20 #include "G4ErrorCylSurfaceTarget.hh" 21 #include "G4ErrorFreeTrajState.hh" 22 #include "G4ErrorPlaneSurfaceTarget.hh" 23 #include "G4ErrorPropagatorData.hh" 24 #include "G4ErrorRunManagerHelper.hh" 25 #include "G4EventManager.hh" 27 #include "G4FieldManager.hh" 28 #include "G4GeometryTolerance.hh" 29 #include "G4SteppingControl.hh" 30 #include "G4TransportationManager.hh" 32 #include "G4UImanager.hh" 35 #include "CLHEP/Units/GlobalSystemOfUnits.h" 45 theParticleName(particleName),
46 theG4eManager(G4ErrorPropagatorManager::GetErrorPropagatorManager()),
47 theG4eData(G4ErrorPropagatorData::GetErrorPropagatorData()),
49 LogDebug(
"Geant4e") <<
"Geant4e Propagator initialized";
59 LogDebug(
"Geant4e") <<
"Geant4ePropagator::~Geant4ePropagator()" << std::endl;
75 LogDebug(
"Geant4e") <<
"ensureGeant4eIsInitilized called" << std::endl;
76 if ((G4ErrorPropagatorData::GetErrorPropagatorData()->GetState() == G4ErrorState_PreInit) || forceInit) {
77 LogDebug(
"Geant4e") <<
"Initializing G4 propagator" << std::endl;
83 const G4Field *field = G4TransportationManager::GetTransportationManager()->GetFieldManager()->GetDetectorField();
84 if (field ==
nullptr) {
87 LogDebug(
"Geant4e") <<
"G4 propagator initialized" << std::endl;
89 LogDebug(
"Geant4e") <<
"G4 not in preinit state: " << G4ErrorPropagatorData::GetErrorPropagatorData()->GetState()
93 G4UImanager::GetUIpointer()->ApplyCommand(
"/geant4e/limits/stepLength 10.0 mm");
98 bool moveTargetToEndOfSurface)
const {
102 normalPlane = normalPlane.
unit();
112 return ErrorTargetPair(
false, std::make_shared<G4ErrorPlaneSurfaceTarget>(surfNorm, surfPos));
117 bool moveTargetToEndOfSurface)
const {
121 G4float radCyl = pDest.
radius() * cm;
130 LogDebug(
"Geant4e") <<
"G4e - G4Rotation" << rotCyl <<
"mm";
132 return ErrorTargetPair(!moveTargetToEndOfSurface, std::make_shared<G4ErrorCylSurfaceTarget>(radCyl, posCyl, rotCyl));
167 if (pDest.
localZ(cmsInitPos) * pDest.
localZ(cmsInitMom) < 0) {
168 mode = G4ErrorMode_PropForwards;
169 LogDebug(
"Geant4e") <<
"G4e - Propagator mode is \'forwards\' indirect " 170 "via the Any direction" 173 mode = G4ErrorMode_PropBackwards;
174 LogDebug(
"Geant4e") <<
"G4e - Propagator mode is \'backwards\' indirect " 175 "via the Any direction" 195 mode = G4ErrorMode_PropBackwards;
196 LogDebug(
"Geant4e") <<
"G4e - Propagator mode is \'backwards\' indirect " 197 "via the Any direction";
199 mode = G4ErrorMode_PropForwards;
200 LogDebug(
"Geant4e") <<
"G4e - Propagator mode is \'forwards\' indirect " 201 "via the Any direction";
207 template <
class SurfaceType>
209 SurfaceType
const &pDest,
215 mode = G4ErrorMode_PropBackwards;
216 LogDebug(
"Geant4e") <<
"G4e - Propagator mode is \'backwards\' " << std::endl;
218 mode = G4ErrorMode_PropForwards;
219 LogDebug(
"Geant4e") <<
"G4e - Propagator mode is \'forwards\'" << std::endl;
224 edm::LogError(
"Geant4e") <<
"G4e - Unsupported propagation mode";
230 template <
class SurfaceType>
232 const SurfaceType &pDest)
const {
245 bool flipped =
false;
249 cmsInitMom = -cmsInitMom;
254 G4ErrorMode
mode = G4ErrorMode_PropForwards;
259 if (mode == G4ErrorMode_PropBackwards && !flipped)
260 cmsInitMom = -cmsInitMom;
276 G4ErrorTrajErr g4error(5, 1);
281 LogDebug(
"Geant4e") <<
"CMS - Error matrix: " << std::endl << initErr.
matrix();
283 LogDebug(
"Geant4e") <<
"No error matrix available" << std::endl;
287 LogDebug(
"Geant4e") <<
"G4e - Error matrix: " << std::endl << g4error;
291 if (mode == G4ErrorMode_PropForwards) {
292 G4ErrorPropagatorData::GetErrorPropagatorData()->SetStage(G4ErrorStage_Inflation);
293 }
else if (mode == G4ErrorMode_PropBackwards) {
294 G4ErrorPropagatorData::GetErrorPropagatorData()->SetStage(G4ErrorStage_Deflation);
298 LogDebug(
"Geant4e") <<
"G4e - Traj. State: " << (g4eTrajState);
303 double finalPathLength = 0;
305 HepGeom::Point3D<double> finalRecoPos;
307 G4ErrorPropagatorData::GetErrorPropagatorData()->SetMode(mode);
309 theG4eData->SetTarget(g4eTarget_center.second.get());
310 LogDebug(
"Geant4e") <<
"Running Propagation to the RECO surface" << std::endl;
314 bool continuePropagation =
true;
315 while (continuePropagation) {
317 LogDebug(
"Geant4e") << std::endl <<
"step count " << iterations <<
" step length " << finalPathLength;
319 const int ierr =
theG4eManager->PropagateOneStep(&g4eTrajState, mode);
328 LogDebug(
"Geant4e") <<
"step Length was " << thisPathLength <<
" cm, current global position: " 331 finalPathLength += thisPathLength;
334 if (std::fabs(finalPathLength) > 200.0f) {
335 LogDebug(
"Geant4e") <<
"ERROR: Quitting propagation: path length mega large" << std::endl;
336 theG4eManager->GetPropagator()->InvokePostUserTrackingAction(g4eTrajState.GetG4Track());
337 continuePropagation =
false;
338 LogDebug(
"Geant4e") <<
"WARNING: Quitting propagation: max path length " 339 "exceeded, returning invalid state" 346 if (
theG4eManager->GetPropagator()->CheckIfLastStep(g4eTrajState.GetG4Track())) {
347 theG4eManager->GetPropagator()->InvokePostUserTrackingAction(g4eTrajState.GetG4Track());
348 continuePropagation =
false;
354 finalPathLength = -finalPathLength;
357 LogDebug(
"Geant4e") <<
"Position on the RECO surface" << g4eTrajState.GetPosition() << std::endl;
358 finalRecoPos = g4eTrajState.GetPosition();
362 LogDebug(
"Geant4e") <<
"Final position of the Track :" << g4eTrajState.GetPosition() << std::endl;
369 const HepGeom::Vector3D<double> momEnd = g4eTrajState.GetMomentum();
380 G4ErrorTrajErr g4errorEnd = g4eTrajState.GetError();
385 if (mode == G4ErrorMode_PropBackwards) {
391 momEndGV = -momEndGV;
394 LogDebug(
"Geant4e") <<
"G4e - Error matrix after propagation: " << std::endl << g4errorEnd;
396 LogDebug(
"Geant4e") <<
"CMS - Error matrix after propagation: " << std::endl << curvError.
matrix();
419 const Plane &pDest)
const {
450 HepGeom::Point3D<double>
const &surfPos,
452 HepGeom::Normal3D<double>
const &surfNorm,
453 const Plane &pDest)
const {
454 LogDebug(
"Geant4e") <<
"G4e - Destination CMS plane position:" << posPlane <<
"cm\n" 455 <<
"G4e - (Ro, eta, phi): (" << posPlane.
perp() <<
" cm, " << posPlane.
eta()
456 <<
", " << posPlane.
phi().degrees() <<
" deg)\n" 457 <<
"G4e - Destination G4 plane position: " << surfPos <<
" mm, Ro = " << surfPos.perp()
459 LogDebug(
"Geant4e") <<
"G4e - Destination CMS plane normal : " << normalPlane <<
"\n" 460 <<
"G4e - Destination G4 plane normal : " << normalPlane;
461 LogDebug(
"Geant4e") <<
"G4e - Distance from plane position to plane: " << pDest.
localZ(posPlane) <<
" cm";
464 template <
class SurfaceType>
467 CLHEP::Hep3Vector
const &g4InitPos,
469 CLHEP::Hep3Vector
const &g4InitMom,
470 const SurfaceType &pDest)
const {
471 LogDebug(
"Geant4e") <<
"G4e - Current Context: " << currentContext;
472 LogDebug(
"Geant4e") <<
"G4e - CMS point position:" << cmsInitPos <<
"cm\n" 473 <<
"G4e - (Ro, eta, phi): (" << cmsInitPos.
perp() <<
" cm, " << cmsInitPos.
eta()
474 <<
", " << cmsInitPos.
phi().degrees() <<
" deg)\n" 475 <<
"G4e - G4 point position: " << g4InitPos <<
" mm, Ro = " << g4InitPos.perp() <<
" mm";
476 LogDebug(
"Geant4e") <<
"G4e - CMS momentum :" << cmsInitMom <<
"GeV\n" 477 <<
" pt: " << cmsInitMom.
perp() <<
"G4e - G4 momentum : " << g4InitMom <<
" MeV";
GlobalPoint toGlobal(const Point2DBase< Scalar, LocalTag > lp) const
std::pair< TrajectoryStateOnSurface, double > TsosPP
Local3DVector LocalVector
Point3DBase< Scalar, LocalTag > LocalPoint
const GlobalTrajectoryParameters & parameters() const
HepGeom::Normal3D< double > globalVectorToHepNormal3D(const GlobalVector &p)
void debugReportPlaneSetup(GlobalPoint const &posPlane, HepGeom::Point3D< double > const &surfPos, GlobalVector const &normalPlane, HepGeom::Normal3D< double > const &surfNorm, const Plane &pDest) const
Side side(const LocalPoint &p, Scalar toler) const override
double g4doubleToCmsDouble(const G4double &d)
Geom::Phi< T > phi() const
float localZ(const GlobalPoint &gp) const
std::string theParticleName
CLHEP::Hep3Vector globalVectorToHep3Vector(const GlobalVector &p)
bool configurePropagation(G4ErrorMode &mode, SurfaceType const &pDest, GlobalPoint const &cmsInitPos, GlobalVector const &cmsInitMom) const
TrackCharge charge() const
const MagneticField * theField
const CurvilinearTrajectoryError & curvilinearError() const
G4ErrorPropagatorManager * theG4eManager
CLHEP::HepRotation tkRotationFToHepRotation(const TkRotation< float > &tkr)
virtual PropagationDirection propagationDirection() const final
Scalar radius() const
Radius of the cylinder.
AlgebraicSymMatrix55 g4ErrorTrajErrToAlgebraicSymMatrix55(const G4ErrorTrajErr &e, const int q)
Geant4ePropagator(const MagneticField *field=0, std::string particleName="mu", PropagationDirection dir=alongMomentum, double plimit=1.0)
G4ErrorPropagatorData * theG4eData
LocalPoint toLocal(const GlobalPoint &gp) const
FreeTrajectoryState const * freeState(bool withErrors=true) const
void debugReportTrackState(std::string const ¤tContext, GlobalPoint const &cmsInitPos, CLHEP::Hep3Vector const &g4InitPos, GlobalVector const &cmsInitMom, CLHEP::Hep3Vector const &g4InitMom, const SurfaceType &pDest) const
GlobalPoint hepPoint3DToGlobalPoint(const HepGeom::Point3D< double > &r)
std::pair< bool, std::shared_ptr< G4ErrorTarget > > ErrorTargetPair
GlobalVector momentum() const
Vector3DBase unit() const
std::pair< TrajectoryStateOnSurface, double > propagateGeneric(const FreeTrajectoryState &ftsStart, const SurfaceType &pDest) const
GlobalPoint position() const
HepGeom::Point3D< double > globalPointToHepPoint3D(const GlobalPoint &r)
~Geant4ePropagator() override
ErrorTargetPair transformToG4SurfaceTarget(const SurfaceType &pDest, bool moveTargetToEndOfSurface) const
std::string getSurfaceType(SurfaceType const &surface) const
GlobalVector hep3VectorToGlobalVector(const CLHEP::Hep3Vector &p)
bool configureAnyPropagation(G4ErrorMode &mode, SurfaceType const &pDest, GlobalPoint const &cmsInitPos, GlobalVector const &cmsInitMom) const
const AlgebraicSymMatrix55 & matrix() const
const RotationType & rotation() const
const MagneticField & magneticField() const
G4ErrorTrajErr algebraicSymMatrix55ToG4ErrorTrajErr(const AlgebraicSymMatrix55 &e, const int q)
std::string generateParticleName(int charge) const
std::pair< TrajectoryStateOnSurface, double > propagateWithPath(const FreeTrajectoryState &, const Plane &) const override
TrackCharge charge() const
const PositionType & position() const
CLHEP::Hep3Vector globalPointToHep3Vector(const GlobalPoint &r)
void ensureGeant4eIsInitilized(bool forceInit) const