#include <diff_solver.h>

Inheritance diagram for libMesh::DiffSolver:

Public Types
enum	SolveResult { INVALID_SOLVE_RESULT = 0, CONVERGED_NO_REASON = 1, CONVERGED_ABSOLUTE_RESIDUAL = 2, CONVERGED_RELATIVE_RESIDUAL = 4, CONVERGED_ABSOLUTE_STEP = 8, CONVERGED_RELATIVE_STEP = 16, DIVERGED_NO_REASON = 32, DIVERGED_MAX_NONLINEAR_ITERATIONS = 64, DIVERGED_BACKTRACKING_FAILURE = 128, DIVERGED_LINEAR_SOLVER_FAILURE = 256 }
typedef ImplicitSystem	sys_type
Public Member Functions
	DiffSolver (sys_type &s)
virtual	~DiffSolver ()
virtual void	init ()
virtual void	reinit ()
virtual unsigned int	solve ()=0
unsigned int	total_outer_iterations ()
unsigned int	total_inner_iterations ()
unsigned int	solve_result ()
const sys_type &	system () const
sys_type &	system ()
const Parallel::Communicator &	comm () const
processor_id_type	n_processors () const
processor_id_type	processor_id () const
Static Public Member Functions
static UniquePtr< DiffSolver >	build (sys_type &s)
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
unsigned int	max_linear_iterations
unsigned int	max_nonlinear_iterations
bool	quiet
bool	verbose
bool	continue_after_max_iterations
bool	continue_after_backtrack_failure
Real	absolute_residual_tolerance
Real	relative_residual_tolerance
Real	absolute_step_tolerance
Real	relative_step_tolerance
Real	initial_linear_tolerance
Real	minimum_linear_tolerance
UniquePtr< LinearSolutionMonitor >	linear_solution_monitor
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
Real	max_solution_norm
Real	max_residual_norm
unsigned int	_outer_iterations
unsigned int	_inner_iterations
sys_type &	_system
unsigned int	_solve_result
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

This is a generic class that defines a solver to handle ImplicitSystem classes, including NonlinearImplicitSystem and DifferentiableSystem A user can define a solver by deriving from this class and implementing certain functions.

This class is part of the new DifferentiableSystem framework, which is still experimental. Users of this framework should beware of bugs and future API changes.

Author:: Roy H. Stogner 2006-2010

Definition at line 68 of file diff_solver.h.

Member Typedef Documentation

typedef std::map<std::string, std::pair<unsigned int, unsigned int> > libMesh::ReferenceCounter::Counts [protected, inherited]

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

Definition at line 113 of file reference_counter.h.

typedef ImplicitSystem libMesh::DiffSolver::sys_type

The type of system

Definition at line 75 of file diff_solver.h.

Member Enumeration Documentation

enum libMesh::DiffSolver::SolveResult

Enumeration return type for the solve() function. Multiple SolveResults may be combined (OR'd) in the single return. To test which ones are present, just AND the return value with any of the SolveResult flags defined below.

Enumerator:

INVALID_SOLVE_RESULT	A default or invalid solve result. This usually means no solve has occurred yet.
CONVERGED_NO_REASON	The solver converged but no particular reason is specified.
CONVERGED_ABSOLUTE_RESIDUAL	The DiffSolver achieved the desired absolute residual tolerance.
CONVERGED_RELATIVE_RESIDUAL	The DiffSolver achieved the desired relative residual tolerance.
CONVERGED_ABSOLUTE_STEP	The DiffSolver achieved the desired absolute step size tolerance.
CONVERGED_RELATIVE_STEP	The DiffSolver achieved the desired relative step size tolerance.
DIVERGED_NO_REASON	The DiffSolver diverged but no particular reason is specified.
DIVERGED_MAX_NONLINEAR_ITERATIONS	The DiffSolver reached the maximum allowed number of nonlinear iterations before satisfying any convergence tests.
DIVERGED_BACKTRACKING_FAILURE	The DiffSolver failed to find a descent direction by backtracking (See newton_solver.C)
DIVERGED_LINEAR_SOLVER_FAILURE	The linear solver used by the DiffSolver failed to find a solution.

Definition at line 218 of file diff_solver.h.

                   {
    INVALID_SOLVE_RESULT = 0,

    CONVERGED_NO_REASON = 1,

    CONVERGED_ABSOLUTE_RESIDUAL = 2,

    CONVERGED_RELATIVE_RESIDUAL = 4,

    CONVERGED_ABSOLUTE_STEP = 8,

    CONVERGED_RELATIVE_STEP = 16,

    DIVERGED_NO_REASON = 32,

    DIVERGED_MAX_NONLINEAR_ITERATIONS = 64,

    DIVERGED_BACKTRACKING_FAILURE = 128,

    DIVERGED_LINEAR_SOLVER_FAILURE = 256
  };

Constructor & Destructor Documentation

libMesh::DiffSolver::DiffSolver ( sys_type & s )

Constructor. Requires a reference to the system to be solved.

Definition at line 28 of file diff_solver.C.

  : ParallelObject(s),
    max_linear_iterations(1000),
    max_nonlinear_iterations(100),
    quiet(true),
    verbose(false),
    continue_after_max_iterations(true),
    continue_after_backtrack_failure(false),
    absolute_residual_tolerance(0.),
    relative_residual_tolerance(0.),
    absolute_step_tolerance(0.),
    relative_step_tolerance(0.),
    initial_linear_tolerance(1e-12),
    minimum_linear_tolerance(TOLERANCE*TOLERANCE),
    max_solution_norm(0.),
    max_residual_norm(0.),
    _outer_iterations(0),
    _inner_iterations(0),
    _system (s),
    _solve_result(INVALID_SOLVE_RESULT)
{
}

virtual libMesh::DiffSolver::~DiffSolver ( ) [inline, virtual]

Destructor.

Definition at line 92 of file diff_solver.h.

{}

Member Function Documentation

UniquePtr< DiffSolver > libMesh::DiffSolver::build ( sys_type & s ) [static]

Factory. Requires a reference to the system to be solved. Returns a NewtonSolver by default

Definition at line 53 of file diff_solver.C.

Referenced by libMesh::TimeSolver::init().

{
  return UniquePtr<DiffSolver>(new NewtonSolver(s));
}

const Parallel::Communicator& libMesh::ParallelObject::comm ( ) const [inline, inherited]

Returns:: a reference to the Parallel::Communicator object used by this mesh.

Definition at line 86 of file parallel_object.h.

References libMesh::ParallelObject::_communicator.

  { return _communicator; }

void libMesh::ReferenceCounter::disable_print_counter_info ( ) [static, inherited]

Definition at line 106 of file reference_counter.C.

References libMesh::ReferenceCounter::_enable_print_counter.

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

{
  _enable_print_counter = false;
  return;
}

void libMesh::ReferenceCounter::enable_print_counter_info ( ) [static, inherited]

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.

{
  _enable_print_counter = true;
  return;
}

std::string libMesh::ReferenceCounter::get_info ( ) [static, inherited]

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().

{
#if defined(LIBMESH_ENABLE_REFERENCE_COUNTING) && defined(DEBUG)

  std::ostringstream oss;

  oss << '\n'
      << " ---------------------------------------------------------------------------- \n"
      << "| Reference count information                                                |\n"
      << " ---------------------------------------------------------------------------- \n";

  for (Counts::iterator it = _counts.begin();
       it != _counts.end(); ++it)
    {
      const std::string name(it->first);
      const unsigned int creations    = it->second.first;
      const unsigned int destructions = it->second.second;

      oss << "| " << name << " reference count information:\n"
          << "|  Creations:    " << creations    << '\n'
          << "|  Destructions: " << destructions << '\n';
    }

  oss << " ---------------------------------------------------------------------------- \n";

  return oss.str();

#else

  return "";

#endif
}

void libMesh::ReferenceCounter::increment_constructor_count ( const std::string & name ) [inline, protected, inherited]

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

Definition at line 163 of file reference_counter.h.

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

Referenced by libMesh::ReferenceCountedObject< RBParametrized >::ReferenceCountedObject().

{
  Threads::spin_mutex::scoped_lock lock(Threads::spin_mtx);
  std::pair<unsigned int, unsigned int>& p = _counts[name];

  p.first++;
}

void libMesh::ReferenceCounter::increment_destructor_count ( const std::string & name ) [inline, protected, inherited]

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

Definition at line 176 of file reference_counter.h.

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

Referenced by libMesh::ReferenceCountedObject< RBParametrized >::~ReferenceCountedObject().

{
  Threads::spin_mutex::scoped_lock lock(Threads::spin_mtx);
  std::pair<unsigned int, unsigned int>& p = _counts[name];

  p.second++;
}

void libMesh::DiffSolver::init ( ) [virtual]

The initialization function. This method is used to initialize internal data structures before a simulation begins.

Reimplemented in libMesh::PetscDiffSolver, and libMesh::NewtonSolver.

Definition at line 69 of file diff_solver.C.

References max_residual_norm, and max_solution_norm.

Referenced by libMesh::NewtonSolver::init().

{
  // Reset the max_step_size and max_residual_norm for a new problem
  max_solution_norm = 0.;
  max_residual_norm = 0.;
}

static unsigned int libMesh::ReferenceCounter::n_objects ( ) [inline, static, inherited]

Prints the number of outstanding (created, but not yet destroyed) objects.

Definition at line 79 of file reference_counter.h.

References libMesh::ReferenceCounter::_n_objects.

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

  { return _n_objects; }

processor_id_type libMesh::ParallelObject::n_processors ( ) const [inline, inherited]

Returns:: the number of processors in the group.

Definition at line 92 of file parallel_object.h.

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

  { return cast_int<processor_id_type>(_communicator.size()); }

void libMesh::ReferenceCounter::print_info ( std::ostream & out = libMesh::out ) [static, inherited]

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().

{
  if( _enable_print_counter ) out_stream << ReferenceCounter::get_info();
}

processor_id_type libMesh::ParallelObject::processor_id ( ) const [inline, inherited]

Returns:: the rank of this processor in the group.

Definition at line 98 of file parallel_object.h.

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

  { return cast_int<processor_id_type>(_communicator.rank()); }

void libMesh::DiffSolver::reinit ( ) [virtual]

The reinitialization function. This method is used after changes in the mesh.

Reimplemented in libMesh::NewtonSolver, and libMesh::PetscDiffSolver.

Definition at line 60 of file diff_solver.C.

References max_residual_norm, and max_solution_norm.

Referenced by libMesh::NewtonSolver::reinit().

{
  // Reset the max_step_size and max_residual_norm for a new mesh
  max_solution_norm = 0.;
  max_residual_norm = 0.;
}

virtual unsigned int libMesh::DiffSolver::solve ( ) [pure virtual]

This method performs a solve. What occurs in this method will depend on the type of solver. See the subclasses for more details.

Implemented in libMesh::PetscDiffSolver, and libMesh::NewtonSolver.

unsigned int libMesh::DiffSolver::solve_result ( ) [inline]

Returns:: the value of the SolveResult from the last solve.

Definition at line 128 of file diff_solver.h.

References _solve_result.

{ return _solve_result; }

const sys_type& libMesh::DiffSolver::system ( ) const [inline]

Returns:: a constant reference to the system we are solving.

Definition at line 133 of file diff_solver.h.

References _system.

Referenced by libMesh::__libmesh_petsc_diff_solver_residual().

{ return _system; }

sys_type& libMesh::DiffSolver::system ( ) [inline]

Returns:: a writeable reference to the system we are solving.

Definition at line 138 of file diff_solver.h.

References _system.

{ return _system; }

unsigned int libMesh::DiffSolver::total_inner_iterations ( ) [inline]

Returns:: the number of "inner" (e.g. Krylov) iterations required by the last solve.

Definition at line 123 of file diff_solver.h.

References _inner_iterations.

{ return _inner_iterations; }

unsigned int libMesh::DiffSolver::total_outer_iterations ( ) [inline]

Returns:: the number of "outer" (e.g. quasi-Newton) iterations required by the last solve.

Definition at line 117 of file diff_solver.h.

References _outer_iterations.

{ return _outer_iterations; }

Member Data Documentation

const Parallel::Communicator& libMesh::ParallelObject::_communicator [protected, inherited]

Definition at line 104 of file parallel_object.h.

Referenced by libMesh::EquationSystems::build_solution_vector(), libMesh::ParallelObject::comm(), libMesh::EquationSystems::get_solution(), libMesh::ParallelObject::n_processors(), libMesh::ParallelObject::operator=(), and libMesh::ParallelObject::processor_id().

ReferenceCounter::Counts libMesh::ReferenceCounter::_counts [static, protected, inherited]

Actually holds the data.

Definition at line 118 of file reference_counter.h.

Referenced by libMesh::ReferenceCounter::get_info(), libMesh::ReferenceCounter::increment_constructor_count(), and libMesh::ReferenceCounter::increment_destructor_count().

bool libMesh::ReferenceCounter::_enable_print_counter = true [static, protected, inherited]

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

Definition at line 137 of file reference_counter.h.

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

unsigned int libMesh::DiffSolver::_inner_iterations [protected]

The number of inner iterations used by the last solve

Definition at line 309 of file diff_solver.h.

Referenced by libMesh::NewtonSolver::solve(), and total_inner_iterations().

Threads::spin_mutex libMesh::ReferenceCounter::_mutex [static, protected, inherited]

Mutual exclusion object to enable thread-safe reference counting.

Definition at line 131 of file reference_counter.h.

Threads::atomic< unsigned int > libMesh::ReferenceCounter::_n_objects [static, protected, inherited]

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

Definition at line 126 of file reference_counter.h.

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

unsigned int libMesh::DiffSolver::_outer_iterations [protected]

The number of outer iterations used by the last solve

Definition at line 304 of file diff_solver.h.

Referenced by libMesh::NewtonSolver::line_search(), libMesh::NewtonSolver::solve(), and total_outer_iterations().

unsigned int libMesh::DiffSolver::_solve_result [protected]

Initialized to zero. solve_result is typically set internally in the solve() function before it returns. When non-zero, solve_result tells the result of the latest solve. See enum definition for description.

Definition at line 322 of file diff_solver.h.

Referenced by libMesh::NewtonSolver::line_search(), libMesh::NewtonSolver::solve(), solve_result(), and libMesh::NewtonSolver::test_convergence().

sys_type& libMesh::DiffSolver::_system [protected]

A reference to the system we are solving.

Definition at line 314 of file diff_solver.h.

Referenced by libMesh::NewtonSolver::init(), libMesh::NewtonSolver::line_search(), libMesh::NewtonSolver::reinit(), libMesh::NewtonSolver::solve(), and system().

Real libMesh::DiffSolver::absolute_residual_tolerance

The DiffSolver should exit after the residual is reduced to either less than absolute_residual_tolerance or less than relative_residual_tolerance times the initial residual.

Users should increase any of these tolerances that they want to use for a stopping condition.

Definition at line 187 of file diff_solver.h.

Referenced by libMesh::NewtonSolver::print_convergence(), libMesh::NewtonSolver::solve(), and libMesh::NewtonSolver::test_convergence().

Real libMesh::DiffSolver::absolute_step_tolerance

The DiffSolver should exit after the full nonlinear step norm is reduced to either less than absolute_step_tolerance or less than relative_step_tolerance times the largest nonlinear solution which has been seen so far.

Users should increase any of these tolerances that they want to use for a stopping condition.

Definition at line 199 of file diff_solver.h.

Referenced by libMesh::NewtonSolver::print_convergence(), libMesh::NewtonSolver::solve(), and libMesh::NewtonSolver::test_convergence().

bool libMesh::DiffSolver::continue_after_backtrack_failure

Defaults to false, telling the DiffSolver to throw an error when the backtracking scheme fails to find a descent direction.

Definition at line 176 of file diff_solver.h.

Referenced by libMesh::NewtonSolver::line_search().

bool libMesh::DiffSolver::continue_after_max_iterations

Defaults to true, telling the DiffSolver to continue rather than exit when a solve has reached its maximum number of nonlinear iterations.

Definition at line 170 of file diff_solver.h.

Referenced by libMesh::NewtonSolver::solve().

Real libMesh::DiffSolver::initial_linear_tolerance

Any required linear solves will at first be done with this tolerance; the DiffSolver may tighten the tolerance for later solves.

Definition at line 206 of file diff_solver.h.

Referenced by libMesh::NewtonSolver::solve().

UniquePtr<LinearSolutionMonitor> libMesh::DiffSolver::linear_solution_monitor

Pointer to functor which is called right after each linear solve

Definition at line 284 of file diff_solver.h.

Referenced by libMesh::__libmesh_petsc_diff_solver_monitor(), and libMesh::NewtonSolver::solve().

unsigned int libMesh::DiffSolver::max_linear_iterations

Each linear solver step should exit after max_linear_iterations is exceeded.

Definition at line 144 of file diff_solver.h.

Referenced by libMesh::ContinuationSystem::continuation_solve(), libMesh::NewtonSolver::solve(), and libMesh::ContinuationSystem::solve_tangent().

unsigned int libMesh::DiffSolver::max_nonlinear_iterations

The DiffSolver should exit in failure if max_nonlinear_iterations is exceeded and continue_after_max_iterations is false, or should end the nonlinear solve if max_nonlinear_iterations is exceeded and continue_after_max_iterations is true.

Definition at line 152 of file diff_solver.h.

Referenced by libMesh::ContinuationSystem::continuation_solve(), libMesh::NewtonSolver::solve(), and libMesh::ContinuationSystem::update_solution().

Real libMesh::DiffSolver::max_residual_norm [protected]

The largest nonlinear residual which the DiffSolver has yet seen will be stored here, to be used for stopping criteria based on relative_residual_tolerance

Definition at line 299 of file diff_solver.h.

Referenced by init(), libMesh::NewtonSolver::print_convergence(), reinit(), libMesh::NewtonSolver::solve(), and libMesh::NewtonSolver::test_convergence().