<double>("signalPropagationSpeed");
00059   lbGate = config.getParameter<double>("linkGateWidth");
00060   rpcdigiprint = config.getParameter<bool>("printOutDigitizer");
00061   rate=config.getParameter<double>("Rate");
00062   nbxing=config.getParameter<int>("Nbxing");
00063   gate=config.getParameter<double>("Gate");
00064 
00065   if (rpcdigiprint) {
00066     std::cout <<"Average Efficiency        = "<<aveEff<<std::endl;
00067     std::cout <<"Average Cluster Size      = "<<aveCls<<" strips"<<std::endl;
00068     std::cout <<"RPC Time Resolution       = "<<resRPC<<" ns"<<std::endl;
00069     std::cout <<"RPC Signal formation time = "<<timOff<<" ns"<<std::endl;
00070     std::cout <<"RPC adjacent strip delay  = "<<dtimCs<<" ns"<<std::endl;
00071     std::cout <<"Electronic Jitter         = "<<resEle<<" ns"<<std::endl;
00072     std::cout <<"Signal propagation time   = "<<sspeed<<" x c"<<std::endl;
00073     std::cout <<"Link Board Gate Width     = "<<lbGate<<" ns"<<std::endl;
00074   }
00075 
00076   _rpcSync = new RPCSynchronizer(config);
00077 }
00078 
00079 void RPCSimAverage::setRandomEngine(CLHEP::HepRandomEngine& eng){
00080   flatDistribution_ = new CLHEP::RandFlat(eng);
00081   flatDistribution1 = new CLHEP::RandFlat(eng);
00082   flatDistribution2 = new CLHEP::RandFlat(eng);
00083   poissonDistribution = new CLHEP::RandPoissonQ(eng);
00084   _rpcSync->setRandomEngine(eng);
00085 }
00086 
00087 RPCSimAverage::~RPCSimAverage(){
00088   delete flatDistribution_;
00089   delete flatDistribution1;
00090   delete flatDistribution2;
00091   delete poissonDistribution;
00092   delete  _rpcSync;
00093 }
00094 
00095 int RPCSimAverage::getClSize(float posX)
00096 {
00097 
00098   std::map< int, std::vector<double> > clsMap = getRPCSimSetUp()->getClsMap();
00099 
00100   int cnt = 1;
00101   int min = 1;
00102   double func=0.0;
00103   std::vector<double> sum_clsize;
00104 
00105   double rr_cl = flatDistribution_->fire(1);
00106   if(0.0 <= posX && posX < 0.2)  {
00107     func = (clsMap[1])[(clsMap[1]).size()-1]*(rr_cl);
00108     sum_clsize = clsMap[1];
00109   }
00110   if(0.2 <= posX && posX < 0.4) {
00111     func = (clsMap[2])[(clsMap[2]).size()-1]*(rr_cl);
00112     sum_clsize = clsMap[2];
00113   }
00114   if(0.4 <= posX && posX < 0.6) {
00115     func = (clsMap[3])[(clsMap[3]).size()-1]*(rr_cl);
00116     sum_clsize = clsMap[3];
00117   }
00118   if(0.6 <= posX && posX < 0.8) {
00119     func = (clsMap[4])[(clsMap[4]).size()-1]*(rr_cl);
00120     sum_clsize = clsMap[4];
00121   }
00122   if(0.8 <= posX && posX < 1.0)  {
00123     func = (clsMap[5])[(clsMap[5]).size()-1]*(rr_cl);
00124     sum_clsize = clsMap[5];
00125   }
00126 
00127   for(vector<double>::iterator iter = sum_clsize.begin();
00128       iter != sum_clsize.end(); ++iter){
00129     cnt++;
00130     if(func > (*iter)){
00131       min = cnt;
00132     }
00133     else if(func < (*iter)){
00134       break;
00135     }
00136   }
00137   return min;
00138 }
00139 
00140 
00141 void
00142 RPCSimAverage::simulate(const RPCRoll* roll,
00143                         const edm::PSimHitContainer& rpcHits)
00144 {
00145   _rpcSync->setRPCSimSetUp(getRPCSimSetUp());
00146   theRpcDigiSimLinks.clear();
00147   theDetectorHitMap.clear();
00148   theRpcDigiSimLinks = RPCDigiSimLinks(roll->id().rawId());
00149 
00150   const Topology& topology=roll->specs()->topology();
00151 
00152   for (edm::PSimHitContainer::const_iterator _hit = rpcHits.begin();
00153        _hit != rpcHits.end(); ++_hit){
00154 
00155     // Here I hould check if the RPC are up side down;
00156     const LocalPoint& entr=_hit->entryPoint();
00157 
00158     //    const LocalPoint& exit=_hit->exitPoint();
00159 
00160     float posX = roll->strip(_hit->localPosition()) - static_cast<int>(roll->strip(_hit->localPosition()));
00161     int time_hit = _rpcSync->getSimHitBx(&(*_hit));
00162 
00163     // Effinciecy
00164 
00165     if (flatDistribution_->fire(1) < aveEff) {
00166 
00167       int centralStrip = topology.channel(entr)+1;  
00168       int fstrip=centralStrip;
00169       int lstrip=centralStrip;
00170       // Compute the cluster size
00171       double w = flatDistribution_->fire(1);
00172       if (w < 1.e-10) w=1.e-10;
00173       int clsize = this->getClSize(posX);
00174 
00175       std::vector<int> cls;
00176       cls.push_back(centralStrip);
00177       if (clsize > 1){
00178         for (int cl = 0; cl < (clsize-1)/2; cl++)
00179           if (centralStrip - cl -1 >= 1  ){
00180             fstrip = centralStrip-cl-1;
00181             cls.push_back(fstrip);
00182           }
00183         for (int cl = 0; cl < (clsize-1)/2; cl++)
00184           if (centralStrip + cl + 1 <= roll->nstrips() ){
00185             lstrip = centralStrip+cl+1;
00186             cls.push_back(lstrip);
00187           }
00188         if (clsize%2 == 0 ){
00189           // insert the last strip according to the 
00190           // simhit position in the central strip 
00191           double deltaw=roll->centreOfStrip(centralStrip).x()-entr.x();
00192           if (deltaw<0.) {
00193             if (lstrip < roll->nstrips() ){
00194               lstrip++;
00195               cls.push_back(lstrip);
00196             }
00197           }else{
00198             if (fstrip > 1 ){
00199               fstrip--;
00200               cls.push_back(fstrip);
00201             }
00202           }
00203         }
00204       }
00205 
00206       for (std::vector<int>::iterator i=cls.begin(); i!=cls.end();i++){
00207         // Check the timing of the adjacent strip
00208         std::pair<int, int> digi(*i,time_hit);
00209         theDetectorHitMap.insert(DetectorHitMap::value_type(digi,&(*_hit)));
00210         strips.insert(digi);
00211       }
00212     }
00213   }
00214 }
00215 
00216 void RPCSimAverage::simulateNoise(const RPCRoll* roll)
00217 {
00218 
00219   RPCDetId rpcId = roll->id();
00220   int nstrips = roll->nstrips();
00221   double area = 0.0;
00222   
00223   if ( rpcId.region() == 0 )
00224     {
00225       const RectangularStripTopology* top_ = dynamic_cast<const
00226         RectangularStripTopology*>(&(roll->topology()));
00227       float xmin = (top_->localPosition(0.)).x();
00228       float xmax = (top_->localPosition((float)roll->nstrips())).x();
00229       float striplength = (top_->stripLength());
00230       area = striplength*(xmax-xmin);
00231     }
00232   else
00233     {
00234       const TrapezoidalStripTopology* top_=dynamic_cast<const TrapezoidalStripTopology*>(&(roll->topology()));
00235       float xmin = (top_->localPosition(0.)).x();
00236       float xmax = (top_->localPosition((float)roll->nstrips())).x();
00237       float striplength = (top_->stripLength());
00238       area = striplength*(xmax-xmin);
00239     }
00240 
00241   double ave = rate*nbxing*gate*area*1.0e-9;
00242 
00243   N_hits = poissonDistribution->fire(ave);
00244 
00245   for (int i = 0; i < N_hits; i++ ){
00246     int strip = static_cast<int>(flatDistribution1->fire(1,nstrips));
00247     int time_hit;
00248     time_hit = (static_cast<int>(flatDistribution2->fire((nbxing*gate)/gate))) - nbxing/2;
00249     std::pair<int, int> digi(strip,time_hit);
00250     strips.insert(digi);
00251   }
00252 
00253 }