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OMTFProcessor.cc
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1 #include <iostream>
2 #include <algorithm>
3 #include <strstream>
4 
9 
11 
16 
18 
23 
24  for(auto it: theGPs) delete it.second;
25 
26 }
30 
31  myResults.clear();
32  for(auto it: theGPs) delete it.second;
33  theGPs.clear();
34 }
38  const L1TMuonOverlapParams * omtfPatterns){
39 
41 
42  myOmtfConfig = omtfConfig;
43 
45 
46  const l1t::LUT* chargeLUT = omtfPatterns->chargeLUT();
47  const l1t::LUT* etaLUT = omtfPatterns->etaLUT();
48  const l1t::LUT* ptLUT = omtfPatterns->ptLUT();
49  const l1t::LUT* pdfLUT = omtfPatterns->pdfLUT();
50  const l1t::LUT* meanDistPhiLUT = omtfPatterns->meanDistPhiLUT();
51 
52  unsigned int nGPs = myOmtfConfig->nGoldenPatterns();
53  unsigned int address = 0;
54  unsigned int iEta, iPt;
55  int iCharge;
56  for(unsigned int iGP=0;iGP<nGPs;++iGP){
57  address = iGP;
58  iEta = etaLUT->data(address);
59  iCharge = chargeLUT->data(address)==0? -1:1;
60  iPt = ptLUT->data(address);
61 
67  for(unsigned int iLayer=0;iLayer<myOmtfConfig->nLayers();++iLayer){
69  for(unsigned int iRefLayer=0;iRefLayer<myOmtfConfig->nRefLayers();++iRefLayer){
70  address = iRefLayer + iLayer*myOmtfConfig->nRefLayers() + iGP*(myOmtfConfig->nRefLayers()*myOmtfConfig->nLayers());
71  meanDistPhi1D[iRefLayer] = meanDistPhiLUT->data(address) - (1<<(meanDistPhiLUT->nrBitsData() -1));
72  }
73  meanDistPhi2D[iLayer] = meanDistPhi1D;
75  for(unsigned int iRefLayer=0;iRefLayer<myOmtfConfig->nRefLayers();++iRefLayer){
76  pdf1D.assign(1<<myOmtfConfig->nPdfAddrBits(),0);
77  for(unsigned int iPdf=0;iPdf<(unsigned int)(1<<myOmtfConfig->nPdfAddrBits());++iPdf){
78  address = iPdf + iRefLayer*(1<<myOmtfConfig->nPdfAddrBits()) +
81  pdf1D[iPdf] = pdfLUT->data(address);
82  }
83  pdf2D[iRefLayer] = pdf1D;
84  }
85  pdf3D[iLayer] = pdf2D;
86  }
87  Key aKey(iEta,iPt,iCharge,iGP);
88 
89  GoldenPattern *aGP = new GoldenPattern(aKey, myOmtfConfig);
90  aGP->setMeanDistPhi(meanDistPhi2D);
91  aGP->setPdf(pdf3D);
92  addGP(aGP);
93  }
94  return true;
95 }
99 
100  if(theGPs.find(aGP->key())!=theGPs.end()){
101  throw cms::Exception("Corrupted Golden Patterns data")
102  <<"OMTFProcessor::addGP(...) "
103  <<" Reading two Golden Patterns with the same key: "
104  <<aGP->key()<<std::endl;
105  }
106  else theGPs[aGP->key()] = aGP;
107 
108  for(auto & itRegion: myResults){
109  OMTFResult aResult;
110  aResult.configure(myOmtfConfig);
111  itRegion[aGP->key()] = aResult;
112  }
113 
114  return true;
115 }
119 
120  Key aKey(0, 9, charge);
121 
122  while(theGPs.find(aKey)!=theGPs.end()){
123 
124  GoldenPattern *aGP1 = theGPs.find(aKey)->second;
125  GoldenPattern *aGP2 = aGP1;
126  GoldenPattern *aGP3 = aGP1;
127  GoldenPattern *aGP4 = aGP1;
128 
129  ++aKey.thePtCode;
130  while(theGPs.find(aKey)==theGPs.end() && aKey.thePtCode<=401) ++aKey.thePtCode;
131  if(aKey.thePtCode<=401 && theGPs.find(aKey)!=theGPs.end()) aGP2 = theGPs.find(aKey)->second;
132 
133  if(aKey.thePtCode>71){
134  ++aKey.thePtCode;
135  while(theGPs.find(aKey)==theGPs.end() && aKey.thePtCode<=401) ++aKey.thePtCode;
136  if(aKey.thePtCode<=401 && theGPs.find(aKey)!=theGPs.end()) aGP3 = theGPs.find(aKey)->second;
137 
138  ++aKey.thePtCode;
139  while(theGPs.find(aKey)==theGPs.end() && aKey.thePtCode<=401) ++aKey.thePtCode;
140  if(aKey.thePtCode<=401 && theGPs.find(aKey)!=theGPs.end()) aGP4 = theGPs.find(aKey)->second;
141  }
142  else{
143  aGP3 = aGP1;
144  aGP4 = aGP2;
145  }
146  //HACK. Have to clean this up.
148  ++aKey.thePtCode;
149  while(theGPs.find(aKey)==theGPs.end() && aKey.thePtCode<=401) ++aKey.thePtCode;
151 
152 
153  GoldenPattern::vector2D meanDistPhi = aGP1->getMeanDistPhi();
154 
155  GoldenPattern::vector2D meanDistPhi1 = aGP1->getMeanDistPhi();
156  GoldenPattern::vector2D meanDistPhi2 = aGP2->getMeanDistPhi();
157  GoldenPattern::vector2D meanDistPhi3 = aGP3->getMeanDistPhi();
158  GoldenPattern::vector2D meanDistPhi4 = aGP4->getMeanDistPhi();
159 
160  for(unsigned int iLayer=0;iLayer<myOmtfConfig->nLayers();++iLayer){
161  for(unsigned int iRefLayer=0;iRefLayer<myOmtfConfig->nRefLayers();++iRefLayer){
162  meanDistPhi[iLayer][iRefLayer]+=meanDistPhi2[iLayer][iRefLayer];
163  meanDistPhi[iLayer][iRefLayer]+=meanDistPhi3[iLayer][iRefLayer];
164  meanDistPhi[iLayer][iRefLayer]+=meanDistPhi4[iLayer][iRefLayer];
165  meanDistPhi[iLayer][iRefLayer]/=4;
166  }
167  }
168 
169  aGP1->setMeanDistPhi(meanDistPhi);
170  aGP2->setMeanDistPhi(meanDistPhi);
171 
172  shiftGP(aGP1,meanDistPhi, meanDistPhi1);
173  shiftGP(aGP2,meanDistPhi, meanDistPhi2);
174  if(aGP3!=aGP1 && aGP4!=aGP2){
175  aGP3->setMeanDistPhi(meanDistPhi);
176  aGP4->setMeanDistPhi(meanDistPhi);
177  shiftGP(aGP3,meanDistPhi, meanDistPhi3);
178  shiftGP(aGP4,meanDistPhi, meanDistPhi4);
179  }
180  }
181 }
185  const GoldenPattern::vector2D & meanDistPhiNew,
186  const GoldenPattern::vector2D & meanDistPhiOld){
187 
190  unsigned int nPdfBins = exp2(myOmtfConfig->nPdfAddrBits());
191  GoldenPattern::vector3D pdfAllRef = aGP->getPdf();
192 
193  int indexShift = 0;
194  for(unsigned int iLayer=0;iLayer<myOmtfConfig->nLayers();++iLayer){
195  for(unsigned int iRefLayer=0;iRefLayer<myOmtfConfig->nRefLayers();++iRefLayer){
196  indexShift = meanDistPhiOld[iLayer][iRefLayer] - meanDistPhiNew[iLayer][iRefLayer];
197  for(unsigned int iPdfBin=0;iPdfBin<nPdfBins;++iPdfBin) pdfAllRef[iLayer][iRefLayer][iPdfBin] = 0;
198  for(unsigned int iPdfBin=0;iPdfBin<nPdfBins;++iPdfBin){
199  if((int)(iPdfBin)+indexShift>=0 && iPdfBin+indexShift<nPdfBins)
200  pdfAllRef[iLayer][iRefLayer][iPdfBin+indexShift] = aGP->pdfValue(iLayer, iRefLayer, iPdfBin);
201  }
202  }
203  }
204  aGP->setPdf(pdfAllRef);
205 }
208 const std::map<Key,GoldenPattern*> & OMTFProcessor::getPatterns() const{ return theGPs; }
211 const std::vector<OMTFProcessor::resultsMap> & OMTFProcessor::processInput(unsigned int iProcessor,
212  const OMTFinput & aInput){
213 
214  for(auto & itRegion: myResults) for(auto & itKey: itRegion) itKey.second.clear();
215 
218  std::bitset<128> refHitsBits = aInput.getRefHits(iProcessor);
219  if(refHitsBits.none()) return myResults;
220 
221  for(unsigned int iLayer=0;iLayer<myOmtfConfig->nLayers();++iLayer){
222  const OMTFinput::vector1D & layerHits = aInput.getLayerData(iLayer);
223  if(layerHits.empty()) continue;
225  unsigned int nTestedRefHits = myOmtfConfig->nTestRefHits();
226  for(unsigned int iRefHit=0;iRefHit<myOmtfConfig->nRefHits();++iRefHit){
227  if(!refHitsBits[iRefHit]) continue;
228  if(nTestedRefHits--==0) break;
229  const RefHitDef & aRefHitDef = myOmtfConfig->getRefHitsDefs()[iProcessor][iRefHit];
230 
231  int phiRef = aInput.getLayerData(myOmtfConfig->getRefToLogicNumber()[aRefHitDef.iRefLayer])[aRefHitDef.iInput];
232  int etaRef = aInput.getLayerData(myOmtfConfig->getRefToLogicNumber()[aRefHitDef.iRefLayer],true)[aRefHitDef.iInput];
233  unsigned int iRegion = aRefHitDef.iRegion;
234 
235  if(myOmtfConfig->getBendingLayers().count(iLayer)) phiRef = 0;
236  const OMTFinput::vector1D restrictedLayerHits = restrictInput(iProcessor, iRegion, iLayer,layerHits);
237  for(auto itGP: theGPs){
238  GoldenPattern::layerResult aLayerResult = itGP.second->process1Layer1RefLayer(aRefHitDef.iRefLayer,iLayer,
239  phiRef,
240  restrictedLayerHits);
241  int phiRefSt2 = itGP.second->propagateRefPhi(phiRef, etaRef, aRefHitDef.iRefLayer);
242  myResults[myOmtfConfig->nTestRefHits()-nTestedRefHits-1][itGP.second->key()].setRefPhiRHits(aRefHitDef.iRefLayer, phiRef);
243  myResults[myOmtfConfig->nTestRefHits()-nTestedRefHits-1][itGP.second->key()].addResult(aRefHitDef.iRefLayer,iLayer,
244  aLayerResult.first,
245  phiRefSt2,etaRef);
246  }
247  }
248  }
251  for(auto & itRefHit: myResults) for(auto & itKey: itRefHit) itKey.second.finalise();
252 
253  std::ostringstream myStr;
254  myStr<<"iProcessor: "<<iProcessor<<std::endl;
255  myStr<<"Input: ------------"<<std::endl;
256  myStr<<aInput<<std::endl;
257  edm::LogInfo("OMTF processor")<<myStr.str();
258 
259 
260  return myResults;
261 }
265  unsigned int iRegion,
266  unsigned int iLayer,
267  const OMTFinput::vector1D & layerHits){
268 
269  OMTFinput::vector1D myHits = layerHits;
270 
271  unsigned int iStart = myOmtfConfig->getConnections()[iProcessor][iRegion][iLayer].first;
272  unsigned int iEnd = iStart + myOmtfConfig->getConnections()[iProcessor][iRegion][iLayer].second -1;
273 
274  for(unsigned int iInput=0;iInput<14;++iInput){
275  if(iInput<iStart || iInput>iEnd) myHits[iInput] = myOmtfConfig->nPhiBins();
276  }
277  return myHits;
278 }
281 void OMTFProcessor::fillCounts(unsigned int iProcessor,
282  const OMTFinput & aInput,
283  const SimTrack* aSimMuon){
284 
285  int theCharge = (abs(aSimMuon->type()) == 13) ? aSimMuon->type()/-13 : 0;
286  unsigned int iPt = RPCConst::iptFromPt(aSimMuon->momentum().pt());
289  iPt+=1;
290  if(iPt>31) iPt=200*2+1;
291  else iPt = RPCConst::ptFromIpt(iPt)*2.0+1;//MicroGMT has 0.5 GeV step size, with lower bin edge (uGMT_pt_code - 1)*step_size
293 
295  std::bitset<128> refHitsBits = aInput.getRefHits(iProcessor);
296  if(refHitsBits.none()) return;
297 
298  std::ostringstream myStr;
299  myStr<<"iProcessor: "<<iProcessor<<std::endl;
300  myStr<<"Input: ------------"<<std::endl;
301  myStr<<aInput<<std::endl;
302  edm::LogInfo("OMTF processor")<<myStr.str();
303 
304  for(unsigned int iLayer=0;iLayer<myOmtfConfig->nLayers();++iLayer){
305  const OMTFinput::vector1D & layerHits = aInput.getLayerData(iLayer);
306  if(layerHits.empty()) continue;
308  for(unsigned int iRefHit=0;iRefHit<myOmtfConfig->nRefHits();++iRefHit){
309  if(!refHitsBits[iRefHit]) continue;
310  const RefHitDef & aRefHitDef = myOmtfConfig->getRefHitsDefs()[iProcessor][iRefHit];
311  int phiRef = aInput.getLayerData(myOmtfConfig->getRefToLogicNumber()[aRefHitDef.iRefLayer])[aRefHitDef.iInput];
312  unsigned int iRegion = aRefHitDef.iRegion;
313  if(myOmtfConfig->getBendingLayers().count(iLayer)) phiRef = 0;
314  const OMTFinput::vector1D restrictedLayerHits = restrictInput(iProcessor, iRegion, iLayer,layerHits);
315  for(auto itGP: theGPs){
316  if(itGP.first.theCharge!=theCharge) continue;
317  if(itGP.first.thePtCode!=iPt) continue;
318  itGP.second->addCount(aRefHitDef.iRefLayer,iLayer,phiRef,restrictedLayerHits);
319  }
320  }
321  }
322 }
Key key() const
Definition: GoldenPattern.h:58
const std::set< int > & getBendingLayers() const
void fillCounts(unsigned int iProcessor, const OMTFinput &aInput, const SimTrack *aSimMuon)
void averagePatterns(int charge)
unsigned int nRefLayers() const
unsigned int nRefHits() const
bool configure(const OMTFConfiguration *omtfParams, const L1TMuonOverlapParams *omtfPatterns)
Fill GP map with patterns from CondFormats object.
const OMTFConfiguration * myOmtfConfig
Definition: OMTFProcessor.h:98
std::vector< int > vector1D
Definition: GoldenPattern.h:48
const vector2D & getMeanDistPhi() const
Definition: GoldenPattern.h:62
unsigned int nLayers() const
unsigned int nPhiBins() const
unsigned int iInput
Hit input number within a cone.
std::map< Key, GoldenPattern * > theGPs
Map holding Golden Patterns.
Definition: OMTFProcessor.h:89
std::map< Key, OMTFResult > resultsMap
Definition: OMTFProcessor.h:24
std::vector< int > vector1D
Definition: OMTFinput.h:15
unsigned int thePtCode
Definition: GoldenPattern.h:34
const l1t::LUT * chargeLUT() const
Golden Patterns definitions.
bool addGP(GoldenPattern *aGP)
const OMTFinput::vector1D & getLayerData(unsigned int iLayer, bool giveEta=false) const
Definition: OMTFinput.cc:19
unsigned int nrBitsData() const
Definition: LUT.h:51
std::vector< vector1D > vector2D
Definition: GoldenPattern.h:49
std::vector< vector2D > vector3D
Definition: GoldenPattern.h:50
const vector3D_pair & getConnections() const
void setPdf(const vector3D &aPdf)
Definition: GoldenPattern.h:66
unsigned int nPdfAddrBits() const
const std::vector< std::vector< RefHitDef > > & getRefHitsDefs() const
void configure(const OMTFConfiguration *omtfConfig)
Definition: OMTFResult.cc:10
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
std::bitset< 128 > getRefHits(unsigned int iProcessor) const
Definition: OMTFinput.cc:27
std::pair< int, bool > layerResult
Definition: GoldenPattern.h:51
static double ptFromIpt(const int ipt)
Definition: RPCConst.cc:28
void resetConfiguration()
Reset all configuration parameters.
const l1t::LUT * etaLUT() const
unsigned int nGoldenPatterns() const
const l1t::LUT * pdfLUT() const
Definition: LUT.h:29
OMTFinput::vector1D restrictInput(unsigned int iProcessor, unsigned int iCone, unsigned int iLayer, const OMTFinput::vector1D &layerHits)
int pdfValue(unsigned int iLayer, unsigned int iRefLayer, unsigned int iBin) const
Definition: GoldenPattern.h:70
void shiftGP(GoldenPattern *aGP, const GoldenPattern::vector2D &meanDistPhiNew, const GoldenPattern::vector2D &meanDistPhiOld)
const std::vector< int > & getRefToLogicNumber() const
const l1t::LUT * ptLUT() const
int type() const
particle type (HEP PDT convension)
Definition: CoreSimTrack.h:25
const math::XYZTLorentzVectorD & momentum() const
Definition: CoreSimTrack.h:22
void setMeanDistPhi(const vector2D &aMeanDistPhi)
Definition: GoldenPattern.h:60
unsigned int iRefLayer
Reference layer logic number (0-7)
const std::vector< OMTFProcessor::resultsMap > & processInput(unsigned int iProcessor, const OMTFinput &aInput)
int data(unsigned int address) const
Definition: LUT.h:46
unsigned int iRegion
Region number assigned to this referecne hit.
static int iptFromPt(const double pt)
Definition: RPCConst.cc:10
const std::map< Key, GoldenPattern * > & getPatterns() const
Return map of GoldenPatterns.
const l1t::LUT * meanDistPhiLUT() const
std::vector< OMTFProcessor::resultsMap > myResults
Definition: OMTFProcessor.h:94
unsigned int nTestRefHits() const
const vector3D & getPdf() const
Definition: GoldenPattern.h:64