libMesh::Preconditioner< T > Class Template Referenceabstract

#include <linear_solver.h>

Inheritance diagram for libMesh::Preconditioner< T >:

Public Member Functions

 Preconditioner (const libMesh::Parallel::Communicator &comm)
 
virtual ~Preconditioner ()
 
bool initialized () const
 
virtual void apply (const NumericVector< T > &x, NumericVector< T > &y)=0
 
virtual void clear ()
 
virtual void init ()
 
virtual void setup ()
 
void set_matrix (SparseMatrix< Number > &mat)
 
PreconditionerType type () const
 
void set_type (const PreconditionerType pct)
 
const Parallel::Communicatorcomm () const
 
processor_id_type n_processors () const
 
processor_id_type processor_id () const
 

Static Public Member Functions

static Preconditioner< T > * build (const libMesh::Parallel::Communicator &comm LIBMESH_CAN_DEFAULT_TO_COMMWORLD, const SolverPackage solver_package=libMesh::default_solver_package())
 
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 ()
 

Protected Types

typedef std::map< std::string, std::pair< unsigned int, unsigned int > > Counts
 

Protected Member Functions

void increment_constructor_count (const std::string &name)
 
void increment_destructor_count (const std::string &name)
 

Protected Attributes

SparseMatrix< T > * _matrix
 
PreconditionerType _preconditioner_type
 
bool _is_initialized
 
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
 

Detailed Description

template<typename T>
class libMesh::Preconditioner< T >

This class provides a uniform interface for preconditioners. This base class can be inherited from to wrap preconditioners from different packages like PETSc or Trilinos.

In the below comments P is the matrix to be preconditioned with Apply() performing the equivalent of the matrix vector product P^-1 x. This can also be thought of as (usually approximately) solving for Py=x.

Author
Derek Gaston
Date
2009

Definition at line 46 of file linear_solver.h.

Member Typedef Documentation

typedef std::map<std::string, std::pair<unsigned int, unsigned int> > libMesh::ReferenceCounter::Counts
protectedinherited

Data structure to log the information. The log is identified by the class name.

Definition at line 119 of file reference_counter.h.

Constructor & Destructor Documentation

template<typename T >
libMesh::Preconditioner< T >::Preconditioner ( const libMesh::Parallel::Communicator comm)
inline

Constructor. Initializes Preconditioner data structures.

Definition at line 152 of file preconditioner.h.

152  :
153  ParallelObject(comm_in),
156  _is_initialized (false)
157 {
158 }
ParallelObject(const Parallel::Communicator &comm_in)
const class libmesh_nullptr_t libmesh_nullptr
PreconditionerType _preconditioner_type
SparseMatrix< T > * _matrix
template<typename T >
libMesh::Preconditioner< T >::~Preconditioner ( )
inlinevirtual

Destructor.

Definition at line 164 of file preconditioner.h.

References libMesh::Preconditioner< T >::clear().

165 {
166  this->clear ();
167 }

Member Function Documentation

template<typename T>
virtual void libMesh::Preconditioner< T >::apply ( const NumericVector< T > &  x,
NumericVector< T > &  y 
)
pure virtual

Computes the preconditioned vector y based on input vector x. This is usually done by solving $ Py=x $ to get the action of $ P^-1 x $.

Implemented in libMesh::TrilinosPreconditioner< T >, libMesh::PetscPreconditioner< T >, and libMesh::EigenPreconditioner< T >.

Referenced by libMesh::Preconditioner< Number >::initialized().

template<typename T>
Preconditioner< T > * libMesh::Preconditioner< T >::build ( const libMesh::Parallel::Communicator &comm  LIBMESH_CAN_DEFAULT_TO_COMMWORLD,
const SolverPackage  solver_package = libMesh::default_solver_package() 
)
static

Builds a Preconditioner using the linear solver package specified by solver_package

Definition at line 38 of file preconditioner.C.

References libMesh::EIGEN_SOLVERS, libMesh::libmesh_ignore(), libmesh_nullptr, libMesh::PETSC_SOLVERS, and libMesh::TRILINOS_SOLVERS.

40 {
41  // Avoid unused parameter warnings when no solver packages are enabled.
43 
44  // Build the appropriate solver
45  switch (solver_package)
46  {
47 
48 #ifdef LIBMESH_HAVE_PETSC
49  case PETSC_SOLVERS:
50  {
51  return new PetscPreconditioner<T>(comm);
52  }
53 #endif
54 
55 #ifdef LIBMESH_TRILINOS_HAVE_EPETRA
56  case TRILINOS_SOLVERS:
57  return new TrilinosPreconditioner<T>(comm);
58 #endif
59 
60 #ifdef LIBMESH_HAVE_EIGEN
61  case EIGEN_SOLVERS:
62  return new EigenPreconditioner<T>(comm);
63 #endif
64 
65  default:
66  libmesh_error_msg("ERROR: Unrecognized solver package: " << solver_package);
67  }
68 
69  return libmesh_nullptr;
70 }
EIGEN_SOLVERS
Definition: libmesh.C:262
TRILINOS_SOLVERS
Definition: libmesh.C:260
const class libmesh_nullptr_t libmesh_nullptr
void libmesh_ignore(const T &)
const Parallel::Communicator & comm() const
template<typename T>
virtual void libMesh::Preconditioner< T >::clear ( )
inlinevirtual

Release all memory and clear data structures.

Reimplemented in libMesh::TrilinosPreconditioner< T >, libMesh::PetscPreconditioner< T >, and libMesh::EigenPreconditioner< T >.

Definition at line 96 of file preconditioner.h.

Referenced by libMesh::Preconditioner< T >::~Preconditioner().

96 {}
const Parallel::Communicator& libMesh::ParallelObject::comm ( ) const
inlineinherited
Returns
A reference to the Parallel::Communicator object used by this mesh.

Definition at line 87 of file parallel_object.h.

References libMesh::ParallelObject::_communicator.

Referenced by libMesh::__libmesh_petsc_diff_solver_monitor(), libMesh::__libmesh_petsc_diff_solver_residual(), libMesh::__libmesh_petsc_snes_jacobian(), libMesh::__libmesh_petsc_snes_postcheck(), libMesh::__libmesh_petsc_snes_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::ParmetisPartitioner::_do_repartition(), libMesh::UniformRefinementEstimator::_estimate_error(), libMesh::BoundaryInfo::_find_id_maps(), libMesh::PetscLinearSolver< T >::_petsc_shell_matrix_get_diagonal(), libMesh::SlepcEigenSolver< T >::_petsc_shell_matrix_get_diagonal(), libMesh::PetscLinearSolver< T >::_petsc_shell_matrix_mult(), libMesh::SlepcEigenSolver< 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::ImplicitSystem::add_matrix(), libMesh::System::add_vector(), libMesh::EigenSparseLinearSolver< T >::adjoint_solve(), libMesh::UnstructuredMesh::all_second_order(), libMesh::MeshTools::Modification::all_tri(), libMesh::LaplaceMeshSmoother::allgather_graph(), libMesh::FEMSystem::assemble_qoi(), libMesh::MeshCommunication::assign_global_indices(), libMesh::ParmetisPartitioner::assign_partitioning(), libMesh::DofMap::attach_matrix(), libMesh::Parallel::BinSorter< KeyType, IdxType >::binsort(), libMesh::Parallel::Sort< KeyType, IdxType >::binsort(), libMesh::MeshCommunication::broadcast(), libMesh::SparseMatrix< T >::build(), libMesh::MeshTools::Generation::build_extrusion(), libMesh::Parallel::Histogram< KeyType, IdxType >::build_histogram(), libMesh::PetscNonlinearSolver< T >::build_mat_null_space(), libMesh::BoundaryInfo::build_node_list_from_side_list(), libMesh::EquationSystems::build_parallel_solution_vector(), libMesh::MeshBase::cache_elem_dims(), libMesh::System::calculate_norm(), libMesh::DofMap::check_dirichlet_bcid_consistency(), libMesh::DistributedVector< T >::clone(), libMesh::EigenSparseVector< T >::clone(), libMesh::LaspackVector< T >::clone(), libMesh::EpetraVector< T >::clone(), libMesh::PetscVector< T >::clone(), libMesh::EpetraVector< T >::close(), libMesh::Parallel::Sort< KeyType, IdxType >::communicate_bins(), 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::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(), libMesh::MeshCommunication::gather(), libMesh::MeshCommunication::gather_neighboring_elements(), libMesh::CondensedEigenSystem::get_eigenpair(), libMesh::DofMap::get_info(), libMesh::ImplicitSystem::get_linear_solver(), libMesh::EquationSystems::get_solution(), libMesh::LocationMap< T >::init(), libMesh::PetscDiffSolver::init(), libMesh::TimeSolver::init(), libMesh::TopologyMap::init(), libMesh::TaoOptimizationSolver< T >::init(), libMesh::PetscNonlinearSolver< T >::init(), libMesh::DistributedVector< T >::init(), libMesh::EpetraVector< T >::init(), libMesh::PetscVector< T >::init(), libMesh::SystemSubsetBySubdomain::init(), libMesh::EigenSystem::init_data(), libMesh::EigenSystem::init_matrices(), libMesh::ParmetisPartitioner::initialize(), libMesh::OptimizationSystem::initialize_equality_constraints_storage(), libMesh::OptimizationSystem::initialize_inequality_constraints_storage(), 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::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::DistributedVector< T >::max(), libMesh::FEMSystem::mesh_position_set(), libMesh::MeshSerializer::MeshSerializer(), libMesh::DistributedVector< T >::min(), libMesh::DistributedMesh::n_active_elem(), libMesh::MeshTools::n_active_levels(), libMesh::BoundaryInfo::n_boundary_conds(), libMesh::BoundaryInfo::n_edge_conds(), libMesh::CondensedEigenSystem::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::Partitioner::partition(), libMesh::MetisPartitioner::partition_range(), libMesh::Partitioner::partition_unpartitioned_elements(), libMesh::petsc_auto_fieldsplit(), libMesh::System::point_gradient(), libMesh::System::point_hessian(), libMesh::System::point_value(), libMesh::MeshBase::prepare_for_use(), libMesh::SparseMatrix< T >::print(), libMesh::Nemesis_IO::read(), libMesh::CheckpointIO::read(), libMesh::XdrIO::read(), libMesh::CheckpointIO::read_header(), libMesh::XdrIO::read_serialized_bc_names(), libMesh::XdrIO::read_serialized_bcs_helper(), libMesh::XdrIO::read_serialized_connectivity(), libMesh::XdrIO::read_serialized_nodes(), libMesh::XdrIO::read_serialized_nodesets(), libMesh::XdrIO::read_serialized_subdomain_names(), libMesh::MeshBase::recalculate_n_partitions(), libMesh::MeshCommunication::redistribute(), libMesh::DistributedMesh::renumber_dof_objects(), libMesh::MeshCommunication::send_coarse_ghosts(), libMesh::Partitioner::set_node_processor_ids(), libMesh::DofMap::set_nonlocal_dof_objects(), libMesh::Partitioner::set_parent_processor_ids(), libMesh::LaplaceMeshSmoother::smooth(), libMesh::Parallel::Sort< KeyType, IdxType >::sort(), libMesh::MeshBase::subdomain_ids(), libMesh::BoundaryInfo::sync(), libMesh::Parallel::sync_element_data_by_parent_id(), libMesh::Parallel::sync_node_data_by_element_id(), libMesh::MeshRefinement::test_level_one(), libMesh::MeshRefinement::test_unflagged(), libMesh::MeshTools::total_weight(), libMesh::MeshRefinement::uniformly_coarsen(), libMesh::NameBasedIO::write(), libMesh::XdrIO::write(), libMesh::XdrIO::write_serialized_bcs_helper(), libMesh::XdrIO::write_serialized_connectivity(), libMesh::XdrIO::write_serialized_nodes(), libMesh::XdrIO::write_serialized_nodesets(), libMesh::DistributedVector< T >::zero_clone(), libMesh::EigenSparseVector< T >::zero_clone(), libMesh::LaspackVector< T >::zero_clone(), libMesh::EpetraVector< T >::zero_clone(), and libMesh::PetscVector< T >::zero_clone().

88  { return _communicator; }
const Parallel::Communicator & _communicator
void libMesh::ReferenceCounter::disable_print_counter_info ( )
staticinherited
void libMesh::ReferenceCounter::enable_print_counter_info ( )
staticinherited

Methods to enable/disable the reference counter output from print_info()

Definition at line 101 of file reference_counter.C.

References libMesh::ReferenceCounter::_enable_print_counter.

Referenced by libMesh::ReferenceCounter::n_objects().

102 {
103  _enable_print_counter = true;
104  return;
105 }
std::string libMesh::ReferenceCounter::get_info ( )
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().

48 {
49 #if defined(LIBMESH_ENABLE_REFERENCE_COUNTING) && defined(DEBUG)
50 
51  std::ostringstream oss;
52 
53  oss << '\n'
54  << " ---------------------------------------------------------------------------- \n"
55  << "| Reference count information |\n"
56  << " ---------------------------------------------------------------------------- \n";
57 
58  for (Counts::iterator it = _counts.begin();
59  it != _counts.end(); ++it)
60  {
61  const std::string name(it->first);
62  const unsigned int creations = it->second.first;
63  const unsigned int destructions = it->second.second;
64 
65  oss << "| " << name << " reference count information:\n"
66  << "| Creations: " << creations << '\n'
67  << "| Destructions: " << destructions << '\n';
68  }
69 
70  oss << " ---------------------------------------------------------------------------- \n";
71 
72  return oss.str();
73 
74 #else
75 
76  return "";
77 
78 #endif
79 }
std::string name(const ElemQuality q)
Definition: elem_quality.C:39
void libMesh::ReferenceCounter::increment_constructor_count ( const std::string &  name)
inlineprotectedinherited

Increments the construction counter. Should be called in the constructor of any derived class that will be reference counted.

Definition at line 185 of file reference_counter.h.

References libMesh::ReferenceCounter::_counts, libMesh::Quality::name(), and libMesh::Threads::spin_mtx.

Referenced by libMesh::ReferenceCounter::n_objects(), and libMesh::ReferenceCountedObject< RBParametrized >::ReferenceCountedObject().

186 {
187  Threads::spin_mutex::scoped_lock lock(Threads::spin_mtx);
188  std::pair<unsigned int, unsigned int> & p = _counts[name];
189 
190  p.first++;
191 }
std::string name(const ElemQuality q)
Definition: elem_quality.C:39
spin_mutex spin_mtx
Definition: threads.C:29
void libMesh::ReferenceCounter::increment_destructor_count ( const std::string &  name)
inlineprotectedinherited

Increments the destruction counter. Should be called in the destructor of any derived class that will be reference counted.

Definition at line 198 of file reference_counter.h.

References libMesh::ReferenceCounter::_counts, libMesh::Quality::name(), and libMesh::Threads::spin_mtx.

Referenced by libMesh::ReferenceCounter::n_objects(), and libMesh::ReferenceCountedObject< RBParametrized >::~ReferenceCountedObject().

199 {
200  Threads::spin_mutex::scoped_lock lock(Threads::spin_mtx);
201  std::pair<unsigned int, unsigned int> & p = _counts[name];
202 
203  p.second++;
204 }
std::string name(const ElemQuality q)
Definition: elem_quality.C:39
spin_mutex spin_mtx
Definition: threads.C:29
template<typename T>
virtual void libMesh::Preconditioner< T >::init ( )
inlinevirtual

Initialize data structures if not done so already.

Note
This MUST be called before the preconditioning object is used.

Reimplemented in libMesh::TrilinosPreconditioner< T >, libMesh::PetscPreconditioner< T >, and libMesh::EigenPreconditioner< T >.

Definition at line 103 of file preconditioner.h.

103 {}
template<typename T>
bool libMesh::Preconditioner< T >::initialized ( ) const
inline
Returns
true if the data structures are initialized, false otherwise.

Definition at line 84 of file preconditioner.h.

84 { return _is_initialized; }
static unsigned int libMesh::ReferenceCounter::n_objects ( )
inlinestaticinherited
processor_id_type libMesh::ParallelObject::n_processors ( ) const
inlineinherited
Returns
The number of processors in the group.

Definition at line 93 of file parallel_object.h.

References libMesh::ParallelObject::_communicator, and libMesh::Parallel::Communicator::size().

Referenced by libMesh::ParmetisPartitioner::_do_repartition(), libMesh::BoundaryInfo::_find_id_maps(), libMesh::DistributedMesh::add_elem(), libMesh::DistributedMesh::add_node(), libMesh::LaplaceMeshSmoother::allgather_graph(), libMesh::FEMSystem::assembly(), libMesh::ParmetisPartitioner::assign_partitioning(), libMesh::AztecLinearSolver< T >::AztecLinearSolver(), libMesh::MeshCommunication::broadcast(), libMesh::BoundaryInfo::build_node_list_from_side_list(), libMesh::DistributedMesh::clear(), libMesh::Nemesis_IO_Helper::compute_border_node_ids(), libMesh::Nemesis_IO_Helper::construct_nemesis_filename(), libMesh::MeshTools::correct_node_proc_ids(), 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::DistributedMesh::DistributedMesh(), libMesh::EnsightIO::EnsightIO(), libMesh::MeshCommunication::gather(), libMesh::MeshCommunication::gather_neighboring_elements(), libMesh::MeshBase::get_info(), libMesh::EquationSystems::get_solution(), libMesh::DistributedVector< T >::init(), libMesh::SystemSubsetBySubdomain::init(), libMesh::ParmetisPartitioner::initialize(), libMesh::Nemesis_IO_Helper::initialize(), libMesh::DistributedMesh::insert_elem(), 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::SparsityPattern::Build::parallel_sync(), libMesh::Partitioner::partition(), libMesh::MeshBase::partition(), libMesh::Partitioner::partition_unpartitioned_elements(), libMesh::PetscLinearSolver< T >::PetscLinearSolver(), libMesh::System::point_gradient(), libMesh::System::point_hessian(), libMesh::System::point_value(), libMesh::SparseMatrix< T >::print(), libMesh::NameBasedIO::read(), libMesh::Nemesis_IO::read(), libMesh::CheckpointIO::read(), libMesh::XdrIO::read(), libMesh::CheckpointIO::read_connectivity(), libMesh::CheckpointIO::read_nodes(), libMesh::MeshCommunication::redistribute(), libMesh::DistributedMesh::renumber_dof_objects(), libMesh::Partitioner::repartition(), libMesh::MeshCommunication::send_coarse_ghosts(), libMesh::Partitioner::set_node_processor_ids(), libMesh::DofMap::set_nonlocal_dof_objects(), libMesh::Parallel::Sort< KeyType, IdxType >::sort(), libMesh::MeshRefinement::uniformly_coarsen(), libMesh::DistributedMesh::update_parallel_id_counts(), libMesh::GMVIO::write_binary(), libMesh::GMVIO::write_discontinuous_gmv(), libMesh::XdrIO::write_serialized_bcs_helper(), libMesh::XdrIO::write_serialized_connectivity(), libMesh::XdrIO::write_serialized_nodes(), and libMesh::XdrIO::write_serialized_nodesets().

94  { return cast_int<processor_id_type>(_communicator.size()); }
unsigned int size() const
Definition: parallel.h:722
const Parallel::Communicator & _communicator
void libMesh::ReferenceCounter::print_info ( std::ostream &  out = libMesh::out)
staticinherited

Prints the reference information, by default to libMesh::out.

Definition at line 88 of file reference_counter.C.

References libMesh::ReferenceCounter::_enable_print_counter, and libMesh::ReferenceCounter::get_info().

Referenced by libMesh::LibMeshInit::LibMeshInit().

89 {
91  out_stream << ReferenceCounter::get_info();
92 }
static std::string get_info()
processor_id_type libMesh::ParallelObject::processor_id ( ) const
inlineinherited
Returns
The rank of this processor in the group.

Definition at line 99 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::DistributedMesh::add_elem(), libMesh::BoundaryInfo::add_elements(), libMesh::DofMap::add_neighbors_to_send_list(), libMesh::DistributedMesh::add_node(), libMesh::MeshRefinement::add_node(), libMesh::MeshTools::Modification::all_tri(), libMesh::FEMSystem::assembly(), libMesh::ParmetisPartitioner::assign_partitioning(), libMesh::MeshCommunication::broadcast(), libMesh::EquationSystems::build_discontinuous_solution_vector(), libMesh::Nemesis_IO_Helper::build_element_and_node_maps(), libMesh::ParmetisPartitioner::build_graph(), libMesh::InfElemBuilder::build_inf_elem(), libMesh::BoundaryInfo::build_node_list_from_side_list(), libMesh::DofMap::build_sparsity(), 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::EnsightIO::EnsightIO(), libMesh::MeshFunction::find_element(), libMesh::MeshFunction::find_elements(), libMesh::UnstructuredMesh::find_neighbors(), libMesh::MeshCommunication::gather(), libMesh::MeshCommunication::gather_neighboring_elements(), 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::EquationSystems::get_solution(), libMesh::Nemesis_IO_Helper::get_ss_param_global(), libMesh::SparsityPattern::Build::handle_vi_vj(), libMesh::DistributedVector< T >::init(), libMesh::SystemSubsetBySubdomain::init(), libMesh::ParmetisPartitioner::initialize(), 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::MeshTools::libmesh_assert_parallel_consistent_procids< Elem >(), libMesh::MeshTools::libmesh_assert_parallel_consistent_procids< Node >(), 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::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::WeightedPatchRecoveryErrorEstimator::EstimateError::operator()(), libMesh::SparsityPattern::Build::operator()(), libMesh::PatchRecoveryErrorEstimator::EstimateError::operator()(), libMesh::SparsityPattern::Build::parallel_sync(), libMesh::MetisPartitioner::partition_range(), libMesh::System::point_gradient(), libMesh::System::point_hessian(), libMesh::System::point_value(), libMesh::SparseMatrix< T >::print(), libMesh::NumericVector< T >::print_global(), 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::CheckpointIO::read(), libMesh::XdrIO::read(), libMesh::ExodusII_IO_Helper::read_elem_num_map(), libMesh::CheckpointIO::read_header(), libMesh::ExodusII_IO_Helper::read_node_num_map(), libMesh::XdrIO::read_serialized_bc_names(), libMesh::XdrIO::read_serialized_bcs_helper(), libMesh::XdrIO::read_serialized_connectivity(), libMesh::XdrIO::read_serialized_nodes(), libMesh::XdrIO::read_serialized_nodesets(), libMesh::XdrIO::read_serialized_subdomain_names(), libMesh::MeshCommunication::redistribute(), libMesh::DistributedMesh::renumber_dof_objects(), libMesh::MeshCommunication::send_coarse_ghosts(), libMesh::Partitioner::set_node_processor_ids(), libMesh::DofMap::set_nonlocal_dof_objects(), libMesh::LaplaceMeshSmoother::smooth(), libMesh::MeshTools::total_weight(), libMesh::MeshRefinement::uniformly_coarsen(), libMesh::Parallel::Packing< Node * >::unpack(), libMesh::Parallel::Packing< Elem * >::unpack(), libMesh::DistributedMesh::update_parallel_id_counts(), libMesh::MeshTools::weight(), libMesh::NameBasedIO::write(), libMesh::CheckpointIO::write(), libMesh::XdrIO::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::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::XdrIO::write_serialized_bc_names(), libMesh::XdrIO::write_serialized_bcs_helper(), libMesh::XdrIO::write_serialized_connectivity(), libMesh::XdrIO::write_serialized_nodes(), libMesh::XdrIO::write_serialized_nodesets(), libMesh::XdrIO::write_serialized_subdomain_names(), libMesh::Nemesis_IO_Helper::write_sidesets(), libMesh::ExodusII_IO_Helper::write_sidesets(), libMesh::ExodusII_IO::write_timestep(), and libMesh::ExodusII_IO_Helper::write_timestep().

100  { return cast_int<processor_id_type>(_communicator.rank()); }
const Parallel::Communicator & _communicator
unsigned int rank() const
Definition: parallel.h:720
template<typename T >
void libMesh::Preconditioner< T >::set_matrix ( SparseMatrix< Number > &  mat)

Sets the matrix to be preconditioned.

Definition at line 171 of file preconditioner.h.

References libMesh::Preconditioner< T >::_is_initialized, and libMesh::Preconditioner< T >::_matrix.

Referenced by libMesh::Preconditioner< Number >::setup().

172 {
173  //If the matrix is changing then we (probably) need to reinitialize.
174  _is_initialized = false;
175  _matrix = &mat;
176 }
SparseMatrix< T > * _matrix
template<typename T >
void libMesh::Preconditioner< T >::set_type ( const PreconditionerType  pct)

Sets the type of preconditioner to use.

Definition at line 180 of file preconditioner.h.

References libMesh::Preconditioner< T >::_is_initialized, and libMesh::Preconditioner< T >::_preconditioner_type.

Referenced by libMesh::Preconditioner< Number >::type().

181 {
182  //If the preconditioner type changes we (probably) need to reinitialize.
183  _is_initialized = false;
184  _preconditioner_type = pct;
185 }
PreconditionerType _preconditioner_type
template<typename T>
virtual void libMesh::Preconditioner< T >::setup ( )
inlinevirtual

This is called every time the "operator might have changed".

This is where you need to fill in your preconditioning matrix.

Definition at line 110 of file preconditioner.h.

110 {}
template<typename T>
PreconditionerType libMesh::Preconditioner< T >::type ( ) const
inline
Returns
The type of preconditioner to use.

Definition at line 120 of file preconditioner.h.

120 { return _preconditioner_type; }
PreconditionerType _preconditioner_type

Member Data Documentation

ReferenceCounter::Counts libMesh::ReferenceCounter::_counts
staticprotectedinherited
bool libMesh::ReferenceCounter::_enable_print_counter = true
staticprotectedinherited

Flag to control whether reference count information is printed when print_info is called.

Definition at line 143 of file reference_counter.h.

Referenced by libMesh::ReferenceCounter::disable_print_counter_info(), libMesh::ReferenceCounter::enable_print_counter_info(), and libMesh::ReferenceCounter::print_info().

template<typename T>
bool libMesh::Preconditioner< T >::_is_initialized
protected

Flag indicating if the data structures have been initialized.

Definition at line 143 of file preconditioner.h.

Referenced by libMesh::Preconditioner< Number >::initialized(), libMesh::Preconditioner< T >::set_matrix(), and libMesh::Preconditioner< T >::set_type().

template<typename T>
SparseMatrix<T>* libMesh::Preconditioner< T >::_matrix
protected

The matrix P... ie the matrix to be preconditioned. This is often the actual system matrix of a linear system.

Definition at line 133 of file preconditioner.h.

Referenced by libMesh::Preconditioner< T >::set_matrix().

Threads::spin_mutex libMesh::ReferenceCounter::_mutex
staticprotectedinherited

Mutual exclusion object to enable thread-safe reference counting.

Definition at line 137 of file reference_counter.h.

Threads::atomic< unsigned int > libMesh::ReferenceCounter::_n_objects
staticprotectedinherited

The number of objects. Print the reference count information when the number returns to 0.

Definition at line 132 of file reference_counter.h.

Referenced by libMesh::ReferenceCounter::n_objects(), libMesh::ReferenceCounter::ReferenceCounter(), and libMesh::ReferenceCounter::~ReferenceCounter().

template<typename T>
PreconditionerType libMesh::Preconditioner< T >::_preconditioner_type
protected

Enum stating with type of preconditioner to use.

Definition at line 138 of file preconditioner.h.

Referenced by libMesh::Preconditioner< T >::set_type(), and libMesh::Preconditioner< Number >::type().


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