41 recHits1DToken_ = consumes<DTRecHitCollection>(
44 segment2DToken_ = consumes<DTRecSegment2DCollection>(
47 segment4DToken_ = consumes<DTRecSegment4DCollection>(
54 detailedAnalysis =
parameters.getUntrackedParameter<
bool>(
"detailedAnalysis",
false);
65 LogVerbatim(
"DTCalibValidation") <<
"Segments used to compute residuals: " << rightSegment;
66 LogVerbatim(
"DTCalibValidation") <<
"Segments not used to compute residuals: " << wrongSegment;
80 LogTrace(
"DTCalibValidation") <<
"[DTCalibValidation] Analyze #Run: " <<
event.id().run()
84 map<DTWireId,vector<DTRecHit1DPair> > recHitsPerWire_1S;
87 map<DTWireId,vector<DTRecHit1D> > recHitsPerWire_2S;
90 LogTrace(
"DTCalibValidation") <<
" -- DTRecHit S1: begin analysis:";
93 event.getByToken(recHits1DToken_, dtRecHits);
94 recHitsPerWire_1S = map1DRecHitsPerWire(dtRecHits.
product());
96 LogTrace(
"DTCalibValidation") <<
" -- DTRecHit S2: begin analysis:";
99 event.getByToken(segment2DToken_, segment2Ds);
100 recHitsPerWire_2S = map1DRecHitsPerWire(segment2Ds.
product());
104 LogTrace(
"DTCalibValidation") <<
" -- DTRecHit S3: begin analysis:";
107 event.getByToken(segment4DToken_, segment4Ds);
108 map<DTWireId,vector<DTRecHit1D> > recHitsPerWire_3S = map1DRecHitsPerWire(segment4Ds.
product());
113 segment != segment4Ds->end();
116 if(detailedAnalysis){
117 LogTrace(
"DTCalibValidation") <<
"Anlysis on recHit at step 1";
118 compute(dtGeom.product(), (*segment), recHitsPerWire_1S, 1);
120 LogTrace(
"DTCalibValidation") <<
"Anlysis on recHit at step 2";
121 compute(dtGeom.product(), (*segment), recHitsPerWire_2S, 2);
124 LogTrace(
"DTCalibValidation") <<
"Anlysis on recHit at step 3";
125 compute(dtGeom.product(), (*segment), recHitsPerWire_3S, 3);
132 map<DTWireId, vector<DTRecHit1DPair> >
134 map<DTWireId, vector<DTRecHit1DPair> >
ret;
137 rechit != dt1DRecHitPairs->end(); ++rechit) {
138 ret[(*rechit).wireId()].push_back(*rechit);
146 map<DTWireId, vector<DTRecHit1D> >
148 map<DTWireId, vector<DTRecHit1D> >
ret;
152 segment != segment2Ds->end();
154 vector<DTRecHit1D> component1DHits= (*segment).specificRecHits();
156 for(vector<DTRecHit1D>::const_iterator
hit = component1DHits.begin();
157 hit != component1DHits.end(); ++
hit) {
158 ret[(*hit).wireId()].push_back(*
hit);
165 map<DTWireId, std::vector<DTRecHit1D> >
167 map<DTWireId, vector<DTRecHit1D> >
ret;
170 segment != segment4Ds->end();
173 vector<const TrackingRecHit*> segment2Ds = (*segment).recHits();
175 for(vector<const TrackingRecHit*>::const_iterator segment2D = segment2Ds.begin();
176 segment2D != segment2Ds.end();
179 vector<const TrackingRecHit*> hits = (*segment2D)->recHits();
181 for(vector<const TrackingRecHit*>::const_iterator
hit = hits.begin();
182 hit != hits.end(); ++
hit) {
184 ret[hit1D->
wireId()].push_back(*hit1D);
195 template <
typename type>
200 const float segmDist) {
202 const type* theBestRecHit = 0;
204 for(
typename vector<type>::const_iterator recHit = recHits.begin();
205 recHit != recHits.end();
207 float distTmp = recHitDistFromWire(*recHit, layer);
208 if(fabs(distTmp-segmDist) < res) {
209 res = fabs(distTmp-segmDist);
210 theBestRecHit = &(*recHit);
214 return theBestRecHit;
245 if(fabs(hitPosInChamber_left.
x()-segmentPos)<fabs(hitPosInChamber_right.
x()-segmentPos))
246 recHitPos = hitPosInChamber_left.
x();
248 recHitPos = hitPosInChamber_right.
x();
251 if(fabs(hitPosInChamber_left.
y()-segmentPos)<fabs(hitPosInChamber_right.
y()-segmentPos))
252 recHitPos = hitPosInChamber_left.
y();
254 recHitPos = hitPosInChamber_right.
y();
269 float recHitPos = -1;
271 recHitPos = recHitPosInChamber.
x();
273 recHitPos = recHitPosInChamber.
y();
280 template <
typename type>
285 bool computeResidual =
true;
288 vector<DTRecHit1D> recHits1D_S3;
295 if(phiRecHits.size() != 8) {
296 LogTrace(
"DTCalibValidation") <<
"[DTCalibValidation] Phi segments has: " << phiRecHits.size()
297 <<
" hits, skipping";
298 computeResidual =
false;
300 copy(phiRecHits.begin(), phiRecHits.end(), back_inserter(recHits1D_S3));
303 LogTrace(
"DTCalibValidation") <<
" [DTCalibValidation] 4D segment has not the phi segment! ";
304 computeResidual =
false;
311 if(zRecHits.size() != 4) {
312 LogTrace(
"DTCalibValidation") <<
"[DTCalibValidation] Theta segments has: " << zRecHits.size()
313 <<
" hits, skipping";
314 computeResidual =
false;
316 copy(zRecHits.begin(), zRecHits.end(), back_inserter(recHits1D_S3));
319 LogTrace(
"DTCalibValidation") <<
" [DTCalibValidation] 4D segment has not the z segment! ";
320 computeResidual =
false;
329 for(vector<DTRecHit1D>::const_iterator recHit1D = recHits1D_S3.begin();
330 recHit1D != recHits1D_S3.end();
332 const DTWireId wireId = (*recHit1D).wireId();
341 LocalPoint wirePosInLay(wireX,(*recHit1D).localPosition().y(),(*recHit1D).localPosition().z());
343 const DTChamber* chamber = dtGeom->
chamber((*recHit1D).wireId().layerId().chamberId());
352 float SegmDistance = -1;
353 if(sl == 1 || sl == 3) {
355 SegmDistance = fabs(wirePosInChamber.
x() - segPosAtZWire.
x());
356 LogTrace(
"DTCalibValidation") <<
"SegmDistance: " << SegmDistance;
359 SegmDistance = fabs(segPosAtZWire.
y() - wirePosInChamber.
y());
360 LogTrace(
"DTCalibValidation") <<
"SegmDistance: " << SegmDistance;
362 if(SegmDistance > 2.1)
363 LogTrace(
"DTCalibValidation") <<
" Warning: dist segment-wire: " << SegmDistance;
366 if(recHitsPerWire.find(wireId) == recHitsPerWire.end()) {
367 LogTrace(
"DTCalibValidation") <<
" No RecHit found at Step: " << step <<
" in cell: " << wireId;
369 vector<type>
recHits = recHitsPerWire.at(wireId);
370 LogTrace(
"DTCalibValidation") <<
" " << recHits.size() <<
" RecHits, Step " << step <<
" in channel: " << wireId;
375 const type* theBestRecHit = findBestRecHit(layer, wireId, recHits, SegmDistance);
377 float recHitWireDist = recHitDistFromWire(*theBestRecHit, layer);
378 LogTrace(
"DTCalibValidation") <<
"recHitWireDist: " << recHitWireDist;
381 float residualOnDistance = recHitWireDist - SegmDistance;
382 LogTrace(
"DTCalibValidation") <<
"WireId: " << wireId <<
" ResidualOnDistance: " << residualOnDistance;
383 float residualOnPosition = -1;
384 float recHitPos = -1;
385 if(sl == 1 || sl == 3) {
386 recHitPos = recHitPosition(*theBestRecHit, layer, chamber, segPosAtZWire.
x(), sl);
387 residualOnPosition = recHitPos - segPosAtZWire.
x();
390 recHitPos = recHitPosition(*theBestRecHit, layer, chamber, segPosAtZWire.
y(), sl);
391 residualOnPosition = recHitPos - segPosAtZWire.
y();
393 LogTrace(
"DTCalibValidation") <<
"WireId: " << wireId <<
" ResidualOnPosition: " << residualOnPosition;
396 if(sl == 1 || sl == 3)
397 fillHistos(wireId.superlayerId(), SegmDistance, residualOnDistance, (wirePosInChamber.
x() - segPosAtZWire.
x()), residualOnPosition, step);
399 fillHistos(wireId.superlayerId(), SegmDistance, residualOnDistance, (wirePosInChamber.
y() - segPosAtZWire.
y()), residualOnPosition, step);
416 vector<const DTChamber*>::const_iterator ch_it = dtGeom->chambers().begin();
417 vector<const DTChamber*>::const_iterator ch_end = dtGeom->chambers().end();
418 for (; ch_it != ch_end; ++ch_it) {
419 vector<const DTSuperLayer*>::const_iterator sl_it = (*ch_it)->superLayers().begin();
420 vector<const DTSuperLayer*>::const_iterator sl_end = (*ch_it)->superLayers().end();
422 for(; sl_it != sl_end; ++sl_it) {
423 slId = (*sl_it)->id();
426 if(!detailedAnalysis) firstStep=3;
430 LogTrace(
"DTCalibValidation") <<
" Booking histos for SL: " << slId;
433 stringstream wheel; wheel << slId.
wheel();
435 stringstream sector; sector << slId.
sector();
436 stringstream superLayer; superLayer << slId.
superlayer();
442 "_STEP" + Step.str() +
444 "_St" + station.str() +
445 "_Sec" + sector.str() +
446 "_SL" + superLayer.str();
449 "/Station" + station.str() +
450 "/Sector" + sector.str());
452 vector<MonitorElement *>
histos;
454 histos.push_back(ibooker.
book1D(
"hResDist"+slHistoName,
455 "Residuals on the distance from wire (rec_hit - segm_extr) (cm)",
457 histos.push_back(ibooker.
book2D(
"hResDistVsDist"+slHistoName,
458 "Residuals on the distance (cm) from wire (rec_hit - segm_extr) vs distance (cm)",
459 100, 0, 2.5, 200, -0.4, 0.4));
460 if(detailedAnalysis){
461 histos.push_back(ibooker.
book1D(
"hResPos"+slHistoName,
462 "Residuals on the position from wire (rec_hit - segm_extr) (cm)",
464 histos.push_back(ibooker.
book2D(
"hResPosVsPos"+slHistoName,
465 "Residuals on the position (cm) from wire (rec_hit - segm_extr) vs distance (cm)",
466 200, -2.5, 2.5, 200, -0.4, 0.4));
469 histosPerSL[make_pair(slId, step)] =
histos;
479 float residualOnDistance,
481 float residualOnPosition,
484 vector<MonitorElement *>
histos = histosPerSL[make_pair(slId,step)];
485 histos[0]->Fill(residualOnDistance);
486 histos[1]->Fill(distance, residualOnDistance);
487 if(detailedAnalysis){
488 histos[2]->Fill(residualOnPosition);
489 histos[3]->Fill(position, residualOnPosition);
float wirePosition(int wireNumber) const
Returns the x position in the layer of a given wire number.
float recHitDistFromWire(const DTRecHit1DPair &hitPair, const DTLayer *layer)
void bookHistograms(DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &)
const DTChamberRecSegment2D * phiSegment() const
The superPhi segment: 0 if no phi projection available.
GlobalPoint toGlobal(const Local2DPoint &lp) const
Conversion to the global R.F. from the R.F. of the GeomDet.
LocalPoint toLocal(const GlobalPoint &gp) const
Conversion to the R.F. of the GeomDet.
Geom::Theta< T > theta() const
const DTLayer * layer(DTLayerId id) const
Return a layer given its id.
virtual LocalVector localDirection() const
Local direction in Chamber frame.
void compute(const DTGeometry *dtGeom, const DTRecSegment4D &segment, const std::map< DTWireId, std::vector< type > > &recHitsPerWire, int step)
const DTTopology & specificTopology() const
Cos< T >::type cos(const T &t)
MonitorElement * book1D(Args &&...args)
std::map< DTWireId, std::vector< DTRecHit1DPair > > map1DRecHitsPerWire(const DTRecHitCollection *dt1DRecHitPairs)
void fillHistos(DTSuperLayerId slId, float distance, float residualOnDistance, float position, float residualOnPosition, int step)
void analyze(const edm::Event &event, const edm::EventSetup &setup)
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
virtual LocalPoint localPosition() const
Local position in Chamber frame.
std::vector< DTRecHit1D > specificRecHits() const
Access to specific components.
virtual int dimension() const
Dimension (in parameter space)
void dqmBeginRun(const edm::Run &r, const edm::EventSetup &c)
BeginRun.
virtual LocalPoint localPosition() const
Return the 3-dimensional local position.
int wire() const
Return the wire number.
int superlayer() const
Return the superlayer number (deprecated method name)
const DTSLRecSegment2D * zSegment() const
The Z segment: 0 if not zed projection available.
void setCurrentFolder(const std::string &fullpath)
T const * product() const
MonitorElement * book2D(Args &&...args)
virtual ~DTCalibValidation()
Destructor.
const DTChamber * chamber(DTChamberId id) const
Return a DTChamber given its id.
static int position[264][3]
DTCalibValidation(const edm::ParameterSet &pset)
Constructor.
int station() const
Return the station number.
float recHitPosition(const DTRecHit1DPair &hitPair, const DTLayer *layer, const DTChamber *chamber, float segmPos, int sl)
int wheel() const
Return the wheel number.
void setup(std::vector< TH2F > &depth, std::string name, std::string units="")
virtual LocalPoint localPosition() const
const type * findBestRecHit(const DTLayer *layer, DTWireId wireId, const std::vector< type > &recHits, const float simHitDist)
DTWireId wireId() const
Return the wireId.