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GammaFunctionGenerator Class Reference

#include <GammaFunctionGenerator.h>

List of all members.

Public Member Functions

 GammaFunctionGenerator (const RandomEngine *engine)
 Constructor.
void setParameters (double a, double b, double xm)
 The parameters must be set before shooting.
double shoot () const
virtual ~GammaFunctionGenerator ()
 Destructor.

Private Member Functions

double gammaFrac () const
 values 0<a<1.
double gammaInt () const
 integer values

Private Attributes

double alpha
std::vector< double > approxLimit
bool badRange
double beta
std::vector< double > coreCoeff
double coreProba
double frac
std::vector< double > integralToApproxLimit
Genfun::IncompleteGamma myIncompleteGamma
unsigned na
const RandomEnginerandom
std::vector
< GammaNumericalGenerator
theGammas
double xmax
double xmin

Detailed Description

Definition at line 21 of file GammaFunctionGenerator.h.


Constructor & Destructor Documentation

GammaFunctionGenerator::GammaFunctionGenerator ( const RandomEngine engine)

Constructor.

Definition at line 5 of file GammaFunctionGenerator.cc.

References approxLimit, coreCoeff, alignCSCRings::e, i, integralToApproxLimit, myIncompleteGamma, random, theGammas, and xmax.

                                                                         :
  random(engine)
{

  xmax = 30.;

  for(unsigned i=1;i<=12;++i)
    {
      // For all let's put the limit at 2.*(alpha-1)      (alpha-1 is the max of the dist)
      approxLimit.push_back(2*((double)i));
      myIncompleteGamma.a().setValue((double)i);
      integralToApproxLimit.push_back(myIncompleteGamma(approxLimit[i-1]));
      theGammas.push_back(
       GammaNumericalGenerator(random,(double)i,1.,0,approxLimit[i-1]+1.));
    }
  coreCoeff.push_back(0.);  // alpha=1 not used
  coreCoeff.push_back(1./8.24659e-01);
  coreCoeff.push_back(1./7.55976e-01);
  coreCoeff.push_back(1./7.12570e-01);
  coreCoeff.push_back(1./6.79062e-01);
  coreCoeff.push_back(1./6.65496e-01);
  coreCoeff.push_back(1./6.48736e-01);
  coreCoeff.push_back(1./6.25185e-01);
  coreCoeff.push_back(1./6.09188e-01);
  coreCoeff.push_back(1./6.06221e-01);
  coreCoeff.push_back(1./6.05057e-01);
}
GammaFunctionGenerator::~GammaFunctionGenerator ( ) [virtual]

Destructor.

Definition at line 33 of file GammaFunctionGenerator.cc.

{}

Member Function Documentation

double GammaFunctionGenerator::gammaFrac ( ) const [private]

values 0<a<1.

Definition at line 64 of file GammaFunctionGenerator.cc.

References create_public_lumi_plots::exp, RandomEngine::flatShoot(), frac, create_public_lumi_plots::log, AlCaHLTBitMon_ParallelJobs::p, lumiQueryAPI::q, random, v, and x.

Referenced by shoot().

{
  /* This is exercise 16 from Knuth; see page 135, and the solution is
     on page 551.  */

  double p, q, x, u, v;
  p = M_E / (frac + M_E);
  do
    {
      u = random->flatShoot();
      v = random->flatShoot();

      if (u < p)
        {
          x = exp ((1 / frac) * log (v));
          q = exp (-x);
        }
      else
        {
          x = 1 - log (v);
          q = exp ((frac - 1) * log (x));
        }
    }
  while (random->flatShoot() >= q);

  return x;
}
double GammaFunctionGenerator::gammaInt ( ) const [private]

integer values

Definition at line 92 of file GammaFunctionGenerator.cc.

References approxLimit, coreCoeff, coreProba, RandomEngine::flatShoot(), create_public_lumi_plots::log, na, random, theGammas, and xmin.

Referenced by shoot().

{
  // Exponential distribution : no approximation
  if(na==1)
    {
      return xmin-log(random->flatShoot());
    }

  unsigned gn=na-1;

  // are we sure to be in the tail 
  if(coreProba==0.)
    return xmin-coreCoeff[gn]*log(random->flatShoot());

  // core-tail interval
  if(random->flatShoot()<coreProba)
    {
      return theGammas[gn].gamma_lin();
    }
  //  std::cout << " Tail called " << std::endl;
  return approxLimit[gn]-coreCoeff[gn]*log(random->flatShoot());
}
void GammaFunctionGenerator::setParameters ( double  a,
double  b,
double  xm 
)

The parameters must be set before shooting.

Definition at line 115 of file GammaFunctionGenerator.cc.

References a, alpha, approxLimit, b, badRange, beta, coreProba, frac, integralToApproxLimit, myIncompleteGamma, na, theGammas, tmp, xmax, and xmin.

Referenced by EMShower::compute().

{
  //  std::cout << "Setting parameters " << std::endl;
  alpha=a;
  beta=b;
  xmin=xm*beta;
  if(xm>xmax) 
    {
      badRange=true;
      return;
    }
  badRange=false;
  na=0;
  
  if(alpha>0.&&alpha<12) 
    na=(unsigned)floor(alpha);

  frac=alpha-na;  
  // Now calculate the probability to shoot between approxLimit and xmax
  // The Incomplete gamma is normalized to 1 
  if(na<=1) return;
  
  myIncompleteGamma.a().setValue((double)na);
  
  unsigned gn=na-1;
  //  std::cout << " na " << na << " xm " << xm << " beta " << beta << " xmin " << xmin << " approxLimit " << approxLimit[gn] << std::endl;
  if(xmin>approxLimit[gn]) 
    {
      coreProba=0.;
    }
  else
    {
      double tmp=(xmin!=0.) ?myIncompleteGamma(xmin) : 0.;
      coreProba=(integralToApproxLimit[gn]-tmp)/(1.-tmp);
      theGammas[gn].setSubInterval(xmin,approxLimit[gn]);
    }
  //  std::cout << " Proba " << coreProba << std::endl;
}
double GammaFunctionGenerator::shoot ( ) const

shoot along a gamma distribution with shape parameter alpha and scale beta values > xmin

Definition at line 35 of file GammaFunctionGenerator.cc.

References alpha, badRange, beta, gammaFrac(), gammaInt(), gf, na, and xmin.

Referenced by EMShower::compute().

{
  if(alpha<0.) return -1.;
  if(badRange) return xmin/beta;
  if(alpha<12)
    {

      if (alpha == na)
        {
          return gammaInt ()/beta;
        }
      else if (na == 0)
        {
          return gammaFrac ()/beta;
        }
      else
        {
          double gi=gammaInt ();
          double gf=gammaFrac ();
          return (gi+gf)/beta;
        }
    }
  else
    {
      // an other generator has to be used in such a case
      return -1.;
    }
}

Member Data Documentation

Definition at line 69 of file GammaFunctionGenerator.h.

Referenced by setParameters(), and shoot().

std::vector<double> GammaFunctionGenerator::approxLimit [private]

Definition at line 58 of file GammaFunctionGenerator.h.

Referenced by GammaFunctionGenerator(), gammaInt(), and setParameters().

Definition at line 77 of file GammaFunctionGenerator.h.

Referenced by setParameters(), and shoot().

double GammaFunctionGenerator::beta [private]

Definition at line 69 of file GammaFunctionGenerator.h.

Referenced by setParameters(), and shoot().

std::vector<double> GammaFunctionGenerator::coreCoeff [private]

Definition at line 52 of file GammaFunctionGenerator.h.

Referenced by GammaFunctionGenerator(), and gammaInt().

Definition at line 55 of file GammaFunctionGenerator.h.

Referenced by gammaInt(), and setParameters().

double GammaFunctionGenerator::frac [private]

Definition at line 67 of file GammaFunctionGenerator.h.

Referenced by gammaFrac(), and setParameters().

std::vector<double> GammaFunctionGenerator::integralToApproxLimit [private]

Definition at line 74 of file GammaFunctionGenerator.h.

Referenced by GammaFunctionGenerator(), and setParameters().

Genfun::IncompleteGamma GammaFunctionGenerator::myIncompleteGamma [private]

Definition at line 71 of file GammaFunctionGenerator.h.

Referenced by GammaFunctionGenerator(), and setParameters().

unsigned GammaFunctionGenerator::na [private]

Definition at line 65 of file GammaFunctionGenerator.h.

Referenced by gammaInt(), setParameters(), and shoot().

Definition at line 79 of file GammaFunctionGenerator.h.

Referenced by gammaFrac(), GammaFunctionGenerator(), and gammaInt().

Definition at line 49 of file GammaFunctionGenerator.h.

Referenced by GammaFunctionGenerator(), gammaInt(), and setParameters().

double GammaFunctionGenerator::xmax [private]

Definition at line 62 of file GammaFunctionGenerator.h.

Referenced by GammaFunctionGenerator(), and setParameters().

double GammaFunctionGenerator::xmin [private]

Definition at line 61 of file GammaFunctionGenerator.h.

Referenced by gammaInt(), setParameters(), and shoot().