G4ShellEMDataSet.cc

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//
//
// $Id$
//
// Author: Maria Grazia Pia (Maria.Grazia.Pia@cern.ch)
//
// History:
// -----------
//  1 Aug 2001   MGP         Created
//
//  09.10.01   V.Ivanchenko  Add case z=0
//
//  9 Mar 2008   MGP         Cleaned up unreadable code modified by former developer
//                           (Further clean-up needed)
//
//  15 Jul 2009   Nicolas A. Karakatsanis
//
//                           - LoadNonLogData method was created to load only the non-logarithmic data from G4EMLOW
//                             dataset. It is essentially performing the data loading operations as in the past.
//
//                           - LoadData method was revised in order to calculate the logarithmic values of the data
//                             It retrieves the data values from the G4EMLOW data files but, then, calculates the
//                             respective log values and loads them to seperate data structures. 
//
//                           - SetLogEnergiesData method was cretaed to set logarithmic values to G4 data vectors.
//                             The EM data sets, initialized this way, contain both non-log and log values.
//                             These initialized data sets can enhance the computing performance of data interpolation
//                             operations
// 
//
// -------------------------------------------------------------------
 
#include "G4ShellEMDataSet.hh"
#include "G4EMDataSet.hh"
#include "G4VDataSetAlgorithm.hh"
#include <fstream>
#include <sstream>
 
 
G4ShellEMDataSet::G4ShellEMDataSet(G4int zeta, G4VDataSetAlgorithm* algo, 
                   G4double eUnit, 
                   G4double dataUnit)
  :
  z(zeta),
  algorithm(algo),
  unitEnergies(eUnit),
  unitData(dataUnit)
{
  if (algorithm == 0) G4Exception("G4ShellEMDataSet::G4ShellEMDataSet()","em0007",FatalErrorInArgument, "Interpolation == 0");
}
 
 
G4ShellEMDataSet::~G4ShellEMDataSet()
{
  CleanUpComponents();
  if (algorithm) delete algorithm;
}
 
 
G4double G4ShellEMDataSet::FindValue(G4double energy, G4int /* componentId */) const
{
  // Returns the sum over the shells corresponding to e
  G4double value = 0.;
 
  std::vector<G4VEMDataSet *>::const_iterator i(components.begin());
  std::vector<G4VEMDataSet *>::const_iterator end(components.end());
 
  while (i != end)
    {
      value += (*i)->FindValue(energy);
      i++;
    }
 
  return value;
}
 
 
void G4ShellEMDataSet::PrintData(void) const
{
  const size_t n = NumberOfComponents();
 
  G4cout << "The data set has " << n << " components" << G4endl;
  G4cout << G4endl;
 
  size_t i = 0;
 
  while (i < n)
    {
      G4cout << "--- Component " << i << " ---" << G4endl;
      GetComponent(i)->PrintData();
      i++;
    }
}
 
 
void G4ShellEMDataSet::SetEnergiesData(G4DataVector* energies, 
                       G4DataVector* data, 
                       G4int componentId)
{
  G4VEMDataSet* component = components[componentId];
 
  if (component)
    {
      component->SetEnergiesData(energies, data, 0);
      return;
    }
 
  G4String msg = "component " + (G4String)componentId + " not found";
 
  G4Exception("G4ShellEMDataSet::SetEnergiesData()","em0008", FatalErrorInArgument ,msg);
}
 
 
void G4ShellEMDataSet::SetLogEnergiesData(G4DataVector* energies,
                                          G4DataVector* data,
                                          G4DataVector* log_energies,
                                          G4DataVector* log_data,
                                          G4int componentId)
{
  G4VEMDataSet* component = components[componentId];
 
  if (component)
    {
      component->SetLogEnergiesData(energies, data, log_energies, log_data, 0);
      return;
    }
 
  G4String msg = "component " + (G4String)componentId + " not found";
 
  G4Exception("G4ShellEMDataSet::SetLogEnergiesData()","em0008", FatalErrorInArgument ,msg);
 
}
 
 
 
G4bool G4ShellEMDataSet::LoadData(const G4String& file)
{
  CleanUpComponents();
 
  G4String fullFileName = FullFileName(file);
  std::ifstream in(fullFileName);
 
  if (!in.is_open())
    {
      G4String message("Data file \"");
      message += fullFileName;
      message += "\" not found";
      G4Exception("G4ShellEMDataSet::LoadData()", "em0003",FatalException, message);
      return 0;
    }
 
  G4DataVector* orig_shell_energies = 0;
  G4DataVector* orig_shell_data = 0;
  G4DataVector* log_shell_energies = 0;
  G4DataVector* log_shell_data = 0;
 
  G4double a = 0.;
  G4int shellIndex = 0;
  G4int k = 0;
  G4int nColumns = 2;
 
  do
    {
      in >> a;
 
      if (a==0.) a=1e-300;
 
      // The file is organized into four columns:
      // 1st column contains the values of energy
      // 2nd column contains the corresponding data value
      // The file terminates with the pattern: -1   -1
      //                                       -2   -2
      //
      if (a == -1)
    {
      if ((k%nColumns == 0) && (orig_shell_energies != 0) )
        {
         AddComponent(new G4EMDataSet(shellIndex, orig_shell_energies, orig_shell_data, log_shell_energies, log_shell_data, algorithm->Clone(), unitEnergies, unitData));
          orig_shell_energies = 0;
          orig_shell_data = 0;
              log_shell_energies = 0;
              log_shell_data = 0;
        }
    }
      else if (a != -2)
    {
      if (orig_shell_energies == 0)
        {
         orig_shell_energies = new G4DataVector;
         orig_shell_data = new G4DataVector;
             log_shell_energies = new G4DataVector;
             log_shell_data = new G4DataVector;
        }
      if (k%nColumns == 0)
            {
         orig_shell_energies->push_back(a*unitEnergies);
         log_shell_energies->push_back(std::log10(a) + std::log10(unitEnergies));
            }
      else if (k%nColumns == 1)
            {
         orig_shell_data->push_back(a*unitData);
             log_shell_data->push_back(std::log10(a) + std::log10(unitData));
            }
          k++;
    }
      else k = 1;
    }
  while (a != -2);  // End of file
 
 
  delete orig_shell_energies;
  delete orig_shell_data;
  delete log_shell_energies;
  delete log_shell_data;
 
  return true;
}
 
 
G4bool G4ShellEMDataSet::LoadNonLogData(const G4String& file)
{
  CleanUpComponents();
 
  G4String fullFileName = FullFileName(file);
  std::ifstream in(fullFileName);
 
  if (!in.is_open())
    {
      G4String message("G4ShellEMDataSet::LoadData - data file \"");
      message += fullFileName;
      message += "\" not found";
      G4Exception("G4ShellEMDataSet::LoadNonLogData()", "em0003",FatalException, message);
      return 0;
    }
 
  G4DataVector* orig_shell_energies = 0;
  G4DataVector* orig_shell_data = 0;
 
  G4double a = 0.;
  G4int shellIndex = 0;
  G4int k = 0;
  G4int nColumns = 2;
 
  do
    {
      in >> a;
 
      // The file is organized into four columns:
      // 1st column contains the values of energy
      // 2nd column contains the corresponding data value
      // The file terminates with the pattern: -1   -1
      //                                       -2   -2
      //
      if (a == -1)
    {
      if ((k%nColumns == 0) && (orig_shell_energies != 0) )
        {
         AddComponent(new G4EMDataSet(shellIndex, orig_shell_energies, orig_shell_data, algorithm->Clone(), unitEnergies, unitData));
          orig_shell_energies = 0;
          orig_shell_data = 0;
        }
    }
      else if (a != -2)
    {
      if (orig_shell_energies == 0)
        {
         orig_shell_energies = new G4DataVector;
         orig_shell_data = new G4DataVector;
        }
      if (k%nColumns == 0)
            {
         orig_shell_energies->push_back(a*unitEnergies);
            }
      else if (k%nColumns == 1)
            {
         orig_shell_data->push_back(a*unitData);
            }
          k++;
    }
      else k = 1;
    }
  while (a != -2);  // End of file
 
 
  delete orig_shell_energies;
  delete orig_shell_data;
 
  return true;
}
 
 
 
G4bool G4ShellEMDataSet::SaveData(const G4String& file) const
{
  G4String fullFileName = FullFileName(file);
  std::ofstream out(fullFileName);
 
  if (!out.is_open())
    {
      G4String message("Cannot open \"");
      message += fullFileName;
      message += "\"";
      G4Exception("G4EMDataSet::SaveData()","em0005",FatalException,message);
    }
 
  const size_t n = NumberOfComponents();
  size_t k = 0;
 
  while (k < n)
    {
      const G4VEMDataSet* component = GetComponent(k);
  
      if (component)
    {
      const G4DataVector& energies = component->GetEnergies(0);
      const G4DataVector& data = component->GetData(0);
 
      G4DataVector::const_iterator i = energies.begin();
      G4DataVector::const_iterator endI = energies.end();
      G4DataVector::const_iterator j = data.begin();
  
      while (i != endI)
        {
          out.precision(10);
          out.width(15);
          out.setf(std::ofstream::left);
          out << ((*i)/unitEnergies) << ' ';
 
          out.precision(10);
          out.width(15);
          out.setf(std::ofstream::left);
          out << ((*j)/unitData) << std::endl;
          i++;
          j++;
        }
    }
  
      out.precision(10);
      out.width(15);
      out.setf(std::ofstream::left);
      out << -1.f << ' ';
 
      out.precision(10);
      out.width(15);
      out.setf(std::ofstream::left);
      out << -1.f << std::endl;
  
      k++;
    }
 
  out.precision(10);
  out.width(15);
  out.setf(std::ofstream::left);
  out << -2.f << ' ';
 
  out.precision(10);
  out.width(15);
  out.setf(std::ofstream::left);
  out << -2.f << std::endl;
 
  return true;
}
 
 
void G4ShellEMDataSet::CleanUpComponents(void)
{
  while (!components.empty())
    {
      if (components.back()) delete components.back();
      components.pop_back();
    }
}
 
 
G4String G4ShellEMDataSet::FullFileName(const G4String& fileName) const
{
  char* path = getenv("G4LEDATA");
  
  if (!path)
  {
    G4Exception("G4ShellEMDataSet::FullFileName()","em0006",JustWarning,"Please set G4LEDATA");
    return "";
  }
  
  std::ostringstream fullFileName;
 
  fullFileName << path << '/' << fileName << z << ".dat";
                      
  return G4String(fullFileName.str().c_str());
}