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/data/refman/pasoursint/CMSSW_5_2_9/src/DQM/SiStripCommissioningAnalysis/src/SamplingAlgorithm.cc

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00001 #include "DQM/SiStripCommissioningAnalysis/interface/SamplingAlgorithm.h"
00002 #include "CondFormats/SiStripObjects/interface/SamplingAnalysis.h"
00003 #include "DataFormats/SiStripCommon/interface/SiStripHistoTitle.h"
00004 #include "DataFormats/SiStripCommon/interface/SiStripEnumsAndStrings.h"
00005 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00006 #include "DQM/SiStripCommissioningAnalysis/interface/SiStripPulseShape.h"
00007 #include "TProfile.h"
00008 #include "TF1.h"
00009 #include <iostream>
00010 #include <sstream>
00011 #include <iomanip>
00012 #include <cmath>
00013 
00014 using namespace sistrip;
00015 
00016 // ----------------------------------------------------------------------------
00017 // 
00018 SamplingAlgorithm::SamplingAlgorithm( const edm::ParameterSet & pset, SamplingAnalysis* const anal, uint32_t latencyCode ) 
00019   : CommissioningAlgorithm(anal),
00020     histo_(0,""),
00021     deconv_fitter_(0),
00022     peak_fitterA_(0),
00023     peak_fitterB_(0),
00024     latencyCode_(latencyCode),
00025     samp_(0)
00026 {
00027    peak_fitterA_ = new TF1("peak_fitterA",fpeak_convoluted,-4800,0,5);
00028    peak_fitterA_->SetNpx(2000);
00029    peak_fitterA_->FixParameter(0,0);
00030    peak_fitterA_->SetParLimits(1,0,4800);
00031    peak_fitterA_->SetParLimits(2,0,20);
00032    peak_fitterA_->FixParameter(3,50);
00033    peak_fitterA_->SetParLimits(4,0,75);
00034    peak_fitterA_->SetParameters(0.,1250,10,50,10);
00035 
00036    peak_fitterB_ = new TF1("peak_fitterB",fpeak_convoluted,-100,100,5);
00037    peak_fitterB_->SetNpx(200);
00038    peak_fitterB_->FixParameter(0,0);
00039    peak_fitterB_->SetParLimits(1,-100,100);
00040    peak_fitterB_->SetParLimits(2,0,20);
00041    peak_fitterB_->FixParameter(3,50);
00042    peak_fitterB_->SetParLimits(4,0,75);
00043    peak_fitterB_->SetParameters(0.,-50,10,50,10);
00044 
00045    deconv_fitter_ = new TF1("deconv_fitter",fdeconv_convoluted,-50,50,5);
00046    deconv_fitter_->SetNpx(1000);
00047    deconv_fitter_->FixParameter(0,0);
00048    deconv_fitter_->SetParLimits(1,-50,50);
00049    deconv_fitter_->SetParLimits(2,0,200);
00050    deconv_fitter_->SetParLimits(3,5,100);
00051    deconv_fitter_->FixParameter(3,50);
00052    deconv_fitter_->SetParLimits(4,0,75);
00053    deconv_fitter_->SetParameters(0.,-2.82,0.96,50,20);
00054 }
00055 
00056 // ----------------------------------------------------------------------------
00057 // 
00058 void SamplingAlgorithm::extract( const std::vector<TH1*>& histos) {
00059 
00060   if ( !anal() ) {
00061     edm::LogWarning(mlCommissioning_)
00062       << "[SamplingAlgorithm::" << __func__ << "]"
00063       << " NULL pointer to Analysis object!";
00064     return; 
00065   }
00066   
00067   CommissioningAnalysis* tmp = const_cast<CommissioningAnalysis*>( anal() );
00068   samp_ = dynamic_cast<SamplingAnalysis*>( tmp );
00069   if ( !samp_ ) {
00070     edm::LogWarning(mlCommissioning_)
00071       << "[SamplingAlgorithm::" << __func__ << "]"
00072       << " NULL pointer to derived Analysis object!";
00073     return; 
00074   }
00075 
00076   // Check
00077   if ( histos.size() != 1 && histos.size() != 2 ) {
00078     samp_->addErrorCode(sistrip::numberOfHistos_);
00079   }
00080   
00081   // Extract FED key from histo title
00082   if ( !histos.empty() ) { samp_->fedKey( extractFedKey( histos.front() ) ); }
00083 
00084   // Extract
00085   std::vector<TH1*>::const_iterator ihis = histos.begin();
00086   for ( ; ihis != histos.end(); ihis++ ) {
00087     
00088     // Check pointer
00089     if ( !(*ihis) ) {
00090       edm::LogWarning(mlCommissioning_) << " NULL pointer to histogram!";
00091       continue;
00092     }
00093     
00094     // Check name
00095     SiStripHistoTitle title( (*ihis)->GetName() );
00096     if ( title.runType() != sistrip::APV_LATENCY && title.runType() != sistrip::FINE_DELAY) {
00097       samp_->addErrorCode(sistrip::unexpectedTask_);
00098       continue;
00099     }
00100     // Set the mode for later fits
00101     samp_->runType_ = title.runType();
00102     
00103     // Set the granularity
00104     samp_->granularity_ = title.granularity();
00105 
00106     // Extract timing histo
00107     if ( title.extraInfo().find(sistrip::extrainfo::clusterCharge_) != std::string::npos ) {
00108       histo_.first = *ihis;
00109       histo_.second = (*ihis)->GetName();
00110     }
00111 
00112   }
00113   
00114 }
00115 
00116 // ----------------------------------------------------------------------------
00117 // 
00118 void SamplingAlgorithm::analyse() { 
00119 
00120   if ( !samp_ ) {
00121     edm::LogWarning(mlCommissioning_)
00122       << "[SamplingAlgorithm::" << __func__ << "]"
00123       << " NULL pointer to derived Analysis object!";
00124     return; 
00125   }
00126 
00127   TProfile* prof = (TProfile*)(histo_.first);
00128   if ( !prof ) {
00129     edm::LogWarning(mlCommissioning_)
00130       << " NULL pointer to histogram!" ;
00131     return;
00132   }
00133 
00134   // set the right error mode: rms
00135   prof->SetErrorOption(" ");
00136 
00137   //that should not be needed, but it seems histos are stored with error option " " and errors "s" in all cases.
00138   //it MUST be removed if the DQM (?) bug is solved
00139   for(int i=0;i<prof->GetNbinsX();++i) {
00140     if(prof->GetBinEntries(i)>0)
00141       prof->SetBinError(i,prof->GetBinError(i)/sqrt(prof->GetBinEntries(i)));
00142   }
00143 
00144   // prune the profile
00145   pruneProfile(prof);
00146 
00147   // correct for the binning
00148   correctBinning(prof);
00149 
00150   // correct for clustering effects
00151   correctProfile(prof,samp_->sOnCut_);
00152   
00153   // fit depending on the mode
00154   if(samp_->runType_==sistrip::APV_LATENCY) {
00155 
00156     // initialize  the fit (overal latency)
00157     float max = prof->GetBinCenter(prof->GetMaximumBin());
00158     float ampl = prof->GetMaximum();
00159     peak_fitterA_->SetParameters(0.,50-max,ampl/20.,50,10);
00160 
00161     // fit
00162     if(prof->Fit(peak_fitterA_,"Q")==0)
00163       prof->Fit(peak_fitterA_,"QEM");
00164 
00165     // Set monitorables
00166     samp_->max_   = peak_fitterA_->GetMaximumX();
00167     samp_->error_ = peak_fitterA_->GetParError(1);
00168 
00169   } else { // sistrip::FINE_DELAY
00170 
00171     // initialize  the fit (overal latency)
00172     float max = prof->GetBinCenter(prof->GetMaximumBin());
00173     float ampl = prof->GetMaximum();
00174     deconv_fitter_->SetParameters(0.,-max,ampl/10.,50,20);
00175     peak_fitterB_->SetParameters(0.,50-max,ampl/20.,50,10);
00176     if(latencyCode_&0x80) { // deconv mode
00177       // fit
00178       if(prof->Fit(deconv_fitter_,"Q")==0)
00179          prof->Fit(deconv_fitter_,"QEM");
00180       // Set monitorables
00181       samp_->max_   = deconv_fitter_->GetMaximumX();
00182       samp_->error_ = deconv_fitter_->GetParError(1);
00183     } else { // peak mode
00184       // fit
00185       if(prof->Fit(peak_fitterB_,"Q")==0)
00186          prof->Fit(peak_fitterB_,"QEM");
00187       // Set monitorables
00188       samp_->max_   = peak_fitterB_->GetMaximumX();
00189       samp_->error_ = peak_fitterB_->GetParError(1);
00190     }
00191 
00192   }
00193 
00194 }
00195 
00196 // ----------------------------------------------------------------------------
00197 //
00198 void SamplingAlgorithm::pruneProfile(TProfile* profile) const
00199 {
00200   // loop over bins to find the max stat
00201   uint32_t nbins=profile->GetNbinsX();
00202   uint32_t max = 0;
00203   for(uint32_t bin=1;bin<=nbins;++bin) max = max < profile->GetBinEntries(bin) ? uint32_t(profile->GetBinEntries(bin)) : max;
00204   // loop over bins to clean
00205   uint32_t min = max/10;
00206   for(uint32_t bin=1;bin<=nbins;++bin)
00207     if(profile->GetBinEntries(bin)<min) {
00208       profile->SetBinContent(bin,0.);
00209       profile->SetBinError(bin,0.);
00210     }
00211 }
00212 
00213 // ----------------------------------------------------------------------------
00214 //
00215 void SamplingAlgorithm::correctBinning(TProfile* prof) const
00216 {
00217   prof->GetXaxis()->SetLimits(prof->GetXaxis()->GetXmin()-prof->GetBinWidth(1)/2.,
00218                               prof->GetXaxis()->GetXmax()-prof->GetBinWidth(1)/2.);
00219 }
00220 
00221 // ----------------------------------------------------------------------------
00222 //
00223 void SamplingAlgorithm::correctProfile(TProfile* profile, float SoNcut) const
00224 {
00225   if ( !samp_ ) { return; }
00226   uint32_t nbins=profile->GetNbinsX();
00227   float min = samp_->limit(SoNcut);
00228   for(uint32_t bin=1;bin<=nbins;++bin)
00229     if(profile->GetBinContent(bin)<min) {
00230       profile->SetBinContent(bin,0.);
00231       profile->SetBinError(bin,0.);
00232       profile->SetBinEntries(bin,0);
00233     }
00234     else {
00235       profile->SetBinContent(bin,
00236                              profile->GetBinEntries(bin)*
00237                              samp_->correctMeasurement(profile->GetBinContent(bin),SoNcut));
00238     }
00239 }