#include <VVIObj.h>

Public Member Functions
double	fcn (double x) const

void	limits (double &xl, double &xu) const
	density (mode=0) or distribution (mode=1) function More...

	VVIObj (double kappa=0.01, double beta2=1., int mode=0)
	Constructor. More...

Private Attributes
double	a_ [155]

double	b_ [155]

const int	mode_
	returns the limits on the non-zero (mode=0) or normalized region (mode=1) More...

double	omega_

double	t0_

double	t1_

double	t_

double	x0_

Detailed Description

Port of CERNLIB routines vvidis/vviden (G116) to calculate higher quality Vavilov density and distribution functions

Definition at line 25 of file VVIObj.h.

Constructor & Destructor Documentation

VVIObj::VVIObj	(	double	kappa = `0.01`,
		double	beta2 = `1.`,
		int	mode = `0`
	)

Constructor.

Constructor Set Vavilov parameters kappa and beta2 and define whether to calculate density fcn or distribution fcn

Parameters

kappa	- (input) Vavilov kappa parameter [0.01 (Landau-like) < kappa < 10. (Gaussian-like)]
beta2	- (input) Vavilov beta2 parameter (square of particle speed in v/c units)
mode	- (input) set to 0 to calculate the density function and to 1 to calculate the distribution function

Definition at line 52 of file VVIObj.cc.

References a_, b_, alignmentValidation::c1, funct::cos(), ztail::d, sistripvvi::VVIObjDetails::dzero(), alignCSCRings::e, create_public_lumi_plots::exp, sistripvvi::VVIObjDetails::expint(), sistripvvi::VVIObjDetails::f1(), sistripvvi::VVIObjDetails::f2(), relval_steps::k, kappa, prof2calltree::l, cmsBatch::log, mode_, gen::n, omega_, lumiQueryAPI::q, q2, funct::sin(), sistripvvi::VVIObjDetails::sincosint(), t0_, t1_, t_, x(), and x0_.

                                                    : mode_(mode) {
   
   const double xp[9] = { 9.29,2.47,.89,.36,.15,.07,.03,.02,0.0 };
   const double xq[7] = { .012,.03,.08,.26,.87,3.83,11.0 };
   double h_[7];
   double  q, u, x, c1, c2, c3, c4, d1, h4, h5, h6, q2, x1, d, ll, ul, xf1, xf2, rv;
   int lp, lq, k, l, n;
   
   // Make sure that the inputs are reasonable
   
   if(kappa < 0.01) kappa = 0.01;
   if(kappa > 10.) kappa = 10.;
   if(beta2 < 0.) beta2 = 0.;
   if(beta2 > 1.) beta2 = 1.;
   
   h_[4] = 1. - beta2*0.42278433999999998 + 7.6/kappa;
   h_[5] = beta2;
   h_[6] = 1. - beta2;
   h4 = -7.6/kappa - (beta2 * .57721566 + 1);
   h5 = log(kappa);
   h6 = 1./kappa;
   t0_ = (h4 - h_[4]*h5 - (h_[4] + beta2)*(log(h_[4]) + VVIObjDetails::expint(h_[4])) + exp(-h_[4]))/h_[4];
   
   // Set up limits for the root search
   
   for (lp = 0; lp < 9; ++lp) {
     if (kappa >= xp[lp]) break;
   }
   ll = -lp - 1.5;
   for (lq = 0; lq < 7; ++lq) {
     if (kappa <= xq[lq]) break;
   }
   ul = lq - 6.5;
   //    double (*fp2)(double) = reinterpret_cast<double(*)(double)>(&VVIObj::f2);
   VVIObjDetails::dzero(ll, ul, u, rv, 1.e-5, 1000, boost::bind(&VVIObjDetails::f2, _1,h_));
   q = 1./u;
   t1_ = h4 * q - h5 - (beta2 * q + 1) * (log((fabs(u))) + VVIObjDetails::expint(u)) + exp(-u) * q;
   t_ = t1_ - t0_;
   omega_ = 6.2831853000000004/t_;
   h_[0] = kappa * (beta2 * .57721566 + 2.) + 9.9166128600000008;
   if (kappa >= .07) {h_[0] += 6.90775527;}
   h_[1] = beta2 * kappa;
   h_[2] = h6 * omega_;
   h_[3] = omega_ * 1.5707963250000001;
   //    double (*fp1)(double) = reinterpret_cast<double(*)(double)>(&VVIObj::f1);
   VVIObjDetails::dzero(5., 155., x0_, rv, 1.e-5, 1000, boost::bind(&VVIObjDetails::f1, _1,h_));
   n = x0_ + 1.;
   d = exp(kappa * (beta2 * (.57721566 - h5) + 1.)) * .31830988654751274;
   a_[n - 1] = 0.;
   if (mode_ == 0) {
     a_[n - 1] = omega_ * .31830988654751274;
   }
   q = -1.;
   q2 = 2.;
   for (k = 1; k < n; ++k) {
     l = n - k;
     x = omega_ * k;
     x1 = h6 * x;
     VVIObjDetails::sincosint(x1,c2,c1);
     c1 = log(x) - c1;
     c3 = sin(x1);
     c4 = cos(x1);
     xf1 = kappa * (beta2 * c1 - c4) - x * c2;
     xf2 = x * c1 + kappa * (c3 + beta2 * c2) + t0_ * x;
     if (mode_ == 0) {
       d1 = q * d * omega_ * exp(xf1);
       a_[l - 1] = d1 * cos(xf2);
       b_[l - 1] = -d1 * sin(xf2);
     } else {
       d1 = q * d * exp(xf1)/k;
       a_[l - 1] = d1 * sin(xf2);
       b_[l - 1] = d1 * cos(xf2);
       a_[n - 1] += q2 * a_[l - 1];
     }
     q = -q;
     q2 = -q2;
   }
   
 } // VVIObj

Member Function Documentation

double VVIObj::fcn ( double x ) const

Vavilov function method Returns density fcn (mode=0) or distribution fcn (mode=1)

Parameters

x	- (input) Argument of function [typically defined as (Q-mpv)/sigma]

Definition at line 139 of file VVIObj.cc.

References a_, b_, funct::cos(), f, relval_steps::k, mode_, gen::n, omega_, funct::sin(), t0_, t1_, t_, and x0_.

Referenced by SiStripTemplateReco::StripTempReco1D(), and SiStripTemplateSplit::StripTempSplit().

                                  {
     
     // Local variables
     
     double f, u, y, a0, a1;
     double a2 = 0.;
     double b1, b0, b2, cof;
     int k, n, n1;
     
     n = x0_;
     if (x < t0_) {
         f = 0.;
     } else if (x <= t1_) {
       y = x - t0_;
       u = omega_ * y - 3.141592653589793;
       cof = cos(u) * 2.;
       a1 = 0.;
       a0 = a_[0];
       n1=n+1;
       for (k = 2; k <= n1; ++k) {
         a2 = a1;
         a1 = a0;
         a0 = a_[k - 1] + cof * a1 - a2;
       }
       b1 = 0.;
       b0 = b_[0];
       for (k = 2; k <= n; ++k) {
         b2 = b1;
         b1 = b0;
         b0 = b_[k - 1] + cof * b1 - b2;
       }
       f = (a0 - a2) * .5 + b0 * sin(u);
       if (mode_ != 0) {f += y / t_;}
     } else {
       f = 0.;
       if (mode_ != 0) {f = 1.;}
     }
     return f;
 } // fcn

void VVIObj::limits	(	double &	xl,
		double &	xu
	)		const

density (mode=0) or distribution (mode=1) function

Vavilov limits method

Parameters

xl	- (output) Smallest value of the argument for the density and the beginning of the normalized region for the distribution
xu	- (output) Largest value of the argument for the density and the end of the normalized region for the distribution

Definition at line 188 of file VVIObj.cc.

References t0_, and t1_.

                                                 {
     
    xl = t0_;
    xu = t1_;
     return;
 } // limits

Member Data Documentation

double sistripvvi::VVIObj::a_[155]

private

Definition at line 44 of file VVIObj.h.

Referenced by fcn(), and VVIObj().

double sistripvvi::VVIObj::b_[155]

private

Definition at line 45 of file VVIObj.h.

Referenced by fcn(), and VVIObj().

const int sistripvvi::VVIObj::mode_

private

returns the limits on the non-zero (mode=0) or normalized region (mode=1)

set to 0 to calculate the density function and to 1 to calculate the distribution function

Definition at line 38 of file VVIObj.h.

Referenced by fcn(), and VVIObj().

double sistripvvi::VVIObj::omega_

private

Definition at line 42 of file VVIObj.h.

Referenced by fcn(), and VVIObj().

double sistripvvi::VVIObj::t0_

private

Definition at line 39 of file VVIObj.h.

Referenced by fcn(), limits(), and VVIObj().

double sistripvvi::VVIObj::t1_

private

Definition at line 40 of file VVIObj.h.

Referenced by fcn(), limits(), and VVIObj().

double sistripvvi::VVIObj::t_

private

Definition at line 41 of file VVIObj.h.

Referenced by fcn(), and VVIObj().

double sistripvvi::VVIObj::x0_

private

Definition at line 43 of file VVIObj.h.

Referenced by fcn(), and VVIObj().

Public Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation