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EcalLaserDbService.cc
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1 #include <iostream>
2 
4 
6 
9 // #include "CalibCalorimetry/EcalLaserAnalyzer/interface/ME.h"
10 
11 
13 
14 using namespace std;
15 
17  :
18  mAlphas_ (0),
19  mAPDPNRatiosRef_ (0),
20  mAPDPNRatios_ (0),
21  mLinearCorrections_ (0)
22  {}
23 
24 
25 
27  return mAlphas_;
28 }
29 
31  return mAPDPNRatiosRef_;
32 }
33 
35  return mAPDPNRatios_;
36 }
37 
39  return mLinearCorrections_;
40 }
41 
42 
43 
44 float EcalLaserDbService::getLaserCorrection (DetId const & xid, edm::Timestamp const & iTime) const {
45 
46  float correctionFactor = 1.0;
47 
50  const EcalLaserAPDPNRatiosRefMap& laserRefMap = mAPDPNRatiosRef_->getMap();
51  const EcalLaserAlphaMap& laserAlphaMap = mAlphas_->getMap();
54 
57  EcalLaserAPDPNref apdpnref;
61 
62  if (xid.det()==DetId::Ecal) {
63 
64  } else {
65 
66  edm::LogError("EcalLaserDbService") << " DetId is NOT in ECAL" << endl;
67  return correctionFactor;
68  }
69 
70 
71  int iLM;
72  int xind;
73  bool isBarrel=true;
74  if (xid.subdetId()==EcalBarrel) {
75  EBDetId ebid( xid.rawId() );
76  xind = ebid.hashedIndex();
77  iLM = MEEBGeom::lmr(ebid.ieta(), ebid.iphi());
78  } else if (xid.subdetId()==EcalEndcap) {
79  isBarrel=false;
80  EEDetId eeid( xid.rawId() );
81  xind = eeid.hashedIndex();
82  // SuperCrystal coordinates
83  MEEEGeom::SuperCrysCoord iX = (eeid.ix()-1)/5 + 1;
84  MEEEGeom::SuperCrysCoord iY = (eeid.iy()-1)/5 + 1;
85  iLM = MEEEGeom::lmr(iX, iY, eeid.zside());
86  } else {
87  edm::LogError("EcalLaserDbService") << " DetId is NOT in ECAL Barrel or Endcap" << endl;
88  return correctionFactor;
89  }
90  // std::cout << " LM num ====> " << iLM << endl;
91 
92  // get alpha, apd/pn ref, apd/pn pairs and timestamps for interpolation
93 
94 
95 #ifdef VERIFY_LASER
97  if (itratio != laserRatiosMap.end()) {
98  apdpnpair = (*itratio);
99  } else {
100  edm::LogError("EcalLaserDbService") << "error with laserRatiosMap!" << endl;
101  return correctionFactor;
102  }
103 
104  if (iLM-1< (int)laserTimeMap.size()) {
105  timestamp = laserTimeMap[iLM-1];
106  } else {
107  edm::LogError("EcalLaserDbService") << "error with laserTimeMap!" << endl;
108  return correctionFactor;
109  }
110 
111  EcalLinearCorrections::EcalValueMap::const_iterator itlin = linearValueMap.find(xid);
112  if (itlin != linearValueMap.end()) {
113  linValues = (*itlin);
114  } else {
115  edm::LogError("EcalLaserDbService") << "error with linearValueMap!" << endl;
116  return correctionFactor;
117  }
118 
119  if (iLM-1< (int)linearTimeMap.size()) {
120  linTimes = linearTimeMap[iLM-1];
121  } else {
122  edm::LogError("EcalLaserDbService") << "error with laserTimeMap!" << endl;
123  return correctionFactor;
124  }
125 
126  EcalLaserAPDPNRatiosRefMap::const_iterator itref = laserRefMap.find(xid);
127  if ( itref != laserRefMap.end() ) {
128  apdpnref = (*itref);
129  } else {
130  edm::LogError("EcalLaserDbService") << "error with laserRefMap!" << endl;
131  return correctionFactor;
132  }
133 
134  EcalLaserAlphaMap::const_iterator italpha = laserAlphaMap.find(xid);
135  if ( italpha != laserAlphaMap.end() ) {
136  alpha = (*italpha);
137  } else {
138  edm::LogError("EcalLaserDbService") << "error with laserAlphaMap!" << endl;
139  return correctionFactor;
140  }
141 
142 #else
143 
144  // waiting for templated lambdas
145  auto getCond =[=](EcalFloatCondObjectContainer const & cond)->float {
146  return isBarrel ? cond.barrel(xind) : cond.endcap(xind);
147  };
148 
150  return isBarrel ? cond.barrel(xind) : cond.endcap(xind);
151  };
152 
153  auto getLinear =[=](EcalLinearCorrections::EcalValueMap const & cond)->EcalLinearCorrections::Values {
154  return isBarrel ? cond.barrel(xind) : cond.endcap(xind);
155  };
156 
157 
158  apdpnpair = getPair(laserRatiosMap);
159  linValues = getLinear(linearValueMap);
160  apdpnref = getCond(laserRefMap);
161  alpha = getCond(laserAlphaMap);
162 
163  if (iLM-1< (int)laserTimeMap.size()) {
164  timestamp = laserTimeMap[iLM-1];
165  } else {
166  edm::LogError("EcalLaserDbService") << "error with laserTimeMap!" << endl;
167  return correctionFactor;
168  }
169 
170  if (iLM-1< (int)linearTimeMap.size()) {
171  linTimes = linearTimeMap[iLM-1];
172  } else {
173  edm::LogError("EcalLaserDbService") << "error with laserTimeMap!" << endl;
174  return correctionFactor;
175  }
176 
177 
178 #endif
179 
180 
181 
182  // should implement some default in case of error...
183 
184  // should do some quality checks first
185  // ...
186 
187  // we will need to treat time differently...
188  // is time in DB same format as in MC? probably not...
189 
190  // interpolation
191 
192  edm::TimeValue_t t = iTime.value();
193  edm::TimeValue_t t_i = 0, t_f = 0;
194  float p_i = 0, p_f = 0;
195  edm::TimeValue_t lt_i = 0, lt_f = 0;
196  float lp_i = 0, lp_f = 0;
197 
198  if ( t >= timestamp.t1.value() && t < timestamp.t2.value() ) {
199  t_i = timestamp.t1.value();
200  t_f = timestamp.t2.value();
201  p_i = apdpnpair.p1;
202  p_f = apdpnpair.p2;
203  } else if ( t >= timestamp.t2.value() && t <= timestamp.t3.value() ) {
204  t_i = timestamp.t2.value();
205  t_f = timestamp.t3.value();
206  p_i = apdpnpair.p2;
207  p_f = apdpnpair.p3;
208  } else if ( t < timestamp.t1.value() ) {
209  t_i = timestamp.t1.value();
210  t_f = timestamp.t2.value();
211  p_i = apdpnpair.p1;
212  p_f = apdpnpair.p2;
213 
214  } else if ( t > timestamp.t3.value() ) {
215  t_i = timestamp.t2.value();
216  t_f = timestamp.t3.value();
217  p_i = apdpnpair.p2;
218  p_f = apdpnpair.p3;
219 
220  }
221 
222  if ( t >= linTimes.t1.value() && t < linTimes.t2.value() ) {
223  lt_i = linTimes.t1.value();
224  lt_f = linTimes.t2.value();
225  lp_i = linValues.p1;
226  lp_f = linValues.p2;
227  } else if ( t >= linTimes.t2.value() && t <= linTimes.t3.value() ) {
228  lt_i = linTimes.t2.value();
229  lt_f = linTimes.t3.value();
230  lp_i = linValues.p2;
231  lp_f = linValues.p3;
232  } else if ( t < linTimes.t1.value() ) {
233  lt_i = linTimes.t1.value();
234  lt_f = linTimes.t2.value();
235  lp_i = linValues.p1;
236  lp_f = linValues.p2;
237 
238  } else if ( t > linTimes.t3.value() ) {
239  lt_i = linTimes.t2.value();
240  lt_f = linTimes.t3.value();
241  lp_i = linValues.p2;
242  lp_f = linValues.p3;
243 
244  }
245 
246  if ( apdpnref != 0 && (t_i - t_f) != 0 && (lt_i - lt_f) != 0) {
247  float interpolatedLaserResponse = p_i/apdpnref + float(t-t_i)*(p_f-p_i)/(apdpnref*float(t_f-t_i));
248  float interpolatedLinearResponse = lp_i/apdpnref + float(t-lt_i)*(lp_f-lp_i)/(apdpnref*float(lt_f-lt_i)); // FIXED BY FC
249 
250  if(interpolatedLinearResponse >2.f || interpolatedLinearResponse <0.1f)
251  interpolatedLinearResponse=1.f;
252  if ( interpolatedLaserResponse <= 0. ) {
253 
254  // print message only if it is the first time we see < 0
255  // on this detid
256  if(channelsWithInvalidCorrection_.insert(xid.rawId()).second) {
257  edm::LogError("EcalLaserDbService")
258  << "Interpolated Laser correction <0 for detid "<<xid.rawId();
259 
260  }
261 
262  return correctionFactor;
263 
264  } else {
265 
266  float interpolatedTransparencyResponse = interpolatedLaserResponse / interpolatedLinearResponse;
267 
268  correctionFactor = 1.f/( std::pow(interpolatedTransparencyResponse,alpha) *interpolatedLinearResponse );
269 
270  }
271 
272  } else {
273  edm::LogError("EcalLaserDbService")
274  << "apdpnref (" << apdpnref << ") "
275  << "or t_i-t_f (" << (t_i - t_f) << " is zero!";
276  return correctionFactor;
277  }
278 
279  return correctionFactor;
280 }
281 
282 
283 
284 
const EcalTimeMap & getTimeMap() const
float EcalLaserAlpha
float alpha
Definition: AMPTWrapper.h:95
int hashedIndex() const
get a compact index for arrays
Definition: EBDetId.h:86
const EcalLaserAPDPNRatios * getAPDPNRatios() const
const self & getMap() const
ErrorMapT channelsWithInvalidCorrection_
float getLaserCorrection(DetId const &xid, edm::Timestamp const &iTime) const
static int lmr(EBGlobalCoord ieta, EBGlobalCoord iphi)
Definition: MEEBGeom.cc:121
float EcalLaserAPDPNref
uint32_t rawId() const
get the raw id
Definition: DetId.h:43
U second(std::pair< T, U > const &p)
const EcalLinearCorrections * mLinearCorrections_
const EcalLaserAPDPNRatiosMap & getLaserMap() const
const EcalLaserAPDPNRatiosRef * mAPDPNRatiosRef_
const EcalValueMap & getValueMap() const
double f[11][100]
int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:37
unsigned long long TimeValue_t
Definition: Timestamp.h:28
int SuperCrysCoord
Definition: MEEEGeom.h:22
#define TYPELOOKUP_DATA_REG(_dataclass_)
Definition: typelookup.h:96
Definition: DetId.h:18
int hashedIndex() const
Definition: EEDetId.h:182
const EcalLaserAlphas * getAlphas() const
const EcalLaserTimeStampMap & getTimeMap() const
std::vector< EcalLaserTimeStamp > EcalLaserTimeStampMap
const EcalLaserAPDPNRatios * mAPDPNRatios_
std::vector< Item >::const_iterator const_iterator
const EcalLaserAlphas * mAlphas_
const EcalLaserAPDPNRatiosRef * getAPDPNRatiosRef() const
const EcalLinearCorrections * getLinearCorrections() const
const_iterator find(uint32_t rawId) const
const_iterator end() const
Detector det() const
get the detector field from this detid
Definition: DetId.h:35
TimeValue_t value() const
Definition: Timestamp.h:56
static int lmr(SuperCrysCoord iX, SuperCrysCoord iY, int iz)
Definition: MEEEGeom.cc:250
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:40