kinem Namespace Reference

Functions
double	delta_eta (double eta1, double eta2)
double	delta_phi (double ph11, double phi2)
double	delta_R (double eta1, double phi1, double eta2, double phi2)
double	eta (double th)
double	eta (double x, double y, double z)
double	eta (double xyz1[3], double xyz2[3])
double	eta (float xyz1[3], float xyz2[3])
double	phi (double x, double y)
double	phi (double xy1[2], double xy2[2])
double	phi (float xy1[2], float xy2[2])
double	signed_delta_phi (double ph11, double phi2)
double	tanl_from_theta (double theta)
double	theta (double etap)
double	theta (double x, double y, double z)
double	theta (double xyz1[3], double xyz2[3])
double	theta (float xyz1[3], float xyz2[3])
double	theta_from_tanl (double tanl)
void	uvectors (double u[3], double xyz1[3], double xyz2[3])
void	uvectors (float u[3], float xyz1[3], float xyz2[3])
double	y (double E, double pz)

Variables
const float	EPSILON = 1.E-10
const float	ETA_LIMIT = 15.0
const double	PI = 2.0 * acos(0.)
const double	TWOPI = 2.0 * PI

Function Documentation

delta_eta()

double kinem::delta_eta ( double  eta1, double  eta2  )

inline

Definition at line 89 of file AnglesUtil.h.

{ return eta1 - eta2; }

References HLT_2018_cff::eta1, and HLT_2018_cff::eta2.

delta_phi()

double kinem::delta_phi ( double  ph11, double  phi2  )

inline

Definition at line 84 of file AnglesUtil.h.

                                                       {
  double PHI = fabs(phi1 - phi2);
  return (PHI <= PI) ? PHI : kinem::TWOPI - PHI;
}

References PHI, and TWOPI.

Referenced by delta_R().

delta_R()

double kinem::delta_R ( double  eta1, double  phi1, double  eta2, double  phi2  )

inline

Definition at line 106 of file AnglesUtil.h.

                                                                               {
  double deta = eta1 - eta2;
  double dphi = kinem::delta_phi(phi1, phi2);
  return sqrt(deta * deta + dphi * dphi);
}

References delta_phi(), HLT_2018_cff::eta1, HLT_2018_cff::eta2, and mathSSE::sqrt().

Referenced by EnergyScaleAnalyzer::analyze(), external::HEPTopTaggerV2_fixed_R::djademod(), EnergyScaleAnalyzer::fillTree(), and CosmicRegionalSeedGenerator::regions().

eta() [1/4]

double kinem::eta ( double  th )

inline

Definition at line 146 of file AnglesUtil.h.

                                  {
  if (th == 0)
    return ETA_LIMIT;
  if (th >= PI - 0.0001)
    return -ETA_LIMIT;
  return -log(tan(th / 2.0));
}

References ETA_LIMIT, dqm-mbProfile::log, and funct::tan().

Referenced by eta().

eta() [2/4]

double kinem::eta ( double  x, double  y, double  z  )

inline

Definition at line 142 of file AnglesUtil.h.

                                                     {
  return 0.5 * log((sqrt(x * x + y * y + z * z) + z + EPSILON) / (sqrt(x * x + y * y + z * z) - z + EPSILON));
}

References EPSILON, dqm-mbProfile::log, mathSSE::sqrt(), vertices_cff::x, y(), and detailsBasic3DVector::z.

eta() [3/4]

double kinem::eta ( double  xyz1[3], double  xyz2[3]  )

inline

Definition at line 129 of file AnglesUtil.h.

                                                       {
  double x = xyz2[0] - xyz1[0];
  double y = xyz2[1] - xyz1[1];
  double z = xyz2[2] - xyz1[2];
  return eta(x, y, z);
}

References eta(), vertices_cff::x, y(), and detailsBasic3DVector::z.

eta() [4/4]

double kinem::eta ( float  xyz1[3], float  xyz2[3]  )

inline

Definition at line 136 of file AnglesUtil.h.

                                                     {
  double dxyz1[3] = {xyz1[0], xyz1[1], xyz1[2]};
  double dxyz2[3] = {xyz2[0], xyz2[1], xyz2[2]};
  return eta(dxyz1, dxyz2);
}

References eta().

phi() [1/3]

double kinem::phi ( double  x, double  y  )

inline

Definition at line 67 of file AnglesUtil.h.

                                           {
  double PHI = atan2(y, x);
  return (PHI >= 0) ? PHI : kinem::TWOPI + PHI;
}

References PHI, TWOPI, vertices_cff::x, and y().

phi() [2/3]

double kinem::phi ( double  xy1[2], double  xy2[2]  )

inline

Definition at line 78 of file AnglesUtil.h.

                                                     {
  double x = xy2[0] - xy1[0];
  double y = xy2[1] - xy1[1];
  return phi(x, y);
}

References phi(), vertices_cff::x, and y().

phi() [3/3]

double kinem::phi ( float  xy1[2], float  xy2[2]  )

inline

Definition at line 72 of file AnglesUtil.h.

                                                   {
  double dxy1[2] = {xy1[0], xy1[1]};
  double dxy2[2] = {xy2[0], xy2[1]};
  return phi(dxy1, dxy2);
}

Referenced by phi().

signed_delta_phi()

double kinem::signed_delta_phi ( double  ph11, double  phi2  )

inline

Definition at line 91 of file AnglesUtil.h.

                                                              {
  double phia = phi1;
  if (phi1 > PI)
    phia = phi1 - kinem::TWOPI;
  double phib = phi2;
  if (phi2 > PI)
    phib = phi2 - kinem::TWOPI;
  double dphi = phia - phib;
  if (dphi > PI)
    dphi -= kinem::TWOPI;
  if (dphi < -PI)
    dphi += kinem::TWOPI;
  return dphi;
}

References TWOPI.

tanl_from_theta()

double kinem::tanl_from_theta ( double  theta )

inline

Definition at line 182 of file AnglesUtil.h.

{ return tan(PI / 2.0 - theta); }

References funct::tan(), and theta().

theta() [1/4]

double kinem::theta ( double  etap )

inline

Definition at line 127 of file AnglesUtil.h.

{ return 2.0 * atan(exp(-etap)); }

References JetChargeProducer_cfi::exp.

Referenced by tanl_from_theta(), and theta().

theta() [2/4]

double kinem::theta ( double  x, double  y, double  z  )

inline

Definition at line 125 of file AnglesUtil.h.

{ return atan2(sqrt(x * x + y * y), z); }

References mathSSE::sqrt(), vertices_cff::x, y(), and detailsBasic3DVector::z.

theta() [3/4]

double kinem::theta ( double  xyz1[3], double  xyz2[3]  )

inline

Definition at line 112 of file AnglesUtil.h.

                                                         {
  double x = xyz2[0] - xyz1[0];
  double y = xyz2[1] - xyz1[1];
  double z = xyz2[2] - xyz1[2];
  return theta(x, y, z);
}

References theta(), vertices_cff::x, y(), and detailsBasic3DVector::z.

theta() [4/4]

double kinem::theta ( float  xyz1[3], float  xyz2[3]  )

inline

Definition at line 119 of file AnglesUtil.h.

                                                       {
  double dxyz1[3] = {xyz1[0], xyz1[1], xyz1[2]};
  double dxyz2[3] = {xyz2[0], xyz2[1], xyz2[2]};
  return theta(dxyz1, dxyz2);
}

References theta().

theta_from_tanl()

double kinem::theta_from_tanl ( double  tanl )

inline

Definition at line 184 of file AnglesUtil.h.

{ return PI / 2.0 - atan(tanl); }

uvectors() [1/2]

void kinem::uvectors ( double  u[3], double  xyz1[3], double  xyz2[3]  )

inline

Definition at line 156 of file AnglesUtil.h.

                                                                       {
  double xdiff = xyz2[0] - xyz1[0];
  double ydiff = xyz2[1] - xyz1[1];
  double zdiff = xyz2[2] - xyz1[2];
  double s = sqrt(xdiff * xdiff + ydiff * ydiff + zdiff * zdiff);
  if (s > 0) {
    u[0] = xdiff / s;
    u[1] = ydiff / s;
    u[2] = zdiff / s;
  } else {
    u[0] = 0;
    u[1] = 0;
    u[2] = 0;
  }
}

References alignCSCRings::s, and mathSSE::sqrt().

uvectors() [2/2]

void kinem::uvectors ( float  u[3], float  xyz1[3], float  xyz2[3]  )

inline

Definition at line 172 of file AnglesUtil.h.

                                                                    {
  double du[3];
  double dxyz1[3] = {xyz1[0], xyz1[1], xyz1[2]};
  double dxyz2[3] = {xyz2[0], xyz2[1], xyz2[2]};
  uvectors(du, dxyz1, dxyz2);
  u[0] = du[0];
  u[1] = du[1];
  u[2] = du[2];
}

y()

double kinem::y ( double  E, double  pz  )

inline

Definition at line 154 of file AnglesUtil.h.

{ return 0.5 * log((E + pz + EPSILON) / (E - pz + EPSILON)); }

References EPSILON, and dqm-mbProfile::log.

Referenced by eta(), phi(), and theta().

Variable Documentation

EPSILON

const float kinem::EPSILON = 1.E-10

Definition at line 22 of file AnglesUtil.h.

Referenced by HcalSiPM::BorelCDF(), eta(), MSLayersAtAngle::findLayer(), and y().

ETA_LIMIT

const float kinem::ETA_LIMIT = 15.0

Definition at line 21 of file AnglesUtil.h.

Referenced by eta().

PI

const double kinem::PI = 2.0 * acos(0.)

Definition at line 19 of file AnglesUtil.h.

TWOPI

const double kinem::TWOPI = 2.0 * PI

Definition at line 20 of file AnglesUtil.h.

Referenced by delta_phi(), phi(), and signed_delta_phi().