Extends EigenSystem to allow certain DOFs to be condensed out. More...
#include <condensed_eigen_system.h>
Public Types | |
typedef CondensedEigenSystem | sys_type |
typedef EigenSystem | Parent |
typedef Number(* | ValueFunctionPointer) (const Point &p, const Parameters &Parameters, const std::string &sys_name, const std::string &unknown_name) |
typedef Gradient(* | GradientFunctionPointer) (const Point &p, const Parameters ¶meters, const std::string &sys_name, const std::string &unknown_name) |
typedef std::map< std::string, NumericVector< Number > * >::iterator | vectors_iterator |
typedef std::map< std::string, NumericVector< Number > * >::const_iterator | const_vectors_iterator |
Public Member Functions | |
CondensedEigenSystem (EquationSystems &es, const std::string &name_in, const unsigned int number_in) | |
sys_type & | system () |
void | initialize_condensed_dofs (const std::set< dof_id_type > &global_condensed_dofs_set=std::set< dof_id_type >()) |
dof_id_type | n_global_non_condensed_dofs () const |
virtual void | solve () override |
virtual std::pair< Real, Real > | get_eigenpair (dof_id_type i) override |
virtual void | clear () override |
virtual void | reinit () override |
virtual void | assemble () override |
virtual std::string | system_type () const override |
virtual unsigned int | n_matrices () const override |
unsigned int | get_n_converged () const |
unsigned int | get_n_iterations () const |
void | set_eigenproblem_type (EigenProblemType ept) |
EigenProblemType | get_eigenproblem_type () const |
bool | generalized () const |
void | init () |
virtual void | reinit_constraints () |
bool | is_initialized () |
virtual void | update () |
virtual void | assemble_qoi (const QoISet &qoi_indices=QoISet()) |
virtual void | assemble_qoi_derivative (const QoISet &qoi_indices=QoISet(), bool include_liftfunc=true, bool apply_constraints=true) |
virtual void | assemble_residual_derivatives (const ParameterVector ¶meters) |
virtual void | restrict_solve_to (const SystemSubset *subset, const SubsetSolveMode subset_solve_mode=SUBSET_ZERO) |
virtual std::pair< unsigned int, Real > | sensitivity_solve (const ParameterVector ¶meters) |
virtual std::pair< unsigned int, Real > | weighted_sensitivity_solve (const ParameterVector ¶meters, const ParameterVector &weights) |
virtual std::pair< unsigned int, Real > | adjoint_solve (const QoISet &qoi_indices=QoISet()) |
virtual std::pair< unsigned int, Real > | weighted_sensitivity_adjoint_solve (const ParameterVector ¶meters, const ParameterVector &weights, const QoISet &qoi_indices=QoISet()) |
bool | is_adjoint_already_solved () const |
void | set_adjoint_already_solved (bool setting) |
virtual void | qoi_parameter_sensitivity (const QoISet &qoi_indices, const ParameterVector ¶meters, SensitivityData &sensitivities) |
virtual void | adjoint_qoi_parameter_sensitivity (const QoISet &qoi_indices, const ParameterVector ¶meters, SensitivityData &sensitivities) |
virtual void | forward_qoi_parameter_sensitivity (const QoISet &qoi_indices, const ParameterVector ¶meters, SensitivityData &sensitivities) |
virtual void | qoi_parameter_hessian (const QoISet &qoi_indices, const ParameterVector ¶meters, SensitivityData &hessian) |
virtual void | qoi_parameter_hessian_vector_product (const QoISet &qoi_indices, const ParameterVector ¶meters, const ParameterVector &vector, SensitivityData &product) |
virtual bool | compare (const System &other_system, const Real threshold, const bool verbose) const |
const std::string & | name () const |
void | project_solution (FunctionBase< Number > *f, FunctionBase< Gradient > *g=nullptr) const |
void | project_solution (FEMFunctionBase< Number > *f, FEMFunctionBase< Gradient > *g=nullptr) const |
void | project_solution (ValueFunctionPointer fptr, GradientFunctionPointer gptr, const Parameters ¶meters) const |
void | project_vector (NumericVector< Number > &new_vector, FunctionBase< Number > *f, FunctionBase< Gradient > *g=nullptr, int is_adjoint=-1) const |
void | project_vector (NumericVector< Number > &new_vector, FEMFunctionBase< Number > *f, FEMFunctionBase< Gradient > *g=nullptr, int is_adjoint=-1) const |
void | project_vector (ValueFunctionPointer fptr, GradientFunctionPointer gptr, const Parameters ¶meters, NumericVector< Number > &new_vector, int is_adjoint=-1) const |
void | boundary_project_solution (const std::set< boundary_id_type > &b, const std::vector< unsigned int > &variables, FunctionBase< Number > *f, FunctionBase< Gradient > *g=nullptr) |
void | boundary_project_solution (const std::set< boundary_id_type > &b, const std::vector< unsigned int > &variables, ValueFunctionPointer fptr, GradientFunctionPointer gptr, const Parameters ¶meters) |
void | boundary_project_vector (const std::set< boundary_id_type > &b, const std::vector< unsigned int > &variables, NumericVector< Number > &new_vector, FunctionBase< Number > *f, FunctionBase< Gradient > *g=nullptr, int is_adjoint=-1) const |
void | boundary_project_vector (const std::set< boundary_id_type > &b, const std::vector< unsigned int > &variables, ValueFunctionPointer fptr, GradientFunctionPointer gptr, const Parameters ¶meters, NumericVector< Number > &new_vector, int is_adjoint=-1) const |
unsigned int | number () const |
void | update_global_solution (std::vector< Number > &global_soln) const |
void | update_global_solution (std::vector< Number > &global_soln, const processor_id_type dest_proc) const |
const MeshBase & | get_mesh () const |
MeshBase & | get_mesh () |
const DofMap & | get_dof_map () const |
DofMap & | get_dof_map () |
const EquationSystems & | get_equation_systems () const |
EquationSystems & | get_equation_systems () |
bool | active () const |
void | activate () |
void | deactivate () |
void | set_basic_system_only () |
vectors_iterator | vectors_begin () |
const_vectors_iterator | vectors_begin () const |
vectors_iterator | vectors_end () |
const_vectors_iterator | vectors_end () const |
NumericVector< Number > & | add_vector (const std::string &vec_name, const bool projections=true, const ParallelType type=PARALLEL) |
void | remove_vector (const std::string &vec_name) |
bool & | project_solution_on_reinit (void) |
bool | have_vector (const std::string &vec_name) const |
const NumericVector< Number > * | request_vector (const std::string &vec_name) const |
NumericVector< Number > * | request_vector (const std::string &vec_name) |
const NumericVector< Number > * | request_vector (const unsigned int vec_num) const |
NumericVector< Number > * | request_vector (const unsigned int vec_num) |
const NumericVector< Number > & | get_vector (const std::string &vec_name) const |
NumericVector< Number > & | get_vector (const std::string &vec_name) |
const NumericVector< Number > & | get_vector (const unsigned int vec_num) const |
NumericVector< Number > & | get_vector (const unsigned int vec_num) |
const std::string & | vector_name (const unsigned int vec_num) const |
const std::string & | vector_name (const NumericVector< Number > &vec_reference) const |
void | set_vector_as_adjoint (const std::string &vec_name, int qoi_num) |
int | vector_is_adjoint (const std::string &vec_name) const |
void | set_vector_preservation (const std::string &vec_name, bool preserve) |
bool | vector_preservation (const std::string &vec_name) const |
NumericVector< Number > & | add_adjoint_solution (unsigned int i=0) |
NumericVector< Number > & | get_adjoint_solution (unsigned int i=0) |
const NumericVector< Number > & | get_adjoint_solution (unsigned int i=0) const |
NumericVector< Number > & | add_sensitivity_solution (unsigned int i=0) |
NumericVector< Number > & | get_sensitivity_solution (unsigned int i=0) |
const NumericVector< Number > & | get_sensitivity_solution (unsigned int i=0) const |
NumericVector< Number > & | add_weighted_sensitivity_adjoint_solution (unsigned int i=0) |
NumericVector< Number > & | get_weighted_sensitivity_adjoint_solution (unsigned int i=0) |
const NumericVector< Number > & | get_weighted_sensitivity_adjoint_solution (unsigned int i=0) const |
NumericVector< Number > & | add_weighted_sensitivity_solution () |
NumericVector< Number > & | get_weighted_sensitivity_solution () |
const NumericVector< Number > & | get_weighted_sensitivity_solution () const |
NumericVector< Number > & | add_adjoint_rhs (unsigned int i=0) |
NumericVector< Number > & | get_adjoint_rhs (unsigned int i=0) |
const NumericVector< Number > & | get_adjoint_rhs (unsigned int i=0) const |
NumericVector< Number > & | add_sensitivity_rhs (unsigned int i=0) |
NumericVector< Number > & | get_sensitivity_rhs (unsigned int i=0) |
const NumericVector< Number > & | get_sensitivity_rhs (unsigned int i=0) const |
unsigned int | n_vectors () const |
unsigned int | n_vars () const |
unsigned int | n_variable_groups () const |
unsigned int | n_components () const |
dof_id_type | n_dofs () const |
dof_id_type | n_active_dofs () const |
dof_id_type | n_constrained_dofs () const |
dof_id_type | n_local_constrained_dofs () const |
dof_id_type | n_local_dofs () const |
unsigned int | add_variable (const std::string &var, const FEType &type, const std::set< subdomain_id_type > *const active_subdomains=nullptr) |
unsigned int | add_variable (const std::string &var, const Order order=FIRST, const FEFamily=LAGRANGE, const std::set< subdomain_id_type > *const active_subdomains=nullptr) |
unsigned int | add_variables (const std::vector< std::string > &vars, const FEType &type, const std::set< subdomain_id_type > *const active_subdomains=nullptr) |
unsigned int | add_variables (const std::vector< std::string > &vars, const Order order=FIRST, const FEFamily=LAGRANGE, const std::set< subdomain_id_type > *const active_subdomains=nullptr) |
const Variable & | variable (unsigned int var) const |
const VariableGroup & | variable_group (unsigned int vg) const |
bool | has_variable (const std::string &var) const |
const std::string & | variable_name (const unsigned int i) const |
unsigned short int | variable_number (const std::string &var) const |
void | get_all_variable_numbers (std::vector< unsigned int > &all_variable_numbers) const |
unsigned int | variable_scalar_number (const std::string &var, unsigned int component) const |
unsigned int | variable_scalar_number (unsigned int var_num, unsigned int component) const |
const FEType & | variable_type (const unsigned int i) const |
const FEType & | variable_type (const std::string &var) const |
bool | identify_variable_groups () const |
void | identify_variable_groups (const bool) |
Real | calculate_norm (const NumericVector< Number > &v, unsigned int var, FEMNormType norm_type, std::set< unsigned int > *skip_dimensions=nullptr) const |
Real | calculate_norm (const NumericVector< Number > &v, const SystemNorm &norm, std::set< unsigned int > *skip_dimensions=nullptr) const |
void | read_header (Xdr &io, const std::string &version, const bool read_header=true, const bool read_additional_data=true, const bool read_legacy_format=false) |
void | read_legacy_data (Xdr &io, const bool read_additional_data=true) |
template<typename ValType > | |
void | read_serialized_data (Xdr &io, const bool read_additional_data=true) |
void | read_serialized_data (Xdr &io, const bool read_additional_data=true) |
template<typename InValType > | |
std::size_t | read_serialized_vectors (Xdr &io, const std::vector< NumericVector< Number > *> &vectors) const |
std::size_t | read_serialized_vectors (Xdr &io, const std::vector< NumericVector< Number > *> &vectors) const |
template<typename InValType > | |
void | read_parallel_data (Xdr &io, const bool read_additional_data) |
void | read_parallel_data (Xdr &io, const bool read_additional_data) |
void | write_header (Xdr &io, const std::string &version, const bool write_additional_data) const |
void | write_serialized_data (Xdr &io, const bool write_additional_data=true) const |
std::size_t | write_serialized_vectors (Xdr &io, const std::vector< const NumericVector< Number > *> &vectors) const |
void | write_parallel_data (Xdr &io, const bool write_additional_data) const |
std::string | get_info () const |
void | attach_init_function (void fptr(EquationSystems &es, const std::string &name)) |
void | attach_init_object (Initialization &init) |
void | attach_assemble_function (void fptr(EquationSystems &es, const std::string &name)) |
void | attach_assemble_object (Assembly &assemble) |
void | attach_constraint_function (void fptr(EquationSystems &es, const std::string &name)) |
void | attach_constraint_object (Constraint &constrain) |
void | attach_QOI_function (void fptr(EquationSystems &es, const std::string &name, const QoISet &qoi_indices)) |
void | attach_QOI_object (QOI &qoi) |
void | attach_QOI_derivative (void fptr(EquationSystems &es, const std::string &name, const QoISet &qoi_indices, bool include_liftfunc, bool apply_constraints)) |
void | attach_QOI_derivative_object (QOIDerivative &qoi_derivative) |
virtual void | user_initialization () |
virtual void | user_assembly () |
virtual void | user_constrain () |
virtual void | user_QOI (const QoISet &qoi_indices) |
virtual void | user_QOI_derivative (const QoISet &qoi_indices=QoISet(), bool include_liftfunc=true, bool apply_constraints=true) |
virtual void | re_update () |
virtual void | restrict_vectors () |
virtual void | prolong_vectors () |
virtual void | disable_cache () |
Number | current_solution (const dof_id_type global_dof_number) const |
unsigned int | n_qois () const |
Number | point_value (unsigned int var, const Point &p, const bool insist_on_success=true) const |
Number | point_value (unsigned int var, const Point &p, const Elem &e) const |
Number | point_value (unsigned int var, const Point &p, const Elem *e) const |
Gradient | point_gradient (unsigned int var, const Point &p, const bool insist_on_success=true) const |
Gradient | point_gradient (unsigned int var, const Point &p, const Elem &e) const |
Gradient | point_gradient (unsigned int var, const Point &p, const Elem *e) const |
Tensor | point_hessian (unsigned int var, const Point &p, const bool insist_on_success=true) const |
Tensor | point_hessian (unsigned int var, const Point &p, const Elem &e) const |
Tensor | point_hessian (unsigned int var, const Point &p, const Elem *e) const |
void | local_dof_indices (const unsigned int var, std::set< dof_id_type > &var_indices) const |
void | zero_variable (NumericVector< Number > &v, unsigned int var_num) const |
bool & | hide_output () |
void | projection_matrix (SparseMatrix< Number > &proj_mat) const |
const Parallel::Communicator & | comm () const |
processor_id_type | n_processors () const |
processor_id_type | processor_id () const |
Static Public Member Functions | |
static std::string | get_info () |
static void | print_info (std::ostream &out=libMesh::out) |
static unsigned int | n_objects () |
static void | enable_print_counter_info () |
static void | disable_print_counter_info () |
Public Attributes | |
std::unique_ptr< SparseMatrix< Number > > | condensed_matrix_A |
std::unique_ptr< SparseMatrix< Number > > | condensed_matrix_B |
std::vector< dof_id_type > | local_non_condensed_dofs_vector |
std::unique_ptr< SparseMatrix< Number > > | matrix_A |
std::unique_ptr< SparseMatrix< Number > > | matrix_B |
std::unique_ptr< EigenSolver< Number > > | eigen_solver |
bool | assemble_before_solve |
bool | use_fixed_solution |
int | extra_quadrature_order |
std::unique_ptr< NumericVector< Number > > | solution |
std::unique_ptr< NumericVector< Number > > | current_local_solution |
Real | time |
std::vector< Number > | qoi |
Protected Types | |
typedef std::map< std::string, std::pair< unsigned int, unsigned int > > | Counts |
Protected Member Functions | |
virtual void | init_data () override |
virtual void | init_matrices () |
void | set_n_converged (unsigned int nconv) |
void | set_n_iterations (unsigned int its) |
void | project_vector (NumericVector< Number > &, int is_adjoint=-1) const |
void | project_vector (const NumericVector< Number > &, NumericVector< Number > &, int is_adjoint=-1) const |
void | increment_constructor_count (const std::string &name) |
void | increment_destructor_count (const std::string &name) |
Protected Attributes | |
const Parallel::Communicator & | _communicator |
Static Protected Attributes | |
static Counts | _counts |
static Threads::atomic< unsigned int > | _n_objects |
static Threads::spin_mutex | _mutex |
static bool | _enable_print_counter = true |
Private Attributes | |
bool | condensed_dofs_initialized |
Extends EigenSystem to allow certain DOFs to be condensed out.
This class extends EigenSystem to allow a simple way of solving (standard or generalized) eigenvalue problems in the case where we want to remove certain degrees of freedom from the system. This is useful, for example, in the case that one wants to solve eigenvalue problems with Dirichlet boundary conditions.
Definition at line 46 of file condensed_eigen_system.h.
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Data structure to log the information. The log is identified by the class name.
Definition at line 117 of file reference_counter.h.
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The type of the parent
Definition at line 66 of file condensed_eigen_system.h.
The type of system.
Definition at line 61 of file condensed_eigen_system.h.
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libMesh::CondensedEigenSystem::CondensedEigenSystem | ( | EquationSystems & | es, |
const std::string & | name_in, | ||
const unsigned int | number_in | ||
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Constructor. Optionally initializes required data structures.
Definition at line 36 of file condensed_eigen_system.C.
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Activates the system. Only active systems are solved.
Definition at line 2073 of file system.h.
References libMesh::System::_active.
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true
if the system is active, false
otherwise. An active system will be solved. Definition at line 2065 of file system.h.
References libMesh::System::_active.
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Definition at line 1021 of file system.C.
References libMesh::System::add_vector().
Referenced by libMesh::ExplicitSystem::assemble_qoi_derivative(), and libMesh::FEMSystem::assemble_qoi_derivative().
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Definition at line 957 of file system.C.
References libMesh::System::add_vector(), and libMesh::System::set_vector_as_adjoint().
Referenced by libMesh::ImplicitSystem::adjoint_solve().
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Definition at line 1051 of file system.C.
References libMesh::System::add_vector().
Referenced by libMesh::ImplicitSystem::assemble_residual_derivatives().
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Definition at line 906 of file system.C.
References libMesh::System::add_vector().
Referenced by libMesh::ImplicitSystem::sensitivity_solve().
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Adds the variable var
to the list of variables for this system.
Definition at line 1081 of file system.C.
References libMesh::System::_variable_groups, libMesh::System::_variable_numbers, libMesh::System::_variables, libMesh::System::add_variables(), libMesh::VariableGroup::append(), libMesh::System::identify_variable_groups(), libMesh::System::is_initialized(), libMesh::System::n_variable_groups(), libMesh::System::n_vars(), libMesh::System::number(), libMesh::System::variable_name(), and libMesh::System::variable_type().
Referenced by libMesh::DifferentiableSystem::add_second_order_dot_vars(), libMesh::System::add_variable(), libMesh::ErrorVector::plot_error(), and libMesh::System::read_header().
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Adds the variable var
to the list of variables for this system. Same as before, but assumes LAGRANGE
as default value for FEType.family
.
Definition at line 1159 of file system.C.
References libMesh::System::add_variable().
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Adds the variable var
to the list of variables for this system.
Definition at line 1171 of file system.C.
References libMesh::System::_variable_groups, libMesh::System::_variable_numbers, libMesh::System::_variables, libMesh::System::is_initialized(), libMesh::System::n_components(), libMesh::System::n_vars(), libMesh::System::number(), libMesh::System::variable_name(), and libMesh::System::variable_type().
Referenced by libMesh::System::add_variable(), and libMesh::System::add_variables().
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Adds the variable var
to the list of variables for this system. Same as before, but assumes LAGRANGE
as default value for FEType.family
.
Definition at line 1224 of file system.C.
References libMesh::System::add_variables().
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Adds the additional vector vec_name
to this system. All the additional vectors are similarly distributed, like the solution
, and initialized to zero.
By default vectors added by add_vector are projected to changed grids by reinit(). To zero them instead (more efficient), pass "false" as the second argument
Definition at line 661 of file system.C.
References libMesh::System::_dof_map, libMesh::System::_is_initialized, libMesh::System::_vector_is_adjoint, libMesh::System::_vector_projections, libMesh::System::_vector_types, libMesh::System::_vectors, libMesh::NumericVector< T >::build(), libMesh::ParallelObject::comm(), libMesh::GHOSTED, libMesh::System::have_vector(), libMesh::NumericVector< T >::init(), libMesh::System::n_dofs(), and libMesh::System::n_local_dofs().
Referenced by libMesh::System::add_adjoint_rhs(), libMesh::System::add_adjoint_solution(), libMesh::System::add_sensitivity_rhs(), libMesh::System::add_sensitivity_solution(), libMesh::ExplicitSystem::add_system_rhs(), libMesh::System::add_weighted_sensitivity_adjoint_solution(), libMesh::System::add_weighted_sensitivity_solution(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::SecondOrderUnsteadySolver::init(), libMesh::UnsteadySolver::init(), libMesh::OptimizationSystem::init_data(), libMesh::ContinuationSystem::init_data(), libMesh::NewmarkSystem::NewmarkSystem(), libMesh::System::read_header(), libMesh::FrequencySystem::set_frequencies(), libMesh::FrequencySystem::set_frequencies_by_range(), and libMesh::FrequencySystem::set_frequencies_by_steps().
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Definition at line 989 of file system.C.
References libMesh::System::add_vector(), and libMesh::System::set_vector_as_adjoint().
Referenced by libMesh::ImplicitSystem::weighted_sensitivity_adjoint_solve().
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Definition at line 936 of file system.C.
References libMesh::System::add_vector().
Referenced by libMesh::ImplicitSystem::weighted_sensitivity_solve().
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Solves for parameter sensitivities using the adjoint method.
This method is only implemented in some derived classes.
Reimplemented in libMesh::ImplicitSystem.
Definition at line 2316 of file system.h.
Referenced by libMesh::System::qoi_parameter_sensitivity().
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Solves the adjoint system, for the specified qoi indices, or for every qoi if qoi_indices
is nullptr. Must be overridden in derived systems.
This method is only implemented in some derived classes.
Reimplemented in libMesh::ImplicitSystem, and libMesh::DifferentiableSystem.
Definition at line 2300 of file system.h.
Referenced by libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::AdjointRefinementEstimator::estimate_error(), and libMesh::AdjointResidualErrorEstimator::estimate_error().
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Assembles the system matrix.
Reimplemented from libMesh::System.
Definition at line 247 of file eigen_system.C.
References libMesh::System::assemble().
Referenced by solve(), and libMesh::EigenSystem::solve().
Calls user qoi function. Can be overridden in derived classes.
Reimplemented in libMesh::FEMSystem, and libMesh::ExplicitSystem.
Definition at line 473 of file system.C.
References libMesh::System::user_QOI().
Referenced by libMesh::ExplicitSystem::assemble_qoi().
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Calls user qoi derivative function. Can be overridden in derived classes.
Reimplemented in libMesh::FEMSystem, and libMesh::ExplicitSystem.
Definition at line 484 of file system.C.
References libMesh::System::user_QOI_derivative().
Referenced by libMesh::ExplicitSystem::assemble_qoi_derivative().
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Calls residual parameter derivative function.
Library subclasses use finite differences by default.
This should assemble the sensitivity rhs vectors to hold -(partial R / partial p_i), making them ready to solve the forward sensitivity equation.
This method is only implemented in some derived classes.
Reimplemented in libMesh::ImplicitSystem.
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Register a user function to use in assembling the system matrix and RHS.
Definition at line 1777 of file system.C.
References libMesh::System::_assemble_system_function, libMesh::System::_assemble_system_object, and libMesh::out.
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Register a user object to use in assembling the system matrix and RHS.
Definition at line 1796 of file system.C.
References libMesh::System::_assemble_system_function, libMesh::System::_assemble_system_object, and libMesh::out.
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Register a user function for imposing constraints.
Definition at line 1812 of file system.C.
References libMesh::System::_constrain_system_function, libMesh::System::_constrain_system_object, and libMesh::out.
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Register a user object for imposing constraints.
Definition at line 1831 of file system.C.
References libMesh::System::_constrain_system_function, libMesh::System::_constrain_system_object, and libMesh::out.
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Register a user function to use in initializing the system.
Definition at line 1742 of file system.C.
References libMesh::System::_init_system_function, libMesh::System::_init_system_object, and libMesh::out.
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Register a user class to use to initialize the system.
attach_init_function
. Definition at line 1761 of file system.C.
References libMesh::System::_init_system_function, libMesh::System::_init_system_object, and libMesh::out.
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Register a user function for evaluating derivatives of a quantity of interest with respect to test functions, whose values should be placed in System::rhs
Definition at line 1883 of file system.C.
References libMesh::System::_qoi_evaluate_derivative_function, libMesh::System::_qoi_evaluate_derivative_object, and libMesh::out.
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Register a user object for evaluating derivatives of a quantity of interest with respect to test functions, whose values should be placed in System::rhs
Definition at line 1902 of file system.C.
References libMesh::System::_qoi_evaluate_derivative_function, libMesh::System::_qoi_evaluate_derivative_object, and libMesh::out.
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Register a user function for evaluating the quantities of interest, whose values should be placed in System::qoi
Definition at line 1847 of file system.C.
References libMesh::System::_qoi_evaluate_function, libMesh::System::_qoi_evaluate_object, and libMesh::out.
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Register a user object for evaluating the quantities of interest, whose values should be placed in System::qoi
Definition at line 1867 of file system.C.
References libMesh::System::_qoi_evaluate_function, libMesh::System::_qoi_evaluate_object, and libMesh::out.
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inherited |
Projects arbitrary boundary functions onto a vector of degree of freedom values for the current system. Only degrees of freedom which affect the function's trace on a boundary in the set b
are affected. Only degrees of freedom associated with the variables listed in the vector variables
are projected. The function value f
and its gradient g
are user-provided cloneable functors. A gradient g
is only required/used for projecting onto finite element spaces with continuous derivatives. If non-default Parameters
are to be used, they can be provided in the parameters
argument.
This method projects an arbitrary boundary function onto the solution via L2 projections and nodal interpolations on each element.
Definition at line 985 of file system_projection.C.
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inherited |
Projects arbitrary boundary functions onto a vector of degree of freedom values for the current system. Only degrees of freedom which affect the function's trace on a boundary in the set b
are affected. Only degrees of freedom associated with the variables listed in the vector variables
are projected. The function value fptr
and its gradient gptr
are represented by function pointers. A gradient gptr
is only required/used for projecting onto finite element spaces with continuous derivatives.
This method projects components of an arbitrary boundary function onto the solution via L2 projections and nodal interpolations on each element.
Definition at line 968 of file system_projection.C.
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inherited |
Projects arbitrary boundary functions onto a vector of degree of freedom values for the current system. Only degrees of freedom which affect the function's trace on a boundary in the set b
are affected. Only degrees of freedom associated with the variables listed in the vector variables
are projected. The function value f
and its gradient g
are user-provided cloneable functors. A gradient g
is only required/used for projecting onto finite element spaces with continuous derivatives. If non-default Parameters
are to be used, they can be provided in the parameters
argument.
Constrain the new vector using the requested adjoint rather than primal constraints if is_adjoint is non-negative.
This method projects an arbitrary function via L2 projections and nodal interpolations on each element.
Definition at line 1021 of file system_projection.C.
References libMesh::NumericVector< T >::close(), and libMesh::Threads::parallel_for().
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inherited |
Projects arbitrary boundary functions onto a vector of degree of freedom values for the current system. Only degrees of freedom which affect the function's trace on a boundary in the set b
are affected. Only degrees of freedom associated with the variables listed in the vector variables
are projected. The function value fptr
and its gradient gptr
are represented by function pointers. A gradient gptr
is only required/used for projecting onto finite element spaces with continuous derivatives.
Constrain the new vector using the requested adjoint rather than primal constraints if is_adjoint is non-negative.
This method projects an arbitrary boundary function via L2 projections and nodal interpolations on each element.
Definition at line 1003 of file system_projection.C.
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inherited |
var
in the vector v
, in the specified norm (e.g. L2, L_INF, H1) Definition at line 1378 of file system.C.
References libMesh::DISCRETE_L1, libMesh::DISCRETE_L2, libMesh::DISCRETE_L_INF, libMesh::System::discrete_var_norm(), libMesh::L2, libMesh::System::n_vars(), and libMesh::Real.
Referenced by libMesh::AdaptiveTimeSolver::calculate_norm(), and libMesh::UnsteadySolver::du().
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inherited |
v
, using component_norm
and component_scale
to choose and weight the norms of each variable. Definition at line 1400 of file system.C.
References libMesh::System::_dof_map, libMesh::System::_mesh, std::abs(), libMesh::TypeVector< T >::add_scaled(), libMesh::TypeTensor< T >::add_scaled(), libMesh::FEGenericBase< OutputType >::build(), libMesh::NumericVector< T >::build(), libMesh::ParallelObject::comm(), libMesh::FEType::default_quadrature_rule(), libMesh::DISCRETE_L1, libMesh::DISCRETE_L2, libMesh::DISCRETE_L_INF, libMesh::System::discrete_var_norm(), libMesh::DofMap::dof_indices(), libMesh::MeshBase::elem_dimensions(), libMesh::FEGenericBase< OutputType >::get_d2phi(), libMesh::System::get_dof_map(), libMesh::FEGenericBase< OutputType >::get_dphi(), libMesh::FEAbstract::get_JxW(), libMesh::System::get_mesh(), libMesh::FEGenericBase< OutputType >::get_phi(), libMesh::H1, libMesh::H1_SEMINORM, libMesh::H2, libMesh::H2_SEMINORM, libMesh::SystemNorm::is_discrete(), libMesh::L1, libMesh::NumericVector< T >::l1_norm(), libMesh::L2, libMesh::NumericVector< T >::l2_norm(), libMesh::L_INF, libMesh::NumericVector< T >::linfty_norm(), libMesh::NumericVector< T >::localize(), std::max(), libMesh::Parallel::Communicator::max(), libMesh::QBase::n_points(), libMesh::System::n_vars(), libMesh::TypeVector< T >::norm(), libMesh::TypeTensor< T >::norm(), libMesh::TensorTools::norm_sq(), libMesh::TypeVector< T >::norm_sq(), libMesh::TypeTensor< T >::norm_sq(), libMesh::Real, libMesh::FEAbstract::reinit(), libMesh::SERIAL, libMesh::NumericVector< T >::size(), libMesh::Parallel::Communicator::sum(), libMesh::SystemNorm::type(), libMesh::DofMap::variable_type(), libMesh::W1_INF_SEMINORM, libMesh::W2_INF_SEMINORM, libMesh::SystemNorm::weight(), and libMesh::SystemNorm::weight_sq().
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overridevirtualinherited |
Clear all the data structures associated with the system.
Reimplemented from libMesh::System.
Reimplemented in libMesh::RBConstructionBase< CondensedEigenSystem >, and libMesh::RBSCMConstruction.
Definition at line 63 of file eigen_system.C.
References libMesh::System::clear(), libMesh::EigenSystem::eigen_solver, libMesh::EigenSystem::matrix_A, and libMesh::EigenSystem::matrix_B.
Referenced by libMesh::EigenSystem::~EigenSystem().
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Parallel::Communicator
object used by this mesh. Definition at line 89 of file parallel_object.h.
References libMesh::ParallelObject::_communicator.
Referenced by libMesh::__libmesh_petsc_diff_solver_jacobian(), libMesh::__libmesh_petsc_diff_solver_monitor(), libMesh::__libmesh_petsc_diff_solver_residual(), libMesh::__libmesh_tao_equality_constraints(), libMesh::__libmesh_tao_equality_constraints_jacobian(), libMesh::__libmesh_tao_gradient(), libMesh::__libmesh_tao_hessian(), libMesh::__libmesh_tao_inequality_constraints(), libMesh::__libmesh_tao_inequality_constraints_jacobian(), libMesh::__libmesh_tao_objective(), libMesh::MeshRefinement::_coarsen_elements(), libMesh::ExactSolution::_compute_error(), libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::BoundaryInfo::_find_id_maps(), libMesh::SlepcEigenSolver< T >::_petsc_shell_matrix_get_diagonal(), libMesh::PetscLinearSolver< T >::_petsc_shell_matrix_get_diagonal(), libMesh::SlepcEigenSolver< T >::_petsc_shell_matrix_mult(), libMesh::PetscLinearSolver< T >::_petsc_shell_matrix_mult(), libMesh::PetscLinearSolver< T >::_petsc_shell_matrix_mult_add(), libMesh::EquationSystems::_read_impl(), libMesh::MeshRefinement::_refine_elements(), libMesh::MeshRefinement::_smooth_flags(), libMesh::PetscDMWrapper::add_dofs_helper(), libMesh::PetscDMWrapper::add_dofs_to_section(), libMesh::ImplicitSystem::add_matrix(), libMesh::System::add_vector(), libMesh::UnstructuredMesh::all_second_order(), libMesh::MeshTools::Modification::all_tri(), libMesh::LaplaceMeshSmoother::allgather_graph(), libMesh::FEMSystem::assemble_qoi(), libMesh::MeshCommunication::assign_global_indices(), libMesh::DofMap::attach_matrix(), libMesh::MeshTools::Generation::build_extrusion(), libMesh::BoundaryInfo::build_node_list_from_side_list(), libMesh::EquationSystems::build_parallel_elemental_solution_vector(), libMesh::EquationSystems::build_parallel_solution_vector(), libMesh::PetscDMWrapper::build_section(), libMesh::PetscDMWrapper::build_sf(), libMesh::MeshBase::cache_elem_dims(), libMesh::System::calculate_norm(), libMesh::DofMap::check_dirichlet_bcid_consistency(), libMesh::PetscDMWrapper::check_section_n_dofs(), libMesh::Nemesis_IO_Helper::compute_num_global_elem_blocks(), libMesh::Nemesis_IO_Helper::compute_num_global_nodesets(), libMesh::Nemesis_IO_Helper::compute_num_global_sidesets(), libMesh::Problem_Interface::computeF(), libMesh::Problem_Interface::computeJacobian(), libMesh::Problem_Interface::computePreconditioner(), libMesh::ExodusII_IO::copy_elemental_solution(), libMesh::MeshTools::correct_node_proc_ids(), libMesh::MeshTools::create_bounding_box(), libMesh::MeshTools::create_nodal_bounding_box(), libMesh::MeshRefinement::create_parent_error_vector(), libMesh::MeshTools::create_processor_bounding_box(), libMesh::MeshTools::create_subdomain_bounding_box(), libMesh::MeshCommunication::delete_remote_elements(), libMesh::DofMap::distribute_dofs(), DMlibMeshFunction(), DMlibMeshJacobian(), DMlibMeshSetSystem_libMesh(), DMVariableBounds_libMesh(), libMesh::MeshRefinement::eliminate_unrefined_patches(), libMesh::EpetraVector< T >::EpetraVector(), libMesh::WeightedPatchRecoveryErrorEstimator::estimate_error(), libMesh::PatchRecoveryErrorEstimator::estimate_error(), libMesh::JumpErrorEstimator::estimate_error(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::ExactErrorEstimator::estimate_error(), libMesh::MeshRefinement::flag_elements_by_elem_fraction(), libMesh::MeshRefinement::flag_elements_by_error_fraction(), libMesh::MeshRefinement::flag_elements_by_nelem_target(), get_eigenpair(), libMesh::DofMap::get_info(), libMesh::ImplicitSystem::get_linear_solver(), libMesh::LocationMap< T >::init(), libMesh::TimeSolver::init(), libMesh::SystemSubsetBySubdomain::init(), libMesh::PetscDMWrapper::init_and_attach_petscdm(), libMesh::EigenSystem::init_data(), libMesh::EigenSystem::init_matrices(), libMesh::OptimizationSystem::initialize_equality_constraints_storage(), libMesh::OptimizationSystem::initialize_inequality_constraints_storage(), libMesh::MeshTools::libmesh_assert_consistent_distributed(), libMesh::MeshTools::libmesh_assert_consistent_distributed_nodes(), libMesh::MeshTools::libmesh_assert_contiguous_dof_ids(), libMesh::MeshTools::libmesh_assert_parallel_consistent_new_node_procids(), libMesh::MeshTools::libmesh_assert_parallel_consistent_procids< Elem >(), libMesh::MeshTools::libmesh_assert_parallel_consistent_procids< Node >(), libMesh::MeshTools::libmesh_assert_topology_consistent_procids< Node >(), libMesh::MeshTools::libmesh_assert_valid_boundary_ids(), libMesh::MeshTools::libmesh_assert_valid_dof_ids(), libMesh::MeshTools::libmesh_assert_valid_neighbors(), libMesh::DistributedMesh::libmesh_assert_valid_parallel_flags(), libMesh::DistributedMesh::libmesh_assert_valid_parallel_object_ids(), libMesh::DistributedMesh::libmesh_assert_valid_parallel_p_levels(), libMesh::MeshTools::libmesh_assert_valid_refinement_flags(), libMesh::MeshTools::libmesh_assert_valid_unique_ids(), libMesh::libmesh_petsc_snes_fd_residual(), libMesh::libmesh_petsc_snes_jacobian(), libMesh::libmesh_petsc_snes_mffd_residual(), libMesh::libmesh_petsc_snes_postcheck(), libMesh::libmesh_petsc_snes_residual(), libMesh::libmesh_petsc_snes_residual_helper(), libMesh::MeshRefinement::limit_level_mismatch_at_edge(), libMesh::MeshRefinement::limit_level_mismatch_at_node(), libMesh::MeshRefinement::limit_overrefined_boundary(), libMesh::MeshRefinement::limit_underrefined_boundary(), libMesh::MeshRefinement::make_coarsening_compatible(), libMesh::MeshCommunication::make_elems_parallel_consistent(), libMesh::MeshRefinement::make_flags_parallel_consistent(), libMesh::MeshCommunication::make_new_node_proc_ids_parallel_consistent(), libMesh::MeshCommunication::make_new_nodes_parallel_consistent(), libMesh::MeshCommunication::make_node_ids_parallel_consistent(), libMesh::MeshCommunication::make_node_proc_ids_parallel_consistent(), libMesh::MeshCommunication::make_node_unique_ids_parallel_consistent(), libMesh::MeshCommunication::make_nodes_parallel_consistent(), libMesh::MeshCommunication::make_p_levels_parallel_consistent(), libMesh::MeshRefinement::make_refinement_compatible(), libMesh::FEMSystem::mesh_position_set(), libMesh::DistributedMesh::n_active_elem(), libMesh::MeshTools::n_active_levels(), libMesh::BoundaryInfo::n_boundary_conds(), libMesh::BoundaryInfo::n_edge_conds(), n_global_non_condensed_dofs(), libMesh::MeshTools::n_levels(), libMesh::BoundaryInfo::n_nodeset_conds(), libMesh::MeshTools::n_p_levels(), libMesh::BoundaryInfo::n_shellface_conds(), libMesh::DistributedMesh::parallel_max_elem_id(), libMesh::DistributedMesh::parallel_max_node_id(), libMesh::ReplicatedMesh::parallel_max_unique_id(), libMesh::DistributedMesh::parallel_max_unique_id(), libMesh::DistributedMesh::parallel_n_elem(), libMesh::DistributedMesh::parallel_n_nodes(), libMesh::SparsityPattern::Build::parallel_sync(), libMesh::MeshTools::paranoid_n_levels(), libMesh::petsc_auto_fieldsplit(), libMesh::System::point_gradient(), libMesh::System::point_hessian(), libMesh::System::point_value(), libMesh::MeshBase::prepare_for_use(), libMesh::Nemesis_IO::read(), libMesh::XdrIO::read(), libMesh::CheckpointIO::read_header(), libMesh::XdrIO::read_header(), libMesh::System::read_header(), libMesh::System::read_legacy_data(), libMesh::System::read_SCALAR_dofs(), libMesh::XdrIO::read_serialized_bc_names(), libMesh::XdrIO::read_serialized_bcs_helper(), libMesh::System::read_serialized_blocked_dof_objects(), libMesh::XdrIO::read_serialized_connectivity(), libMesh::XdrIO::read_serialized_nodes(), libMesh::XdrIO::read_serialized_nodesets(), libMesh::XdrIO::read_serialized_subdomain_names(), libMesh::System::read_serialized_vector(), libMesh::MeshBase::recalculate_n_partitions(), libMesh::MeshRefinement::refine_and_coarsen_elements(), libMesh::DistributedMesh::renumber_dof_objects(), libMesh::CheckpointIO::select_split_config(), libMesh::DofMap::set_nonlocal_dof_objects(), libMesh::PetscDMWrapper::set_point_range_in_section(), libMesh::PetscDiffSolver::setup_petsc_data(), libMesh::LaplaceMeshSmoother::smooth(), libMesh::split_mesh(), libMesh::MeshBase::subdomain_ids(), libMesh::BoundaryInfo::sync(), libMesh::MeshRefinement::test_level_one(), libMesh::MeshRefinement::test_unflagged(), libMesh::MeshTools::total_weight(), libMesh::MeshRefinement::uniformly_coarsen(), libMesh::NameBasedIO::write(), libMesh::XdrIO::write(), libMesh::System::write_SCALAR_dofs(), libMesh::XdrIO::write_serialized_bcs_helper(), libMesh::System::write_serialized_blocked_dof_objects(), libMesh::XdrIO::write_serialized_connectivity(), libMesh::XdrIO::write_serialized_nodes(), and libMesh::XdrIO::write_serialized_nodesets().
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virtualinherited |
true
when the other system contains identical data, up to the given threshold. Outputs some diagnostic info when verbose
is set. Definition at line 514 of file system.C.
References libMesh::System::_is_initialized, libMesh::System::_sys_name, libMesh::System::_vectors, libMesh::System::get_vector(), libMesh::System::n_vectors(), libMesh::System::name(), libMesh::out, and libMesh::System::solution.
Referenced by libMesh::EquationSystems::compare().
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inherited |
Definition at line 194 of file system.C.
References libMesh::System::_dof_map, and libMesh::System::current_local_solution.
Referenced by libMesh::ExactSolution::_compute_error(), libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::HPCoarsenTest::add_projection(), libMesh::ExactErrorEstimator::estimate_error(), libMesh::WeightedPatchRecoveryErrorEstimator::EstimateError::operator()(), libMesh::PatchRecoveryErrorEstimator::EstimateError::operator()(), libMesh::System::point_gradient(), libMesh::System::point_hessian(), libMesh::System::point_value(), libMesh::HPCoarsenTest::select_refinement(), libMesh::EnsightIO::write_scalar_ascii(), and libMesh::EnsightIO::write_vector_ascii().
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inlineinherited |
Deactivates the system. Only active systems are solved.
Definition at line 2081 of file system.h.
References libMesh::System::_active.
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inlinevirtualinherited |
Avoids use of any cached data that might affect any solve result. Should be overridden in derived systems.
Reimplemented in libMesh::ImplicitSystem.
Definition at line 2275 of file system.h.
References libMesh::System::assemble_before_solve.
Referenced by libMesh::UniformRefinementEstimator::_estimate_error().
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staticinherited |
Definition at line 106 of file reference_counter.C.
References libMesh::ReferenceCounter::_enable_print_counter.
Referenced by libMesh::LibMeshInit::LibMeshInit().
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staticinherited |
Methods to enable/disable the reference counter output from print_info()
Definition at line 100 of file reference_counter.C.
References libMesh::ReferenceCounter::_enable_print_counter.
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inlinevirtualinherited |
Solves for parameter sensitivities using the forward method.
This method is only implemented in some derived classes.
Reimplemented in libMesh::ImplicitSystem.
Definition at line 2325 of file system.h.
Referenced by libMesh::System::qoi_parameter_sensitivity().
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true
if the underlying problem is generalized , false otherwise. Definition at line 149 of file eigen_system.h.
References libMesh::EigenSystem::_is_generalized_eigenproblem.
Referenced by solve().
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inherited |
Definition at line 1031 of file system.C.
References libMesh::System::get_vector().
Referenced by libMesh::ImplicitSystem::adjoint_solve(), libMesh::ImplicitSystem::forward_qoi_parameter_sensitivity(), libMesh::ImplicitSystem::qoi_parameter_hessian(), libMesh::ImplicitSystem::qoi_parameter_hessian_vector_product(), and libMesh::ImplicitSystem::weighted_sensitivity_adjoint_solve().
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Definition at line 1041 of file system.C.
References libMesh::System::get_vector().
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Definition at line 969 of file system.C.
References libMesh::System::get_vector().
Referenced by libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::ImplicitSystem::adjoint_solve(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::AdjointResidualErrorEstimator::estimate_error(), libMesh::ImplicitSystem::qoi_parameter_hessian(), libMesh::ImplicitSystem::qoi_parameter_hessian_vector_product(), and libMesh::ImplicitSystem::weighted_sensitivity_adjoint_solve().
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Definition at line 979 of file system.C.
References libMesh::System::get_vector().
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Fills all_variable_numbers
with all the variable numbers for the variables that have been added to this system.
Definition at line 1258 of file system.C.
References libMesh::System::_variable_numbers, and libMesh::System::n_vars().
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_dof_map
. Definition at line 2049 of file system.h.
References libMesh::System::_dof_map.
Referenced by libMesh::__libmesh_petsc_diff_solver_jacobian(), libMesh::__libmesh_petsc_diff_solver_residual(), libMesh::ExactSolution::_compute_error(), libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::DifferentiableSystem::add_dot_var_dirichlet_bcs(), libMesh::HPCoarsenTest::add_projection(), libMesh::UnsteadySolver::adjoint_advance_timestep(), libMesh::ImplicitSystem::adjoint_solve(), libMesh::NewmarkSolver::advance_timestep(), libMesh::UnsteadySolver::advance_timestep(), libMesh::EquationSystems::allgather(), libMesh::EquationSystems::build_discontinuous_solution_vector(), libMesh::EquationSystems::build_parallel_elemental_solution_vector(), libMesh::EquationSystems::build_parallel_solution_vector(), libMesh::PetscDMWrapper::build_sf(), libMesh::System::calculate_norm(), libMesh::Problem_Interface::computeF(), libMesh::Problem_Interface::computeJacobian(), libMesh::Problem_Interface::computePreconditioner(), DMCreateDomainDecomposition_libMesh(), DMCreateFieldDecomposition_libMesh(), DMlibMeshFunction(), DMlibMeshJacobian(), DMlibMeshSetSystem_libMesh(), libMesh::DofMap::enforce_constraints_exactly(), libMesh::JumpErrorEstimator::estimate_error(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::ExactErrorEstimator::estimate_error(), libMesh::System::get_info(), libMesh::SystemSubsetBySubdomain::init(), libMesh::SecondOrderUnsteadySolver::init_data(), libMesh::UnsteadySolver::init_data(), libMesh::EigenSystem::init_matrices(), libMesh::ImplicitSystem::init_matrices(), initialize_condensed_dofs(), libMesh::OptimizationSystem::initialize_equality_constraints_storage(), libMesh::OptimizationSystem::initialize_inequality_constraints_storage(), libMesh::libmesh_petsc_snes_jacobian(), libMesh::libmesh_petsc_snes_postcheck(), libMesh::libmesh_petsc_snes_residual_helper(), libMesh::System::local_dof_indices(), libMesh::DofMap::max_constraint_error(), libMesh::DGFEMContext::neighbor_side_fe_reinit(), libMesh::UnsteadySolver::old_nonlinear_solution(), libMesh::SecondOrderUnsteadySolver::old_solution_accel(), libMesh::SecondOrderUnsteadySolver::old_solution_rate(), libMesh::WeightedPatchRecoveryErrorEstimator::EstimateError::operator()(), libMesh::PatchRecoveryErrorEstimator::EstimateError::operator()(), libMesh::petsc_auto_fieldsplit(), libMesh::ErrorVector::plot_error(), libMesh::System::point_gradient(), libMesh::System::point_hessian(), libMesh::System::point_value(), libMesh::FEMContext::pre_fe_reinit(), libMesh::System::re_update(), libMesh::System::read_parallel_data(), libMesh::System::read_SCALAR_dofs(), libMesh::SecondOrderUnsteadySolver::reinit(), libMesh::UnsteadySolver::reinit(), libMesh::EigenSystem::reinit(), libMesh::ImplicitSystem::reinit(), libMesh::System::reinit_constraints(), libMesh::EquationSystems::reinit_solutions(), libMesh::UnsteadySolver::retrieve_timestep(), libMesh::HPCoarsenTest::select_refinement(), libMesh::ImplicitSystem::sensitivity_solve(), libMesh::PetscDMWrapper::set_point_range_in_section(), libMesh::NewtonSolver::solve(), libMesh::PetscDiffSolver::solve(), libMesh::ImplicitSystem::weighted_sensitivity_adjoint_solve(), libMesh::ImplicitSystem::weighted_sensitivity_solve(), libMesh::System::write_parallel_data(), libMesh::EnsightIO::write_scalar_ascii(), libMesh::System::write_SCALAR_dofs(), and libMesh::EnsightIO::write_vector_ascii().
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inlineinherited |
_dof_map
. Definition at line 2057 of file system.h.
References libMesh::System::_dof_map.
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overridevirtual |
Override get_eigenpair()
to retrieve the eigenpair for the condensed eigensolve. We only set the non-condensed entries of the solution vector (the condensed entries are set to zero by default).
Reimplemented from libMesh::EigenSystem.
Definition at line 174 of file condensed_eigen_system.C.
References libMesh::NumericVector< T >::build(), libMesh::ParallelObject::comm(), condensed_dofs_initialized, libMesh::EigenSystem::eigen_solver, libMesh::EigenSystem::get_eigenpair(), local_non_condensed_dofs_vector, libMesh::PARALLEL, libMesh::System::solution, libMesh::Parallel::Communicator::sum(), and libMesh::System::update().
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inlineinherited |
Definition at line 143 of file eigen_system.h.
References libMesh::EigenSystem::_eigen_problem_type.
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inlineinherited |
Definition at line 712 of file system.h.
References libMesh::System::_equation_systems.
Referenced by libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::NewmarkSystem::clear(), libMesh::FrequencySystem::clear_all(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::AdjointResidualErrorEstimator::estimate_error(), libMesh::ExactErrorEstimator::find_squared_element_error(), libMesh::ImplicitSystem::get_linear_solve_parameters(), libMesh::FrequencySystem::init_data(), libMesh::FrequencySystem::n_frequencies(), libMesh::System::point_value(), libMesh::FrequencySystem::set_current_frequency(), libMesh::FrequencySystem::set_frequencies(), libMesh::FrequencySystem::set_frequencies_by_range(), libMesh::FrequencySystem::set_frequencies_by_steps(), libMesh::NewmarkSystem::set_newmark_parameters(), libMesh::NonlinearImplicitSystem::set_solver_parameters(), solve(), libMesh::EigenSystem::solve(), libMesh::FrequencySystem::solve(), libMesh::LinearImplicitSystem::solve(), and libMesh::WrappedFunction< Output >::WrappedFunction().
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inlineinherited |
Definition at line 717 of file system.h.
References libMesh::System::_equation_systems.
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staticinherited |
Gets a string containing the reference information.
Definition at line 47 of file reference_counter.C.
References libMesh::ReferenceCounter::_counts, and libMesh::Quality::name().
Referenced by libMesh::ReferenceCounter::print_info().
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inherited |
Definition at line 1658 of file system.C.
References libMesh::FEType::family, libMesh::System::get_dof_map(), libMesh::DofMap::get_info(), libMesh::FEType::inf_map, libMesh::System::n_constrained_dofs(), libMesh::System::n_dofs(), libMesh::System::n_local_constrained_dofs(), libMesh::System::n_local_dofs(), libMesh::System::n_matrices(), libMesh::System::n_variable_groups(), libMesh::VariableGroup::n_variables(), libMesh::System::n_vectors(), libMesh::VariableGroup::name(), libMesh::System::name(), libMesh::System::number(), libMesh::FEType::order, libMesh::FEType::radial_family, libMesh::FEType::radial_order, libMesh::System::system_type(), libMesh::Variable::type(), libMesh::DofMap::variable_group(), and libMesh::System::variable_group().
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inlineinherited |
_mesh
. Definition at line 2033 of file system.h.
References libMesh::System::_mesh.
Referenced by libMesh::ExactSolution::_compute_error(), libMesh::PetscDMWrapper::add_dofs_to_section(), libMesh::HPCoarsenTest::add_projection(), libMesh::FEMSystem::assemble_qoi(), libMesh::FEMSystem::assemble_qoi_derivative(), libMesh::FEMSystem::assembly(), libMesh::System::calculate_norm(), DMCreateDomainDecomposition_libMesh(), DMCreateFieldDecomposition_libMesh(), DMlibMeshSetSystem_libMesh(), libMesh::WeightedPatchRecoveryErrorEstimator::estimate_error(), libMesh::PatchRecoveryErrorEstimator::estimate_error(), libMesh::JumpErrorEstimator::estimate_error(), libMesh::AdjointResidualErrorEstimator::estimate_error(), libMesh::ExactErrorEstimator::estimate_error(), libMesh::SystemSubsetBySubdomain::init(), libMesh::System::init_data(), libMesh::EigenSystem::init_matrices(), libMesh::ImplicitSystem::init_matrices(), libMesh::System::local_dof_indices(), libMesh::DofMap::max_constraint_error(), libMesh::FEMSystem::mesh_position_get(), libMesh::FEMSystem::mesh_position_set(), libMesh::WeightedPatchRecoveryErrorEstimator::EstimateError::operator()(), libMesh::PatchRecoveryErrorEstimator::EstimateError::operator()(), libMesh::petsc_auto_fieldsplit(), libMesh::System::point_gradient(), libMesh::System::point_hessian(), libMesh::System::point_value(), libMesh::FEMSystem::postprocess(), libMesh::System::read_header(), libMesh::System::read_legacy_data(), libMesh::System::read_parallel_data(), libMesh::System::read_serialized_vector(), libMesh::System::read_serialized_vectors(), libMesh::EigenSystem::reinit(), libMesh::ImplicitSystem::reinit(), libMesh::HPSingularity::select_refinement(), libMesh::HPCoarsenTest::select_refinement(), libMesh::PetscDMWrapper::set_point_range_in_section(), libMesh::System::write_header(), libMesh::System::write_parallel_data(), libMesh::System::write_serialized_vector(), libMesh::System::write_serialized_vectors(), and libMesh::System::zero_variable().
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inlineinherited |
_mesh
. Definition at line 2041 of file system.h.
References libMesh::System::_mesh.
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inlineinherited |
Definition at line 128 of file eigen_system.h.
References libMesh::EigenSystem::_n_converged_eigenpairs.
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inlineinherited |
Definition at line 133 of file eigen_system.h.
References libMesh::EigenSystem::_n_iterations.
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inherited |
assemble_residual_derivatives()
is called.When assembled, this vector should hold -(partial R / partial p_i)
Definition at line 1061 of file system.C.
References libMesh::System::get_vector().
Referenced by libMesh::ImplicitSystem::adjoint_qoi_parameter_sensitivity(), and libMesh::ImplicitSystem::sensitivity_solve().
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inherited |
Definition at line 1071 of file system.C.
References libMesh::System::get_vector().
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inherited |
Definition at line 916 of file system.C.
References libMesh::System::get_vector().
Referenced by libMesh::ImplicitSystem::forward_qoi_parameter_sensitivity(), libMesh::ImplicitSystem::qoi_parameter_hessian(), and libMesh::ImplicitSystem::sensitivity_solve().
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inherited |
Definition at line 926 of file system.C.
References libMesh::System::get_vector().
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inherited |
vec_name
. Access is only granted when the vector is already properly initialized. Definition at line 774 of file system.C.
References libMesh::System::_vectors.
Referenced by libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::UnsteadySolver::adjoint_advance_timestep(), libMesh::NewmarkSolver::advance_timestep(), libMesh::AdaptiveTimeSolver::advance_timestep(), libMesh::UnsteadySolver::advance_timestep(), libMesh::System::compare(), libMesh::NewmarkSolver::compute_initial_accel(), libMesh::UnsteadySolver::du(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::System::get_adjoint_rhs(), libMesh::System::get_adjoint_solution(), libMesh::System::get_sensitivity_rhs(), libMesh::System::get_sensitivity_solution(), libMesh::System::get_weighted_sensitivity_adjoint_solution(), libMesh::System::get_weighted_sensitivity_solution(), libMesh::NewmarkSystem::initial_conditions(), libMesh::NewmarkSolver::project_initial_accel(), libMesh::SecondOrderUnsteadySolver::project_initial_rate(), libMesh::SecondOrderUnsteadySolver::reinit(), libMesh::UnsteadySolver::reinit(), libMesh::MemorySolutionHistory::retrieve(), libMesh::UnsteadySolver::retrieve_timestep(), libMesh::TwostepTimeSolver::solve(), libMesh::FrequencySystem::solve(), libMesh::NewmarkSystem::update_rhs(), and libMesh::NewmarkSystem::update_u_v_a().
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vec_name
. Access is only granted when the vector is already properly initialized. Definition at line 787 of file system.C.
References libMesh::System::_vectors.
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inherited |
vec_num
(where the vectors are counted starting with 0). Definition at line 800 of file system.C.
References libMesh::System::vectors_begin(), and libMesh::System::vectors_end().
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vec_num
(where the vectors are counted starting with 0). Definition at line 816 of file system.C.
References libMesh::System::vectors_begin(), and libMesh::System::vectors_end().
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inherited |
Definition at line 1001 of file system.C.
References libMesh::System::get_vector().
Referenced by libMesh::ImplicitSystem::qoi_parameter_hessian_vector_product(), and libMesh::ImplicitSystem::weighted_sensitivity_adjoint_solve().
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inherited |
Definition at line 1011 of file system.C.
References libMesh::System::get_vector().
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inherited |
Definition at line 943 of file system.C.
References libMesh::System::get_vector().
Referenced by libMesh::ImplicitSystem::qoi_parameter_hessian_vector_product(), and libMesh::ImplicitSystem::weighted_sensitivity_solve().
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inherited |
Definition at line 950 of file system.C.
References libMesh::System::get_vector().
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inherited |
true
if a variable named var
exists in this System Definition at line 1236 of file system.C.
References libMesh::System::_variable_numbers.
Referenced by libMesh::GMVIO::copy_nodal_solution().
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inlineinherited |
true
if this System
has a vector associated with the given name, false
otherwise. Definition at line 2225 of file system.h.
References libMesh::System::_vectors.
Referenced by libMesh::System::add_vector().
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inlineinherited |
true
, then EquationSystems::write
will ignore this system. Definition at line 1662 of file system.h.
References libMesh::System::_hide_output.
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inlineinherited |
true
when VariableGroup
structures should be automatically identified, false
otherwise. Definition at line 2201 of file system.h.
References libMesh::System::_identify_variable_groups.
Referenced by libMesh::System::add_variable().
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inlineinherited |
Toggle automatic VariableGroup
identification.
Definition at line 2209 of file system.h.
References libMesh::System::_identify_variable_groups.
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inlineprotectedinherited |
Increments the construction counter. Should be called in the constructor of any derived class that will be reference counted.
Definition at line 181 of file reference_counter.h.
References libMesh::ReferenceCounter::_counts, libMesh::Quality::name(), and libMesh::Threads::spin_mtx.
Referenced by libMesh::ReferenceCountedObject< RBParametrized >::ReferenceCountedObject().
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inlineprotectedinherited |
Increments the destruction counter. Should be called in the destructor of any derived class that will be reference counted.
Definition at line 194 of file reference_counter.h.
References libMesh::ReferenceCounter::_counts, libMesh::Quality::name(), and libMesh::Threads::spin_mtx.
Referenced by libMesh::ReferenceCountedObject< RBParametrized >::~ReferenceCountedObject().
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inherited |
Initializes degrees of freedom on the current mesh. Sets the
Definition at line 237 of file system.C.
References libMesh::System::_basic_system_only, libMesh::System::init_data(), libMesh::System::is_initialized(), libMesh::System::n_vars(), and libMesh::System::user_initialization().
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overrideprotectedvirtualinherited |
Initializes the member data fields associated with the system, so that, e.g., assemble()
may be used.
Reimplemented from libMesh::System.
Reimplemented in libMesh::RBConstructionBase< CondensedEigenSystem >.
Definition at line 116 of file eigen_system.C.
References libMesh::EigenSystem::_eigen_problem_type, libMesh::EigenSystem::_is_generalized_eigenproblem, libMesh::SparseMatrix< T >::build(), libMesh::ParallelObject::comm(), libMesh::GHEP, libMesh::GHIEP, libMesh::GNHEP, libMesh::System::init_data(), libMesh::EigenSystem::init_matrices(), and libMesh::EigenSystem::matrix_A.
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protectedvirtualinherited |
Initializes the matrices associated with the system
Definition at line 135 of file eigen_system.C.
References libMesh::EigenSystem::_is_generalized_eigenproblem, libMesh::DofMap::attach_matrix(), libMesh::SparseMatrix< T >::build(), libMesh::ParallelObject::comm(), libMesh::DofMap::compute_sparsity(), libMesh::System::get_dof_map(), libMesh::System::get_mesh(), libMesh::EigenSystem::matrix_A, and libMesh::EigenSystem::matrix_B.
Referenced by libMesh::EigenSystem::init_data().
void libMesh::CondensedEigenSystem::initialize_condensed_dofs | ( | const std::set< dof_id_type > & | global_condensed_dofs_set = std::set<dof_id_type>() | ) |
Loop over the dofs on each processor to initialize the list of non-condensed dofs. These are the dofs in the system that are not contained in global_dirichlet_dofs_set
and are not subject to constraints due to adaptive mesh hanging nodes, periodic boundary conditions, or Dirichlet boundary conditions.
Most users will not need to use the global_condensed_dofs_set
argument; simply call initialize_condensed_dofs() after any time the EquationSystems (and therefore its constraint equations) gets initialized or reinitialized.
Definition at line 47 of file condensed_eigen_system.C.
References condensed_dofs_initialized, libMesh::DofMap::end_dof(), libMesh::System::get_dof_map(), libMesh::DofMap::is_constrained_dof(), and local_non_condensed_dofs_vector.
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inlineinherited |
Accessor for the adjoint_already_solved boolean
Definition at line 388 of file system.h.
References libMesh::System::adjoint_already_solved.
Referenced by libMesh::ImplicitSystem::adjoint_qoi_parameter_sensitivity(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::AdjointResidualErrorEstimator::estimate_error(), libMesh::ImplicitSystem::qoi_parameter_hessian(), and libMesh::ImplicitSystem::qoi_parameter_hessian_vector_product().
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inlineinherited |
true
iff this system has been initialized. Definition at line 2089 of file system.h.
References libMesh::System::_is_initialized.
Referenced by libMesh::System::add_variable(), libMesh::System::add_variables(), and libMesh::System::init().
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inherited |
Fills the std::set with the degrees of freedom on the local processor corresponding the the variable number passed in.
Definition at line 1277 of file system.C.
References libMesh::DofMap::dof_indices(), libMesh::DofMap::end_dof(), libMesh::DofMap::first_dof(), libMesh::System::get_dof_map(), and libMesh::System::get_mesh().
Referenced by libMesh::System::discrete_var_norm().
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inlineinherited |
Definition at line 2217 of file system.h.
References libMesh::System::n_constrained_dofs(), and libMesh::System::n_dofs().
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inlineinherited |
n_vars()
in the case of all scalar-valued variables. Definition at line 2121 of file system.h.
References libMesh::System::_variables, libMesh::Variable::first_scalar_number(), and libMesh::Variable::n_components().
Referenced by libMesh::System::add_variables().
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inherited |
Definition at line 157 of file system.C.
References libMesh::System::_dof_map.
Referenced by libMesh::System::get_info(), and libMesh::System::n_active_dofs().
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inherited |
Definition at line 150 of file system.C.
References libMesh::System::_dof_map.
Referenced by libMesh::System::add_vector(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::System::get_info(), libMesh::SecondOrderUnsteadySolver::init_data(), libMesh::UnsteadySolver::init_data(), libMesh::System::init_data(), libMesh::OptimizationSystem::initialize_equality_constraints_storage(), libMesh::OptimizationSystem::initialize_inequality_constraints_storage(), libMesh::System::n_active_dofs(), n_global_non_condensed_dofs(), libMesh::FEMSystem::numerical_jacobian(), libMesh::System::read_legacy_data(), libMesh::SecondOrderUnsteadySolver::reinit(), libMesh::UnsteadySolver::reinit(), and libMesh::System::restrict_vectors().
dof_id_type libMesh::CondensedEigenSystem::n_global_non_condensed_dofs | ( | ) | const |
Definition at line 71 of file condensed_eigen_system.C.
References libMesh::ParallelObject::comm(), condensed_dofs_initialized, local_non_condensed_dofs_vector, libMesh::System::n_dofs(), and libMesh::Parallel::Communicator::sum().
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inherited |
Definition at line 172 of file system.C.
References libMesh::System::_dof_map.
Referenced by libMesh::System::get_info().
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inherited |
Definition at line 187 of file system.C.
References libMesh::System::_dof_map, and libMesh::ParallelObject::processor_id().
Referenced by libMesh::System::add_vector(), libMesh::PetscDMWrapper::build_section(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::System::get_info(), libMesh::SecondOrderUnsteadySolver::init_data(), libMesh::UnsteadySolver::init_data(), libMesh::System::init_data(), libMesh::OptimizationSystem::initialize_equality_constraints_storage(), libMesh::OptimizationSystem::initialize_inequality_constraints_storage(), libMesh::SecondOrderUnsteadySolver::reinit(), libMesh::UnsteadySolver::reinit(), and libMesh::System::restrict_vectors().
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inlineoverridevirtualinherited |
Reimplemented from libMesh::System.
Definition at line 226 of file eigen_system.h.
References libMesh::EigenSystem::_is_generalized_eigenproblem.
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inlinestaticinherited |
Prints the number of outstanding (created, but not yet destroyed) objects.
Definition at line 83 of file reference_counter.h.
References libMesh::ReferenceCounter::_n_objects.
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inlineinherited |
Definition at line 95 of file parallel_object.h.
References libMesh::ParallelObject::_communicator, and libMesh::Parallel::Communicator::size().
Referenced by libMesh::BoundaryInfo::_find_id_maps(), libMesh::PetscDMWrapper::add_dofs_to_section(), libMesh::DistributedMesh::add_elem(), libMesh::DistributedMesh::add_node(), libMesh::LaplaceMeshSmoother::allgather_graph(), libMesh::FEMSystem::assembly(), libMesh::AztecLinearSolver< T >::AztecLinearSolver(), libMesh::BoundaryInfo::build_node_list_from_side_list(), libMesh::EquationSystems::build_parallel_elemental_solution_vector(), libMesh::DistributedMesh::clear(), libMesh::Nemesis_IO_Helper::compute_border_node_ids(), libMesh::Nemesis_IO_Helper::construct_nemesis_filename(), libMesh::UnstructuredMesh::create_pid_mesh(), libMesh::MeshTools::create_processor_bounding_box(), libMesh::DofMap::distribute_dofs(), libMesh::DofMap::distribute_local_dofs_node_major(), libMesh::DofMap::distribute_local_dofs_var_major(), libMesh::EnsightIO::EnsightIO(), libMesh::MeshBase::get_info(), libMesh::SystemSubsetBySubdomain::init(), libMesh::PetscDMWrapper::init_and_attach_petscdm(), libMesh::Nemesis_IO_Helper::initialize(), libMesh::DistributedMesh::insert_elem(), libMesh::MeshTools::libmesh_assert_contiguous_dof_ids(), libMesh::MeshTools::libmesh_assert_parallel_consistent_new_node_procids(), libMesh::MeshTools::libmesh_assert_parallel_consistent_procids< Elem >(), libMesh::MeshTools::libmesh_assert_parallel_consistent_procids< Node >(), libMesh::MeshTools::libmesh_assert_topology_consistent_procids< Node >(), libMesh::MeshTools::libmesh_assert_valid_boundary_ids(), libMesh::MeshTools::libmesh_assert_valid_dof_ids(), libMesh::MeshTools::libmesh_assert_valid_neighbors(), libMesh::MeshTools::libmesh_assert_valid_refinement_flags(), libMesh::DofMap::local_variable_indices(), libMesh::MeshRefinement::make_coarsening_compatible(), libMesh::MeshBase::n_active_elem_on_proc(), libMesh::MeshBase::n_elem_on_proc(), libMesh::MeshBase::n_nodes_on_proc(), libMesh::MeshBase::partition(), libMesh::PetscLinearSolver< T >::PetscLinearSolver(), libMesh::System::point_gradient(), libMesh::System::point_hessian(), libMesh::System::point_value(), libMesh::NameBasedIO::read(), libMesh::Nemesis_IO::read(), libMesh::CheckpointIO::read(), libMesh::CheckpointIO::read_connectivity(), libMesh::XdrIO::read_header(), libMesh::CheckpointIO::read_nodes(), libMesh::System::read_parallel_data(), libMesh::System::read_SCALAR_dofs(), libMesh::System::read_serialized_blocked_dof_objects(), libMesh::System::read_serialized_vector(), libMesh::DistributedMesh::renumber_dof_objects(), libMesh::DofMap::set_nonlocal_dof_objects(), libMesh::PetscDMWrapper::set_point_range_in_section(), libMesh::MeshRefinement::uniformly_coarsen(), libMesh::DistributedMesh::update_parallel_id_counts(), libMesh::GMVIO::write_binary(), libMesh::GMVIO::write_discontinuous_gmv(), libMesh::System::write_parallel_data(), libMesh::System::write_SCALAR_dofs(), libMesh::XdrIO::write_serialized_bcs_helper(), libMesh::System::write_serialized_blocked_dof_objects(), libMesh::XdrIO::write_serialized_connectivity(), libMesh::XdrIO::write_serialized_nodes(), and libMesh::XdrIO::write_serialized_nodesets().
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inlineinherited |
Number of currently active quantities of interest.
Definition at line 2278 of file system.h.
References libMesh::System::qoi.
Referenced by libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::ImplicitSystem::adjoint_qoi_parameter_sensitivity(), libMesh::ImplicitSystem::adjoint_solve(), libMesh::SensitivityData::allocate_data(), libMesh::SensitivityData::allocate_hessian_data(), libMesh::ExplicitSystem::assemble_qoi(), libMesh::FEMSystem::assemble_qoi(), libMesh::ExplicitSystem::assemble_qoi_derivative(), libMesh::FEMSystem::assemble_qoi_derivative(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::AdjointResidualErrorEstimator::estimate_error(), libMesh::ImplicitSystem::forward_qoi_parameter_sensitivity(), libMesh::FEMContext::pre_fe_reinit(), libMesh::ImplicitSystem::qoi_parameter_hessian(), libMesh::ImplicitSystem::qoi_parameter_hessian_vector_product(), libMesh::QoISet::size(), and libMesh::ImplicitSystem::weighted_sensitivity_adjoint_solve().
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inlineinherited |
VariableGroup
variable groups in the system Definition at line 2113 of file system.h.
References libMesh::System::_variable_groups.
Referenced by libMesh::System::add_variable(), libMesh::FEMSystem::assembly(), libMesh::System::get_info(), and libMesh::System::init_data().
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inlineinherited |
Definition at line 2105 of file system.h.
References libMesh::System::_variables.
Referenced by libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::PetscDMWrapper::add_dofs_helper(), libMesh::DiffContext::add_localized_vector(), libMesh::System::add_variable(), libMesh::System::add_variables(), libMesh::EquationSystems::build_discontinuous_solution_vector(), libMesh::EquationSystems::build_parallel_elemental_solution_vector(), libMesh::EquationSystems::build_parallel_solution_vector(), libMesh::PetscDMWrapper::build_section(), libMesh::System::calculate_norm(), libMesh::DGFEMContext::DGFEMContext(), libMesh::DiffContext::DiffContext(), libMesh::JumpErrorEstimator::estimate_error(), libMesh::AdjointResidualErrorEstimator::estimate_error(), libMesh::ExactErrorEstimator::estimate_error(), libMesh::ErrorEstimator::estimate_errors(), libMesh::ExactSolution::ExactSolution(), libMesh::System::get_all_variable_numbers(), libMesh::System::init(), libMesh::FEMSystem::init_context(), libMesh::FEMContext::init_internal_data(), libMesh::DGFEMContext::neighbor_side_fe_reinit(), libMesh::WeightedPatchRecoveryErrorEstimator::EstimateError::operator()(), libMesh::PatchRecoveryErrorEstimator::EstimateError::operator()(), libMesh::petsc_auto_fieldsplit(), libMesh::FEMContext::pre_fe_reinit(), libMesh::System::re_update(), libMesh::System::read_legacy_data(), libMesh::System::read_parallel_data(), libMesh::System::read_serialized_blocked_dof_objects(), libMesh::System::read_serialized_vector(), libMesh::System::read_serialized_vectors(), libMesh::HPCoarsenTest::select_refinement(), libMesh::PetscDMWrapper::set_point_range_in_section(), libMesh::SystemSubsetBySubdomain::set_var_nums(), libMesh::System::write_header(), libMesh::System::write_parallel_data(), libMesh::System::write_serialized_blocked_dof_objects(), libMesh::System::write_serialized_vector(), libMesh::System::write_serialized_vectors(), and libMesh::System::zero_variable().
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inlineinherited |
_vectors
map Definition at line 2233 of file system.h.
References libMesh::System::_vectors.
Referenced by libMesh::ExplicitSystem::add_system_rhs(), libMesh::System::compare(), libMesh::System::get_info(), and libMesh::System::write_header().
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inlineinherited |
Definition at line 2017 of file system.h.
References libMesh::System::_sys_name.
Referenced by libMesh::System::compare(), libMesh::ContinuationSystem::ContinuationSystem(), DMlibMeshSetUpName_Private(), libMesh::ExactErrorEstimator::estimate_error(), libMesh::ExactSolution::ExactSolution(), libMesh::ExactErrorEstimator::find_squared_element_error(), libMesh::System::get_info(), libMesh::ImplicitSystem::get_linear_solver(), libMesh::NewtonSolver::init(), libMesh::TimeSolver::init_data(), libMesh::petsc_auto_fieldsplit(), libMesh::TimeSolver::reinit(), libMesh::PetscDiffSolver::setup_petsc_data(), libMesh::FrequencySystem::solve(), libMesh::LinearImplicitSystem::solve(), libMesh::NonlinearImplicitSystem::solve(), libMesh::System::user_assembly(), libMesh::System::user_constrain(), libMesh::System::user_initialization(), libMesh::System::user_QOI(), libMesh::System::user_QOI_derivative(), libMesh::System::write_header(), libMesh::System::write_parallel_data(), and libMesh::System::write_serialized_data().
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inlineinherited |
Definition at line 2025 of file system.h.
References libMesh::System::_sys_number.
Referenced by libMesh::ExactSolution::_compute_error(), libMesh::PetscDMWrapper::add_dofs_helper(), libMesh::System::add_variable(), libMesh::System::add_variables(), libMesh::EquationSystems::build_parallel_solution_vector(), libMesh::ExodusII_IO::copy_elemental_solution(), libMesh::ExodusII_IO::copy_nodal_solution(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::ExactErrorEstimator::find_squared_element_error(), libMesh::System::get_info(), libMesh::System::read_legacy_data(), libMesh::System::read_parallel_data(), libMesh::System::read_serialized_blocked_dof_objects(), libMesh::HPCoarsenTest::select_refinement(), libMesh::PetscDMWrapper::set_point_range_in_section(), libMesh::System::write_parallel_data(), libMesh::System::write_serialized_blocked_dof_objects(), and libMesh::System::zero_variable().
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inherited |
var
at the physical point p
in the mesh, similarly to point_value. Definition at line 2100 of file system.C.
References libMesh::Parallel::Communicator::broadcast(), libMesh::ParallelObject::comm(), libMesh::PointLocatorBase::enable_out_of_mesh_mode(), libMesh::System::get_dof_map(), libMesh::System::get_mesh(), mesh, libMesh::Parallel::Communicator::min(), libMesh::ParallelObject::n_processors(), libMesh::ParallelObject::processor_id(), and libMesh::DofObject::processor_id().
Referenced by libMesh::System::point_gradient().
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inherited |
var
at the physical point p
in local Elem e
in the mesh, similarly to point_value. Definition at line 2154 of file system.C.
References libMesh::TypeVector< T >::add_scaled(), libMesh::FEGenericBase< OutputType >::build(), libMesh::Elem::contains_point(), libMesh::System::current_solution(), libMesh::Elem::dim(), libMesh::DofMap::dof_indices(), libMesh::System::get_dof_map(), libMesh::Elem::infinite(), libMesh::FEInterface::inverse_map(), libMesh::DofMap::is_evaluable(), and libMesh::DofMap::variable_type().
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inherited |
Calls the version of point_gradient() which takes a reference. This function exists only to prevent people from calling the version of point_gradient() that has a boolean third argument, which would result in unnecessary PointLocator calls.
Definition at line 2210 of file system.C.
References libMesh::System::point_gradient().
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inherited |
var
at the physical point p
in the mesh, similarly to point_value. Definition at line 2220 of file system.C.
References libMesh::Parallel::Communicator::broadcast(), libMesh::ParallelObject::comm(), libMesh::PointLocatorBase::enable_out_of_mesh_mode(), libMesh::System::get_dof_map(), libMesh::System::get_mesh(), mesh, libMesh::Parallel::Communicator::min(), libMesh::ParallelObject::n_processors(), libMesh::ParallelObject::processor_id(), and libMesh::DofObject::processor_id().
Referenced by libMesh::System::point_hessian().
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inherited |
var
at the physical point p
in local Elem e
in the mesh, similarly to point_value. Definition at line 2273 of file system.C.
References libMesh::TypeTensor< T >::add_scaled(), libMesh::FEGenericBase< OutputType >::build(), libMesh::Elem::contains_point(), libMesh::System::current_solution(), libMesh::Elem::dim(), libMesh::DofMap::dof_indices(), libMesh::System::get_dof_map(), libMesh::Elem::infinite(), libMesh::FEInterface::inverse_map(), libMesh::DofMap::is_evaluable(), and libMesh::DofMap::variable_type().
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inherited |
Calls the version of point_hessian() which takes a reference. This function exists only to prevent people from calling the version of point_hessian() that has a boolean third argument, which would result in unnecessary PointLocator calls.
Definition at line 2329 of file system.C.
References libMesh::System::point_hessian().
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inherited |
var
at the physical point p
in the mesh, without knowing a priori which element contains p
.MeshBase::sub_point_locator()
; users may or may not want to call MeshBase::clear_point_locator()
afterward. Also, point_locator() is expensive (N log N for initial construction, log N for evaluations). Avoid using this function in any context where you are already looping over elements.Because the element containing p
may lie on any processor, this function is parallel-only.
By default this method expects the point to reside inside the domain and will abort if no element can be found which contains p
. The optional parameter insist_on_success
can be set to false to allow the method to return 0 when the point is not located.
Definition at line 1993 of file system.C.
References libMesh::Parallel::Communicator::broadcast(), libMesh::ParallelObject::comm(), libMesh::PointLocatorBase::enable_out_of_mesh_mode(), libMesh::System::get_dof_map(), libMesh::System::get_mesh(), mesh, libMesh::Parallel::Communicator::min(), libMesh::ParallelObject::n_processors(), libMesh::ParallelObject::processor_id(), and libMesh::DofObject::processor_id().
Referenced by libMesh::System::point_value().
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inherited |
var
at the physical point p
contained in local Elem e
This version of point_value can be run in serial, but assumes e
is in the local mesh partition or is algebraically ghosted.
Definition at line 2046 of file system.C.
References libMesh::FEInterface::compute_data(), libMesh::Elem::contains_point(), libMesh::System::current_solution(), libMesh::Elem::dim(), libMesh::System::get_dof_map(), libMesh::System::get_equation_systems(), and libMesh::FEInterface::inverse_map().
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inherited |
Calls the version of point_value() which takes a reference. This function exists only to prevent people from calling the version of point_value() that has a boolean third argument, which would result in unnecessary PointLocator calls.
Definition at line 2092 of file system.C.
References libMesh::System::point_value().
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staticinherited |
Prints the reference information, by default to libMesh::out
.
Definition at line 87 of file reference_counter.C.
References libMesh::ReferenceCounter::_enable_print_counter, and libMesh::ReferenceCounter::get_info().
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inlineinherited |
Definition at line 101 of file parallel_object.h.
References libMesh::ParallelObject::_communicator, and libMesh::Parallel::Communicator::rank().
Referenced by libMesh::BoundaryInfo::_find_id_maps(), libMesh::EquationSystems::_read_impl(), libMesh::PetscDMWrapper::add_dofs_to_section(), libMesh::DistributedMesh::add_elem(), libMesh::BoundaryInfo::add_elements(), libMesh::DofMap::add_neighbors_to_send_list(), libMesh::DistributedMesh::add_node(), libMesh::UnstructuredMesh::all_second_order(), libMesh::MeshTools::Modification::all_tri(), libMesh::FEMSystem::assembly(), libMesh::EquationSystems::build_discontinuous_solution_vector(), libMesh::Nemesis_IO_Helper::build_element_and_node_maps(), libMesh::InfElemBuilder::build_inf_elem(), libMesh::BoundaryInfo::build_node_list_from_side_list(), libMesh::EquationSystems::build_parallel_elemental_solution_vector(), libMesh::DistributedMesh::clear(), libMesh::ExodusII_IO_Helper::close(), libMesh::Nemesis_IO_Helper::compute_border_node_ids(), libMesh::Nemesis_IO_Helper::compute_communication_map_parameters(), libMesh::Nemesis_IO_Helper::compute_internal_and_border_elems_and_internal_nodes(), libMesh::Nemesis_IO_Helper::compute_node_communication_maps(), libMesh::Nemesis_IO_Helper::compute_num_global_elem_blocks(), libMesh::Nemesis_IO_Helper::compute_num_global_nodesets(), libMesh::Nemesis_IO_Helper::compute_num_global_sidesets(), libMesh::Nemesis_IO_Helper::construct_nemesis_filename(), libMesh::MeshTools::correct_node_proc_ids(), libMesh::ExodusII_IO_Helper::create(), libMesh::DistributedMesh::delete_elem(), libMesh::DistributedMesh::delete_node(), libMesh::MeshCommunication::delete_remote_elements(), libMesh::DofMap::distribute_dofs(), libMesh::DofMap::distribute_local_dofs_node_major(), libMesh::DofMap::distribute_local_dofs_var_major(), libMesh::DistributedMesh::DistributedMesh(), libMesh::DofMap::end_dof(), libMesh::DofMap::end_old_dof(), libMesh::EnsightIO::EnsightIO(), libMesh::MeshFunction::find_element(), libMesh::MeshFunction::find_elements(), libMesh::UnstructuredMesh::find_neighbors(), libMesh::DofMap::first_dof(), libMesh::DofMap::first_old_dof(), libMesh::Nemesis_IO_Helper::get_cmap_params(), libMesh::Nemesis_IO_Helper::get_eb_info_global(), libMesh::Nemesis_IO_Helper::get_elem_cmap(), libMesh::Nemesis_IO_Helper::get_elem_map(), libMesh::MeshBase::get_info(), libMesh::DofMap::get_info(), libMesh::Nemesis_IO_Helper::get_init_global(), libMesh::Nemesis_IO_Helper::get_init_info(), libMesh::Nemesis_IO_Helper::get_loadbal_param(), libMesh::Nemesis_IO_Helper::get_node_cmap(), libMesh::Nemesis_IO_Helper::get_node_map(), libMesh::Nemesis_IO_Helper::get_ns_param_global(), libMesh::Nemesis_IO_Helper::get_ss_param_global(), libMesh::SparsityPattern::Build::handle_vi_vj(), libMesh::SystemSubsetBySubdomain::init(), libMesh::ExodusII_IO_Helper::initialize(), libMesh::ExodusII_IO_Helper::initialize_element_variables(), libMesh::ExodusII_IO_Helper::initialize_global_variables(), libMesh::ExodusII_IO_Helper::initialize_nodal_variables(), libMesh::DistributedMesh::insert_elem(), libMesh::DofMap::is_evaluable(), libMesh::SparsityPattern::Build::join(), libMesh::DofMap::last_dof(), libMesh::MeshTools::libmesh_assert_consistent_distributed(), libMesh::MeshTools::libmesh_assert_consistent_distributed_nodes(), libMesh::MeshTools::libmesh_assert_contiguous_dof_ids(), libMesh::MeshTools::libmesh_assert_parallel_consistent_procids< Elem >(), libMesh::MeshTools::libmesh_assert_valid_neighbors(), libMesh::DistributedMesh::libmesh_assert_valid_parallel_object_ids(), libMesh::DofMap::local_variable_indices(), libMesh::MeshRefinement::make_coarsening_compatible(), libMesh::MeshBase::n_active_local_elem(), libMesh::BoundaryInfo::n_boundary_conds(), libMesh::BoundaryInfo::n_edge_conds(), libMesh::DofMap::n_local_dofs(), libMesh::System::n_local_dofs(), libMesh::MeshBase::n_local_elem(), libMesh::MeshBase::n_local_nodes(), libMesh::BoundaryInfo::n_nodeset_conds(), libMesh::BoundaryInfo::n_shellface_conds(), libMesh::SparsityPattern::Build::operator()(), libMesh::DistributedMesh::own_node(), libMesh::System::point_gradient(), libMesh::System::point_hessian(), libMesh::System::point_value(), libMesh::Nemesis_IO_Helper::put_cmap_params(), libMesh::Nemesis_IO_Helper::put_elem_cmap(), libMesh::Nemesis_IO_Helper::put_elem_map(), libMesh::Nemesis_IO_Helper::put_loadbal_param(), libMesh::Nemesis_IO_Helper::put_node_cmap(), libMesh::Nemesis_IO_Helper::put_node_map(), libMesh::NameBasedIO::read(), libMesh::Nemesis_IO::read(), libMesh::XdrIO::read(), libMesh::CheckpointIO::read(), libMesh::ExodusII_IO_Helper::read_elem_num_map(), libMesh::ExodusII_IO_Helper::read_global_values(), libMesh::CheckpointIO::read_header(), libMesh::XdrIO::read_header(), libMesh::System::read_header(), libMesh::System::read_legacy_data(), libMesh::ExodusII_IO_Helper::read_node_num_map(), libMesh::System::read_parallel_data(), libMesh::System::read_SCALAR_dofs(), libMesh::XdrIO::read_serialized_bc_names(), libMesh::XdrIO::read_serialized_bcs_helper(), libMesh::System::read_serialized_blocked_dof_objects(), libMesh::XdrIO::read_serialized_connectivity(), libMesh::System::read_serialized_data(), libMesh::XdrIO::read_serialized_nodes(), libMesh::XdrIO::read_serialized_nodesets(), libMesh::XdrIO::read_serialized_subdomain_names(), libMesh::System::read_serialized_vector(), libMesh::System::read_serialized_vectors(), libMesh::DistributedMesh::renumber_dof_objects(), libMesh::CheckpointIO::select_split_config(), libMesh::DofMap::set_nonlocal_dof_objects(), libMesh::PetscDMWrapper::set_point_range_in_section(), libMesh::LaplaceMeshSmoother::smooth(), libMesh::MeshTools::total_weight(), libMesh::MeshRefinement::uniformly_coarsen(), libMesh::Parallel::Packing< T >::unpack(), libMesh::DistributedMesh::update_parallel_id_counts(), libMesh::NameBasedIO::write(), libMesh::XdrIO::write(), libMesh::CheckpointIO::write(), libMesh::EquationSystems::write(), libMesh::GMVIO::write_discontinuous_gmv(), libMesh::ExodusII_IO::write_element_data(), libMesh::ExodusII_IO_Helper::write_element_values(), libMesh::ExodusII_IO_Helper::write_elements(), libMesh::ExodusII_IO::write_global_data(), libMesh::ExodusII_IO_Helper::write_global_values(), libMesh::System::write_header(), libMesh::ExodusII_IO::write_information_records(), libMesh::ExodusII_IO_Helper::write_information_records(), libMesh::ExodusII_IO_Helper::write_nodal_coordinates(), libMesh::UCDIO::write_nodal_data(), libMesh::ExodusII_IO::write_nodal_data(), libMesh::ExodusII_IO::write_nodal_data_discontinuous(), libMesh::ExodusII_IO_Helper::write_nodal_values(), libMesh::Nemesis_IO_Helper::write_nodesets(), libMesh::ExodusII_IO_Helper::write_nodesets(), libMesh::System::write_parallel_data(), libMesh::System::write_SCALAR_dofs(), libMesh::XdrIO::write_serialized_bc_names(), libMesh::XdrIO::write_serialized_bcs_helper(), libMesh::System::write_serialized_blocked_dof_objects(), libMesh::XdrIO::write_serialized_connectivity(), libMesh::System::write_serialized_data(), libMesh::XdrIO::write_serialized_nodes(), libMesh::XdrIO::write_serialized_nodesets(), libMesh::XdrIO::write_serialized_subdomain_names(), libMesh::System::write_serialized_vector(), libMesh::System::write_serialized_vectors(), libMesh::Nemesis_IO_Helper::write_sidesets(), libMesh::ExodusII_IO_Helper::write_sidesets(), libMesh::ExodusII_IO::write_timestep(), libMesh::ExodusII_IO_Helper::write_timestep(), and libMesh::ExodusII_IO::write_timestep_discontinuous().
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inherited |
Projects arbitrary functions onto the current solution. The function value f
and its gradient g
are user-provided cloneable functors. A gradient g
is only required/used for projecting onto finite element spaces with continuous derivatives. If non-default Parameters
are to be used, they can be provided in the parameters
argument.
This method projects an arbitrary function onto the solution via L2 projections and nodal interpolations on each element.
Definition at line 810 of file system_projection.C.
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inherited |
Projects arbitrary functions onto the current solution. The function value f
and its gradient g
are user-provided cloneable functors. A gradient g
is only required/used for projecting onto finite element spaces with continuous derivatives. If non-default Parameters
are to be used, they can be provided in the parameters
argument.
This method projects an arbitrary function onto the solution via L2 projections and nodal interpolations on each element.
Definition at line 823 of file system_projection.C.
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inherited |
This method projects an arbitrary function onto the solution via L2 projections and nodal interpolations on each element.
Definition at line 796 of file system_projection.C.
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inlineinherited |
Tells the System whether or not to project the solution vector onto new grids when the system is reinitialized. The solution will be projected unless project_solution_on_reinit() = false is called.
Definition at line 794 of file system.h.
References libMesh::System::_solution_projection.
Referenced by libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::AdjointRefinementEstimator::estimate_error(), and libMesh::MemorySolutionHistory::store().
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inherited |
Projects arbitrary functions onto a vector of degree of freedom values for the current system. The function value f
and its gradient g
are user-provided cloneable functors. A gradient g
is only required/used for projecting onto finite element spaces with continuous derivatives. If non-default Parameters
are to be used, they can be provided in the parameters
argument.
Constrain the new vector using the requested adjoint rather than primal constraints if is_adjoint is non-negative.
This method projects an arbitrary function via L2 projections and nodal interpolations on each element.
Definition at line 851 of file system_projection.C.
Referenced by libMesh::NewmarkSolver::project_initial_accel(), libMesh::SecondOrderUnsteadySolver::project_initial_rate(), and libMesh::System::restrict_vectors().
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inherited |
Projects arbitrary functions onto a vector of degree of freedom values for the current system. The function value f
and its gradient g
are user-provided cloneable functors. A gradient g
is only required/used for projecting onto finite element spaces with continuous derivatives. If non-default Parameters
are to be used, they can be provided in the parameters
argument.
Constrain the new vector using the requested adjoint rather than primal constraints if is_adjoint is non-negative.
This method projects an arbitrary function via L2 projections and nodal interpolations on each element.
Definition at line 877 of file system_projection.C.
References libMesh::NumericVector< T >::close(), libMesh::FEMFunctionBase< Output >::component(), libMesh::Utility::iota(), n_vars, libMesh::Threads::parallel_for(), libMesh::FEMContext::pre_fe_reinit(), libMesh::SCALAR, libMesh::DofMap::SCALAR_dof_indices(), and libMesh::NumericVector< T >::set().
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inherited |
Projects arbitrary functions onto a vector of degree of freedom values for the current system. The function value fptr
and its gradient gptr
are represented by function pointers. A gradient gptr
is only required/used for projecting onto finite element spaces with continuous derivatives.
Constrain the new vector using the requested adjoint rather than primal constraints if is_adjoint is non-negative.
This method projects an arbitrary function via L2 projections and nodal interpolations on each element.
Definition at line 836 of file system_projection.C.
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protectedinherited |
Projects the vector defined on the old mesh onto the new mesh.
Constrain the new vector using the requested adjoint rather than primal constraints if is_adjoint is non-negative.
Definition at line 212 of file system_projection.C.
References libMesh::NumericVector< T >::clone().
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protectedinherited |
Projects the vector defined on the old mesh onto the new mesh. The original vector is unchanged and the new vector is passed through the second argument.
Constrain the new vector using the requested adjoint rather than primal constraints if is_adjoint is non-negative.
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inherited |
This method creates a projection matrix which corresponds to the operation of project_vector between old and new solution spaces.
Heterogeneous Dirichlet boundary conditions are not taken into account here; if this matrix is used for prolongation (mesh refinement) on a side with a heterogeneous BC, the newly created degrees of freedom on that side will still match the coarse grid approximation of the BC, not the fine grid approximation.
This method creates a projection matrix which corresponds to the operation of project_vector between old and new solution spaces.
Definition at line 730 of file system_projection.C.
References libMesh::Utility::iota(), n_vars, libMesh::Threads::parallel_for(), libMesh::SCALAR, libMesh::DofMap::SCALAR_dof_indices(), and libMesh::SparseMatrix< T >::set().
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virtualinherited |
Prolong vectors after the mesh has refined
Definition at line 380 of file system.C.
References libMesh::System::restrict_vectors().
Referenced by libMesh::EquationSystems::reinit_solutions().
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inlinevirtualinherited |
For each of the system's quantities of interest q in qoi
[qoi_indices], and for a vector of parameters p, the parameter sensitivity Hessian H_ij is defined as H_ij = (d^2 q)/(d p_i d p_j) This Hessian is the output of this method, where for each q_i, H_jk is stored in hessian.second_derivative(i,j,k)
.
This method is only implemented in some derived classes.
Reimplemented in libMesh::ImplicitSystem.
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inlinevirtualinherited |
For each of the system's quantities of interest q in qoi
[qoi_indices], and for a vector of parameters p, the parameter sensitivity Hessian H_ij is defined as H_ij = (d^2 q)/(d p_i d p_j) The Hessian-vector product, for a vector v_k in parameter space, is S_j = H_jk v_k This product is the output of this method, where for each q_i, S_j is stored in sensitivities
[i][j].
This method is only implemented in some derived classes.
Reimplemented in libMesh::ImplicitSystem.
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virtualinherited |
Solves for the derivative of each of the system's quantities of interest q in qoi
[qoi_indices] with respect to each parameter in parameters
, placing the result for qoi i
and parameter j
into sensitivities
[i][j].
parameters
is a const vector, not a vector-of-const; parameter values in this vector need to be mutable for finite differencing to work.Automatically chooses the forward method for problems with more quantities of interest than parameters, or the adjoint method otherwise.
This method is only usable in derived classes which override an implementation.
Definition at line 498 of file system.C.
References libMesh::System::adjoint_qoi_parameter_sensitivity(), libMesh::System::forward_qoi_parameter_sensitivity(), libMesh::ParameterVector::size(), and libMesh::QoISet::size().
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virtualinherited |
Re-update the local values when the mesh has changed. This method takes the data updated by update()
and makes it up-to-date on the current mesh.
Reimplemented in libMesh::TransientSystem< RBConstruction >.
Definition at line 429 of file system.C.
References libMesh::System::current_local_solution, libMesh::System::get_dof_map(), libMesh::DofMap::get_send_list(), libMesh::System::n_vars(), and libMesh::System::solution.
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inherited |
Reads the basic data header for this System.
Definition at line 115 of file system_io.C.
References libMesh::System::_additional_data_written, libMesh::System::_written_var_indices, libMesh::System::add_variable(), libMesh::System::add_vector(), libMesh::Parallel::Communicator::broadcast(), libMesh::System::clear(), libMesh::ParallelObject::comm(), libMesh::Xdr::data(), libMesh::FEType::family, libMesh::System::get_mesh(), libMesh::OrderWrapper::get_order(), libMesh::FEType::inf_map, libMesh::MeshBase::mesh_dimension(), libMesh::MONOMIAL, libMesh::on_command_line(), libMesh::FEType::order, libMesh::out, libMesh::ParallelObject::processor_id(), libMesh::FEType::radial_family, libMesh::FEType::radial_order, libMesh::Xdr::reading(), libMesh::System::variable_number(), libMesh::Xdr::version(), and libMesh::XYZ.
Referenced by libMesh::EquationSystems::_read_impl().
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inherited |
Reads additional data, namely vectors, for this System.
Definition at line 310 of file system_io.C.
References libMesh::System::_additional_data_written, libMesh::System::_vectors, libMesh::System::_written_var_indices, libMesh::Parallel::Communicator::broadcast(), libMesh::ParallelObject::comm(), libMesh::Xdr::data(), libMesh::System::get_mesh(), libMesh::DofObject::invalid_id, libMesh::System::n_dofs(), libMesh::System::n_vars(), libMesh::System::number(), libMesh::ParallelObject::processor_id(), libMesh::Xdr::reading(), libMesh::System::solution, and libMesh::zero.
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inherited |
Reads additional data, namely vectors, for this System. This method may safely be called on a distributed-memory mesh. This method will read an individual file for each processor in the simulation where the local solution components for that processor are stored.
This method implements the output of the vectors contained in this System object, embedded in the output of an EquationSystems<T_sys>.
9.) The global solution vector, re-ordered to be node-major (More on this later.)
for each additional vector in the object
10.) The global additional vector, re-ordered to be node-major (More on this later.)
Note that the actual IO is handled through the Xdr class (to be renamed later?) which provides a uniform interface to both the XDR (eXternal Data Representation) interface and standard ASCII output. Thus this one section of code will read XDR or ASCII files with no changes.
Definition at line 493 of file system_io.C.
References libMesh::System::_additional_data_written, libMesh::System::_vectors, libMesh::System::_written_var_indices, libMesh::Xdr::data(), libMesh::FEType::family, libMesh::System::get_dof_map(), libMesh::System::get_mesh(), libMesh::DofObject::invalid_id, libMesh::Xdr::is_open(), libMesh::ParallelObject::n_processors(), libMesh::System::n_vars(), libMesh::System::number(), libMesh::ParallelObject::processor_id(), libMesh::Xdr::reading(), libMesh::SCALAR, libMesh::DofMap::SCALAR_dof_indices(), libMesh::System::solution, libMesh::Variable::type(), and libMesh::System::variable().
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inlineinherited |
Non-templated version for backward compatibility.
Reads additional data, namely vectors, for this System. This method may safely be called on a distributed-memory mesh. This method will read an individual file for each processor in the simulation where the local solution components for that processor are stored.
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inherited |
Reads additional data, namely vectors, for this System. This method may safely be called on a distributed-memory mesh.
Definition at line 725 of file system_io.C.
References libMesh::System::_additional_data_written, libMesh::System::_vectors, libMesh::ParallelObject::processor_id(), and libMesh::System::solution.
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inherited |
Read a number of identically distributed vectors. This method allows for optimization for the multiple vector case by only communicating the metadata once.
Definition at line 2203 of file system_io.C.
References libMesh::Xdr::data(), libMesh::FEType::family, libMesh::System::get_mesh(), libMesh::MeshBase::n_elem(), libMesh::MeshTools::n_elem(), n_nodes, libMesh::MeshBase::n_nodes(), libMesh::System::n_vars(), libMesh::ParallelObject::processor_id(), libMesh::System::read_SCALAR_dofs(), libMesh::System::read_serialized_blocked_dof_objects(), libMesh::Xdr::reading(), libMesh::SCALAR, libMesh::Variable::type(), and libMesh::System::variable().
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inlineinherited |
Non-templated version for backward compatibility.
Read a number of identically distributed vectors. This method allows for optimization for the multiple vector case by only communicating the metadata once.
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overridevirtualinherited |
Reinitializes the member data fields associated with the system, so that, e.g., assemble()
may be used.
Reimplemented from libMesh::System.
Definition at line 165 of file eigen_system.C.
References libMesh::EigenSystem::_is_generalized_eigenproblem, libMesh::DofMap::clear_sparsity(), libMesh::DofMap::compute_sparsity(), libMesh::System::get_dof_map(), libMesh::System::get_mesh(), libMesh::EigenSystem::matrix_A, libMesh::EigenSystem::matrix_B, and libMesh::System::reinit().
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virtualinherited |
Reinitializes the constraints for this system.
Definition at line 397 of file system.C.
References libMesh::System::_mesh, libMesh::DofMap::create_dof_constraints(), libMesh::System::get_dof_map(), libMesh::DofMap::prepare_send_list(), libMesh::DofMap::process_constraints(), libMesh::System::time, and libMesh::System::user_constrain().
Referenced by libMesh::EquationSystems::allgather(), libMesh::System::init_data(), and libMesh::EquationSystems::reinit_solutions().
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inherited |
Removes the additional vector vec_name
from this system
Definition at line 699 of file system.C.
References libMesh::System::_vector_is_adjoint, libMesh::System::_vector_projections, libMesh::System::_vector_types, and libMesh::System::_vectors.
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inherited |
System
has a vector associated with the given name, nullptr
otherwise. Definition at line 716 of file system.C.
References libMesh::System::_vectors.
Referenced by libMesh::UniformRefinementEstimator::_estimate_error().
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inherited |
System
has a vector associated with the given name, nullptr
otherwise. Definition at line 728 of file system.C.
References libMesh::System::_vectors.
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inherited |
vec_num
(where the vectors are counted starting with 0), or nullptr
if the system has no such vector. Definition at line 740 of file system.C.
References libMesh::System::vectors_begin(), and libMesh::System::vectors_end().
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inherited |
vec_num
(where the vectors are counted starting with 0), or nullptr
if the system has no such vector. Definition at line 757 of file system.C.
References libMesh::System::vectors_begin(), and libMesh::System::vectors_end().
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virtualinherited |
After calling this method, any solve will be restricted to the given subdomain. To disable this mode, call this method with subset
being a nullptr
.
Reimplemented in libMesh::LinearImplicitSystem.
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virtualinherited |
Restrict vectors after the mesh has coarsened
Definition at line 324 of file system.C.
References libMesh::System::_dof_map, libMesh::System::_solution_projection, libMesh::System::_vector_projections, libMesh::System::_vector_types, libMesh::System::_vectors, libMesh::System::current_local_solution, libMesh::GHOSTED, libMesh::System::n_dofs(), libMesh::System::n_local_dofs(), libMesh::PARALLEL, libMesh::System::project_vector(), libMesh::System::solution, and libMesh::System::vector_is_adjoint().
Referenced by libMesh::System::prolong_vectors(), and libMesh::EquationSystems::reinit_solutions().
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inlinevirtualinherited |
Solves the sensitivity system, for the provided parameters. Must be overridden in derived systems.
This method is only implemented in some derived classes.
Reimplemented in libMesh::ImplicitSystem.
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inlineinherited |
Setter for the adjoint_already_solved boolean
Definition at line 394 of file system.h.
References libMesh::System::adjoint_already_solved.
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inlineinherited |
Sets the system to be "basic only": i.e. advanced system components such as ImplicitSystem matrices may not be initialized. This is useful for efficiency in certain utility programs that never use System::solve(). This method must be called after the System or derived class is created but before it is initialized; e.g. from within EquationSystems::read()
Definition at line 2097 of file system.h.
References libMesh::System::_basic_system_only.
Referenced by libMesh::EquationSystems::_read_impl().
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inherited |
Sets the type of the current eigen problem.
Definition at line 77 of file eigen_system.C.
References libMesh::EigenSystem::_eigen_problem_type, libMesh::EigenSystem::eigen_solver, libMesh::GHEP, libMesh::GHIEP, libMesh::GNHEP, libMesh::HEP, and libMesh::NHEP.
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inlineprotectedinherited |
Set the _n_converged_eigenpairs member, useful for subclasses of EigenSystem.
Definition at line 186 of file eigen_system.h.
References libMesh::EigenSystem::_n_converged_eigenpairs.
Referenced by solve().
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inlineprotectedinherited |
Set the _n_iterations member, useful for subclasses of EigenSystem.
Definition at line 193 of file eigen_system.h.
References libMesh::EigenSystem::_n_iterations.
Referenced by solve().
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inherited |
Allows one to set the QoI index controlling whether the vector identified by vec_name represents a solution from the adjoint (qoi_num >= 0) or primal (qoi_num == -1) space. This becomes significant if those spaces have differing heterogeneous Dirichlet constraints.
qoi_num == -2 can be used to indicate a vector which should not be affected by constraints during projection operations.
Definition at line 885 of file system.C.
References libMesh::System::_vector_is_adjoint.
Referenced by libMesh::System::add_adjoint_solution(), and libMesh::System::add_weighted_sensitivity_adjoint_solution().
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inherited |
Allows one to set the boolean controlling whether the vector identified by vec_name should be "preserved": projected to new meshes, saved, etc.
Definition at line 867 of file system.C.
References libMesh::System::_vector_projections.
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overridevirtual |
Override to solve the condensed eigenproblem with the dofs in local_non_condensed_dofs_vector stripped out of the system matrices on each processor.
Reimplemented from libMesh::EigenSystem.
Definition at line 88 of file condensed_eigen_system.C.
References libMesh::EigenSystem::assemble(), libMesh::System::assemble_before_solve, condensed_dofs_initialized, condensed_matrix_A, condensed_matrix_B, libMesh::EigenSystem::eigen_solver, libMesh::EigenSystem::generalized(), libMesh::Parameters::get(), libMesh::System::get_equation_systems(), libMesh::Parameters::have_parameter(), local_non_condensed_dofs_vector, libMesh::EigenSystem::matrix_A, libMesh::EigenSystem::matrix_B, libMesh::EquationSystems::parameters, libMesh::Real, libMesh::EigenSystem::set_n_converged(), libMesh::EigenSystem::set_n_iterations(), and libMesh::EigenSystem::solve().
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inline |
Definition at line 71 of file condensed_eigen_system.h.
|
inlineoverridevirtualinherited |
"Eigen"
. Helps in identifying the system type in an equation system file. Reimplemented from libMesh::System.
Definition at line 118 of file eigen_system.h.
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virtualinherited |
Update the local values to reflect the solution on neighboring processors.
Definition at line 408 of file system.C.
References libMesh::System::_dof_map, libMesh::System::current_local_solution, and libMesh::System::solution.
Referenced by libMesh::__libmesh_petsc_diff_solver_jacobian(), libMesh::__libmesh_petsc_diff_solver_residual(), libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::FEMSystem::assemble_qoi(), libMesh::FEMSystem::assemble_qoi_derivative(), libMesh::NonlinearImplicitSystem::assembly(), libMesh::EquationSystems::build_parallel_elemental_solution_vector(), libMesh::EquationSystems::build_parallel_solution_vector(), libMesh::NewmarkSolver::compute_initial_accel(), libMesh::Problem_Interface::computeF(), libMesh::Problem_Interface::computeJacobian(), libMesh::Problem_Interface::computePreconditioner(), libMesh::ExodusII_IO::copy_elemental_solution(), libMesh::ExodusII_IO::copy_nodal_solution(), libMesh::GMVIO::copy_nodal_solution(), DMlibMeshFunction(), DMlibMeshJacobian(), libMesh::AdjointRefinementEstimator::estimate_error(), get_eigenpair(), libMesh::libmesh_petsc_snes_jacobian(), libMesh::libmesh_petsc_snes_residual_helper(), libMesh::NewtonSolver::line_search(), libMesh::FEMSystem::mesh_position_get(), libMesh::FEMSystem::postprocess(), libMesh::ImplicitSystem::qoi_parameter_hessian(), libMesh::NewtonSolver::solve(), libMesh::ExplicitSystem::solve(), libMesh::LinearImplicitSystem::solve(), libMesh::NonlinearImplicitSystem::solve(), and libMesh::OptimizationSystem::solve().
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inherited |
Fill the input vector global_soln
so that it contains the global solution on all processors. Requires communication with all other processors.
Definition at line 642 of file system.C.
References libMesh::System::solution.
Referenced by libMesh::ExactSolution::_compute_error(), libMesh::EquationSystems::build_discontinuous_solution_vector(), and libMesh::ExactErrorEstimator::estimate_error().
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Fill the input vector global_soln
so that it contains the global solution on processor dest_proc
. Requires communication with all other processors.
Definition at line 651 of file system.C.
References libMesh::System::solution.
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Calls user's attached assembly function, or is overridden by the user in derived classes.
Definition at line 1932 of file system.C.
References libMesh::System::_assemble_system_function, libMesh::System::_assemble_system_object, libMesh::System::_equation_systems, libMesh::System::Assembly::assemble(), and libMesh::System::name().
Referenced by libMesh::System::assemble().
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Calls user's attached constraint function, or is overridden by the user in derived classes.
Definition at line 1946 of file system.C.
References libMesh::System::_constrain_system_function, libMesh::System::_constrain_system_object, libMesh::System::_equation_systems, libMesh::System::Constraint::constrain(), and libMesh::System::name().
Referenced by libMesh::System::reinit_constraints().
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Calls user's attached initialization function, or is overridden by the user in derived classes.
Definition at line 1918 of file system.C.
References libMesh::System::_equation_systems, libMesh::System::_init_system_function, libMesh::System::_init_system_object, libMesh::System::Initialization::initialize(), and libMesh::System::name().
Referenced by libMesh::System::init(), and libMesh::NewmarkSystem::initial_conditions().
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Calls user's attached quantity of interest function, or is overridden by the user in derived classes.
Definition at line 1960 of file system.C.
References libMesh::System::_equation_systems, libMesh::System::_qoi_evaluate_function, libMesh::System::_qoi_evaluate_object, libMesh::System::name(), and libMesh::System::QOI::qoi().
Referenced by libMesh::System::assemble_qoi().
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Calls user's attached quantity of interest derivative function, or is overridden by the user in derived classes.
Definition at line 1974 of file system.C.
References libMesh::System::_equation_systems, libMesh::System::_qoi_evaluate_derivative_function, libMesh::System::_qoi_evaluate_derivative_object, libMesh::System::name(), and libMesh::System::QOIDerivative::qoi_derivative().
Referenced by libMesh::System::assemble_qoi_derivative().
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Return a constant reference to Variable
var
.
Definition at line 2133 of file system.h.
References libMesh::System::_variables.
Referenced by libMesh::ExactSolution::_compute_error(), libMesh::PetscDMWrapper::add_dofs_to_section(), libMesh::DifferentiableSystem::add_second_order_dot_vars(), libMesh::EquationSystems::build_discontinuous_solution_vector(), libMesh::EquationSystems::build_parallel_elemental_solution_vector(), libMesh::EquationSystems::build_parallel_solution_vector(), libMesh::FirstOrderUnsteadySolver::compute_second_order_eqns(), libMesh::DifferentiableSystem::have_first_order_scalar_vars(), libMesh::DifferentiableSystem::have_second_order_scalar_vars(), libMesh::System::read_parallel_data(), libMesh::System::read_SCALAR_dofs(), libMesh::System::read_serialized_vector(), libMesh::System::read_serialized_vectors(), libMesh::PetscDMWrapper::set_point_range_in_section(), libMesh::System::write_header(), libMesh::System::write_parallel_data(), libMesh::System::write_serialized_vector(), and libMesh::System::write_serialized_vectors().
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Return a constant reference to VariableGroup
vg
.
Definition at line 2143 of file system.h.
References libMesh::System::_variable_groups.
Referenced by libMesh::FEMSystem::assembly(), and libMesh::System::get_info().
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i
. Definition at line 2153 of file system.h.
References libMesh::System::_variables.
Referenced by libMesh::System::add_variable(), libMesh::System::add_variables(), libMesh::EquationSystems::build_parallel_elemental_solution_vector(), libMesh::PetscDMWrapper::build_section(), libMesh::ExactErrorEstimator::estimate_error(), libMesh::ExactSolution::ExactSolution(), libMesh::petsc_auto_fieldsplit(), and libMesh::System::write_header().
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var
. Definition at line 1243 of file system.C.
References libMesh::System::_variable_numbers, and libMesh::System::_variables.
Referenced by libMesh::ExactSolution::_compute_error(), libMesh::ExodusII_IO::copy_elemental_solution(), libMesh::ExodusII_IO::copy_nodal_solution(), libMesh::GMVIO::copy_nodal_solution(), libMesh::ExactErrorEstimator::estimate_error(), libMesh::ExactErrorEstimator::find_squared_element_error(), libMesh::System::read_header(), libMesh::System::variable_scalar_number(), libMesh::System::variable_type(), libMesh::EnsightIO::write_scalar_ascii(), and libMesh::EnsightIO::write_vector_ascii().
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variable_number(var)
Irony: currently our only non-scalar-valued variable type is SCALAR.
Definition at line 2164 of file system.h.
References libMesh::System::variable_number().
Referenced by libMesh::ExactSolution::_compute_error(), and libMesh::ExactErrorEstimator::find_squared_element_error().
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var_num
Irony: currently our only non-scalar-valued variable type is SCALAR.
Definition at line 2174 of file system.h.
References libMesh::System::_variables.
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i
. Definition at line 2183 of file system.h.
References libMesh::System::_variables.
Referenced by libMesh::System::add_variable(), libMesh::System::add_variables(), libMesh::EquationSystems::build_discontinuous_solution_vector(), libMesh::EquationSystems::build_parallel_elemental_solution_vector(), libMesh::EquationSystems::build_parallel_solution_vector(), libMesh::ExodusII_IO::copy_elemental_solution(), libMesh::GMVIO::copy_nodal_solution(), libMesh::DGFEMContext::DGFEMContext(), libMesh::JumpErrorEstimator::estimate_error(), libMesh::FEMSystem::init_context(), libMesh::FEMContext::init_internal_data(), libMesh::System::write_header(), libMesh::EnsightIO::write_scalar_ascii(), and libMesh::EnsightIO::write_vector_ascii().
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var
. Definition at line 2193 of file system.h.
References libMesh::System::_variables, and libMesh::System::variable_number().
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Definition at line 896 of file system.C.
References libMesh::System::_vector_is_adjoint.
Referenced by libMesh::System::restrict_vectors().
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vec_num
(where the vectors are counted starting with 0). Definition at line 832 of file system.C.
References libMesh::System::vectors_begin(), and libMesh::System::vectors_end().
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Definition at line 846 of file system.C.
References libMesh::System::vectors_begin(), and libMesh::System::vectors_end().
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Definition at line 875 of file system.C.
References libMesh::System::_vector_projections.
Referenced by libMesh::MemorySolutionHistory::store().
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Beginning of vectors container
Definition at line 2245 of file system.h.
References libMesh::System::_vectors.
Referenced by libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::System::get_vector(), libMesh::System::request_vector(), libMesh::MemorySolutionHistory::store(), and libMesh::System::vector_name().
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Beginning of vectors container
Definition at line 2251 of file system.h.
References libMesh::System::_vectors.
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End of vectors container
Definition at line 2257 of file system.h.
References libMesh::System::_vectors.
Referenced by libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::System::get_vector(), libMesh::System::request_vector(), libMesh::MemorySolutionHistory::store(), and libMesh::System::vector_name().
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End of vectors container
Definition at line 2263 of file system.h.
References libMesh::System::_vectors.
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Assembles & solves the linear system(s) (dR/du)^T*z_w = sum(w_p*(d^2q/dudp - d^2R/dudp*z)), for those parameters p contained within parameters
, weighted by the values w_p found within weights
.
Assumes that adjoint_solve has already calculated z for each qoi in qoi_indices
.
This method is only implemented in some derived classes.
Reimplemented in libMesh::ImplicitSystem.
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Assembles & solves the linear system(s) (dR/du)*u_w = sum(w_p*-dR/dp), for those parameters p contained within parameters
weighted by the values w_p found within weights
.
This method is only implemented in some derived classes.
Reimplemented in libMesh::ImplicitSystem.
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Writes the basic data header for this System.
This method implements the output of a System object, embedded in the output of an EquationSystems<T_sys>. This warrants some documentation. The output of this part consists of 5 sections:
for this system
5.) The number of variables in the system (unsigned int)
for each variable in the system
6.) The name of the variable (string)
6.1.) subdomain where the variable lives
7.) Combined in an FEType:
end variable loop
8.) The number of additional vectors (unsigned int),
for each additional vector in the system object
9.) the name of the additional vector (string)
end system
Definition at line 1299 of file system_io.C.
References libMesh::System::_vectors, libMesh::Variable::active_subdomains(), libMesh::Xdr::data(), libMesh::FEType::family, libMesh::System::get_mesh(), libMesh::FEType::inf_map, libMesh::System::n_vars(), libMesh::System::n_vectors(), libMesh::System::name(), libMesh::FEType::order, libMesh::ParallelObject::processor_id(), libMesh::FEType::radial_family, libMesh::FEType::radial_order, libMesh::System::variable(), libMesh::System::variable_name(), libMesh::System::variable_type(), and libMesh::Xdr::writing().
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Writes additional data, namely vectors, for this System. This method may safely be called on a distributed-memory mesh. This method will create an individual file for each processor in the simulation where the local solution components for that processor will be stored.
This method implements the output of the vectors contained in this System object, embedded in the output of an EquationSystems<T_sys>.
9.) The global solution vector, re-ordered to be node-major (More on this later.)
for each additional vector in the object
10.) The global additional vector, re-ordered to be node-major (More on this later.)
Note that the actual IO is handled through the Xdr class (to be renamed later?) which provides a uniform interface to both the XDR (eXternal Data Representation) interface and standard ASCII output. Thus this one section of code will read XDR or ASCII files with no changes.
Definition at line 1504 of file system_io.C.
References libMesh::System::_vectors, libMesh::Xdr::data(), libMesh::FEType::family, libMesh::System::get_dof_map(), libMesh::System::get_mesh(), libMesh::DofObject::invalid_id, libMesh::ParallelObject::n_processors(), libMesh::System::n_vars(), libMesh::System::name(), libMesh::System::number(), libMesh::ParallelObject::processor_id(), libMesh::SCALAR, libMesh::DofMap::SCALAR_dof_indices(), libMesh::System::solution, libMesh::Variable::type(), libMesh::System::variable(), and libMesh::Xdr::writing().
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Writes additional data, namely vectors, for this System. This method may safely be called on a distributed-memory mesh.
This method implements the output of the vectors contained in this System object, embedded in the output of an EquationSystems<T_sys>.
9.) The global solution vector, re-ordered to be node-major (More on this later.)
for each additional vector in the object
10.) The global additional vector, re-ordered to be node-major (More on this later.)
Definition at line 1704 of file system_io.C.
References libMesh::System::_vectors, libMesh::Xdr::comment(), libMesh::System::name(), libMesh::ParallelObject::processor_id(), libMesh::System::solution, and libMesh::System::write_serialized_vector().
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Serialize & write a number of identically distributed vectors. This method allows for optimization for the multiple vector case by only communicating the metadata once.
Definition at line 2297 of file system_io.C.
References libMesh::Xdr::data(), libMesh::FEType::family, libMesh::System::get_mesh(), libMesh::MeshBase::n_elem(), libMesh::MeshTools::n_elem(), n_nodes, libMesh::MeshBase::n_nodes(), libMesh::System::n_vars(), libMesh::ParallelObject::processor_id(), libMesh::SCALAR, libMesh::Variable::type(), libMesh::System::variable(), libMesh::System::write_SCALAR_dofs(), libMesh::System::write_serialized_blocked_dof_objects(), and libMesh::Xdr::writing().
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Zeroes all dofs in v
that correspond to variable number var_num
.
Definition at line 1322 of file system.C.
References libMesh::System::get_mesh(), mesh, libMesh::System::n_vars(), libMesh::System::number(), and libMesh::NumericVector< T >::set().
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Definition at line 107 of file parallel_object.h.
Referenced by libMesh::EquationSystems::build_parallel_elemental_solution_vector(), libMesh::EquationSystems::build_parallel_solution_vector(), libMesh::ParallelObject::comm(), libMesh::ParallelObject::n_processors(), libMesh::ParallelObject::operator=(), and libMesh::ParallelObject::processor_id().
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Actually holds the data.
Definition at line 122 of file reference_counter.h.
Referenced by libMesh::ReferenceCounter::get_info(), libMesh::ReferenceCounter::increment_constructor_count(), and libMesh::ReferenceCounter::increment_destructor_count().
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Flag to control whether reference count information is printed when print_info is called.
Definition at line 141 of file reference_counter.h.
Referenced by libMesh::ReferenceCounter::disable_print_counter_info(), libMesh::ReferenceCounter::enable_print_counter_info(), and libMesh::ReferenceCounter::print_info().
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Mutual exclusion object to enable thread-safe reference counting.
Definition at line 135 of file reference_counter.h.
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The number of objects. Print the reference count information when the number returns to 0.
Definition at line 130 of file reference_counter.h.
Referenced by libMesh::ReferenceCounter::n_objects(), libMesh::ReferenceCounter::ReferenceCounter(), and libMesh::ReferenceCounter::~ReferenceCounter().
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Flag which tells the system to whether or not to call the user assembly function during each call to solve(). By default, every call to solve() begins with a call to the user assemble, so this flag is true. (For explicit systems, "solving" the system occurs during the assembly step, so this flag is always true for explicit systems.)
You will only want to set this to false if you need direct control over when the system is assembled, and are willing to track the state of its assembly yourself. An example of such a case is an implicit system with multiple right hand sides. In this instance, a single assembly would likely be followed with multiple calls to solve.
The frequency system and Newmark system have their own versions of this flag, called _finished_assemble, which might be able to be replaced with this more general concept.
Definition at line 1477 of file system.h.
Referenced by libMesh::ImplicitSystem::adjoint_solve(), libMesh::ImplicitSystem::disable_cache(), libMesh::System::disable_cache(), libMesh::ImplicitSystem::sensitivity_solve(), solve(), libMesh::EigenSystem::solve(), and libMesh::LinearImplicitSystem::solve().
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A private flag to indicate whether the condensed dofs have been initialized.
Definition at line 132 of file condensed_eigen_system.h.
Referenced by get_eigenpair(), initialize_condensed_dofs(), n_global_non_condensed_dofs(), and solve().
std::unique_ptr<SparseMatrix<Number> > libMesh::CondensedEigenSystem::condensed_matrix_A |
The (condensed) system matrix for standard eigenvalue problems.
Definition at line 112 of file condensed_eigen_system.h.
Referenced by solve().
std::unique_ptr<SparseMatrix<Number> > libMesh::CondensedEigenSystem::condensed_matrix_B |
A second (condensed) system matrix for generalized eigenvalue problems.
Definition at line 117 of file condensed_eigen_system.h.
Referenced by solve().
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All the values I need to compute my contribution to the simulation at hand. Think of this as the current solution with any ghost values needed from other processors. This vector is necessarily larger than the solution
vector in the case of a parallel simulation. The update()
member is used to synchronize the contents of the solution
and current_local_solution
vectors.
Definition at line 1535 of file system.h.
Referenced by libMesh::__libmesh_petsc_diff_solver_jacobian(), libMesh::__libmesh_petsc_diff_solver_residual(), libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::NonlinearImplicitSystem::assembly(), libMesh::EquationSystems::build_parallel_elemental_solution_vector(), libMesh::EquationSystems::build_parallel_solution_vector(), libMesh::System::clear(), libMesh::Problem_Interface::computeF(), libMesh::Problem_Interface::computeJacobian(), libMesh::Problem_Interface::computePreconditioner(), libMesh::System::current_solution(), DMlibMeshFunction(), DMlibMeshJacobian(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::ExactErrorEstimator::estimate_error(), libMesh::System::init_data(), libMesh::libmesh_petsc_snes_fd_residual(), libMesh::libmesh_petsc_snes_jacobian(), libMesh::libmesh_petsc_snes_mffd_residual(), libMesh::libmesh_petsc_snes_residual(), libMesh::libmesh_petsc_snes_residual_helper(), libMesh::FEMContext::pre_fe_reinit(), libMesh::System::re_update(), libMesh::System::reinit(), libMesh::System::restrict_vectors(), and libMesh::System::update().
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The EigenSolver, defining which interface, i.e solver package to use.
Definition at line 165 of file eigen_system.h.
Referenced by libMesh::EigenSystem::clear(), get_eigenpair(), libMesh::EigenSystem::get_eigenpair(), libMesh::EigenSystem::set_eigenproblem_type(), solve(), and libMesh::EigenSystem::solve().
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A member int that can be employed to indicate increased or reduced quadrature order.
std::vector<dof_id_type> libMesh::CondensedEigenSystem::local_non_condensed_dofs_vector |
Vector storing the local dof indices that will not be condensed. All dofs that are not in this vector will be eliminated from the system when we perform a solve.
Definition at line 124 of file condensed_eigen_system.h.
Referenced by get_eigenpair(), initialize_condensed_dofs(), n_global_non_condensed_dofs(), and solve().
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The system matrix for standard eigenvalue problems.
Definition at line 154 of file eigen_system.h.
Referenced by libMesh::EigenSystem::clear(), libMesh::EigenSystem::init_data(), libMesh::EigenSystem::init_matrices(), libMesh::EigenSystem::reinit(), solve(), and libMesh::EigenSystem::solve().
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A second system matrix for generalized eigenvalue problems.
Definition at line 159 of file eigen_system.h.
Referenced by libMesh::EigenSystem::clear(), libMesh::EigenSystem::init_matrices(), libMesh::EigenSystem::reinit(), solve(), and libMesh::EigenSystem::solve().
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Values of the quantities of interest. This vector needs to be both resized and filled by the user before any quantity of interest assembly is done and before any sensitivities are calculated.
Definition at line 1558 of file system.h.
Referenced by libMesh::ImplicitSystem::adjoint_qoi_parameter_sensitivity(), libMesh::ExplicitSystem::assemble_qoi(), libMesh::FEMSystem::assemble_qoi(), libMesh::DifferentiableSystem::attach_qoi(), libMesh::DiffContext::DiffContext(), libMesh::ImplicitSystem::forward_qoi_parameter_sensitivity(), libMesh::System::n_qois(), libMesh::ImplicitSystem::qoi_parameter_hessian(), and libMesh::ImplicitSystem::qoi_parameter_hessian_vector_product().
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Data structure to hold solution values.
Definition at line 1523 of file system.h.
Referenced by libMesh::__libmesh_petsc_diff_solver_jacobian(), libMesh::__libmesh_petsc_diff_solver_residual(), libMesh::ExactSolution::_compute_error(), libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::NewmarkSolver::advance_timestep(), libMesh::AdaptiveTimeSolver::advance_timestep(), libMesh::UnsteadySolver::advance_timestep(), libMesh::ContinuationSystem::apply_predictor(), libMesh::FEMSystem::assembly(), libMesh::LinearImplicitSystem::assembly(), libMesh::EquationSystems::build_parallel_elemental_solution_vector(), libMesh::EquationSystems::build_parallel_solution_vector(), libMesh::System::clear(), libMesh::System::compare(), libMesh::NewmarkSolver::compute_initial_accel(), libMesh::Problem_Interface::computeF(), libMesh::Problem_Interface::computeJacobian(), libMesh::Problem_Interface::computePreconditioner(), libMesh::ContinuationSystem::continuation_solve(), libMesh::ExodusII_IO::copy_elemental_solution(), libMesh::ExodusII_IO::copy_nodal_solution(), libMesh::GMVIO::copy_nodal_solution(), DMCreateGlobalVector_libMesh(), DMlibMeshFunction(), DMlibMeshJacobian(), libMesh::UnsteadySolver::du(), libMesh::DofMap::enforce_constraints_exactly(), libMesh::WeightedPatchRecoveryErrorEstimator::estimate_error(), libMesh::PatchRecoveryErrorEstimator::estimate_error(), libMesh::JumpErrorEstimator::estimate_error(), libMesh::AdjointRefinementEstimator::estimate_error(), libMesh::AdjointResidualErrorEstimator::estimate_error(), libMesh::ExactErrorEstimator::estimate_error(), get_eigenpair(), libMesh::EigenSystem::get_eigenpair(), libMesh::System::init_data(), libMesh::ContinuationSystem::initialize_tangent(), libMesh::libmesh_petsc_snes_jacobian(), libMesh::libmesh_petsc_snes_postcheck(), libMesh::libmesh_petsc_snes_residual_helper(), libMesh::DofMap::max_constraint_error(), libMesh::FEMSystem::mesh_position_get(), libMesh::ErrorVector::plot_error(), libMesh::ImplicitSystem::qoi_parameter_hessian(), libMesh::ImplicitSystem::qoi_parameter_hessian_vector_product(), libMesh::System::re_update(), libMesh::System::read_legacy_data(), libMesh::System::read_parallel_data(), libMesh::System::read_serialized_data(), libMesh::System::reinit(), libMesh::System::restrict_vectors(), libMesh::MemorySolutionHistory::retrieve(), libMesh::ContinuationSystem::save_current_solution(), libMesh::TwostepTimeSolver::solve(), libMesh::NewtonSolver::solve(), libMesh::PetscDiffSolver::solve(), libMesh::FrequencySystem::solve(), libMesh::LinearImplicitSystem::solve(), libMesh::NonlinearImplicitSystem::solve(), libMesh::ContinuationSystem::solve_tangent(), libMesh::MemorySolutionHistory::store(), libMesh::System::update(), libMesh::System::update_global_solution(), libMesh::ContinuationSystem::update_solution(), libMesh::NewmarkSystem::update_u_v_a(), libMesh::System::write_parallel_data(), and libMesh::System::write_serialized_data().
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For time-dependent problems, this is the time t at the beginning of the current timestep.
Definition at line 1545 of file system.h.
Referenced by libMesh::UnsteadySolver::adjoint_advance_timestep(), libMesh::AdaptiveTimeSolver::advance_timestep(), libMesh::UnsteadySolver::advance_timestep(), libMesh::ExactErrorEstimator::find_squared_element_error(), libMesh::MemorySolutionHistory::find_stored_entry(), libMesh::WeightedPatchRecoveryErrorEstimator::EstimateError::operator()(), libMesh::System::reinit_constraints(), libMesh::MemorySolutionHistory::retrieve(), libMesh::TwostepTimeSolver::solve(), and libMesh::MemorySolutionHistory::store().
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A boolean to be set to true by systems using elem_fixed_solution, for optional use by e.g. stabilized methods. False by default.
Definition at line 1493 of file system.h.
Referenced by libMesh::EulerSolver::_general_residual(), libMesh::Euler2Solver::_general_residual(), libMesh::SteadySolver::_general_residual(), libMesh::NewmarkSolver::_general_residual(), libMesh::DifferentiableSystem::clear(), libMesh::DiffContext::DiffContext(), and libMesh::FEMContext::pre_fe_reinit().