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// ************************************************************************************************
//
// BornAgain: simulate and fit reflection and scattering
//
//! @file Sample/StandardSample/ParticleDistributionsBuilder.cpp
//! @brief Implements classes of with different types of particle distributions.
//!
//! @homepage http://www.bornagainproject.org
//! @license GNU General Public License v3 or higher (see COPYING)
//! @copyright Forschungszentrum Jülich GmbH 2018
//! @authors Scientific Computing Group at MLZ (see CITATION, AUTHORS)
//
// ************************************************************************************************
#include "Sample/StandardSample/ParticleDistributionsBuilder.h"
#include "Param/Distrib/Distributions.h"
#include "Sample/Aggregate/ParticleLayout.h"
#include "Sample/HardParticle/Cone.h"
#include "Sample/HardParticle/Cylinder.h"
#include "Sample/HardParticle/Polyhedra.h"
#include "Sample/HardParticle/Sphere.h"
#include "Sample/Multilayer/Layer.h"
#include "Sample/Multilayer/Sample.h"
#include "Sample/Particle/Particle.h"
#include "Sample/StandardSample/ReferenceMaterials.h"
Sample* ExemplarySamples::createCylindersWithSizeDistribution()
{
throw std::runtime_error(
"This sample used ParticleDistribution which is not supported any more.");
// #baRemoveParticleDistribution The following code is outdated. However, it is still kept,
// since it may be useful once the new particle distribution approach is implemented.
/*
const double height(5);
const double radius(5);
Layer vacuum_layer(refMat::Vacuum);
ParticleLayout particle_layout;
// preparing prototype of nano particle
double sigma = 0.2 * radius;
Cylinder p_ff_cylinder(radius, height);
Particle nano_particle(refMat::Particle, p_ff_cylinder);
// radius of nanoparticles will be sampled with gaussian probability
int n_samples(100);
// to get radius_min = average - 2.0*FWHM:
double n_sigma = 2.0 * 2.0 * std::sqrt(2.0 * std::log(2.0));
DistributionGaussian gauss(radius, sigma);
ParameterPattern pattern;
pattern.add("Particle").add("Cylinder").add("Radius");
ParameterDistribution par_distr(pattern.toStdString(), gauss, static_cast<size_t>(n_samples),
n_sigma);
ParticleDistribution particle_collection(nano_particle, par_distr);
particle_layout.addParticle(particle_collection);
vacuum_layer.addLayout(particle_layout);
auto* sample = new MultiLayer;
sample->addLayer(vacuum_layer);
return sample;
*/
}
// ----------------------------------------------------------------------------
//
// ----------------------------------------------------------------------------
Sample* ExemplarySamples::createTwoTypesCylindersDistribution()
{
throw std::runtime_error(
"This sample used ParticleDistribution which is not supported any more.");
// #baRemoveParticleDistribution The following code is outdated. However, it is still kept,
// since it may be useful once the new particle distribution approach is implemented.
/*
double m_radius1(5);
double m_radius2(10);
double m_height1(5);
double m_height2(10);
double m_sigma1_ratio(0.2);
double m_sigma2_ratio(0.02);
Layer vacuum_layer(refMat::Vacuum);
ParticleLayout particle_layout;
// preparing nano particles prototypes for seeding layer's particle_layout
Cylinder p_ff_cylinder1(m_radius1, m_height1);
Particle cylinder1(refMat::Particle, p_ff_cylinder1);
Cylinder p_ff_cylinder2(m_radius2, m_height2);
Particle cylinder2(refMat::Particle, p_ff_cylinder2);
// radius of nanoparticles will be sampled with gaussian probability
int nbins = 150;
double sigma1 = m_radius1 * m_sigma1_ratio;
double sigma2 = m_radius2 * m_sigma2_ratio;
// to have xmin=average-3*sigma
double n_sigma = 3.0;
DistributionGaussian gauss1(m_radius1, sigma1);
DistributionGaussian gauss2(m_radius2, sigma2);
// building distribution of nano particles
ParameterPattern pattern1;
pattern1.add("Particle").add("Cylinder").add("Radius");
ParameterDistribution par_distr1(pattern1.toStdString(), gauss1, nbins, n_sigma);
ParticleDistribution particle_collection1(cylinder1, par_distr1);
particle_layout.addParticle(particle_collection1, 0.95);
ParameterPattern pattern2;
pattern2.add("Particle").add("Cylinder").add("Radius");
ParameterDistribution par_distr2(pattern2.toStdString(), gauss2, static_cast<size_t>(nbins),
n_sigma);
ParticleDistribution particle_collection2(cylinder2, par_distr2);
particle_layout.addParticle(particle_collection2, 0.05);
vacuum_layer.addLayout(particle_layout);
auto* sample = new MultiLayer;
sample->addLayer(vacuum_layer);
return sample;
*/
}
// ----------------------------------------------------------------------------
Sample* ExemplarySamples::createRotatedPyramidsDistribution()
{
throw std::runtime_error(
"This sample used ParticleDistribution which is not supported any more.");
// #baRemoveParticleDistribution The following code is outdated. However, it is still kept,
// since it may be useful once the new particle distribution approach is implemented.
/*
double m_length(10);
double m_height(5);
double m_alpha(Units::deg2rad(54.73));
double m_zangle(45. * deg);
// particle
Pyramid4 ff_pyramid(m_length, m_height, m_alpha);
Particle pyramid(refMat::Particle, ff_pyramid);
pyramid.rotate(RotationZ(m_zangle));
// particle collection
DistributionGate gate(35.0 * deg, 55.0 * deg);
ParameterDistribution parameter_distr("/Particle/ZRotation/Angle", gate, 10, 2.0);
ParticleDistribution collection(pyramid, parameter_distr);
ParticleLayout particle_layout;
particle_layout.addParticle(collection);
// Multi layer
Layer vacuum_layer(refMat::Vacuum);
Layer substrate_layer(refMat::Substrate);
vacuum_layer.addLayout(particle_layout);
auto* sample = new MultiLayer;
sample->addLayer(vacuum_layer);
sample->addLayer(substrate_layer);
return sample;
*/
}
// ----------------------------------------------------------------------------
Sample* ExemplarySamples::createSpheresWithLimitsDistribution()
{
throw std::runtime_error(
"This sample used ParticleDistribution which is not supported any more.");
// #baRemoveParticleDistribution The following code is outdated. However, it is still kept,
// since it may be useful once the new particle distribution approach is implemented.
/*
// particle
Sphere ff(3.0);
Particle sphere(refMat::Particle, ff);
// particle collection
DistributionGaussian gauss(3.0, 1.0);
ParameterDistribution parameter_distr("/Particle/Sphere/Radius", gauss, 10, 20.0,
RealLimits::limited(2.0, 4.0));
ParticleDistribution collection(sphere, parameter_distr);
ParticleLayout particle_layout;
particle_layout.addParticle(collection);
// Multi layer
Layer vacuum_layer(refMat::Vacuum);
Layer substrate_layer(refMat::Substrate);
vacuum_layer.addLayout(particle_layout);
auto* sample = new MultiLayer;
sample->addLayer(vacuum_layer);
sample->addLayer(substrate_layer);
return sample;
*/
}
// ----------------------------------------------------------------------------
Sample* ExemplarySamples::createConesWithLimitsDistribution()
{
throw std::runtime_error(
"This sample used ParticleDistribution which is not supported any more.");
// #baRemoveParticleDistribution The following code is outdated. However, it is still kept,
// since it may be useful once the new particle distribution approach is implemented.
/*
// particle
Cone ff(10.0, 13.0, 60.0 * deg);
Particle cone(refMat::Particle, ff);
// particle collection
DistributionGaussian gauss(60.0 * deg, 6.0 * deg);
ParameterDistribution parameter_distr(
"/Particle/Cone/Alpha", gauss, 5, 20.0,
RealLimits::limited(55.0 * deg, 65.0 * deg));
ParticleDistribution collection(cone, parameter_distr);
ParticleLayout particle_layout;
particle_layout.addParticle(collection);
// Multi layer
Layer vacuum_layer(refMat::Vacuum);
Layer substrate_layer(refMat::Substrate);
vacuum_layer.addLayout(particle_layout);
auto* sample = new MultiLayer;
sample->addLayer(vacuum_layer);
sample->addLayer(substrate_layer);
return sample;
*/
}
Sample* ExemplarySamples::createLinkedBoxDistribution()
{
throw std::runtime_error(
"This sample used ParticleDistribution which is not supported any more.");
// #baRemoveParticleDistribution The following code is outdated. However, it is still kept,
// since it may be useful once the new particle distribution approach is implemented.
/*
// particle
Box ff(40.0, 30.0, 10.0);
Particle box(refMat::Particle, ff);
// particle collection
DistributionGate gate(10.0, 70.0);
ParameterDistribution parameter_distr("/Particle/Box/Length", gate, 3, 0.0,
RealLimits::limited(1.0, 200.0));
parameter_distr.linkParameter("/Particle/Box/Width").linkParameter("/Particle/Box/Height");
ParticleDistribution collection(box, parameter_distr);
ParticleLayout particle_layout;
particle_layout.addParticle(collection);
particle_layout.setTotalParticleSurfaceDensity(1e-4);
// Multi layer
Layer vacuum_layer(refMat::Vacuum);
Layer substrate_layer(refMat::Substrate);
vacuum_layer.addLayout(particle_layout);
auto* sample = new MultiLayer;
sample->addLayer(vacuum_layer);
sample->addLayer(substrate_layer);
return sample;
*/
}
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