Functions
double	getResolE (pat::CandKinResolution::Parametrization parametrization, const AlgebraicSymMatrix44 &covariance, const pat::CandKinResolution::LorentzVector &p4)

double	getResolEt (pat::CandKinResolution::Parametrization parametrization, const AlgebraicSymMatrix44 &covariance, const pat::CandKinResolution::LorentzVector &p4)

double	getResolEta (pat::CandKinResolution::Parametrization parametrization, const AlgebraicSymMatrix44 &covariance, const pat::CandKinResolution::LorentzVector &p4)

double	getResolM (pat::CandKinResolution::Parametrization parametrization, const AlgebraicSymMatrix44 &covariance, const pat::CandKinResolution::LorentzVector &p4)

double	getResolP (pat::CandKinResolution::Parametrization parametrization, const AlgebraicSymMatrix44 &covariance, const pat::CandKinResolution::LorentzVector &p4)

double	getResolPhi (pat::CandKinResolution::Parametrization parametrization, const AlgebraicSymMatrix44 &covariance, const pat::CandKinResolution::LorentzVector &p4)

double	getResolPInv (pat::CandKinResolution::Parametrization parametrization, const AlgebraicSymMatrix44 &covariance, const pat::CandKinResolution::LorentzVector &p4)

double	getResolPt (pat::CandKinResolution::Parametrization parametrization, const AlgebraicSymMatrix44 &covariance, const pat::CandKinResolution::LorentzVector &p4)

double	getResolPx (pat::CandKinResolution::Parametrization parametrization, const AlgebraicSymMatrix44 &covariance, const pat::CandKinResolution::LorentzVector &p4)

double	getResolPy (pat::CandKinResolution::Parametrization parametrization, const AlgebraicSymMatrix44 &covariance, const pat::CandKinResolution::LorentzVector &p4)

double	getResolPz (pat::CandKinResolution::Parametrization parametrization, const AlgebraicSymMatrix44 &covariance, const pat::CandKinResolution::LorentzVector &p4)

double	getResolTheta (pat::CandKinResolution::Parametrization parametrization, const AlgebraicSymMatrix44 &covariance, const pat::CandKinResolution::LorentzVector &p4)

void	rescaleForKinFitter (const pat::CandKinResolution::Parametrization parametrization, AlgebraicSymMatrix44 &covariance, const math::XYZTLorentzVector &initialP4)

Function Documentation

◆ getResolE()

double pat::helper::ResolutionHelper::getResolE	(	pat::CandKinResolution::Parametrization	parametrization,
		const AlgebraicSymMatrix44 &	covariance,
		const pat::CandKinResolution::LorentzVector &	p4
	)

Definition at line 267 of file ResolutionHelper.cc.

References a, b, pat::CandKinResolution::Cart, funct::cos(), pat::CandKinResolution::ECart, pat::CandKinResolution::ESpher, pat::CandKinResolution::EtEtaPhi, pat::CandKinResolution::EtThetaPhi, Exception, pat::CandKinResolution::Invalid, pat::CandKinResolution::MCCart, pat::CandKinResolution::MCPInvSpher, pat::CandKinResolution::MCSpher, AlCaHLTBitMon_ParallelJobs::p, stringResolutionProvider_cfi::parametrization, funct::sin(), pat::CandKinResolution::Spher, and mathSSE::sqrt().

Referenced by getResolP(), and pat::CandKinResolution::resolE().

                                                                                              {
   switch (parametrization) {
     // ======= ENERGY BASED ==========
     case pat::CandKinResolution::ECart:
     case pat::CandKinResolution::ESpher:
       return sqrt(covariance(3, 3));
       // ======= ET BASED ==========
     case pat::CandKinResolution::EtThetaPhi: {
       // E = Et/Sin(theta)
       double a = 1.0 / sin(p4.Theta());               // dE/dEt
       double b = -a * a * p4.Et() * cos(p4.Theta());  // dE/dTh
       return sqrt(a * a * covariance(0, 0) + b * b * covariance(1, 1) + 2 * a * b * covariance(0, 1));
     }
     case pat::CandKinResolution::EtEtaPhi: {
       // E = Et/Sin(Theta(eta))
       double th = p4.Theta();
       double a = 1.0 / sin(th);          // dE/dEt
       double b = a * p4.Et() * cos(th);  // dE/dEta: dTh/dEta = - 1.0/sin(theta) = - dE/dEt
       return sqrt(a * a * covariance(0, 0) + b * b * covariance(1, 1) + 2 * a * b * covariance(0, 1));
     }
       // ======= MASS BASED ==========
     case pat::CandKinResolution::Cart: {
       AlgebraicVector4 xoE(p4.X(), p4.Y(), p4.Z(), p4.M());
       xoE *= 1 / p4.E();
       return sqrt(ROOT::Math::Similarity(xoE, covariance));
     }
     case pat::CandKinResolution::MCCart: {
       AlgebraicVector4 xoE(p4.X(), p4.Y(), p4.Z(), 0);
       xoE *= 1 / p4.E();
       return sqrt(ROOT::Math::Similarity(xoE, covariance));
     }
     case pat::CandKinResolution::Spher: {
       // E = sqrt(P^2 + m^2)
       double einv = 1.0 / p4.E();
       double a = p4.P() * einv;  // dE/dP
       double b = p4.M() * einv;  // dE/dm
       return sqrt(a * a * covariance(0, 0) + b * b * covariance(3, 3) + 2 * a * b * covariance(0, 3));
     }
     case pat::CandKinResolution::MCSpher: {
       // E = sqrt(P^2 + m^2); |dE/dP| = |P/E| = P/E
       return p4.P() / p4.E() * sqrt(covariance(0, 0));
     }
     case pat::CandKinResolution::MCPInvSpher:  //
     {
       // E = sqrt(P^2 + m^2); |dE/d(1/P)| = P^2 |dE/dP| = P^3/E
       double p = p4.P();
       return p * p * p / p4.E() * sqrt(covariance(0, 0));
     }
       // ======= OTHER ==========
     case pat::CandKinResolution::Invalid:
       throw cms::Exception("Invalid parametrization") << parametrization;
     default:
       throw cms::Exception("Not Implemented")
           << "getResolE not yet implemented for parametrization " << parametrization;
   }
 }

◆ getResolEt()

double pat::helper::ResolutionHelper::getResolEt	(	pat::CandKinResolution::Parametrization	parametrization,
		const AlgebraicSymMatrix44 &	covariance,
		const pat::CandKinResolution::LorentzVector &	p4
	)

dEt/dPx * Et

Definition at line 326 of file ResolutionHelper.cc.

Referenced by pat::CandKinResolution::resolEt().

                                                                                               {
   switch (parametrization) {
     // ======= ENERGY BASED ==========
     case pat::CandKinResolution::ECart: {
       // Et^2 = E^2 * (Pt^2/P^2)
       double pt2 = p4.Perp2();
       double pz2 = ROOT::Math::Square(p4.Pz()), p2 = pt2 + pz2;
       double e2OverP4 = ROOT::Math::Square(p4.E() / p2);
       AlgebraicVector4 derivs(p4.Px(), p4.Py(), p4.Pz(), p4.E());
       derivs *= (1.0 / p4.Et());
       derivs[0] *= pz2 * e2OverP4;
       derivs[1] *= pz2 * e2OverP4;
       derivs[2] *= -pt2 * e2OverP4;
       derivs[3] *= pt2 / p2;
       return sqrt(ROOT::Math::Similarity(derivs, covariance));
     }
     case pat::CandKinResolution::ESpher: {
       // Et = E * Sin(Theta)
       double st = sin(p4.Theta()), ct = cos(p4.Theta());
       return sqrt(st * st * covariance(3, 3) + ROOT::Math::Square(ct * p4.E()) * covariance(1, 1) +
                   2 * st * ct * p4.E() * covariance(1, 3));
     }
       // ======= ET BASED ==========
     case pat::CandKinResolution::EtThetaPhi:
     case pat::CandKinResolution::EtEtaPhi:
       return sqrt(covariance(0, 0));
       // ======= MASS BASED ==========
     case pat::CandKinResolution::Cart:
     case pat::CandKinResolution::MCCart: {
       // Et^2 = E^2 Sin^2(th) = (p^2 + m^2) * (pt^2) / p^2
       double pt2 = p4.Perp2();
       double p2 = pt2 + ROOT::Math::Square(p4.Pz());
       double e2 = p2 + p4.M2();
       double s2 = pt2 / p2, pi2 = 1.0 / p2;
       double et = sqrt(e2 * s2);
       AlgebraicVector4 derivs(p4.Px(), p4.Py(), p4.Pz(), p4.M());
       derivs *= 1.0 / et;
       derivs[0] *= (s2 + e2 * pi2 * (1.0 - pt2 * pi2));  
       derivs[1] *= (s2 + e2 * pi2 * (1.0 - pt2 * pi2));  
       derivs[2] *= (s2 - e2 * pt2 * pi2 * pi2);          
       if (parametrization == pat::CandKinResolution::Cart) {
         derivs[3] *= s2;
         return sqrt(ROOT::Math::Similarity(derivs, covariance));
       } else {
         derivs[3] = 0;
         return sqrt(ROOT::Math::Similarity(derivs, covariance));  // test if Sub<33> is faster
       }
     }
     case pat::CandKinResolution::Spher: {
       // Et = E sin(theta); dE/dM = M/E, dE/dP = P/E
       double s = sin(p4.Theta()), c = cos(p4.Theta());
       double e = p4.E();
       AlgebraicVector4 derivs(p4.P() / e * s, e * c, 0, p4.M() / e * s);
       return sqrt(ROOT::Math::Similarity(derivs, covariance));
     }
     case pat::CandKinResolution::MCSpher: {
       // Et = E sin(theta); dE/dP = P/E
       double s = sin(p4.Theta()), c = cos(p4.Theta());
       double e = p4.E();
       double a = p4.P() * s / e;
       double b = e * c;
       return sqrt(a * a * covariance(0, 0) + b * b * covariance(1, 1) + 2 * a * b * covariance(0, 1));
     }
     case pat::CandKinResolution::MCPInvSpher: {
       // Et = E sin(theta); dE/dP = P/E -> dE/d(1/P) = - P^2 dE/dP = - P^3 / E
       double s = sin(p4.Theta()), c = cos(p4.Theta());
       double p = p4.P(), e = p4.E();
       double a = (-p * p * p / e) * s;
       double b = e * c;
       return sqrt(a * a * covariance(0, 0) + b * b * covariance(1, 1) + 2 * a * b * covariance(0, 1));
     }
       // ======= OTHER ==========
     case pat::CandKinResolution::Invalid:
       throw cms::Exception("Invalid parametrization") << parametrization;
     default:
       throw cms::Exception("Not Implemented")
           << "getResolEt not yet implemented for parametrization " << parametrization;
   }
 }

◆ getResolEta()

double pat::helper::ResolutionHelper::getResolEta	(	pat::CandKinResolution::Parametrization	parametrization,
		const AlgebraicSymMatrix44 &	covariance,
		const pat::CandKinResolution::LorentzVector &	p4
	)

Definition at line 455 of file ResolutionHelper.cc.

References funct::abs(), pat::CandKinResolution::Cart, DetaDtheta(), pat::CandKinResolution::ECart, pat::CandKinResolution::ESpher, pat::CandKinResolution::EtEtaPhi, pat::CandKinResolution::EtThetaPhi, Exception, getResolTheta(), pat::CandKinResolution::Invalid, pat::CandKinResolution::MCCart, pat::CandKinResolution::MCPInvSpher, pat::CandKinResolution::MCSpher, stringResolutionProvider_cfi::parametrization, pat::CandKinResolution::Spher, and mathSSE::sqrt().

Referenced by pat::CandKinResolution::resolEta().

                                                                                                {
   switch (parametrization) {
     case pat::CandKinResolution::Cart:
     case pat::CandKinResolution::ECart:
     case pat::CandKinResolution::MCCart:
       // dEta = dTheta * dEta/dTheta
       return abs(DetaDtheta(p4.Theta())) * getResolTheta(parametrization, covariance, p4);
     case pat::CandKinResolution::ESpher:       //  all the ones which have
     case pat::CandKinResolution::MCPInvSpher:  //  theta as parameter 1
     case pat::CandKinResolution::MCSpher:
     case pat::CandKinResolution::EtThetaPhi:
     case pat::CandKinResolution::Spher:
       return sqrt(covariance(1, 1)) * abs(DetaDtheta(p4.Theta()));
     case pat::CandKinResolution::EtEtaPhi:  // as simple as that
       return sqrt(covariance(1, 1));
     case pat::CandKinResolution::Invalid:
       throw cms::Exception("Invalid parametrization") << parametrization;
     default:
       throw cms::Exception("Not Implemented")
           << "getResolEta not yet implemented for parametrization " << parametrization;
   }
 }

◆ getResolM()

double pat::helper::ResolutionHelper::getResolM	(	pat::CandKinResolution::Parametrization	parametrization,
		const AlgebraicSymMatrix44 &	covariance,
		const pat::CandKinResolution::LorentzVector &	p4
	)

Definition at line 408 of file ResolutionHelper.cc.

References pat::CandKinResolution::Cart, pat::CandKinResolution::ECart, pat::CandKinResolution::ESpher, pat::CandKinResolution::EtEtaPhi, pat::CandKinResolution::EtThetaPhi, Exception, pat::CandKinResolution::Invalid, pat::CandKinResolution::MCCart, pat::CandKinResolution::MCPInvSpher, pat::CandKinResolution::MCSpher, stringResolutionProvider_cfi::parametrization, pat::CandKinResolution::Spher, and mathSSE::sqrt().

Referenced by pat::CandKinResolution::resolM().

                                                                                              {
   switch (parametrization) {
     // ====== MASS CONSTRAINED =====
     case pat::CandKinResolution::MCSpher:
     case pat::CandKinResolution::MCPInvSpher:
     case pat::CandKinResolution::MCCart:
     case pat::CandKinResolution::EtThetaPhi:
     case pat::CandKinResolution::EtEtaPhi:
       return 0;
     // ======= MASS BASED ==========
     case pat::CandKinResolution::Cart:
     case pat::CandKinResolution::Spher:
       return sqrt(covariance(3, 3));
     // ======= ENERGY BASED ==========
     case pat::CandKinResolution::ESpher: {  // M^2 = E^2 - P^2
       double dMdE = p4.E() / p4.M(), dMdP = -p4.P() / p4.M();
       return sqrt(dMdP * dMdP * covariance(0, 0) + 2 * dMdP * dMdE * covariance(0, 3) + dMdE * dMdE * covariance(3, 3));
     }
     case pat::CandKinResolution::ECart: {  // M^2 = E^2 - sum_i P_i^2
       AlgebraicVector4 derivs(-p4.Px(), -p4.Py(), -p4.Pz(), p4.E());
       derivs *= 1.0 / p4.M();
       return sqrt(ROOT::Math::Similarity(derivs, covariance));
     }
       throw cms::Exception("Not Implemented")
           << "getResolM not yet implemented for parametrization " << parametrization;
     case pat::CandKinResolution::Invalid:
       throw cms::Exception("Invalid parametrization") << parametrization;
     default:
       throw cms::Exception("Not Implemented")
           << "getResolM not yet implemented for parametrization " << parametrization;
   }
 }

◆ getResolP()

double pat::helper::ResolutionHelper::getResolP	(	pat::CandKinResolution::Parametrization	parametrization,
		const AlgebraicSymMatrix44 &	covariance,
		const pat::CandKinResolution::LorentzVector &	p4
	)

Definition at line 34 of file ResolutionHelper.cc.

References pat::CandKinResolution::Cart, pat::CandKinResolution::ECart, pat::CandKinResolution::ESpher, pat::CandKinResolution::EtEtaPhi, pat::CandKinResolution::EtThetaPhi, Exception, getResolE(), pat::CandKinResolution::Invalid, pat::CandKinResolution::MCCart, pat::CandKinResolution::MCPInvSpher, pat::CandKinResolution::MCSpher, stringResolutionProvider_cfi::parametrization, pat::CandKinResolution::Spher, and mathSSE::sqrt().

Referenced by getResolPInv(), and pat::CandKinResolution::resolP().

                                                                                              {
   switch (parametrization) {
     // ==== CARTESIAN ====
     case pat::CandKinResolution::Cart:
     case pat::CandKinResolution::ECart:
     case pat::CandKinResolution::MCCart: {
       // p2 = px^2 + py^2 + pz^2
       // dp/dp_i = p_i/p ==> it is a unit vector!
       AlgebraicVector3 derivs(p4.X(), p4.Y(), p4.Z());
       derivs.Unit();
       return sqrt(ROOT::Math::Similarity(derivs, covariance.Sub<AlgebraicSymMatrix33>(0, 0)));
     }
     // ==== SPHERICAL (P)  ====
     case pat::CandKinResolution::Spher:
     case pat::CandKinResolution::ESpher:
     case pat::CandKinResolution::MCSpher:
       return sqrt(covariance(0, 0));
     // ==== SPHERICAL (1/P)  ====
     case pat::CandKinResolution::MCPInvSpher:
       return sqrt(covariance(0, 0)) * (p4.P2());
     // ==== HEP CYLINDRICAL (with Pt = Et, P = E) ====
     case pat::CandKinResolution::EtThetaPhi:
     case pat::CandKinResolution::EtEtaPhi:
       return getResolE(parametrization, covariance, p4);
     // ==== OTHER ====
     case pat::CandKinResolution::Invalid:
       throw cms::Exception("Invalid parametrization") << parametrization;
     default:
       throw cms::Exception("Not Implemented")
           << "getResolP not yet implemented for parametrization " << parametrization;
   }
 }

◆ getResolPhi()

double pat::helper::ResolutionHelper::getResolPhi	(	pat::CandKinResolution::Parametrization	parametrization,
		const AlgebraicSymMatrix44 &	covariance,
		const pat::CandKinResolution::LorentzVector &	p4
	)

Definition at line 511 of file ResolutionHelper.cc.

References pat::CandKinResolution::Cart, pat::CandKinResolution::ECart, pat::CandKinResolution::ESpher, pat::CandKinResolution::EtEtaPhi, pat::CandKinResolution::EtThetaPhi, Exception, pat::CandKinResolution::Invalid, pat::CandKinResolution::MCCart, pat::CandKinResolution::MCPInvSpher, pat::CandKinResolution::MCSpher, stringResolutionProvider_cfi::parametrization, HLT_2022v12_cff::pt2, pat::CandKinResolution::Spher, mathSSE::sqrt(), and HGCalGeometryMode::Square.

Referenced by pat::CandKinResolution::resolPhi().

                                                                                                {
   double pt2 = p4.Perp2();
   switch (parametrization) {
     case pat::CandKinResolution::Cart:
     case pat::CandKinResolution::ECart:
     case pat::CandKinResolution::MCCart:
       return sqrt(ROOT::Math::Square(p4.Px()) * covariance(1, 1) + ROOT::Math::Square(p4.Py()) * covariance(0, 0) +
                   -2 * p4.Px() * p4.Py() * covariance(0, 1)) /
              pt2;
     case pat::CandKinResolution::ESpher:       //  all the ones which have
     case pat::CandKinResolution::MCPInvSpher:  //  phi as parameter 2
     case pat::CandKinResolution::MCSpher:
     case pat::CandKinResolution::EtThetaPhi:
     case pat::CandKinResolution::Spher:
     case pat::CandKinResolution::EtEtaPhi:
       return sqrt(covariance(2, 2));
     case pat::CandKinResolution::Invalid:
       throw cms::Exception("Invalid parametrization") << parametrization;
     default:
       throw cms::Exception("Not Implemented")
           << "getResolPhi not yet implemented for parametrization " << parametrization;
   }
 }

◆ getResolPInv()

double pat::helper::ResolutionHelper::getResolPInv	(	pat::CandKinResolution::Parametrization	parametrization,
		const AlgebraicSymMatrix44 &	covariance,
		const pat::CandKinResolution::LorentzVector &	p4
	)

Definition at line 110 of file ResolutionHelper.cc.

References pat::CandKinResolution::Cart, pat::CandKinResolution::ECart, pat::CandKinResolution::ESpher, pat::CandKinResolution::EtEtaPhi, pat::CandKinResolution::EtThetaPhi, Exception, getResolP(), pat::CandKinResolution::Invalid, pat::CandKinResolution::MCCart, pat::CandKinResolution::MCPInvSpher, pat::CandKinResolution::MCSpher, stringResolutionProvider_cfi::parametrization, pat::CandKinResolution::Spher, and mathSSE::sqrt().

Referenced by pat::CandKinResolution::resolPInv().

                                                                                                 {
   switch (parametrization) {
     // ==== SPHERICAL (P)  ====
     case pat::CandKinResolution::Spher:
     case pat::CandKinResolution::ESpher:
     case pat::CandKinResolution::MCSpher:
       return 1.0 / p4.P2() * sqrt(covariance(0, 0));
     // ==== SPHERICAL (1/P)  ====
     case pat::CandKinResolution::MCPInvSpher:
       return sqrt(covariance(0, 0));
     // ==== OTHER ====
     case pat::CandKinResolution::Cart:
     case pat::CandKinResolution::ECart:
     case pat::CandKinResolution::MCCart:
     case pat::CandKinResolution::EtThetaPhi:
     case pat::CandKinResolution::EtEtaPhi:
       return 1.0 / p4.P2() * getResolP(parametrization, covariance, p4);
     case pat::CandKinResolution::Invalid:
       throw cms::Exception("Invalid parametrization") << parametrization;
     default:
       throw cms::Exception("Not Implemented")
           << "getResolPInv not yet implemented for parametrization " << parametrization;
   }
 }

◆ getResolPt()

double pat::helper::ResolutionHelper::getResolPt	(	pat::CandKinResolution::Parametrization	parametrization,
		const AlgebraicSymMatrix44 &	covariance,
		const pat::CandKinResolution::LorentzVector &	p4
	)

Definition at line 68 of file ResolutionHelper.cc.

References a, b, pat::CandKinResolution::Cart, funct::cos(), pat::CandKinResolution::ECart, pat::CandKinResolution::ESpher, pat::CandKinResolution::EtEtaPhi, pat::CandKinResolution::EtThetaPhi, Exception, pat::CandKinResolution::Invalid, pat::CandKinResolution::MCCart, pat::CandKinResolution::MCPInvSpher, pat::CandKinResolution::MCSpher, AlCaHLTBitMon_ParallelJobs::p, stringResolutionProvider_cfi::parametrization, funct::sin(), pat::CandKinResolution::Spher, and mathSSE::sqrt().

Referenced by pat::CandKinResolution::resolPt().

                                                                                               {
   switch (parametrization) {
     // ==== CARTESIAN ====
     case pat::CandKinResolution::Cart:
     case pat::CandKinResolution::ECart:
     case pat::CandKinResolution::MCCart: {
       double pti2 = 1.0 / (p4.Perp2());
       return sqrt((covariance(0, 0) * p4.Px() * p4.Px() + covariance(1, 1) * p4.Py() * p4.Py() +
                    2 * covariance(0, 1) * p4.Px() * p4.Py()) *
                   pti2);
     }
     // ==== SPHERICAL (P, Theta)  ====
     case pat::CandKinResolution::Spher:
     case pat::CandKinResolution::ESpher:
     case pat::CandKinResolution::MCSpher: {
       // pt = p * sin(theta)
       double a = sin(p4.Theta());
       double b = p4.P() * cos(p4.Theta());
       return sqrt(a * a * covariance(0, 0) + b * b * covariance(1, 1) + 2 * a * b * covariance(0, 1));
     }
     // ==== SPHERICAL (1/P)  ====
     case pat::CandKinResolution::MCPInvSpher: {
       // pt = (1/pi) * sin(theta)
       double p = p4.P();
       double a = -(p * p) * sin(p4.Theta());
       double b = p * cos(p4.Theta());
       return sqrt(a * a * covariance(0, 0) + b * b * covariance(1, 1) + 2 * a * b * covariance(0, 1));
     }
     // ==== HEP CYLINDRICAL (with Pt = Et) ====
     case pat::CandKinResolution::EtThetaPhi:
     case pat::CandKinResolution::EtEtaPhi:
       return sqrt(covariance(0, 0));
     case pat::CandKinResolution::Invalid:
       throw cms::Exception("Invalid parametrization") << parametrization;
     default:
       throw cms::Exception("Not Implemented")
           << "getResolPt not yet implemented for parametrization " << parametrization;
   }
 }

◆ getResolPx()

double pat::helper::ResolutionHelper::getResolPx	(	pat::CandKinResolution::Parametrization	parametrization,
		const AlgebraicSymMatrix44 &	covariance,
		const pat::CandKinResolution::LorentzVector &	p4
	)

Definition at line 137 of file ResolutionHelper.cc.

References a, b, pat::CandKinResolution::Cart, funct::cos(), pat::CandKinResolution::ECart, pat::CandKinResolution::ESpher, pat::CandKinResolution::EtEtaPhi, pat::CandKinResolution::EtThetaPhi, Exception, pat::CandKinResolution::Invalid, pat::CandKinResolution::MCCart, pat::CandKinResolution::MCPInvSpher, pat::CandKinResolution::MCSpher, AlCaHLTBitMon_ParallelJobs::p, stringResolutionProvider_cfi::parametrization, funct::sin(), pat::CandKinResolution::Spher, and mathSSE::sqrt().

Referenced by pat::CandKinResolution::resolPx().

                                                                                               {
   switch (parametrization) {
     // ==== CARTESIAN ====
     case pat::CandKinResolution::Cart:
     case pat::CandKinResolution::ECart:
     case pat::CandKinResolution::MCCart:
       return sqrt(covariance(0, 0));
     // ==== SPHERICAL (P)  ====
     case pat::CandKinResolution::Spher:
     case pat::CandKinResolution::ESpher:
     case pat::CandKinResolution::MCSpher:
     case pat::CandKinResolution::MCPInvSpher: {
       // Px = P * sin(theta) * cos(phi)
       double p = p4.P();
       AlgebraicVector3 derivs;
       derivs[0] = sin(p4.Theta()) * cos(p4.Phi());  // now let's hope gcc does common subexpr optimiz.
       if (parametrization == pat::CandKinResolution::MCPInvSpher) {
         derivs[0] *= -(p * p);
       }
       derivs[1] = p * cos(p4.Theta()) * cos(p4.Phi());
       derivs[2] = p * sin(p4.Theta()) * -sin(p4.Phi());
       return sqrt(ROOT::Math::Similarity(derivs, covariance.Sub<AlgebraicSymMatrix33>(0, 0)));
     }
     // ==== HEP CYLINDRICAL (with Pt = Et) ====
     case pat::CandKinResolution::EtThetaPhi:
     case pat::CandKinResolution::EtEtaPhi: {
       // Px = Pt * cos(phi)
       double a = cos(p4.Phi());
       double b = -p4.Pt() * sin(p4.Phi());
       return sqrt(a * a * covariance(0, 0) + 2 * a * b * covariance(2, 0) + b * b * covariance(2, 2));
     }
     // ==== OTHERS ====
     case pat::CandKinResolution::Invalid:
       throw cms::Exception("Invalid parametrization") << parametrization;
     default:
       throw cms::Exception("Not Implemented")
           << "getResolPx not yet implemented for parametrization " << parametrization;
   }
 }

◆ getResolPy()

double pat::helper::ResolutionHelper::getResolPy	(	pat::CandKinResolution::Parametrization	parametrization,
		const AlgebraicSymMatrix44 &	covariance,
		const pat::CandKinResolution::LorentzVector &	p4
	)

Definition at line 178 of file ResolutionHelper.cc.

References a, b, pat::CandKinResolution::Cart, funct::cos(), pat::CandKinResolution::ECart, pat::CandKinResolution::ESpher, pat::CandKinResolution::EtEtaPhi, pat::CandKinResolution::EtThetaPhi, Exception, pat::CandKinResolution::Invalid, pat::CandKinResolution::MCCart, pat::CandKinResolution::MCPInvSpher, pat::CandKinResolution::MCSpher, AlCaHLTBitMon_ParallelJobs::p, stringResolutionProvider_cfi::parametrization, funct::sin(), pat::CandKinResolution::Spher, and mathSSE::sqrt().

Referenced by pat::CandKinResolution::resolPy().

                                                                                               {
   switch (parametrization) {
     // ==== CARTESIAN ====
     case pat::CandKinResolution::Cart:
     case pat::CandKinResolution::ECart:
     case pat::CandKinResolution::MCCart:
       return sqrt(covariance(1, 1));
     // ==== SPHERICAL (P)  ====
     case pat::CandKinResolution::Spher:
     case pat::CandKinResolution::ESpher:
     case pat::CandKinResolution::MCSpher:
     case pat::CandKinResolution::MCPInvSpher: {
       // Py = P * sin(theta) * sin(phi)
       double p = p4.P();
       AlgebraicVector3 derivs;
       derivs[0] = sin(p4.Theta()) * sin(p4.Phi());  // now let's hope gcc does common subexpr optimiz.
       if (parametrization == pat::CandKinResolution::MCPInvSpher) {
         derivs[0] *= -(p * p);
       }
       derivs[1] = p * cos(p4.Theta()) * sin(p4.Phi());
       derivs[2] = p * sin(p4.Theta()) * cos(p4.Phi());
       return sqrt(ROOT::Math::Similarity(derivs, covariance.Sub<AlgebraicSymMatrix33>(0, 0)));
     }
     // ==== HEP CYLINDRICAL (with Pt = Et) ====
     case pat::CandKinResolution::EtThetaPhi:
     case pat::CandKinResolution::EtEtaPhi: {
       // Py = Pt * sin(phi)
       double a = sin(p4.Phi());
       double b = p4.Pt() * cos(p4.Phi());
       return sqrt(a * a * covariance(0, 0) + 2 * a * b * covariance(2, 0) + b * b * covariance(2, 2));
     }
     // ==== OTHERS ====
     case pat::CandKinResolution::Invalid:
       throw cms::Exception("Invalid parametrization") << parametrization;
     default:
       throw cms::Exception("Not Implemented")
           << "getResolPy not yet implemented for parametrization " << parametrization;
   }
 }

◆ getResolPz()

double pat::helper::ResolutionHelper::getResolPz	(	pat::CandKinResolution::Parametrization	parametrization,
		const AlgebraicSymMatrix44 &	covariance,
		const pat::CandKinResolution::LorentzVector &	p4
	)

Definition at line 219 of file ResolutionHelper.cc.

Referenced by pat::CandKinResolution::resolPz().

                                                                                               {
   switch (parametrization) {
     // ==== CARTESIAN ====
     case pat::CandKinResolution::Cart:
     case pat::CandKinResolution::ECart:
     case pat::CandKinResolution::MCCart:
       return sqrt(covariance(2, 2));
     // ==== SPHERICAL (P)  ====
     case pat::CandKinResolution::Spher:
     case pat::CandKinResolution::ESpher:
     case pat::CandKinResolution::MCSpher: {
       // Pz = P * cos(theta)
       double a = cos(p4.Theta());
       double b = -p4.P() * sin(p4.Theta());
       return sqrt(a * a * covariance(0, 0) + 2 * a * b * covariance(1, 0) + b * b * covariance(1, 1));
     }
     case pat::CandKinResolution::MCPInvSpher: {
       // Pz = P * cos(theta)
       double p = p4.P();
       double a = -p * p * cos(p4.Theta());
       double b = -p * sin(p4.Theta());
       return sqrt(a * a * covariance(0, 0) + 2 * a * b * covariance(1, 0) + b * b * covariance(1, 1));
     }
     // ==== HEP CYLINDRICAL (with Pt = Et) ====
     case pat::CandKinResolution::EtThetaPhi: {
       // Pz = Pt * ctg(theta)    d ctg(x) = -1/sin^2(x)
       double s = sin(p4.Theta()), c = cos(p4.Theta());
       double a = c / s;
       double b = -p4.Pt() / (s * s);
       return sqrt(a * a * covariance(0, 0) + 2 * a * b * covariance(1, 0) + b * b * covariance(1, 1));
     }
     case pat::CandKinResolution::EtEtaPhi: {
       // Pz = Pt * sinh(eta)
       double a = sinh(p4.Eta());
       double b = p4.Et() * cosh(p4.Eta());
       return sqrt(a * a * covariance(0, 0) + 2 * a * b * covariance(1, 0) + b * b * covariance(1, 1));
     }
     // ==== OTHERS ====
     case pat::CandKinResolution::Invalid:
       throw cms::Exception("Invalid parametrization") << parametrization;
     default:
       throw cms::Exception("Not Implemented")
           << "getResolPz not yet implemented for parametrization " << parametrization;
   }
 }

◆ getResolTheta()

double pat::helper::ResolutionHelper::getResolTheta	(	pat::CandKinResolution::Parametrization	parametrization,
		const AlgebraicSymMatrix44 &	covariance,
		const pat::CandKinResolution::LorentzVector &	p4
	)

Definition at line 479 of file ResolutionHelper.cc.

Referenced by getResolEta(), and pat::CandKinResolution::resolTheta().

                                                                                                  {
   switch (parametrization) {
     case pat::CandKinResolution::Cart:
     case pat::CandKinResolution::ECart:
     case pat::CandKinResolution::MCCart: {
       // theta = acos( pz / p )        ; d acos(x) = - 1 / sqrt( 1 - x*x) dx = - p/pt dx
       double pt2 = p4.Perp2();
       double p = p4.P(), pi = 1.0 / p, pi3 = pi * pi * pi;
       double dacos = -p / sqrt(pt2);
       AlgebraicVector3 derivs;
       derivs[0] = -p4.Px() * p4.Pz() * dacos * pi3;
       derivs[1] = -p4.Py() * p4.Pz() * dacos * pi3;
       derivs[2] = pt2 * dacos * pi3;
       return sqrt(ROOT::Math::Similarity(derivs, covariance.Sub<AlgebraicSymMatrix33>(0, 0)));
     }
     case pat::CandKinResolution::ESpher:       //  all the ones which have
     case pat::CandKinResolution::MCPInvSpher:  //  theta as parameter 1
     case pat::CandKinResolution::MCSpher:
     case pat::CandKinResolution::EtThetaPhi:
     case pat::CandKinResolution::Spher:
       return sqrt(covariance(1, 1));
     case pat::CandKinResolution::EtEtaPhi:
       return sqrt(covariance(1, 1)) * abs(DthetaDeta(p4.Eta()));
     case pat::CandKinResolution::Invalid:
       throw cms::Exception("Invalid parametrization") << parametrization;
     default:
       throw cms::Exception("Not Implemented")
           << "getResolTheta not yet implemented for parametrization " << parametrization;
   }
 }

◆ rescaleForKinFitter()

void pat::helper::ResolutionHelper::rescaleForKinFitter	(	const pat::CandKinResolution::Parametrization	parametrization,
		AlgebraicSymMatrix44 &	covariance,
		const math::XYZTLorentzVector &	initialP4
	)

Definition at line 8 of file ResolutionHelper.cc.

References pat::CandKinResolution::Cart, pat::CandKinResolution::ESpher, mps_fire::i, stringResolutionProvider_cfi::parametrization, and pat::CandKinResolution::Spher.

                                                                                                 {
   double inv;
   switch (parametrization) {
     case pat::CandKinResolution::Cart:
     case pat::CandKinResolution::Spher:
       // for us parameter[3] = mass, for KinFitter parameter[3] = mass/initialP4.mass();
       inv = 1.0 / initialP4.mass();
       for (int i = 0; i < 4; i++) {
         covariance(3, i) *= inv;
       }
       covariance(3, 3) *= inv;
       break;
     case pat::CandKinResolution::ESpher:
       // for us parameter[3] = energy, for KinFitter parameter[3] = energy/initialP4.energy();
       inv = 1.0 / initialP4.energy();
       for (int i = 0; i < 4; i++) {
         covariance(3, i) *= inv;
       }
       covariance(3, 3) *= inv;
       break;
     default:;  // nothing to do
   }
 }

Functions

Function Documentation

◆ getResolE()

◆ getResolEt()

◆ getResolEta()

◆ getResolM()

◆ getResolP()

◆ getResolPhi()

◆ getResolPInv()

◆ getResolPt()

◆ getResolPx()

◆ getResolPy()

◆ getResolPz()

◆ getResolTheta()

◆ rescaleForKinFitter()