internal Namespace Reference

Developer Documentation: MeltPoolDG::Heat::internal Namespace Reference
Developer Documentation
MeltPoolDG::Heat::internal Namespace Reference

Functions

template<int dim, typename number >
dealii::VectorizedArray< number > evaluate_function (const dealii::Function< dim, number > &function, const dealii::Point< dim, dealii::VectorizedArray< number > > &p_vectorized, const unsigned int component=0)
 
template<int dim, typename number >
dealii::VectorizedArray< number > compute_projection_factor (const dealii::Tensor< 1, dim, number > &laser_direction, const dealii::Tensor< 1, dim, dealii::VectorizedArray< number > > &normal_vector)
 
template<int dim, typename number >
dealii::VectorizedArray< number > compute_laser_heat_source (const dealii::Function< dim, number > *laser_intensity_profile, const dealii::Tensor< 1, dim, number > &laser_direction, const dealii::FEPointEvaluation< 1, dim, dim, dealii::VectorizedArray< number > > &temperature_eval, const unsigned int q)
 
template<typename Evaluation >
std::tuple< typename Evaluation::value_type, typename Evaluation::value_type > get_liquid_material_parameters (const Evaluation *temperature_eval, const Material< typename Evaluation::ScalarNumber > &material, const unsigned int q)
 
template<typename Evaluation >
std::tuple< typename Evaluation::value_type, typename Evaluation::value_type, typename Evaluation::value_type, typename Evaluation::value_type > get_liquid_material_parameters_and_derivatives (const Evaluation *temperature_eval, const Material< typename Evaluation::ScalarNumber > &material, const unsigned int q)
 
template<typename Evaluation , typename VectorType >
void reinit_and_read_plain (Evaluation &evaluator, const VectorType &dof_vector, const unsigned int cell_index)
 
template<typename Evaluation >
void tangent_domain_integral (Evaluation &evaluator, const Evaluation *T_eval, const typename Evaluation::value_type &conductivity, const typename Evaluation::value_type &cv, const typename Evaluation::value_type &d_conductivity_d_T, const typename Evaluation::value_type &d_cv_d_T, const VelocityType< Evaluation > &velocity, const typename Evaluation::ScalarNumber ost_factor, const unsigned int q)
 
template<typename Evaluation >
void residual_domain_integral (Evaluation &evaluator, const Evaluation &Told_eval, const typename Evaluation::value_type &conductivity_new, const typename Evaluation::value_type &cv_new, const typename Evaluation::value_type &conductivity_old, const typename Evaluation::value_type &cv_old, const VelocityType< Evaluation > &velocity, const VelocityType< Evaluation > &velocity_old, const typename Evaluation::ScalarNumber ost_factor_implicit, const typename Evaluation::ScalarNumber ost_factor_explicit, const unsigned int q)
 
template<typename Evaluation >
void tangent_immersed_boundary_integral (Evaluation &evaluator, const Evaluation &T_eval, const std::function< typename Evaluation::value_type(const typename Evaluation::value_type &)> &compute_qVapor_derivative, const typename Evaluation::ScalarNumber ost_factor, const unsigned int q)
 
template<typename Evaluation >
void residual_immersed_boundary_integral (Evaluation &evaluator, const Evaluation *Told_eval, const std::function< typename Evaluation::value_type(const typename Evaluation::value_type &)> &compute_qVapor, const typename Evaluation::ScalarNumber ost_factor_implicit, const typename Evaluation::ScalarNumber ost_factor_explicit, const typename Evaluation::value_type &laser_heat_flux_factor, const unsigned int q)
 
template<typename Evaluation >
void tangent_interface_integral (Evaluation &evaluator_l, Evaluation &evaluator_g, const Evaluation *T_eval_l, const Evaluation *T_eval_g, const std::function< typename Evaluation::value_type(const typename Evaluation::value_type &)> &compute_qVapor_derivative, const typename Evaluation::ScalarNumber conductivity_l, const typename Evaluation::ScalarNumber conductivity_g, const typename Evaluation::ScalarNumber ost_factor, const typename Evaluation::ScalarNumber nitsche_factor, const typename Evaluation::ScalarNumber kappa_l, const typename Evaluation::ScalarNumber kappa_g, const unsigned int q)
 
template<typename Evaluation >
void residual_interface_integral (Evaluation &evaluator_l, Evaluation &evaluator_g, const Evaluation &Told_eval_l, const Evaluation &Told_eval_g, const std::function< typename Evaluation::value_type(const typename Evaluation::value_type &)> &compute_qVapor, const typename Evaluation::ScalarNumber conductivity_l, const typename Evaluation::ScalarNumber conductivity_g, const typename Evaluation::ScalarNumber ost_factor_implicit, const typename Evaluation::ScalarNumber ost_factor_explicit, const typename Evaluation::ScalarNumber nitsche_factor, const typename Evaluation::value_type &laser_heat_flux_factor, const typename Evaluation::ScalarNumber kappa_l, const typename Evaluation::ScalarNumber kappa_g, const bool enable_evapor_cooling, const bool do_rhs_symm_term, const unsigned int q)
 
template<typename Evaluation >
void ghost_penalty_face_integral (Evaluation &evaluator_minus, Evaluation &evaluator_plus, const typename Evaluation::ScalarNumber conductivity, const typename Evaluation::ScalarNumber ost_factor, const typename Evaluation::ScalarNumber h, const typename Evaluation::ScalarNumber gamma_M_degree_1, const typename Evaluation::ScalarNumber gamma_A_degree_1, const unsigned int q, const typename Evaluation::ScalarNumber factor=1.0)
 

Function Documentation

◆ compute_laser_heat_source()

template<int dim, typename number >
dealii::VectorizedArray< number > MeltPoolDG::Heat::internal::compute_laser_heat_source ( const dealii::Function< dim, number > *  laser_intensity_profile,
const dealii::Tensor< 1, dim, number > &  laser_direction,
const dealii::FEPointEvaluation< 1, dim, dim, dealii::VectorizedArray< number > > &  temperature_eval,
const unsigned int  q 
)
inline

◆ compute_projection_factor()

template<int dim, typename number >
dealii::VectorizedArray< number > MeltPoolDG::Heat::internal::compute_projection_factor ( const dealii::Tensor< 1, dim, number > &  laser_direction,
const dealii::Tensor< 1, dim, dealii::VectorizedArray< number > > &  normal_vector 
)
inline

◆ evaluate_function()

template<int dim, typename number >
dealii::VectorizedArray< number > MeltPoolDG::Heat::internal::evaluate_function ( const dealii::Function< dim, number > &  function,
const dealii::Point< dim, dealii::VectorizedArray< number > > &  p_vectorized,
const unsigned int  component = 0 
)

◆ get_liquid_material_parameters()

template<typename Evaluation >
std::tuple< typename Evaluation::value_type, typename Evaluation::value_type > MeltPoolDG::Heat::internal::get_liquid_material_parameters ( const Evaluation *  temperature_eval,
const Material< typename Evaluation::ScalarNumber > &  material,
const unsigned int  q 
)
inline

◆ get_liquid_material_parameters_and_derivatives()

template<typename Evaluation >
std::tuple< typename Evaluation::value_type, typename Evaluation::value_type, typename Evaluation::value_type, typename Evaluation::value_type > MeltPoolDG::Heat::internal::get_liquid_material_parameters_and_derivatives ( const Evaluation *  temperature_eval,
const Material< typename Evaluation::ScalarNumber > &  material,
const unsigned int  q 
)
inline

◆ ghost_penalty_face_integral()

template<typename Evaluation >
void MeltPoolDG::Heat::internal::ghost_penalty_face_integral ( Evaluation &  evaluator_minus,
Evaluation &  evaluator_plus,
const typename Evaluation::ScalarNumber  conductivity,
const typename Evaluation::ScalarNumber  ost_factor,
const typename Evaluation::ScalarNumber  h,
const typename Evaluation::ScalarNumber  gamma_M_degree_1,
const typename Evaluation::ScalarNumber  gamma_A_degree_1,
const unsigned int  q,
const typename Evaluation::ScalarNumber  factor = 1.0 
)
inline

◆ reinit_and_read_plain()

template<typename Evaluation , typename VectorType >
void MeltPoolDG::Heat::internal::reinit_and_read_plain ( Evaluation &  evaluator,
const VectorType &  dof_vector,
const unsigned int  cell_index 
)
inline

◆ residual_domain_integral()

template<typename Evaluation >
void MeltPoolDG::Heat::internal::residual_domain_integral ( Evaluation &  evaluator,
const Evaluation &  Told_eval,
const typename Evaluation::value_type &  conductivity_new,
const typename Evaluation::value_type &  cv_new,
const typename Evaluation::value_type &  conductivity_old,
const typename Evaluation::value_type &  cv_old,
const VelocityType< Evaluation > &  velocity,
const VelocityType< Evaluation > &  velocity_old,
const typename Evaluation::ScalarNumber  ost_factor_implicit,
const typename Evaluation::ScalarNumber  ost_factor_explicit,
const unsigned int  q 
)
inline

◆ residual_immersed_boundary_integral()

template<typename Evaluation >
void MeltPoolDG::Heat::internal::residual_immersed_boundary_integral ( Evaluation &  evaluator,
const Evaluation *  Told_eval,
const std::function< typename Evaluation::value_type(const typename Evaluation::value_type &)> &  compute_qVapor,
const typename Evaluation::ScalarNumber  ost_factor_implicit,
const typename Evaluation::ScalarNumber  ost_factor_explicit,
const typename Evaluation::value_type &  laser_heat_flux_factor,
const unsigned int  q 
)
inline

◆ residual_interface_integral()

template<typename Evaluation >
void MeltPoolDG::Heat::internal::residual_interface_integral ( Evaluation &  evaluator_l,
Evaluation &  evaluator_g,
const Evaluation &  Told_eval_l,
const Evaluation &  Told_eval_g,
const std::function< typename Evaluation::value_type(const typename Evaluation::value_type &)> &  compute_qVapor,
const typename Evaluation::ScalarNumber  conductivity_l,
const typename Evaluation::ScalarNumber  conductivity_g,
const typename Evaluation::ScalarNumber  ost_factor_implicit,
const typename Evaluation::ScalarNumber  ost_factor_explicit,
const typename Evaluation::ScalarNumber  nitsche_factor,
const typename Evaluation::value_type &  laser_heat_flux_factor,
const typename Evaluation::ScalarNumber  kappa_l,
const typename Evaluation::ScalarNumber  kappa_g,
const bool  enable_evapor_cooling,
const bool  do_rhs_symm_term,
const unsigned int  q 
)
inline

◆ tangent_domain_integral()

template<typename Evaluation >
void MeltPoolDG::Heat::internal::tangent_domain_integral ( Evaluation &  evaluator,
const Evaluation *  T_eval,
const typename Evaluation::value_type &  conductivity,
const typename Evaluation::value_type &  cv,
const typename Evaluation::value_type &  d_conductivity_d_T,
const typename Evaluation::value_type &  d_cv_d_T,
const VelocityType< Evaluation > &  velocity,
const typename Evaluation::ScalarNumber  ost_factor,
const unsigned int  q 
)
inline

◆ tangent_immersed_boundary_integral()

template<typename Evaluation >
void MeltPoolDG::Heat::internal::tangent_immersed_boundary_integral ( Evaluation &  evaluator,
const Evaluation &  T_eval,
const std::function< typename Evaluation::value_type(const typename Evaluation::value_type &)> &  compute_qVapor_derivative,
const typename Evaluation::ScalarNumber  ost_factor,
const unsigned int  q 
)
inline

◆ tangent_interface_integral()

template<typename Evaluation >
void MeltPoolDG::Heat::internal::tangent_interface_integral ( Evaluation &  evaluator_l,
Evaluation &  evaluator_g,
const Evaluation *  T_eval_l,
const Evaluation *  T_eval_g,
const std::function< typename Evaluation::value_type(const typename Evaluation::value_type &)> &  compute_qVapor_derivative,
const typename Evaluation::ScalarNumber  conductivity_l,
const typename Evaluation::ScalarNumber  conductivity_g,
const typename Evaluation::ScalarNumber  ost_factor,
const typename Evaluation::ScalarNumber  nitsche_factor,
const typename Evaluation::ScalarNumber  kappa_l,
const typename Evaluation::ScalarNumber  kappa_g,
const unsigned int  q 
)
inline