G4InuclParamAngDst.cc

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// Author:  Michael Kelsey (SLAC)
// Date:    22 April 2013
//
// Description: intermediate base class for INUCL parametrizations of
//      three-body angular distributions in Bertini-style cascade
//
// 20130308  M. Kelsey -- Move PQ,PR calculation to G4InuclSpecialFunctions.
// 20150608  M. Kelsey -- Label all while loops as terminating.
 
#include "G4InuclParamAngDst.hh"
#include "G4InuclSpecialFunctions.hh"
#include "G4InuclParticleNames.hh"
using namespace G4InuclSpecialFunctions;
using namespace G4InuclParticleNames;
 
 
// Use coefficients in power expansion of random fraction
 
G4double G4InuclParamAngDst::GetCosTheta(G4int ptype, G4double ekin) const {
  if (verboseLevel>3) {
    G4cout << theName << "::GetCosTheta: ptype " << ptype << " ekin " << ekin
       << G4endl;
  }
 
  G4int J = (ptype==pro || ptype==neu) ? 0 : 1;     // nucleon vs. other
  if (verboseLevel > 3) G4cout << " J " << J << G4endl;
 
  const G4int itry_max = 100;   // Parametrizations aren't properly bounded
 
  G4double Spow = -999.;
  G4int itry = 0;
 
  /* Loop checking 08.06.2015 MHK */
  while ((Spow < 0. || Spow > 1.) && itry < itry_max) {
    itry++;
    Spow = randomInuclPowers(ekin, coeffAB[J]);
  }
 
  if (itry == itry_max) {   // No success, just throw flat distribution
    if (verboseLevel > 2) {
      G4cout << theName << "::GetCosTheta -> itry = itry_max " << itry
         << G4endl;
    }
 
    Spow = inuclRndm();
  }
 
  return 2.0*Spow - 1.0;    // Convert generated [0..1] to [-1..1]
}