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#include <JacobianLocalToCartesian.h>
Public Member Functions | |
| const AlgebraicMatrix65 & | jacobian () const |
| JacobianLocalToCartesian (const Surface &surface, const LocalTrajectoryParameters &localParameters) | |
Private Attributes | |
| AlgebraicMatrix65 | theJacobian |
Class which calculates the Jacobian matrix of the transformation from the local to the Caresian frame. The Jacobian is calculated during construction and thereafter cached, enabling reuse of the same Jacobian without calculating it again.
Definition at line 16 of file JacobianLocalToCartesian.h.
| JacobianLocalToCartesian::JacobianLocalToCartesian | ( | const Surface & | surface, |
| const LocalTrajectoryParameters & | localParameters | ||
| ) |
Constructor from local trajectory parameters and surface defining the local frame. NB!! No default constructor exists!
Definition at line 5 of file JacobianLocalToCartesian.cc.
References LocalTrajectoryParameters::charge(), LocalTrajectoryParameters::dxdz(), LocalTrajectoryParameters::dydz(), LocalTrajectoryParameters::pzSign(), lumiQueryAPI::q, LocalTrajectoryParameters::qbp(), dttmaxenums::R, makeMuonMisalignmentScenario::rot, GloballyPositioned< T >::rotation(), funct::sqr(), mathSSE::sqrt(), theJacobian, TkRotation< T >::xx(), TkRotation< T >::xy(), TkRotation< T >::xz(), TkRotation< T >::yx(), TkRotation< T >::yy(), TkRotation< T >::yz(), TkRotation< T >::zx(), TkRotation< T >::zy(), and TkRotation< T >::zz().
: theJacobian() { //LocalCoordinates 1 = (x, y, z, px, py, pz) //LocalCoordinates 2 = (q/|p|, dx/dz, dy/dz, x, y) //Transformation: x = x // y = y // px = (q/(q/|p|)) * (dx/dz) * sqrt(1./(1.+(dx/dz)^2+(dy/dz)^2)) // py = (q/(q/|p|)) * (dy/dz) * sqrt(1./(1.+(dx/dz)^2+(dy/dz)^2)) // pz = (q/(q/|p|)) * sqrt(1./(1.+(dx/dz)^2+(dy/dz)^2)) //Jacobian J((x, y, px, py, pz) = f(q/|p|, dx/dz, dy/dz, x, y)) // AlgebraicVector5 localTrackParams = localParameters.mixedFormatVector(); double qbp = localParameters.qbp(); double dxdz = localParameters.dxdz(); double dydz = localParameters.dydz(); TrackCharge iq = localParameters.charge(); // for neutrals: qbp is 1/p instead of q/p - // equivalent to charge 1 if ( iq==0 ) iq = 1; double pzSign = localParameters.pzSign(); double q = iq*pzSign; double sqr = sqrt(dxdz*dxdz + dydz*dydz + 1); double den = -q/(sqr*sqr*sqr*qbp); // no difference between local and data member AlgebraicMatrix65 & lJacobian = theJacobian; lJacobian(0,3) = 1.; lJacobian(1,4) = 1.; lJacobian(3,0) = ( dxdz*(-q/(sqr*qbp*qbp)) ); lJacobian(3,1) = ( q/(sqr*qbp) + (den*dxdz*dxdz) ); lJacobian(3,2) = ( (den*dxdz*dydz) ); lJacobian(4,0) = ( dydz*(-q/(sqr*qbp*qbp)) ); lJacobian(4,1) = ( (den*dxdz*dydz) ); lJacobian(4,2) = ( q/(sqr*qbp) + (den*dydz*dydz) ); lJacobian(5,0) = ( -q/(sqr*qbp*qbp) ); lJacobian(5,1) = ( (den*dxdz) ); lJacobian(5,2) = ( (den*dydz) ); /* GlobalVector g1 = surface.toGlobal(LocalVector(1., 0., 0.)); GlobalVector g2 = surface.toGlobal(LocalVector(0., 1., 0.)); GlobalVector g3 = surface.toGlobal(LocalVector(0., 0., 1.)); */ AlgebraicMatrix33 Rsub; /* Rsub(0,0) = g1.x(); Rsub(0,1) = g2.x(); Rsub(0,2) = g3.x(); Rsub(1,0) = g1.y(); Rsub(1,1) = g2.y(); Rsub(1,2) = g3.y(); Rsub(2,0) = g1.z(); Rsub(2,1) = g2.z(); Rsub(2,2) = g3.z(); */ // need to be copied anhhow to go from float to double... Surface::RotationType const & rot = surface.rotation(); Rsub(0,0) = rot.xx(); Rsub(0,1) = rot.yx(); Rsub(0,2) = rot.zx(); Rsub(1,0) = rot.xy(); Rsub(1,1) = rot.yy(); Rsub(1,2) = rot.zy(); Rsub(2,0) = rot.xz(); Rsub(2,1) = rot.yz(); Rsub(2,2) = rot.zz(); AlgebraicMatrix66 R; R.Place_at(Rsub, 0,0); R.Place_at(Rsub, 3,3); theJacobian = R * lJacobian; //dbg::dbg_trace(1,"Loc2Ca", localParameters.vector(),g1,g2,g3,theJacobian); }
| const AlgebraicMatrix65& JacobianLocalToCartesian::jacobian | ( | ) | const [inline] |
Access to Jacobian.
Definition at line 29 of file JacobianLocalToCartesian.h.
References theJacobian.
{ return theJacobian;}
Definition at line 33 of file JacobianLocalToCartesian.h.
Referenced by jacobian(), and JacobianLocalToCartesian().
1.7.3