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Protected Member Functions

PedsFullNoiseSummaryFactory Class Reference

#include <PedsFullNoiseSummaryFactory.h>

Inheritance diagram for PedsFullNoiseSummaryFactory:
SummaryPlotFactory< CommissioningAnalysis * > SummaryPlotFactoryBase

List of all members.

Protected Member Functions

void extract (Iterator)
void format ()

Detailed Description

Definition at line 6 of file PedsFullNoiseSummaryFactory.h.


Member Function Documentation

void PedsFullNoiseSummaryFactory::extract ( Iterator  iter) [protected, virtual]

Reimplemented from SummaryPlotFactory< CommissioningAnalysis * >.

Definition at line 12 of file PedsFullNoiseSummaryFactory.cc.

References PedsFullNoiseAnalysis::chi2Prob(), PedsFullNoiseAnalysis::dead(), SummaryGenerator::fillMap(), SummaryPlotFactoryBase::generator_, SummaryPlotFactoryBase::gran_, sistrip::invalid_, PedsFullNoiseAnalysis::ksProb(), SummaryPlotFactoryBase::level_, sistrip::mlSummaryPlots_, SummaryPlotFactoryBase::mon_, SiStripEnumsAndStrings::monitorable(), PedsFullNoiseAnalysis::noise(), sistrip::NOISE_ALL_STRIPS, sistrip::NOISE_BIN_84_ALL_STRIPS, sistrip::NOISE_CHI2_ALL_STRIPS, sistrip::NOISE_GAUS_ALL_STRIPS, sistrip::NOISE_KS_ALL_STRIPS, sistrip::NOISE_MAX, sistrip::NOISE_MEAN, sistrip::NOISE_MIN, sistrip::NOISE_RMS_ALL_STRIPS, sistrip::NOISE_SIGNIF_ALL_STRIPS, sistrip::NOISE_SPREAD, PedsFullNoiseAnalysis::noiseBin84(), PedsFullNoiseAnalysis::noiseGaus(), PedsFullNoiseAnalysis::noiseMax(), PedsFullNoiseAnalysis::noiseMean(), PedsFullNoiseAnalysis::noiseMin(), PedsFullNoiseAnalysis::noiseRMS(), PedsFullNoiseAnalysis::noiseSignif(), PedsFullNoiseAnalysis::noiseSpread(), PedsFullNoiseAnalysis::noisy(), sistrip::NUM_OF_DEAD, sistrip::NUM_OF_NOISY, sistrip::PEDESTALS_ALL_STRIPS, sistrip::PEDESTALS_MAX, sistrip::PEDESTALS_MEAN, sistrip::PEDESTALS_MIN, sistrip::PEDESTALS_SPREAD, PedsFullNoiseAnalysis::peds(), PedsFullNoiseAnalysis::pedsMax(), PedsFullNoiseAnalysis::pedsMean(), PedsFullNoiseAnalysis::pedsMin(), PedsFullNoiseAnalysis::pedsSpread(), plotscripts::rms(), findQualityFiles::size, cond::rpcobtemp::temp, and relativeConstraints::value.

                                                         {
  
  PedsFullNoiseAnalysis* anal = dynamic_cast<PedsFullNoiseAnalysis*>( iter->second );
  if ( !anal ) { return; }
    
  std::vector< float >                          temp(128, 1. * sistrip::invalid_ );
  std::vector< std::vector<float> > value( 2, temp );
  std::vector< std::vector<float> > peds( 2, temp );
  std::vector< std::vector<float> > noise( 2, temp );
  std::vector< std::vector<float> > ks( 2, temp );
  std::vector< std::vector<float> > noiseG( 2, temp );
  std::vector< std::vector<float> > bin84( 2, temp );
  std::vector< std::vector<float> > chi2( 2, temp );
  std::vector< std::vector<float> > signif( 2, temp );
  std::vector< std::vector<float> > rms( 2, temp );
  peds[0]       = anal->peds()[0];
  peds[1]       = anal->peds()[1];
  noise[0]      = anal->noise()[0];
  noise[1]      = anal->noise()[1];
  ks[0]         = anal->ksProb()[0]; // dummy values //replaced with ksProb now, wing
  ks[1]         = anal->ksProb()[1]; // dummy values
  noiseG[0]     = anal->noiseGaus()[0];
  noiseG[1]     = anal->noiseGaus()[1];
  bin84[0]      = anal->noiseBin84()[0];
  bin84[1]      = anal->noiseBin84()[1];
  rms[0]        = anal->noiseRMS()[0];
  rms[1]        = anal->noiseRMS()[1];
  chi2[0]     = anal->chi2Prob()[0];
  chi2[1]     = anal->chi2Prob()[1];
  signif[0]     = anal->noiseSignif()[0];
  signif[1]     = anal->noiseSignif()[1];
  bool all_strips = false;
  if ( mon_ == sistrip::PEDESTALS_ALL_STRIPS ) {
    all_strips = true;
    uint16_t bins = peds[0].size();
    if ( peds[0].size() < peds[1].size() ) { bins = peds[1].size(); }
    for ( uint16_t iped = 0; iped < bins; iped++ ) {
      value[0][iped] = peds[0][iped]; 
      value[1][iped] = peds[1][iped];  
    }
  } else if ( mon_ == sistrip::PEDESTALS_MEAN ) {
    value[0][0] = anal->pedsMean()[0];
    value[1][0] = anal->pedsMean()[1];
  } else if ( mon_ == sistrip::PEDESTALS_SPREAD ) { 
    value[0][0] = anal->pedsSpread()[0];
    value[1][0] = anal->pedsSpread()[1]; 
  } else if ( mon_ == sistrip::PEDESTALS_MAX ) { 
    value[0][0] = anal->pedsMax()[0]; 
    value[1][0] = anal->pedsMax()[1];
  } else if ( mon_ == sistrip::PEDESTALS_MIN ) { 
    value[0][0] = anal->pedsMin()[0]; 
    value[1][0] = anal->pedsMin()[1]; 
  } else if ( mon_ == sistrip::NOISE_ALL_STRIPS ) {
    all_strips = true;
    uint16_t bins = noise[0].size();
    if ( noise[0].size() < noise[1].size() ) { bins = noise[1].size(); }
    for ( uint16_t inoise = 0; inoise < bins; inoise++ ) {
      value[0][inoise] = noise[0][inoise]; 
      value[1][inoise] = noise[1][inoise]; 
    }
  } else if ( mon_ == sistrip::NOISE_KS_ALL_STRIPS ) {
    all_strips = true;
    uint16_t bins = ks[0].size();
    if ( ks[0].size() < ks[1].size() ) { bins = ks[1].size(); }
    for ( uint16_t iks = 0; iks < bins; iks++ ) {
      value[0][iks] = ks[0][iks];
      value[1][iks] = ks[1][iks];
    }
  } else if ( mon_ == sistrip::NOISE_CHI2_ALL_STRIPS ) {
    all_strips = true;
    uint16_t bins = chi2[0].size();
    if ( ks[0].size() < chi2[1].size() ) { bins = chi2[1].size(); }
    for ( uint16_t iks = 0; iks < bins; iks++ ) {
      value[0][iks] = chi2[0][iks];
      value[1][iks] = chi2[1][iks];
    }
  } else if ( mon_ == sistrip::NOISE_GAUS_ALL_STRIPS ) {
    all_strips = true;
    uint16_t bins = noiseG[0].size();
        if ( noiseG[0].size() < noiseG[1].size() ) { bins = noiseG[1].size(); }
    for ( uint16_t iks = 0; iks < bins; iks++ ) {
      value[0][iks] = noiseG[0][iks];
      value[1][iks] = noiseG[1][iks];     
        }
  } else if ( mon_ == sistrip::NOISE_BIN_84_ALL_STRIPS ) {
    all_strips = true;
    uint16_t bins = bin84[0].size();
        if ( bin84[0].size() < bin84[1].size() ) { bins = bin84[1].size(); }
    for ( uint16_t iks = 0; iks < bins; iks++ ) {
      value[0][iks] = bin84[0][iks];
      value[1][iks] = bin84[1][iks];     
        }
  }     else if ( mon_ == sistrip::NOISE_RMS_ALL_STRIPS ) {
    all_strips = true;
    uint16_t bins = rms[0].size();
        if ( rms[0].size() < rms[1].size() ) { bins = rms[1].size(); }
    for ( uint16_t iks = 0; iks < bins; iks++ ) {
      value[0][iks] = rms[0][iks];
      value[1][iks] = rms[1][iks];     
        }
  } else if ( mon_ == sistrip::NOISE_SIGNIF_ALL_STRIPS ) {
    all_strips = true;
    uint16_t bins = signif[0].size();
        if ( signif[0].size() < signif[1].size() ) { bins = signif[1].size(); }
    for ( uint16_t iks = 0; iks < bins; iks++ ) {
      value[0][iks] = signif[0][iks];
      value[1][iks] = signif[1][iks];     
        }
  } else if ( mon_ == sistrip::NOISE_MEAN ) {
    value[0][0] = anal->noiseMean()[0];
    value[1][0] = anal->noiseMean()[1];
  } else if ( mon_ == sistrip::NOISE_SPREAD ) { 
    value[0][0] = anal->noiseSpread()[0]; 
    value[1][0] = anal->noiseSpread()[1];
  } else if ( mon_ == sistrip::NOISE_MAX ) { 
    value[0][0] = anal->noiseMax()[0]; 
    value[1][0] = anal->noiseMax()[1]; 
  } else if ( mon_ == sistrip::NOISE_MIN ) { 
    value[0][0] = anal->noiseMin()[0]; 
    value[1][0] = anal->noiseMin()[1]; 
  } else if ( mon_ == sistrip::NUM_OF_DEAD ) { 
    value[0][0] = 1. * anal->dead()[0].size(); 
    value[1][0] = 1. * anal->dead()[1].size();
  } else if ( mon_ == sistrip::NUM_OF_NOISY ) { 
    value[0][0] = 1. * anal->noisy()[0].size(); 
    value[1][0] = 1. * anal->noisy()[1].size();
  } else { 
    edm::LogWarning(mlSummaryPlots_)
      << "[SummaryPlotFactory::" << __func__ << "]" 
      << " Unexpected monitorable: "
      << SiStripEnumsAndStrings::monitorable( SummaryPlotFactoryBase::mon_ );
    return; 
  }

  if ( !all_strips ) {

    SummaryPlotFactoryBase::generator_->fillMap( SummaryPlotFactoryBase::level_, 
                                                 SummaryPlotFactoryBase::gran_, 
                                                 iter->first, 
                                                 value[0][0] );
    
    SummaryPlotFactoryBase::generator_->fillMap( SummaryPlotFactoryBase::level_, 
                                                 SummaryPlotFactoryBase::gran_, 
                                                 iter->first, 
                                                 value[1][0] );

  } 
  else {

    for ( uint16_t istr = 0; istr < value[0].size(); istr++ ) {
      SummaryPlotFactoryBase::generator_->fillMap( SummaryPlotFactoryBase::level_, 
                                                   SummaryPlotFactoryBase::gran_, 
                                                   iter->first, 
                                                   value[0][istr] );
    }
    
    for ( uint16_t istr = 0; istr < value[1].size(); istr++ ) {
      SummaryPlotFactoryBase::generator_->fillMap( SummaryPlotFactoryBase::level_, 
                                                   SummaryPlotFactoryBase::gran_, 
                                                   iter->first, 
                                                   value[1][istr] );
    }
  }
}
void PedsFullNoiseSummaryFactory::format ( ) [protected, virtual]

Reimplemented from SummaryPlotFactory< CommissioningAnalysis * >.

Definition at line 179 of file PedsFullNoiseSummaryFactory.cc.

References sistrip::mlSummaryPlots_, SummaryPlotFactoryBase::mon_, SiStripEnumsAndStrings::monitorable(), sistrip::NOISE_ALL_STRIPS, sistrip::NOISE_BIN_84_ALL_STRIPS, sistrip::NOISE_CHI2_ALL_STRIPS, sistrip::NOISE_GAUS_ALL_STRIPS, sistrip::NOISE_KS_ALL_STRIPS, sistrip::NOISE_MAX, sistrip::NOISE_MEAN, sistrip::NOISE_MIN, sistrip::NOISE_RMS_ALL_STRIPS, sistrip::NOISE_SPREAD, sistrip::NUM_OF_DEAD, sistrip::NUM_OF_NOISY, sistrip::PEDESTALS_ALL_STRIPS, sistrip::PEDESTALS_MAX, sistrip::PEDESTALS_MEAN, sistrip::PEDESTALS_MIN, and sistrip::PEDESTALS_SPREAD.

                                         {
  
  if ( mon_ == sistrip::PEDESTALS_ALL_STRIPS ) {
    generator_->axisLabel( "Pedestal value [adc]" );
  } else if ( mon_ == sistrip::PEDESTALS_MEAN ) {
  } else if ( mon_ == sistrip::PEDESTALS_SPREAD ) { 
  } else if ( mon_ == sistrip::PEDESTALS_MAX ) { 
  } else if ( mon_ == sistrip::PEDESTALS_MIN ) { 
  } else if ( mon_ == sistrip::NOISE_ALL_STRIPS ) {
    generator_->axisLabel( "Noise [adc]" );
  } else if ( mon_ == sistrip::NOISE_MEAN ) {
  } else if ( mon_ == sistrip::NOISE_SPREAD ) { 
  } else if ( mon_ == sistrip::NOISE_MAX ) { 
  } else if ( mon_ == sistrip::NOISE_MIN ) { 
  } else if ( mon_ == sistrip::NUM_OF_DEAD ) { 
  } else if ( mon_ == sistrip::NUM_OF_NOISY ) { 
  } else if ( mon_ == sistrip::NOISE_KS_ALL_STRIPS ) { 
    generator_->axisLabel( "KS Prob." );
  } else if ( mon_ == sistrip::NOISE_GAUS_ALL_STRIPS ) { 
    generator_->axisLabel( "Noise Gaus." );
  } else if ( mon_ == sistrip::NOISE_BIN_84_ALL_STRIPS ) { 
    generator_->axisLabel( "Noise Bin 84." );
  }     else if ( mon_ == sistrip::NOISE_RMS_ALL_STRIPS ) { 
    generator_->axisLabel( "Noise RMS." );
  } else if ( mon_ == sistrip::NOISE_CHI2_ALL_STRIPS ) { 
    generator_->axisLabel( "Chi2 Prob." );
  }  else { 
    edm::LogWarning(mlSummaryPlots_)
      << "[SummaryPlotFactory::" << __func__ << "]" 
      << " Unexpected SummaryHisto value:"
      << SiStripEnumsAndStrings::monitorable( SummaryPlotFactoryBase::mon_ );
  } 

}