00001
00012
00013 #include "RecoLocalMuon/DTSegment/src/DTSegmentUpdator.h"
00014
00015
00016
00017
00018 #include "DataFormats/DTRecHit/interface/DTChamberRecSegment2D.h"
00019
00020 #include "DataFormats/DTRecHit/interface/DTRecSegment2D.h"
00021 #include "DataFormats/DTRecHit/interface/DTSLRecSegment2D.h"
00022 #include "DataFormats/DTRecHit/interface/DTChamberRecSegment2D.h"
00023 #include "DataFormats/DTRecHit/interface/DTRecSegment4D.h"
00024 #include "DataFormats/DTRecHit/interface/DTRecHit1D.h"
00025 #include "DataFormats/GeometryCommonDetAlgo/interface/ErrorFrameTransformer.h"
00026
00027 #include "RecoLocalMuon/DTSegment/src/DTSegmentCand.h"
00028 #include "RecoLocalMuon/DTRecHit/interface/DTRecHitAlgoFactory.h"
00029 #include "RecoLocalMuon/DTSegment/src/DTLinearFit.h"
00030
00031 #include "Geometry/Records/interface/MuonGeometryRecord.h"
00032 #include "Geometry/DTGeometry/interface/DTGeometry.h"
00033 #include "Geometry/DTGeometry/interface/DTLayer.h"
00034
00035 #include "FWCore/Utilities/interface/Exception.h"
00036 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00037 #include "FWCore/Framework/interface/EventSetup.h"
00038 #include "FWCore/ParameterSet/interface/ParameterSet.h"
00039
00040
00041 #include <string>
00042
00043 using namespace std;
00044 using namespace edm;
00045
00046
00047
00049 DTSegmentUpdator::DTSegmentUpdator(const ParameterSet& config) :
00050 theFitter(new DTLinearFit()) ,
00051 vdrift_4parfit(config.getParameter<bool>("performT0_vdriftSegCorrection")),
00052 T0_hit_resolution(config.getParameter<double>("hit_afterT0_resolution")),
00053 perform_delta_rejecting(config.getParameter<bool>("perform_delta_rejecting")),
00054 debug(config.getUntrackedParameter<bool>("debug",false))
00055 {
00056 string theAlgoName = config.getParameter<string>("recAlgo");
00057 theAlgo = DTRecHitAlgoFactory::get()->create(theAlgoName,
00058 config.getParameter<ParameterSet>("recAlgoConfig"));
00059
00060 if(debug)
00061 cout << "[DTSegmentUpdator] Constructor called" << endl;
00062 }
00063
00065 DTSegmentUpdator::~DTSegmentUpdator() {
00066 delete theFitter;
00067 }
00068
00069
00070
00071 void DTSegmentUpdator::setES(const EventSetup& setup){
00072 setup.get<MuonGeometryRecord>().get(theGeom);
00073 theAlgo->setES(setup);
00074 }
00075
00076 void DTSegmentUpdator::update(DTRecSegment4D* seg, const bool calcT0) const {
00077
00078 if(debug) cout << "[DTSegmentUpdator] Starting to update the segment" << endl;
00079
00080 const bool hasPhi = seg->hasPhi();
00081 const bool hasZed = seg->hasZed();
00082
00083
00084 if(perform_delta_rejecting && hasPhi) rejectBadHits(seg->phiSegment());
00085
00086 int step = (hasPhi && hasZed) ? 3 : 2;
00087 if(calcT0) step = 4;
00088
00089 GlobalPoint pos = theGeom->idToDet(seg->geographicalId())->toGlobal(seg->localPosition());
00090 GlobalVector dir = theGeom->idToDet(seg->geographicalId())->toGlobal(seg->localDirection());
00091
00092 if(calcT0) calculateT0corr(seg);
00093
00094 if(hasPhi) updateHits(seg->phiSegment(),pos,dir,step);
00095 if(hasZed) updateHits(seg->zSegment() ,pos,dir,step);
00096
00097 fit(seg);
00098 }
00099
00100 void DTSegmentUpdator::update(DTRecSegment2D* seg) const {
00101 GlobalPoint pos = (theGeom->idToDet(seg->geographicalId()))->toGlobal(seg->localPosition());
00102 GlobalVector dir = (theGeom->idToDet(seg->geographicalId()))->toGlobal(seg->localDirection());
00103
00104 updateHits(seg,pos,dir);
00105 fit(seg);
00106 }
00107
00108 void DTSegmentUpdator::fit(DTRecSegment4D* seg) const {
00109
00110 if(seg->hasPhi()) fit(seg->phiSegment());
00111 if(seg->hasZed()) fit(seg->zSegment());
00112
00113 const DTChamber* theChamber = theGeom->chamber(seg->chamberId());
00114
00115 if(seg->hasPhi() && seg->hasZed() ) {
00116
00117 DTChamberRecSegment2D *segPhi=seg->phiSegment();
00118 DTSLRecSegment2D *segZed=seg->zSegment();
00119
00120
00121 LocalPoint posPhiInCh = segPhi->localPosition();
00122 LocalVector dirPhiInCh= segPhi->localDirection();
00123
00124
00125 const DTSuperLayer* zSL = theChamber->superLayer(segZed->superLayerId());
00126 LocalPoint zPos(segZed->localPosition().x(),
00127 (zSL->toLocal(theChamber->toGlobal(segPhi->localPosition()))).y(),
00128 0.);
00129
00130 LocalPoint posZInCh = theChamber->toLocal(zSL->toGlobal(zPos));
00131
00132 LocalVector dirZInCh = theChamber->toLocal(zSL->toGlobal(segZed->localDirection()));
00133
00134 LocalPoint posZAt0 = posZInCh + dirZInCh*(-posZInCh.z())/cos(dirZInCh.theta());
00135
00136
00137
00138 LocalVector dir=LocalVector(dirPhiInCh.x()/fabs(dirPhiInCh.z()),dirZInCh.y()/fabs(dirZInCh.z()),-1.);
00139
00140 seg->setPosition(LocalPoint(posPhiInCh.x(),posZAt0.y(),0.));
00141 seg->setDirection(dir.unit());
00142
00143 AlgebraicSymMatrix mat(4);
00144
00145
00146 mat[0][0] = segPhi->parametersError()[0][0];
00147 mat[0][2] = segPhi->parametersError()[0][1];
00148 mat[2][2] = segPhi->parametersError()[1][1];
00149
00150 seg->setCovMatrix(mat);
00151 seg->setCovMatrixForZed(posZInCh);
00152
00153 }
00154
00155 else if (seg->hasPhi()) {
00156 DTChamberRecSegment2D *segPhi=seg->phiSegment();
00157
00158 seg->setPosition(segPhi->localPosition());
00159 seg->setDirection(segPhi->localDirection());
00160
00161 AlgebraicSymMatrix mat(4);
00162
00163 mat[0][0] = segPhi->parametersError()[0][0];
00164 mat[0][2] = segPhi->parametersError()[0][1];
00165 mat[2][2] = segPhi->parametersError()[1][1];
00166
00167 seg->setCovMatrix(mat);
00168 }
00169
00170 else if (seg->hasZed()) {
00171 DTSLRecSegment2D *segZed = seg->zSegment();
00172
00173
00174 GlobalPoint glbPosZ = ( theGeom->superLayer(segZed->superLayerId()) )->toGlobal(segZed->localPosition());
00175 LocalPoint posZInCh = ( theGeom->chamber(segZed->superLayerId().chamberId()) )->toLocal(glbPosZ);
00176
00177 GlobalVector glbDirZ = (theGeom->superLayer(segZed->superLayerId()) )->toGlobal(segZed->localDirection());
00178 LocalVector dirZInCh = (theGeom->chamber(segZed->superLayerId().chamberId()) )->toLocal(glbDirZ);
00179
00180 LocalPoint posZAt0 = posZInCh+
00181 dirZInCh*(-posZInCh.z())/cos(dirZInCh.theta());
00182
00183 seg->setPosition(posZAt0);
00184 seg->setDirection(dirZInCh);
00185
00186 AlgebraicSymMatrix mat(4);
00187
00188 seg->setCovMatrix(mat);
00189 seg->setCovMatrixForZed(posZInCh);
00190 }
00191 }
00192
00193 bool DTSegmentUpdator::fit(DTSegmentCand* seg) const {
00194 if (!seg->good()) return false;
00195
00196 vector<float> x;
00197 vector<float> y;
00198 vector<float> sigy;
00199
00200 DTSegmentCand::AssPointCont hits=seg->hits();
00201 for (DTSegmentCand::AssPointCont::const_iterator iter=hits.begin();
00202 iter!=hits.end(); ++iter) {
00203 LocalPoint pos = (*iter).first->localPosition((*iter).second);
00204 x.push_back(pos.z());
00205 y.push_back(pos.x());
00206 sigy.push_back(sqrt((*iter).first->localPositionError().xx()));
00207 }
00208
00209 LocalPoint pos;
00210 LocalVector dir;
00211 AlgebraicSymMatrix covMat(2);
00212
00213 double chi2 = 0.;
00214 fit(x,y,sigy,pos,dir,covMat,chi2);
00215
00216 seg->setPosition(pos);
00217 seg->setDirection(dir);
00218
00219
00220
00221
00222 seg->setCovMatrix(covMat);
00223
00224
00225 seg->setChi2(chi2);
00226 return true;
00227 }
00228
00229 void DTSegmentUpdator::fit(DTRecSegment2D* seg) const {
00230
00231
00232
00233 vector<float> x;
00234 vector<float> y;
00235 vector<float> sigy;
00236
00237 vector<DTRecHit1D> hits=seg->specificRecHits();
00238 for (vector<DTRecHit1D>::const_iterator hit=hits.begin();
00239 hit!=hits.end(); ++hit) {
00240
00241
00242 GlobalPoint glbPos = ( theGeom->layer( hit->wireId().layerId() ) )->toGlobal(hit->localPosition());
00243 LocalPoint pos = ( theGeom->idToDet(seg->geographicalId()) )->toLocal(glbPos);
00244
00245 x.push_back(pos.z());
00246 y.push_back(pos.x());
00247
00248
00249
00250 ErrorFrameTransformer tran;
00251 GlobalError glbErr =
00252 tran.transform( hit->localPositionError(),(theGeom->layer( hit->wireId().layerId() ))->surface());
00253 LocalError slErr =
00254 tran.transform( glbErr, (theGeom->idToDet(seg->geographicalId()))->surface());
00255
00256 sigy.push_back(sqrt(slErr.xx()));
00257 }
00258
00259 LocalPoint pos;
00260 LocalVector dir;
00261 AlgebraicSymMatrix covMat(2);
00262 double chi2 = 0.;
00263
00264 fit(x,y,sigy,pos,dir,covMat,chi2);
00265
00266 seg->setPosition(pos);
00267 seg->setDirection(dir);
00268
00269
00270
00271
00272 seg->setCovMatrix(covMat);
00273
00274
00275 seg->setChi2(chi2);
00276 }
00277
00278 void DTSegmentUpdator::fit(const vector<float>& x,
00279 const vector<float>& y,
00280 const vector<float>& sigy,
00281 LocalPoint& pos,
00282 LocalVector& dir,
00283 AlgebraicSymMatrix& covMatrix,
00284 double& chi2) const {
00285
00286 float slope = 0.;
00287 float intercept = 0.;
00288 float covss = 0.;
00289 float covii = 0.;
00290 float covsi = 0.;
00291
00292
00293 theFitter->fit(x,y,x.size(),sigy,slope,intercept,covss,covii,covsi);
00294
00295
00296
00297
00298
00299
00300 pos = LocalPoint(intercept,0.,0.);
00301
00302
00303
00304 dir = LocalVector(-slope,0.,-1.).unit();
00305
00306 covMatrix = AlgebraicSymMatrix(2);
00307 covMatrix[0][0] = covss;
00308 covMatrix[1][1] = covii;
00309 covMatrix[1][0] = covsi;
00310
00311
00312 chi2 = 0.;
00313 for(unsigned int i=0; i<x.size() ; ++i) {
00314 double resid= y[i] - (intercept + slope*x[i]);
00315 chi2 += (resid/sigy[i])*(resid/sigy[i]);
00316 }
00317 }
00318
00319
00320
00321 void DTSegmentUpdator::updateHits(DTRecSegment2D* seg, GlobalPoint &gpos,
00322 GlobalVector &gdir, const int step) const{
00323
00324
00325
00326
00327 vector<DTRecHit1D> toBeUpdatedRecHits = seg->specificRecHits();
00328 vector<DTRecHit1D> updatedRecHits;
00329
00330 for (vector<DTRecHit1D>::iterator hit= toBeUpdatedRecHits.begin();
00331 hit!=toBeUpdatedRecHits.end(); ++hit) {
00332
00333 const DTLayer* layer = theGeom->layer( hit->wireId().layerId() );
00334
00335 LocalPoint segPos=layer->toLocal(gpos);
00336 LocalVector segDir=layer->toLocal(gdir);
00337
00338
00339 const float angle = atan(segDir.x()/-segDir.z());
00340
00341
00342 LocalPoint segPosAtLayer=segPos+segDir*(-segPos.z())/cos(segDir.theta());
00343
00344 DTRecHit1D newHit1D = (*hit);
00345
00346 bool ok = true;
00347
00348 if (step == 2) {
00349 ok = theAlgo->compute(layer,*hit,angle,newHit1D);
00350
00351 } else if (step == 3) {
00352
00353 LocalPoint hitPos(hit->localPosition().x(),+segPosAtLayer.y(),0.);
00354
00355 GlobalPoint glbpos= theGeom->layer( hit->wireId().layerId() )->toGlobal(hitPos);
00356
00357 newHit1D.setPosition(hitPos);
00358
00359 ok = theAlgo->compute(layer,*hit,angle,glbpos,newHit1D);
00360
00361 } else if (step == 4) {
00362
00363
00364 double vminf =0.;
00365 if(vdrift_4parfit) vminf = seg->vDrift();
00366
00367 double cminf = 0.;
00368 if(seg->ist0Valid()) cminf = - seg->t0()*0.00543;
00369
00370
00371
00372
00373
00374 const float xwire = layer->specificTopology().wirePosition(hit->wireId().wire());
00375 const float distance = fabs(hit->localPosition().x() - xwire);
00376
00377 const int ilc = ( hit->lrSide() == DTEnums::Left ) ? 1 : -1;
00378
00379 const double dy_corr = (vminf*ilc*distance-cminf*ilc );
00380
00381 LocalPoint point(hit->localPosition().x() + dy_corr, +segPosAtLayer.y(), 0.);
00382
00383 LocalError error(T0_hit_resolution*T0_hit_resolution,0.,0.);
00384
00385 newHit1D.setPositionAndError(point, error);
00386
00387
00388 ok = true;
00389
00390 } else throw cms::Exception("DTSegmentUpdator")<<" updateHits called with wrong step " << endl;
00391
00392 if (ok) updatedRecHits.push_back(newHit1D);
00393 else {
00394 LogError("DTSegmentUpdator")<<"DTSegmentUpdator::updateHits failed update" << endl;
00395 throw cms::Exception("DTSegmentUpdator")<<"updateHits failed update"<<endl;
00396 }
00397
00398 }
00399 seg->update(updatedRecHits);
00400 }
00401
00402 void DTSegmentUpdator::rejectBadHits(DTChamberRecSegment2D* phiSeg) const {
00403
00404 vector<float> x;
00405 vector<float> y;
00406
00407 if(debug) cout << " Inside the segment updator, now loop on hits: ( x == z_loc , y == x_loc) " << endl;
00408
00409 vector<DTRecHit1D> hits = phiSeg->specificRecHits();
00410 for (vector<DTRecHit1D>::const_iterator hit=hits.begin();
00411 hit!=hits.end(); ++hit) {
00412
00413
00414 GlobalPoint glbPos = ( theGeom->layer( hit->wireId().layerId() ) )->toGlobal(hit->localPosition());
00415 LocalPoint pos = ( theGeom->idToDet(phiSeg->geographicalId()) )->toLocal(glbPos);
00416
00417 x.push_back(pos.z());
00418 y.push_back(pos.x());
00419 }
00420
00421 if(debug){
00422 cout << " end of segment! " << endl;
00423 cout << " size = Number of Hits: " << x.size() << " " << y.size() << endl;
00424 }
00425
00426
00427 float par[2]={0.,0.};
00428
00429
00430 float Sx = 0.;
00431 float Sy = 0.;
00432 float Sx2 = 0.;
00433 float Sy2 = 0.;
00434 float Sxy = 0.;
00435
00436 const int N = x.size();
00437
00438 for(int i = 0; i < N;++i){
00439 Sx += x.at(i);
00440 Sy += y.at(i);
00441 Sx2 += x.at(i)*x.at(i);
00442 Sy2 += y.at(i)*y.at(i);
00443 Sxy += x.at(i)*y.at(i);
00444
00445 }
00446
00447 const float delta = N*Sx2 - Sx*Sx;
00448 par[0] = ( Sx2*Sy - Sx*Sxy )/delta;
00449 par[1] = ( N*Sxy - Sx*Sy )/delta;
00450
00451 if(debug) cout << "fit 2 parameters done ----> par0: "<< par[0] << " par1: "<< par[1] << endl;
00452
00453
00454 float residuals[N];
00455
00456 for(int i = 0; i < N;++i)
00457 residuals[i] = 0;
00458
00459 for(int i = 0; i < N;++i)
00460 residuals[i] = y.at(i) - par[1]*x.at(i) - par[0];
00461
00462 if(debug) cout << " Residuals computed! "<< endl;
00463
00464
00465
00466 vector<DTRecHit1D> updatedRecHits;
00467
00468 float mean_residual = 0.;
00469
00470 for (int i = 0; i < N; ++i)
00471 mean_residual += fabs(residuals[i]);
00472
00473 mean_residual = mean_residual/(N - 2);
00474
00475 if(debug) cout << " mean_residual: "<< mean_residual << endl;
00476
00477 int i = 0;
00478
00479 for (vector<DTRecHit1D>::const_iterator hit=hits.begin();
00480 hit!=hits.end(); ++hit) {
00481
00482 DTRecHit1D newHit1D = (*hit);
00483
00484 if(fabs(residuals[i])/mean_residual < 1.5){
00485
00486 updatedRecHits.push_back(newHit1D);
00487 if(debug) cout << " accepted "<< i+1 << "th hit" <<" Irej: " << fabs(residuals[i])/mean_residual << endl;
00488 ++i;
00489 }
00490 else {
00491 if(debug) cout << " rejected "<< i+1 << "th hit" <<" Irej: " << fabs(residuals[i])/mean_residual << endl;
00492 ++i;
00493 continue;
00494 }
00495 }
00496
00497 phiSeg->update(updatedRecHits);
00498
00499
00500 if(debug){
00501
00502 vector<float> x_upd;
00503 vector<float> y_upd;
00504
00505 cout << " Check the update action: " << endl;
00506
00507 vector<DTRecHit1D> hits_upd = phiSeg->specificRecHits();
00508 for (vector<DTRecHit1D>::const_iterator hit=hits_upd.begin();
00509 hit!=hits_upd.end(); ++hit) {
00510
00511
00512 GlobalPoint glbPos = ( theGeom->layer( hit->wireId().layerId() ) )->toGlobal(hit->localPosition());
00513 LocalPoint pos = ( theGeom->idToDet(phiSeg->geographicalId()) )->toLocal(glbPos);
00514
00515 x_upd.push_back(pos.z());
00516 y_upd.push_back(pos.x());
00517
00518 cout << " x_upd: "<< pos.z() << " y_upd: "<< pos.x() << endl;
00519
00520
00521 }
00522
00523 cout << " end of segment! " << endl;
00524 cout << " size = Number of Hits: " << x_upd.size() << " " << y_upd.size() << endl;
00525
00526 }
00527
00528 return;
00529 }
00530
00531 void DTSegmentUpdator::calculateT0corr(DTRecSegment4D* seg) const {
00532 if(seg->hasPhi()) calculateT0corr(seg->phiSegment());
00533 if(seg->hasZed()) calculateT0corr(seg->zSegment());
00534 }
00535
00536 void DTSegmentUpdator::calculateT0corr(DTRecSegment2D* seg) const {
00537
00538
00539
00540 vector<double> d_drift;
00541 vector<float> x;
00542 vector<float> y;
00543 vector<int> lc;
00544
00545 vector<DTRecHit1D> hits=seg->specificRecHits();
00546
00547 DTWireId wireId;
00548 int nptfit = 0;
00549
00550 for (vector<DTRecHit1D>::const_iterator hit=hits.begin();
00551 hit!=hits.end(); ++hit) {
00552
00553
00554 GlobalPoint glbPos = ( theGeom->layer( hit->wireId().layerId() ) )->toGlobal(hit->localPosition());
00555 LocalPoint pos = ( theGeom->idToDet(seg->geographicalId()) )->toLocal(glbPos);
00556
00557 const DTLayer* layer = theGeom->layer( hit->wireId().layerId() );
00558 float xwire = layer->specificTopology().wirePosition(hit->wireId().wire());
00559 float distance = fabs(hit->localPosition().x() - xwire);
00560
00561 int ilc = ( hit->lrSide() == DTEnums::Left ) ? 1 : -1;
00562
00563 nptfit++;
00564 x.push_back(pos.z());
00565 y.push_back(pos.x());
00566 lc.push_back(ilc);
00567 d_drift.push_back(distance);
00568
00569
00570 }
00571
00572 double chi2fit = 0.;
00573 float cminf = 0.;
00574 double vminf = 0.;
00575
00576 if ( nptfit > 2 ) {
00577
00578 Fit4Var(x,y,lc,d_drift,nptfit,cminf,vminf,chi2fit);
00579
00580 double t0cor = -999.;
00581 if(cminf > -998.) t0cor = - cminf/0.00543 ;
00582
00583
00584
00585
00586
00587
00588 seg->setT0(t0cor);
00589 seg->setVdrift(vminf);
00590 }
00591 }
00592
00593
00594 void DTSegmentUpdator::Fit4Var(const vector<float>& xfit,
00595 const vector<float>& yfit,
00596 const vector<int>& lfit,
00597 const vector<double>& tfit,
00598 const int nptfit,
00599 float& cminf,
00600 double& vminf,
00601 double& chi2fit) const {
00602
00603 const double sigma = 0.0295;
00604 double aminf = 0.;
00605 double bminf = 0.;
00606 int nppar = 0;
00607 double sx = 0.;
00608 double sx2 = 0.;
00609 double sy = 0.;
00610 double sxy = 0.;
00611 double sl = 0.;
00612 double sl2 = 0.;
00613 double sly = 0.;
00614 double slx = 0.;
00615 double st = 0.;
00616 double st2 = 0.;
00617 double slt = 0.;
00618 double sltx = 0.;
00619 double slty = 0.;
00620 double chi2fitN2 = -1. ;
00621 double chi2fit3 = -1.;
00622 double chi2fitN3 = -1. ;
00623 double chi2fitN4 = -1.;
00624 float bminf3 = bminf;
00625 float aminf3 = aminf;
00626 float cminf3 = cminf;
00627 int nppar2 = 0;
00628 int nppar3 = 0;
00629 int nppar4 = 0;
00630
00631 cminf = -999.;
00632 vminf = 0.;
00633
00634 for (int j=0; j<nptfit; j++){
00635 sx = sx + xfit[j];
00636 sy = sy + yfit[j];
00637 sx2 = sx2 + xfit[j]*xfit[j];
00638 sxy = sxy + xfit[j]*yfit[j];
00639 sl = sl + lfit[j];
00640 sl2 = sl2 + lfit[j]*lfit[j];
00641 sly = sly + lfit[j]*yfit[j];
00642 slx = slx + lfit[j]*xfit[j];
00643 st = st + tfit[j];
00644 st2 = st2 + tfit[j] * tfit[j];
00645 slt = slt + lfit[j] * tfit[j];
00646 sltx = sltx + lfit[j] * tfit[j]*xfit[j];
00647 slty = slty + lfit[j] * tfit[j]*yfit[j];
00648
00649 }
00650
00651 const double delta = nptfit*sx2 - sx*sx;
00652
00653 double a = 0.;
00654 double b = 0.;
00655
00656 if (delta!=0){
00657 a = (sx2*sy - sx*sxy)/delta;
00658 b = (nptfit*sxy - sx*sy)/delta;
00659
00660
00661 for (int j=0; j<nptfit; j++){
00662 const double ypred = a + b*xfit[j];
00663 const double dy = (yfit[j] - ypred)/sigma;
00664 chi2fit = chi2fit + dy*dy;
00665 }
00666 }
00667
00668 bminf = b;
00669 aminf = a;
00670
00671 nppar = 2;
00672 nppar2 = nppar;
00673
00674 chi2fitN2 = chi2fit/(nptfit-2);
00675
00676
00677
00678 if (nptfit >= 3) {
00679
00680 const double d1 = sy;
00681 const double d2 = sxy;
00682 const double d3 = sly;
00683 const double c1 = sl;
00684 const double c2 = slx;
00685 const double c3 = sl2;
00686 const double b1 = sx;
00687 const double b2 = sx2;
00688 const double b3 = slx;
00689 const double a1 = nptfit;
00690 const double a2 = sx;
00691 const double a3 = sl;
00692
00693
00694 const double b4 = b2*a1-b1*a2;
00695 const double c4 = c2*a1-c1*a2;
00696 const double d4 = d2*a1-d1*a2;
00697 const double b5 = a1*b3-a3*b1;
00698 const double c5 = a1*c3-a3*c1;
00699 const double d5 = a1*d3-d1*a3;
00700 const double a6 = slt;
00701 const double b6 = sltx;
00702 const double c6 = st;
00703 const double v6 = st2;
00704 const double d6 = slty;
00705
00706 if (((c5*b4-c4*b5)*b4*a1)!=0) {
00707 nppar = 3;
00708 chi2fit = 0.;
00709 cminf = (d5*b4-d4*b5)/(c5*b4-c4*b5);
00710 bminf = d4/b4 -cminf *c4/b4;
00711 aminf = (d1/a1 -cminf*c1/a1 -bminf*b1/a1);
00712
00713 for (int j=0; j<nptfit; j++){
00714 const double ypred = aminf + bminf*xfit[j];
00715 const double dy = (yfit[j]-cminf*lfit[j] - ypred)/sigma;
00716 chi2fit = chi2fit + dy*dy;
00717
00718 }
00719 chi2fit3 = chi2fit;
00720 if (nptfit>3)
00721 chi2fitN3 = chi2fit /(nptfit-3);
00722
00723 }
00724 else {
00725 cminf = -999.;
00726 bminf = b;
00727 aminf = a;
00728 chi2fit3 = chi2fit;
00729 chi2fitN3 = chi2fit /(nptfit-2);
00730 }
00731
00732 bminf3 = bminf;
00733 aminf3 = aminf;
00734 cminf3 = cminf;
00735 nppar3 = nppar;
00736
00737 if (debug) {
00738 cout << "dt0= 0 : slope 2 = " << b << " pos in = " << a << " chi2fitN2 = " << chi2fitN2
00739 << " nppar = " << nppar2 << " nptfit = " << nptfit << endl;
00740 cout << "dt0 = 0 : slope 3 = " << bminf << " pos out = " << aminf << " chi2fitN3 = "
00741 << chi2fitN3 << " nppar = " << nppar3 << " T0_ev ns = " << cminf/0.00543 << endl;
00742 }
00743
00744
00745
00746 if( nptfit>=5) {
00747 const double det = (a1*a1*(b2*v6 - b6*b6) - a1*(a2*a2*v6 - 2*a2*a6*b6 + a6*a6*b2 + b2*c6*c6 + b3*(b3*v6 - 2*b6*c6))
00748 + a2*a2*c6*c6 + 2*a2*(a3*(b3*v6 - b6*c6) - a6*b3*c6) + a3*a3*(b6*b6 - b2*v6)
00749 + a6*(2*a3*(b2*c6 - b3*b6) + a6*b3*b3));
00750
00751
00752 if (det != 0) {
00753 nppar = 4;
00754 chi2fit = 0.;
00755
00756 aminf = (a1*(a2*(b6*d6 - v6*d2) + a6*(b6*d2 - b2*d6) + d1*(b2*v6 - b6*b6)) - a2*(b3*(c6*d6 - v6*d3)
00757 + c6*(b6*d3 - c6*d2)) + a3*(b2*(c6*d6 - v6*d3) + b3*(v6*d2 - b6*d6) + b6*(b6*d3 - c6*d2))
00758 + a6*(b2*c6*d3 + b3*(b3*d6 - b6*d3 - c6*d2)) - d1*(b2*c6*c6 + b3*(b3*v6 - 2*b6*c6)))/det;
00759 bminf = - (a1*a1*(b6*d6 - v6*d2) - a1*(a2*(a6*d6 - v6*d1) - a6*a6*d2 + a6*b6*d1 + b3*(c6*d6 - v6*d3)
00760 + c6*(b6*d3 - c6*d2)) + a2*(a3*(c6*d6 - v6*d3) + c6*(a6*d3 - c6*d1)) + a3*a3*(v6*d2 - b6*d6)
00761 + a3*(a6*(b3*d6 + b6*d3 - 2*c6*d2) - d1*(b3*v6 - b6*c6)) - a6*b3*(a6*d3 - c6*d1))/det;
00762 cminf = -(a1*(b2*(c6*d6 - v6*d3) + b3*(v6*d2 - b6*d6) + b6*(b6*d3 - c6*d2)) + a2*a2*(v6*d3 - c6*d6)
00763 + a2*(a3*(b6*d6 - v6*d2) + a6*(b3*d6 - 2*b6*d3 + c6*d2) - d1*(b3*v6 - b6*c6))
00764 + a3*(d1*(b2*v6 - b6*b6) - a6*(b2*d6 - b6*d2)) + a6*(a6*(b2*d3 - b3*d2) - d1*(b2*c6 - b3*b6)))/det;
00765 vminf = - (a1*a1*(b2*d6 - b6*d2) - a1*(a2*a2*d6 - a2*(a6*d2 + b6*d1) + a6*b2*d1 + b2*c6*d3
00766 + b3*(b3*d6 - b6*d3 - c6*d2)) + a2*a2*c6*d3 + a2*(a3*(2*b3*d6 - b6*d3 - c6*d2) - b3*(a6*d3 + c6*d1))
00767 + a3*a3*(b6*d2 - b2*d6) + a3*(a6*(b2*d3 - b3*d2) + d1*(b2*c6 - b3*b6)) + a6*b3*b3*d1)/det;
00768
00769
00770 for (int j=0; j<nptfit; j++) {
00771 const double ypred = aminf + bminf*xfit[j];
00772 const double dy = (yfit[j]+vminf*lfit[j]*tfit[j]-cminf*lfit[j] -ypred)/sigma;
00773 chi2fit = chi2fit + dy*dy;
00774
00775 }
00776 if (nptfit<=nppar){
00777 chi2fitN4=-1;
00778
00779 }
00780 else{
00781 chi2fitN4= chi2fit / (nptfit-nppar);
00782 }
00783 }
00784 else {
00785 vminf = 0.;
00786
00787 if (nptfit <= nppar) chi2fitN4=-1;
00788 else chi2fitN4 = chi2fit / (nptfit-nppar);
00789 }
00790
00791 if (fabs(vminf) >= 0.29) {
00792
00793 vminf = 0.;
00794 cminf = cminf3;
00795 aminf = aminf3;
00796 bminf = bminf3;
00797 nppar = 3;
00798 chi2fit = chi2fit3;
00799 }
00800
00801 }
00802
00803 if(!vdrift_4parfit){
00804
00805 cminf = cminf3;
00806 aminf = aminf3;
00807 bminf = bminf3;
00808 nppar = 3;
00809 chi2fit = chi2fit3;
00810 }
00811
00812 nppar4 = nppar;
00813
00814 }
00815
00816 if (debug) {
00817 cout << " dt0= 0 : slope 4 = " << bminf << " pos out = " << aminf <<" chi2fitN4 = " << chi2fitN4
00818 << " nppar= " << nppar4 << " T0_ev ns= " << cminf/0.00543 <<" delta v = " << vminf <<endl;
00819 cout << nptfit << " nptfit " << " end chi2fit = " << chi2fit/ (nptfit-nppar ) << " T0_ev ns= " << cminf/0.00543 << " delta v = " << vminf <<endl;
00820 }
00821
00822 if ( fabs(vminf) >= 0.09 && debug ) {
00823 cout << "vminf gt 0.09 det= " << endl;
00824 cout << "dt0= 0 : slope 4 = "<< bminf << " pos out = " << aminf << " chi2fitN4 = " << chi2fitN4
00825 << " T0_ev ns = " << cminf/0.00543 << " delta v = "<< vminf << endl;
00826 cout << "dt0 = 0 : slope 2 = "<< b << " pos in = " << a <<" chi2fitN2 = " << chi2fitN2
00827 << " nppar = " << nppar-1 << " nptfit = " << nptfit <<endl;
00828 cout << "dt0 = 0 : slope 3 = " << bminf << " pos out = " << aminf << " chi2fitN3 = "
00829 << chi2fitN3 << " T0_ev ns = " << cminf/0.00543 << endl;
00830 cout << nptfit <<" nptfit "<< " end chi2fit = " << chi2fit << "T0_ev ns= " << cminf/0.00543 << "delta v = "<< vminf <<endl;
00831 }
00832
00833 if (nptfit != nppar) chi2fit = chi2fit / (nptfit-nppar);
00834 }