#include <SiStripAPVRestorer.h>

Public Member Functions
std::vector< bool > &	GetAPVFlags ()

RawDigiMap &	GetBaselineMap ()

std::map< uint16_t, DigiMap > &	GetSmoothedPoints ()

void	init (const edm::EventSetup &es)

int16_t	inspect (const uint32_t &, const uint16_t &, std::vector< int16_t > &, const std::vector< std::pair< short, float > > &)

int16_t	InspectAndRestore (const uint32_t &, const uint16_t &, std::vector< int16_t > &, std::vector< int16_t > &, const std::vector< std::pair< short, float > > &)

void	LoadMeanCMMap (const edm::Event &)

void	restore (const uint16_t &, std::vector< int16_t > &)

virtual	~SiStripAPVRestorer ()

Protected Member Functions
	SiStripAPVRestorer (const edm::ParameterSet &conf)

Private Member Functions
template<typename T >
int16_t	AbnormalBaselineInspect (const uint16_t &, std::vector< T > &)

template<typename T >
int16_t	BaselineAndSaturationInspect (const uint16_t &, std::vector< T > &)

void	BaselineCleaner (const std::vector< int16_t > &, DigiMap &, const uint16_t &)

void	BaselineFollower (DigiMap &, std::vector< int16_t > &, const float &)

template<typename T >
int16_t	BaselineFollowerInspect (const uint16_t &, std::vector< T > &)

void	BaselineFollowerRestore (const uint16_t &, const uint16_t &, const float &, std::vector< int16_t > &)

bool	CheckBaseline (const std::vector< int16_t > &) const

void	Cleaner_HighSlopeChecker (DigiMap &)

void	Cleaner_LocalMinimumAdder (const std::vector< int16_t > &, DigiMap &, const uint16_t &)

void	Cleaner_MonotonyChecker (DigiMap &)

void	CreateCMMapCMstored (const edm::DetSetVector< SiStripProcessedRawDigi > &)

void	CreateCMMapRealPed (const edm::DetSetVector< SiStripRawDigi > &)

bool	FlatRegionsFinder (const std::vector< int16_t > &, DigiMap &, const uint16_t &)

void	FlatRestore (const uint16_t &, const uint16_t &, std::vector< int16_t > &)

template<typename T >
int16_t	NullInspect (const uint16_t &, std::vector< T > &)

float	pairMedian (std::vector< std::pair< float, float > > &)

Private Attributes
bool	ApplyBaselineCleaner_

bool	ApplyBaselineRejection_

std::vector< std::string >	apvFlags_

std::vector< bool >	apvFlagsBool_

std::vector< bool >	apvFlagsBoolOverride_

std::vector< bool >	badAPVs_

RawDigiMap	BaselineMap_

uint32_t	CleaningSequence_

uint32_t	consecThreshold_

double	CutToAvoidSignal_

uint32_t	DeltaCMThreshold_

uint32_t	detId_

uint32_t	deviation_

uint32_t	distortionThreshold_

double	filteredBaselineDerivativeSumSquare_

double	filteredBaselineMax_

bool	ForceNoRestore_

double	fraction_

uint32_t	hitStripThreshold_

edm::InputTag	inputTag_

std::string	InspectAlgo_

int32_t	MeanCM_

CMMap	MeanCMmap_

std::vector< float >	median_

uint32_t	minStripsToFit_

uint32_t	noise_cache_id

edm::ESHandle< SiStripNoises >	noiseHandle

uint32_t	nSaturatedStrip_

uint32_t	nSigmaNoiseDerTh_

uint32_t	nSmooth_

uint32_t	pedestal_cache_id

edm::ESHandle< SiStripPedestals >	pedestalHandle

uint32_t	quality_cache_id

edm::ESHandle< SiStripQuality >	qualityHandle

std::string	RestoreAlgo_

double	restoreThreshold_

bool	SelfSelectRestoreAlgo_

int32_t	slopeX_

int32_t	slopeY_

std::map< uint16_t, DigiMap >	SmoothedMaps_

bool	useRealMeanCM_

Friends
class	SiStripRawProcessingFactory

Detailed Description

Definition at line 31 of file SiStripAPVRestorer.h.

Constructor & Destructor Documentation

virtual SiStripAPVRestorer::~SiStripAPVRestorer ( )

inlinevirtual

Definition at line 37 of file SiStripAPVRestorer.h.

37 {};

SiStripAPVRestorer::SiStripAPVRestorer ( const edm::ParameterSet & conf )

protected

Definition at line 9 of file SiStripAPVRestorer.cc.

References apvFlags_, BaselineMap_, median_, and SmoothedMaps_.

                                                                  :
   quality_cache_id(-1), noise_cache_id(-1), pedestal_cache_id(-1),
   ForceNoRestore_(conf.getParameter<bool>("ForceNoRestore")),
   SelfSelectRestoreAlgo_(conf.getParameter<bool>("SelfSelectRestoreAlgo")),
   InspectAlgo_(conf.getParameter<std::string>("APVInspectMode")),
   RestoreAlgo_(conf.getParameter<std::string>("APVRestoreMode")),
   useRealMeanCM_(conf.getParameter<bool>("useRealMeanCM")),
   fraction_(conf.getParameter<double>("Fraction")),
   deviation_(conf.getParameter<uint32_t>("Deviation")),
   restoreThreshold_(conf.getParameter<double>("restoreThreshold")),
   DeltaCMThreshold_(conf.getParameter<uint32_t>("DeltaCMThreshold")),
   nSigmaNoiseDerTh_(conf.getParameter<uint32_t>("nSigmaNoiseDerTh")),
   consecThreshold_(conf.getParameter<uint32_t>("consecThreshold")),
   hitStripThreshold_(conf.getParameter<uint32_t>("hitStripThreshold")),
   nSmooth_(conf.getParameter<uint32_t>("nSmooth")),
   minStripsToFit_(conf.getParameter<uint32_t>("minStripsToFit")),
   distortionThreshold_(conf.getParameter<uint32_t>("distortionThreshold")),
   CutToAvoidSignal_(conf.getParameter<double>("CutToAvoidSignal")),
   nSaturatedStrip_(conf.getParameter<uint32_t>("nSaturatedStrip")),
   ApplyBaselineCleaner_(conf.getParameter<bool>("ApplyBaselineCleaner")),
   slopeX_(conf.getParameter<int32_t>("slopeX")),
   slopeY_(conf.getParameter<int32_t>("slopeY")),
   CleaningSequence_(conf.getParameter<uint32_t>("CleaningSequence")),
   ApplyBaselineRejection_(conf.getParameter<bool>("ApplyBaselineRejection")),
   MeanCM_(conf.getParameter<int32_t>("MeanCM")),
   filteredBaselineMax_(conf.getParameter<double>("filteredBaselineMax")),
   filteredBaselineDerivativeSumSquare_(conf.getParameter<double>("filteredBaselineDerivativeSumSquare"))  
 
 {
   apvFlags_.clear();
   median_.clear();
   SmoothedMaps_.clear();
   BaselineMap_.erase(BaselineMap_.begin(), BaselineMap_.end());
 }

Member Function Documentation

template<typename T >

int16_t SiStripAPVRestorer::AbnormalBaselineInspect	(	const uint16_t &	firstAPV,
		std::vector< T > &	digis
	)

inlineprivate

Definition at line 226 of file SiStripAPVRestorer.cc.

References funct::abs(), sistrip::APV, apvFlags_, badAPVs_, detId_, deviation_, fraction_, MeanCM_, MeanCMmap_, min(), qualityHandle, RestoreAlgo_, and useRealMeanCM_.

Referenced by inspect().

                                                                                                  {
 
   SiStripQuality::Range detQualityRange = qualityHandle->getRange(detId_);
   
   typename std::vector<T>::iterator fs;
   
   int16_t nAPVflagged=0;
   
   CMMap::iterator itCMMap;
   if(useRealMeanCM_) itCMMap = MeanCMmap_.find(detId_);
   
   
   int devCount = 0, qualityCount = 0, minstrip = 0; 
  for(uint16_t APV=firstAPV ; APV< digis.size()/128 + firstAPV; ++APV){
     apvFlags_.push_back( "" );
     if(!badAPVs_[APV]){
       float MeanAPVCM = MeanCM_;
       if(useRealMeanCM_&&itCMMap!= MeanCMmap_.end()) MeanAPVCM =(itCMMap->second)[APV];
       for (uint16_t istrip=APV*128; istrip<(APV+1)*128; ++istrip){
         fs = digis.begin() + istrip-firstAPV*128;
         if ( !qualityHandle->IsStripBad(detQualityRange,istrip) ){
            qualityCount++; 
            if ( std::abs((int) *fs - MeanAPVCM) > (int)deviation_ ){ 
                 devCount++;
                 minstrip = std::min((int) *fs, minstrip);
            }
          }
       }
     
       if( devCount > fraction_ * qualityCount ) {
         apvFlags_[APV] = RestoreAlgo_;      //specify any algo to make the restore
         nAPVflagged++;
       } 
     } 
   }
   
   return nAPVflagged;
   
 }

template<typename T >

int16_t SiStripAPVRestorer::BaselineAndSaturationInspect	(	const uint16_t &	firstAPV,
		std::vector< T > &	digis
	)

inlineprivate

Definition at line 186 of file SiStripAPVRestorer.cc.

References funct::abs(), sistrip::APV, apvFlags_, badAPVs_, DeltaCMThreshold_, detId_, MeanCM_, MeanCMmap_, median_, nSaturatedStrip_, RestoreAlgo_, and useRealMeanCM_.

Referenced by inspect().

                                                                                                      {
   std::vector<T> singleAPVdigi;
   singleAPVdigi.clear();
   
   
   int16_t nAPVflagged = 0;
   
   CMMap::iterator itCMMap;
   if(useRealMeanCM_) itCMMap = MeanCMmap_.find(detId_);
   
   for(uint16_t APV=firstAPV ; APV< digis.size()/128 + firstAPV; ++APV){
      apvFlags_.push_back( "" );
     if(!badAPVs_[APV]){
      float MeanAPVCM = MeanCM_;
      if(useRealMeanCM_&&itCMMap!= MeanCMmap_.end()) MeanAPVCM =(itCMMap->second)[APV];
     
      singleAPVdigi.clear();
    
      uint16_t nSatStrip =0;
      for(int16_t strip = (APV-firstAPV)*128; strip < (APV-firstAPV+1)*128; ++strip){
         singleAPVdigi.push_back(digis[strip]); 
         if(digis[strip] >=1023) ++nSatStrip;
       }
          
      float DeltaCM = median_[APV] -MeanAPVCM; 
     
     
      if(DeltaCM < 0 && std::abs(DeltaCM) > DeltaCMThreshold_&&nSatStrip>= nSaturatedStrip_){
        apvFlags_[APV] = RestoreAlgo_;    //specify any algo to make the restore
        nAPVflagged++;
      } 
     }   
   }
   
   return nAPVflagged;
 }

void SiStripAPVRestorer::BaselineCleaner	(	const std::vector< int16_t > &	adcs,
		DigiMap &	smoothedpoints,
		const uint16_t &	APVn
	)

inlineprivate

Definition at line 474 of file SiStripAPVRestorer.cc.

References Cleaner_HighSlopeChecker(), Cleaner_LocalMinimumAdder(), Cleaner_MonotonyChecker(), and CleaningSequence_.

Referenced by FlatRegionsFinder().

                                                                                                                             {
   
   if(CleaningSequence_==0) {  //default sequence used up to now
     this->Cleaner_HighSlopeChecker(smoothedpoints);
     this->Cleaner_LocalMinimumAdder(adcs, smoothedpoints, APVn);
   }else if(CleaningSequence_==1){     
     this->Cleaner_LocalMinimumAdder(adcs, smoothedpoints, APVn);
     this->Cleaner_HighSlopeChecker(smoothedpoints);
     this->Cleaner_MonotonyChecker(smoothedpoints);
   }else if(CleaningSequence_==2){
     this->Cleaner_HighSlopeChecker(smoothedpoints);
   }else if(CleaningSequence_==3){
     this->Cleaner_LocalMinimumAdder(adcs, smoothedpoints, APVn);
     this->Cleaner_HighSlopeChecker(smoothedpoints);    
   }else{
     this->Cleaner_HighSlopeChecker(smoothedpoints);
     this->Cleaner_LocalMinimumAdder(adcs, smoothedpoints, APVn);
   }     
     
 }

void SiStripAPVRestorer::BaselineFollower	(	DigiMap &	smoothedpoints,
		std::vector< int16_t > &	baseline,
		const float &	median
	)

inlineprivate

Definition at line 632 of file SiStripAPVRestorer.cc.

References visualization-live-secondInstance_cfg::m, and minStripsToFit_.

Referenced by BaselineFollowerRestore().

                                                                                                                           {
   
   baseline.clear();
   DigiMapIter itSmoothedpoints;
   
   
   //if not enough points
   if(smoothedpoints.size() < minStripsToFit_){
      baseline.insert(baseline.begin(),128, median);
   } else {
      baseline.insert(baseline.begin(),128, 0);  
     
     DigiMapIter itSmoothedpointsBegin, itSmoothedpointsEnd;
     itSmoothedpointsBegin = smoothedpoints.begin();
     itSmoothedpointsEnd = --(smoothedpoints.end());
     
                 
     uint16_t firstStripFlat = itSmoothedpointsBegin->first;
     uint16_t lastStripFlat = itSmoothedpointsEnd->first;
     int16_t firstStripFlatADC= itSmoothedpointsBegin->second;
     int16_t lastStripFlatADC= itSmoothedpointsEnd->second;
    
     //adding here the costant line at the extremities 
     baseline.erase(baseline.begin(), baseline.begin()+firstStripFlat);
     baseline.insert(baseline.begin(), firstStripFlat, firstStripFlatADC);
     
     baseline.erase(baseline.begin()+lastStripFlat, baseline.end());
     baseline.insert(baseline.end(), 128 - lastStripFlat, lastStripFlatADC);
     
     
     //IMPORTANT: the itSmoothedpointsEnd should be at least smaller than smoothedpoints.end() -1
     for(itSmoothedpoints = itSmoothedpointsBegin; itSmoothedpoints != itSmoothedpointsEnd; ++itSmoothedpoints){  
       DigiMapIter itSmoothedpointsNext = itSmoothedpoints;
       ++itSmoothedpointsNext;
       float strip1 = itSmoothedpoints->first;
       float strip2 = itSmoothedpointsNext->first;
       float adc1 = itSmoothedpoints->second;
       float adc2 = itSmoothedpointsNext->second;
      
       baseline[strip1] = adc1;
       baseline[strip2] = adc2;
       float m = (adc2 -adc1)/(strip2 -strip1);
       uint16_t itStrip = strip1 +1;
       float stripadc = adc1 + m; 
       while(itStrip < strip2){
         baseline[itStrip] = stripadc;
         ++itStrip;
         stripadc+=m;
       }
       
     }
     
   }
 }

template<typename T >

int16_t SiStripAPVRestorer::BaselineFollowerInspect	(	const uint16_t &	firstAPV,
		std::vector< T > &	digis
	)

inlineprivate

Definition at line 142 of file SiStripAPVRestorer.cc.

References funct::abs(), sistrip::APV, apvFlags_, badAPVs_, DeltaCMThreshold_, detId_, FlatRegionsFinder(), MeanCM_, MeanCMmap_, median_, SmoothedMaps_, and useRealMeanCM_.

Referenced by inspect().

                                                                                                 {
   std::vector<T> singleAPVdigi;  
   int16_t nAPVflagged = 0;
   
   CMMap::iterator itCMMap;
   if(useRealMeanCM_) itCMMap = MeanCMmap_.find(detId_);
   
   for(uint16_t APV=firstAPV ; APV< digis.size()/128 + firstAPV; ++APV){
 
     DigiMap smoothedmap;
     smoothedmap.erase(smoothedmap.begin(), smoothedmap.end());
 
     if(!badAPVs_[APV]){
       float MeanAPVCM = MeanCM_;
       if(useRealMeanCM_&&itCMMap!= MeanCMmap_.end()) MeanAPVCM =(itCMMap->second)[APV];
     
       singleAPVdigi.clear(); 
       for(int16_t strip = (APV-firstAPV)*128; strip < (APV-firstAPV+1)*128; ++strip){
         singleAPVdigi.push_back(digis[strip]); 
       }
    
    
       float DeltaCM = median_[APV] - MeanAPVCM; 
       
       //std::cout << "Delta CM: " << DeltaCM << " CM: " << median_[APV] << " detId " << (uint32_t) detId_ << std::endl;     
       if(DeltaCM < 0 && std::abs(DeltaCM) > DeltaCMThreshold_){
       
         bool isFlat = FlatRegionsFinder(singleAPVdigi,smoothedmap,APV);
         if(!isFlat){
           apvFlags_[APV]= "BaselineFollower";    //specify any algo to make the restore
           nAPVflagged++;
         }
       } 
       
     } 
     SmoothedMaps_.insert(SmoothedMaps_.end(), std::pair<uint16_t, DigiMap>(APV, smoothedmap));
    }
   
   return nAPVflagged;
 }

void SiStripAPVRestorer::BaselineFollowerRestore	(	const uint16_t &	APVn,
		const uint16_t &	firstAPV,
		const float &	median,
		std::vector< int16_t > &	digis
	)

inlineprivate

Definition at line 308 of file SiStripAPVRestorer.cc.

References ApplyBaselineRejection_, apvFlagsBoolOverride_, BaselineFollower(), BaselineMap_, CheckBaseline(), FlatRegionsFinder(), and SmoothedMaps_.

Referenced by restore().

                                                                                                                                               {
   //typename std::vector<T>::iterator firstStrip(digis.begin() + APVn*128), lastStrip(firstStrip + 128), actualStrip;
   
   
   std::vector<int16_t> baseline;
   baseline.clear();
   baseline.insert(baseline.begin(),128, 0);
     
      
  
     
   //============================= Find Flat Regions & Interpolating the baseline & subtracting the baseline  =================  
   
   if(SmoothedMaps_.size()){
     std::map<uint16_t, DigiMap >::iterator itSmootedMap = SmoothedMaps_.find(APVn); 
     this->BaselineFollower(itSmootedMap->second, baseline, median);
   } else {
     //median=0;
     DigiMap  smoothedpoints;
     std::vector<int16_t> singleAPVdigi;
     singleAPVdigi.clear(); 
     for(int16_t strip = (APVn-firstAPV)*128; strip < (APVn-firstAPV+1)*128; ++strip) singleAPVdigi.push_back(digis[strip]); 
     this->FlatRegionsFinder(singleAPVdigi,smoothedpoints, APVn);
     this->BaselineFollower(smoothedpoints, baseline, median);       
     
   } 
 
   if(ApplyBaselineRejection_){
     if(CheckBaseline(baseline)) apvFlagsBoolOverride_[APVn] = true;
   }
   
   //============================= subtracting the baseline =============================================
   
   for(int16_t itStrip= 0 ; itStrip< 128; ++itStrip){
     digis[(APVn-firstAPV)*128+itStrip] -= baseline[itStrip] - median;
   }
   
         
   //============================= storing baseline to the map ============================================= 
   BaselineMap_.insert(BaselineMap_.end(),  std::pair< uint16_t, std::vector < int16_t> >(APVn, baseline));
   
 }

bool SiStripAPVRestorer::CheckBaseline ( const std::vector< int16_t > & baseline ) const

private

Definition at line 688 of file SiStripAPVRestorer.cc.

References ecal_dqm_sourceclient-live_cfg::cerr, ztail::d, filteredBaselineDerivativeSumSquare_, filteredBaselineMax_, i, j, bookConverter::max, and run_regression::test.

Referenced by BaselineFollowerRestore().

 {
     // The Savitzky-Golay (S-G) filter of any left length nL, right
     // length nR, and order m, and with an optional opt equals the
     // derivative order (0 for the magnitude, 1 for the first
     // derivative, etc.) can be calculated using the following
     // Mathematica code:
     //
     // SavitzkyGolay[m_?IntegerQ, {nL_?IntegerQ, nR_?IntegerQ},
     //   opt___] := Module[
     //   {a, d},
     //   d = If[opt === Null, 0, If[IntegerQ[opt], opt, 0]]; 
     //   a = Table[
     //     If[i == 0 && j == 0, 1, i^j], {i, -nL, nR}, {j, 0, 
     //      m}]; (Inverse[Transpose[a].a].Transpose[a])[[d + 1]]];
     //
     // The following coefficients can be then calculated by:
     //
     // N[Join[Table[SavitzkyGolay[2, {k, 16}], {k, 0, 16}], 
     //   Table[SavitzkyGolay[2, {16, k}], {k, 15, 0, -1}]]]
 
     // nLR = max(nL, nR)
     static const size_t savitzky_golay_n_l_r = 16;
     static const float savitzky_golay_coefficient
         [2 * savitzky_golay_n_l_r + 1][2 * savitzky_golay_n_l_r + 1] = {
         { 0.422085, 0.325077, 0.23839, 0.162023, 0.0959752, 0.0402477,
           -0.00515996, -0.0402477, -0.0650155, -0.0794634, -0.0835913,
           -0.0773994, -0.0608875, -0.0340557, 0.00309598, 0.0505676,
           0.108359 },
         { 0.315789, 0.254902, 0.19969, 0.150155, 0.106295, 0.0681115,
           0.0356037, 0.00877193, -0.0123839, -0.0278638, -0.0376677,
           -0.0417957, -0.0402477, -0.0330237, -0.0201238, -0.00154799,
           0.0227038, 0.0526316 },
         { 0.234586, 0.198496, 0.165207, 0.134719, 0.107032, 0.0821465,
           0.0600619, 0.0407784, 0.024296, 0.0106148, -0.000265369,
           -0.00834439, -0.0136223, -0.0160991, -0.0157747, -0.0126493,
           -0.00672269, 0.00200501, 0.0135338 },
         { 0.172078, 0.153076, 0.135099, 0.118148, 0.102221, 0.0873206,
           0.073445, 0.0605947, 0.0487697, 0.0379699, 0.0281955,
           0.0194463, 0.0117225, 0.00502392, -0.000649351, -0.00529733,
           -0.00892003, -0.0115174, -0.0130895, -0.0136364 },
         { 0.123659, 0.116431, 0.109144, 0.101798, 0.0943921, 0.0869268,
           0.0794021, 0.0718179, 0.0641743, 0.0564712, 0.0487087,
           0.0408868, 0.0330054, 0.0250646, 0.0170644, 0.00900473,
           0.000885613, -0.00729294, -0.0155309, -0.0238283,
           -0.0321852 },
         { 0.0859684, 0.0868154, 0.0869565, 0.0863919, 0.0851214,
           0.0831451, 0.080463, 0.0770751, 0.0729814, 0.0681818,
           0.0626765, 0.0564653, 0.0495483, 0.0419255, 0.0335968,
           0.0245624, 0.0148221, 0.00437606, -0.00677583, -0.0186335,
           -0.0311971, -0.0444664 },
         { 0.0565217, 0.0628458, 0.0680971, 0.0722756, 0.0753811,
           0.0774139, 0.0783738, 0.0782609, 0.0770751, 0.0748165,
           0.071485, 0.0670807, 0.0616036, 0.0550536, 0.0474308,
           0.0387352, 0.0289667, 0.0181254, 0.00621118, -0.00677583,
           -0.0208357, -0.0359684, -0.0521739 },
         { 0.0334615, 0.0434281, 0.0521329, 0.0595759, 0.0657571,
           0.0706765, 0.0743341, 0.07673, 0.0778641, 0.0777364,
           0.0763469, 0.0736957, 0.0697826, 0.0646078, 0.0581712,
           0.0504728, 0.0415126, 0.0312907, 0.0198069, 0.00706142,
           -0.00694588, -0.022215, -0.0387458, -0.0565385 },
         { 0.0153846, 0.0276923, 0.0386622, 0.0482943, 0.0565886,
           0.0635452, 0.0691639, 0.0734448, 0.076388, 0.0779933,
           0.0782609, 0.0771906, 0.0747826, 0.0710368, 0.0659532,
           0.0595318, 0.0517726, 0.0426756, 0.0322408, 0.0204682,
           0.00735786, -0.0070903, -0.0228763, -0.04, -0.0584615 },
         { 0.001221, 0.0149451, 0.027326, 0.0383639, 0.0480586,
           0.0564103, 0.0634188, 0.0690842, 0.0734066, 0.0763858,
           0.078022, 0.078315, 0.077265, 0.0748718, 0.0711355,
           0.0660562, 0.0596337, 0.0518681, 0.0427595, 0.0323077,
           0.0205128, 0.00737485, -0.00710623, -0.0229304, -0.0400977,
           -0.0586081 },
         { -0.00985222, 0.00463138, 0.0178098, 0.029683, 0.0402509,
           0.0495137, 0.0574713, 0.0641236, 0.0694708, 0.0735127,
           0.0762494, 0.0776809, 0.0778073, 0.0766284, 0.0741442,
           0.0703549, 0.0652604, 0.0588607, 0.0511557, 0.0421456,
           0.0318302, 0.0202097, 0.0072839, -0.00694708, -0.0224833,
           -0.0393247, -0.0574713 },
         { -0.0184729, -0.00369458, 0.00984169, 0.0221359, 0.0331881,
           0.0429982, 0.0515662, 0.0588923, 0.0649762, 0.0698181,
           0.073418, 0.0757758, 0.0768915, 0.0767652, 0.0753968,
           0.0727864, 0.0689339, 0.0638394, 0.0575028, 0.0499242,
           0.0411035, 0.0310408, 0.019736, 0.00718917, -0.00659972,
           -0.0216307, -0.0379037, -0.0554187 },
         { -0.025139, -0.0103925, 0.00318873, 0.0156046, 0.0268552,
           0.0369405, 0.0458605, 0.0536151, 0.0602045, 0.0656285,
           0.0698872, 0.0729806, 0.0749086, 0.0756714, 0.0752688,
           0.0737009, 0.0709677, 0.0670692, 0.0620054, 0.0557763,
           0.0483818, 0.039822, 0.0300969, 0.0192065, 0.0071508,
           -0.00607024, -0.0204566, -0.0360083, -0.0527253 },
         { -0.0302419, -0.0157536, -0.00234785, 0.00997537, 0.021216,
           0.0313741, 0.0404497, 0.0484427, 0.0553532, 0.0611811,
           0.0659264, 0.0695892, 0.0721695, 0.0736672, 0.0740823,
           0.0734149, 0.0716649, 0.0688324, 0.0649174, 0.0599198,
           0.0538396, 0.0466769, 0.0384316, 0.0291038, 0.0186934,
           0.00720046, -0.00537502, -0.0190331, -0.0337736,
           -0.0495968 },
         { -0.0340909, -0.0200147, -0.006937, 0.00514208, 0.0162226,
           0.0263045, 0.0353878, 0.0434725, 0.0505587, 0.0566463,
           0.0617353, 0.0658257, 0.0689175, 0.0710107, 0.0721054,
           0.0722014, 0.0712989, 0.0693978, 0.0664981, 0.0625999,
           0.057703, 0.0518076, 0.0449135, 0.0370209, 0.0281297,
           0.01824, 0.0073516, -0.00453534, -0.0174209, -0.031305,
           -0.0461877 },
         { -0.0369318, -0.0233688, -0.0107221, 0.00100806, 0.0118218,
           0.0217192, 0.0307001, 0.0387647, 0.0459128, 0.0521444,
           0.0574597, 0.0618585, 0.0653409, 0.0679069, 0.0695565,
           0.0702896, 0.0701063, 0.0690066, 0.0669905, 0.0640579,
           0.0602089, 0.0554435, 0.0497617, 0.0431635, 0.0356488,
           0.0272177, 0.0178702, 0.0076063, -0.00357405, -0.0156708,
           -0.028684, -0.0426136 },
         { -0.038961, -0.025974, -0.0138249, -0.00251362, 0.00795978,
           0.0175953, 0.026393, 0.0343527, 0.0414747, 0.0477587,
           0.0532049, 0.0578132, 0.0615836, 0.0645161, 0.0666108,
           0.0678676, 0.0682866, 0.0678676, 0.0666108, 0.0645161,
           0.0615836, 0.0578132, 0.0532049, 0.0477587, 0.0414747,
           0.0343527, 0.026393, 0.0175953, 0.00795978, -0.00251362,
           -0.0138249, -0.025974, -0.038961 },
         { -0.0426136, -0.028684, -0.0156708, -0.00357405, 0.0076063,
           0.0178702, 0.0272177, 0.0356488, 0.0431635, 0.0497617,
           0.0554435, 0.0602089, 0.0640579, 0.0669905, 0.0690066,
           0.0701063, 0.0702896, 0.0695565, 0.0679069, 0.0653409,
           0.0618585, 0.0574597, 0.0521444, 0.0459128, 0.0387647,
           0.0307001, 0.0217192, 0.0118218, 0.00100806, -0.0107221,
           -0.0233688, -0.0369318 },
         { -0.0461877, -0.031305, -0.0174209, -0.00453534, 0.0073516,
           0.01824, 0.0281297, 0.0370209, 0.0449135, 0.0518076,
           0.057703, 0.0625999, 0.0664981, 0.0693978, 0.0712989,
           0.0722014, 0.0721054, 0.0710107, 0.0689175, 0.0658257,
           0.0617353, 0.0566463, 0.0505587, 0.0434725, 0.0353878,
           0.0263045, 0.0162226, 0.00514208, -0.006937, -0.0200147,
           -0.0340909 },
         { -0.0495968, -0.0337736, -0.0190331, -0.00537502, 0.00720046,
           0.0186934, 0.0291038, 0.0384316, 0.0466769, 0.0538396,
           0.0599198, 0.0649174, 0.0688324, 0.0716649, 0.0734149,
           0.0740823, 0.0736672, 0.0721695, 0.0695892, 0.0659264,
           0.0611811, 0.0553532, 0.0484427, 0.0404497, 0.0313741,
           0.021216, 0.00997537, -0.00234785, -0.0157536, -0.0302419 },
         { -0.0527253, -0.0360083, -0.0204566, -0.00607024, 0.0071508,
           0.0192065, 0.0300969, 0.039822, 0.0483818, 0.0557763,
           0.0620054, 0.0670692, 0.0709677, 0.0737009, 0.0752688,
           0.0756714, 0.0749086, 0.0729806, 0.0698872, 0.0656285,
           0.0602045, 0.0536151, 0.0458605, 0.0369405, 0.0268552,
           0.0156046, 0.00318873, -0.0103925, -0.025139 },
         { -0.0554187, -0.0379037, -0.0216307, -0.00659972, 0.00718917,
           0.019736, 0.0310408, 0.0411035, 0.0499242, 0.0575028,
           0.0638394, 0.0689339, 0.0727864, 0.0753968, 0.0767652,
           0.0768915, 0.0757758, 0.073418, 0.0698181, 0.0649762,
           0.0588923, 0.0515662, 0.0429982, 0.0331881, 0.0221359,
           0.00984169, -0.00369458, -0.0184729 },
         { -0.0574713, -0.0393247, -0.0224833, -0.00694708, 0.0072839,
           0.0202097, 0.0318302, 0.0421456, 0.0511557, 0.0588607,
           0.0652604, 0.0703549, 0.0741442, 0.0766284, 0.0778073,
           0.0776809, 0.0762494, 0.0735127, 0.0694708, 0.0641236,
           0.0574713, 0.0495137, 0.0402509, 0.029683, 0.0178098,
           0.00463138, -0.00985222 },
         { -0.0586081, -0.0400977, -0.0229304, -0.00710623, 0.00737485,
           0.0205128, 0.0323077, 0.0427595, 0.0518681, 0.0596337,
           0.0660562, 0.0711355, 0.0748718, 0.077265, 0.078315,
           0.078022, 0.0763858, 0.0734066, 0.0690842, 0.0634188,
           0.0564103, 0.0480586, 0.0383639, 0.027326, 0.0149451,
           0.001221 },
         { -0.0584615, -0.04, -0.0228763, -0.0070903, 0.00735786,
           0.0204682, 0.0322408, 0.0426756, 0.0517726, 0.0595318,
           0.0659532, 0.0710368, 0.0747826, 0.0771906, 0.0782609,
           0.0779933, 0.076388, 0.0734448, 0.0691639, 0.0635452,
           0.0565886, 0.0482943, 0.0386622, 0.0276923, 0.0153846 },
         { -0.0565385, -0.0387458, -0.022215, -0.00694588, 0.00706142,
           0.0198069, 0.0312907, 0.0415126, 0.0504728, 0.0581712,
           0.0646078, 0.0697826, 0.0736957, 0.0763469, 0.0777364,
           0.0778641, 0.07673, 0.0743341, 0.0706765, 0.0657571,
           0.0595759, 0.0521329, 0.0434281, 0.0334615 },
         { -0.0521739, -0.0359684, -0.0208357, -0.00677583, 0.00621118,
           0.0181254, 0.0289667, 0.0387352, 0.0474308, 0.0550536,
           0.0616036, 0.0670807, 0.071485, 0.0748165, 0.0770751,
           0.0782609, 0.0783738, 0.0774139, 0.0753811, 0.0722756,
           0.0680971, 0.0628458, 0.0565217 },
         { -0.0444664, -0.0311971, -0.0186335, -0.00677583, 0.00437606,
           0.0148221, 0.0245624, 0.0335968, 0.0419255, 0.0495483,
           0.0564653, 0.0626765, 0.0681818, 0.0729814, 0.0770751,
           0.080463, 0.0831451, 0.0851214, 0.0863919, 0.0869565,
           0.0868154, 0.0859684 },
         { -0.0321852, -0.0238283, -0.0155309, -0.00729294, 0.000885613,
           0.00900473, 0.0170644, 0.0250646, 0.0330054, 0.0408868,
           0.0487087, 0.0564712, 0.0641743, 0.0718179, 0.0794021,
           0.0869268, 0.0943921, 0.101798, 0.109144, 0.116431,
           0.123659 },
         { -0.0136364, -0.0130895, -0.0115174, -0.00892003, -0.00529733,
           -0.000649351, 0.00502392, 0.0117225, 0.0194463, 0.0281955,
           0.0379699, 0.0487697, 0.0605947, 0.073445, 0.0873206,
           0.102221, 0.118148, 0.135099, 0.153076, 0.172078 },
         { 0.0135338, 0.00200501, -0.00672269, -0.0126493, -0.0157747,
           -0.0160991, -0.0136223, -0.00834439, -0.000265369, 0.0106148,
           0.024296, 0.0407784, 0.0600619, 0.0821465, 0.107032,
           0.134719, 0.165207, 0.198496, 0.234586 },
         { 0.0526316, 0.0227038, -0.00154799, -0.0201238, -0.0330237,
           -0.0402477, -0.0417957, -0.0376677, -0.0278638, -0.0123839,
           0.00877193, 0.0356037, 0.0681115, 0.106295, 0.150155,
           0.19969, 0.254902, 0.315789 },
         { 0.108359, 0.0505676, 0.00309598, -0.0340557, -0.0608875,
           -0.0773994, -0.0835913, -0.0794634, -0.0650155, -0.0402477,
           -0.00515996, 0.0402477, 0.0959752, 0.162023, 0.23839,
           0.325077, 0.422085 }
     };
 
     float filtered_baseline[128];
     float filtered_baseline_derivative[127];
 
     // Zero filtered_baseline
     memset(filtered_baseline, 0, 128 * sizeof(float));
     // Filter the left edge using (nL, nR) = (0, 16) .. (15, 16) S-G
     // filters
     for (size_t i = 0; i < savitzky_golay_n_l_r; i++) {
         for (size_t j = 0; j < savitzky_golay_n_l_r + 1 + i; j++) {
             filtered_baseline[i] +=
                 savitzky_golay_coefficient[i][j] * baseline[j];
         }
     }
     // Filter the middle section using the (nL, nR) = (16, 16) S-G
     // filter, while taking advantage of the symmetry to save 16
     // multiplications.
     for (size_t i = savitzky_golay_n_l_r;
          i < 128 - savitzky_golay_n_l_r; i++) {
         filtered_baseline[i] =
             savitzky_golay_coefficient
             [savitzky_golay_n_l_r][savitzky_golay_n_l_r] * baseline[i];
         for (size_t j = 0; j < savitzky_golay_n_l_r; j++) {
             filtered_baseline[i] +=
                 savitzky_golay_coefficient[savitzky_golay_n_l_r][j] *
                 (baseline[i + j - savitzky_golay_n_l_r] +
                  baseline[i - j + savitzky_golay_n_l_r]);
         }
 #if 0
         // Test that the indexing above is correct
         float test = 0;
         for (size_t j = 0; j < 2 * savitzky_golay_n_l_r + 1; j++) {
             test +=
                 savitzky_golay_coefficient[savitzky_golay_n_l_r][j] *
                 baseline[i + j - savitzky_golay_n_l_r];
         }
         // test == filtered_baseline[i] should hold now
 #endif
     }
     // Filter the right edge using (nL, nR) = (16, 15) .. (16, 0) S-G
     // filters
     for (size_t i = 128 - savitzky_golay_n_l_r; i < 128; i++) {
         for (size_t j = 0; j < 128 - i + savitzky_golay_n_l_r; j++) {
             filtered_baseline[i] +=
                 savitzky_golay_coefficient
                 [2 * savitzky_golay_n_l_r + i + 1 - 128][j] *
                 baseline[i + j - savitzky_golay_n_l_r];
         }
     }
     // In lieu of a spearate S-G derivative filter, the finite
     // difference is used here (since the output is sufficiently
     // smooth).
     for (size_t i = 0; i < 127; i++) {
         filtered_baseline_derivative[i] =
             filtered_baseline[i + 1] - filtered_baseline[i];
     }
 
     // Calculate the maximum deviation between filtered and unfiltered
     // baseline, plus the sum square of the derivative.
 
     double filtered_baseline_max = 0;
     double filtered_baseline_derivative_sum_square = 0;
 
     for (size_t i = 0; i < 128; i++) {
         const double d = filtered_baseline[i] - baseline[i];
 
         filtered_baseline_max =
             std::max(filtered_baseline_max,
                      static_cast<double>(fabs(d)));
     }
     for (size_t i = 0; i < 127; i++) {
         filtered_baseline_derivative_sum_square +=
             filtered_baseline_derivative[i] *
             filtered_baseline_derivative[i];
     }
 
 #if 0
     std::cerr << __FILE__ << ':' << __LINE__ << ": "
               << filtered_baseline_max << ' '
               << filtered_baseline_derivative_sum_square << std::endl;
 #endif
 
     // Apply the cut
     return !(filtered_baseline_max >= filteredBaselineMax_ ||
              filtered_baseline_derivative_sum_square >= filteredBaselineDerivativeSumSquare_);
 }

void SiStripAPVRestorer::Cleaner_HighSlopeChecker ( DigiMap & smoothedpoints )

inlineprivate

Definition at line 600 of file SiStripAPVRestorer.cc.

References visualization-live-secondInstance_cfg::m.

Referenced by BaselineCleaner().

                                                                                {
   //Removing points in the slope is too high
     //--------------------------------------------------------------------------------------------------
   
         if(smoothedpoints.size() < 4) return;
     DigiMapIter itSmoothedpoints, itSmoothedpointsNext, itSmoothedpointsBegin, itSmoothedpointsEnd; 
     itSmoothedpoints=smoothedpoints.begin();
     while (smoothedpoints.size() >2 && itSmoothedpoints != --(smoothedpoints.end()) ) { //while we are not at the last point
       //if(smoothedpoints.size() <2) break;
         // get info about current and next points
         itSmoothedpointsNext = itSmoothedpoints;
         ++itSmoothedpointsNext;
         float strip1 = itSmoothedpoints->first;
         float strip2 = itSmoothedpointsNext->first;
         float adc1 = itSmoothedpoints->second;
         float adc2 = itSmoothedpointsNext->second;
         float m = (adc2 -adc1)/(strip2 -strip1);
         
         if (m>2) { // in case of large positive slope, remove next point and try again from same current point
             smoothedpoints.erase(itSmoothedpointsNext);
         } else if (m<-2) { // in case of large negative slope, remove current point and either...
             // move to next point if we have reached the beginning (post-increment to avoid invalidating pointer during erase) or...
             if(itSmoothedpoints==smoothedpoints.begin()) smoothedpoints.erase(itSmoothedpoints++); 
             // try again from the previous point if we have not reached the beginning
             else smoothedpoints.erase(itSmoothedpoints--); 
         } else { // in case of a flat enough slope, continue on to the next point
             itSmoothedpoints++;
         }
         
     }
 }

void SiStripAPVRestorer::Cleaner_LocalMinimumAdder	(	const std::vector< int16_t > &	adcs,
		DigiMap &	smoothedpoints,
		const uint16_t &	APVn
	)

inlineprivate

Definition at line 522 of file SiStripAPVRestorer.cc.

References funct::abs(), ecalMGPA::adc(), detId_, visualization-live-secondInstance_cfg::m, noiseHandle, slopeX_, and slopeY_.

Referenced by BaselineCleaner().

                                                                                                                                       {
   SiStripNoises::Range detNoiseRange = noiseHandle->getRange(detId_);
   //inserting extra point is case of local minimum
     //--------------------------------------------------------------------------------------------------
     // these should be reset now for the point-insertion that follows
     
         DigiMapIter itSmoothedpoints, itSmoothedpointsNext, itSmoothedpointsBegin, itSmoothedpointsEnd; 
     if(smoothedpoints.size() >= 2){
  
         itSmoothedpointsBegin = smoothedpoints.begin();
         itSmoothedpointsEnd = --(smoothedpoints.end());
         for(itSmoothedpoints = itSmoothedpointsBegin; itSmoothedpoints != itSmoothedpointsEnd; ++itSmoothedpoints){  
             itSmoothedpointsNext = itSmoothedpoints;
             ++itSmoothedpointsNext;
             float strip1 = itSmoothedpoints->first;
             float strip2 = itSmoothedpointsNext->first;
             float adc1 = itSmoothedpoints->second;
             float adc2 = itSmoothedpointsNext->second;
         float m = (adc2 -adc1)/(strip2 -strip1);
     
         //2,4
             if((strip2 - strip1) >slopeX_ && abs(adc1 -adc2) >slopeY_){
                 float itStrip = 1;
                 float strip = itStrip + strip1;
             while(strip < strip2){
                 
             float adc = adcs[strip];
                     if( adc < (adc1 + m * itStrip - 2 * (float)noiseHandle->getNoiseFast(strip+APVn*128,detNoiseRange))){
                         //std::cout << "applying correction strip: " << strip + APVn*128 << " adc " << adc << " detId: " << detId_ << std::endl;
                         smoothedpoints.insert(itSmoothedpointsNext, std::pair<uint16_t, int16_t >(strip,adc));
                         ++itSmoothedpoints;
                         ++itSmoothedpointsNext;
                         itSmoothedpointsEnd = --(smoothedpoints.end());
                     } 
                     ++itStrip;
                     ++strip;
                 }
             
 
             }
         }
     }
     
     
     itSmoothedpointsBegin = smoothedpoints.begin();
     itSmoothedpointsEnd = --(smoothedpoints.end());
     uint16_t firstStripFlat = itSmoothedpointsBegin->first;
     uint16_t lastStripFlat = itSmoothedpointsEnd->first;
     int16_t firstStripFlatADC= itSmoothedpointsBegin->second;
     int16_t lastStripFlatADC= itSmoothedpointsEnd->second;
         
     itSmoothedpoints = itSmoothedpointsBegin;
     if(firstStripFlat >3){
         float strip = 0;
         while(strip < firstStripFlat){
             float adc = adcs[strip];
             if( adc < ( firstStripFlatADC - 2 * (float)noiseHandle->getNoiseFast(strip+APVn*128,detNoiseRange))){
                     smoothedpoints.insert(itSmoothedpoints, std::pair<uint16_t, int16_t >(strip,adc));
                     ++itSmoothedpoints;
             } 
             ++strip;
         }
     }
     
     itSmoothedpoints = itSmoothedpointsEnd;
     if(lastStripFlat <125){
         float strip = lastStripFlat+1;
         while(strip < 128){
             float adc = adcs[strip];
             if( adc < ( lastStripFlatADC - 2 * (float)noiseHandle->getNoiseFast(strip+APVn*128,detNoiseRange))){
                 smoothedpoints.insert(smoothedpoints.end(), std::pair<uint16_t, int16_t >(strip,adc));
             } 
             ++strip;
         }
     }
 }

void SiStripAPVRestorer::Cleaner_MonotonyChecker ( DigiMap & smoothedpoints )

inlineprivate

Definition at line 496 of file SiStripAPVRestorer.cc.

References hitStripThreshold_.

Referenced by BaselineCleaner().

                                                                               {
 //Removing points without monotony
     //--------------------------------------------------------------------------------------------------
          if(smoothedpoints.size() < 3) return;         
          DigiMapIter itSmoothedpoints, itSmoothedpointsNext, itSmoothedpointsNextNext, itSmoothedpointsBegin, itSmoothedpointsEnd;
      
     itSmoothedpoints=smoothedpoints.begin();
         while (smoothedpoints.size() > 3 && itSmoothedpoints != --(--(smoothedpoints.end()))) { //while we are not at the last point
             // get info about current and next points
         itSmoothedpointsNext = itSmoothedpoints;
                 ++itSmoothedpointsNext;
         itSmoothedpointsNextNext = itSmoothedpointsNext;
                 ++itSmoothedpointsNextNext;
                 float adc1 = itSmoothedpoints->second;
         float adc2 = itSmoothedpointsNext->second;
         float adc3 = itSmoothedpointsNextNext->second;
                 
                 if((adc2-adc1) > hitStripThreshold_ && (adc2-adc3) > hitStripThreshold_){
           smoothedpoints.erase(itSmoothedpointsNext);
         }else {
           ++itSmoothedpoints;
         }
                 
     }
 }

void SiStripAPVRestorer::CreateCMMapCMstored ( const edm::DetSetVector< SiStripProcessedRawDigi > & Input )

private

Definition at line 1027 of file SiStripAPVRestorer.cc.

References edm::DetSetVector< T >::begin(), edm::DetSetVector< T >::end(), and MeanCMmap_.

Referenced by LoadMeanCMMap().

                                                                                                  {
 
   MeanCMmap_.erase(MeanCMmap_.begin(), MeanCMmap_.end());
   uint32_t detId;
   edm::DetSetVector<SiStripProcessedRawDigi>::const_iterator itInput;
   edm::DetSet<SiStripProcessedRawDigi>::const_iterator itCM;
   std::vector<float> MeanCMNValue;
   
   for(itInput = Input.begin(); itInput != Input.end(); ++itInput){
     detId = itInput->id;
     MeanCMNValue.clear();
     for(itCM = itInput->begin(); itCM != itInput->end(); ++itCM) MeanCMNValue.push_back(itCM->adc());           
     MeanCMmap_.insert(std::pair<uint32_t, std::vector<float> >(detId,MeanCMNValue));
   }
 }

void SiStripAPVRestorer::CreateCMMapRealPed ( const edm::DetSetVector< SiStripRawDigi > & input )

private

Definition at line 999 of file SiStripAPVRestorer.cc.

References sistrip::APV, edm::DetSetVector< T >::begin(), edm::DetSetVector< T >::end(), MeanCMmap_, and pedestalHandle.

Referenced by LoadMeanCMMap().

                                                                                        {
   
   MeanCMmap_.erase(MeanCMmap_.begin(), MeanCMmap_.end());
     
  //std::cout<< "===============================================" << std::endl;
  
  for ( edm::DetSetVector<SiStripRawDigi>::const_iterator 
       rawDigis = input.begin(); rawDigis != input.end(); rawDigis++) {
          SiStripPedestals::Range detPedestalRange = pedestalHandle->getRange(rawDigis->id);
          std::vector<float> MeanCMDetSet;
          MeanCMDetSet.clear();
         
         for(uint16_t APV = 0; APV < rawDigis->size()/128; ++APV){
             uint16_t MinPed =0;
             for(uint16_t strip = APV*128; strip< (APV+1)*128; ++strip){
               uint16_t ped =  (uint16_t)pedestalHandle->getPed(strip,detPedestalRange);
              
               if(ped < MinPed) MinPed = ped;
             }
             if(MinPed>128) MinPed=128;
             MeanCMDetSet.push_back(MinPed);
                
         }
         MeanCMmap_.insert(std::pair<uint32_t, std::vector<float> >(rawDigis->id,MeanCMDetSet));
         
  }
 }

bool SiStripAPVRestorer::FlatRegionsFinder	(	const std::vector< int16_t > &	adcs,
		DigiMap &	smoothedpoints,
		const uint16_t &	APVn
	)

inlineprivate

Definition at line 375 of file SiStripAPVRestorer.cc.

References ecalMGPA::adc(), ApplyBaselineCleaner_, BaselineCleaner(), consecThreshold_, detId_, distortionThreshold_, bookConverter::max, min(), gen::n, noiseHandle, nSigmaNoiseDerTh_, and nSmooth_.

Referenced by BaselineFollowerInspect(), and BaselineFollowerRestore().

                                                                                                                               {
   SiStripNoises::Range detNoiseRange = noiseHandle->getRange(detId_);
   
   DigiMap consecpoints;
   DigiMapIter itConsecpoints, itSmoothedpoints;
   consecpoints.erase(consecpoints.begin(), consecpoints.end());
   smoothedpoints.erase(smoothedpoints.begin(), smoothedpoints.end());
   
    
   //============================= Height above local minimum ===============================                    
   std::vector<float> adcsLocalMinSubtracted;
   adcsLocalMinSubtracted.clear();
   adcsLocalMinSubtracted.insert(adcsLocalMinSubtracted.begin(), 128,0);
   for(uint32_t istrip=0; istrip<128; ++istrip) {
     float localmin = 999.9;     
     for(uint16_t jstrip=std::max(0,(int)(istrip-nSmooth_/2)); jstrip<std::min(128,(int)(istrip+nSmooth_/2)); ++jstrip) {
       float nextvalue = adcs[jstrip];
       if(nextvalue < localmin) localmin=nextvalue;          
     }
     adcsLocalMinSubtracted[istrip] = adcs[istrip] - localmin;
   }
   
   
   //============================= Find regions with stable slopes ========================
   std::vector<uint16_t> nConsStrip;
   nConsStrip.clear();
   
   //Creating maps with all the neighborhood strip and putting in a nCosntStip vector how many we have
   uint16_t consecStrips=0;
   for(uint32_t istrip=0; istrip<128; ++istrip) {    
     int16_t adc = adcs[istrip]; 
  
    //if( adcsLocalMinSubtracted[istrip] < nSigmaNoiseDerTh_ * (float)noiseHandle->getNoise(istrip+APVn*128,detNoiseRange) && (adc - median) < hitStripThreshold_){
    if( adcsLocalMinSubtracted[istrip] < nSigmaNoiseDerTh_ * (float)noiseHandle->getNoiseFast(istrip+APVn*128,detNoiseRange)){
       consecpoints.insert(consecpoints.end(), std::pair<uint16_t, int16_t >(istrip, adc));
       ++consecStrips;
     }else if (consecStrips >0){
       nConsStrip.push_back(consecStrips);
       consecStrips = 0;
     }    
   }             
 
   //to cope with the last flat region of the APV
   if(consecStrips >0) nConsStrip.push_back(consecStrips);
 
   //removing from the map the fist and last points in wide flat regions and erasing from the map too small regions
   itConsecpoints = consecpoints.begin();
   float MinSmoothValue=20000., MaxSmoothValue=0.;
   for(std::vector<uint16_t>::iterator itnConsStrip = nConsStrip.begin(); itnConsStrip < nConsStrip.end(); ++itnConsStrip){
     
     consecStrips = *itnConsStrip;
     if(consecStrips >=consecThreshold_){
       ++itConsecpoints;  //skipping first point
       uint16_t nFirstStrip = itConsecpoints->first;
       uint16_t nLastStrip;
       float smoothValue = 0.0;
       float stripCount =1;
       for(uint16_t n =0; n < consecStrips-2; ++n){
         smoothValue += itConsecpoints->second;
         if(stripCount == consecThreshold_){
           smoothValue /= (float)stripCount;
           nLastStrip = nFirstStrip + stripCount -1;                                 
           smoothedpoints.insert(smoothedpoints.end(), std::pair<uint16_t, int16_t >(nFirstStrip, smoothValue));
           smoothedpoints.insert(smoothedpoints.end(), std::pair<uint16_t, int16_t >(nLastStrip, smoothValue));
           if(smoothValue > MaxSmoothValue) MaxSmoothValue = smoothValue;
           if(smoothValue < MinSmoothValue) MinSmoothValue = smoothValue;
           nFirstStrip = nLastStrip+1;
           smoothValue=0;
           stripCount=0;
         }
         ++stripCount;
         ++itConsecpoints;
      }
      ++itConsecpoints;  //and putting the pointer to the new seies of point 
       
      if(stripCount>1) {
      //if(smoothValue>0){
         --stripCount;
         smoothValue /= (float)(stripCount);
         nLastStrip = nFirstStrip + stripCount -1;
         smoothedpoints.insert(smoothedpoints.end(), std::pair<uint16_t, int16_t >(nFirstStrip, smoothValue));
         smoothedpoints.insert(smoothedpoints.end(), std::pair<uint16_t, int16_t >(nLastStrip, smoothValue));
         if(smoothValue > MaxSmoothValue) MaxSmoothValue = smoothValue;
         if(smoothValue < MinSmoothValue) MinSmoothValue = smoothValue;
      }
    } else{
       for(int n =0; n< consecStrips ; ++n) ++itConsecpoints;
    }
   }
   
     
   if( (MaxSmoothValue-MinSmoothValue) > distortionThreshold_){
     if(ApplyBaselineCleaner_) this->BaselineCleaner(adcs, smoothedpoints, APVn);
     return false;
   }
   return true;
 }

void SiStripAPVRestorer::FlatRestore	(	const uint16_t &	APVn,
		const uint16_t &	firstAPV,
		std::vector< int16_t > &	digis
	)

inlineprivate

Definition at line 354 of file SiStripAPVRestorer.cc.

References BaselineMap_.

Referenced by restore().

                                                                                                               {
  
   std::vector<int16_t> baseline;
   baseline.clear();
   baseline.insert(baseline.begin(),128, 150);
   baseline[0]=0; baseline[127]=0;
   BaselineMap_.insert(BaselineMap_.end(),  std::pair< uint16_t, std::vector < int16_t> >(APVn, baseline));  
   
   for(int16_t itStrip= 0 ; itStrip< 128; ++itStrip){
     digis[(APVn-firstAPV)*128+itStrip] = baseline[itStrip];
   }
  
   
 }

std::vector< bool > & SiStripAPVRestorer::GetAPVFlags ( )

Definition at line 1043 of file SiStripAPVRestorer.cc.

References apvFlags_, apvFlagsBool_, apvFlagsBoolOverride_, and i.

                                                 {
     apvFlagsBool_.clear();
     for(size_t i =0; i < apvFlags_.size(); ++i){
       if(apvFlags_[i] != "" && !apvFlagsBoolOverride_[i]) apvFlagsBool_.push_back(true);
       else apvFlagsBool_.push_back(false);
     }
     return apvFlagsBool_;   
 }

RawDigiMap& SiStripAPVRestorer::GetBaselineMap ( )

inline

Definition at line 46 of file SiStripAPVRestorer.h.

References BaselineMap_.

46 {return BaselineMap_;}

SiStripAPVRestorer::BaselineMap_

RawDigiMap BaselineMap_

Definition: SiStripAPVRestorer.h:99

std::map< uint16_t, DigiMap >& SiStripAPVRestorer::GetSmoothedPoints ( )

inline

Definition at line 48 of file SiStripAPVRestorer.h.

References SmoothedMaps_.

48 {return SmoothedMaps_;}

SiStripAPVRestorer::SmoothedMaps_

std::map< uint16_t, DigiMap > SmoothedMaps_

Definition: SiStripAPVRestorer.h:98

void SiStripAPVRestorer::init ( const edm::EventSetup & es )

Definition at line 45 of file SiStripAPVRestorer.cc.

References edm::EventSetup::get(), noise_cache_id, noiseHandle, pedestal_cache_id, pedestalHandle, quality_cache_id, and qualityHandle.

                                                     {
   uint32_t n_cache_id = es.get<SiStripNoisesRcd>().cacheIdentifier();
   uint32_t q_cache_id = es.get<SiStripQualityRcd>().cacheIdentifier();
   uint32_t p_cache_id = es.get<SiStripPedestalsRcd>().cacheIdentifier();
   
   if(n_cache_id != noise_cache_id) {
     es.get<SiStripNoisesRcd>().get( noiseHandle );
     noise_cache_id = n_cache_id;
   } else {
     noise_cache_id = n_cache_id;
   }
   if(q_cache_id != quality_cache_id) {
     es.get<SiStripQualityRcd>().get( qualityHandle );
     quality_cache_id = q_cache_id;
   }else {
     quality_cache_id = q_cache_id;
   }
   
   if(p_cache_id != pedestal_cache_id) {
         es.get<SiStripPedestalsRcd>().get( pedestalHandle );
         pedestal_cache_id = p_cache_id;
   }else {
     pedestal_cache_id = p_cache_id;
   }
   
 }

int16_t SiStripAPVRestorer::inspect	(	const uint32_t &	detId,
		const uint16_t &	firstAPV,
		std::vector< int16_t > &	digis,
		const std::vector< std::pair< short, float > > &	vmedians
	)

Definition at line 80 of file SiStripAPVRestorer.cc.

References AbnormalBaselineInspect(), sistrip::APV, apvFlags_, apvFlagsBool_, apvFlagsBoolOverride_, badAPVs_, BaselineAndSaturationInspect(), BaselineFollowerInspect(), BaselineMap_, detId_, Exception, i, InspectAlgo_, median_, NullInspect(), qualityHandle, and SmoothedMaps_.

Referenced by InspectAndRestore().

                                                                                                                                                                   {
   
   detId_ = detId;
   
   apvFlagsBool_.clear();
   apvFlagsBoolOverride_.clear();
   apvFlagsBoolOverride_.insert(apvFlagsBoolOverride_.begin(), 6, false);
   apvFlags_.clear();
   apvFlags_.insert(apvFlags_.begin(), 6, "");
   median_.clear();
   median_.insert(median_.begin(), 6, -999);
   badAPVs_.clear();
   badAPVs_.insert(badAPVs_.begin(), 6, false);
   SmoothedMaps_.erase(SmoothedMaps_.begin(),  SmoothedMaps_.end());
   BaselineMap_.erase(BaselineMap_.begin(), BaselineMap_.end()); 
     
   for(size_t i=0; i< vmedians.size(); ++i){
          short APV =  vmedians[i].first;
          median_[APV]= vmedians[i].second;
          badAPVs_[APV] = qualityHandle->IsApvBad(detId_, APV);
   }
     
   if(InspectAlgo_=="BaselineFollower") return this->BaselineFollowerInspect(firstAPV, digis); 
   if(InspectAlgo_=="AbnormalBaseline") return this->AbnormalBaselineInspect(firstAPV, digis);
   if(InspectAlgo_=="Null") return this->NullInspect(firstAPV, digis);
   if(InspectAlgo_=="BaselineAndSaturation") return this->BaselineAndSaturationInspect(firstAPV, digis);
   throw cms::Exception("Unregistered Inspect Algorithm") << "SiStripAPVRestorer possibilities: (Null), (AbnormalBaseline),(BaselineFollower)";
   
 }

int16_t SiStripAPVRestorer::InspectAndRestore	(	const uint32_t &	detId,
		const uint16_t &	firstAPV,
		std::vector< int16_t > &	rawDigisPedSubtracted,
		std::vector< int16_t > &	processedRawDigi,
		const std::vector< std::pair< short, float > > &	vmedians
	)

Definition at line 73 of file SiStripAPVRestorer.cc.

References inspect(), and restore().

                                                                                                                                                                                                                                    {
   int16_t nAPVFlagged = this->inspect(detId, firstAPV, rawDigisPedSubtracted, vmedians);
   this->restore(firstAPV, processedRawDigi);
   return nAPVFlagged;
 }

void SiStripAPVRestorer::LoadMeanCMMap ( const edm::Event & iEvent )

Definition at line 986 of file SiStripAPVRestorer.cc.

References CreateCMMapCMstored(), CreateCMMapRealPed(), edm::Event::getByLabel(), input, and useRealMeanCM_.

                                                             {
   if(useRealMeanCM_){  
     edm::Handle< edm::DetSetVector<SiStripRawDigi> > input;
     iEvent.getByLabel("siStripDigis","VirginRaw", input);
    this->CreateCMMapRealPed(*input);
   } else {
     edm::Handle< edm::DetSetVector<SiStripProcessedRawDigi> > inputCM;
     iEvent.getByLabel("MEANAPVCM",inputCM);
     this->CreateCMMapCMstored(*inputCM);
   }
 }

template<typename T >

int16_t SiStripAPVRestorer::NullInspect	(	const uint16_t &	firstAPV,
		std::vector< T > &	digis
	)

inlineprivate

Definition at line 270 of file SiStripAPVRestorer.cc.

References sistrip::APV, apvFlags_, badAPVs_, detId_, qualityHandle, RestoreAlgo_, and restoreThreshold_.

Referenced by inspect().

                                                                                     {
 
   SiStripQuality::Range detQualityRange = qualityHandle->getRange(detId_);
 
   typename std::vector<T>::iterator fs;
 
   int16_t nAPVflagged = 0;
 
   for(uint16_t APV=firstAPV ; APV< digis.size()/128 + firstAPV; ++APV){
    apvFlags_.push_back( "" );
    if(!badAPVs_[APV]){ 
      int zeroCount = 0, qualityCount = 0; 
      for (uint16_t istrip=APV*128; istrip<(APV+1)*128; ++istrip){
        fs = digis.begin() + istrip-firstAPV*128;
        if ( !qualityHandle->IsStripBad(detQualityRange,istrip) ){
         qualityCount++; 
         if ( (int) *fs < 1 ) zeroCount++;
        }
       }
     
       if( zeroCount > restoreThreshold_ * qualityCount ) {
         apvFlags_[APV] = RestoreAlgo_;     //specify any algo to make the restore
         nAPVflagged++;
       } 
    } 
    }
  
   return nAPVflagged;
 
 }

float SiStripAPVRestorer::pairMedian ( std::vector< std::pair< float, float > > & )

private

void SiStripAPVRestorer::restore	(	const uint16_t &	firstAPV,
		std::vector< int16_t > &	digis
	)

Definition at line 111 of file SiStripAPVRestorer.cc.

References sistrip::APV, apvFlags_, BaselineFollowerRestore(), Exception, FlatRestore(), ForceNoRestore_, median_, RestoreAlgo_, SelfSelectRestoreAlgo_, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by InspectAndRestore().

                                                                                      {
     
   if(ForceNoRestore_) return;
   
   for( uint16_t APV=firstAPV; APV< digis.size()/128 + firstAPV; ++APV){
     std::string algoToUse = *( apvFlags_.begin() + APV );
     
     if ( algoToUse != ""){
       if(!SelfSelectRestoreAlgo_) algoToUse = RestoreAlgo_;
  
       if(algoToUse=="Flat"){
     this->FlatRestore(APV, firstAPV, digis);
       }else if(algoToUse=="BaselineFollower"){
     this->BaselineFollowerRestore(APV, firstAPV, median_[APV], digis);
       }else{
     throw cms::Exception("Unregistered Restore Algorithm") << "SiStripAPVRestorer possibilities: (Flat), (BaselineFollower)";
       }
       
       
     }
   }
   
 }