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FP420ClusterMain Class Reference

#include <FP420ClusterMain.h>

Public Member Functions

 FP420ClusterMain (const edm::ParameterSet &conf, int dn, int sn, int pn, int rn)
 
void run (edm::Handle< DigiCollectionFP420 > &input, ClusterCollectionFP420 *soutput, std::vector< ClusterNoiseFP420 > &noise)
 Runs the algorithm. More...
 
 ~FP420ClusterMain ()
 

Private Attributes

double BadElectrodeProbability_
 
double ChannelThreshold
 
std::string clusterMode_
 
double ClusterThreshold
 
edm::ParameterSet conf_
 
int dn0
 
double ElectronPerADC_
 
double ENC_
 
double ldrift
 
double ldriftX
 
double ldriftY
 
int MaxVoidsInCluster
 
float moduleThickness
 
float moduleThicknessX
 
float moduleThicknessY
 
int numStrips
 
int numStripsX
 
int numStripsXW
 
int numStripsY
 
int numStripsYW
 
double pitch
 
double pitchX
 
double pitchY
 
int pn0
 
int rn0
 
double SeedThreshold
 
int sn0
 
float Thick300
 
ClusterProducerFP420threeThreshold_
 
bool UseNoiseBadElectrodeFlagFromDB_
 
bool validClusterizer_
 
int verbosity
 
int xytype
 

Detailed Description

Definition at line 26 of file FP420ClusterMain.h.

Constructor & Destructor Documentation

FP420ClusterMain::FP420ClusterMain ( const edm::ParameterSet conf,
int  dn,
int  sn,
int  pn,
int  rn 
)

Definition at line 23 of file FP420ClusterMain.cc.

References BadElectrodeProbability_, ChannelThreshold, clusterMode_, ClusterThreshold, conf_, gather_cfg::cout, dn0, ElectronPerADC_, ENC_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), ldriftX, ldriftY, MaxVoidsInCluster, moduleThicknessX, moduleThicknessY, numStripsX, numStripsXW, numStripsY, numStripsYW, pitchX, pitchY, pn0, rn0, SeedThreshold, sn0, AlCaHLTBitMon_QueryRunRegistry::string, Thick300, threeThreshold_, UseNoiseBadElectrodeFlagFromDB_, validClusterizer_, verbosity, and xytype.

23  :conf_(conf),dn0(dn),sn0(sn),pn0(pn),rn0(rn) {
24 
25  verbosity = conf_.getUntrackedParameter<int>("VerbosityLevel");
26  ElectronPerADC_ = conf_.getParameter<double>("ElectronFP420PerAdc");
27  clusterMode_ = conf_.getParameter<std::string>("ClusterModeFP420");
28  ChannelThreshold = conf_.getParameter<double>("ChannelFP420Threshold");//6
29  SeedThreshold = conf_.getParameter<double>("SeedFP420Threshold");//7
30  ClusterThreshold = conf_.getParameter<double>("ClusterFP420Threshold");//7
31  MaxVoidsInCluster = conf_.getParameter<int>("MaxVoidsFP420InCluster");//1
32 
33  if (verbosity > 0) {
34  std::cout << "FP420ClusterMain constructor: ElectronPerADC = " << ElectronPerADC_ << std::endl;
35  std::cout << " clusterMode = " << clusterMode_ << std::endl;
36  std::cout << " ChannelThreshold = " << ChannelThreshold << std::endl;
37  std::cout << " SeedThreshold = " << SeedThreshold << std::endl;
38  std::cout << " ClusterThreshold = " << ClusterThreshold << std::endl;
39  std::cout << " MaxVoidsInCluster = " << MaxVoidsInCluster << std::endl;
40  }
41  xytype=2;// only X types of planes
42  ENC_ = 960.; //
43  Thick300 = 0.300;
45  //UseNoiseBadElectrodeFlagFromDB_ = true;
47  //
48  // pitches and ldriftes:
49  //
50  ldriftX = 0.050;
51  ldriftY = 0.050;// was 0.040
52  pitchY= 0.050;// was 0.040
53  pitchX= 0.050;
54  moduleThicknessY = 0.250; // mm
55  moduleThicknessX = 0.250; // mm
56 
57  //numStripsY = 200; // Y plate number of strips:200*0.050=10mm (xytype=1)
58  //numStripsX = 400; // X plate number of strips:400*0.050=20mm (xytype=2)
59  numStripsY = 144; // Y plate number of strips:144*0.050=7.2mm (xytype=1)
60  numStripsX = 160; // X plate number of strips:160*0.050=8.0mm (xytype=2)
61 
62  //numStripsYW = 50; // Y plate number of W strips:50 *0.400=20mm (xytype=1) - W have ortogonal projection
63  //numStripsXW = 25; // X plate number of W strips:25 *0.400=10mm (xytype=2) - W have ortogonal projection
64  numStripsYW = 20; // Y plate number of W strips:20 *0.400=8.0mm (xytype=1) - W have ortogonal projection
65  numStripsXW = 18; // X plate number of W strips:18 *0.400=7.2mm (xytype=2) - W have ortogonal projection
66 
67  // sn0 = 4;
68  // pn0 = 9;
69 
70 
71  if (verbosity > 1) {
72  std::cout << "FP420ClusterMain constructor: sn0 = " << sn0 << " pn0=" << pn0 << " dn0=" << dn0 << " rn0=" << rn0 << std::endl;
73  std::cout << "FP420ClusterMain constructor: ENC = " << ENC_ << std::endl;
74  std::cout << " Thick300 = " << Thick300 << std::endl;
75  std::cout << " BadElectrodeProbability = " << BadElectrodeProbability_ << std::endl;
76  std::cout << " ldriftX = " << ldriftX << " ldriftY = " << ldriftY << std::endl;
77  std::cout << " pitchY = " << pitchY << " pitchX = " << pitchX << std::endl;
78  std::cout << " numStripsY = " << numStripsY << " numStripsX = " << numStripsX << std::endl;
79  std::cout << " moduleThicknessY = " << moduleThicknessY << " moduleThicknessX = " << moduleThicknessX << std::endl;
80  }
81 
83  if (verbosity > 0) {
84  std::cout << "using a SingleNoiseValue and good electrode flags" << std::endl;
85  }
86  } else {
87  if (verbosity > 0) {
88  std::cout << "using Noise and BadElectrode flags accessed from DB" << std::endl;
89  }
90  }
91 
92  if ( clusterMode_ == "ClusterProducerFP420" ) {
93 
94 
95  // ChannelThreshold = 6.0;// was 2.6.0 7 18
96  // SeedThreshold = 7.0;//was 3.7.0 8 20
97  // ClusterThreshold = 7.0;// was 2. 7.0 8 20
98  // MaxVoidsInCluster = 1;
99  threeThreshold_ = new ClusterProducerFP420(ChannelThreshold,
100  SeedThreshold,
101  ClusterThreshold,
102  MaxVoidsInCluster);
103  validClusterizer_ = true;
104  } else {
105  std::cout << "ERROR:FP420ClusterMain: No valid clusterizer selected" << std::endl;
106  validClusterizer_ = false;
107  }
108 }
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
ClusterProducerFP420 * threeThreshold_
double BadElectrodeProbability_
edm::ParameterSet conf_
std::string clusterMode_
bool UseNoiseBadElectrodeFlagFromDB_
tuple cout
Definition: gather_cfg.py:145
FP420ClusterMain::~FP420ClusterMain ( )

Definition at line 110 of file FP420ClusterMain.cc.

References threeThreshold_.

110  {
111  if ( threeThreshold_ != 0 ) {
112  delete threeThreshold_;
113  }
114 }
ClusterProducerFP420 * threeThreshold_

Member Function Documentation

void FP420ClusterMain::run ( edm::Handle< DigiCollectionFP420 > &  input,
ClusterCollectionFP420 soutput,
std::vector< ClusterNoiseFP420 > &  noise 
)

Runs the algorithm.

Definition at line 119 of file FP420ClusterMain.cc.

References ClusterFP420::amplitudes(), BadElectrodeProbability_, ClusterFP420::barycenter(), ClusterFP420::barycenterW(), ClusterProducerFP420::clusterizeDetUnitPixels(), clusterMode_, gather_cfg::cout, dn0, ElectronPerADC_, ENC_, plotBeamSpotDB::first, ClusterFP420::firstStrip(), ClusterCollectionFP420::get(), i, estimatePileup::inputRange, ldrift, ldriftX, ldriftY, moduleThickness, moduleThicknessX, moduleThicknessY, HLT_25ns10e33_v2_cff::noise, numStrips, numStripsX, numStripsXW, numStripsY, numStripsYW, FP420NumberingScheme::packMYIndex(), pitch, pitchX, pitchY, pn0, ClusterCollectionFP420::put(), rn0, ClusterNoiseFP420::ElectrodData::setData(), sn0, Thick300, threeThreshold_, UseNoiseBadElectrodeFlagFromDB_, validClusterizer_, verbosity, xytype, and ecaldqm::zside().

Referenced by cms::ClusterizerFP420::produce().

122 {
123  // unpack from iu:
124  // int sScale = 20, zScale=2;
125  // int sector = (iu-1)/sScale + 1 ;
126  // int zmodule = (iu - (sector - 1)*sScale - 1) /zScale + 1 ;
127  // int zside = iu - (sector - 1)*sScale - (zmodule - 1)*zScale ;
128 
129  if (verbosity > 0) {
130  std::cout << "FP420ClusterMain: OK1" << std::endl;
131  }
132  if ( validClusterizer_ ) {
133 
134  int number_detunits = 0;
135  int number_localelectroderechits = 0;
136 
137  // get vector of detunit ids
138  // const std::vector<unsigned int> detIDs = input->detIDs();
139 
140  // to be used in put (besause of 0 in cluster collection for: 1) 1st cluster and 2) case of no cluster)
141  // ignore 0, but to save info for 1st cluster record it second time on place 1 .
142 
143  bool first = true;
144  // loop over detunits
145  for (int det=1; det<dn0; det++) {
146  for (int sector=1; sector<sn0; sector++) {
147  for (int zmodule=1; zmodule<pn0; zmodule++) {
148  for (int zside=1; zside<rn0; zside++) {
149  // intindex is a continues numbering of FP420
150  unsigned int detID = FP420NumberingScheme::packMYIndex(rn0, pn0, sn0, det, zside, sector, zmodule);
151  if (verbosity > 0) {
152  std::cout << " FP420ClusterMain:1 run loop index no iu = " << detID << std::endl;
153  }
154  // Y:
155  if (xytype ==1) {
158  pitch= pitchY;
159  ldrift = ldriftX;
160  }
161  // X:
162  if (xytype ==2) {
165  pitch= pitchX;
166  ldrift = ldriftY;
167  }
168 
169 
170  // for ( std::vector<unsigned int>::const_iterator detunit_iterator = detIDs.begin(); detunit_iterator != detIDs.end(); ++detunit_iterator ) {
171  // unsigned int detID = *detunit_iterator;
172  ++number_detunits;
173 
174  // .
175  // GET DIGI collection !!!!
176  // .
177  // const DigiCollectionFP420::Range digiRange = input->get(detID);
178  DigiCollectionFP420::Range digiRange;
179  std::vector<HDigiFP420> dcollector;
180  // if (dcollector.size()>0){
181  if (verbosity > 0) {
182  std::cout << " FP420ClusterMain:2 number_detunits = " << number_detunits << std::endl;
183  }
184  digiRange = input->get(detID);
185  //digiRange = input.get(detID);
186  // }
187 
188  if (verbosity > 0) {
189  std::cout << " FP420ClusterMain: input->get DONE dcollector.size()=" << dcollector.size() << std::endl;
190  }
191 
192  DigiCollectionFP420::ContainerIterator sort_begin = digiRange.first;
193  DigiCollectionFP420::ContainerIterator sort_end = digiRange.second;
194  for ( ;sort_begin != sort_end; ++sort_begin ) {
195  dcollector.push_back(*sort_begin);
196  } // for
197  if (dcollector.size()>0) {
198 
199  DigiCollectionFP420::ContainerIterator digiRangeIteratorBegin = digiRange.first;
200  DigiCollectionFP420::ContainerIterator digiRangeIteratorEnd = digiRange.second;
201  if (verbosity > 0) {
202  std::cout << " FP420ClusterMain: channel Begin = " << (digiRangeIteratorBegin)->channel() << std::endl;
203  std::cout << " FP420ClusterMain: channel end = " << (digiRangeIteratorEnd-1)->channel() << std::endl;
204  }
205  if (verbosity > 0) {
206  std::cout << " FP420ClusterMain:3 noise treatment " << std::endl;
207  }
208  if ( clusterMode_ == "ClusterProducerFP420" ) {
209 
210  std::vector<ClusterFP420> collector;
211  // std::vector<ClusterFP420> collector;
212 
213  if (UseNoiseBadElectrodeFlagFromDB_==false){
214 
215  //Case of SingleValueNoise flags for all electrodes of a Detector
216 
217 
218  //float noise = ENC_*ldrift/Thick300/ElectronPerADC_;//Noise is proportional to charge collection path
219  float noise = ENC_*moduleThickness/Thick300/ElectronPerADC_;//Noise is proportional to moduleThickness
220 
221  //vector<float> noiseVec(numElectrodes,noise);
222  //Construct a ElectrodNoiseVector ( in order to be compliant with the DB access)
223  ElectrodNoiseVector vnoise;
224  ClusterNoiseFP420::ElectrodData theElectrodData;
225 
226  if (verbosity > 0) {
227  std::cout << " FP420ClusterMain:4 numStrips = " << numStrips << std::endl;
228  }
229  for(int electrode=0; electrode < numStrips; ++electrode){
230  // discard randomly bad electrode with probability BadElectrodeProbability_
231  bool badFlag= CLHEP::RandFlat::shoot(1.) < BadElectrodeProbability_ ? true : false;
232  theElectrodData.setData(noise,badFlag);
233  vnoise.push_back(theElectrodData);// fill vector vnoise
234  } // for
235 
236  if (verbosity > 0) {
237  std::cout << " FP420ClusterMain:5 BadElectrodeProbability added " << std::endl;
238  }
239  //clusterizeDetUnit or clusterizeDetUnitPixels !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
240  collector.clear();
241  // std::vector<ClusterFP420> collector;
242  // collector = threeThreshold_->clusterizeDetUnit(digiRangeIteratorBegin,digiRangeIteratorEnd,detID,vnoise);
243  // if (dcollector.size()>0){
244  collector = threeThreshold_->clusterizeDetUnitPixels(digiRangeIteratorBegin,digiRangeIteratorEnd,detID,vnoise,xytype,verbosity);
245  // }
246  if (verbosity > 0) {
247  std::cout << " FP420ClusterMain:6 threeThreshold OK " << std::endl;
248  }
249 
250 
251  } else {
252  //Case of Noise and BadElectrode flags access from DB
253  /*
254  const ElectrodNoiseVector& vnoise = electrodnoise->getElectrodNoiseVector(detID);
255 
256  if (vnoise.size() <= 0) {
257  std::cout << "WARNING requested Noise Vector for detID " << detID << " that isn't in map " << std::endl;
258  continue;
259  }
260  collector.clear();
261  collector = threeThreshold_->clusterizeDetUnit(digiRangeIteratorBegin,digiRangeIteratorEnd,detID,vnoise);
262  */
263 
264 
265  }// if (UseNoiseBadElectrodeFlagFromDB
266 
267  if (collector.size()>0){
269  inputRange.first = collector.begin();
270  inputRange.second = collector.end();
271 
272  if (verbosity > 0) {
273  std::cout << " FP420ClusterMain:7 collector.size()>0 " << std::endl;
274  }
275  if ( first ) {
276  // use it only if ClusterCollectionFP420 is the ClusterCollection of one event, otherwise, do not use (loose 1st cl. of 1st event only)
277  first = false;
278  unsigned int detID0 = 0;
279  if (verbosity > 0) {
280  std::cout << " FP420ClusterMain:8 first soutput->put " << std::endl;
281  }
282  soutput->put(inputRange,detID0); // !!! put into adress 0 for detID which will not be used never
283  } //if ( first )
284 
285  // !!! put
286  if (verbosity > 0) {
287  std::cout << " FP420ClusterMain:9 soutput->put " << std::endl;
288  }
289  soutput->put(inputRange,detID);
290 
291  number_localelectroderechits += collector.size();
292  } // if (collector.size
293  }// if ( clusterMode
294  if (verbosity > 0) {
295  std::cout << "[FP420ClusterMain] execution in mode " << clusterMode_ << " generating " << number_localelectroderechits << " ClusterFP420s in " << number_detunits << " DetUnits." << std::endl;
296  }//if (verb
297  }// if (dcollector.siz
298  }//for
299  }//for
300  }//for
301  }//for
302 
303  if (verbosity == -50 ) {
304 
305  // check of access to the collector:
306  for (int det=1; det<dn0; det++) {
307  for (int sector=1; sector<sn0; sector++) {
308  for (int zmodule=1; zmodule<pn0; zmodule++) {
309  for (int zside=1; zside<rn0; zside++) {
310  // intindex is a continues numbering of FP420
311  unsigned int iu = FP420NumberingScheme::packMYIndex(rn0, pn0, sn0, det, zside, sector, zmodule);
312  std::cout <<" iu = " << iu <<" sector = " << sector <<" zmodule = " << zmodule <<" zside = " << zside << " det=" << det << std::endl;
313  std::vector<ClusterFP420> collector;
314  collector.clear();
315  ClusterCollectionFP420::Range outputRange;
316  outputRange = soutput->get(iu);
317  // fill output in collector vector (for may be sorting? or other checks)
318  ClusterCollectionFP420::ContainerIterator sort_begin = outputRange.first;
319  ClusterCollectionFP420::ContainerIterator sort_end = outputRange.second;
320  for ( ;sort_begin != sort_end; ++sort_begin ) {
321  collector.push_back(*sort_begin);
322  } // for
323  std::cout <<" ===" << std::endl;
324  std::cout <<" ===" << std::endl;
325  std::cout <<" =========== FP420ClusterMain:check: iu= " << iu << " zside = " << zside << std::endl;
326  std::cout <<" ======renew collector size = " << collector.size() << std::endl;
327  std::cout <<" ===" << std::endl;
328  std::cout <<" ===" << std::endl;
329  std::vector<ClusterFP420>::const_iterator simHitIter = collector.begin();
330  std::vector<ClusterFP420>::const_iterator simHitIterEnd = collector.end();
331  // loop in #clusters
332  for (;simHitIter != simHitIterEnd; ++simHitIter) {
333  const ClusterFP420 icluster = *simHitIter;
334  // if(icluster.amplitudes().size()>390) {
335  std::cout << " ===== size of cluster= " << icluster.amplitudes().size() << std::endl;
336  std::cout <<" ===" << std::endl;
337  std::cout << " ===== firstStrip = " << icluster.firstStrip() << " barycenter = " << icluster.barycenter() << " barycenterW = " << icluster.barycenterW() << std::endl;
338  std::cout <<" ===" << std::endl;
339  for(unsigned int i = 0; i < icluster.amplitudes().size(); i++ ) {
340  std::cout << "i = " << i << " amplitudes = " << icluster.amplitudes()[i] << std::endl;
341  }// for ampl
342  std::cout <<" ===" << std::endl;
343  std::cout <<" ===" << std::endl;
344  std::cout <<" =======================" << std::endl;
345  // }// if(icluster.amplitudes().size()>390
346  }//for cl
347 
348  /*
349  for (DigitalMapType::const_iterator i=collector.begin(); i!=collector.end(); i++) {
350  std::cout << "DigitizerFP420:check: HDigiFP420:: " << std::endl;
351  std::cout << " strip number is as (*i).first = " << (*i).first << " adc is in (*i).second = " << (*i).second << std::endl;
352  }
353  */
354 
355  //==================================
356 
357  } // for
358  } // for
359  } // for
360  } // for
361 
362  // end of check of access to the strip collection
363  std::cout <<"======= FP420ClusterMain: end of check " << std::endl;
364 
365  }// if (verbosit
366 
367 
368 
369  }// if ( validClusterizer_
370 }
int i
Definition: DBlmapReader.cc:9
inputRange
Get input source.
std::vector< ClusterFP420 >::const_iterator ContainerIterator
ClusterProducerFP420 * threeThreshold_
std::vector< HDigiFP420 >::const_iterator ContainerIterator
std::vector< ClusterNoiseFP420::ElectrodData > ElectrodNoiseVector
void put(Range input, unsigned int detID)
const std::vector< short > & amplitudes() const
Definition: ClusterFP420.h:29
float barycenter() const
Definition: ClusterFP420.h:31
int zside(DetId const &)
short firstStrip() const
Definition: ClusterFP420.h:21
double BadElectrodeProbability_
float barycenterW() const
Definition: ClusterFP420.h:34
static unsigned packMYIndex(int rn0, int pn0, int sn0, int det, int zside, int sector, int zmodule)
std::string clusterMode_
std::pair< ContainerIterator, ContainerIterator > Range
const Range get(unsigned int detID) const
std::vector< ClusterFP420 > clusterizeDetUnitPixels(HDigiFP420Iter begin, HDigiFP420Iter end, unsigned int detid, const ElectrodNoiseVector &vnoise, unsigned int xytype, int verb)
bool UseNoiseBadElectrodeFlagFromDB_
tuple cout
Definition: gather_cfg.py:145
std::pair< ContainerIterator, ContainerIterator > Range

Member Data Documentation

double FP420ClusterMain::BadElectrodeProbability_
private

Definition at line 60 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

double FP420ClusterMain::ChannelThreshold
private

Definition at line 63 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain().

std::string FP420ClusterMain::clusterMode_
private

Definition at line 51 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

double FP420ClusterMain::ClusterThreshold
private

Definition at line 65 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain().

edm::ParameterSet FP420ClusterMain::conf_
private

Definition at line 54 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain().

int FP420ClusterMain::dn0
private

Definition at line 84 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

double FP420ClusterMain::ElectronPerADC_
private

Definition at line 58 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

double FP420ClusterMain::ENC_
private

Definition at line 59 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

double FP420ClusterMain::ldrift
private

Definition at line 70 of file FP420ClusterMain.h.

Referenced by run().

double FP420ClusterMain::ldriftX
private

Definition at line 68 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

double FP420ClusterMain::ldriftY
private

Definition at line 69 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

int FP420ClusterMain::MaxVoidsInCluster
private

Definition at line 66 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain().

float FP420ClusterMain::moduleThickness
private

Definition at line 76 of file FP420ClusterMain.h.

Referenced by run().

float FP420ClusterMain::moduleThicknessX
private

Definition at line 74 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

float FP420ClusterMain::moduleThicknessY
private

Definition at line 75 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

int FP420ClusterMain::numStrips
private

Definition at line 79 of file FP420ClusterMain.h.

Referenced by run().

int FP420ClusterMain::numStripsX
private

Definition at line 77 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

int FP420ClusterMain::numStripsXW
private

Definition at line 77 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

int FP420ClusterMain::numStripsY
private

Definition at line 78 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

int FP420ClusterMain::numStripsYW
private

Definition at line 78 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

double FP420ClusterMain::pitch
private

Definition at line 73 of file FP420ClusterMain.h.

Referenced by run().

double FP420ClusterMain::pitchX
private

Definition at line 71 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

double FP420ClusterMain::pitchY
private

Definition at line 72 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

int FP420ClusterMain::pn0
private

Definition at line 88 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

int FP420ClusterMain::rn0
private

Definition at line 90 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

double FP420ClusterMain::SeedThreshold
private

Definition at line 64 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain().

int FP420ClusterMain::sn0
private

Definition at line 86 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

float FP420ClusterMain::Thick300
private

Definition at line 81 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

ClusterProducerFP420* FP420ClusterMain::threeThreshold_
private

Definition at line 50 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), run(), and ~FP420ClusterMain().

bool FP420ClusterMain::UseNoiseBadElectrodeFlagFromDB_
private

Definition at line 61 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

bool FP420ClusterMain::validClusterizer_
private

Definition at line 57 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

int FP420ClusterMain::verbosity
private

Definition at line 94 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().

int FP420ClusterMain::xytype
private

Definition at line 92 of file FP420ClusterMain.h.

Referenced by FP420ClusterMain(), and run().