Reference documentation for deal.II version 9.4.1
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Functions | |
template<int dim, int spacedim, typename SparsityType , typename number = double> | |
void | create_interpolation_sparsity_pattern (const DoFHandler< dim, spacedim > &space_dh, const Particles::ParticleHandler< dim, spacedim > &particle_handler, SparsityType &sparsity, const AffineConstraints< number > &constraints=AffineConstraints< number >(), const ComponentMask &space_comps=ComponentMask()) |
template<int dim, int spacedim, typename MatrixType > | |
void | create_interpolation_matrix (const DoFHandler< dim, spacedim > &space_dh, const Particles::ParticleHandler< dim, spacedim > &particle_handler, MatrixType &matrix, const AffineConstraints< typename MatrixType::value_type > &constraints=AffineConstraints< typename MatrixType::value_type >(), const ComponentMask &space_comps=ComponentMask()) |
template<int dim, int spacedim, typename InputVectorType , typename OutputVectorType > | |
void | interpolate_field_on_particles (const DoFHandler< dim, spacedim > &field_dh, const Particles::ParticleHandler< dim, spacedim > &particle_handler, const InputVectorType &field_vector, OutputVectorType &interpolated_field, const ComponentMask &field_comps=ComponentMask()) |
A namespace for functions offering tools to handle ParticleHandler objects and their coupling with DoFHandler objects.
void Particles::Utilities::create_interpolation_sparsity_pattern | ( | const DoFHandler< dim, spacedim > & | space_dh, |
const Particles::ParticleHandler< dim, spacedim > & | particle_handler, | ||
SparsityType & | sparsity, | ||
const AffineConstraints< number > & | constraints = AffineConstraints<number>() , |
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const ComponentMask & | space_comps = ComponentMask() |
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) |
Create an interpolation sparsity pattern for particles.
Given a triangulation representing the domain \(\Omega\), a particle handler of particles in \(\Omega\), and a scalar finite element space \(V(\Omega) = \text{span}\{v_j\}_{j=0}^n\), compute the sparsity pattern that would be necessary to assemble the matrix
\[ M_{i,j} \dealcoloneq v_j(x_i) , \]
where \(V(\Omega)\) is the finite element space associated with the space_dh
, and the index i
is given by the particle id whose position is x_i
.
In the case of vector valued finite element spaces, the components on which interpolation must be performed can be selected using a component mask. Only primitive finite element spaces are supported.
When selecting more than one component, the resulting sparsity will have dimension equal to particle_handler.n_global_particles() * mask.n_selected_components()
times space_dh.n_dofs()
, and the corresponding matrix entries are given by
\[ M_{(i*n_comps+k),j} \dealcoloneq v_j(x_i) \cdot e_{comp_j}, \]
where comp_j
is the only non zero component of the vector valued basis function v_j
(equal to fe.system_to_component_index(j).first
), k
corresponds to its index within the selected components of the mask, and \(e_{comp_j}\) is the unit vector in the direction comp_j
.
The sparsity
is filled by locating the position of the particle with index i
within the particle handler with respect to the embedding triangulation \(\Omega\), and coupling it with all the local degrees of freedom specified in the component mask space_comps
, following the ordering in which they are selected in the mask space_comps
.
If a particle does not fall within \(\Omega\), it is ignored, and the corresponding rows of the sparsity will be empty.
Constraints of the form supported by the AffineConstraints class may be supplied with the constraints
argument. The method AffineConstraints::add_entries_local_to_global() is used to fill the final sparsity pattern.
Definition at line 32 of file utilities.cc.
void Particles::Utilities::create_interpolation_matrix | ( | const DoFHandler< dim, spacedim > & | space_dh, |
const Particles::ParticleHandler< dim, spacedim > & | particle_handler, | ||
MatrixType & | matrix, | ||
const AffineConstraints< typename MatrixType::value_type > & | constraints = AffineConstraints<typename MatrixType::value_type>() , |
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const ComponentMask & | space_comps = ComponentMask() |
||
) |
Create an interpolation matrix for particles.
Given a triangulation representing the domains \(\Omega\), a particle handler of particles in \(\Omega\), and a scalar finite element space \(V(\Omega) = \text{span}\{v_j\}_{j=0}^n\), compute the matrix
\[ M_{ij} \dealcoloneq v_j(x_i) , \]
where \(V(\Omega)\) is the finite element space associated with the space_dh
, and the index i
is given by the particle id whose position is x_i
.
In the case of vector valued finite element spaces, the components on which interpolation must be performed can be selected using a component mask. Only primitive finite element spaces are supported.
When selecting more than one component, the resulting sparsity will have dimension equal to particle_handler.n_global_particles() * mask.n_selected_components()
times space_dh.n_dofs()
, and the corresponding matrix entries are given by
\[ M_{(i*n_comps+k),j} \dealcoloneq v_j(x_i) \cdot e_{comp_j}, \]
where comp_j
is the only non zero component of the vector valued basis function v_j
(equal to fe.system_to_component_index(j).first
), k
corresponds to its index within the selected components of the mask, and \(e_{comp_j}\) is the unit vector in the direction comp_j
.
The matrix is filled by locating the position of the particle with index i
within the particle handler with respect to the embedding triangulation \(\Omega\), and coupling it with all the local degrees of freedom specified in the component mask space_comps
, following the ordering in which they are selected in the mask space_comps
.
If a particle does not fall within \(\Omega\), it is ignored, and the corresponding rows of the matrix will be zero.
Constraints of the form supported by the AffineConstraints class may be supplied with the constraints
argument. The method AffineConstraints::distribute_local_to_global() is used to distribute the entries of the matrix to respect the given constraints.
Definition at line 114 of file utilities.cc.
void Particles::Utilities::interpolate_field_on_particles | ( | const DoFHandler< dim, spacedim > & | field_dh, |
const Particles::ParticleHandler< dim, spacedim > & | particle_handler, | ||
const InputVectorType & | field_vector, | ||
OutputVectorType & | interpolated_field, | ||
const ComponentMask & | field_comps = ComponentMask() |
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) |
Given a DoFHandler and a ParticleHandler, interpolate a vector field at the position of the particles. The result is stored in an output vector whose size corresponds to the number of locally owned particles * number of active components
[in] | field_dh | The DOF Handler which was used to generate the field vector that is to be interpolated. |
[in] | particle_handler | The particle handler whose particle serve as the interpolation points. |
[in] | field_vector | The vector of the field to be interpolated. This vector must be coherent with the dof_handler provided |
[in,out] | interpolated_field | The interpolated value of the field at the position of the particles. The size of the vector must be n_locally_owned_particles times the n_components |
[in] | field_comps | An optional component mask that decides which subset of the vector fields are interpolated |
Definition at line 187 of file utilities.h.