59 _nsamples( iConfig.getUntrackedParameter< unsigned int >(
"nSamples", 10 ) ),
60 _presample( iConfig.getUntrackedParameter< unsigned int >(
"nPresamples", 2 ) ),
61 _firstsample( iConfig.getUntrackedParameter< unsigned int >(
"firstSample", 1 ) ),
62 _lastsample( iConfig.getUntrackedParameter< unsigned int >(
"lastSample", 2 ) ),
63 _timingcutlow( iConfig.getUntrackedParameter< unsigned int >(
"timingCutLow", 2 ) ),
64 _timingcuthigh( iConfig.getUntrackedParameter< unsigned int >(
"timingCutHigh", 9 ) ),
65 _timingquallow( iConfig.getUntrackedParameter< unsigned int >(
"timingQualLow", 3 ) ),
66 _timingqualhigh( iConfig.getUntrackedParameter< unsigned int >(
"timingQualHigh", 8 ) ),
67 _ratiomincutlow( iConfig.getUntrackedParameter< double >(
"ratioMinCutLow", 0.4 ) ),
68 _ratiomincuthigh( iConfig.getUntrackedParameter< double >(
"ratioMinCutHigh", 0.95 ) ),
69 _ratiomaxcutlow( iConfig.getUntrackedParameter< double >(
"ratioMaxCutLow", 0.8 ) ),
70 _presamplecut( iConfig.getUntrackedParameter< double >(
"presampleCut", 5.0 ) ),
71 _niter( iConfig.getUntrackedParameter< unsigned int >(
"nIter", 3 ) ),
72 _alpha( iConfig.getUntrackedParameter< double >(
"alpha", 1.5076494 ) ),
73 _beta( iConfig.getUntrackedParameter< double >(
"beta", 1.5136036 ) ),
74 _nevtmax( iConfig.getUntrackedParameter< unsigned int >(
"nEvtMax", 200 ) ),
75 _noise( iConfig.getUntrackedParameter< double >(
"noise", 2.0 ) ),
76 _chi2cut( iConfig.getUntrackedParameter< double >(
"chi2cut", 100.0 ) ),
77 _ecalPart( iConfig.getUntrackedParameter< std::
string >(
"ecalPart",
"EB" ) ),
78 _qualpercent( iConfig.getUntrackedParameter< double >(
"qualPercent", 0.2 ) ),
79 _debug( iConfig.getUntrackedParameter< int >(
"debug", 0 ) ),
81 runType(-1), runNum(0), fedID(-1), dccID(-1), side(2), lightside(2), iZ(1),
172 std::stringstream nameabinitfile;
173 nameabinitfile <<
resdir_ <<
"/ABInit.root";
176 std::stringstream nameabfile;
177 std::stringstream
link;
178 nameabfile << resdir_ <<
"/AB.root";
181 test = fopen(nameabinitfile.str().c_str(),
"r");
189 TFile *fAB=0; TTree *ABInit=0;
191 fAB=
new TFile(nameabinitfile.str().c_str());
194 ABInit = (TTree*) fAB->Get(
"ABCol0");
216 link<<
"ln -s "<<resdir_<<
"/ABInit.root "<< resdir_<<
"/AB.root";
217 system(link.str().c_str());
223 namefile << resdir_ <<
"/AB.root";
239 DCCHeader=pDCCHeader.
product();
264 std::cout <<
" Wrong ecalPart in cfg file " << std::endl;
273 TheMapping = ecalmapping.
product();
275 std::cerr <<
"Error! can't get the product EcalMappingRcd"<< std::endl;
288 int fed = headerItr->fedId();
291 runType=headerItr->getRunType();
292 runNum=headerItr->getRunNumber();
293 event=headerItr->getLV1();
295 dccID=headerItr->getDccInTCCCommand();
296 fedID=headerItr->fedId();
314 if(
color <0 )
return;
344 EBDetId id_crystal(digiItr->id()) ;
347 int etaG = id_crystal.ieta() ;
348 int phiG = id_crystal.iphi() ;
354 etaL=LocalCoord.first ;
355 phiL=LocalCoord.second ;
367 int strip=elecid_crystal.
stripId();
368 int xtal=elecid_crystal.
xtalId();
369 int channelID= 5*(strip-1) + xtal-1;
373 assert( channel <
nCrys );
387 for (
unsigned int i=0;
i< (*digiItr).size() ; ++
i ) {
390 adc[
i]=samp_crystal.adc() ;
391 adcG[
i]=samp_crystal.gainId();
393 if (
i==0) adcGain=
adcG[
i];
434 EEDetId id_crystal(digiItr->id()) ;
437 phi = id_crystal.ix() ;
438 eta = id_crystal.iy() ;
440 int iX = (
phi-1)/5+1;
441 int iY = (
eta-1)/5+1;
447 int channelID=elecid_crystal.
channelId()-1;
458 assert ( channel <
nCrys );
470 if( (*digiItr).size()>10)
std::cout <<
"SAMPLES SIZE > 10!" << (*digiItr).size()<< std::endl;
474 for (
unsigned int i=0;
i< (*digiItr).size() ; ++
i ) {
477 adc[
i]=samp_crystal.adc() ;
478 adcG[
i]=samp_crystal.gainId();
481 if (
i==0) adcGain=
adcG[
i];
517 std::cout <<
"\n\t+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+" << std::endl;
518 std::cout <<
"\t+=+ Analyzing data: getting (alpha, beta) +=+" << std::endl;
546 std::cout <<
"\n\t+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+" << std::endl;
547 std::cout <<
"\t+=+ Analyzing data: getting (alpha, beta) +=+" << std::endl;
548 TFile *fAB=0; TTree *ABInit=0;
553 ABInit = (TTree*) fAB->Get(
"ABCol0");
559 double BadGainEvtPercentage=0.0;
560 double BadTimingEvtPercentage=0.0;
563 int nChanBadTiming=0;
580 double BadGainChanPercentage=double(nChanBadGain)/double(nCrys);
581 double BadTimingChanPercentage=double(nChanBadTiming)/double(nCrys);
588 std::cout <<
"\t+=+ ............................ WARNING! APD GAIN WAS NOT 1 +=+" << std::endl;
590 std::cout <<
"\t+=+ ............................ WARNING! TIMING WAS BAD +=+" << std::endl;
592 std::cout <<
"\t+=+ .................................... done +=+" << std::endl;
593 std::cout <<
"\t+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+" << std::endl;
void addEntry(double val)
static XYCoord localCoord(int icr)
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
std::string digiProducer_
std::string alphainitfile
int xtalId() const
get the channel id
std::string eventHeaderProducer_
boost::transform_iterator< IterHelp, boost::counting_iterator< int > > const_iterator
int stripId() const
get the tower id
double getDelta(int, int)
#define DEFINE_FWK_MODULE(type)
Ecal readout channel identification [32:20] Unused (so far) [19:13] DCC id [12:6] tower [5:3] strip [...
static int side(SuperCrysCoord iX, SuperCrysCoord iY, int iz)
std::vector< EcalDCCHeaderBlock >::const_iterator const_iterator
void computeShape(std::string namefile, TTree *)
int towerId() const
get the tower id
unsigned int _firstsample
const_iterator begin() const
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
std::vector< int > colors
std::string link(std::string &nm, std::string &ns)
int hashedIndex(int ieta, int iphi)
EcalElectronicsId getElectronicsId(const DetId &id) const
Get the electronics id for this det id.
static int electronic_channel(EBLocalCoord ix, EBLocalCoord iy)
EcalABAnalyzer(const edm::ParameterSet &iConfig)
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
bool getByLabel(InputTag const &tag, Handle< PROD > &result) const
unsigned int nevtAB[1700]
unsigned int _timingcuthigh
const_iterator end() const
static int side(EBGlobalCoord ieta, EBGlobalCoord iphi)
T const * product() const
std::map< int, int > channelMapEE
T const * product() const
const_iterator end() const
std::string digiCollection_
unsigned int _timingqualhigh
std::string eventHeaderCollection_
virtual void analyze(const edm::Event &e, const edm::EventSetup &c)
unsigned int _timingcutlow
EcalLogicID towerID(EcalElectronicsId const &)
unsigned int _timingquallow
int channelId() const
so far for EndCap only :
const_iterator begin() const