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TrackerSystematicMisalignments.cc
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21 
26 #include "CLHEP/Random/RandGauss.h"
27 
29 
30 #include "DataFormats/SiStripDetId/interface/SiStripDetId.h" // for enums TID/TIB/etc.
31 
32 // Database
35 
36 // -----------------------------------------------------------------
37 // 2010-05-20 Frank Meier
38 // Changed sign of z-correction, i.e. z-expansion is now an expansion
39 // made some variables constant, removed obviously dead code and comments
40 
42  : theAlignableTracker(nullptr)
43 {
44  // use existing geometry
45  m_fromDBGeom = cfg.getUntrackedParameter< bool > ("fromDBGeom");
46 
47  // constants
48  m_radialEpsilon = cfg.getUntrackedParameter< double > ("radialEpsilon");
49  m_telescopeEpsilon = cfg.getUntrackedParameter< double > ("telescopeEpsilon");
50  m_layerRotEpsilon = cfg.getUntrackedParameter< double > ("layerRotEpsilon");
51  m_bowingEpsilon = cfg.getUntrackedParameter< double > ("bowingEpsilon");
52  m_zExpEpsilon = cfg.getUntrackedParameter< double > ("zExpEpsilon");
53  m_twistEpsilon = cfg.getUntrackedParameter< double > ("twistEpsilon");
54  m_ellipticalEpsilon = cfg.getUntrackedParameter< double > ("ellipticalEpsilon");
55  m_skewEpsilon = cfg.getUntrackedParameter< double > ("skewEpsilon");
56  m_sagittaEpsilon = cfg.getUntrackedParameter< double > ("sagittaEpsilon");
57 
58  m_ellipticalDelta = cfg.getUntrackedParameter< double > ("ellipticalDelta");
59  m_skewDelta = cfg.getUntrackedParameter< double > ("skewDelta");
60  m_sagittaDelta = cfg.getUntrackedParameter< double > ("sagittaDelta");
61 
62  if (m_radialEpsilon > -990.0){
63  edm::LogWarning("MisalignedTracker") << "Applying radial ...";
64  }
65  if (m_telescopeEpsilon > -990.0){
66  edm::LogWarning("MisalignedTracker") << "Applying telescope ...";
67  }
68  if (m_layerRotEpsilon > -990.0){
69  edm::LogWarning("MisalignedTracker") << "Applying layer rotation ...";
70  }
71  if (m_bowingEpsilon > -990.0){
72  edm::LogWarning("MisalignedTracker") << "Applying bowing ...";
73  }
74  if (m_zExpEpsilon > -990.0){
75  edm::LogWarning("MisalignedTracker") << "Applying z-expansion ...";
76  }
77  if (m_twistEpsilon > -990.0){
78  edm::LogWarning("MisalignedTracker") << "Applying twist ...";
79  }
80  if (m_ellipticalEpsilon > -990.0){
81  edm::LogWarning("MisalignedTracker") << "Applying elliptical ...";
82  }
83  if (m_skewEpsilon > -990.0){
84  edm::LogWarning("MisalignedTracker") << "Applying skew ...";
85  }
86  if (m_sagittaEpsilon > -990.0){
87  edm::LogWarning("MisalignedTracker") << "Applying sagitta ...";
88  }
89 
90  // get flag for suppression of blind movements
91  suppressBlindMvmts = cfg.getUntrackedParameter< bool > ("suppressBlindMvmts");
93  {
94  edm::LogWarning("MisalignedTracker") << "Blind movements suppressed (TIB/TOB in z, TID/TEC in r)";
95  }
96 
97  // compatibility with old (weird) z convention
98  oldMinusZconvention = cfg.getUntrackedParameter< bool > ("oldMinusZconvention");
100  {
101  edm::LogWarning("MisalignedTracker") << "Old z convention: dz --> -dz";
102  }
103  else
104  {
105  edm::LogWarning("MisalignedTracker") << "New z convention: dz --> dz";
106  }
107 
108 }
109 
111 {
112 
113 }
114 
115 
117 
118  //Retrieve tracker topology from geometry
119  edm::ESHandle<TrackerTopology> tTopoHandle;
120  setup.get<TrackerTopologyRcd>().get(tTopoHandle);
121  const TrackerTopology* const tTopo = tTopoHandle.product();
122 
124  setup.get<IdealGeometryRecord>().get(geom);
126  setup.get<PTrackerParametersRcd>().get( ptp );
128 
129  //take geometry from DB or randomly generate geometry
130  if (m_fromDBGeom){
131  //build the tracker
132  edm::ESHandle<Alignments> alignments;
134 
135  setup.get<TrackerAlignmentRcd>().get(alignments);
136  setup.get<TrackerAlignmentErrorExtendedRcd>().get(alignmentErrors);
137 
138  edm::ESHandle<Alignments> globalPositionRcd;
139  setup.get<TrackerDigiGeometryRecord>().getRecord<GlobalPositionRcd>().get(globalPositionRcd);
140 
141  //apply the latest alignments
142  GeometryAligner aligner;
143  aligner.applyAlignments<TrackerGeometry>( &(*tracker), &(*alignments), &(*alignmentErrors),
144  align::DetectorGlobalPosition(*globalPositionRcd, DetId(DetId::Tracker)));
145 
146  }
147 
148  theAlignableTracker = new AlignableTracker(&(*tracker), tTopo);
149 
150  applySystematicMisalignment( &(*theAlignableTracker) );
151 
152  // -------------- writing out to alignment record --------------
153  Alignments* myAlignments = theAlignableTracker->alignments() ;
154  AlignmentErrorsExtended* myAlignmentErrorsExtended = theAlignableTracker->alignmentErrors() ;
155 
156  // Store alignment[Error]s to DB
158  std::string theAlignRecordName = "TrackerAlignmentRcd";
159  std::string theErrorRecordName = "TrackerAlignmentErrorExtendedRcd";
160 
161  // Call service
162  if( !poolDbService.isAvailable() ) // Die if not available
163  throw cms::Exception("NotAvailable") << "PoolDBOutputService not available";
164 
165  poolDbService->writeOne<Alignments>(&(*myAlignments), poolDbService->beginOfTime(), theAlignRecordName);
166  poolDbService->writeOne<AlignmentErrorsExtended>(&(*myAlignmentErrorsExtended), poolDbService->beginOfTime(), theErrorRecordName);
167 }
168 
170 {
171 
172  const align::Alignables& comp = ali->components();
173  unsigned int nComp = comp.size();
174  //move then do for lower level object
175  //for issue of det vs detunit
176  bool usecomps = true;
177  if ((ali->alignableObjectId()==2)&&(nComp>=1)) usecomps = false;
178  for (unsigned int i = 0; i < nComp; ++i){
179  if (usecomps) applySystematicMisalignment(comp[i]);
180  }
181 
182  // if suppression of blind mvmts: check if subdet is blind to a certain mode
183  bool blindToZ(false), blindToR(false);
184  if (suppressBlindMvmts)
185  {
186  const int subdetid = ali->geomDetId().subdetId();
187  switch(subdetid)
188  {
189  // TIB/TON blind to z
190  case SiStripDetId::TIB:
191  case SiStripDetId::TOB:
192  blindToZ = true;
193  break;
194  // TID/TEC blind to R
195  case SiStripDetId::TID:
196  case SiStripDetId::TEC:
197  blindToR = true;
198  break;
199  default:
200  break;
201  }
202  }
203 
204  const int level = ali->alignableObjectId();
205  if ((level == 1)||(level == 2)){
206  const align::PositionType gP = ali->globalPosition();
207  const align::GlobalVector gVec = findSystematicMis( gP, blindToZ, blindToR);
208  ali->move( gVec );
209  }
210 }
211 
212 align::GlobalVector TrackerSystematicMisalignments::findSystematicMis( const align::PositionType& globalPos, const bool blindToZ, const bool blindToR ){
213 //align::GlobalVector TrackerSystematicMisalignments::findSystematicMis( align::PositionType globalPos ){
214  // calculates shift for the current alignable
215  // all corrections are calculated w.r.t. the original geometry
216  double deltaX = 0.0;
217  double deltaY = 0.0;
218  double deltaZ = 0.0;
219  const double oldX = globalPos.x();
220  const double oldY = globalPos.y();
221  const double oldZ = globalPos.z();
222  const double oldPhi = globalPos.phi();
223  const double oldR = sqrt(globalPos.x()*globalPos.x() + globalPos.y()*globalPos.y());
224 
225  if (m_radialEpsilon > -990.0 && !blindToR){
226  deltaX += m_radialEpsilon*oldX;
227  deltaY += m_radialEpsilon*oldY;
228  }
229  if (m_telescopeEpsilon > -990.0 && !blindToZ){
230  deltaZ += m_telescopeEpsilon*oldR;
231  }
232  if (m_layerRotEpsilon > -990.0){
233  // The following number was chosen such that the Layer Rotation systematic
234  // misalignment would not cause an overall rotation of the tracker.
235  const double Roffset = 57.0;
236  const double xP = oldR*cos(oldPhi+m_layerRotEpsilon*(oldR-Roffset));
237  const double yP = oldR*sin(oldPhi+m_layerRotEpsilon*(oldR-Roffset));
238  deltaX += (xP - oldX);
239  deltaY += (yP - oldY);
240  }
241  if (m_bowingEpsilon > -990.0 && !blindToR){
242  const double trackeredgePlusZ=271.846;
243  const double bowfactor=m_bowingEpsilon*(trackeredgePlusZ*trackeredgePlusZ-oldZ*oldZ);
244  deltaX += oldX*bowfactor;
245  deltaY += oldY*bowfactor;
246  }
247  if (m_zExpEpsilon > -990.0 && !blindToZ){
248  deltaZ += oldZ*m_zExpEpsilon;
249  }
250  if (m_twistEpsilon > -990.0){
251  const double xP = oldR*cos(oldPhi+m_twistEpsilon*oldZ);
252  const double yP = oldR*sin(oldPhi+m_twistEpsilon*oldZ);
253  deltaX += (xP - oldX);
254  deltaY += (yP - oldY);
255  }
256  if (m_ellipticalEpsilon > -990.0 && !blindToR){
257  deltaX += oldX*m_ellipticalEpsilon*cos(2.0*oldPhi + m_ellipticalDelta);
258  deltaY += oldY*m_ellipticalEpsilon*cos(2.0*oldPhi + m_ellipticalDelta);
259  }
260  if (m_skewEpsilon > -990.0 && !blindToZ){
261  deltaZ += m_skewEpsilon*cos(oldPhi + m_skewDelta);
262  }
263  if (m_sagittaEpsilon > -990.0){
264  // deltaX += oldX/fabs(oldX)*m_sagittaEpsilon; // old one...
265  deltaX += oldR*m_sagittaEpsilon*sin(m_sagittaDelta);
266  deltaY += oldR*m_sagittaEpsilon*cos(m_sagittaDelta); //Delta y is cos so that delta=0 reflects the old behavior
267  }
268 
269  // Compatibility with old version <= 1.5
270  if (oldMinusZconvention) deltaZ = -deltaZ;
271 
272  align::GlobalVector gV( deltaX, deltaY, deltaZ );
273  return gV;
274 }
275 
276 // Plug in to framework
277 
279 
T getUntrackedParameter(std::string const &, T const &) const
Class to update a given geometry with a set of alignments.
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
T y() const
Definition: PV3DBase.h:63
def setup(process, global_tag, zero_tesla=False)
Definition: GeneralSetup.py:1
void beginJob() override
Read ideal tracker geometry from DB.
TrackerGeometry * build(const GeometricDet *gd, const PTrackerParameters &ptp, const TrackerTopology *tTopo)
virtual void move(const GlobalVector &displacement)=0
Movement with respect to the global reference frame.
virtual const Alignables & components() const =0
Return vector of all direct components.
#define nullptr
void analyze(const edm::Event &, const edm::EventSetup &) override
virtual StructureType alignableObjectId() const =0
Return the alignable type identifier.
T sqrt(T t)
Definition: SSEVec.h:18
T z() const
Definition: PV3DBase.h:64
align::GlobalVector findSystematicMis(const align::PositionType &, const bool blindToZ, const bool blindToR)
void get(HolderT &iHolder) const
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
TrackerSystematicMisalignments(const edm::ParameterSet &)
bool isAvailable() const
Definition: Service.h:46
void writeOne(T *payload, Time_t time, const std::string &recordName, bool withlogging=false)
int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:38
Definition: DetId.h:18
void applyAlignments(C *geometry, const Alignments *alignments, const AlignmentErrorsExtended *alignmentErrors, const AlignTransform &globalCoordinates)
const T & get() const
Definition: EventSetup.h:59
std::vector< Alignable * > Alignables
Definition: Utilities.h:32
const AlignTransform & DetectorGlobalPosition(const Alignments &allGlobals, const DetId &id)
const PositionType & globalPosition() const
Return the global position of the object.
Definition: Alignable.h:138
T x() const
Definition: PV3DBase.h:62
T const * product() const
Definition: ESHandle.h:86
const DetId & geomDetId() const
Definition: Alignable.h:186
Definition: event.py:1