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L1GetHistLimits Class Reference

#include <L1GetHistLimits.h>

Classes

struct  L1HistLimits
 

Public Member Functions

 L1GetHistLimits (const edm::EventSetup &evSetup)
 
const std::vector< float > & l1HistBinThresholds (const L1GtObject &l1GtObject, const std::string &quantity)
 
const L1HistLimitsl1HistLimits (const L1GtObject &l1GtObject, const std::string &quantity)
 
const L1HistLimitsl1HistLimits (const L1GtObject &l1GtObject, const std::string &quantity, const double histMinValue, const double histMaxValue)
 
const double l1HistLowerBinValue (const L1GtObject &l1GtObject, const std::string &quantity)
 
const int l1HistNrBins (const L1GtObject &l1GtObject, const std::string &quantity)
 
const double l1HistUpperBinValue (const L1GtObject &l1GtObject, const std::string &quantity)
 
virtual ~L1GetHistLimits ()
 

Private Member Functions

void getHistLimits (const L1GtObject &l1GtObject, const std::string &quantity)
 

Private Attributes

const edm::EventSetupm_evSetup
 
L1HistLimits m_l1HistLimits
 all limits for a histogram More...
 

Detailed Description

Description: use L1 scales to define histogram limits for L1 trigger objects.

Implementation: <TODO: enter implementation details>

Author
: Vasile Mihai Ghete - HEPHY Vienna

Definition at line 52 of file L1GetHistLimits.h.

Constructor & Destructor Documentation

L1GetHistLimits::L1GetHistLimits ( const edm::EventSetup evSetup)
explicit

Definition at line 36 of file L1GetHistLimits.cc.

36  :
37  m_evSetup(evSetup) {
38 
39  //
40 
41 }
const edm::EventSetup & m_evSetup
L1GetHistLimits::~L1GetHistLimits ( )
virtual

Definition at line 44 of file L1GetHistLimits.cc.

44  {
45 
46  // empty
47 
48 }

Member Function Documentation

void L1GetHistLimits::getHistLimits ( const L1GtObject l1GtObject,
const std::string &  quantity 
)
private

for a L1 trigger object and a given quantity, compute the number of bins, the lower limit of the first bin, the upper limit of the last bin and the vector of bin thresholds

Definition at line 50 of file L1GetHistLimits.cc.

References L1GetHistLimits::L1HistLimits::binThresholds, BPTX, CenJet, L1CaloGeometry::emJetPhiBinHighEdge(), L1CaloGeometry::emJetPhiBinLowEdge(), ETM, L1CaloGeometry::etSumPhiBinHighEdge(), L1CaloGeometry::etSumPhiBinLowEdge(), ETT, ForJet, edm::EventSetup::get(), L1MuTriggerScales::getGMTEtaScale(), L1GctJetFinderParams::getHtLsbGeV(), L1MuScale::getNBins(), L1MuTriggerScales::getPhiScale(), L1MuTriggerPtScale::getPtScale(), L1MuScale::getScaleMax(), L1MuScale::getScaleMin(), L1CaloEtScale::getThresholds(), L1MuScale::getValue(), L1CaloGeometry::globalEtaBinHighEdge(), L1CaloGeometry::globalEtaBinLowEdge(), HfBitCounts, HfRingEtSums, HTM, L1CaloGeometry::htSumPhiBinHighEdge(), L1CaloGeometry::htSumPhiBinLowEdge(), HTT, IsoEG, JetCounts, wplusjetsAnalysis_cfi::jetScale, L1GctEtHad::kEtHadMaxValue, L1GctEtMiss::kEtMissMaxValue, L1GctEtTotal::kEtTotalMaxValue, L1CaloEtScale::linearLsb(), LogDebug, L1GetHistLimits::L1HistLimits::lowerBinValue, m_evSetup, m_l1HistLimits, Mu, NoIsoEG, L1GetHistLimits::L1HistLimits::nrBins, L1CaloGeometry::numberGctCentralEtaBinsPerHalf(), L1CaloGeometry::numberGctEmJetPhiBins(), L1CaloGeometry::numberGctEtSumPhiBins(), L1CaloGeometry::numberGctForwardEtaBinsPerHalf(), L1CaloGeometry::numberGctHtSumPhiBins(), edm::ESHandle< T >::product(), R3BINS, R3MAX, R3MIN, rad2deg(), TauJet, TechTrig, and L1GetHistLimits::L1HistLimits::upperBinValue.

Referenced by l1HistBinThresholds(), l1HistLimits(), l1HistLowerBinValue(), l1HistNrBins(), and l1HistUpperBinValue().

51  {
52 
57 
58 
59  // number of objects is independent of the object type
60  // and hardcoded in the actual version
61  if (quantity == "NrObjects") {
62 
66 
68 
69  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
74 
75  }
76 
77  // set last bin upper edge
80 
81  return;
82 
83  }
84 
85  switch (l1GtObject) {
86  case Mu: {
87 
88  if (quantity == "PT") {
89 
91  m_evSetup.get<L1MuTriggerPtScaleRcd>().get(muPtScale);
92 
93  m_l1HistLimits.nrBins = muPtScale->getPtScale()->getNBins();
95  = muPtScale->getPtScale()->getScaleMin();
97  = muPtScale->getPtScale()->getScaleMax();
98 
100 
101  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
103  = muPtScale->getPtScale()->getValue(iBin);
104 
105  }
106 
107  // last limit for muon is set too high (10^6) - resize the last bin
108 
109  float lastBinSize = m_l1HistLimits.upperBinValue
111 
112  // limit the size of the last bin to maximum 200 GeV
113  float maxLaxtBinsize = 200;
114  if (lastBinSize >= maxLaxtBinsize) {
119  LogDebug("L1GetHistLimits")
120  << "\n L1ExtraMuon: PT histogram"
121  << "\nm_l1HistLimits.upperBinValue truncated to = "
122  << m_l1HistLimits.upperBinValue << std::endl;
123  }
124 
125  // set last bin upper edge
128 
129  } else if (quantity == "eta" || quantity == "phi") {
131  m_evSetup.get<L1MuTriggerScalesRcd>().get(muScales);
132 
133  if (quantity == "eta") {
134  // eta scale defined for positive values - need to be symmetrized
135  int histNrBinsHalf = muScales->getGMTEtaScale()->getNBins();
137  = muScales->getGMTEtaScale()->getScaleMin();
139  = muScales->getGMTEtaScale()->getScaleMax();
140 
141  m_l1HistLimits.nrBins = 2 * histNrBinsHalf;
144 
146 
147  int iBin = 0;
148  for (int j = histNrBinsHalf; j > 0; j--, iBin++) {
149  m_l1HistLimits.binThresholds[iBin] = (-1)
150  * muScales->getGMTEtaScale()->getValue(j);
151  }
152  for (int j = 0; j <= histNrBinsHalf; j++, iBin++) {
154  = muScales->getGMTEtaScale()->getValue(j);
155  }
156 
157  // set last bin upper edge
160 
161  } else {
162  m_l1HistLimits.nrBins = muScales->getPhiScale()->getNBins();
164  muScales->getPhiScale()->getScaleMin());
166  muScales->getPhiScale()->getScaleMax());
167 
169  + 1);
170 
171  for (int iBin = 0; iBin <= m_l1HistLimits.nrBins; iBin++) {
173  muScales->getPhiScale()->getValue(iBin));
174  }
175 
176  // set last bin upper edge
179 
180  }
181 
182  }
183 
184  }
185  break;
186  case NoIsoEG:
187  case IsoEG: {
188  // common scales for NoIsoEG and IsoEG
189  if (quantity == "ET") {
191  m_evSetup.get<L1EmEtScaleRcd>().get(emScale);
192 
193  std::vector<double> emThresholds = emScale->getThresholds();
194  m_l1HistLimits.nrBins = emThresholds.size();
195  m_l1HistLimits.lowerBinValue = emThresholds.at(0);
196 
197  // FIXME high edge retrieval in the scale definition
198  // now, last bin has the same width like the last but one
200  = emThresholds[m_l1HistLimits.nrBins - 1]
201  + (emThresholds[m_l1HistLimits.nrBins - 1]
202  - emThresholds[m_l1HistLimits.nrBins - 2]);
203 
205 
206  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
208  = static_cast<float>(emThresholds[iBin]);
209 
210  }
211 
212  // set last bin upper edge
215 
216  } else if (quantity == "eta" || quantity == "phi") {
217  edm::ESHandle<L1CaloGeometry> caloGeomESH;
218  m_evSetup.get<L1CaloGeometryRecord>().get(caloGeomESH);
219  const L1CaloGeometry* caloGeomScales = caloGeomESH.product();
220 
221  if (quantity == "eta") {
223  = 2 * (caloGeomScales->numberGctCentralEtaBinsPerHalf()
224  + caloGeomScales->numberGctForwardEtaBinsPerHalf());
226  = caloGeomScales->globalEtaBinLowEdge(0);
228  = caloGeomScales->globalEtaBinHighEdge(
229  m_l1HistLimits.nrBins - 1);
230 
232 
233  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
235  = caloGeomScales->globalEtaBinLowEdge(iBin);
236  }
237 
238  // set last bin upper edge
241 
242 
243 
244  } else {
245 
247  = caloGeomScales->numberGctEmJetPhiBins();
249  + 1);
250 
251  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
252 
254  caloGeomScales->emJetPhiBinLowEdge(iBin));
255 
256  // treat correctly the 10 deg anti-clockwise rotation
257  if (rad2deg(caloGeomScales->emJetPhiBinHighEdge(iBin))
258  < m_l1HistLimits.binThresholds[iBin]) {
260  = m_l1HistLimits.binThresholds[iBin] - 360.;
261  }
262 
263  }
264 
267 
268  // last bin upper limit
270  caloGeomScales->emJetPhiBinHighEdge(
271  m_l1HistLimits.nrBins - 1));
272 
275 
276  }
277 
278  }
279 
280  }
281  break;
282  case CenJet:
283  case ForJet:
284  case TauJet: {
285  // common scales for all jets
286  if (quantity == "ET") {
288  m_evSetup.get<L1JetEtScaleRcd>().get(jetScale);
289 
290  std::vector<double> jetThresholds = jetScale->getThresholds();
291  m_l1HistLimits.nrBins = jetThresholds.size();
292  m_l1HistLimits.lowerBinValue = jetThresholds.at(0);
293 
294  // FIXME high edge retrieval in the scale definition
295  // now, last bin has the same width like the last but one
297  = jetThresholds[m_l1HistLimits.nrBins - 1]
298  + (jetThresholds[m_l1HistLimits.nrBins - 1]
299  - jetThresholds[m_l1HistLimits.nrBins - 2]);
300 
302 
303  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
305  = static_cast<float>(jetThresholds[iBin]);
306 
307  }
308 
309  // set last bin upper edge
312 
313  } else if (quantity == "eta" || quantity == "phi") {
314  edm::ESHandle<L1CaloGeometry> caloGeomESH;
315  m_evSetup.get<L1CaloGeometryRecord>().get(caloGeomESH);
316  const L1CaloGeometry* caloGeomScales = caloGeomESH.product();
317 
318  if (quantity == "eta") {
320  = 2 * (caloGeomScales->numberGctCentralEtaBinsPerHalf()
321  + caloGeomScales->numberGctForwardEtaBinsPerHalf());
323  = caloGeomScales->globalEtaBinLowEdge(0);
325  = caloGeomScales->globalEtaBinHighEdge(
326  m_l1HistLimits.nrBins - 1);
327 
329 
330  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
332  = caloGeomScales->globalEtaBinLowEdge(iBin);
333  }
334 
335  // set last bin upper edge
338 
339  } else {
340 
342  = caloGeomScales->numberGctEmJetPhiBins();
344  + 1);
345 
346  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
347 
349  caloGeomScales->emJetPhiBinLowEdge(iBin));
350 
351  // treat correctly the 10 deg anti-clockwise rotation
352  if (rad2deg(caloGeomScales->emJetPhiBinHighEdge(iBin))
353  < m_l1HistLimits.binThresholds[iBin]) {
355  = m_l1HistLimits.binThresholds[iBin] - 360.;
356  }
357 
358  }
359 
362 
363  // last bin upper limit
365  caloGeomScales->emJetPhiBinHighEdge(
366  m_l1HistLimits.nrBins - 1));
367 
370 
371  }
372 
373  }
374  }
375  break;
376  case ETM: {
377  if (quantity == "ET") {
378 
379  edm::ESHandle<L1CaloEtScale> etMissScale;
380  m_evSetup.get<L1JetEtScaleRcd>().get(etMissScale);
381 
382  const double etSumLSB = etMissScale->linearLsb() ;
383 
385 
388  * etSumLSB;
389 
391 
392  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
393  m_l1HistLimits.binThresholds[iBin] = iBin * etSumLSB;
394 
395  }
396 
397  // set last bin upper edge
400 
401  } else if (quantity == "eta" || quantity == "phi") {
402  edm::ESHandle<L1CaloGeometry> caloGeomESH;
403  m_evSetup.get<L1CaloGeometryRecord>().get(caloGeomESH);
404  const L1CaloGeometry* caloGeomScales = caloGeomESH.product();
405 
406  if (quantity == "eta") {
407 
408  // do nothing, eta is not defined for ETM
409 
410  } else {
412  = caloGeomScales->numberGctEtSumPhiBins();
414  caloGeomScales->etSumPhiBinLowEdge(0));
416  caloGeomScales->etSumPhiBinHighEdge(
417  m_l1HistLimits.nrBins - 1));
418 
420  + 1);
421 
422  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
424  caloGeomScales->etSumPhiBinLowEdge(iBin));
425 
426  }
427 
428  // last bin upper limit
431 
432  }
433 
434  }
435 
436  }
437  break;
438  case ETT: {
439  if (quantity == "ET") {
440 
441  edm::ESHandle<L1CaloEtScale> etMissScale;
442  m_evSetup.get<L1JetEtScaleRcd>().get(etMissScale);
443 
444  const double etSumLSB = etMissScale->linearLsb() ;
445 
447 
450  * etSumLSB;
451 
453 
454  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
455  m_l1HistLimits.binThresholds[iBin] = iBin * etSumLSB;
456 
457  }
458 
459  // set last bin upper edge
462 
463  } else if (quantity == "eta" || quantity == "phi") {
464 
465  // do nothing, eta and phi are not defined for ETT
466 
467  }
468 
469  }
470  break;
471  case HTT: {
472  if (quantity == "ET") {
473 
474  edm::ESHandle< L1GctJetFinderParams > jetFinderParams ;
475  m_evSetup.get< L1GctJetFinderParamsRcd >().get( jetFinderParams ) ;
476  double htSumLSB = jetFinderParams->getHtLsbGeV();
477 
479 
482  * htSumLSB;
483 
485 
486  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
487  m_l1HistLimits.binThresholds[iBin] = iBin * htSumLSB;
488 
489  }
490 
491  // set last bin upper edge
494 
495  } else if (quantity == "eta" || quantity == "phi") {
496 
497  // do nothing, eta and phi are not defined for HTT
498 
499  }
500  }
501  break;
502  case HTM: {
503  if (quantity == "ET") {
504  edm::ESHandle<L1CaloEtScale> htMissScale;
505  m_evSetup.get<L1HtMissScaleRcd>().get(htMissScale);
506 
507  const std::vector<double>& htThresholds =
508  htMissScale->getThresholds();
509  m_l1HistLimits.nrBins = htThresholds.size();
510  m_l1HistLimits.lowerBinValue = htThresholds[0];
511 
512  // FIXME high edge retrieval in the scale definition
513  // now, last bin has the same width like the last but one
515  = htThresholds[m_l1HistLimits.nrBins - 1]
516  + (htThresholds[m_l1HistLimits.nrBins - 1]
517  - htThresholds[m_l1HistLimits.nrBins - 2]);
518 
520 
521  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
523  = static_cast<float>(htThresholds[iBin]);
524 
525  }
526 
527  // set last bin upper edge
530 
531  } else if (quantity == "eta" || quantity == "phi") {
532  edm::ESHandle<L1CaloGeometry> caloGeomESH;
533  m_evSetup.get<L1CaloGeometryRecord>().get(caloGeomESH);
534  const L1CaloGeometry* caloGeomScales = caloGeomESH.product();
535 
536  if (quantity == "eta") {
537 
538  // do nothing, eta is not defined for HTM
539 
540  } else {
542  = caloGeomScales->numberGctHtSumPhiBins();
544  caloGeomScales->htSumPhiBinLowEdge(0));
546  caloGeomScales->htSumPhiBinHighEdge(
547  m_l1HistLimits.nrBins - 1));
548 
550  + 1);
551 
552  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
554  caloGeomScales->htSumPhiBinLowEdge(iBin));
555 
556  }
557 
558  // last bin upper limit
561 
562  }
563 
564  }
565  }
566  break;
567  case JetCounts: {
568 
569  }
570  break;
571  case HfBitCounts: {
572  // there are no scales for HfBitCounts, so one implements a fixed scale
573  // use same values as GCT for 3 bits
574  const unsigned int R3BINS = 8;
575  const float R3MIN = -0.5;
576  const float R3MAX = 7.5;
577 
579  = R3BINS;
581  = R3MIN;
583  = R3MAX;
584 
586  + 1);
587 
588  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
590  = R3MIN + iBin*(R3MAX - R3MIN)/R3BINS;
591 
592  }
593 
594  // last bin upper limit
597 
598 
599 
600  }
601  break;
602  case HfRingEtSums: {
603  if (quantity == "ET") {
604  edm::ESHandle<L1CaloEtScale> hfRingEtScale;
605  m_evSetup.get<L1HfRingEtScaleRcd>().get(hfRingEtScale);
606 
607  const std::vector<double>& hfRingEtThresholds =
608  hfRingEtScale->getThresholds();
609  m_l1HistLimits.nrBins = hfRingEtThresholds.size();
610  m_l1HistLimits.lowerBinValue = hfRingEtThresholds[0];
611 
612  // FIXME high edge retrieval in the scale definition
613  // now, last bin has the same width like the last but one
615  = hfRingEtThresholds[m_l1HistLimits.nrBins - 1]
616  + (hfRingEtThresholds[m_l1HistLimits.nrBins - 1]
617  - hfRingEtThresholds[m_l1HistLimits.nrBins - 2]);
618 
620 
621  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
623  = static_cast<float>(hfRingEtThresholds[iBin]);
624 
625  }
626 
627  // set last bin upper edge
630 
631  } else if (quantity == "eta" || quantity == "phi") {
632 
633  // do nothing, eta and phi are not defined for HfRingEtSums
634  }
635  }
636  break;
637  case TechTrig:
638  case Castor:
639  case BPTX:
640  default: {
641 
642  // do nothing, for these cases ET/PT, eta and phi are not defined
643 
644  }
645  break;
646  }
647 
648 }
#define LogDebug(id)
double globalEtaBinLowEdge(unsigned int globalEtaIndex) const
unsigned int numberGctForwardEtaBinsPerHalf() const
const edm::EventSetup & m_evSetup
Definition: L1GtObject.h:39
L1HistLimits m_l1HistLimits
all limits for a histogram
unsigned int numberGctHtSumPhiBins() const
const L1MuScale * getPtScale() const
get the Pt scale
double htSumPhiBinLowEdge(unsigned int phiIndex) const
Definition: L1GtObject.h:36
unsigned int numberGctEtSumPhiBins() const
unsigned int numberGctEmJetPhiBins() const
unsigned int numberGctCentralEtaBinsPerHalf() const
double getHtLsbGeV() const
double linearLsb() const
get LSB of linear input scale
Definition: L1CaloEtScale.h:53
Definition: L1GtObject.h:38
const std::vector< double > & getThresholds() const
get thresholds
Definition: L1CaloEtScale.h:65
const unsigned int R3BINS
Definition: L1TGCT.cc:44
const L1MuScale * getPhiScale() const
get the phi scale
virtual float getScaleMin() const =0
get the lower edge of the first bin
virtual unsigned getNBins() const =0
get number of bins
std::vector< float > binThresholds
const double rad2deg(const double &)
convert phi from rad (-pi, pi] to deg (0, 360)
Definition: L1GtObject.h:30
double globalEtaBinHighEdge(unsigned int globalEtaIndex) const
double etSumPhiBinLowEdge(unsigned int phiIndex) const
Definition: L1GtObject.h:37
T get() const
Definition: EventSetup.h:63
const L1MuScale * getGMTEtaScale() const
get the GMT eta scale
double emJetPhiBinLowEdge(unsigned int phiIndex) const
double htSumPhiBinHighEdge(unsigned int phiIndex) const
T const * product() const
Definition: ESHandle.h:86
const float R3MAX
Definition: L1TGCT.cc:46
virtual float getScaleMax() const =0
get the upper edge of the last bin
virtual float getValue(unsigned i) const =0
get value of the underlying vector for bin i
double emJetPhiBinHighEdge(unsigned int phiIndex) const
double etSumPhiBinHighEdge(unsigned int phiIndex) const
const float R3MIN
Definition: L1TGCT.cc:45
const std::vector< float > & L1GetHistLimits::l1HistBinThresholds ( const L1GtObject l1GtObject,
const std::string &  quantity 
)

for a L1 trigger object and a given quantity, return the vector of bin thresholds

Definition at line 814 of file L1GetHistLimits.cc.

References L1GetHistLimits::L1HistLimits::binThresholds, getHistLimits(), and m_l1HistLimits.

815  {
816 
817  getHistLimits(l1GtObject, quantity);
819 
820 }
void getHistLimits(const L1GtObject &l1GtObject, const std::string &quantity)
L1HistLimits m_l1HistLimits
all limits for a histogram
std::vector< float > binThresholds
const L1GetHistLimits::L1HistLimits & L1GetHistLimits::l1HistLimits ( const L1GtObject l1GtObject,
const std::string &  quantity 
)

for a L1 trigger object and a given quantity, return all limits for a histogram

Definition at line 650 of file L1GetHistLimits.cc.

References L1GetHistLimits::L1HistLimits::binThresholds, getHistLimits(), edm::isDebugEnabled(), LogDebug, LogTrace, L1GetHistLimits::L1HistLimits::lowerBinValue, m_l1HistLimits, L1GetHistLimits::L1HistLimits::nrBins, and L1GetHistLimits::L1HistLimits::upperBinValue.

Referenced by L1ExtraDQM::L1ExtraMonElement< CollectionType >::bookhistograms().

651  {
652 
653  getHistLimits(l1GtObject, quantity);
654 
655  if (edm::isDebugEnabled()) {
656  LogDebug("L1GetHistLimits") << "\n Histogram limits for L1GtObject "
657  << l1GtObject << " and quantity " << quantity
658  << "\n Number of bins: " << m_l1HistLimits.nrBins
659  << "\n Lower limit of first bin: "
661  << "\n Upper limit of last bin: "
662  << m_l1HistLimits.upperBinValue << std::endl;
663 
664  int binThreshSize = static_cast<int>(m_l1HistLimits.binThresholds.size());
665 
666  if (binThreshSize != (m_l1HistLimits.nrBins + 1)) {
667 
668  LogTrace("L1GetHistLimits")
669  << "\n Warning: inconsistent nrBins and binThresholds size"
670  << "\n Number of bins nrBins = " << m_l1HistLimits.nrBins
671  << "\n binThresholds size = " << binThreshSize
672  << "\n Please fix the L1GetLimits class.\n\n" << std::endl;
673 
674  }
675 
676  for (int iBin = 0; iBin < binThreshSize; ++iBin) {
677  LogTrace("L1GetHistLimits") << " Bin " << std::right
678  << std::setw(5) << iBin << ": "
679  << m_l1HistLimits.binThresholds[iBin] << std::endl;
680 
681  }
682  }
683 
684  return m_l1HistLimits;
685 
686 }
#define LogDebug(id)
bool isDebugEnabled()
void getHistLimits(const L1GtObject &l1GtObject, const std::string &quantity)
L1HistLimits m_l1HistLimits
all limits for a histogram
#define LogTrace(id)
std::vector< float > binThresholds
const L1GetHistLimits::L1HistLimits & L1GetHistLimits::l1HistLimits ( const L1GtObject l1GtObject,
const std::string &  quantity,
const double  histMinValue,
const double  histMaxValue 
)

for a L1 trigger object and a given quantity, return the real limits for a histogram given an arbitrary range

Definition at line 689 of file L1GetHistLimits.cc.

References L1GetHistLimits::L1HistLimits::binThresholds, getHistLimits(), edm::isDebugEnabled(), LogDebug, LogTrace, L1GetHistLimits::L1HistLimits::lowerBinValue, m_l1HistLimits, L1GetHistLimits::L1HistLimits::nrBins, and L1GetHistLimits::L1HistLimits::upperBinValue.

691  {
692 
693  getHistLimits(l1GtObject, quantity);
694 
695  bool foundLowerBinValue = false;
696  bool foundUpperBinValue = false;
697 
698  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
699  if (m_l1HistLimits.binThresholds[iBin] <= histMinValue) {
701  foundLowerBinValue = true;
702  break;
703  }
704  }
705 
706  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
707  if (m_l1HistLimits.binThresholds[iBin] > histMaxValue) {
709  foundUpperBinValue = true;
710  break;
711  }
712  }
713 
714  if (foundLowerBinValue && foundUpperBinValue) {
715 
716  int countBins = -1;
717  std::vector<float> binThresh;
718  binThresh.reserve(m_l1HistLimits.binThresholds.size());
719 
720  for (int iBin = 0; iBin < m_l1HistLimits.nrBins; ++iBin) {
721  if ((m_l1HistLimits.binThresholds[iBin] >= histMinValue)
722  && m_l1HistLimits.binThresholds[iBin] < histMaxValue) {
725 
726  countBins++;
727  binThresh.push_back(m_l1HistLimits.binThresholds[iBin]);
728 
729  }
730  }
731 
732  m_l1HistLimits.nrBins = countBins;
734  m_l1HistLimits.binThresholds = binThresh;
735 
736  // FIXME last bin untested.
737 
738  } else {
743 
744  LogDebug("L1GetHistLimits") << "\n Histogram limits for L1GtObject"
745  << l1GtObject << " and quantity " << quantity
746  << " within the required range [" << histMinValue << ", "
747  << histMaxValue << "] not found."
748  << "\n The range is not included in the original histogram range."
749  << std::endl;
750 
751  return m_l1HistLimits;
752 
753  }
754 
755  if (edm::isDebugEnabled()) {
756  LogDebug("L1GetHistLimits") << "\n Histogram limits for L1GtObject"
757  << l1GtObject << " and quantity " << quantity
758  << "\n Number of bins: " << m_l1HistLimits.nrBins
759  << "\n Lower limit of first bin: "
761  << "\n Upper limit of last bin: "
762  << m_l1HistLimits.upperBinValue << std::endl;
763 
764  int binThreshSize = static_cast<int>(m_l1HistLimits.binThresholds.size());
765 
766  if (binThreshSize != (m_l1HistLimits.nrBins + 1)) {
767 
768  LogTrace("L1GetHistLimits")
769  << "\n Warning: inconsistent nrBins and binThresholds size"
770  << "\n Number of bins nrBins = " << m_l1HistLimits.nrBins
771  << "\n binThresholds size = " << binThreshSize
772  << "\n Please fix the L1GetLimits class.\n\n" << std::endl;
773 
774  }
775 
776  for (int iBin = 0; iBin < binThreshSize; ++iBin) {
777  LogTrace("L1GetHistLimits") << " Bin " << std::right
778  << std::setw(5) << iBin << ": "
779  << m_l1HistLimits.binThresholds[iBin] << std::endl;
780 
781  }
782  }
783 
784 
785  return m_l1HistLimits;
786 
787 }
#define LogDebug(id)
bool isDebugEnabled()
void getHistLimits(const L1GtObject &l1GtObject, const std::string &quantity)
L1HistLimits m_l1HistLimits
all limits for a histogram
#define LogTrace(id)
std::vector< float > binThresholds
const double L1GetHistLimits::l1HistLowerBinValue ( const L1GtObject l1GtObject,
const std::string &  quantity 
)

for a L1 trigger object and a given quantity, return the lower limit of the first bin in the histogram

Definition at line 798 of file L1GetHistLimits.cc.

References getHistLimits(), L1GetHistLimits::L1HistLimits::lowerBinValue, and m_l1HistLimits.

799  {
800 
801  getHistLimits(l1GtObject, quantity);
803 
804 }
void getHistLimits(const L1GtObject &l1GtObject, const std::string &quantity)
L1HistLimits m_l1HistLimits
all limits for a histogram
const int L1GetHistLimits::l1HistNrBins ( const L1GtObject l1GtObject,
const std::string &  quantity 
)

for a L1 trigger object and a given quantity, return the numbers of bins for a given histogram

Definition at line 790 of file L1GetHistLimits.cc.

References getHistLimits(), m_l1HistLimits, and L1GetHistLimits::L1HistLimits::nrBins.

791  {
792 
793  getHistLimits(l1GtObject, quantity);
794  return m_l1HistLimits.nrBins;
795 
796 }
void getHistLimits(const L1GtObject &l1GtObject, const std::string &quantity)
L1HistLimits m_l1HistLimits
all limits for a histogram
const double L1GetHistLimits::l1HistUpperBinValue ( const L1GtObject l1GtObject,
const std::string &  quantity 
)

for a L1 trigger object and a given quantity, return the upper limit of the last bin in the histogram

Definition at line 806 of file L1GetHistLimits.cc.

References getHistLimits(), m_l1HistLimits, and L1GetHistLimits::L1HistLimits::upperBinValue.

807  {
808 
809  getHistLimits(l1GtObject, quantity);
811 
812 }
void getHistLimits(const L1GtObject &l1GtObject, const std::string &quantity)
L1HistLimits m_l1HistLimits
all limits for a histogram

Member Data Documentation

const edm::EventSetup& L1GetHistLimits::m_evSetup
private

Definition at line 119 of file L1GetHistLimits.h.

Referenced by getHistLimits().

L1HistLimits L1GetHistLimits::m_l1HistLimits
private

all limits for a histogram

Definition at line 122 of file L1GetHistLimits.h.

Referenced by getHistLimits(), l1HistBinThresholds(), l1HistLimits(), l1HistLowerBinValue(), l1HistNrBins(), and l1HistUpperBinValue().