#include <SteffensenSolve.h>

Inheritance diagram for SteffensenSolve:

Public Types
enum	MooseFixedPointConvergenceReason { MooseFixedPointConvergenceReason::UNSOLVED = 0, MooseFixedPointConvergenceReason::CONVERGED_NONLINEAR = 1, MooseFixedPointConvergenceReason::CONVERGED_ABS = 2, MooseFixedPointConvergenceReason::CONVERGED_RELATIVE = 3, MooseFixedPointConvergenceReason::CONVERGED_PP = 4, MooseFixedPointConvergenceReason::REACH_MAX_ITS = 5, MooseFixedPointConvergenceReason::CONVERGED_OBJECT = 6, MooseFixedPointConvergenceReason::DIVERGED_MAX_ITS = -1, MooseFixedPointConvergenceReason::DIVERGED_NONLINEAR = -2, MooseFixedPointConvergenceReason::DIVERGED_FAILED_MULTIAPP = -3, MooseFixedPointConvergenceReason::DIVERGED_OBJECT = -4 }
	Enumeration for fixed point convergence reasons. More...

using	DataFileParameterType = DataFileName
	The parameter type this interface expects for a data file name. More...

Public Member Functions
	SteffensenSolve (Executioner &ex)

virtual void	initialSetup () override
	Method that should be executed once, before any solve calls. More...

virtual void	allocateStorage (const bool primary) override final
	Allocate storage for the fixed point algorithm. More...

virtual void	printFixedPointConvergenceHistory (Real initial_norm, const std::vector< Real > &timestep_begin_norms, const std::vector< Real > &timestep_end_norms) const override final
	Print the convergence history of the coupling, at every fixed point iteration. More...

virtual bool	solve () override
	Iteratively solves the FEProblem. More...

unsigned int	numFixedPointIts () const
	Get the number of fixed point iterations performed Because this returns the number of fixed point iterations, rather than the current iteration count (which starts at 0), increment by 1. More...

unsigned int	numPicardIts () const
	Deprecated getter for the number of fixed point iterations. More...

MooseFixedPointConvergenceReason	checkConvergence () const
	Check the solver status. More...

bool	XFEMRepeatStep () const
	This function checks the _xfem_repeat_step flag set by solve. More...

void	setFixedPointStatus (MooseFixedPointConvergenceReason status)
	Set fixed point status. More...

void	clearFixedPointStatus ()
	Clear fixed point status. More...

bool	hasFixedPointIteration ()
	Whether or not this has fixed point iterations. More...

void	setMultiAppRelaxationFactor (Real factor)
	Set relaxation factor for the current solve as a SubApp. More...

void	setMultiAppTransformedVariables (const std::vector< std::string > &vars)
	Set relaxation variables for the current solve as a SubApp. More...

virtual void	setMultiAppTransformedPostprocessors (const std::vector< PostprocessorName > &pps)
	Set relaxation postprocessors for the current solve as a SubApp. More...

bool	autoAdvance () const
	Whether sub-applications are automatically advanced no matter what happens during their solves. More...

void	failStep ()
	Mark the current solve as failed due to external conditions. More...

virtual void	setInnerSolve (SolveObject &solve)
	Set the inner solve object wrapped by this object. More...

virtual bool	enabled () const
	Return the enabled status of the object. More...

std::shared_ptr< MooseObject >	getSharedPtr ()
	Get another shared pointer to this object that has the same ownership group. More...

std::shared_ptr< const MooseObject >	getSharedPtr () const

MooseApp &	getMooseApp () const
	Get the MooseApp this class is associated with. More...

const std::string &	type () const
	Get the type of this class. More...

virtual const std::string &	name () const
	Get the name of the class. More...

std::string	typeAndName () const
	Get the class's combined type and name; useful in error handling. More...

std::string	errorPrefix (const std::string &error_type) const

void	callMooseError (std::string msg, const bool with_prefix) const
	Calls moose error with the message `msg`. More...

MooseObjectParameterName	uniqueParameterName (const std::string &parameter_name) const
	The unique parameter name of a valid parameter of this object for accessing parameter controls. More...

const InputParameters &	parameters () const
	Get the parameters of the object. More...

MooseObjectName	uniqueName () const
	The unique name for accessing input parameters of this object in the InputParameterWarehouse. More...

template<typename T >
const T &	getParam (const std::string &name) const
	Retrieve a parameter for the object. More...

template<typename T1 , typename T2 >
std::vector< std::pair< T1, T2 > >	getParam (const std::string &param1, const std::string &param2) const
	Retrieve two parameters and provide pair of parameters for the object. More...

template<typename T >
const T *	queryParam (const std::string &name) const
	Query a parameter for the object. More...

template<typename T >
const T &	getRenamedParam (const std::string &old_name, const std::string &new_name) const
	Retrieve a renamed parameter for the object. More...

template<typename T >
T	getCheckedPointerParam (const std::string &name, const std::string &error_string="") const
	Verifies that the requested parameter exists and is not NULL and returns it to the caller. More...

bool	isParamValid (const std::string &name) const
	Test if the supplied parameter is valid. More...

bool	isParamSetByUser (const std::string &nm) const
	Test if the supplied parameter is set by a user, as opposed to not set or set to default. More...

template<typename... Args>
void	paramError (const std::string &param, Args... args) const
	Emits an error prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message. More...

template<typename... Args>
void	paramWarning (const std::string &param, Args... args) const
	Emits a warning prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message. More...

template<typename... Args>
void	paramInfo (const std::string &param, Args... args) const
	Emits an informational message prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message. More...

void	connectControllableParams (const std::string &parameter, const std::string &object_type, const std::string &object_name, const std::string &object_parameter) const
	Connect controllable parameter of this action with the controllable parameters of the objects added by this action. More...

template<typename... Args>
void	mooseError (Args &&... args) const
	Emits an error prefixed with object name and type. More...

template<typename... Args>
void	mooseErrorNonPrefixed (Args &&... args) const
	Emits an error without the prefixing included in mooseError(). More...

template<typename... Args>
void	mooseDocumentedError (const std::string &repo_name, const unsigned int issue_num, Args &&... args) const
	Emits a documented error with object name and type. More...

template<typename... Args>
void	mooseWarning (Args &&... args) const
	Emits a warning prefixed with object name and type. More...

template<typename... Args>
void	mooseWarningNonPrefixed (Args &&... args) const
	Emits a warning without the prefixing included in mooseWarning(). More...

template<typename... Args>
void	mooseDeprecated (Args &&... args) const

template<typename... Args>
void	mooseInfo (Args &&... args) const

const Parallel::Communicator &	comm () const

processor_id_type	n_processors () const

processor_id_type	processor_id () const

std::string	getDataFileName (const std::string &param) const
	Deprecated method. More...

std::string	getDataFileNameByName (const std::string &relative_path) const
	Deprecated method. More...

std::string	getDataFilePath (const std::string &relative_path) const
	Returns the path of a data file for a given relative file path. More...

PerfGraph &	perfGraph ()
	Get the PerfGraph. More...

bool	isDefaultPostprocessorValue (const std::string &param_name, const unsigned int index=0) const
	Determine whether or not the Postprocessor is a default value. More...

bool	hasPostprocessor (const std::string &param_name, const unsigned int index=0) const
	Determine if the Postprocessor data exists. More...

bool	hasPostprocessorByName (const PostprocessorName &name) const
	Determine if the Postprocessor data exists. More...

std::size_t	coupledPostprocessors (const std::string &param_name) const
	Returns number of Postprocessors coupled under parameter name. More...

const PostprocessorName &	getPostprocessorName (const std::string &param_name, const unsigned int index=0) const
	Get the name of a postprocessor. More...


const PostprocessorValue &	getPostprocessorValue (const std::string &param_name, const unsigned int index=0) const
	doco-normal-methods-begin Retrieve the value of a Postprocessor or one of it's old or older values More...

const PostprocessorValue &	getPostprocessorValueOld (const std::string &param_name, const unsigned int index=0) const

const PostprocessorValue &	getPostprocessorValueOlder (const std::string &param_name, const unsigned int index=0) const


virtual const PostprocessorValue &	getPostprocessorValueByName (const PostprocessorName &name) const
	Retrieve the value of the Postprocessor. More...

const PostprocessorValue &	getPostprocessorValueOldByName (const PostprocessorName &name) const

const PostprocessorValue &	getPostprocessorValueOlderByName (const PostprocessorName &name) const

Static Public Member Functions
static InputParameters	validParams ()

static InputParameters	fixedPointDefaultConvergenceParams ()

Public Attributes
const ConsoleStream	_console
	An instance of helper class to write streams to the Console objects. More...

Protected Member Functions
virtual bool	solveStep (const std::set< dof_id_type > &transformed_dofs)
	Perform one fixed point iteration or a full solve. More...

virtual void	saveAllValues (const bool primary)
	Save both the variable and postprocessor values. More...

bool	examineFixedPointConvergence (bool &converged)
	Examine the various convergence metrics. More...

void	printFixedPointConvergenceReason ()
	Print information about the fixed point convergence. More...

PerfID	registerTimedSection (const std::string &section_name, const unsigned int level) const
	Call to register a named section for timing. More...

PerfID	registerTimedSection (const std::string &section_name, const unsigned int level, const std::string &live_message, const bool print_dots=true) const
	Call to register a named section for timing. More...

std::string	timedSectionName (const std::string &section_name) const

virtual void	addPostprocessorDependencyHelper (const PostprocessorName &) const
	Helper for deriving classes to override to add dependencies when a Postprocessor is requested. More...

Protected Attributes
const bool	_has_fixed_point_its
	Whether or not we activate fixed point iteration. More...

const Real	_relax_factor
	Relaxation factor for fixed point Iteration. More...

std::vector< std::string >	_transformed_vars
	The variables (transferred or not) that are going to be relaxed. More...

const std::vector< PostprocessorName >	_transformed_pps
	The postprocessors (transferred or not) that are going to be relaxed. More...

std::vector< std::vector< PostprocessorValue > >	_transformed_pps_values
	Previous values of the relaxed postprocessors. More...

Real	_secondary_relaxation_factor
	Relaxation factor outside of fixed point iteration (used as a subapp) More...

std::vector< std::string >	_secondary_transformed_variables
	Variables to be relaxed outside of fixed point iteration (used as a subapp) More...

std::vector< PostprocessorName >	_secondary_transformed_pps
	Postprocessors to be relaxed outside of fixed point iteration (used as a subapp) More...

std::vector< std::vector< PostprocessorValue > >	_secondary_transformed_pps_values
	Previous values of the postprocessors relaxed outside of the fixed point iteration (used as a subapp) More...

Executioner &	_executioner
	Executioner used to construct this. More...

FEProblemBase &	_problem
	Reference to FEProblem. More...

DisplacedProblem *	_displaced_problem
	Displaced problem. More...

MooseMesh &	_mesh
	Mesh. More...

MooseMesh *	_displaced_mesh
	Displaced mesh. More...

SystemBase &	_solver_sys
	Reference to a system for creating vectors as needed for the solve, etc. More...

AuxiliarySystem &	_aux
	Reference to auxiliary system for faster access. More...

SolveObject *	_inner_solve
	SolveObject wrapped by this solve object. More...

const bool &	_enabled
	Reference to the "enable" InputParameters, used by Controls for toggling on/off MooseObjects. More...

MooseApp &	_app
	The MOOSE application this is associated with. More...

const std::string	_type
	The type of this class. More...

const std::string	_name
	The name of this class. More...

const InputParameters &	_pars
	Parameters of this object, references the InputParameters stored in the InputParametersWarehouse. More...

Factory &	_factory
	The Factory associated with the MooseApp. More...

ActionFactory &	_action_factory
	Builds Actions. More...

const Parallel::Communicator &	_communicator

MooseApp &	_pg_moose_app
	The MooseApp that owns the PerfGraph. More...

const std::string	_prefix
	A prefix to use for all sections. More...


unsigned int	_fixed_point_it

unsigned int	_main_fixed_point_it
	fixed point iteration counter for the main app More...

MooseFixedPointConvergenceReason	_fixed_point_status
	Status of fixed point solve. More...

Private Member Functions
virtual void	saveVariableValues (const bool primary) override final
	Saves the current values of the variables, and update the old(er) vectors. More...

virtual void	savePostprocessorValues (const bool primary) override final
	Saves the current values of the postprocessors, and update the old(er) vectors. More...

virtual bool	useFixedPointAlgorithmUpdateInsteadOfPicard (const bool primary) override final
	Use the fixed point algorithm transform instead of simply using the Picard update. More...

virtual void	transformPostprocessors (const bool primary) override final
	Use the fixed point algorithm to transform the postprocessors. More...

virtual void	transformVariables (const std::set< dof_id_type > &transformed_dofs, const bool primary) override final
	Use the fixed point algorithm to transform the variables. More...

Private Attributes
TagID	_fxn_m1_tagid = Moose::INVALID_TAG_ID
	Vector tag id for the most recent solution variable, pre-Steffensen transform, as a main app. More...

TagID	_xn_m1_tagid = Moose::INVALID_TAG_ID
	Vector tag id for the solution variable before the latest solve, as a main app. More...

TagID	_secondary_fxn_m1_tagid = Moose::INVALID_TAG_ID
	Vector tag id for the most recent solution variable, pre-Steffensen transform, as a sub app. More...

TagID	_secondary_xn_m1_tagid = Moose::INVALID_TAG_ID
	Vector tag id for the solution variable before the latest solve, as a sub app. More...

Detailed Description

Definition at line 15 of file SteffensenSolve.h.

Member Typedef Documentation

◆ DataFileParameterType

using DataFileInterface::DataFileParameterType = DataFileName

inherited

The parameter type this interface expects for a data file name.

Definition at line 27 of file DataFileInterface.h.

Member Enumeration Documentation

◆ MooseFixedPointConvergenceReason

enum FixedPointSolve::MooseFixedPointConvergenceReason

stronginherited

Enumeration for fixed point convergence reasons.

Enumerator
UNSOLVED
CONVERGED_NONLINEAR	Not solved yet.
CONVERGED_ABS	Main app nonlinear solve converged, FP unassessed.
CONVERGED_RELATIVE	FP converged by absolute residual tolerance.
CONVERGED_PP	FP converged by relative residual tolerance.
REACH_MAX_ITS	FP converged by absolute or relative PP tolerance.
CONVERGED_OBJECT	FP converged by hitting max iterations and accepting.
DIVERGED_MAX_ITS	FP converged according to Convergence object.
DIVERGED_NONLINEAR	FP diverged by hitting max iterations.
DIVERGED_FAILED_MULTIAPP	Main app nonlinear solve diverged.
DIVERGED_OBJECT	Multiapp solve diverged.

Definition at line 36 of file FixedPointSolve.h.

   {
     UNSOLVED = 0,                  
     CONVERGED_NONLINEAR = 1,       
     CONVERGED_ABS = 2,             
     CONVERGED_RELATIVE = 3,        
     CONVERGED_PP = 4,              
     REACH_MAX_ITS = 5,             
     CONVERGED_OBJECT = 6,          
     DIVERGED_MAX_ITS = -1,         
     DIVERGED_NONLINEAR = -2,       
     DIVERGED_FAILED_MULTIAPP = -3, 
     DIVERGED_OBJECT = -4           
   };

Constructor & Destructor Documentation

◆ SteffensenSolve()

SteffensenSolve::SteffensenSolve ( Executioner & ex )

Definition at line 27 of file SteffensenSolve.C.

27 : FixedPointSolve(ex) { allocateStorage(true); }

FixedPointSolve::FixedPointSolve

FixedPointSolve(Executioner &ex)

Definition: FixedPointSolve.C:146

SteffensenSolve::allocateStorage

virtual void allocateStorage(const bool primary) override final

Allocate storage for the fixed point algorithm.

Definition: SteffensenSolve.C:30

Member Function Documentation

◆ addPostprocessorDependencyHelper()

virtual void PostprocessorInterface::addPostprocessorDependencyHelper ( const PostprocessorName & ) const

inlineprotectedvirtualinherited

Helper for deriving classes to override to add dependencies when a Postprocessor is requested.

Reimplemented in AuxKernelTempl< ComputeValueType >, AuxKernelTempl< RT >, AuxKernelTempl< RealVectorValue >, AuxKernelTempl< Real >, UserObject, and InitialConditionBase.

Definition at line 141 of file PostprocessorInterface.h.

Referenced by PostprocessorInterface::getPostprocessorValueByNameInternal().

141 {}

◆ allocateStorage()

void SteffensenSolve::allocateStorage ( const bool primary )

finaloverridevirtual

Allocate storage for the fixed point algorithm.

This creates the system vector of old (older, pre/post solve) variable values and the array of old (older, pre/post solve) postprocessor values.

Parameters

primary Whether this routine is to allocate storage for the primary transformed quantities (as main app) or the secondary ones (as a subapp)

Implements FixedPointSolve.

Definition at line 30 of file SteffensenSolve.C.

Referenced by SteffensenSolve().

 {
   TagID fxn_m1_tagid;
   TagID xn_m1_tagid;
   const std::vector<PostprocessorName> * transformed_pps;
   std::vector<std::vector<PostprocessorValue>> * transformed_pps_values;
   if (primary)
   {
     xn_m1_tagid = _problem.addVectorTag("xn_m1", Moose::VECTOR_TAG_SOLUTION);
     fxn_m1_tagid = _problem.addVectorTag("fxn_m1", Moose::VECTOR_TAG_SOLUTION);
     transformed_pps = &_transformed_pps;
     transformed_pps_values = &_transformed_pps_values;
     _xn_m1_tagid = xn_m1_tagid;
     _fxn_m1_tagid = fxn_m1_tagid;
   }
   else
   {
     xn_m1_tagid = _problem.addVectorTag("secondary_xn_m1", Moose::VECTOR_TAG_SOLUTION);
     fxn_m1_tagid = _problem.addVectorTag("secondary_fxn_m1", Moose::VECTOR_TAG_SOLUTION);
     transformed_pps = &_secondary_transformed_pps;
     transformed_pps_values = &_secondary_transformed_pps_values;
     _secondary_xn_m1_tagid = xn_m1_tagid;
     _secondary_fxn_m1_tagid = fxn_m1_tagid;
   }
 
   // Store a copy of the previous solution here
   _solver_sys.addVector(xn_m1_tagid, false, PARALLEL);
   _solver_sys.addVector(fxn_m1_tagid, false, PARALLEL);
 
   // Allocate storage for the previous postprocessor values
   (*transformed_pps_values).resize((*transformed_pps).size());
   for (size_t i = 0; i < (*transformed_pps).size(); i++)
     (*transformed_pps_values)[i].resize(2);
 }

◆ autoAdvance()

bool FixedPointSolve::autoAdvance ( ) const

inherited

Whether sub-applications are automatically advanced no matter what happens during their solves.

Definition at line 543 of file FixedPointSolve.C.

Referenced by FixedPointSolve::solve(), and FixedPointSolve::solveStep().

 {
   bool auto_advance = !(_has_fixed_point_its && _problem.isTransient());
 
   if (dynamic_cast<EigenExecutionerBase *>(&_executioner) && _has_fixed_point_its)
     auto_advance = true;
 
   if (_auto_advance_set_by_user)
     auto_advance = _auto_advance_user_value;
 
   return auto_advance;
 }

◆ callMooseError()

void MooseBase::callMooseError	(	std::string	msg,
		const bool	with_prefix
	)		const

inherited

Calls moose error with the message msg.

Will prefix the message with the subapp name if one exists.

If with_prefix, then add the prefix from errorPrefix() to the error.

Definition at line 33 of file MooseBase.C.

Referenced by InputParameters::callMooseErrorHelper(), MooseBaseErrorInterface::mooseDocumentedError(), MooseBaseErrorInterface::mooseError(), MooseBaseErrorInterface::mooseErrorNonPrefixed(), and MooseBaseParameterInterface::paramError().

 {
   _app.getOutputWarehouse().mooseConsole();
   const std::string prefix = _app.isUltimateMaster() ? "" : _app.name();
   if (with_prefix)
     msg = errorPrefix("error") + msg;
   moose::internal::mooseErrorRaw(msg, prefix);
 }

◆ checkConvergence()

MooseFixedPointConvergenceReason FixedPointSolve::checkConvergence ( ) const

inlineinherited

Check the solver status.

Definition at line 69 of file FixedPointSolve.h.

69 { return _fixed_point_status; }

FixedPointSolve::_fixed_point_status

MooseFixedPointConvergenceReason _fixed_point_status

Status of fixed point solve.

Definition: FixedPointSolve.h:221

◆ clearFixedPointStatus()

void FixedPointSolve::clearFixedPointStatus ( )

inlineinherited

Clear fixed point status.

Definition at line 81 of file FixedPointSolve.h.

81 { _fixed_point_status = MooseFixedPointConvergenceReason::UNSOLVED; }

FixedPointSolve::MooseFixedPointConvergenceReason::UNSOLVED

FixedPointSolve::_fixed_point_status

MooseFixedPointConvergenceReason _fixed_point_status

Status of fixed point solve.

Definition: FixedPointSolve.h:221

◆ connectControllableParams()

void MooseBaseParameterInterface::connectControllableParams	(	const std::string &	parameter,
		const std::string &	object_type,
		const std::string &	object_name,
		const std::string &	object_parameter
	)		const

inherited

Connect controllable parameter of this action with the controllable parameters of the objects added by this action.

Parameters

parameter	Name of the controllable parameter of this action
object_type	Type of the object added by this action.
object_name	Name of the object added by this action.
object_parameter	Name of the parameter of the object.

Definition at line 33 of file MooseBaseParameterInterface.C.

 {
   MooseObjectParameterName primary_name(uniqueName(), parameter);
   const auto base_type = _factory.getValidParams(object_type).get<std::string>("_moose_base");
   MooseObjectParameterName secondary_name(base_type, object_name, object_parameter);
   _moose_base.getMooseApp().getInputParameterWarehouse().addControllableParameterConnection(
       primary_name, secondary_name);
 
   const auto & tags = _pars.get<std::vector<std::string>>("control_tags");
   for (const auto & tag : tags)
   {
     if (!tag.empty())
     {
       // Only adds the parameter with the different control tags if the derived class
       // properly registers the parameter to its own syntax
       MooseObjectParameterName tagged_name(tag, _moose_base.name(), parameter);
       _moose_base.getMooseApp().getInputParameterWarehouse().addControllableParameterConnection(
           tagged_name, secondary_name, /*error_on_empty=*/false);
     }
   }
 }

◆ coupledPostprocessors()

std::size_t PostprocessorInterface::coupledPostprocessors ( const std::string & param_name ) const

inherited

Returns number of Postprocessors coupled under parameter name.

Parameters

param_name The name of the Postprocessor parameter

Returns: Number of coupled post-processors, 1 if it's a single

Definition at line 129 of file PostprocessorInterface.C.

Referenced by FunctionValuePostprocessor::FunctionValuePostprocessor().

 {
   checkParam(param_name);
 
   if (_ppi_params.isType<PostprocessorName>(param_name))
     return 1;
   return _ppi_params.get<std::vector<PostprocessorName>>(param_name).size();
 }

◆ enabled()

virtual bool MooseObject::enabled ( ) const

inlinevirtualinherited

Return the enabled status of the object.

Reimplemented in EigenKernel.

Definition at line 40 of file MooseObject.h.

Referenced by EigenKernel::enabled().

40 { return _enabled; }

MooseObject::_enabled

const bool & _enabled

Reference to the "enable" InputParameters, used by Controls for toggling on/off MooseObjects.

Definition: MooseObject.h:51

◆ errorPrefix()

std::string MooseBase::errorPrefix ( const std::string & error_type ) const

inherited

Returns: A prefix to be used in errors that contains the input file location associated with this object (if any) and the name and type of the object.

Definition at line 43 of file MooseBase.C.

Referenced by MooseBase::callMooseError(), MooseBaseErrorInterface::mooseDeprecated(), MooseBaseErrorInterface::mooseInfo(), MooseBaseErrorInterface::mooseWarning(), and MooseBaseParameterInterface::paramErrorMsg().

 {
   std::stringstream oss;
   if (const auto node = _params.getHitNode())
     if (!node->isRoot())
       oss << node->fileLocation() << ":\n";
   oss << "The following " << error_type << " occurred in the ";
   if (const auto base_ptr = _params.getBase())
     oss << *base_ptr;
   else
     oss << "object";
   oss << " '" << name() << "' of type " << type() << ".\n\n";
   return oss.str();
 }

◆ examineFixedPointConvergence()

bool FixedPointSolve::examineFixedPointConvergence ( bool & converged )

protectedinherited

Examine the various convergence metrics.

Definition at line 478 of file FixedPointSolve.C.

Referenced by FixedPointSolve::solve().

 {
   _problem.execute(EXEC_MULTIAPP_FIXED_POINT_CONVERGENCE);
 
   auto & convergence = _problem.getConvergence(_problem.getMultiAppFixedPointConvergenceName());
   const auto status = convergence.checkConvergence(_fixed_point_it);
   switch (status)
   {
     case Convergence::MooseConvergenceStatus::CONVERGED:
       converged = true;
       return true;
     case Convergence::MooseConvergenceStatus::DIVERGED:
       converged = false;
       return true;
     case Convergence::MooseConvergenceStatus::ITERATING:
       converged = false;
       return false;
     default:
       mooseError("Should not reach here");
   }
 }

◆ failStep()

void FixedPointSolve::failStep ( )

inlineinherited

Mark the current solve as failed due to external conditions.

Definition at line 115 of file FixedPointSolve.h.

Referenced by Terminator::execute().

115 { _fail_step = true; }

FixedPointSolve::_fail_step

bool _fail_step

force the current step to fail, triggering are repeat with a cut dt

Definition: FixedPointSolve.h:238

◆ fixedPointDefaultConvergenceParams()

InputParameters FixedPointSolve::fixedPointDefaultConvergenceParams ( )

staticinherited

Definition at line 23 of file FixedPointSolve.C.

Referenced by AddDefaultConvergenceAction::checkUnusedMultiAppFixedPointConvergenceParameters(), DefaultMultiAppFixedPointConvergence::validParams(), and FixedPointSolve::validParams().

 {
   InputParameters params = emptyInputParameters();
 
   params.addParam<unsigned int>(
       "fixed_point_min_its", 1, "Specifies the minimum number of fixed point iterations.");
   params.addParam<unsigned int>(
       "fixed_point_max_its", 1, "Specifies the maximum number of fixed point iterations.");
   params.addParam<bool>("disable_fixed_point_residual_norm_check",
                         false,
                         "Disable the residual norm evaluation thus the three parameters "
                         "fixed_point_rel_tol, fixed_point_abs_tol and fixed_point_force_norms.");
   params.addParam<bool>(
       "fixed_point_force_norms",
       false,
       "Force the evaluation of both the TIMESTEP_BEGIN and TIMESTEP_END norms regardless of the "
       "existence of active MultiApps with those execute_on flags, default: false.");
   params.addParam<bool>(
       "accept_on_max_fixed_point_iteration",
       false,
       "True to treat reaching the maximum number of fixed point iterations as converged.");
   params.addRangeCheckedParam<Real>("fixed_point_rel_tol",
                                     1e-8,
                                     "fixed_point_rel_tol>0",
                                     "The relative nonlinear residual drop to shoot for "
                                     "during fixed point iterations. This check is "
                                     "performed based on the main app's nonlinear "
                                     "residual.");
   params.addRangeCheckedParam<Real>("fixed_point_abs_tol",
                                     1e-50,
                                     "fixed_point_abs_tol>0",
                                     "The absolute nonlinear residual to shoot for "
                                     "during fixed point iterations. This check is "
                                     "performed based on the main app's nonlinear "
                                     "residual.");
 
   params.addParam<PostprocessorName>("custom_pp",
                                      "Postprocessor for custom fixed point convergence check.");
   params.addParam<bool>("direct_pp_value",
                         false,
                         "True to use direct postprocessor value "
                         "(scaled by value on first iteration). "
                         "False (default) to use difference in postprocessor "
                         "value between fixed point iterations.");
   params.addRangeCheckedParam<Real>("custom_rel_tol",
                                     1e-8,
                                     "custom_rel_tol>0",
                                     "The relative nonlinear residual drop to shoot for "
                                     "during fixed point iterations. This check is "
                                     "performed based on the postprocessor defined by "
                                     "custom_pp residual.");
   params.addRangeCheckedParam<Real>("custom_abs_tol",
                                     1e-50,
                                     "custom_abs_tol>0",
                                     "The absolute nonlinear residual to shoot for "
                                     "during fixed point iterations. This check is "
                                     "performed based on postprocessor defined by "
                                     "the custom_pp residual.");
 
   params.addParamNamesToGroup(
       "fixed_point_min_its fixed_point_max_its disable_fixed_point_residual_norm_check "
       "accept_on_max_fixed_point_iteration fixed_point_rel_tol fixed_point_abs_tol "
       "fixed_point_force_norms custom_pp direct_pp_value custom_abs_tol custom_rel_tol",
       "Fixed point iterations");
 
   return params;
 }

◆ getCheckedPointerParam()

template<typename T >

T MooseBaseParameterInterface::getCheckedPointerParam	(	const std::string &	name,
		const std::string &	error_string = `""`
	)		const

inherited

Verifies that the requested parameter exists and is not NULL and returns it to the caller.

The template parameter must be a pointer or an error will be thrown.

Definition at line 286 of file MooseBaseParameterInterface.h.

 {
   return parameters().getCheckedPointerParam<T>(name, error_string);
 }

◆ getDataFileName()

std::string DataFileInterface::getDataFileName ( const std::string & param ) const

inherited

Deprecated method.

The data file paths are now automatically set within the InputParameters object, so using getParam<DataFileName>("param_name") is now sufficient.

Definition at line 21 of file DataFileInterface.C.

 {
   _parent.mooseDeprecated("getDataFileName() is deprecated. The file path is now directly set "
                           "within the InputParameters.\nUse getParam<DataFileName>(\"",
                           param,
                           "\") instead.");
   return _parent.getParam<DataFileName>(param);
 }

◆ getDataFileNameByName()

std::string DataFileInterface::getDataFileNameByName ( const std::string & relative_path ) const

inherited

Deprecated method.

Use getDataFilePath() instead.

Definition at line 31 of file DataFileInterface.C.

 {
   _parent.mooseDeprecated("getDataFileNameByName() is deprecated. Use getDataFilePath(\"",
                           relative_path,
                           "\") instead.");
   return getDataFilePath(relative_path);
 }

◆ getDataFilePath()

std::string DataFileInterface::getDataFilePath ( const std::string & relative_path ) const

inherited

Returns the path of a data file for a given relative file path.

This can be used for hardcoded datafile names and will search the same locations as getDataFileName

Definition at line 40 of file DataFileInterface.C.

Referenced by DataFileInterface::getDataFileNameByName().

 {
   // This should only ever be used with relative paths. There is no point to
   // use this search path with an absolute path.
   if (std::filesystem::path(relative_path).is_absolute())
     _parent.mooseWarning("While using getDataFilePath(\"",
                          relative_path,
                          "\"): This API should not be used for absolute paths.");
 
   // Throw on error so that if getPath() fails, we can throw an error
   // with the context of _parent.mooseError()
   const auto throw_on_error_before = Moose::_throw_on_error;
   Moose::_throw_on_error = true;
   std::optional<std::string> error;
 
   // This will search the data paths for this relative path
   Moose::DataFileUtils::Path found_path;
   try
   {
     found_path = Moose::DataFileUtils::getPath(relative_path);
   }
   catch (std::exception & e)
   {
     error = e.what();
   }
 
   Moose::_throw_on_error = throw_on_error_before;
   if (error)
     _parent.mooseError(*error);
 
   mooseAssert(found_path.context == Moose::DataFileUtils::Context::DATA,
               "Should only ever obtain data");
   mooseAssert(found_path.data_name, "Should be set");
 
   const std::string msg =
       "Using data file '" + found_path.path + "' from " + *found_path.data_name + " data";
   _parent.mooseInfo(msg);
 
   return found_path.path;
 }

◆ getMooseApp()

MooseApp& MooseBase::getMooseApp ( ) const

inlineinherited

Get the MooseApp this class is associated with.

Definition at line 45 of file MooseBase.h.

Referenced by ChainControlSetupAction::act(), AddDefaultConvergenceAction::addDefaultMultiAppFixedPointConvergence(), AddDefaultConvergenceAction::addDefaultNonlinearConvergence(), AddDefaultConvergenceAction::addDefaultSteadyStateConvergence(), FEProblemBase::advanceState(), ParsedChainControl::buildFunction(), ReporterTransferInterface::checkHasReporterValue(), AddDefaultConvergenceAction::checkUnusedMultiAppFixedPointConvergenceParameters(), AddDefaultConvergenceAction::checkUnusedNonlinearConvergenceParameters(), AddDefaultConvergenceAction::checkUnusedSteadyStateConvergenceParameters(), Coupleable::checkWritableVar(), ComponentPhysicsInterface::ComponentPhysicsInterface(), MooseBaseParameterInterface::connectControllableParams(), Coupleable::Coupleable(), MortarData::createMortarInterface(), EigenProblem::doFreeNonlinearPowerIterations(), Terminator::execute(), FEProblemSolve::FEProblemSolve(), SolutionInvalidInterface::flagInvalidSolutionInternal(), ChainControl::getChainControlDataSystem(), DefaultConvergenceBase::getSharedExecutionerParam(), ChainControlDataPostprocessor::initialSetup(), MaterialPropertyInterface::MaterialPropertyInterface(), MooseVariableDataFV< OutputType >::MooseVariableDataFV(), ProgressOutput::output(), PetscOutputInterface::petscLinearOutput(), PetscOutputInterface::petscNonlinearOutput(), PetscOutputInterface::PetscOutputInterface(), PostprocessorInterface::postprocessorsAdded(), MultiApp::preTransfer(), Reporter::Reporter(), ReporterInterface::reportersAdded(), MultiApp::restore(), and VectorPostprocessorInterface::vectorPostprocessorsAdded().

45 { return _app; }

MooseBase::_app

MooseApp & _app

The MOOSE application this is associated with.

Definition: MooseBase.h:84

◆ getParam() [1/2]

template<typename T >

const T & MooseBaseParameterInterface::getParam ( const std::string & name ) const

inherited

Retrieve a parameter for the object.

Parameters

name	The name of the parameter

Returns: The value of the parameter

Definition at line 215 of file MooseBaseParameterInterface.h.

 {
   return InputParameters::getParamHelper(name, _pars, static_cast<T *>(0), &_moose_base);
 }

◆ getParam() [2/2]

template<typename T1 , typename T2 >

std::vector< std::pair< T1, T2 > > MooseBaseParameterInterface::getParam	(	const std::string &	param1,
		const std::string &	param2
	)		const

inherited

Retrieve two parameters and provide pair of parameters for the object.

Parameters

param1	The name of first parameter
param2	The name of second parameter

Returns: Vector of pairs of first and second parameters

Definition at line 279 of file MooseBaseParameterInterface.h.

 {
   return _pars.get<T1, T2>(param1, param2);
 }

◆ getPostprocessorName()

const PostprocessorName & PostprocessorInterface::getPostprocessorName	(	const std::string &	param_name,
		const unsigned int	index = `0`
	)		const

inherited

Get the name of a postprocessor.

This can only be used if the postprocessor parameter does not have a default value set (see isDefaultPostprocessorValue()), in which case the "name" is actually the default value.

Parameters

param_name	The name of the Postprocessor parameter
index	The index of the Postprocessor

Returns: The name of the given Postprocessor

Definition at line 185 of file PostprocessorInterface.C.

Referenced by EigenKernel::EigenKernel().

 {
   return getPostprocessorNameInternal(param_name, index, /* allow_default_value = */ false);
 }

◆ getPostprocessorValue()

const PostprocessorValue & PostprocessorInterface::getPostprocessorValue	(	const std::string &	param_name,
		const unsigned int	index = `0`
	)		const

inherited

doco-normal-methods-begin Retrieve the value of a Postprocessor or one of it's old or older values

Parameters

param_name	The name of the Postprocessor parameter (see below)
index	The index of the Postprocessor

Returns: A reference to the desired value

The name required by this method is the name that is hard-coded into your source code. For example, if you have a Kernel that requires a Postprocessor you may have an input file with "pp = my_pp", this function requires the "pp" name as input (see .../moose_test/functions/PostprocessorFunction.C)

see getPostprocessorValueByName getPostprocessorValueOldByName getPostprocessorValueOlderByName

Definition at line 36 of file PostprocessorInterface.C.

Referenced by EigenKernel::EigenKernel(), FunctionValuePostprocessor::FunctionValuePostprocessor(), LinearCombinationPostprocessor::LinearCombinationPostprocessor(), and ParsedPostprocessor::ParsedPostprocessor().

 {
   return getPostprocessorValueInternal(param_name, index, /* t_index = */ 0);
 }

◆ getPostprocessorValueByName()

const PostprocessorValue & PostprocessorInterface::getPostprocessorValueByName ( const PostprocessorName & name ) const

virtualinherited

Retrieve the value of the Postprocessor.

Parameters

name	Postprocessor name (see below)

Returns: A reference to the desired value

The name required by this method is the name defined in the input file. For example, if you have a Kernel that requires a Postprocessor you may have an input file with "pp = my_pp", this method requires the "my_pp" name as input (see .../moose_test/functions/PostprocessorFunction.C)

see getPostprocessorValue getPostprocessorValueOld getPostprocessorValueOlder

Definition at line 57 of file PostprocessorInterface.C.

Referenced by EigenKernel::EigenKernel(), PIDTransientControl::execute(), IterationAdaptiveDT::IterationAdaptiveDT(), LibtorchNeuralNetControl::LibtorchNeuralNetControl(), ParsedODEKernel::ParsedODEKernel(), SecantSolve::savePostprocessorValues(), savePostprocessorValues(), PicardSolve::savePostprocessorValues(), WebServerControl::startServer(), Terminator::Terminator(), SecantSolve::transformPostprocessors(), transformPostprocessors(), PicardSolve::transformPostprocessors(), and VectorOfPostprocessors::VectorOfPostprocessors().

 {
   return getPostprocessorValueByNameInternal(name, /* t_index = */ 0);
 }

◆ getPostprocessorValueOld()

const PostprocessorValue & PostprocessorInterface::getPostprocessorValueOld	(	const std::string &	param_name,
		const unsigned int	index = `0`
	)		const

inherited

Definition at line 43 of file PostprocessorInterface.C.

 {
   return getPostprocessorValueInternal(param_name, index, /* t_index = */ 1);
 }

◆ getPostprocessorValueOldByName()

const PostprocessorValue & PostprocessorInterface::getPostprocessorValueOldByName ( const PostprocessorName & name ) const

inherited

Definition at line 63 of file PostprocessorInterface.C.

Referenced by EigenKernel::EigenKernel().

 {
   return getPostprocessorValueByNameInternal(name, /* t_index = */ 1);
 }

◆ getPostprocessorValueOlder()

const PostprocessorValue & PostprocessorInterface::getPostprocessorValueOlder	(	const std::string &	param_name,
		const unsigned int	index = `0`
	)		const

inherited

Definition at line 50 of file PostprocessorInterface.C.

 {
   return getPostprocessorValueInternal(param_name, index, /* t_index = */ 2);
 }

◆ getPostprocessorValueOlderByName()

const PostprocessorValue & PostprocessorInterface::getPostprocessorValueOlderByName ( const PostprocessorName & name ) const

inherited

Definition at line 69 of file PostprocessorInterface.C.

 {
   return getPostprocessorValueByNameInternal(name, /* t_index = */ 2);
 }

◆ getRenamedParam()

template<typename T >

const T & MooseBaseParameterInterface::getRenamedParam	(	const std::string &	old_name,
		const std::string &	new_name
	)		const

inherited

Retrieve a renamed parameter for the object.

This helper makes sure we check both names before erroring, and that only one parameter is passed to avoid silent errors

Parameters

old_name	the old name for the parameter
new_name	the new name for the parameter

Definition at line 229 of file MooseBaseParameterInterface.h.

 {
   // this enables having a default on the new parameter but bypassing it with the old one
   // Most important: accept new parameter
   if (isParamSetByUser(new_name) && !isParamValid(old_name))
     return InputParameters::getParamHelper(new_name, _pars, static_cast<T *>(0), &_moose_base);
   // Second most: accept old parameter
   else if (isParamValid(old_name) && !isParamSetByUser(new_name))
     return InputParameters::getParamHelper(old_name, _pars, static_cast<T *>(0), &_moose_base);
   // Third most: accept default for new parameter
   else if (isParamValid(new_name) && !isParamValid(old_name))
     return InputParameters::getParamHelper(new_name, _pars, static_cast<T *>(0), &_moose_base);
   // Refuse: no default, no value passed
   else if (!isParamValid(old_name) && !isParamValid(new_name))
     mooseError(_pars.blockFullpath() + ": parameter '" + new_name +
                "' is being retrieved without being set.\n"
                "Did you misspell it?");
   // Refuse: both old and new parameters set by user
   else
     mooseError(_pars.blockFullpath() + ": parameter '" + new_name +
                "' may not be provided alongside former parameter '" + old_name + "'");
 }

◆ getSharedPtr() [1/2]

std::shared_ptr< MooseObject > MooseObject::getSharedPtr ( )

inherited

Get another shared pointer to this object that has the same ownership group.

Wrapper around shared_from_this().

Definition at line 68 of file MooseObject.C.

Referenced by MFEMProblem::addBoundaryCondition(), MFEMProblem::addKernel(), and MFEMProblem::addMFEMSolver().

 {
   try
   {
     return shared_from_this();
   }
   catch (std::bad_weak_ptr &)
   {
     mooseError(not_shared_error);
   }
 }

◆ getSharedPtr() [2/2]

std::shared_ptr< const MooseObject > MooseObject::getSharedPtr ( ) const

inherited

Definition at line 81 of file MooseObject.C.

 {
   try
   {
     return shared_from_this();
   }
   catch (std::bad_weak_ptr &)
   {
     mooseError(not_shared_error);
   }
 }

◆ hasFixedPointIteration()

bool FixedPointSolve::hasFixedPointIteration ( )

inlineinherited

Whether or not this has fixed point iterations.

Definition at line 84 of file FixedPointSolve.h.

84 { return _has_fixed_point_its; }

FixedPointSolve::_has_fixed_point_its

const bool _has_fixed_point_its

Whether or not we activate fixed point iteration.

Definition: FixedPointSolve.h:195

◆ hasPostprocessor()

bool PostprocessorInterface::hasPostprocessor	(	const std::string &	param_name,
		const unsigned int	index = `0`
	)		const

inherited

Determine if the Postprocessor data exists.

Parameters

param_name	The name of the Postprocessor parameter
index	The index of the Postprocessor

Returns: True if the Postprocessor exists

See also: hasPostprocessorByName getPostprocessorValue

Definition at line 107 of file PostprocessorInterface.C.

 {
   if (!postprocessorsAdded())
     _ppi_moose_object.mooseError(
         "Cannot call hasPostprocessor() until all Postprocessors have been constructed.");
 
   return hasPostprocessorByName(getPostprocessorNameInternal(param_name, index));
 }

◆ hasPostprocessorByName()

bool PostprocessorInterface::hasPostprocessorByName ( const PostprocessorName & name ) const

inherited

Determine if the Postprocessor data exists.

Parameters

name	The name of the Postprocessor

Returns: True if the Postprocessor exists

See also: hasPostprocessor getPostprocessorValueByName

Definition at line 118 of file PostprocessorInterface.C.

Referenced by PostprocessorInterface::getPostprocessorValueByNameInternal(), PostprocessorInterface::getPostprocessorValueInternal(), PostprocessorInterface::hasPostprocessor(), AdvancedOutput::initShowHideLists(), TableOutput::outputReporters(), Exodus::outputReporters(), and WebServerControl::startServer().

 {
   if (!postprocessorsAdded())
     _ppi_moose_object.mooseError(
         "Cannot call hasPostprocessorByName() until all Postprocessors have been constructed.");
 
   return _ppi_feproblem.getReporterData().hasReporterValue<PostprocessorValue>(
       PostprocessorReporterName(name));
 }

◆ initialSetup()

void SteffensenSolve::initialSetup ( )

overridevirtual

Method that should be executed once, before any solve calls.

Reimplemented from FixedPointSolve.

Definition at line 66 of file SteffensenSolve.C.

 {
   FixedPointSolve::initialSetup();
 
   auto & convergence = _problem.getConvergence(_problem.getMultiAppFixedPointConvergenceName());
   if (!dynamic_cast<DefaultMultiAppFixedPointConvergence *>(&convergence))
     mooseError(
         "Only DefaultMultiAppFixedPointConvergence objects may be used for "
         "'multiapp_fixed_point_convergence' when using the Steffensen fixed point algorithm.");
 }

◆ isDefaultPostprocessorValue()

bool PostprocessorInterface::isDefaultPostprocessorValue	(	const std::string &	param_name,
		const unsigned int	index = `0`
	)		const

inherited

Determine whether or not the Postprocessor is a default value.

A default value is when the value is either the value set by addParam, or is a user-set value in input instead of a name to a postprocessor.

Parameters

param_name	The name of the Postprocessor parameter
index	The index of the postprocessor

Returns: True if the Postprocessor is a default value, false if the Postprocessor is the name of a Postprocessor

Definition at line 75 of file PostprocessorInterface.C.

Referenced by EigenKernel::EigenKernel().

 {
   return isDefaultPostprocessorValueByName(getPostprocessorNameInternal(param_name, index));
 }

◆ isParamSetByUser()

bool MooseBaseParameterInterface::isParamSetByUser ( const std::string & nm ) const

inlineinherited

Test if the supplied parameter is set by a user, as opposed to not set or set to default.

Parameters

nm	The name of the parameter to test

Definition at line 128 of file MooseBaseParameterInterface.h.

Referenced by SetupDebugAction::act(), ADConservativeAdvectionBC::ADConservativeAdvectionBC(), DiffusionCG::addFEBCs(), DiffusionPhysicsBase::addInitialConditions(), MFEMMesh::buildMesh(), LibtorchNeuralNetControl::conditionalParameterError(), DiffusionPhysicsBase::DiffusionPhysicsBase(), ElementSubdomainModifierBase::ElementSubdomainModifierBase(), MooseBaseParameterInterface::getRenamedParam(), DefaultConvergenceBase::getSharedExecutionerParam(), AddVariableAction::init(), PhysicsBase::initializePhysics(), ElementSubdomainModifierBase::initialSetup(), MatrixSymmetryCheck::MatrixSymmetryCheck(), MeshDiagnosticsGenerator::MeshDiagnosticsGenerator(), MultiAppGeneralFieldTransfer::MultiAppGeneralFieldTransfer(), SolutionInvalidityOutput::output(), Output::Output(), MultiAppGeneralFieldTransfer::outputValueConflicts(), PetscExternalPartitioner::partition(), PiecewiseTabularBase::PiecewiseTabularBase(), MooseMesh::prepare(), SolutionUserObjectBase::readXda(), PhysicsBase::reportPotentiallyMissedParameters(), MFEMSolverBase::setPreconditioner(), SideSetsFromBoundingBoxGenerator::SideSetsFromBoundingBoxGenerator(), TimedSubdomainModifier::TimedSubdomainModifier(), and XYDelaunayGenerator::XYDelaunayGenerator().

128 { return _pars.isParamSetByUser(nm); }

InputParameters::isParamSetByUser

bool isParamSetByUser(const std::string &name) const

Method returns true if the parameter was set by the user.

Definition: InputParameters.C:1178

MooseBaseParameterInterface::_pars

const InputParameters & _pars

Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

Definition: MooseBaseParameterInterface.h:173

◆ isParamValid()

bool MooseBaseParameterInterface::isParamValid ( const std::string & name ) const

inlineinherited

Test if the supplied parameter is valid.

Parameters

name	The name of the parameter to test

Definition at line 122 of file MooseBaseParameterInterface.h.

122 { return _pars.isParamValid(name); }

MooseBaseParameterInterface::_pars

const InputParameters & _pars

Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

Definition: MooseBaseParameterInterface.h:173

InputParameters::isParamValid

bool isParamValid(const std::string &name) const

This method returns parameters that have been initialized in one fashion or another, i.e.

Definition: InputParameters.C:390

◆ mooseDeprecated()

template<typename... Args>

void MooseBaseErrorInterface::mooseDeprecated ( Args &&... args ) const

inlineinherited

Definition at line 91 of file MooseBaseErrorInterface.h.

Referenced by FEProblemBase::addAuxArrayVariable(), FEProblemBase::addAuxScalarVariable(), FEProblemBase::addAuxVariable(), FEProblemBase::advanceMultiApps(), MultiApp::appProblem(), MooseMesh::buildSideList(), ChangeOverTimestepPostprocessor::ChangeOverTimestepPostprocessor(), AddVariableAction::determineType(), EigenProblem::EigenProblem(), Eigenvalue::Eigenvalue(), MooseMesh::elem(), UserForcingFunction::f(), FaceFaceConstraint::FaceFaceConstraint(), FunctionDT::FunctionDT(), RandomICBase::generateRandom(), MooseMesh::getBoundariesToElems(), DataFileInterface::getDataFileName(), DataFileInterface::getDataFileNameByName(), Control::getExecuteOptions(), FEProblemBase::getNonlinearSystem(), FEProblemBase::getUserObjects(), FEProblemBase::hasPostprocessor(), MatDiffusionBase< Real >::MatDiffusionBase(), MultiAppNearestNodeTransfer::MultiAppNearestNodeTransfer(), MultiAppShapeEvaluationTransfer::MultiAppShapeEvaluationTransfer(), MultiAppUserObjectTransfer::MultiAppUserObjectTransfer(), NodalScalarKernel::NodalScalarKernel(), MooseMesh::node(), FixedPointSolve::numPicardIts(), RelationshipManager::operator>=(), PercentChangePostprocessor::PercentChangePostprocessor(), ReferenceResidualConvergence::ReferenceResidualConvergence(), Residual::Residual(), MooseMesh::setBoundaryToNormalMap(), Exodus::setOutputDimension(), UserForcingFunction::UserForcingFunction(), and VariableResidual::VariableResidual().

   {
     moose::internal::mooseDeprecatedStream(
         _console, false, true, _moose_base.errorPrefix("deprecation"), std::forward<Args>(args)...);
   }

◆ mooseDocumentedError()

template<typename... Args>

void MooseBaseErrorInterface::mooseDocumentedError	(	const std::string &	repo_name,
		const unsigned int	issue_num,
		Args &&...	args
	)		const

inlineinherited

Emits a documented error with object name and type.

Documented errors are errors that have an issue associated with them.

The repository name repo_name links a named repository to a URL and should be registered at the application level with registerRepository(). See Moose.C for an example of the "moose" repository registration.

Parameters

repo_name	The repository name where the issue resides
issue_num	The number of the issue
args	The error message to be combined

Definition at line 61 of file MooseBaseErrorInterface.h.

Referenced by ArrayDGLowerDKernel::ArrayDGLowerDKernel(), ArrayHFEMDirichletBC::ArrayHFEMDirichletBC(), ArrayLowerDIntegratedBC::ArrayLowerDIntegratedBC(), DGLowerDKernel::DGLowerDKernel(), HFEMDirichletBC::HFEMDirichletBC(), and LowerDIntegratedBC::LowerDIntegratedBC().

   {
     std::ostringstream oss;
     moose::internal::mooseStreamAll(oss, std::forward<Args>(args)...);
     const auto msg = moose::internal::formatMooseDocumentedError(repo_name, issue_num, oss.str());
     _moose_base.callMooseError(msg, /* with_prefix = */ true);
   }

◆ mooseError()

template<typename... Args>

void MooseBaseErrorInterface::mooseError ( Args &&... args ) const

inlineinherited

Emits an error prefixed with object name and type.

Definition at line 29 of file MooseBaseErrorInterface.h.

   {
     std::ostringstream oss;
     moose::internal::mooseStreamAll(oss, std::forward<Args>(args)...);
     _moose_base.callMooseError(oss.str(), /* with_prefix = */ true);
   }

◆ mooseErrorNonPrefixed()

template<typename... Args>

void MooseBaseErrorInterface::mooseErrorNonPrefixed ( Args &&... args ) const

inlineinherited

Emits an error without the prefixing included in mooseError().

Definition at line 40 of file MooseBaseErrorInterface.h.

   {
     std::ostringstream oss;
     moose::internal::mooseStreamAll(oss, std::forward<Args>(args)...);
     _moose_base.callMooseError(oss.str(), /* with_prefix = */ false);
   }

◆ mooseInfo()

template<typename... Args>

void MooseBaseErrorInterface::mooseInfo ( Args &&... args ) const

inlineinherited

Definition at line 98 of file MooseBaseErrorInterface.h.

Referenced by SetupRecoverFileBaseAction::act(), AStableDirk4::AStableDirk4(), MeshDiagnosticsGenerator::checkNonConformalMeshFromAdaptivity(), MultiAppGeneralFieldNearestLocationTransfer::evaluateInterpValuesNearestNode(), PIDTransientControl::execute(), Executioner::Executioner(), ExplicitRK2::ExplicitRK2(), ExplicitTVDRK2::ExplicitTVDRK2(), DataFileInterface::getDataFilePath(), MFEMScalarFESpace::getFECName(), MultiAppTransfer::getPointInTargetAppFrame(), ImplicitMidpoint::ImplicitMidpoint(), ParsedDownSelectionPositions::initialize(), PropertyReadFile::initialize(), MultiAppGeneralFieldTransfer::initialSetup(), InversePowerMethod::InversePowerMethod(), LStableDirk2::LStableDirk2(), LStableDirk3::LStableDirk3(), LStableDirk4::LStableDirk4(), PNGOutput::makeMeshFunc(), NonlinearEigen::NonlinearEigen(), SolutionInvalidityOutput::output(), MultiAppGeneralFieldTransfer::outputValueConflicts(), ProjectionAux::ProjectionAux(), ReferenceResidualConvergence::ReferenceResidualConvergence(), MFEMDataCollection::registerFields(), FEProblemBase::setRestartFile(), SolutionUserObjectBase::SolutionUserObjectBase(), SymmetryTransformGenerator::SymmetryTransformGenerator(), TransientBase::takeStep(), and TransientBase::TransientBase().

   {
     moose::internal::mooseInfoStream(
         _console, _moose_base.errorPrefix("information"), std::forward<Args>(args)...);
   }

◆ mooseWarning()

template<typename... Args>

void MooseBaseErrorInterface::mooseWarning ( Args &&... args ) const

inlineinherited

Emits a warning prefixed with object name and type.

Definition at line 75 of file MooseBaseErrorInterface.h.

Referenced by CopyMeshPartitioner::_do_partition(), AddKernelAction::act(), MeshOnlyAction::act(), AddFunctionAction::act(), MaterialOutputAction::act(), CommonOutputAction::act(), MFEMProblem::addFunction(), MooseMesh::addPeriodicVariable(), DiracKernelBase::addPoint(), BoundaryMarker::BoundaryMarker(), DistributedRectilinearMeshGenerator::buildCube(), MultiAppVariableValueSamplePostprocessorTransfer::cacheElemToPostprocessorData(), CartesianMeshGenerator::CartesianMeshGenerator(), CheckOutputAction::checkConsoleOutput(), MultiAppTransfer::checkMultiAppExecuteOn(), MeshDiagnosticsGenerator::checkNonMatchingEdges(), ActionComponent::checkRequiredTasks(), PhysicsBase::checkRequiredTasks(), SampledOutput::cloneMesh(), MultiAppGeneralFieldTransfer::closestToPosition(), VariableValueElementSubdomainModifier::computeSubdomainID(), GapValueAux::computeValue(), MultiApp::createApp(), DebugResidualAux::DebugResidualAux(), MeshDiagnosticsGenerator::diagnosticsLog(), CylindricalGridDivision::divisionIndex(), SphericalGridDivision::divisionIndex(), CartesianGridDivision::divisionIndex(), ElementMaterialSampler::ElementMaterialSampler(), Postprocessor::evaluateDotWarning(), MeshDivisionFunctorReductionVectorPostprocessor::execute(), ElementQualityChecker::finalize(), FiniteDifferencePreconditioner::FiniteDifferencePreconditioner(), FixedPointSolve::FixedPointSolve(), SubdomainPerElementGenerator::generate(), StitchedMeshGenerator::generate(), ParsedGenerateSideset::generate(), MultiAppTransfer::getAppInfo(), FunctorBinnedValuesDivision::getBinIndex(), DataFileInterface::getDataFilePath(), PointSamplerBase::getLocalElemContainingPoint(), FEProblemBase::getMaterial(), LineValueSampler::getValue(), Terminator::handleMessage(), IndicatorMarker::IndicatorMarker(), CylindricalGridDivision::initialize(), SphericalGridDivision::initialize(), ElementGroupCentroidPositions::initialize(), CartesianGridDivision::initialize(), MultiAppGeneralFieldNearestLocationTransfer::initialSetup(), BoundsBase::initialSetup(), ReferenceResidualConvergence::initialSetup(), MultiAppGeneralFieldTransfer::initialSetup(), FEProblemBase::initialSetup(), AdvancedOutput::initPostprocessorOrVectorPostprocessorLists(), MaterialBase::initStatefulProperties(), LeastSquaresFit::LeastSquaresFit(), IterationAdaptiveDT::limitDTToPostprocessorValue(), FEProblemBase::mesh(), MultiAppGeneralFieldTransfer::MultiAppGeneralFieldTransfer(), NewmarkBeta::NewmarkBeta(), NodalPatchRecovery::NodalPatchRecovery(), NonlocalIntegratedBC::NonlocalIntegratedBC(), NonlocalKernel::NonlocalKernel(), Output::Output(), MultiAppGeneralFieldTransfer::outputValueConflicts(), PiecewiseConstantFromCSV::PiecewiseConstantFromCSV(), Executioner::problem(), PropertyReadFile::readData(), TestSourceStepper::rejectStep(), PhysicsBase::reportPotentiallyMissedParameters(), MaterialBase::resetQpProperties(), SecondTimeDerivativeAux::SecondTimeDerivativeAux(), MooseMesh::setCoordSystem(), SidesetAroundSubdomainUpdater::SidesetAroundSubdomainUpdater(), FEProblemBase::sizeZeroes(), TransientMultiApp::solveStep(), Tecplot::Tecplot(), TimeDerivativeAux::TimeDerivativeAux(), Checkpoint::updateCheckpointFiles(), SampledOutput::updateSample(), PiecewiseConstantFromCSV::value(), and VariableCondensationPreconditioner::VariableCondensationPreconditioner().

   {
     moose::internal::mooseWarningStream(
         _console, _moose_base.errorPrefix("warning"), std::forward<Args>(args)...);
   }

◆ mooseWarningNonPrefixed()

template<typename... Args>

void MooseBaseErrorInterface::mooseWarningNonPrefixed ( Args &&... args ) const

inlineinherited

Emits a warning without the prefixing included in mooseWarning().

Definition at line 85 of file MooseBaseErrorInterface.h.

   {
     moose::internal::mooseWarningStream(_console, std::forward<Args>(args)...);
   }

◆ name()

virtual const std::string& MooseBase::name ( ) const

inlinevirtualinherited

Get the name of the class.

Returns: The name of the class

Reimplemented in MooseVariableBase.

Definition at line 57 of file MooseBase.h.

57 { return _name; }

MooseBase::_name

const std::string _name

The name of this class.

Definition: MooseBase.h:90

◆ numFixedPointIts()

unsigned int FixedPointSolve::numFixedPointIts ( ) const

inlineinherited

Get the number of fixed point iterations performed Because this returns the number of fixed point iterations, rather than the current iteration count (which starts at 0), increment by 1.

Returns: Number of fixed point iterations performed

Definition at line 58 of file FixedPointSolve.h.

Referenced by FixedPointIterationAdaptiveDT::acceptStep(), IterationInfo::execute(), PIDTransientControl::execute(), ChangeOverFixedPointPostprocessor::finalize(), NumFixedPointIterations::getValue(), and DefaultMultiAppFixedPointConvergence::preExecute().

58 { return _fixed_point_it + 1; }

FixedPointSolve::_fixed_point_it

unsigned int _fixed_point_it

Definition: FixedPointSolve.h:217

◆ numPicardIts()

unsigned int FixedPointSolve::numPicardIts ( ) const

inlineinherited

Deprecated getter for the number of fixed point iterations.

Definition at line 61 of file FixedPointSolve.h.

   {
     mooseDeprecated("numPicards() is deprecated. Please use numFixedPointIts() instead.");
 
     return _fixed_point_it + 1;
   }

◆ paramError()

template<typename... Args>

void MooseBaseParameterInterface::paramError	(	const std::string &	param,
		Args...	args
	)		const

inherited

Emits an error prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message.

If this object's parameters were not created directly by the Parser, then this function falls back to the normal behavior of mooseError - only printing a message using the given args.

Definition at line 255 of file MooseBaseParameterInterface.h.

 {
   Moose::show_trace = false;
   _moose_base.callMooseError(paramErrorMsg(param, std::forward<Args>(args)...),
                              /* with_prefix = */ false);
   Moose::show_trace = true;
 }

◆ parameters()

const InputParameters& MooseBaseParameterInterface::parameters ( ) const

inlineinherited

Get the parameters of the object.

Returns: The parameters of the object

Definition at line 62 of file MooseBaseParameterInterface.h.

62 { return _pars; }

MooseBaseParameterInterface::_pars

const InputParameters & _pars

Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

Definition: MooseBaseParameterInterface.h:173

◆ paramInfo()

template<typename... Args>

void MooseBaseParameterInterface::paramInfo	(	const std::string &	param,
		Args...	args
	)		const

inherited

Emits an informational message prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message.

If this object's parameters were not created directly by the Parser, then this function falls back to the normal behavior of mooseInfo - only printing a message using the given args.

Definition at line 272 of file MooseBaseParameterInterface.h.

Referenced by GridPartitioner::_do_partition(), ComboMarker::ComboMarker(), Control::Control(), FunctorIC::FunctorIC(), and TransientMultiApp::TransientMultiApp().

 {
   mooseInfo(paramErrorMsg(param, std::forward<Args>(args)...));
 }

◆ paramWarning()

template<typename... Args>

void MooseBaseParameterInterface::paramWarning	(	const std::string &	param,
		Args...	args
	)		const

inherited

Emits a warning prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message.

If this object's parameters were not created directly by the Parser, then this function falls back to the normal behavior of mooseWarning - only printing a message using the given args.

Definition at line 265 of file MooseBaseParameterInterface.h.

Referenced by GridPartitioner::_do_partition(), EigenProblem::checkProblemIntegrity(), CombinerGenerator::copyIntoMesh(), DefaultMultiAppFixedPointConvergence::DefaultMultiAppFixedPointConvergence(), MultiAppNearestNodeTransfer::execute(), FEProblemSolve::FEProblemSolve(), UniqueExtraIDMeshGenerator::generate(), PlaneIDMeshGenerator::generate(), Terminator::initialSetup(), SampledOutput::initSample(), MooseMesh::MooseMesh(), FEProblemBase::setPreserveMatrixSparsityPattern(), and Terminator::Terminator().

 {
   mooseWarning(paramErrorMsg(param, std::forward<Args>(args)...));
 }

◆ perfGraph()

PerfGraph & PerfGraphInterface::perfGraph ( )

inherited

Get the PerfGraph.

Definition at line 78 of file PerfGraphInterface.C.

Referenced by CommonOutputAction::act(), PerfGraphData::finalize(), and PerfGraphOutput::output().

 {
   return _pg_moose_app.perfGraph();
 }

◆ printFixedPointConvergenceHistory()

void SteffensenSolve::printFixedPointConvergenceHistory	(	Real	initial_norm,
		const std::vector< Real > &	timestep_begin_norms,
		const std::vector< Real > &	timestep_end_norms
	)		const

finaloverridevirtual

Print the convergence history of the coupling, at every fixed point iteration.

Implements FixedPointSolve.

Definition at line 236 of file SteffensenSolve.C.

 {
   _console << "\n 0 Steffensen initialization |R| = "
            << Console::outputNorm(std::numeric_limits<Real>::max(), initial_norm) << '\n';
 
   Real max_norm_old = initial_norm;
   for (unsigned int i = 0; i <= _fixed_point_it; ++i)
   {
     Real max_norm = std::max(timestep_begin_norms[i], timestep_end_norms[i]);
     std::stringstream steffensen_prefix;
     if (i == 0)
       steffensen_prefix << " Steffensen initialization |R| = ";
     else if (i % 2 == 0)
       steffensen_prefix << " Steffensen half-step      |R| = ";
     else
       steffensen_prefix << " Steffensen step           |R| = ";
 
     _console << std::setw(2) << i + 1 << steffensen_prefix.str()
              << Console::outputNorm(max_norm_old, max_norm) << '\n';
 
     max_norm_old = max_norm;
   }
 }

◆ printFixedPointConvergenceReason()

void FixedPointSolve::printFixedPointConvergenceReason ( )

protectedinherited

Print information about the fixed point convergence.

Definition at line 501 of file FixedPointSolve.C.

Referenced by FixedPointSolve::solve().

 {
   _console << "Fixed point convergence reason: ";
   switch (_fixed_point_status)
   {
     case MooseFixedPointConvergenceReason::CONVERGED_ABS:
       _console << "CONVERGED_ABS";
       break;
     case MooseFixedPointConvergenceReason::CONVERGED_RELATIVE:
       _console << "CONVERGED_RELATIVE";
       break;
     case MooseFixedPointConvergenceReason::CONVERGED_PP:
       _console << "CONVERGED_PP";
       break;
     case MooseFixedPointConvergenceReason::REACH_MAX_ITS:
       _console << "REACH_MAX_ITS";
       break;
     case MooseFixedPointConvergenceReason::CONVERGED_OBJECT:
       _console << "CONVERGED_OBJECT (see Convergence object)";
       break;
     case MooseFixedPointConvergenceReason::DIVERGED_MAX_ITS:
       _console << "DIVERGED_MAX_ITS";
       break;
     case MooseFixedPointConvergenceReason::DIVERGED_NONLINEAR:
       _console << "DIVERGED_NONLINEAR";
       break;
     case MooseFixedPointConvergenceReason::DIVERGED_FAILED_MULTIAPP:
       _console << "DIVERGED_FAILED_MULTIAPP";
       break;
     case MooseFixedPointConvergenceReason::DIVERGED_OBJECT:
       _console << "DIVERGED_OBJECT (see Convergence object)";
       break;
     default:
       // UNSOLVED and CONVERGED_NONLINEAR should not be hit when coupling
       // iteration is not on here
       mooseError("Internal error: wrong fixed point status!");
       break;
   }
   _console << std::endl;
 }

◆ queryParam()

template<typename T >

const T * MooseBaseParameterInterface::queryParam ( const std::string & name ) const

inherited

Query a parameter for the object.

If the parameter is not valid, nullptr will be returned

Parameters

name	The name of the parameter

Returns: A pointer to the parameter value, if it exists

Definition at line 222 of file MooseBaseParameterInterface.h.

 {
   return isParamValid(name) ? &getParam<T>(name) : nullptr;
 }

◆ registerTimedSection() [1/2]

PerfID PerfGraphInterface::registerTimedSection	(	const std::string &	section_name,
		const unsigned int	level
	)		const

protectedinherited

Call to register a named section for timing.

Parameters

section_name	The name of the code section to be timed
level	The importance of the timer - lower is more important (0 will always come out)

Returns: The ID of the section - use when starting timing

Definition at line 53 of file PerfGraphInterface.C.

 {
   const auto timed_section_name = timedSectionName(section_name);
   if (!moose::internal::getPerfGraphRegistry().sectionExists(timed_section_name))
     return moose::internal::getPerfGraphRegistry().registerSection(timed_section_name, level);
   else
     return moose::internal::getPerfGraphRegistry().sectionID(timed_section_name);
 }

◆ registerTimedSection() [2/2]

PerfID PerfGraphInterface::registerTimedSection	(	const std::string &	section_name,
		const unsigned int	level,
		const std::string &	live_message,
		const bool	print_dots = `true`
	)		const

protectedinherited

Call to register a named section for timing.

Parameters

section_name	The name of the code section to be timed
level	The importance of the timer - lower is more important (0 will always come out)
live_message	The message to be printed to the screen during execution
print_dots	Whether or not progress dots should be printed for this section

Returns: The ID of the section - use when starting timing

Definition at line 64 of file PerfGraphInterface.C.

 {
   const auto timed_section_name = timedSectionName(section_name);
   if (!moose::internal::getPerfGraphRegistry().sectionExists(timed_section_name))
     return moose::internal::getPerfGraphRegistry().registerSection(
         timedSectionName(section_name), level, live_message, print_dots);
   else
     return moose::internal::getPerfGraphRegistry().sectionID(timed_section_name);
 }

◆ saveAllValues()

void FixedPointSolve::saveAllValues ( const bool primary )

protectedvirtualinherited

Save both the variable and postprocessor values.

Definition at line 363 of file FixedPointSolve.C.

Referenced by FixedPointSolve::solveStep().

 {
   saveVariableValues(primary);
   savePostprocessorValues(primary);
 }

◆ savePostprocessorValues()

void SteffensenSolve::savePostprocessorValues ( const bool primary )

finaloverrideprivatevirtual

Saves the current values of the postprocessors, and update the old(er) vectors.

Parameters

primary Whether this routine is to save the variables for the primary transformed quantities (as main app) or the secondary ones (as a subapp)

Implements FixedPointSolve.

Definition at line 115 of file SteffensenSolve.C.

 {
   unsigned int iteration;
   const std::vector<PostprocessorName> * transformed_pps;
   std::vector<std::vector<PostprocessorValue>> * transformed_pps_values;
   if (primary)
   {
     iteration = _fixed_point_it;
     transformed_pps = &_transformed_pps;
     transformed_pps_values = &_transformed_pps_values;
   }
   else
   {
     iteration = _main_fixed_point_it;
     transformed_pps = &_secondary_transformed_pps;
     transformed_pps_values = &_secondary_transformed_pps_values;
   }
 
   // Save previous postprocessor values
   for (size_t i = 0; i < (*transformed_pps).size(); i++)
   {
     if (iteration % 2 == 0)
       (*transformed_pps_values)[i][1] = getPostprocessorValueByName((*transformed_pps)[i]);
     else
       (*transformed_pps_values)[i][0] = getPostprocessorValueByName((*transformed_pps)[i]);
   }
 }

◆ saveVariableValues()

void SteffensenSolve::saveVariableValues ( const bool primary )

finaloverrideprivatevirtual

Saves the current values of the variables, and update the old(er) vectors.

Parameters

primary Whether this routine is to save the variables for the primary transformed quantities (as main app) or the secondary ones (as a subapp)

Implements FixedPointSolve.

Definition at line 78 of file SteffensenSolve.C.

 {
   unsigned int iteration;
   TagID fxn_m1_tagid;
   TagID xn_m1_tagid;
   if (primary)
   {
     iteration = _fixed_point_it;
     fxn_m1_tagid = _fxn_m1_tagid;
     xn_m1_tagid = _xn_m1_tagid;
   }
   else
   {
     iteration = _main_fixed_point_it;
     fxn_m1_tagid = _secondary_fxn_m1_tagid;
     xn_m1_tagid = _secondary_xn_m1_tagid;
   }
 
   // Check to make sure allocateStorage has been called
   mooseAssert(fxn_m1_tagid != Moose::INVALID_TAG_ID,
               "allocateStorage has not been called with primary = " + Moose::stringify(primary));
   mooseAssert(xn_m1_tagid != Moose::INVALID_TAG_ID,
               "allocateStorage has not been called with primary = " + Moose::stringify(primary));
 
   // Save previous variable values
   NumericVector<Number> & solution = _solver_sys.solution();
   NumericVector<Number> & fxn_m1 = _solver_sys.getVector(fxn_m1_tagid);
   NumericVector<Number> & xn_m1 = _solver_sys.getVector(xn_m1_tagid);
 
   // What 'solution' is with regards to the Steffensen solve depends on the step
   if (iteration % 2 == 1)
     xn_m1 = solution;
   else
     fxn_m1 = solution;
 }

◆ setFixedPointStatus()

void FixedPointSolve::setFixedPointStatus ( MooseFixedPointConvergenceReason status )

inlineinherited

Set fixed point status.

Definition at line 75 of file FixedPointSolve.h.

Referenced by DefaultMultiAppFixedPointConvergence::checkConvergence().

   {
     _fixed_point_status = status;
   }

◆ setInnerSolve()

virtual void SolveObject::setInnerSolve ( SolveObject & solve )

inlinevirtualinherited

Set the inner solve object wrapped by this object.

Reimplemented in FEProblemSolve.

Definition at line 41 of file SolveObject.h.

41 { _inner_solve = &solve; }

SolveObject::_inner_solve

SolveObject * _inner_solve

SolveObject wrapped by this solve object.

Definition: SolveObject.h:59

SolveObject::solve

virtual bool solve()=0

Solve routine provided by this object.

◆ setMultiAppRelaxationFactor()

void FixedPointSolve::setMultiAppRelaxationFactor ( Real factor )

inlineinherited

Set relaxation factor for the current solve as a SubApp.

Definition at line 87 of file FixedPointSolve.h.

87 { _secondary_relaxation_factor = factor; }

FixedPointSolve::_secondary_relaxation_factor

Real _secondary_relaxation_factor

Relaxation factor outside of fixed point iteration (used as a subapp)

Definition: FixedPointSolve.h:207

◆ setMultiAppTransformedPostprocessors()

virtual void FixedPointSolve::setMultiAppTransformedPostprocessors ( const std::vector< PostprocessorName > & pps )

inlinevirtualinherited

Set relaxation postprocessors for the current solve as a SubApp.

Definition at line 96 of file FixedPointSolve.h.

   {
     _secondary_transformed_pps = pps;
   }

◆ setMultiAppTransformedVariables()

void FixedPointSolve::setMultiAppTransformedVariables ( const std::vector< std::string > & vars )

inlineinherited

Set relaxation variables for the current solve as a SubApp.

Definition at line 90 of file FixedPointSolve.h.

   {
     _secondary_transformed_variables = vars;
   }

◆ solve()

bool FixedPointSolve::solve ( )

overridevirtualinherited

Iteratively solves the FEProblem.

Returns: True if solver is converged.

Implements SolveObject.

Definition at line 202 of file FixedPointSolve.C.

 {
   TIME_SECTION("PicardSolve", 1);
 
   Real current_dt = _problem.dt();
 
   bool converged = true;
 
   // need to back up multi-apps even when not doing fixed point iteration for recovering from failed
   // multiapp solve
   _problem.backupMultiApps(EXEC_MULTIAPP_FIXED_POINT_BEGIN);
   _problem.backupMultiApps(EXEC_TIMESTEP_BEGIN);
   _problem.backupMultiApps(EXEC_TIMESTEP_END);
   _problem.backupMultiApps(EXEC_MULTIAPP_FIXED_POINT_END);
 
   // Prepare to relax variables as a main app
   std::set<dof_id_type> transformed_dofs;
   if ((_relax_factor != 1.0 || !dynamic_cast<PicardSolve *>(this)) && _transformed_vars.size() > 0)
   {
     // Snag all of the local dof indices for all of these variables
     AllLocalDofIndicesThread aldit(_problem, _transformed_vars);
     libMesh::ConstElemRange & elem_range = *_problem.mesh().getActiveLocalElementRange();
     Threads::parallel_reduce(elem_range, aldit);
 
     transformed_dofs = aldit.getDofIndices();
   }
 
   // Prepare to relax variables as a subapp
   std::set<dof_id_type> secondary_transformed_dofs;
   if (_secondary_relaxation_factor != 1.0 || !dynamic_cast<PicardSolve *>(this))
   {
     if (_secondary_transformed_variables.size() > 0)
     {
       // Snag all of the local dof indices for all of these variables
       AllLocalDofIndicesThread aldit(_problem, _secondary_transformed_variables);
       libMesh::ConstElemRange & elem_range = *_problem.mesh().getActiveLocalElementRange();
       Threads::parallel_reduce(elem_range, aldit);
 
       secondary_transformed_dofs = aldit.getDofIndices();
     }
 
     // To detect a new time step
     if (_old_entering_time == _problem.time() &&
         _fixed_point_status != MooseFixedPointConvergenceReason::UNSOLVED)
     {
       // Keep track of the iteration number of the main app
       _main_fixed_point_it++;
 
       // Save variable values before the solve. Solving will provide new values
       if (!_app.isUltimateMaster())
         saveVariableValues(/*is parent app of this iteration=*/false);
     }
     else
       _main_fixed_point_it = 0;
   }
 
   if (_has_fixed_point_its)
   {
     auto & convergence = _problem.getConvergence(_problem.getMultiAppFixedPointConvergenceName());
     convergence.initialize();
   }
 
   _fixed_point_it = 0;
   while (true)
   {
     if (_has_fixed_point_its)
     {
       if (_fixed_point_it != 0)
       {
         // For every iteration other than the first, we need to restore the state of the MultiApps
         _problem.restoreMultiApps(EXEC_TIMESTEP_BEGIN);
         _problem.restoreMultiApps(EXEC_TIMESTEP_END);
       }
 
       _console << COLOR_MAGENTA << "Beginning fixed point iteration " << _fixed_point_it
                << COLOR_DEFAULT << std::endl
                << std::endl;
     }
 
     // Solve a single application for one time step
     const bool solve_converged = solveStep(transformed_dofs);
 
     if (solve_converged)
     {
       if (_has_fixed_point_its)
       {
         _problem.outputStep(EXEC_MULTIAPP_FIXED_POINT_ITERATION_END);
 
         // Examine convergence metrics & properties and set the convergence reason
         bool break_out = examineFixedPointConvergence(converged);
 
         if (break_out)
         {
           // Except DefaultMultiAppFixedPointConvergence, convergence objects will not
           // update _fixed_point_status, so we give those cases generic values:
           if (_fixed_point_status == MooseFixedPointConvergenceReason::CONVERGED_NONLINEAR)
           {
             if (converged)
               _fixed_point_status = MooseFixedPointConvergenceReason::CONVERGED_OBJECT;
             else
               _fixed_point_status = MooseFixedPointConvergenceReason::DIVERGED_OBJECT;
           }
 
           break;
         }
       }
     }
     else
     {
       // If the last solve didn't converge then we need to exit this step completely (even in the
       // case of coupling). So we can retry...
       converged = false;
       break;
     }
 
     _problem.dt() =
         current_dt; // _dt might be smaller than this at this point for multistep methods
 
     _fixed_point_it++;
 
     if (!_has_fixed_point_its)
       break;
   }
 
   if (converged)
   {
     // Fixed point iteration loop ends right above
     _problem.execute(EXEC_MULTIAPP_FIXED_POINT_END);
     _problem.execTransfers(EXEC_MULTIAPP_FIXED_POINT_END);
     if (!_problem.execMultiApps(EXEC_MULTIAPP_FIXED_POINT_END, autoAdvance()))
     {
       _fixed_point_status = MooseFixedPointConvergenceReason::DIVERGED_FAILED_MULTIAPP;
       return false;
     }
     _problem.outputStep(EXEC_MULTIAPP_FIXED_POINT_END);
   }
 
   // Save postprocessors after the solve and their potential timestep_end execution
   // The postprocessors could be overwritten at timestep_begin, which is why they are saved
   // after the solve. They could also be saved right after the transfers.
   if (_old_entering_time == _problem.time())
     savePostprocessorValues(false);
 
   if (converged)
   {
     // Update the subapp using the fixed point algorithm
     if (_secondary_transformed_variables.size() > 0 &&
         useFixedPointAlgorithmUpdateInsteadOfPicard(false) && _old_entering_time == _problem.time())
       transformVariables(secondary_transformed_dofs, false);
 
     // Update the entering time, used to detect failed solves
     _old_entering_time = _problem.time();
   }
 
   if (_has_fixed_point_its)
     printFixedPointConvergenceReason();
 
   return converged;
 }

◆ solveStep()

bool FixedPointSolve::solveStep ( const std::set< dof_id_type > & transformed_dofs )

protectedvirtualinherited

Perform one fixed point iteration or a full solve.

Parameters

transformed_dofs DoFs targetted by the fixed point algorithm

Returns: True if both nonlinear solve and the execution of multiapps are successful.

Note: this function also set _xfem_repeat_step flag for XFEM. It tracks _xfem_update_count state. FIXME: The proper design will be to let XFEM use Picard iteration to control the execution.

Definition at line 370 of file FixedPointSolve.C.

Referenced by FixedPointSolve::solve().

 {
   bool auto_advance = autoAdvance();
 
   _executioner.preSolve();
   _problem.execTransfers(EXEC_TIMESTEP_BEGIN);
 
   if (_fixed_point_it == 0)
   {
     _problem.execute(EXEC_MULTIAPP_FIXED_POINT_BEGIN);
     _problem.execTransfers(EXEC_MULTIAPP_FIXED_POINT_BEGIN);
     if (!_problem.execMultiApps(EXEC_MULTIAPP_FIXED_POINT_BEGIN, autoAdvance()))
     {
       _fixed_point_status = MooseFixedPointConvergenceReason::DIVERGED_FAILED_MULTIAPP;
       return false;
     }
     _problem.outputStep(EXEC_MULTIAPP_FIXED_POINT_BEGIN);
   }
 
   if (!_problem.execMultiApps(EXEC_TIMESTEP_BEGIN, auto_advance))
   {
     _fixed_point_status = MooseFixedPointConvergenceReason::DIVERGED_FAILED_MULTIAPP;
     return false;
   }
 
   if (_problem.haveXFEM() && _update_xfem_at_timestep_begin)
     _problem.updateMeshXFEM();
 
   _problem.execute(EXEC_TIMESTEP_BEGIN);
 
   // Transform the fixed point postprocessors before solving, but after the timestep_begin transfers
   // have been received
   if (_transformed_pps.size() > 0 && useFixedPointAlgorithmUpdateInsteadOfPicard(true))
     transformPostprocessors(true);
   if (_secondary_transformed_pps.size() > 0 && useFixedPointAlgorithmUpdateInsteadOfPicard(false) &&
       _problem.time() == _old_entering_time)
     transformPostprocessors(false);
 
   if (_has_fixed_point_its)
   {
     auto & convergence = _problem.getConvergence(_problem.getMultiAppFixedPointConvergenceName());
     convergence.preExecute();
   }
 
   // Perform output for timestep begin
   _problem.outputStep(EXEC_TIMESTEP_BEGIN);
 
   // Update warehouse active objects
   _problem.updateActiveObjects();
 
   // Save the current values of variables and postprocessors, before the solve
   saveAllValues(true);
 
   if (_has_fixed_point_its)
     _console << COLOR_MAGENTA << "\nMain app solve:" << COLOR_DEFAULT << std::endl;
   if (!_inner_solve->solve())
   {
     _fixed_point_status = MooseFixedPointConvergenceReason::DIVERGED_NONLINEAR;
 
     // Perform the output of the current, failed time step (this only occurs if desired)
     _problem.outputStep(EXEC_FAILED);
     return false;
   }
   else
     _fixed_point_status = MooseFixedPointConvergenceReason::CONVERGED_NONLINEAR;
 
   // Use the fixed point algorithm if the conditions (availability of values, etc) are met
   if (_transformed_vars.size() > 0 && useFixedPointAlgorithmUpdateInsteadOfPicard(true))
     transformVariables(transformed_dofs, true);
 
   if (_problem.haveXFEM() && (_xfem_update_count < _max_xfem_update) && _problem.updateMeshXFEM())
   {
     _console << "\nXFEM modified mesh, repeating step" << std::endl;
     _xfem_repeat_step = true;
     ++_xfem_update_count;
   }
   else
   {
     if (_problem.haveXFEM())
     {
       _xfem_repeat_step = false;
       _xfem_update_count = 0;
       _console << "\nXFEM did not modify mesh, continuing" << std::endl;
     }
 
     _problem.onTimestepEnd();
     _problem.execute(EXEC_TIMESTEP_END);
 
     _problem.execTransfers(EXEC_TIMESTEP_END);
     if (!_problem.execMultiApps(EXEC_TIMESTEP_END, auto_advance))
     {
       _fixed_point_status = MooseFixedPointConvergenceReason::DIVERGED_FAILED_MULTIAPP;
       return false;
     }
   }
 
   if (_fail_step)
   {
     _fail_step = false;
     return false;
   }
 
   _executioner.postSolve();
 
   return true;
 }

◆ timedSectionName()

std::string PerfGraphInterface::timedSectionName ( const std::string & section_name ) const

protectedinherited

Returns: The name of the timed section with the name section_name.

Optionally adds a prefix if one is defined.

Definition at line 47 of file PerfGraphInterface.C.

Referenced by PerfGraphInterface::registerTimedSection().

 {
   return _prefix.empty() ? "" : (_prefix + "::") + section_name;
 }

◆ transformPostprocessors()

void SteffensenSolve::transformPostprocessors ( const bool primary )

finaloverrideprivatevirtual

Use the fixed point algorithm to transform the postprocessors.

If this routine is not called, the next value of the postprocessors will just be from the unrelaxed Picard fixed point algorithm.

Parameters

primary Whether this routine is to save the variables for the primary transformed quantities (as main app) or the secondary ones (as a subapp)

Implements FixedPointSolve.

Definition at line 155 of file SteffensenSolve.C.

 {
   Real relaxation_factor;
   const std::vector<PostprocessorName> * transformed_pps;
   std::vector<std::vector<PostprocessorValue>> * transformed_pps_values;
   if (primary)
   {
     relaxation_factor = _relax_factor;
     transformed_pps = &_transformed_pps;
     transformed_pps_values = &_transformed_pps_values;
   }
   else
   {
     relaxation_factor = _secondary_relaxation_factor;
     transformed_pps = &_secondary_transformed_pps;
     transformed_pps_values = &_secondary_transformed_pps_values;
   }
 
   // Relax postprocessors for the main application
   for (size_t i = 0; i < (*transformed_pps).size(); i++)
   {
     // Get new postprocessor value
     const Real current_value = getPostprocessorValueByName((*transformed_pps)[i]);
     const Real fxn_m1 = (*transformed_pps_values)[i][0];
     const Real xn_m1 = (*transformed_pps_values)[i][1];
 
     // Compute and set relaxed value
     Real new_value = current_value;
     if (!MooseUtils::absoluteFuzzyEqual(current_value + xn_m1 - 2 * fxn_m1, 0))
       new_value =
           xn_m1 - (fxn_m1 - xn_m1) * (fxn_m1 - xn_m1) / (current_value + xn_m1 - 2 * fxn_m1);
 
     // Relax update
     new_value = relaxation_factor * new_value + (1 - relaxation_factor) * fxn_m1;
 
     _problem.setPostprocessorValueByName((*transformed_pps)[i], new_value);
   }
 }

◆ transformVariables()

void SteffensenSolve::transformVariables	(	const std::set< dof_id_type > &	transformed_dofs,
		const bool	primary
	)

finaloverrideprivatevirtual

Use the fixed point algorithm to transform the variables.

If this routine is not called, the next value of the variables will just be from the unrelaxed Picard fixed point algorithm.

Parameters

transformed_dofs	The dofs that will be affected by the algorithm
primary	Whether this routine is to save the variables for the primary transformed quantities (as main app) or the secondary ones (as a subapp)

Implements FixedPointSolve.

Definition at line 195 of file SteffensenSolve.C.

 {
   Real relaxation_factor;
   TagID fxn_m1_tagid;
   TagID xn_m1_tagid;
   if (primary)
   {
     relaxation_factor = _relax_factor;
     fxn_m1_tagid = _fxn_m1_tagid;
     xn_m1_tagid = _xn_m1_tagid;
   }
   else
   {
     relaxation_factor = _secondary_relaxation_factor;
     fxn_m1_tagid = _secondary_fxn_m1_tagid;
     xn_m1_tagid = _secondary_xn_m1_tagid;
   }
 
   NumericVector<Number> & solution = _solver_sys.solution();
   NumericVector<Number> & fxn_m1 = _solver_sys.getVector(fxn_m1_tagid);
   NumericVector<Number> & xn_m1 = _solver_sys.getVector(xn_m1_tagid);
 
   for (const auto & dof : transformed_dofs)
   {
     // Avoid 0 denominator issue
     Real new_value = solution(dof);
     if (!MooseUtils::absoluteFuzzyEqual(solution(dof) + xn_m1(dof) - 2 * fxn_m1(dof), 0))
       new_value = xn_m1(dof) - (fxn_m1(dof) - xn_m1(dof)) * (fxn_m1(dof) - xn_m1(dof)) /
                                    (solution(dof) + xn_m1(dof) - 2 * fxn_m1(dof));
 
     // Relax update
     new_value = relaxation_factor * new_value + (1 - relaxation_factor) * fxn_m1(dof);
 
     solution.set(dof, new_value);
   }
   solution.close();
   _solver_sys.update();
 }

◆ type()

const std::string& MooseBase::type ( ) const

inlineinherited

Get the type of this class.

Returns: the name of the type of this class

Definition at line 51 of file MooseBase.h.

51 { return _type; }

MooseBase::_type

const std::string _type

The type of this class.

Definition: MooseBase.h:87

◆ typeAndName()

std::string MooseBase::typeAndName ( ) const

inherited

Get the class's combined type and name; useful in error handling.

Returns: The type and name of this class in the form '<type()> "<name()>"'.

Definition at line 27 of file MooseBase.C.

Referenced by MaterialPropertyStorage::addProperty(), MeshGeneratorSystem::dataDrivenError(), ReporterContext< std::vector< T > >::finalize(), and ReporterData::getReporterInfo().

 {
   return type() + std::string(" \"") + name() + std::string("\"");
 }

◆ uniqueName()

MooseObjectName MooseBaseParameterInterface::uniqueName ( ) const

inlineinherited

The unique name for accessing input parameters of this object in the InputParameterWarehouse.

Definition at line 67 of file MooseBaseParameterInterface.h.

Referenced by MooseBaseParameterInterface::connectControllableParams(), and Action::uniqueActionName().

   {
     return MooseObjectName(_pars.get<std::string>("_unique_name"));
   }

◆ uniqueParameterName()

MooseObjectParameterName MooseBaseParameterInterface::uniqueParameterName ( const std::string & parameter_name ) const

inlineinherited

The unique parameter name of a valid parameter of this object for accessing parameter controls.

Definition at line 52 of file MooseBaseParameterInterface.h.

   {
     return MooseObjectParameterName(
         _pars.get<std::string>("_moose_base"), _moose_base.name(), parameter_name);
   }

◆ useFixedPointAlgorithmUpdateInsteadOfPicard()

bool SteffensenSolve::useFixedPointAlgorithmUpdateInsteadOfPicard ( const bool primary )

finaloverrideprivatevirtual

Use the fixed point algorithm transform instead of simply using the Picard update.

Parameters

primary Whether this routine is used for the primary transformed quantities (as main app) or the secondary ones (as a subapp)

Implements FixedPointSolve.

Definition at line 144 of file SteffensenSolve.C.

 {
   // Need at least two values to compute the Steffensen update, and the update is only performed
   // every other iteration as two evaluations of the coupled problem are necessary
   if (primary)
     return _fixed_point_it > 1 && (_fixed_point_it % 2 == 0);
   else
     return _main_fixed_point_it > 1 && (_main_fixed_point_it % 2 == 0);
 }

◆ validParams()

InputParameters SteffensenSolve::validParams ( )

static

Definition at line 20 of file SteffensenSolve.C.

 {
   InputParameters params = FixedPointSolve::validParams();
 
   return params;
 }

◆ XFEMRepeatStep()

bool FixedPointSolve::XFEMRepeatStep ( ) const

inlineinherited

This function checks the _xfem_repeat_step flag set by solve.

Definition at line 72 of file FixedPointSolve.h.

72 { return _xfem_repeat_step; }

FixedPointSolve::_xfem_repeat_step

bool _xfem_repeat_step

Whether step should be repeated due to xfem modifying the mesh.

Definition: FixedPointSolve.h:232

Member Data Documentation

◆ _action_factory

ActionFactory& MooseBaseParameterInterface::_action_factory

protectedinherited

Builds Actions.

Definition at line 179 of file MooseBaseParameterInterface.h.

Referenced by AddActionComponentAction::act(), CreateMeshSetupActionsForComponents::act(), ActionComponent::checkRequiredTasks(), PhysicsBase::checkRequiredTasks(), CommonOutputAction::create(), AddVariableAction::createInitialConditionAction(), DynamicObjectRegistrationAction::DynamicObjectRegistrationAction(), CreateExecutionerAction::setupAutoPreconditioning(), and ReadExecutorParamsAction::setupAutoPreconditioning().

◆ _app

MooseApp& MooseBase::_app

protectedinherited

The MOOSE application this is associated with.

Definition at line 84 of file MooseBase.h.

◆ _aux

AuxiliarySystem& SolveObject::_aux

protectedinherited

Reference to auxiliary system for faster access.

Definition at line 57 of file SolveObject.h.

◆ _console

const ConsoleStream ConsoleStreamInterface::_console

inherited

An instance of helper class to write streams to the Console objects.

Definition at line 31 of file ConsoleStreamInterface.h.

◆ _displaced_mesh

MooseMesh* SolveObject::_displaced_mesh

protectedinherited

Displaced mesh.

Definition at line 53 of file SolveObject.h.

◆ _displaced_problem

DisplacedProblem* SolveObject::_displaced_problem

protectedinherited

Displaced problem.

Definition at line 49 of file SolveObject.h.

◆ _enabled

const bool& MooseObject::_enabled

protectedinherited

Reference to the "enable" InputParameters, used by Controls for toggling on/off MooseObjects.

Definition at line 51 of file MooseObject.h.

Referenced by MooseObject::enabled().

◆ _executioner

Executioner& SolveObject::_executioner

protectedinherited

Executioner used to construct this.

Definition at line 45 of file SolveObject.h.

Referenced by FixedPointSolve::autoAdvance(), and FixedPointSolve::solveStep().

◆ _factory

Factory& MooseBaseParameterInterface::_factory

protectedinherited

The Factory associated with the MooseApp.

Definition at line 176 of file MooseBaseParameterInterface.h.

Referenced by ElementIDOutputAction::act(), AutoCheckpointAction::act(), PartitionerAction::act(), CreateExecutionerAction::act(), CreateProblemAction::act(), CreateProblemDefaultAction::act(), SetupMeshAction::act(), AdaptivityAction::act(), CombineComponentsMeshes::act(), SetupPredictorAction::act(), SetupTimeStepperAction::act(), ComposeTimeStepperAction::act(), SetupDebugAction::act(), SetupPreconditionerAction::act(), SetupResidualDebugAction::act(), CreateDisplacedProblemAction::act(), MaterialDerivativeTestAction::act(), SetAdaptivityOptionsAction::act(), DisplayGhostingAction::act(), AddControlAction::act(), MaterialOutputAction::act(), AddPeriodicBCAction::act(), CommonOutputAction::act(), AddNodalNormalsAction::act(), ComponentMeshTransformHelper::addMeshGenerators(), CylinderComponent::addMeshGenerators(), DiffusionPhysicsBase::addPostprocessors(), CreateDisplacedProblemAction::addProxyRelationshipManagers(), Action::addRelationshipManager(), SampledOutput::cloneMesh(), MooseBaseParameterInterface::connectControllableParams(), DynamicObjectRegistrationAction::DynamicObjectRegistrationAction(), ActionComponent::getFactory(), PhysicsBase::getFactory(), MaterialOutputAction::getParams(), and ProjectedStatefulMaterialStorageAction::processProperty().

◆ _fixed_point_it

unsigned int FixedPointSolve::_fixed_point_it

protectedinherited

Variables used by the fixed point iteration fixed point iteration counter

Definition at line 217 of file FixedPointSolve.h.

Referenced by FixedPointSolve::examineFixedPointConvergence(), FixedPointSolve::numFixedPointIts(), FixedPointSolve::numPicardIts(), SecantSolve::printFixedPointConvergenceHistory(), printFixedPointConvergenceHistory(), PicardSolve::printFixedPointConvergenceHistory(), SecantSolve::savePostprocessorValues(), savePostprocessorValues(), SecantSolve::saveVariableValues(), saveVariableValues(), FixedPointSolve::solve(), FixedPointSolve::solveStep(), SecantSolve::transformPostprocessors(), SecantSolve::useFixedPointAlgorithmUpdateInsteadOfPicard(), useFixedPointAlgorithmUpdateInsteadOfPicard(), and PicardSolve::useFixedPointAlgorithmUpdateInsteadOfPicard().

◆ _fixed_point_status

MooseFixedPointConvergenceReason FixedPointSolve::_fixed_point_status

protectedinherited

Status of fixed point solve.

Definition at line 221 of file FixedPointSolve.h.

Referenced by FixedPointSolve::checkConvergence(), FixedPointSolve::clearFixedPointStatus(), FixedPointSolve::printFixedPointConvergenceReason(), FixedPointSolve::setFixedPointStatus(), FixedPointSolve::solve(), and FixedPointSolve::solveStep().

◆ _fxn_m1_tagid

TagID SteffensenSolve::_fxn_m1_tagid = Moose::INVALID_TAG_ID

private

Vector tag id for the most recent solution variable, pre-Steffensen transform, as a main app.

Definition at line 87 of file SteffensenSolve.h.

Referenced by allocateStorage(), saveVariableValues(), and transformVariables().

◆ _has_fixed_point_its

const bool FixedPointSolve::_has_fixed_point_its

protectedinherited

Whether or not we activate fixed point iteration.

Definition at line 195 of file FixedPointSolve.h.

Referenced by FixedPointSolve::autoAdvance(), FixedPointSolve::hasFixedPointIteration(), FixedPointSolve::initialSetup(), FixedPointSolve::solve(), and FixedPointSolve::solveStep().

◆ _inner_solve

SolveObject* SolveObject::_inner_solve

protectedinherited

SolveObject wrapped by this solve object.

Definition at line 59 of file SolveObject.h.

Referenced by SolveObject::setInnerSolve(), and FixedPointSolve::solveStep().

◆ _main_fixed_point_it

unsigned int FixedPointSolve::_main_fixed_point_it

protectedinherited

fixed point iteration counter for the main app

Definition at line 219 of file FixedPointSolve.h.

Referenced by SecantSolve::savePostprocessorValues(), savePostprocessorValues(), SecantSolve::saveVariableValues(), saveVariableValues(), FixedPointSolve::solve(), SecantSolve::transformPostprocessors(), SecantSolve::useFixedPointAlgorithmUpdateInsteadOfPicard(), useFixedPointAlgorithmUpdateInsteadOfPicard(), and PicardSolve::useFixedPointAlgorithmUpdateInsteadOfPicard().

◆ _mesh

MooseMesh& SolveObject::_mesh

protectedinherited

Mesh.

Definition at line 51 of file SolveObject.h.

◆ _name

const std::string MooseBase::_name

protectedinherited

The name of this class.

Definition at line 90 of file MooseBase.h.

◆ _pars

const InputParameters& MooseBaseParameterInterface::_pars

protectedinherited

Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

Definition at line 173 of file MooseBaseParameterInterface.h.

◆ _pg_moose_app

MooseApp& PerfGraphInterface::_pg_moose_app

protectedinherited

The MooseApp that owns the PerfGraph.

Definition at line 124 of file PerfGraphInterface.h.

Referenced by PerfGraphInterface::perfGraph().

◆ _prefix

const std::string PerfGraphInterface::_prefix

protectedinherited

A prefix to use for all sections.

Definition at line 127 of file PerfGraphInterface.h.

Referenced by PerfGraphInterface::timedSectionName().

◆ _problem

FEProblemBase& SolveObject::_problem

protectedinherited

◆ _relax_factor

const Real FixedPointSolve::_relax_factor

protectedinherited

Relaxation factor for fixed point Iteration.

Definition at line 198 of file FixedPointSolve.h.

Referenced by PicardSolve::allocateStorage(), PicardSolve::savePostprocessorValues(), PicardSolve::saveVariableValues(), FixedPointSolve::solve(), SecantSolve::transformPostprocessors(), transformPostprocessors(), PicardSolve::transformPostprocessors(), SecantSolve::transformVariables(), transformVariables(), PicardSolve::transformVariables(), and PicardSolve::useFixedPointAlgorithmUpdateInsteadOfPicard().

◆ _secondary_fxn_m1_tagid

TagID SteffensenSolve::_secondary_fxn_m1_tagid = Moose::INVALID_TAG_ID

private

Vector tag id for the most recent solution variable, pre-Steffensen transform, as a sub app.

Definition at line 93 of file SteffensenSolve.h.

Referenced by allocateStorage(), saveVariableValues(), and transformVariables().

◆ _secondary_relaxation_factor

Real FixedPointSolve::_secondary_relaxation_factor

protectedinherited

Relaxation factor outside of fixed point iteration (used as a subapp)

Definition at line 207 of file FixedPointSolve.h.

Referenced by PicardSolve::allocateStorage(), FixedPointSolve::FixedPointSolve(), PicardSolve::savePostprocessorValues(), PicardSolve::saveVariableValues(), FixedPointSolve::setMultiAppRelaxationFactor(), FixedPointSolve::solve(), SecantSolve::transformPostprocessors(), transformPostprocessors(), PicardSolve::transformPostprocessors(), SecantSolve::transformVariables(), transformVariables(), PicardSolve::transformVariables(), and PicardSolve::useFixedPointAlgorithmUpdateInsteadOfPicard().

◆ _secondary_transformed_pps

std::vector<PostprocessorName> FixedPointSolve::_secondary_transformed_pps

protectedinherited

Postprocessors to be relaxed outside of fixed point iteration (used as a subapp)

Definition at line 211 of file FixedPointSolve.h.

Referenced by allocateStorage(), PicardSolve::allocateStorage(), FixedPointSolve::FixedPointSolve(), SecantSolve::savePostprocessorValues(), savePostprocessorValues(), PicardSolve::savePostprocessorValues(), SecantSolve::SecantSolve(), FixedPointSolve::setMultiAppTransformedPostprocessors(), FixedPointSolve::solveStep(), SecantSolve::transformPostprocessors(), transformPostprocessors(), and PicardSolve::transformPostprocessors().

◆ _secondary_transformed_pps_values

std::vector<std::vector<PostprocessorValue> > FixedPointSolve::_secondary_transformed_pps_values

protectedinherited

Previous values of the postprocessors relaxed outside of the fixed point iteration (used as a subapp)

Definition at line 213 of file FixedPointSolve.h.

Referenced by allocateStorage(), PicardSolve::allocateStorage(), SecantSolve::savePostprocessorValues(), savePostprocessorValues(), PicardSolve::savePostprocessorValues(), SecantSolve::SecantSolve(), SecantSolve::transformPostprocessors(), transformPostprocessors(), and PicardSolve::transformPostprocessors().

◆ _secondary_transformed_variables

std::vector<std::string> FixedPointSolve::_secondary_transformed_variables

protectedinherited

Variables to be relaxed outside of fixed point iteration (used as a subapp)

Definition at line 209 of file FixedPointSolve.h.

Referenced by FixedPointSolve::FixedPointSolve(), FixedPointSolve::setMultiAppTransformedVariables(), and FixedPointSolve::solve().

◆ _secondary_xn_m1_tagid

TagID SteffensenSolve::_secondary_xn_m1_tagid = Moose::INVALID_TAG_ID

private

Vector tag id for the solution variable before the latest solve, as a sub app.

Definition at line 96 of file SteffensenSolve.h.

Referenced by allocateStorage(), saveVariableValues(), and transformVariables().

◆ _solver_sys

SystemBase& SolveObject::_solver_sys

protectedinherited

Reference to a system for creating vectors as needed for the solve, etc.

Definition at line 55 of file SolveObject.h.

Referenced by SecantSolve::allocateStorage(), allocateStorage(), PicardSolve::allocateStorage(), SecantSolve::saveVariableValues(), saveVariableValues(), PicardSolve::saveVariableValues(), SecantSolve::transformVariables(), transformVariables(), and PicardSolve::transformVariables().

◆ _transformed_pps

const std::vector<PostprocessorName> FixedPointSolve::_transformed_pps

protectedinherited

The postprocessors (transferred or not) that are going to be relaxed.

Definition at line 202 of file FixedPointSolve.h.

Referenced by allocateStorage(), PicardSolve::allocateStorage(), FixedPointSolve::FixedPointSolve(), SecantSolve::savePostprocessorValues(), savePostprocessorValues(), PicardSolve::savePostprocessorValues(), SecantSolve::SecantSolve(), FixedPointSolve::solveStep(), SecantSolve::transformPostprocessors(), transformPostprocessors(), and PicardSolve::transformPostprocessors().

◆ _transformed_pps_values

std::vector<std::vector<PostprocessorValue> > FixedPointSolve::_transformed_pps_values

protectedinherited

Previous values of the relaxed postprocessors.

Definition at line 204 of file FixedPointSolve.h.

Referenced by allocateStorage(), PicardSolve::allocateStorage(), SecantSolve::savePostprocessorValues(), savePostprocessorValues(), PicardSolve::savePostprocessorValues(), SecantSolve::SecantSolve(), SecantSolve::transformPostprocessors(), transformPostprocessors(), and PicardSolve::transformPostprocessors().

◆ _transformed_vars

std::vector<std::string> FixedPointSolve::_transformed_vars

protectedinherited

The variables (transferred or not) that are going to be relaxed.

Definition at line 200 of file FixedPointSolve.h.

Referenced by FixedPointSolve::FixedPointSolve(), FixedPointSolve::solve(), and FixedPointSolve::solveStep().

◆ _type

const std::string MooseBase::_type

protectedinherited

The type of this class.

Definition at line 87 of file MooseBase.h.

Referenced by ExplicitTimeIntegrator::ExplicitTimeIntegrator(), FEProblemSolve::FEProblemSolve(), FillBetweenSidesetsGenerator::generate(), FillBetweenCurvesGenerator::generate(), FillBetweenPointVectorsGenerator::generate(), ExplicitTimeIntegrator::init(), FEProblemBase::init(), MooseStaticCondensationPreconditioner::MooseStaticCondensationPreconditioner(), PhysicsBasedPreconditioner::PhysicsBasedPreconditioner(), FEProblemBase::solverTypeString(), and MooseBase::type().

◆ _xn_m1_tagid

TagID SteffensenSolve::_xn_m1_tagid = Moose::INVALID_TAG_ID

private

Vector tag id for the solution variable before the latest solve, as a main app.

Definition at line 90 of file SteffensenSolve.h.

Referenced by allocateStorage(), saveVariableValues(), and transformVariables().

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

include/executioners/SteffensenSolve.h
src/executioners/SteffensenSolve.C

Public Types

Public Member Functions

Static Public Member Functions

Public Attributes

Protected Member Functions

Protected Attributes

Private Member Functions

Private Attributes

Detailed Description

Member Typedef Documentation

◆ DataFileParameterType

Member Enumeration Documentation

◆ MooseFixedPointConvergenceReason

Constructor & Destructor Documentation

◆ SteffensenSolve()

Member Function Documentation

◆ addPostprocessorDependencyHelper()

◆ allocateStorage()

◆ autoAdvance()

◆ callMooseError()

◆ checkConvergence()

◆ clearFixedPointStatus()

◆ connectControllableParams()

◆ coupledPostprocessors()

◆ enabled()

◆ errorPrefix()

◆ examineFixedPointConvergence()

◆ failStep()

◆ fixedPointDefaultConvergenceParams()

◆ getCheckedPointerParam()

◆ getDataFileName()

◆ getDataFileNameByName()

◆ getDataFilePath()

◆ getMooseApp()

◆ getParam() [1/2]

◆ getParam() [2/2]

◆ getPostprocessorName()

◆ getPostprocessorValue()

◆ getPostprocessorValueByName()

◆ getPostprocessorValueOld()

◆ getPostprocessorValueOldByName()

◆ getPostprocessorValueOlder()

◆ getPostprocessorValueOlderByName()

◆ getRenamedParam()

◆ getSharedPtr() [1/2]

◆ getSharedPtr() [2/2]

◆ hasFixedPointIteration()

◆ hasPostprocessor()

◆ hasPostprocessorByName()

◆ initialSetup()

◆ isDefaultPostprocessorValue()

◆ isParamSetByUser()

◆ isParamValid()

◆ mooseDeprecated()

◆ mooseDocumentedError()

◆ mooseError()

◆ mooseErrorNonPrefixed()

◆ mooseInfo()

◆ mooseWarning()

◆ mooseWarningNonPrefixed()

◆ name()

◆ numFixedPointIts()

◆ numPicardIts()

◆ paramError()

◆ parameters()

◆ paramInfo()

◆ paramWarning()

◆ perfGraph()

◆ printFixedPointConvergenceHistory()

◆ printFixedPointConvergenceReason()

◆ queryParam()

◆ registerTimedSection() [1/2]

◆ registerTimedSection() [2/2]

◆ saveAllValues()

◆ savePostprocessorValues()

◆ saveVariableValues()

◆ setFixedPointStatus()

◆ setInnerSolve()

◆ setMultiAppRelaxationFactor()

◆ setMultiAppTransformedPostprocessors()