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00005 #include "FastShowerUtils/Samplers/S0HadEarlyEcalEc1.h"
00006
00007 #include "FastShowerUtils/PolyArgs.h"
00008 #include "FastShowerUtils/IFn.h"
00009 #include "FastShowerUtils/CoreSamples.h"
00010 #include "FastShowerUtils/IProcessedDist.h"
00011 #include "FastShowerUtils/LinearProcessor.h"
00012 #include "FastShowerUtils/ProcessedNormal.h"
00013 #include "FastShowerUtils/IInTail.h"
00014 #include "FastShowerUtils/IConfigurer.h"
00015 #include <cmath>
00016 #include <iostream>
00017
00018 namespace FastShower{
00019
00020 using std::pair;
00021
00022 const double S0HadEarlyEcalEc1::s_nSigma1(3.0);
00023 const double S0HadEarlyEcalEc1::s_nSigma2(5.0);
00024
00026 S0HadEarlyEcalEc1::S0HadEarlyEcalEc1(IUpdatingGaussian* g,
00027 IProcessedDist* tail,
00028 IInTail* it):
00029 ISampler(), ISlice0(), DebugBase("S0HadEarlyEcalEc1"),
00030 m_peak(g), m_tail(tail), m_inTail(it){}
00032 S0HadEarlyEcalEc1::S0HadEarlyEcalEc1(const IConfigurer* configurer,
00033 const std::string& s):
00034 DebugBase(s), m_peak(0), m_tail(0), m_inTail(0){
00035 m_peak = configurer->findIUG( text()+"Peak" ) ;
00036 m_tail = configurer->makeProcessedFlat( text() );
00037 m_inTail = configurer->makeIInTail( text() );
00038 cout<<text()<<" finishing construction"<<endl;
00039 }
00041 ISampler* S0HadEarlyEcalEc1::clone() const {return new S0HadEarlyEcalEc1(*this);}
00043 void S0HadEarlyEcalEc1::sample(const PolyArgs& pa, CoreSamples& cs)const{
00044
00045 if( m_inTail->operator()(pa) ){
00046 cs.fill(this, evalTail(pa) );
00047 }else{
00048 cs.fill(this, evalPeak(pa) );
00049 }
00050 }
00052 double S0HadEarlyEcalEc1::evalTail(const PolyArgs& pa) const {
00053
00054 pair<double, double> peakParams = m_peak->parameters(pa);
00055 double peakMean = peakParams.first;
00056 double peakSigma = peakParams.second;
00057
00058 double energy = pa.pp()->energy();
00059
00060
00061 double uLimit = peakMean - s_nSigma1*peakSigma;
00062 uLimit = max(uLimit, 0.0);
00063 uLimit = min(uLimit, 1.0);
00064
00065 double lLimit = (energy<30.0)? 0.0 : peakMean - s_nSigma2*peakSigma;
00066 lLimit = max(lLimit, 0.0);
00067 if (lLimit>uLimit) lLimit=0.0;
00068
00069
00070 if (!(uLimit>0.0)) uLimit = 1.0;
00071 LinearProcessor lp((uLimit-lLimit), lLimit);
00072 return m_tail->sample(&lp);
00073 }
00075 double S0HadEarlyEcalEc1::evalPeak(const PolyArgs& pa)const{
00076 return m_peak->sample(0.0, 100, 1.0, 100, pa);
00077 }
00079 double S0HadEarlyEcalEc1::lastValue(const CoreSamples& cs) const {
00080 return cs.give(this);
00081 }
00083 void S0HadEarlyEcalEc1::components(IDebug::Cpts& v) const{
00084 v.push_back(m_peak);
00085 v.push_back(m_tail);
00086 v.push_back(m_inTail);
00087 }
00088
00089 }
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