BornAgain  1.18.0
Simulate and fit neutron and x-ray scattering at grazing incidence
Public Member Functions | Static Public Member Functions | Protected Attributes | Private Member Functions | Private Attributes | List of all members
MisesFisherGaussPeakShape Class Reference
Sample internals
Inheritance diagram for MisesFisherGaussPeakShape:
Collaboration diagram for MisesFisherGaussPeakShape:

Public Member Functions

 MisesFisherGaussPeakShape (double max_intensity, double radial_size, kvector_t zenith, double kappa_1, double kappa_2)
 
 ~MisesFisherGaussPeakShape () override
 
MisesFisherGaussPeakShapeclone () const override
 
void accept (INodeVisitor *visitor) const override
 
double evaluate (const kvector_t q, const kvector_t q_lattice_point) const override
 
bool angularDisorder () const override
 
virtual const Materialmaterial () const
 
std::vector< const Material * > containedMaterials () const
 
virtual void transferToCPP ()
 
virtual std::string treeToString () const
 
void registerChild (INode *node)
 
virtual std::vector< const INode * > getChildren () const
 
virtual void setParent (const INode *newParent)
 
const INodeparent () const
 
INodeparent ()
 
int copyNumber (const INode *node) const
 
std::string displayName () const
 
ParameterPoolcreateParameterTree () const
 
ParameterPoolparameterPool () const
 
std::string parametersToString () const
 
RealParameterregisterParameter (const std::string &name, double *parpointer)
 
void registerVector (const std::string &base_name, kvector_t *p_vec, const std::string &units="nm")
 
void setParameterValue (const std::string &name, double value)
 
void setVectorValue (const std::string &base_name, kvector_t value)
 
RealParameterparameter (const std::string &name) const
 
virtual void onChange ()
 
void removeParameter (const std::string &name)
 
void removeVector (const std::string &base_name)
 
void setName (const std::string &name)
 
const std::string & getName () const
 

Static Public Member Functions

static std::string XComponentName (const std::string &base_name)
 
static std::string YComponentName (const std::string &base_name)
 
static std::string ZComponentName (const std::string &base_name)
 

Protected Attributes

const size_t m_NP
 
std::vector< double > m_P
 

Private Member Functions

double integrand (double phi) const
 

Private Attributes

double m_max_intensity
 
double m_radial_size
 
kvector_t m_zenith
 
double m_kappa_1
 
double m_kappa_2
 
double m_theta
 
double m_phi
 
kvector_t m_ux
 
kvector_t m_uy
 
kvector_t m_up
 
const INodem_parent {nullptr}
 
std::string m_name
 
std::unique_ptr< ParameterPoolm_pool
 

Detailed Description

A peak shape that is Gaussian in the radial direction and a convolution of a Mises-Fisher distribution with a Mises distribution on the two-sphere.

Definition at line 141 of file IPeakShape.h.

Constructor & Destructor Documentation

◆ MisesFisherGaussPeakShape()

MisesFisherGaussPeakShape::MisesFisherGaussPeakShape ( double  max_intensity,
double  radial_size,
kvector_t  zenith,
double  kappa_1,
double  kappa_2 
)

Definition at line 213 of file IPeakShape.cpp.

216  : m_max_intensity(max_intensity), m_radial_size(radial_size), m_zenith(zenith.unit()),
217  m_kappa_1(kappa_1), m_kappa_2(kappa_2)
218 {
219 }
BasicVector3D::unit
BasicVector3D< T > unit() const
Returns unit vector in direction of this. Throws for null vector.

Referenced by clone().

◆ ~MisesFisherGaussPeakShape()

MisesFisherGaussPeakShape::~MisesFisherGaussPeakShape ( )
overridedefault

Member Function Documentation

◆ clone()

MisesFisherGaussPeakShape * MisesFisherGaussPeakShape::clone ( ) const
overridevirtual

Returns a clone of this ISample object.

Implements IPeakShape.

Definition at line 223 of file IPeakShape.cpp.

224 {
225  return new MisesFisherGaussPeakShape(m_max_intensity, m_radial_size, m_zenith, m_kappa_1,
226  m_kappa_2);
227 }
MisesFisherGaussPeakShape::MisesFisherGaussPeakShape
MisesFisherGaussPeakShape(double max_intensity, double radial_size, kvector_t zenith, double kappa_1, double kappa_2)
Definition: IPeakShape.cpp:213

References m_kappa_1, m_kappa_2, m_max_intensity, m_radial_size, m_zenith, and MisesFisherGaussPeakShape().

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◆ accept()

void MisesFisherGaussPeakShape::accept ( INodeVisitor visitor) const
inlineoverridevirtual

Calls the INodeVisitor's visit method.

Implements INode.

Definition at line 150 of file IPeakShape.h.

150 { visitor->visit(this); }
INodeVisitor::visit
virtual void visit(const BasicLattice *)
Definition: INodeVisitor.h:154

References INodeVisitor::visit().

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◆ evaluate()

double MisesFisherGaussPeakShape::evaluate ( const kvector_t  q,
const kvector_t  q_lattice_point 
) const
overridevirtual

Evaluates the peak shape at q from a reciprocal lattice point at q_lattice_point.

Implements IPeakShape.

Definition at line 229 of file IPeakShape.cpp.

230 {
231  // radial part
232  double q_r = q.mag();
233  double q_lat_r = q_lattice_point.mag();
234  double dq2 = (q_r - q_lat_r) * (q_r - q_lat_r);
235  if (q_lat_r == 0.0 || q_r == 0.0)
236  return m_max_intensity * Gauss3D(dq2, m_radial_size);
237  double norm_factor = m_radial_size / std::sqrt(M_TWOPI);
238  double radial_part = norm_factor * std::exp(-dq2 * m_radial_size * m_radial_size / 2.0);
239  // angular part
240  m_uy = m_zenith.cross(q_lattice_point);
241  kvector_t zxq = m_zenith.cross(q);
242  m_up = q_lattice_point.unit();
243  if (m_uy.mag2() <= 0.0 || zxq.mag2() <= 0.0) {
244  double x = q.unit().dot(m_up);
245  double angular_part = FisherDistribution(x, m_kappa_1);
246  return m_max_intensity * radial_part * angular_part;
247  }
248  m_uy = m_uy.unit();
249  m_ux = m_uy.cross(m_zenith);
250  kvector_t q_ortho = q - q.dot(m_zenith) * m_zenith;
251  m_phi = std::acos(q_ortho.unit().dot(m_ux));
252  m_theta = std::acos(q.unit().dot(m_zenith));
253  double pre_1 = FisherPrefactor(m_kappa_1);
254  double pre_2 = MisesPrefactor(m_kappa_2);
255  double integral = RealIntegrator().integrate(
256  [&](double phi) -> double { return integrand(phi); }, 0.0, M_TWOPI);
257  return m_max_intensity * radial_part * pre_1 * pre_2 * integral;
258 }
M_TWOPI
#define M_TWOPI
Definition: MathConstants.h:49
BasicVector3D::mag2
double mag2() const
Returns magnitude squared of the vector.
Definition: BasicVector3D.h:129
BasicVector3D::dot
auto dot(const BasicVector3D< U > &v) const
Returns dot product of vectors (antilinear in the first [=self] argument).
Definition: BasicVector3D.h:310
BasicVector3D::mag
double mag() const
Returns magnitude of the vector.
Definition: BasicVector3D.h:132
BasicVector3D::cross
auto cross(const BasicVector3D< U > &v) const
Returns cross product of vectors (linear in both arguments).
Definition: BasicVector3D.h:321
MisesFisherGaussPeakShape::integrand
double integrand(double phi) const
Definition: IPeakShape.cpp:260
RealIntegrator
To integrate a real function of a real variable.
Definition: Integrator.h:24
RealIntegrator::integrate
double integrate(const std::function< double(double)> &f, double lmin, double lmax)
Definition: Integrator.cpp:27
anonymous_namespace{IPeakShape.cpp}::FisherPrefactor
double FisherPrefactor(double kappa)
Definition: IPeakShape.cpp:39
anonymous_namespace{IPeakShape.cpp}::Gauss3D
double Gauss3D(double q2, double domainsize)
Definition: IPeakShape.cpp:63
anonymous_namespace{IPeakShape.cpp}::MisesPrefactor
double MisesPrefactor(double kappa)
Definition: IPeakShape.cpp:51
anonymous_namespace{IPeakShape.cpp}::FisherDistribution
double FisherDistribution(double x, double kappa)
Definition: IPeakShape.cpp:27

References BasicVector3D< T >::cross(), BasicVector3D< T >::dot(), anonymous_namespace{IPeakShape.cpp}::FisherDistribution(), anonymous_namespace{IPeakShape.cpp}::FisherPrefactor(), anonymous_namespace{IPeakShape.cpp}::Gauss3D(), integrand(), RealIntegrator::integrate(), m_kappa_1, m_kappa_2, m_max_intensity, m_phi, m_radial_size, m_theta, M_TWOPI, m_up, m_ux, m_uy, m_zenith, BasicVector3D< T >::mag(), BasicVector3D< T >::mag2(), anonymous_namespace{IPeakShape.cpp}::MisesPrefactor(), and BasicVector3D< T >::unit().

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◆ angularDisorder()

bool MisesFisherGaussPeakShape::angularDisorder ( ) const
inlineoverridevirtual

Indicates if the peak shape encodes angular disorder, in which case all peaks in a spherical shell are needed.

Reimplemented from IPeakShape.

Definition at line 154 of file IPeakShape.h.

154 { return true; }

◆ integrand()

double MisesFisherGaussPeakShape::integrand ( double  phi) const
private

Definition at line 260 of file IPeakShape.cpp.

261 {
262  kvector_t u_q = std::sin(m_theta) * std::cos(phi) * m_ux
263  + std::sin(m_theta) * std::sin(phi) * m_uy + std::cos(m_theta) * m_zenith;
264  double fisher = std::exp(m_kappa_1 * (u_q.dot(m_up) - 1.0));
265  double vonmises = std::exp(m_kappa_2 * (std::cos(m_phi - phi) - 1.0));
266  return fisher * vonmises;
267 }

References BasicVector3D< T >::dot(), m_kappa_1, m_kappa_2, m_phi, m_theta, m_up, m_ux, m_uy, and m_zenith.

Referenced by evaluate().

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◆ material()

virtual const Material* ISample::material ( ) const
inlinevirtualinherited

Returns nullptr, unless overwritten to return a specific material.

Reimplemented in Particle, and Layer.

Definition at line 37 of file ISample.h.

37 { return nullptr; }

Referenced by ISample::containedMaterials(), FormFactorCrystal::setAmbientMaterial(), FormFactorBAPol::setAmbientMaterial(), FormFactorDecoratorMaterial::setAmbientMaterial(), FormFactorDWBA::setAmbientMaterial(), FormFactorDWBAPol::setAmbientMaterial(), IFormFactorDecorator::setAmbientMaterial(), FormFactorCoreShell::setAmbientMaterial(), FormFactorWeighted::setAmbientMaterial(), and FormFactorDecoratorMaterial::setMaterial().

◆ containedMaterials()

std::vector< const Material * > ISample::containedMaterials ( ) const
inherited

Returns set of unique materials contained in this ISample.

Definition at line 23 of file ISample.cpp.

24 {
25  std::vector<const Material*> result;
26  if (const Material* p_material = material())
27  result.push_back(p_material);
28  for (auto child : getChildren()) {
29  if (const ISample* sample = dynamic_cast<const ISample*>(child)) {
30  for (const Material* p_material : sample->containedMaterials())
31  result.push_back(p_material);
32  }
33  }
34  return result;
35 }
INode::getChildren
virtual std::vector< const INode * > getChildren() const
Returns a vector of children (const).
Definition: INode.cpp:64
ISample
Pure virtual base class for sample components and properties related to scattering.
Definition: ISample.h:28
ISample::material
virtual const Material * material() const
Returns nullptr, unless overwritten to return a specific material.
Definition: ISample.h:37
Material
A wrapper for underlying material implementation.
Definition: Material.h:29

References INode::getChildren(), and ISample::material().

Referenced by MultiLayerUtils::ContainsCompatibleMaterials(), anonymous_namespace{ProcessedSample.cpp}::ContainsMagneticMaterial(), and SampleToPython::initLabels().

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◆ transferToCPP()

virtual void ICloneable::transferToCPP ( )
inlinevirtualinherited

Used for Python overriding of clone (see swig/tweaks.py)

Definition at line 34 of file ICloneable.h.

◆ treeToString()

std::string INode::treeToString ( ) const
virtualinherited

Returns multiline string representing tree structure below the node.

Definition at line 53 of file INode.cpp.

54 {
55  return NodeUtils::nodeToString(*this);
56 }
NodeUtils::nodeToString
std::string nodeToString(const INode &node)
Returns multiline string representing tree structure starting from given node.
Definition: NodeUtils.cpp:67

References NodeUtils::nodeToString().

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◆ registerChild()

void INode::registerChild ( INode node)
inherited

Definition at line 58 of file INode.cpp.

59 {
60  ASSERT(node);
61  node->setParent(this);
62 }
ASSERT
#define ASSERT(condition)
Definition: Assert.h:26
INode::setParent
virtual void setParent(const INode *newParent)
Definition: INode.cpp:69

References ASSERT, and INode::setParent().

Referenced by ParticleLayout::addAndRegisterAbstractParticle(), ParticleCoreShell::addAndRegisterCore(), MultiLayer::addAndRegisterInterface(), MultiLayer::addAndRegisterLayer(), ParticleCoreShell::addAndRegisterShell(), Layer::addLayout(), ParticleComposition::addParticlePointer(), Beam::Beam(), Crystal::Crystal(), IDetector::IDetector(), Simulation::initialize(), MesoCrystal::initialize(), Instrument::Instrument(), Beam::operator=(), Instrument::operator=(), Particle::Particle(), ParticleDistribution::ParticleDistribution(), IParticle::rotate(), ParticleLayout::setAndRegisterInterferenceFunction(), Simulation::setBackground(), InterferenceFunction1DLattice::setDecayFunction(), InterferenceFunction2DLattice::setDecayFunction(), Instrument::setDetector(), IDetector::setDetectorResolution(), Beam::setFootprintFactor(), Particle::setFormFactor(), InterferenceFunctionFinite3DLattice::setLattice(), InterferenceFunction2DLattice::setLattice(), InterferenceFunction2DParaCrystal::setLattice(), InterferenceFunction2DSuperLattice::setLattice(), InterferenceFunctionFinite2DLattice::setLattice(), InterferenceFunctionRadialParaCrystal::setProbabilityDistribution(), InterferenceFunction2DParaCrystal::setProbabilityDistributions(), ConvolutionDetectorResolution::setResolutionFunction(), IParticle::setRotation(), LayerInterface::setRoughness(), and InterferenceFunction2DSuperLattice::setSubstructureIFF().

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◆ getChildren()

std::vector< const INode * > INode::getChildren ( ) const
virtualinherited

Returns a vector of children (const).

Reimplemented in ParticleDistribution, ParticleCoreShell, ParticleComposition, Particle, MesoCrystal, Crystal, Layer, InterferenceFunctionRadialParaCrystal, InterferenceFunctionFinite3DLattice, InterferenceFunctionFinite2DLattice, InterferenceFunction3DLattice, InterferenceFunction2DSuperLattice, InterferenceFunction2DParaCrystal, InterferenceFunction2DLattice, InterferenceFunction1DLattice, SampleProvider, IParticle, IDetector, Beam, MultiLayer, ParticleLayout, LayerInterface, ConvolutionDetectorResolution, Instrument, and Simulation.

Definition at line 64 of file INode.cpp.

65 {
66  return {};
67 }

Referenced by INodeUtils::AllDescendantsOfType(), INodeUtils::ChildNodesOfType(), ISample::containedMaterials(), INode::copyNumber(), PostorderStrategy::first(), PreorderStrategy::next(), and PostorderStrategy::next().

◆ setParent()

void INode::setParent ( const INode newParent)
virtualinherited

Reimplemented in SampleProvider.

Definition at line 69 of file INode.cpp.

70 {
71  m_parent = newParent;
72 }
INode::m_parent
const INode * m_parent
Definition: INode.h:81

References INode::m_parent.

Referenced by INode::registerChild(), SampleProvider::setBuilder(), and SampleProvider::setParent().

◆ parent() [1/2]

const INode * INode::parent ( ) const
inherited

Definition at line 74 of file INode.cpp.

75 {
76  return m_parent;
77 }

References INode::m_parent.

Referenced by INode::copyNumber(), INode::createParameterTree(), NodeUtils::nodePath(), Lattice2D::onChange(), SampleProvider::setBuilder(), SampleProvider::setParent(), and SampleProvider::setSample().

◆ parent() [2/2]

INode * INode::parent ( )
inherited

Definition at line 79 of file INode.cpp.

80 {
81  return const_cast<INode*>(m_parent);
82 }
INode
Base class for tree-like structures containing parameterized objects.
Definition: INode.h:49

References INode::m_parent.

◆ copyNumber()

int INode::copyNumber ( const INode node) const
inherited

Returns copyNumber of child, which takes into account existence of children with same name.

Definition at line 84 of file INode.cpp.

85 {
86  if (node->parent() != this)
87  return -1;
88 
89  int result(-1), count(0);
90  for (auto child : getChildren()) {
91 
92  if (child == nullptr)
93  throw std::runtime_error("INode::copyNumber() -> Error. Nullptr as child.");
94 
95  if (child == node)
96  result = count;
97 
98  if (child->getName() == node->getName())
99  ++count;
100  }
101 
102  return count > 1 ? result : -1;
103 }
INode::parent
const INode * parent() const
Definition: INode.cpp:74
IParameterized::getName
const std::string & getName() const
Definition: IParameterized.h:69

References INode::getChildren(), IParameterized::getName(), and INode::parent().

Referenced by INode::displayName().

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◆ displayName()

std::string INode::displayName ( ) const
inherited

Returns display name, composed from the name of node and it's copy number.

Definition at line 105 of file INode.cpp.

106 {
107  std::string result = getName();
108  if (m_parent) {
109  int index = m_parent->copyNumber(this);
110  if (index >= 0)
111  result = result + std::to_string(index);
112  }
113  return result;
114 }
INode::copyNumber
int copyNumber(const INode *node) const
Returns copyNumber of child, which takes into account existence of children with same name.
Definition: INode.cpp:84

References INode::copyNumber(), IParameterized::getName(), and INode::m_parent.

Referenced by NodeUtils::nodePath(), and anonymous_namespace{NodeUtils.cpp}::nodeString().

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◆ createParameterTree()

ParameterPool * INode::createParameterTree ( ) const
virtualinherited

Creates new parameter pool, with all local parameters and those of its children.

Reimplemented from IParameterized.

Definition at line 116 of file INode.cpp.

117 {
118  std::unique_ptr<ParameterPool> result(new ParameterPool);
119 
120  NodeIterator<PreorderStrategy> it(this);
121  it.first();
122  while (!it.isDone()) {
123  const INode* child = it.getCurrent();
124  const std::string path = NodeUtils::nodePath(*child, this->parent()) + "/";
125  child->parameterPool()->copyToExternalPool(path, result.get());
126  it.next();
127  }
128 
129  return result.release();
130 }
IParameterized::parameterPool
ParameterPool * parameterPool() const
Returns pointer to the parameter pool.
Definition: IParameterized.h:38
NodeIterator
Iterator through INode tree of objects.
Definition: NodeIterator.h:90
ParameterPool
Container with parameters for IParameterized object.
Definition: ParameterPool.h:30
ParameterPool::copyToExternalPool
void copyToExternalPool(const std::string &prefix, ParameterPool *other_pool) const
Copies parameters of given pool to other pool, prepeding prefix to the parameter names.
Definition: ParameterPool.cpp:72
NodeUtils::nodePath
std::string nodePath(const INode &node, const INode *root=nullptr)
Returns path composed of node's displayName, with respect to root node.
Definition: NodeUtils.cpp:82

References ParameterPool::copyToExternalPool(), NodeIterator< Strategy >::first(), NodeIterator< Strategy >::getCurrent(), NodeIterator< Strategy >::isDone(), NodeIterator< Strategy >::next(), NodeUtils::nodePath(), IParameterized::parameterPool(), and INode::parent().

Referenced by ParticleDistribution::generateParticles(), Simulation::runSimulation(), DepthProbeSimulation::validateParametrization(), OffSpecSimulation::validateParametrization(), and SpecularSimulation::validateParametrization().

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◆ parameterPool()

ParameterPool* IParameterized::parameterPool ( ) const
inlineinherited

Returns pointer to the parameter pool.

Definition at line 38 of file IParameterized.h.

38 { return m_pool.get(); } // has non-const usages!
IParameterized::m_pool
std::unique_ptr< ParameterPool > m_pool
parameter pool (kind of pointer-to-implementation)
Definition: IParameterized.h:73

References IParameterized::m_pool.

Referenced by pyfmt2::argumentList(), SampleBuilderNode::borrow_builder_parameters(), INode::createParameterTree(), INode::INode(), IParameterized::IParameterized(), anonymous_namespace{NodeUtils.cpp}::poolToString(), SampleBuilderNode::reset(), and IDistribution1D::setUnits().

◆ parametersToString()

std::string IParameterized::parametersToString ( ) const
inherited

Returns multiline string representing available parameters.

Definition at line 40 of file IParameterized.cpp.

41 {
42  std::ostringstream result;
43  std::unique_ptr<ParameterPool> P_pool(createParameterTree());
44  result << *P_pool << "\n";
45  return result.str();
46 }
IParameterized::createParameterTree
virtual ParameterPool * createParameterTree() const
Creates new parameter pool, with all local parameters and those of its children.
Definition: IParameterized.cpp:33

References IParameterized::createParameterTree().

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◆ registerParameter()

RealParameter & IParameterized::registerParameter ( const std::string &  name,
double *  parpointer 
)
inherited

Definition at line 48 of file IParameterized.cpp.

49 {
50  return m_pool->addParameter(
51  new RealParameter(name, data, getName(), [&]() -> void { onChange(); }));
52 }
IParameterized::onChange
virtual void onChange()
Action to be taken in inherited class when a parameter has changed.
Definition: IParameterized.h:58
RealParameter
Wraps a parameter of type double.
Definition: RealParameter.h:32

References IParameterized::getName(), IParameterized::m_pool, and IParameterized::onChange().

Referenced by BasicLattice::BasicLattice(), Beam::Beam(), CylindersInBABuilder::CylindersInBABuilder(), DetectionProperties::DetectionProperties(), HexagonalLattice::HexagonalLattice(), IInterferenceFunction::IInterferenceFunction(), INode::INode(), InterferenceFunction1DLattice::InterferenceFunction1DLattice(), InterferenceFunction2DParaCrystal::InterferenceFunction2DParaCrystal(), InterferenceFunctionHardDisk::InterferenceFunctionHardDisk(), InterferenceFunctionRadialParaCrystal::InterferenceFunctionRadialParaCrystal(), InterferenceFunctionTwin::InterferenceFunctionTwin(), Lattice2D::Lattice2D(), LayerRoughness::LayerRoughness(), MultiLayer::MultiLayer(), ParticleDistribution::ParticleDistribution(), PlainMultiLayerBySLDBuilder::PlainMultiLayerBySLDBuilder(), IParticle::registerAbundance(), ParticleLayout::registerParticleDensity(), Layer::registerThickness(), IParameterized::registerVector(), ParticleLayout::registerWeight(), ResolutionFunction2DGaussian::ResolutionFunction2DGaussian(), ResonatorBuilder::ResonatorBuilder(), Lattice2D::setRotationEnabled(), SquareLattice::SquareLattice(), and TriangularRippleBuilder::TriangularRippleBuilder().

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◆ registerVector()

void IParameterized::registerVector ( const std::string &  base_name,
kvector_t p_vec,
const std::string &  units = "nm" 
)
inherited

Definition at line 54 of file IParameterized.cpp.

56 {
57  registerParameter(XComponentName(base_name), &((*p_vec)[0])).setUnit(units);
58  registerParameter(YComponentName(base_name), &((*p_vec)[1])).setUnit(units);
59  registerParameter(ZComponentName(base_name), &((*p_vec)[2])).setUnit(units);
60 }
IParameterized::registerParameter
RealParameter & registerParameter(const std::string &name, double *parpointer)
Definition: IParameterized.cpp:48
IParameterized::XComponentName
static std::string XComponentName(const std::string &base_name)
Definition: IParameterized.cpp:100
IParameterized::YComponentName
static std::string YComponentName(const std::string &base_name)
Definition: IParameterized.cpp:105
IParameterized::ZComponentName
static std::string ZComponentName(const std::string &base_name)
Definition: IParameterized.cpp:110
RealParameter::setUnit
RealParameter & setUnit(const std::string &name)
Definition: RealParameter.cpp:97

References IParameterized::registerParameter(), RealParameter::setUnit(), IParameterized::XComponentName(), IParameterized::YComponentName(), and IParameterized::ZComponentName().

Referenced by Beam::Beam(), DetectionProperties::DetectionProperties(), InterferenceFunctionTwin::InterferenceFunctionTwin(), MultiLayer::MultiLayer(), Lattice::registerBasisVectors(), and IParticle::registerPosition().

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◆ setParameterValue()

void IParameterized::setParameterValue ( const std::string &  name,
double  value 
)
inherited

Definition at line 62 of file IParameterized.cpp.

63 {
64  if (name.find('*') == std::string::npos && name.find('/') == std::string::npos) {
65  m_pool->setParameterValue(name, value);
66  } else {
67  std::unique_ptr<ParameterPool> P_pool{createParameterTree()};
68  if (name.find('*') != std::string::npos)
69  P_pool->setMatchedParametersValue(name, value);
70  else
71  P_pool->setParameterValue(name, value);
72  }
73 }
ParameterPool::setMatchedParametersValue
int setMatchedParametersValue(const std::string &wildcards, double value)
Sets value of the nonzero parameters that match pattern ('*' allowed), or throws.
Definition: ParameterPool.cpp:147

References IParameterized::createParameterTree(), IParameterized::m_pool, and ParameterPool::setMatchedParametersValue().

Referenced by AsymRippleBuilder::buildSample(), and IParameterized::setVectorValue().

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◆ setVectorValue()

void IParameterized::setVectorValue ( const std::string &  base_name,
kvector_t  value 
)
inherited

Definition at line 75 of file IParameterized.cpp.

76 {
77  setParameterValue(XComponentName(base_name), value.x());
78  setParameterValue(YComponentName(base_name), value.y());
79  setParameterValue(ZComponentName(base_name), value.z());
80 }
BasicVector3D::z
T z() const
Returns z-component in cartesian coordinate system.
Definition: BasicVector3D.h:68
BasicVector3D::y
T y() const
Returns y-component in cartesian coordinate system.
Definition: BasicVector3D.h:66
BasicVector3D::x
T x() const
Returns x-component in cartesian coordinate system.
Definition: BasicVector3D.h:64
IParameterized::setParameterValue
void setParameterValue(const std::string &name, double value)
Definition: IParameterized.cpp:62

References IParameterized::setParameterValue(), BasicVector3D< T >::x(), IParameterized::XComponentName(), BasicVector3D< T >::y(), IParameterized::YComponentName(), BasicVector3D< T >::z(), and IParameterized::ZComponentName().

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◆ parameter()

RealParameter * IParameterized::parameter ( const std::string &  name) const
inherited

Returns parameter with given 'name'.

Definition at line 83 of file IParameterized.cpp.

84 {
85  return m_pool->parameter(name);
86 }

References IParameterized::m_pool.

Referenced by DepthProbeSimulation::initialize(), SpecularSimulation::initialize(), IParticle::registerAbundance(), Lattice::registerBasisVectors(), ParticleLayout::registerParticleDensity(), IParticle::registerPosition(), Layer::registerThickness(), Lattice2D::setRotationEnabled(), and DistributionLogNormal::setUnits().

◆ onChange()

virtual void IParameterized::onChange ( )
inlinevirtualinherited

Action to be taken in inherited class when a parameter has changed.

Reimplemented in IProfileRipple, FormFactorSphereLogNormalRadius, FormFactorSphereGaussianRadius, FormFactorGaussSphere, ISawtoothRipple, ICosineRipple, IProfileRectangularRipple, FormFactorTruncatedSpheroid, FormFactorTruncatedSphere, FormFactorTruncatedCube, FormFactorTetrahedron, FormFactorPyramid, FormFactorPrism6, FormFactorPrism3, FormFactorLongBoxLorentz, FormFactorLongBoxGauss, FormFactorIcosahedron, FormFactorHollowSphere, FormFactorHemiEllipsoid, FormFactorFullSpheroid, FormFactorFullSphere, FormFactorEllipsoidalCylinder, FormFactorDodecahedron, FormFactorCylinder, FormFactorCuboctahedron, FormFactorCone6, FormFactorCone, FormFactorCantellatedCube, FormFactorBox, FormFactorAnisoPyramid, InterferenceFunction3DLattice, InterferenceFunction2DLattice, Lattice, and Lattice2D.

Definition at line 58 of file IParameterized.h.

58 {}

Referenced by Lattice2D::onChange(), and IParameterized::registerParameter().

◆ removeParameter()

void IParameterized::removeParameter ( const std::string &  name)
inherited

Definition at line 88 of file IParameterized.cpp.

89 {
90  m_pool->removeParameter(name);
91 }

References IParameterized::m_pool.

Referenced by IParticle::registerAbundance(), ParticleLayout::registerParticleDensity(), Layer::registerThickness(), IParameterized::removeVector(), and Lattice2D::setRotationEnabled().

◆ removeVector()

void IParameterized::removeVector ( const std::string &  base_name)
inherited

Definition at line 93 of file IParameterized.cpp.

94 {
95  removeParameter(XComponentName(base_name));
96  removeParameter(YComponentName(base_name));
97  removeParameter(ZComponentName(base_name));
98 }
IParameterized::removeParameter
void removeParameter(const std::string &name)
Definition: IParameterized.cpp:88

References IParameterized::removeParameter(), IParameterized::XComponentName(), IParameterized::YComponentName(), and IParameterized::ZComponentName().

Referenced by IParticle::registerPosition().

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◆ XComponentName()

std::string IParameterized::XComponentName ( const std::string &  base_name)
staticinherited

Definition at line 100 of file IParameterized.cpp.

101 {
102  return base_name + "X";
103 }

Referenced by Lattice::registerBasisVectors(), IParticle::registerPosition(), IParameterized::registerVector(), IParameterized::removeVector(), and IParameterized::setVectorValue().

◆ YComponentName()

std::string IParameterized::YComponentName ( const std::string &  base_name)
staticinherited

Definition at line 105 of file IParameterized.cpp.

106 {
107  return base_name + "Y";
108 }

Referenced by IParameterized::registerVector(), IParameterized::removeVector(), and IParameterized::setVectorValue().

◆ ZComponentName()

std::string IParameterized::ZComponentName ( const std::string &  base_name)
staticinherited

Definition at line 110 of file IParameterized.cpp.

111 {
112  return base_name + "Z";
113 }

Referenced by IParameterized::registerVector(), IParameterized::removeVector(), and IParameterized::setVectorValue().

◆ setName()

void IParameterized::setName ( const std::string &  name)
inlineinherited

Definition at line 68 of file IParameterized.h.

68 { m_name = name; }
IParameterized::m_name
std::string m_name
Definition: IParameterized.h:72

References IParameterized::m_name.

Referenced by BasicLattice::BasicLattice(), Beam::Beam(), Layer::clone(), ConvolutionDetectorResolution::ConvolutionDetectorResolution(), LayersWithAbsorptionBuilder::createSampleByIndex(), Basic2DParaCrystalBuilder::createSampleByIndex(), ParticleInVacuumBuilder::createSampleByIndex(), SimpleMagneticRotationBuilder::createSampleByIndex(), Crystal::Crystal(), DetectionProperties::DetectionProperties(), DistributionHandler::DistributionHandler(), FormFactorBAPol::FormFactorBAPol(), FormFactorCoreShell::FormFactorCoreShell(), FormFactorCrystal::FormFactorCrystal(), FormFactorDecoratorMaterial::FormFactorDecoratorMaterial(), FormFactorDecoratorPositionFactor::FormFactorDecoratorPositionFactor(), FormFactorDecoratorRotation::FormFactorDecoratorRotation(), FormFactorDWBA::FormFactorDWBA(), FormFactorDWBAPol::FormFactorDWBAPol(), FormFactorWeighted::FormFactorWeighted(), HexagonalLattice::HexagonalLattice(), IDetector::IDetector(), DepthProbeSimulation::initialize(), GISASSimulation::initialize(), OffSpecSimulation::initialize(), SpecularSimulation::initialize(), SpecularDetector1D::initialize(), MesoCrystal::initialize(), Particle::initialize(), ParticleComposition::initialize(), INode::INode(), Instrument::Instrument(), InterferenceFunction1DLattice::InterferenceFunction1DLattice(), InterferenceFunction2DLattice::InterferenceFunction2DLattice(), InterferenceFunction2DParaCrystal::InterferenceFunction2DParaCrystal(), InterferenceFunction2DSuperLattice::InterferenceFunction2DSuperLattice(), InterferenceFunction3DLattice::InterferenceFunction3DLattice(), InterferenceFunctionFinite2DLattice::InterferenceFunctionFinite2DLattice(), InterferenceFunctionFinite3DLattice::InterferenceFunctionFinite3DLattice(), InterferenceFunctionHardDisk::InterferenceFunctionHardDisk(), InterferenceFunctionNone::InterferenceFunctionNone(), InterferenceFunctionRadialParaCrystal::InterferenceFunctionRadialParaCrystal(), InterferenceFunctionTwin::InterferenceFunctionTwin(), ISampleBuilder::ISampleBuilder(), IsGISAXSDetector::IsGISAXSDetector(), Lattice::Lattice(), Layer::Layer(), LayerInterface::LayerInterface(), LayerRoughness::LayerRoughness(), MultiLayer::MultiLayer(), Beam::operator=(), SampleBuilderNode::operator=(), ParticleCoreShell::ParticleCoreShell(), ParticleDistribution::ParticleDistribution(), ParticleLayout::ParticleLayout(), RectangularDetector::RectangularDetector(), SampleBuilderNode::reset(), ResolutionFunction2DGaussian::ResolutionFunction2DGaussian(), SampleBuilderNode::SampleBuilderNode(), SampleBuilderNode::setSBN(), SphericalDetector::SphericalDetector(), and SquareLattice::SquareLattice().

◆ getName()

const std::string& IParameterized::getName ( ) const
inlineinherited

Definition at line 69 of file IParameterized.h.

69 { return m_name; }

References IParameterized::m_name.

Referenced by Beam::Beam(), Layer::clone(), IFormFactorBorn::computeSlicingEffects(), ConvolutionDetectorResolution::ConvolutionDetectorResolution(), INode::copyNumber(), IParameterized::createParameterTree(), IFormFactor::createSlicedFormFactor(), SampleToPython::defineFormFactors(), SampleToPython::defineInterferenceFunctions(), INode::displayName(), IDetector::IDetector(), Instrument::Instrument(), IParameterized::IParameterized(), Beam::operator=(), SampleBuilderNode::operator=(), anonymous_namespace{ParticleLayout.cpp}::particleDensityIsProvidedByInterference(), IParameterized::registerParameter(), SampleBuilderNode::SampleBuilderNode(), and IFormFactor::sliceFormFactor().

Member Data Documentation

◆ m_max_intensity

double MisesFisherGaussPeakShape::m_max_intensity
private

Definition at line 157 of file IPeakShape.h.

Referenced by clone(), and evaluate().

◆ m_radial_size

double MisesFisherGaussPeakShape::m_radial_size
private

Definition at line 158 of file IPeakShape.h.

Referenced by clone(), and evaluate().

◆ m_zenith

kvector_t MisesFisherGaussPeakShape::m_zenith
private

Definition at line 159 of file IPeakShape.h.

Referenced by clone(), evaluate(), and integrand().

◆ m_kappa_1

double MisesFisherGaussPeakShape::m_kappa_1
private

Definition at line 160 of file IPeakShape.h.

Referenced by clone(), evaluate(), and integrand().

◆ m_kappa_2

double MisesFisherGaussPeakShape::m_kappa_2
private

Definition at line 160 of file IPeakShape.h.

Referenced by clone(), evaluate(), and integrand().

◆ m_theta

double MisesFisherGaussPeakShape::m_theta
mutableprivate

Definition at line 163 of file IPeakShape.h.

Referenced by evaluate(), and integrand().

◆ m_phi

double MisesFisherGaussPeakShape::m_phi
private

Definition at line 163 of file IPeakShape.h.

Referenced by evaluate(), and integrand().

◆ m_ux

kvector_t MisesFisherGaussPeakShape::m_ux
mutableprivate

Definition at line 164 of file IPeakShape.h.

Referenced by evaluate(), and integrand().

◆ m_uy

kvector_t MisesFisherGaussPeakShape::m_uy
private

Definition at line 164 of file IPeakShape.h.

Referenced by evaluate(), and integrand().

◆ m_up

kvector_t MisesFisherGaussPeakShape::m_up
private

Definition at line 164 of file IPeakShape.h.

Referenced by evaluate(), and integrand().

◆ m_parent

const INode* INode::m_parent {nullptr}
privateinherited

Definition at line 81 of file INode.h.

Referenced by INode::displayName(), INode::parent(), and INode::setParent().

◆ m_NP

const size_t INode::m_NP
protectedinherited

Definition at line 86 of file INode.h.

Referenced by INode::INode().

◆ m_P

std::vector<double> INode::m_P
protectedinherited

Definition at line 87 of file INode.h.

Referenced by INode::INode(), and IFootprintFactor::setWidthRatio().

◆ m_name

std::string IParameterized::m_name
privateinherited

Definition at line 72 of file IParameterized.h.

Referenced by IParameterized::getName(), and IParameterized::setName().

◆ m_pool

std::unique_ptr<ParameterPool> IParameterized::m_pool
privateinherited

parameter pool (kind of pointer-to-implementation)

Definition at line 73 of file IParameterized.h.

Referenced by IParameterized::createParameterTree(), IParameterized::parameter(), IParameterized::parameterPool(), IParameterized::registerParameter(), IParameterized::removeParameter(), and IParameterized::setParameterValue().

The documentation for this class was generated from the following files: