openmc-dev / openmc / 27854054909

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27854054909

Pull #3977

github

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Merge b8167d980 into 09ee8308d
Pull Request #3977: Fix several issues related to independent operator depletion

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80.0
/src/distribution_angle.cpp
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#include "openmc/distribution_angle.h"
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#include <cmath> // for abs, copysign










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#include "openmc/tensor.h"










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#include "openmc/endf.h"










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#include "openmc/hdf5_interface.h"










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#include "openmc/math_functions.h"










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#include "openmc/random_lcg.h"










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#include "openmc/search.h"










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#include "openmc/vector.h" // for vector










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namespace openmc {










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//==============================================================================










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// AngleDistribution implementation










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//==============================================================================










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AngleDistribution::AngleDistribution(hid_t group)





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{










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  // Get incoming energies










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  read_dataset(group, "energy", energy_);





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  int n_energy = energy_.size();





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  // Get outgoing energy distribution data










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  vector<int> offsets;





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  vector<int> interp;




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  hid_t dset = open_dataset(group, "mu");





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  read_attribute(dset, "offsets", offsets);





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  read_attribute(dset, "interpolation", interp);





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  tensor::Tensor<double> temp;





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  read_dataset(dset, temp);





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  close_dataset(dset);





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  for (int i = 0; i < n_energy; ++i) {





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    // Determine number of outgoing energies










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    int j = offsets[i];





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    int n;




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    if (i < n_energy - 1) {





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      n = offsets[i + 1] - j;




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    } else {










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      n = temp.shape(1) - j;





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    }










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    // Create and initialize tabular distribution










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    tensor::View<double> xs = temp.slice(0, tensor::range(j, j + n));





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    tensor::View<double> ps = temp.slice(1, tensor::range(j, j + n));





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    tensor::View<double> cs = temp.slice(2, tensor::range(j, j + n));





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    vector<double> x {xs.begin(), xs.end()};





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    vector<double> p {ps.begin(), ps.end()};





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    vector<double> c {cs.begin(), cs.end()};





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    // To get answers that match ACE data, for now we still use the tabulated










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    // CDF values that were passed through to the HDF5 library. At a later










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    // time, we can remove the CDF values from the HDF5 library and










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    // reconstruct them using the PDF










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    Tabular* mudist =





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      new Tabular {x.data(), p.data(), n, int2interp(interp[i]), c.data()};





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    distribution_.emplace_back(mudist);





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  }




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}




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double AngleDistribution::sample(double E, uint64_t* seed) const




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{










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  // Find energy bin and calculate interpolation factor










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  int i;




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  double r;




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  get_energy_index(energy_, E, i, r);




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  // Sample between the ith and (i+1)th bin










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  if (r > prn(seed))





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    ++i;




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  // Sample i-th distribution










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  double mu = distribution_[i]->sample(seed).first;




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  // Make sure mu is in range [-1,1] and return










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  if (std::abs(mu) > 1.0)





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    mu = std::copysign(1.0, mu);




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  return mu;




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}










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double AngleDistribution::evaluate(double E, double mu) const




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{










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  // Find energy bin and calculate interpolation factor










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  int i;




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  double r;




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  get_energy_index(energy_, E, i, r);




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  double pdf = 0.0;




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  if (r > 0.0)





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    pdf += r * distribution_[i + 1]->evaluate(mu);




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  if (r < 1.0)





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    pdf += (1.0 - r) * distribution_[i]->evaluate(mu);




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  return pdf;




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}










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} // namespace openmc
























    

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