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ClusterProducerFP420 Class Reference

#include <ClusterProducerFP420.h>

Public Types

typedef std::vector
< HDigiFP420 >::const_iterator 
HDigiFP420Iter
 

Public Member Functions

float channelThresholdInNoiseSigma () const
 
std::vector< ClusterFP420clusterizeDetUnit (HDigiFP420Iter begin, HDigiFP420Iter end, unsigned int detid, const ElectrodNoiseVector &vnoise)
 
std::vector< ClusterFP420clusterizeDetUnitPixels (HDigiFP420Iter begin, HDigiFP420Iter end, unsigned int detid, const ElectrodNoiseVector &vnoise, unsigned int xytype, int verb)
 
 ClusterProducerFP420 (float electrode_thr, float seed_thr, float clust_thr, int max_voids)
 
float clusterThresholdInNoiseSigma () const
 
int difNarr (unsigned int xytype, HDigiFP420Iter ichannel, HDigiFP420Iter jchannel)
 
int difWide (unsigned int xytype, HDigiFP420Iter ichannel, HDigiFP420Iter jchannel)
 
float seedThresholdInNoiseSigma () const
 

Private Member Functions

bool badChannel (int channel, const std::vector< short > &badChannels) const
 

Private Attributes

int max_voids_
 
float theChannelThreshold
 
float theClusterThreshold
 
float theSeedThreshold
 

Detailed Description

Definition at line 13 of file ClusterProducerFP420.h.

Member Typedef Documentation

typedef std::vector<HDigiFP420>::const_iterator ClusterProducerFP420::HDigiFP420Iter

Definition at line 15 of file ClusterProducerFP420.h.

Constructor & Destructor Documentation

ClusterProducerFP420::ClusterProducerFP420 ( float  electrode_thr,
float  seed_thr,
float  clust_thr,
int  max_voids 
)
inline

Definition at line 17 of file ClusterProducerFP420.h.

18  : theChannelThreshold(electrode_thr),
19  theSeedThreshold(seed_thr),
20  theClusterThreshold(clust_thr),
21  max_voids_(max_voids){};

Member Function Documentation

bool ClusterProducerFP420::badChannel ( int  channel,
const std::vector< short > &  badChannels 
) const
private

Definition at line 12 of file ClusterProducerFP420.cc.

References spr::find().

12  {
13  const std::vector<short>::size_type linearCutoff = 20; // number of possible bad channels
14  // check: is it bad cnannel or not
15  /*
16  std::cout
17  << "badChannel: badChannels.size()= " << badChannels.size() << " \t"
18  << "badChannel: hardcoded linearCutoff= " << linearCutoff << " \t"
19  << "badChannel: channel= " << channel << " \t"
20  << std::endl;
21 */
22  if (badChannels.size() < linearCutoff) {
23  return (std::find(badChannels.begin(), badChannels.end(), channel) != badChannels.end());
24  } else
25  return std::binary_search(badChannels.begin(), badChannels.end(), channel);
26 }
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:19
uint16_t size_type
float ClusterProducerFP420::channelThresholdInNoiseSigma ( ) const
inline

Definition at line 37 of file ClusterProducerFP420.h.

References theChannelThreshold.

std::vector< ClusterFP420 > ClusterProducerFP420::clusterizeDetUnit ( HDigiFP420Iter  begin,
HDigiFP420Iter  end,
unsigned int  detid,
const ElectrodNoiseVector vnoise 
)

Definition at line 38 of file ClusterProducerFP420.cc.

References SplitLinear::begin, RecoTauCleanerPlugins::charge, gather_cfg::cout, submitPVValidationJobs::err, mps_fire::i, dqmiolumiharvest::j, and mathSSE::sqrt().

41  {
42  // const std::vector<short>& badChannels)
43 
44  //reminder: int zScale=2; unsigned int detID = sScale*(sector - 1)+zScale*(zmodule - 1)+xytype;
45  // const int maxBadChannels_ = 1;
46  HDigiFP420Iter ibeg, iend, ihigh, itest, i;
47  ibeg = iend = begin;
48  std::vector<HDigiFP420> cluster_digis;
49  // reserve 15 possible channels for one cluster
50  cluster_digis.reserve(15);
51  // reserve one third of digiRange for number of clusters
52  std::vector<ClusterFP420> rhits;
53  rhits.reserve((end - begin) / 3 + 1);
54  // predicate(declare): take noise above seed_thr
55  AboveSeed predicate(seedThresholdInNoiseSigma(), vnoise);
56  //Check if channel is lower than vnoise.size()
57  itest = end - 1;
58  int vnoisesize = vnoise.size();
59  // if (vnoise.size()<=itest->channel()) // old
60  if (vnoisesize <= itest->channel()) {
61  std::cout << "WARNING for detid " << detid << " there will be a request for noise for channel seed"
62  << itest->channel() << " but this detid has vnoise.size= " << vnoise.size() << "\nskip" << std::endl;
63  return rhits;
64  }
65  //
66  // loop in elements above seed_thr
67  // find seed with seed noise above seed_thr
68  while (ibeg != end && (ihigh = find_if(ibeg, end, predicate)) != end) {
69  // The seed electrode is ihigh. Scan up and down from it, finding nearby(sosednie) electrodes above
70  // threshold, allowing for some voids. The accepted cluster runs from electrode ibeg
71  // to iend, and itest is the electrode under study, not yet accepted.
72 
73  // go to right side:
74  iend = ihigh;
75  itest = iend + 1;
76  while (itest != end && (itest->channel() - iend->channel() <= max_voids_ + 1)) {
77  float channelNoise = vnoise[itest->channel()].getNoise();
78  bool IsBadChannel = vnoise[itest->channel()].getDisable();
79  if (!IsBadChannel && itest->adc() >= static_cast<int>(channelThresholdInNoiseSigma() * channelNoise)) {
80  iend = itest;
81  }
82  ++itest;
83  }
84  //if the next digi after iend is an adjacent bad(!) digi then insert into candidate cluster
85  itest = iend + 1;
86  if (itest != end && (itest->channel() - iend->channel() == 1) && vnoise[itest->channel()].getDisable()) {
87  std::cout << "Inserted bad electrode at the end edge iend->channel()= " << iend->channel()
88  << " itest->channel() = " << itest->channel() << std::endl;
89  iend++;
90  }
91  // go to left side:
92  ibeg = ihigh;
93  itest = ibeg - 1;
94  while (itest >= begin && (ibeg->channel() - itest->channel() <= max_voids_ + 1)) {
95  float channelNoise = vnoise[itest->channel()].getNoise();
96  bool IsBadChannel = vnoise[itest->channel()].getDisable();
97  if (!IsBadChannel && itest->adc() >= static_cast<int>(channelThresholdInNoiseSigma() * channelNoise)) {
98  ibeg = itest;
99  }
100  --itest;
101  }
102  //if the next digi after ibeg is an adiacent bad digi then insert into candidate cluster
103  itest = ibeg - 1;
104  if (itest >= begin && (ibeg->channel() - itest->channel() == 1) && vnoise[itest->channel()].getDisable()) {
105  std::cout << "Inserted bad electrode at the begin edge ibeg->channel()= " << ibeg->channel()
106  << " itest->channel() = " << itest->channel() << std::endl;
107  ibeg--;
108  }
109  //============================================================================================================
110  int charge = 0;
111  float sigmaNoise2 = 0;
112  cluster_digis.clear();
113  for (i = ibeg; i <= iend; ++i) {
114  float channelNoise = vnoise[i->channel()].getNoise();
115  bool IsBadChannel = vnoise[i->channel()].getDisable();
116  //just check for consecutive digis
117  if (i != ibeg && i->channel() - (i - 1)->channel() != 1) {
118  //digits: *(i-1) and *i are not consecutive(we asked !=1-> it means 2...),so create an equivalent number of Digis with zero amp
119  for (int j = (i - 1)->channel() + 1; j < i->channel(); ++j) {
120  cluster_digis.push_back(HDigiFP420(j, 0)); //if electrode bad or under threshold set HDigiFP420.adc_=0
121  }
122  }
123  //
124 
125  // FIXME: should the digi be tested for badChannel before using the adc?
126 
127  if (!IsBadChannel && i->adc() >= static_cast<int>(channelThresholdInNoiseSigma() * channelNoise)) {
128  charge += i->adc();
129  sigmaNoise2 += channelNoise * channelNoise; //
130  cluster_digis.push_back(*i); // put into cluster_digis good i info
131  } else {
132  cluster_digis.push_back(
133  HDigiFP420(i->channel(), 0)); //if electrode bad or under threshold set HDigiFP420.adc_=0
134  }
135  //
136  } //for i++
137  float sigmaNoise = sqrt(sigmaNoise2);
138  // define here cog,err,xytype not used
139  float cog;
140  float err;
141  unsigned int xytype = 2; // it can be even =1,although we are working with =2(Xtypes of planes)
142  if (charge >= static_cast<int>(clusterThresholdInNoiseSigma() * sigmaNoise)) {
143  rhits.push_back(ClusterFP420(
144  detid, xytype, ClusterFP420::HDigiFP420Range(cluster_digis.begin(), cluster_digis.end()), cog, err));
145  // std::cout << "Looking at cog and err : cog " << cog << " err " << err << std::endl;
146  }
147  ibeg = iend + 1;
148  } // while ( ibeg
149  return rhits;
150 }
float channelThresholdInNoiseSigma() const
T sqrt(T t)
Definition: SSEVec.h:19
std::vector< HDigiFP420 >::const_iterator HDigiFP420Iter
std::pair< HDigiFP420Iter, HDigiFP420Iter > HDigiFP420Range
Definition: ClusterFP420.h:10
float clusterThresholdInNoiseSigma() const
string end
Definition: dataset.py:937
float seedThresholdInNoiseSigma() const
tuple cout
Definition: gather_cfg.py:144
std::vector< ClusterFP420 > ClusterProducerFP420::clusterizeDetUnitPixels ( HDigiFP420Iter  begin,
HDigiFP420Iter  end,
unsigned int  detid,
const ElectrodNoiseVector vnoise,
unsigned int  xytype,
int  verb 
)

Definition at line 179 of file ClusterProducerFP420.cc.

References SplitLinear::begin, RecoTauCleanerPlugins::charge, gather_cfg::cout, submitPVValidationJobs::err, mps_fire::i, dqmiolumiharvest::j, and mathSSE::sqrt().

Referenced by FP420ClusterMain::run().

184  {
185  // const std::vector<short>& badChannels)
186 
187  //reminder: int zScale=2; unsigned int detID = sScale*(sector - 1)+zScale*(zmodule - 1)+xytype;
188 
189  // const int maxBadChannels_ = 1;
190 
191  HDigiFP420Iter ibeg, iend, ihigh, itest, i;
192  ibeg = iend = begin;
193  std::vector<HDigiFP420> cluster_digis;
194 
195  // reserve 25 possible channels for one cluster
196  cluster_digis.reserve(25);
197 
198  // reserve one third of digiRange for number of clusters
199  std::vector<ClusterFP420> rhits;
200  rhits.reserve((end - begin) / 3 + 1);
201 
202  // predicate(declare): take noise above seed_thr
203  AboveSeed predicate(seedThresholdInNoiseSigma(), vnoise);
204 
205  //Check if no channels with digis at all
206  /*
207  HDigiFP420Iter abeg, aend;
208  abeg = begin; aend = end;
209  std::vector<HDigiFP420> a_digis;
210  for ( ;abeg != aend; ++abeg ) {
211  a_digis.push_back(*abeg);
212  } // for
213  if (a_digis.size()<1) return rhits;;
214 */
215  //Check if channel is lower than vnoise.size()
216  itest = end - 1;
217  int vnoisesize = vnoise.size();
218  if (vnoisesize <= itest->channel()) {
219  // std::cout << "WARNING for detid " << detid << " there will be a request for noise for channel seed" << itest->channel() << " but this detid has vnoise.size= " << vnoise.size() << "\nskip"<< std::endl;
220  return rhits;
221  }
222  //&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&
223 
224  // std::cout << "before while loop..." << std::endl;
225 
226  // loop in elements above seed_thr
227  // find seed with seed noise above seed_thr
228  while (ibeg != end && (ihigh = find_if(ibeg, end, predicate)) != end) {
229  // The seed electrode is ihigh. Scan up and down from it, finding nearby(sosednie) electrodes above
230  // threshold, allowing for some voids. The accepted cluster runs from electrode ibeg
231  // to iend, and itest is the electrode under study, not yet accepted.
232 
233  // go to right side:
234  iend = ihigh;
235  itest = iend + 1;
236  // while ( itest != end && (itest->channel() - iend->channel() <= max_voids_ + 1 )) {
237  while (itest != end && (difNarr(xytype, itest, iend) <= max_voids_ + 1) && (difWide(xytype, itest, iend) <= 1)) {
238  float channelNoise = vnoise[itest->channel()].getNoise();
239  bool IsBadChannel = vnoise[itest->channel()].getDisable();
240  if (!IsBadChannel && itest->adc() >= static_cast<int>(channelThresholdInNoiseSigma() * channelNoise)) {
241  iend = itest;
242  if (verb > 2) {
243  std::cout << "=========================================================================== " << std::endl;
244  std::cout << "Right side: itest->adc()= " << itest->adc()
245  << " channel_noise = " << static_cast<int>(channelThresholdInNoiseSigma() * channelNoise)
246  << std::endl;
247  }
248  }
249  ++itest;
250  }
251  //if the next digi after iend is an adjacent bad(!) digi then insert into candidate cluster
252  itest = iend + 1;
253  if (itest != end && (difNarr(xytype, itest, iend) == 1) && (difWide(xytype, itest, iend) < 1) &&
254  vnoise[itest->channel()].getDisable()) {
255  if (verb > 2) {
256  std::cout << "Inserted bad electrode at the end edge iend->channel()= " << iend->channel()
257  << " itest->channel() = " << itest->channel() << std::endl;
258  }
259  iend++;
260  }
261  if (verb > 2) {
262  std::cout << "Result of going to right side iend->channel()= " << iend->channel()
263  << " itest->channel() = " << itest->channel() << std::endl;
264  }
265 
266  // go to left side:
267  ibeg = ihigh;
268  itest = ibeg - 1;
269  // while ( itest >= begin && (ibeg->channel() - itest->channel() <= max_voids_ + 1 )) {
270  while (itest >= begin && (difNarr(xytype, ibeg, itest) <= max_voids_ + 1) && (difWide(xytype, ibeg, itest) <= 1)) {
271  float channelNoise = vnoise[itest->channel()].getNoise();
272  bool IsBadChannel = vnoise[itest->channel()].getDisable();
273  if (!IsBadChannel && itest->adc() >= static_cast<int>(channelThresholdInNoiseSigma() * channelNoise)) {
274  ibeg = itest;
275  if (verb > 2) {
276  std::cout << "Left side: itest->adc()= " << itest->adc()
277  << " channel_noise = " << static_cast<int>(channelThresholdInNoiseSigma() * channelNoise)
278  << std::endl;
279  }
280  }
281  --itest;
282  }
283  //if the next digi after ibeg is an adjacent bad digi then insert into candidate cluster
284  itest = ibeg - 1;
285  if (itest >= begin && (difNarr(xytype, ibeg, itest) == 1) && (difWide(xytype, ibeg, itest) < 1) &&
286  vnoise[itest->channel()].getDisable()) {
287  if (verb > 2) {
288  std::cout << "Inserted bad electrode at the begin edge ibeg->channel()= " << ibeg->channel()
289  << " itest->channel() = " << itest->channel() << std::endl;
290  }
291  ibeg--;
292  }
293  if (verb > 2) {
294  std::cout << "Result of going to left side ibeg->channel()= " << ibeg->channel()
295  << " itest->channel() = " << itest->channel() << std::endl;
296  }
297  //============================================================================================================
298 
299  //============================================================================================================
300  int charge = 0;
301  float sigmaNoise2 = 0;
302  cluster_digis.clear();
303  // HDigiFP420Iter ilast=ibeg; // AZ
304  if (verb > 2) {
305  std::cout << "check for consecutive digis ibeg->channel()= " << ibeg->channel()
306  << " iend->channel() = " << iend->channel() << std::endl;
307  }
308  for (i = ibeg; i <= iend; ++i) {
309  float channelNoise = vnoise[i->channel()].getNoise();
310  bool IsBadChannel = vnoise[i->channel()].getDisable();
311  if (verb > 2) {
312  std::cout << "Looking at cluster digis: detid " << detid << " digis " << i->channel() << " adc " << i->adc()
313  << " channelNoise " << channelNoise << " IsBadChannel " << IsBadChannel << std::endl;
314  }
315 
316  //just check for consecutive digis
317  // if (i!=ibeg && i->channel()-(i-1)->channel()!=1){
318  //if (i!=ibeg && difNarr(xytype,i,i-1) !=1 && difWide(xytype,i,i-1) !=1){
319  if (verb > 2) {
320  std::cout << "difNarr(xytype,i,i-1) = " << difNarr(xytype, i, i - 1) << std::endl;
321  std::cout << "difWide(xytype,i,i-1) = " << difWide(xytype, i, i - 1) << std::endl;
322  }
323  // in fact, no sense in this check, but still keep if something wrong is going:
324  // if (i!=ibeg && (difNarr(xytype,i,i-1) > 1 || difWide(xytype,i,i-1) > 1) ){
325  if (i != ibeg && (difNarr(xytype, i, i - 1) > 1 && difWide(xytype, i, i - 1) > 1)) {
326  //digits: *(i-1) and *i are not consecutive(we asked !=1-> it means 2...),so create an equivalent number of Digis with zero amp
327  for (int j = (i - 1)->channel() + 1; j < i->channel(); ++j) {
328  if (verb > 2) {
329  std::cout << "not consecutive digis: set HDigiFP420.adc_=0 : j = " << j << std::endl;
330  }
331  cluster_digis.push_back(HDigiFP420(j, 0)); //if not consecutive digis set HDigiFP420.adc_=0
332  } //for
333  } //if
334 
335  if (!IsBadChannel && i->adc() >= static_cast<int>(channelThresholdInNoiseSigma() * channelNoise)) {
336  charge += i->adc();
337  sigmaNoise2 += channelNoise * channelNoise; //
338  cluster_digis.push_back(*i); // put into cluster_digis good i info
339  if (verb > 2) {
340  std::cout << "put into cluster_digis good i info: i->channel() = " << i->channel() << std::endl;
341  }
342  } else {
343  cluster_digis.push_back(
344  HDigiFP420(i->channel(), 0)); //if electrode bad or under threshold set HDigiFP420.adc_=0
345  if (verb > 2) {
346  std::cout << "else if electrode bad or under threshold set HDigiFP420.adc_=0: i->channel() = " << i->channel()
347  << std::endl;
348  }
349  } //if else
350 
351  } //for i++
352 
353  float sigmaNoise = sqrt(sigmaNoise2);
354  float cog;
355  float err;
356  if (charge >= static_cast<int>(clusterThresholdInNoiseSigma() * sigmaNoise)) {
357  rhits.push_back(ClusterFP420(
358  detid, xytype, ClusterFP420::HDigiFP420Range(cluster_digis.begin(), cluster_digis.end()), cog, err));
359  if (verb > 2) {
360  std::cout << "Looking at cog and err : cog " << cog << " err " << err << std::endl;
361  std::cout << "=========================================================================== " << std::endl;
362  }
363  }
364 
365  ibeg = iend + 1;
366  } // while ( ibeg
367 
368  return rhits;
369 }
float channelThresholdInNoiseSigma() const
T sqrt(T t)
Definition: SSEVec.h:19
std::vector< HDigiFP420 >::const_iterator HDigiFP420Iter
std::pair< HDigiFP420Iter, HDigiFP420Iter > HDigiFP420Range
Definition: ClusterFP420.h:10
int difNarr(unsigned int xytype, HDigiFP420Iter ichannel, HDigiFP420Iter jchannel)
float clusterThresholdInNoiseSigma() const
string end
Definition: dataset.py:937
float seedThresholdInNoiseSigma() const
int difWide(unsigned int xytype, HDigiFP420Iter ichannel, HDigiFP420Iter jchannel)
tuple cout
Definition: gather_cfg.py:144
float ClusterProducerFP420::clusterThresholdInNoiseSigma ( ) const
inline

Definition at line 39 of file ClusterProducerFP420.h.

References theClusterThreshold.

int ClusterProducerFP420::difNarr ( unsigned int  xytype,
HDigiFP420Iter  ichannel,
HDigiFP420Iter  jchannel 
)

Definition at line 152 of file ClusterProducerFP420.cc.

References funct::abs(), gather_cfg::cout, and ztail::d.

152  {
153  int d = 9999;
154  if (xytype == 2) {
155  d = ichannel->stripV() - jchannel->stripV();
156  d = std::abs(d);
157  } else if (xytype == 1) {
158  d = ichannel->stripH() - jchannel->stripH();
159  d = std::abs(d);
160  } else {
161  std::cout << "difNarr: wrong xytype = " << xytype << std::endl;
162  }
163  return d;
164 }
tuple d
Definition: ztail.py:151
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
tuple cout
Definition: gather_cfg.py:144
int ClusterProducerFP420::difWide ( unsigned int  xytype,
HDigiFP420Iter  ichannel,
HDigiFP420Iter  jchannel 
)

Definition at line 165 of file ClusterProducerFP420.cc.

References funct::abs(), gather_cfg::cout, and ztail::d.

165  {
166  int d = 9999;
167  if (xytype == 2) {
168  d = ichannel->stripVW() - jchannel->stripVW();
169  d = std::abs(d);
170  } else if (xytype == 1) {
171  d = ichannel->stripHW() - jchannel->stripHW();
172  d = std::abs(d);
173  } else {
174  std::cout << "difWide: wrong xytype = " << xytype << std::endl;
175  }
176  return d;
177 }
tuple d
Definition: ztail.py:151
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
tuple cout
Definition: gather_cfg.py:144
float ClusterProducerFP420::seedThresholdInNoiseSigma ( ) const
inline

Definition at line 38 of file ClusterProducerFP420.h.

References theSeedThreshold.

38 { return theSeedThreshold; }

Member Data Documentation

int ClusterProducerFP420::max_voids_
private

Definition at line 45 of file ClusterProducerFP420.h.

float ClusterProducerFP420::theChannelThreshold
private

Definition at line 42 of file ClusterProducerFP420.h.

Referenced by channelThresholdInNoiseSigma().

float ClusterProducerFP420::theClusterThreshold
private

Definition at line 44 of file ClusterProducerFP420.h.

Referenced by clusterThresholdInNoiseSigma().

float ClusterProducerFP420::theSeedThreshold
private

Definition at line 43 of file ClusterProducerFP420.h.

Referenced by seedThresholdInNoiseSigma().