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PixelCPEBase.cc
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1 // Move geomCorrection to the concrete class. d.k. 06/06.
2 // Change drift direction. d.k. 06/06
3 // G. Giurgiu (ggiurgiu@pha.jhu.edu), 12/01/06, implemented the function:
4 // computeAnglesFromDetPosition(const SiPixelCluster & cl,
5 // change to use Lorentz angle from DB Lotte Wilke, Jan. 31st, 2008
6 // Change to use Generic error & Template calibration from DB - D.Fehling 11/08
7 
8 
12 
14 
15 #define CORRECT_FOR_BIG_PIXELS
16 
17 // MessageLogger
19 
20 // Magnetic field
22 
26 
27 #include <iostream>
28 
29 using namespace std;
30 
31 //#define NEW_CPEERROR // must be constistent with base.cc, generic cc/h and genericProducer.cc
32 
33 namespace {
34 #ifndef NEW_CPEERROR
35  //const bool useNewSimplerErrors = true;
36  const bool useNewSimplerErrors = false; // must be tha same as in generic
37 #endif
38 }
39 
40 //-----------------------------------------------------------------------------
41 // A constructor run for generic and templates
42 //
43 //-----------------------------------------------------------------------------
45  const MagneticField *mag,
46  const TrackerGeometry& geom,
47  const SiPixelLorentzAngle * lorentzAngle,
48  const SiPixelGenErrorDBObject * genErrorDBObject,
49  const SiPixelTemplateDBObject * templateDBobject,
50  const SiPixelLorentzAngle * lorentzAngleWidth,
51  int flag)
52  // : useLAAlignmentOffsets_(false), useLAOffsetFromConfig_(false),
53  : useLAOffsetFromConfig_(false),
54  useLAWidthFromConfig_(false), useLAWidthFromDB_(false), theFlag_(flag),
55  magfield_(mag), geom_(geom)
56 {
57 
58 #ifdef EDM_ML_DEBUG
59  nRecHitsTotal_=0;
60  nRecHitsUsedEdge_=0,
61 #endif
62 
63  //--- Lorentz angle tangent per Tesla
64  lorentzAngle_ = lorentzAngle;
65  lorentzAngleWidth_ = lorentzAngleWidth;
66 
67  //-- GenError Calibration Object (different from SiPixelCPEGenericErrorParm) from DB
68  genErrorDBObject_ = genErrorDBObject;
69  //cout<<" new errors "<<genErrorDBObject<<" "<<genErrorDBObject_<<endl;
70 
71  //-- Template Calibration Object from DB
72 #ifdef NEW_CPEERROR
73  if(theFlag_!=0) templateDBobject_ = templateDBobject;
74 #else
75  templateDBobject_ = templateDBobject;
76 #endif
77 
78  // Configurables
79  // For both templates & generic
80 
81  // Read templates and/or generic errors from DB
82  LoadTemplatesFromDB_ = conf.getParameter<bool>("LoadTemplatesFromDB");
83 
84  //--- Algorithm's verbosity
86  conf.getUntrackedParameter<int>("VerboseLevel",0);
87 
88  //-- Switch on/off E.B
89  alpha2Order = conf.getParameter<bool>("Alpha2Order");
90 
91  //--- A flag that could be used to change the behavior of
92  //--- clusterProbability() in TSiPixelRecHit (the *transient* one).
93  //--- The problem is that the transient hits are made after the CPE runs
94  //--- and they don't get the access to the PSet, so we pass it via the
95  //--- CPE itself...
96  //
98  = (unsigned int) conf.getParameter<int>("ClusterProbComputationFlag");
99 
100  // This LA related parameters are only relevant for the Generic algo
101  // They still have to be used in Base since the LA computation is in Base
102 
103  // Use LA-width from DB.
104  // If both (this and from config) are false LA-width is calcuated from LA-offset
105  useLAWidthFromDB_ = conf.existsAs<bool>("useLAWidthFromDB")?
106  conf.getParameter<bool>("useLAWidthFromDB"):false;
107 
108  // Use Alignment LA-offset in generic
109  //useLAAlignmentOffsets_ = conf.existsAs<bool>("useLAAlignmentOffsets")?
110  //conf.getParameter<bool>("useLAAlignmentOffsets"):false;
111 
112 
113  // Used only for testing
114  lAOffset_ = conf.existsAs<double>("lAOffset")? // fixed LA value
115  conf.getParameter<double>("lAOffset"):0.0;
116  lAWidthBPix_ = conf.existsAs<double>("lAWidthBPix")? // fixed LA width
117  conf.getParameter<double>("lAWidthBPix"):0.0;
118  lAWidthFPix_ = conf.existsAs<double>("lAWidthFPix")? // fixed LA width
119  conf.getParameter<double>("lAWidthFPix"):0.0;
120 
121  // Use LA-offset from config, for testing only
122  if(lAOffset_>0.0) useLAOffsetFromConfig_ = true;
123  // Use LA-width from config, split into fpix & bpix, for testing only
124  if(lAWidthBPix_>0.0 || lAWidthFPix_>0.0) useLAWidthFromConfig_ = true;
125 
126 
127  // For Templates only
128  // Compute the Lorentz shifts for this detector element for templates (from Alignment)
129  DoLorentz_ = conf.existsAs<bool>("DoLorentz")?conf.getParameter<bool>("DoLorentz"):false;
130 
131  LogDebug("PixelCPEBase") <<" LA constants - "
132  <<lAOffset_<<" "<<lAWidthBPix_<<" "<<lAWidthFPix_<<endl; //dk
133 
134  fillDetParams();
135 
136 }
137 
138 //-----------------------------------------------------------------------------
139 // Fill all variables which are constant for an event (geometry)
140 //-----------------------------------------------------------------------------
142 {
143  //cout<<" in fillDetParams "<<theFlag_<<endl;
144 
145  const unsigned m_detectors = geom_.offsetDU(GeomDetEnumerators::TIB); //first non-pixel detector unit
146  auto const & dus = geom_.detUnits();
147  m_DetParams.resize(m_detectors);
148  //cout<<"caching "<<m_detectors<<" pixel detectors"<<endl;
149  for (unsigned i=0; i!=m_detectors;++i) {
150  auto & p=m_DetParams[i];
151  p.theDet = dynamic_cast<const PixelGeomDetUnit*>(dus[i]);
152  assert(p.theDet);
153  assert(p.theDet->index()==int(i));
154 
155  p.theOrigin = p.theDet->surface().toLocal(GlobalPoint(0,0,0));
156 
157  //--- p.theDet->type() returns a GeomDetType, which implements subDetector()
158  p.thePart = p.theDet->type().subDetector();
159 
160  //cout<<" in PixelCPEBase - in det "<<thePart<<endl; //dk
161 
162  //--- The location in of this DetUnit in a cyllindrical coord system (R,Z)
163  //--- The call goes via BoundSurface, returned by p.theDet->surface(), but
164  //--- position() is implemented in GloballyPositioned<> template
165  //--- ( BoundSurface : Surface : GloballyPositioned<float> )
166  //p.theDetR = p.theDet->surface().position().perp(); //Not used, AH
167  //p.theDetZ = p.theDet->surface().position().z(); //Not used, AH
168  //--- Define parameters for chargewidth calculation
169 
170  //--- bounds() is implemented in BoundSurface itself.
171  p.theThickness = p.theDet->surface().bounds().thickness();
172 
173  // Cache the det id for templates and generic erros
174 
175  if(theFlag_==0) { // for generic
176 #ifdef NEW_CPEERROR
177  p.detTemplateId = genErrorDBObject_->getGenErrorID(p.theDet->geographicalId().rawId());
178 #else
179  if(useNewSimplerErrors)
180  p.detTemplateId = genErrorDBObject_->getGenErrorID(p.theDet->geographicalId().rawId());
181  else
182  p.detTemplateId = templateDBobject_->getTemplateID(p.theDet->geographicalId().rawId());
183 #endif
184  } else { // for templates
185  p.detTemplateId = templateDBobject_->getTemplateID(p.theDet->geographicalId());
186  }
187 
188  // just for testing
189  //int i1 = 0;
190  //if(theFlag_==0) i1 = genErrorDBObject_->getGenErrorID(p.theDet->geographicalId().rawId());
191  //int i2= templateDBobject_->getTemplateID(p.theDet->geographicalId().rawId());
192  //int i3= templateDBobject_->getTemplateID(p.theDet->geographicalId());
193  //if(i2!=i3) cout<<i2<<" != "<<i3<<endl;
194  //cout<<i<<" "<<p.detTemplateId<<" "<<i1<<" "<<i2<<" "<<i3<<endl;
195 
196  auto topol = &(p.theDet->specificTopology());
197  if unlikely(topol!=p.theTopol) { // there is ONE topology!)
198  p.theTopol=topol;
199  auto const proxyT = dynamic_cast<const ProxyPixelTopology*>(p.theTopol);
200  if (proxyT) p.theRecTopol = dynamic_cast<const RectangularPixelTopology*>(&(proxyT->specificTopology()));
201  else p.theRecTopol = dynamic_cast<const RectangularPixelTopology*>(p.theTopol);
202  assert(p.theRecTopol);
203 
204  //---- The geometrical description of one module/plaquette
205  //p.theNumOfRow = p.theRecTopol->nrows(); // rows in x //Not used, AH
206  //p.theNumOfCol = p.theRecTopol->ncolumns(); // cols in y //Not used, AH
207  std::pair<float,float> pitchxy = p.theRecTopol->pitch();
208  p.thePitchX = pitchxy.first; // pitch along x
209  p.thePitchY = pitchxy.second; // pitch along y
210  }
211 
212  //p.theSign = isFlipped(&p) ? -1 : 1; //Not used, AH
213 
214  LocalVector Bfield = p.theDet->surface().toLocal(magfield_->inTesla(p.theDet->surface().position()));
215  p.bz = Bfield.z();
216 
217 
218  // Compute the Lorentz shifts for this detector element
219  if ( (theFlag_==0) || DoLorentz_ ) { // do always for generic and if(DOLorentz) for templates
220  p.driftDirection = driftDirection(p, Bfield );
222  }
223 
224 
225  LogDebug("PixelCPEBase") << "***** PIXEL LAYOUT *****"
226  << " thePart = " << p.thePart
227  << " theThickness = " << p.theThickness
228  << " thePitchX = " << p.thePitchX
229  << " thePitchY = " << p.thePitchY;
230  // << " theLShiftX = " << p.theLShiftX;
231 
232 
233  }
234 }
235 
236 //-----------------------------------------------------------------------------
237 // One function to cache the variables common for one DetUnit.
238 //-----------------------------------------------------------------------------
239 void
240 PixelCPEBase::setTheClu( DetParam const & theDetParam, ClusterParam & theClusterParam ) const
241 {
242 
243  //--- Geometric Quality Information
244  int minInX,minInY,maxInX,maxInY=0;
245  minInX = theClusterParam.theCluster->minPixelRow();
246  minInY = theClusterParam.theCluster->minPixelCol();
247  maxInX = theClusterParam.theCluster->maxPixelRow();
248  maxInY = theClusterParam.theCluster->maxPixelCol();
249 
250  theClusterParam.isOnEdge_ = theDetParam.theRecTopol->isItEdgePixelInX(minInX) | theDetParam.theRecTopol->isItEdgePixelInX(maxInX) |
251  theDetParam.theRecTopol->isItEdgePixelInY(minInY) | theDetParam.theRecTopol->isItEdgePixelInY(maxInY) ;
252 
253  // FOR NOW UNUSED. KEEP IT IN CASE WE WANT TO USE IT IN THE FUTURE
254  // Bad Pixels have their charge set to 0 in the clusterizer
255  //hasBadPixels_ = false;
256  //for(unsigned int i=0; i<theClusterParam.theCluster->pixelADC().size(); ++i) {
257  //if(theClusterParam.theCluster->pixelADC()[i] == 0) { hasBadPixels_ = true; break;}
258  //}
259 
260  theClusterParam.spansTwoROCs_ = theDetParam.theRecTopol->containsBigPixelInX(minInX,maxInX) |
261  theDetParam.theRecTopol->containsBigPixelInY(minInY,maxInY);
262 
263 }
264 
265 
266 //-----------------------------------------------------------------------------
267 // Compute alpha_ and beta_ from the LocalTrajectoryParameters.
268 // Note: should become const after both localParameters() become const.
269 //-----------------------------------------------------------------------------
270 void PixelCPEBase::
271 computeAnglesFromTrajectory( DetParam const & theDetParam, ClusterParam & theClusterParam,
272  const LocalTrajectoryParameters & ltp) const
273 {
274  //cout<<" in PixelCPEBase:computeAnglesFromTrajectory - "<<endl; //dk
275 
276  //theClusterParam.loc_traj_param = ltp;
277 
278  LocalVector localDir = ltp.momentum();
279 
280 
281  float locx = localDir.x();
282  float locy = localDir.y();
283  float locz = localDir.z();
284 
285  /*
286  // Danek's definition
287  alpha_ = acos(locx/sqrt(locx*locx+locz*locz));
288  if ( isFlipped() ) // &&& check for FPIX !!!
289  alpha_ = PI - alpha_ ;
290  beta_ = acos(locy/sqrt(locy*locy+locz*locz));
291  */
292 
293 
294  theClusterParam.cotalpha = locx/locz;
295  theClusterParam.cotbeta = locy/locz;
296  //theClusterParam.zneg = (locz < 0); // Not used, AH
297 
298 
299  LocalPoint trk_lp = ltp.position();
300  theClusterParam.trk_lp_x = trk_lp.x();
301  theClusterParam.trk_lp_y = trk_lp.y();
302 
303  theClusterParam.with_track_angle = true;
304 
305 
306  // ggiurgiu@jhu.edu 12/09/2010 : needed to correct for bows/kinks
307  AlgebraicVector5 vec_trk_parameters = ltp.mixedFormatVector();
308  theClusterParam.loc_trk_pred = Topology::LocalTrackPred( vec_trk_parameters );
309 
310 }
311 
312 //-----------------------------------------------------------------------------
313 // Estimate theAlpha for barrel, based on the det position.
314 // &&& Needs to be consolidated from the above.
315 //-----------------------------------------------------------------------------
316 //float
317 //PixelCPEBase::estimatedAlphaForBarrel(float centerx) const
318 //{
319 // float tanalpha = theSign * (centerx-theOffsetX) * thePitchX / theDetR;
320 // return PI/2.0 - atan(tanalpha);
321 //}
322 
323 
324 
325 
326 //-----------------------------------------------------------------------------
327 // Compute alpha_ and beta_ from the position of this DetUnit.
328 // &&& DOES NOT WORK FOR NOW. d.k. 6/06
329 // The angles from dets are calculated internaly in the PixelCPEInitial class
330 //-----------------------------------------------------------------------------
331 // G. Giurgiu, 12/01/06 : implement the function
332 void PixelCPEBase::
333 computeAnglesFromDetPosition(DetParam const & theDetParam, ClusterParam & theClusterParam ) const
334 {
335 
336 
337  /*
338  // get cluster center of gravity (of charge)
339  float xcenter = cl.x();
340  float ycenter = cl.y();
341 
342  // get the cluster position in local coordinates (cm)
343 
344  // ggiurgiu@jhu.edu 12/09/2010 : This function is called without track info, therefore there are no track
345  // angles to provide here. Call the default localPosition (without track info)
346  LocalPoint lp = theTopol->localPosition( MeasurementPoint(xcenter, ycenter) );
347 
348 
349  // get the cluster position in global coordinates (cm)
350  GlobalPoint gp = theDet->surface().toGlobal( lp );
351  float gp_mod = sqrt( gp.x()*gp.x() + gp.y()*gp.y() + gp.z()*gp.z() );
352 
353  // normalize
354  float gpx = gp.x()/gp_mod;
355  float gpy = gp.y()/gp_mod;
356  float gpz = gp.z()/gp_mod;
357 
358  // make a global vector out of the global point; this vector will point from the
359  // origin of the detector to the cluster
360  GlobalVector gv(gpx, gpy, gpz);
361 
362  // make local unit vector along local X axis
363  const Local3DVector lvx(1.0, 0.0, 0.0);
364 
365  // get the unit X vector in global coordinates/
366  GlobalVector gvx = theDet->surface().toGlobal( lvx );
367 
368  // make local unit vector along local Y axis
369  const Local3DVector lvy(0.0, 1.0, 0.0);
370 
371  // get the unit Y vector in global coordinates
372  GlobalVector gvy = theDet->surface().toGlobal( lvy );
373 
374  // make local unit vector along local Z axis
375  const Local3DVector lvz(0.0, 0.0, 1.0);
376 
377  // get the unit Z vector in global coordinates
378  GlobalVector gvz = theDet->surface().toGlobal( lvz );
379 
380  // calculate the components of gv (the unit vector pointing to the cluster)
381  // in the local coordinate system given by the basis {gvx, gvy, gvz}
382  // note that both gv and the basis {gvx, gvy, gvz} are given in global coordinates
383  float gv_dot_gvx = gv.x()*gvx.x() + gv.y()*gvx.y() + gv.z()*gvx.z();
384  float gv_dot_gvy = gv.x()*gvy.x() + gv.y()*gvy.y() + gv.z()*gvy.z();
385  float gv_dot_gvz = gv.x()*gvz.x() + gv.y()*gvz.y() + gv.z()*gvz.z();
386  */
387 
388  // all the above is equivalent to
389  LocalPoint lp = theDetParam.theTopol->localPosition( MeasurementPoint(theClusterParam.theCluster->x(), theClusterParam.theCluster->y()) );
390  auto gvx = lp.x()-theDetParam.theOrigin.x();
391  auto gvy = lp.y()-theDetParam.theOrigin.y();
392  auto gvz = -1.f/theDetParam.theOrigin.z();
393  // normalization not required as only ratio used...
394 
395 
396  //theClusterParam.zneg = (gvz < 0); // Not used, AH
397 
398  // calculate angles
399  theClusterParam.cotalpha = gvx*gvz;
400  theClusterParam.cotbeta = gvy*gvz;
401 
402  theClusterParam.with_track_angle = false;
403 
404 
405  /*
406  // used only in dberror param...
407  auto alpha = HALF_PI - std::atan(cotalpha_);
408  auto beta = HALF_PI - std::atan(cotbeta_);
409  if (zneg) { beta -=PI; alpha -=PI;}
410 
411  auto alpha_ = atan2( gv_dot_gvz, gv_dot_gvx );
412  auto beta_ = atan2( gv_dot_gvz, gv_dot_gvy );
413 
414  assert(std::abs(std::round(alpha*10000.f)-std::round(alpha_*10000.f))<2);
415  assert(std::abs(std::round(beta*10000.f)-std::round(beta_*10000.f))<2);
416  */
417 
418 }
419 
420 
421 
422 //-----------------------------------------------------------------------------
423 // The isFlipped() is a silly way to determine which detectors are inverted.
424 // In the barrel for every 2nd ladder the E field direction is in the
425 // global r direction (points outside from the z axis), every other
426 // ladder has the E field inside. Something similar is in the
427 // forward disks (2 sides of the blade). This has to be recognised
428 // because the charge sharing effect is different.
429 //
430 // The isFliped does it by looking and the relation of the local (z always
431 // in the E direction) to global coordinates. There is probably a much
432 // better way.
433 //-----------------------------------------------------------------------------
434 bool PixelCPEBase::isFlipped(DetParam const & theDetParam) const
435 {
436  // Check the relative position of the local +/- z in global coordinates.
437  float tmp1 = theDetParam.theDet->surface().toGlobal(Local3DPoint(0.,0.,0.)).perp2();
438  float tmp2 = theDetParam.theDet->surface().toGlobal(Local3DPoint(0.,0.,1.)).perp2();
439  //cout << " 1: " << tmp1 << " 2: " << tmp2 << endl;
440  if ( tmp2<tmp1 ) return true;
441  else return false;
442 }
443 //------------------------------------------------------------------------
445  auto i = det.index();
446  //cout << "get parameters of detector " << i << endl;
447  assert(i<int(m_DetParams.size()));
448  //if (i>=int(m_DetParams.size())) m_DetParams.resize(i+1); // should never happen!
449  const DetParam & p = m_DetParams[i];
450  return p;
451 }
452 
453 //-----------------------------------------------------------------------------
454 // Drift direction.
455 // Works OK for barrel and forward.
456 // The formulas used for dir_x,y,z have to be exactly the same as the ones
457 // used in the digitizer (SiPixelDigitizerAlgorithm.cc).
458 //
459 //-----------------------------------------------------------------------------
461 PixelCPEBase::driftDirection(DetParam & theDetParam, GlobalVector bfield ) const {
462 
463  Frame detFrame(theDetParam.theDet->surface().position(), theDetParam.theDet->surface().rotation());
464  LocalVector Bfield = detFrame.toLocal(bfield);
465  return driftDirection(theDetParam,Bfield);
466 
467 }
468 
470 PixelCPEBase::driftDirection(DetParam & theDetParam, LocalVector Bfield ) const {
471  const bool LocalPrint = false;
472 
473  // Use LA from DB or from config
474  float langle = 0.;
475  if( !useLAOffsetFromConfig_ ) { // get it from DB
476  if(lorentzAngle_ != NULL) { // a real LA object
477  langle = lorentzAngle_->getLorentzAngle(theDetParam.theDet->geographicalId().rawId());
478  //cout<<" la "<<langle<<" "<< theDetParam.theDet->geographicalId().rawId() <<endl;
479  } else { // no LA, unused
480  //cout<<" LA object is NULL, assume LA = 0"<<endl; //dk
481  langle = 0; // set to a fake value
482  }
483  if(LocalPrint) cout<<" Will use LA Offset from DB "<<langle<<endl;
484  } else { // from config file
485  langle = lAOffset_;
486  if(LocalPrint) cout<<" Will use LA Offset from config "<<langle<<endl;
487  }
488 
489  // Now do the LA width stuff
490  theDetParam.widthLAFractionX = 1.; // predefine to 1 (default) if things fail
491  theDetParam.widthLAFractionY = 1.;
492 
493  // Compute the charge width, generic only
494  if(theFlag_==0) {
495 
497  // take it from a seperate, special LA DB object (forWidth)
498 
499  auto langleWidth = lorentzAngleWidth_->getLorentzAngle(theDetParam.theDet->geographicalId().rawId());
500  if(langleWidth!=0.0) theDetParam.widthLAFractionX = std::abs(langleWidth/langle);
501  // leave the widthLAFractionY=1.
502  //cout<<" LAWidth lorentz width "<<theDetParam.widthLAFractionX<<" "<<theDetParam.widthLAFractionY<<endl;
503 
504  } else if(useLAWidthFromConfig_) { // get from config
505 
506  double lAWidth=0;
507  if( theDetParam.thePart == GeomDetEnumerators::PixelBarrel) lAWidth = lAWidthBPix_; // barrel
508  else lAWidth = lAWidthFPix_;
509 
510  if(langle!=0.0) theDetParam.widthLAFractionX = std::abs(lAWidth/langle);
511  // fix the FractionY at 1
512 
513  //cout<<" Lorentz width from config "<<theDetParam.widthLAFractionX<<" "<<theDetParam.widthLAFractionY<<endl;
514 
515  } else { // get if from the offset LA (old method used until 2013)
516  // do nothing
517  //cout<<" Old default LA width method "<<theDetParam.widthLAFractionX<<" "<<theDetParam.widthLAFractionY<<endl;
518 
519  }
520 
521  //cout<<" Final LA fraction "<<theDetParam.widthLAFractionX<<" "<<theDetParam.widthLAFractionY<<endl;
522 
523  } // if flag
524 
525 
526  if(LocalPrint) cout<<" in PixelCPEBase:driftDirection - "<<langle<<" "<<Bfield<<endl; //dk
527 
528  float alpha2 = alpha2Order ? langle*langle : 0; //
529 
530  // **********************************************************************
531  // Our convention is the following:
532  // +x is defined by the direction of the Lorentz drift!
533  // +z is defined by the direction of E field (so electrons always go into -z!)
534  // +y is defined by +x and +z, and it turns out to be always opposite to the +B field.
535  // **********************************************************************
536 
537  float dir_x = -( langle * Bfield.y() + alpha2* Bfield.z()* Bfield.x() );
538  float dir_y = ( langle * Bfield.x() - alpha2* Bfield.z()* Bfield.y() );
539  float dir_z = -( 1.f + alpha2* Bfield.z()*Bfield.z() );
540  auto scale = 1.f/std::abs( dir_z ); // same as 1 + alpha2*Bfield.z()*Bfield.z()
541  LocalVector dd(dir_x*scale, dir_y*scale, -1.f ); // last is -1 !
542 
543  LogDebug("PixelCPEBase") << " The drift direction in local coordinate is " << dd ;
544 
545  return dd;
546 }
547 
548 //-----------------------------------------------------------------------------
549 // One-shot computation of the driftDirection and both lorentz shifts
550 //-----------------------------------------------------------------------------
551 void
553 
554  //cout<<" in PixelCPEBase:computeLorentzShifts - "<<driftDirection_<<endl; //dk
555 
556  // Max shift (at the other side of the sensor) in cm
557  theDetParam.lorentzShiftInCmX = theDetParam.driftDirection.x()/theDetParam.driftDirection.z() * theDetParam.theThickness; //
558  theDetParam.lorentzShiftInCmY = theDetParam.driftDirection.y()/theDetParam.driftDirection.z() * theDetParam.theThickness; //
559 
560  //cout<<" in PixelCPEBase:computeLorentzShifts - "
561  //<<lorentzShiftInCmX_<<" "
562  //<<lorentzShiftInCmY_<<" "
563  //<<endl; //dk
564 
565  LogDebug("PixelCPEBase") << " The drift direction in local coordinate is "
566  << theDetParam.driftDirection ;
567 }
568 
569 //-----------------------------------------------------------------------------
574 //-----------------------------------------------------------------------------
577 {
579  float probabilityXY;
580  if ( theClusterParam.probabilityX_ !=0 && theClusterParam.probabilityY_ !=0 )
581  probabilityXY = theClusterParam.probabilityX_ * theClusterParam.probabilityY_ * (1.f - std::log(theClusterParam.probabilityX_ * theClusterParam.probabilityY_) ) ;
582  else
583  probabilityXY = 0;
585  qualWord );
586 
588  qualWord );
589 
590  SiPixelRecHitQuality::thePacking.setQBin ( (int)theClusterParam.qBin_,
591  qualWord );
592 
594  qualWord );
595 
597  qualWord );
598 
600  qualWord );
601 
603  qualWord );
604 
605  return qualWord;
606 }
#define LogDebug(id)
GlobalPoint toGlobal(const Point2DBase< Scalar, LocalTag > lp) const
Definition: Surface.h:114
T getParameter(std::string const &) const
void setProbabilityXY(float prob, QualWordType &qualWord) const
T getUntrackedParameter(std::string const &, T const &) const
int i
Definition: DBlmapReader.cc:9
static const Packing thePacking
int minPixelCol() const
bool existsAs(std::string const &parameterName, bool trackiness=true) const
checks if a parameter exists as a given type
Definition: ParameterSet.h:184
Local3DPoint theOrigin
Definition: PixelCPEBase.h:65
virtual LocalPoint localPosition(const MeasurementPoint &) const =0
const SiPixelLorentzAngle * lorentzAngleWidth_
Definition: PixelCPEBase.h:244
LocalVector driftDirection(DetParam &theDetParam, GlobalVector bfield) const
short getTemplateID(const uint32_t &detid) const
LocalPoint position() const
Local x and y position coordinates.
virtual GlobalVector inTesla(const GlobalPoint &gp) const =0
Field value ad specified global point, in Tesla.
T mag() const
The vector magnitude. Equivalent to sqrt(vec.mag2())
const SiPixelCluster * theCluster
Definition: PixelCPEBase.h:89
Global3DPoint GlobalPoint
Definition: GlobalPoint.h:10
T y() const
Definition: PV3DBase.h:63
bool isFlipped(DetParam const &theDetParam) const
#define NULL
Definition: scimark2.h:8
DetParams m_DetParams
Definition: PixelCPEBase.h:280
T perp2() const
Definition: PV3DBase.h:71
void fillDetParams()
short getGenErrorID(const uint32_t &detid) const
const Plane & surface() const
The nominal surface of the GeomDet.
Definition: GeomDet.h:35
const PixelGeomDetUnit * theDet
Definition: PixelCPEBase.h:59
GeomDetType::SubDetector thePart
Definition: PixelCPEBase.h:64
const RectangularPixelTopology * theRecTopol
Definition: PixelCPEBase.h:62
bool useLAWidthFromDB_
Definition: PixelCPEBase.h:234
float lAWidthBPix_
Definition: PixelCPEBase.h:229
int maxPixelRow() const
uint32_t rawId() const
get the raw id
Definition: DetId.h:43
bool useLAWidthFromConfig_
Definition: PixelCPEBase.h:233
#define unlikely(x)
Definition: Likely.h:21
virtual const DetUnitContainer & detUnits() const
Returm a vector of all GeomDetUnit.
Measurement2DPoint MeasurementPoint
Measurement points are two-dimensional by default.
const PixelTopology * theTopol
Definition: PixelCPEBase.h:61
int minPixelRow() const
bool LoadTemplatesFromDB_
Definition: PixelCPEBase.h:253
void computeAnglesFromTrajectory(DetParam const &theDetParam, ClusterParam &theClusterParam, const LocalTrajectoryParameters &ltp) const
unsigned int offsetDU(SubDetector sid) const
T z() const
Definition: PV3DBase.h:64
void computeLorentzShifts(DetParam &) const
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
const SiPixelTemplateDBObject * templateDBobject_
Definition: PixelCPEBase.h:249
void setHasBadPixels(bool flag, QualWordType &qualWord) const
DetId geographicalId() const
The label of this GeomDet.
Definition: GeomDet.h:72
double f[11][100]
const MagneticField * magfield_
Definition: PixelCPEBase.h:240
LocalVector momentum() const
Momentum vector in the local frame.
int index() const
Definition: GeomDet.h:92
void computeAnglesFromDetPosition(DetParam const &theDetParam, ClusterParam &theClusterParam) const
void setProbabilityQ(float prob, QualWordType &qualWord) const
SiPixelRecHitQuality::QualWordType rawQualityWord(ClusterParam &theClusterParam) const
void setSpansTwoROCs(bool flag, QualWordType &qualWord) const
tuple conf
Definition: dbtoconf.py:185
Point3DBase< float, LocalTag > Local3DPoint
Definition: LocalPoint.h:9
Topology::LocalTrackPred loc_trk_pred
Definition: PixelCPEBase.h:102
void setIsOnEdge(bool flag, QualWordType &qualWord) const
ROOT::Math::SVector< double, 5 > AlgebraicVector5
const SiPixelLorentzAngle * lorentzAngle_
Definition: PixelCPEBase.h:243
const SiPixelGenErrorDBObject * genErrorDBObject_
Definition: PixelCPEBase.h:246
void setTheClu(DetParam const &, ClusterParam &theClusterParam) const
int maxPixelCol() const
AlgebraicVector5 mixedFormatVector() const
bool useLAOffsetFromConfig_
Definition: PixelCPEBase.h:232
PixelCPEBase(edm::ParameterSet const &conf, const MagneticField *mag, const TrackerGeometry &geom, const SiPixelLorentzAngle *lorentzAngle, const SiPixelGenErrorDBObject *genErrorDBObject, const SiPixelTemplateDBObject *templateDBobject, const SiPixelLorentzAngle *lorentzAngleWidth, int flag=0)
Definition: PixelCPEBase.cc:44
const TrackerGeometry & geom_
Definition: PixelCPEBase.h:241
float getLorentzAngle(const uint32_t &) const
float y() const
LocalVector driftDirection
Definition: PixelCPEBase.h:76
const RotationType & rotation() const
tuple cout
Definition: gather_cfg.py:121
volatile std::atomic< bool > shutdown_flag false
void setHasFilledProb(bool flag, QualWordType &qualWord) const
T x() const
Definition: PV3DBase.h:62
const PositionType & position() const
void setQBin(int qbin, QualWordType &qualWord) const
float x() const
float lAWidthFPix_
Definition: PixelCPEBase.h:230
DetParam const & detParam(const GeomDetUnit &det) const