#include <SolutionTimeAdaptiveDT.h>

Inheritance diagram for SolutionTimeAdaptiveDT:

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

Public Member Functions
	SolutionTimeAdaptiveDT (const InputParameters &parameters)

virtual	~SolutionTimeAdaptiveDT ()

virtual void	step () override
	Take a time step. More...

virtual void	rejectStep () override
	This gets called when time step is rejected. More...

virtual void	init ()
	Initialize the time stepper. More...

virtual void	preExecute ()

virtual void	preSolve ()

virtual void	postSolve ()

virtual void	postExecute ()

virtual void	preStep ()

virtual void	postStep ()

void	computeStep ()
	Called before a new step is started. More...

virtual bool	constrainStep (Real &dt)
	Called after computeStep() is called. More...

virtual void	acceptStep ()
	This gets called when time step is accepted. More...

unsigned int	numFailures () const
	Gets the number of failures and returns them. More...

virtual bool	converged () const
	If the time step converged. More...

Real	getCurrentDT ()
	Get the current_dt. More...

virtual void	forceTimeStep (Real dt)

virtual void	forceNumSteps (const unsigned int num_steps)
	Set the number of time steps. 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...

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...

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

MooseObjectName	uniqueName () const

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

const hit::Node *	getHitNode () const

bool	hasBase () const

const std::string &	getBase () const

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

std::string	messagePrefix (const bool hit_prefix=true) const

std::string	errorPrefix (const std::string &) const
	Deprecated message prefix; the error type is no longer used. More...

template<typename... Args>
void	mooseError (Args &&... args) const
	Emits an error prefixed with object name and type and optionally a file path to the top-level block parameter if available. More...

template<typename... Args>
void	mooseDocumentedError (const std::string &repo_name, const unsigned int issue_num, Args &&... args) const

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

void	callMooseError (std::string msg, const bool with_prefix, const hit::Node *node=nullptr) const
	External method for calling moose error with added object context. More...

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...

const std::vector< MooseVariableScalar * > &	getCoupledMooseScalarVars ()
	Get the list of coupled scalar variables. More...

const std::set< TagID > &	getScalarVariableCoupleableVectorTags () const

const std::set< TagID > &	getScalarVariableCoupleableMatrixTags () const


void	addSyncTime (Real sync_time)
	Add a sync time. More...

void	addSyncTime (const std::set< Real > &times)

Static Public Member Functions
static InputParameters	validParams ()

static void	callMooseError (MooseApp const app, const InputParameters &params, std::string msg, const bool with_prefix, const hit::Node node)
	External method for calling moose error with added object context. More...

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

Static Public Attributes
static const std::string	type_param = "_type"
	The name of the parameter that contains the object type. More...

static const std::string	name_param = "_object_name"
	The name of the parameter that contains the object name. More...

static const std::string	unique_name_param = "_unique_name"
	The name of the parameter that contains the unique object name. More...

static const std::string	app_param = "_moose_app"
	The name of the parameter that contains the MooseApp. More...

static const std::string	moose_base_param = "_moose_base"
	The name of the parameter that contains the moose system base. More...

Protected Member Functions
virtual Real	computeInitialDT () override
	Computes time step size for the initial time step. More...

virtual Real	computeDT () override
	Computes time step size after the initial time step. More...

virtual Real	computeFailedDT ()
	Computes time step size after a failed time step. More...

template<typename T , typename... Args>
T &	declareRestartableData (const std::string &data_name, Args &&... args)
	Declare a piece of data as "restartable" and initialize it. More...

template<typename T , typename... Args>
ManagedValue< T >	declareManagedRestartableDataWithContext (const std::string &data_name, void *context, Args &&... args)
	Declares a piece of "managed" restartable data and initialize it. More...

template<typename T , typename... Args>
const T &	getRestartableData (const std::string &data_name) const
	Declare a piece of data as "restartable" and initialize it Similar to `declareRestartableData` but returns a const reference to the object. More...

template<typename T , typename... Args>
T &	declareRestartableDataWithContext (const std::string &data_name, void *context, Args &&... args)
	Declare a piece of data as "restartable" and initialize it. More...

template<typename T , typename... Args>
T &	declareRecoverableData (const std::string &data_name, Args &&... args)
	Declare a piece of data as "recoverable" and initialize it. More...

template<typename T , typename... Args>
T &	declareRestartableDataWithObjectName (const std::string &data_name, const std::string &object_name, Args &&... args)
	Declare a piece of data as "restartable". More...

template<typename T , typename... Args>
T &	declareRestartableDataWithObjectNameWithContext (const std::string &data_name, const std::string &object_name, void *context, Args &&... args)
	Declare a piece of data as "restartable". More...

std::string	restartableName (const std::string &data_name) const
	Gets the name of a piece of restartable data given a data name, adding the system name and object name prefix. More...

bool	isCoupledScalar (const std::string &var_name, unsigned int i=0) const
	Returns true if a variables has been coupled_as name. More...

unsigned int	coupledScalarComponents (const std::string &var_name) const
	Return the number of components to the coupled scalar variable. More...

unsigned int	coupledScalar (const std::string &var_name, unsigned int comp=0) const
	Returns the index for a scalar coupled variable by name. More...

libMesh::Order	coupledScalarOrder (const std::string &var_name, unsigned int comp=0) const
	Returns the order for a scalar coupled variable by name. More...

const VariableValue &	coupledScalarValue (const std::string &var_name, unsigned int comp=0) const
	Returns value of a scalar coupled variable. More...

const ADVariableValue &	adCoupledScalarValue (const std::string &var_name, unsigned int comp=0) const
	Returns AD value of a scalar coupled variable. More...

template<bool is_ad>
const GenericVariableValue< is_ad > &	coupledGenericScalarValue (const std::string &var_name, unsigned int comp=0) const
	Returns value of a coupled scalar variable for use in templated automatic differentiation classes. More...

template<>
const GenericVariableValue< false > &	coupledGenericScalarValue (const std::string &var_name, const unsigned int comp) const

template<>
const GenericVariableValue< true > &	coupledGenericScalarValue (const std::string &var_name, const unsigned int comp) const

const VariableValue &	coupledVectorTagScalarValue (const std::string &var_name, TagID tag, unsigned int comp=0) const
	Returns value of a scalar coupled variable. More...

const VariableValue &	coupledMatrixTagScalarValue (const std::string &var_name, TagID tag, unsigned int comp=0) const
	Returns value of a scalar coupled variable. More...

const VariableValue &	coupledScalarValueOld (const std::string &var_name, unsigned int comp=0) const
	Returns the old (previous time step) value of a scalar coupled variable. More...

const VariableValue &	coupledScalarValueOlder (const std::string &var_name, unsigned int comp=0) const
	Returns the older (two time steps previous) value of a scalar coupled variable. More...

const VariableValue &	coupledScalarDot (const std::string &var_name, unsigned int comp=0) const
	Returns the time derivative of a scalar coupled variable. More...

const ADVariableValue &	adCoupledScalarDot (const std::string &var_name, unsigned int comp=0) const
	Returns the time derivative of a scalar coupled variable, including its dependence on the nonlinear degrees of freedom through automatic differentiation. More...

const VariableValue &	coupledScalarDotDot (const std::string &var_name, unsigned int comp=0) const
	Returns the second time derivative of a scalar coupled variable. More...

const VariableValue &	coupledScalarDotOld (const std::string &var_name, unsigned int comp=0) const
	Returns the old time derivative of a scalar coupled variable. More...

const VariableValue &	coupledScalarDotDotOld (const std::string &var_name, unsigned int comp=0) const
	Returns the old second time derivative of a scalar coupled variable. More...

const VariableValue &	coupledScalarDotDu (const std::string &var_name, unsigned int comp=0) const
	Time derivative of a scalar coupled variable with respect to the coefficients. More...

const VariableValue &	coupledScalarDotDotDu (const std::string &var_name, unsigned int comp=0) const
	Second time derivative of a scalar coupled variable with respect to the coefficients. More...

const MooseVariableScalar *	getScalarVar (const std::string &var_name, unsigned int comp) const
	Extract pointer to a scalar coupled variable. More...

Protected Attributes
short	_direction
	Multiplier specifying the direction the timestep is currently going. More...

Real	_percent_change
	Percentage to change the timestep by either way. More...

Real	_older_sol_time_vs_dt
	Ratios to control whether to increase or decrease the current timestep. More...

Real	_old_sol_time_vs_dt

Real	_sol_time_vs_dt

bool	_adapt_log
	Boolean to control whether a separate adapt log is written to a file. More...

std::ofstream	_adaptive_log
	The filehandle to hold the log. More...

FEProblemBase &	_fe_problem

TransientBase &	_executioner
	Reference to transient executioner. More...

Real &	_time
	Values from executioner. More...

Real &	_time_old

int &	_t_step

Real &	_dt

Real &	_dt_min

Real &	_dt_max

Real &	_end_time

std::set< Real > &	_sync_times

Real &	_timestep_tolerance

const bool &	_verbose
	whether a detailed diagnostic output should be printed More...

bool	_converged
	Whether or not the previous solve converged. More...

const Real	_cutback_factor_at_failure
	Cutback factor if a time step fails to converge. More...

bool	_reset_dt
	If true then the next dt will be computed by computeInitialDT() More...

bool	_has_reset_dt
	True if dt has been reset. More...

unsigned int	_failure_count
	Cumulative amount of steps that have failed. 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...

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

ActionFactory &	_action_factory
	Builds Actions. More...

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

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

const InputParameters &	_pars
	The object's parameters. More...

const Parallel::Communicator &	_communicator

MooseApp &	_restartable_app
	Reference to the application. More...

const std::string	_restartable_system_name
	The system name this object is in. More...

const THREAD_ID	_restartable_tid
	The thread ID for this object. More...

const bool	_restartable_read_only
	Flag for toggling read only status (see ReporterData) More...

FEProblemBase &	_sc_fe_problem

const THREAD_ID	_sc_tid
	Thread ID of the thread using this object. More...

const Real &	_real_zero
	Scalar zero. More...

const VariableValue &	_scalar_zero
	Zero value of a scalar variable. More...

const Point &	_point_zero
	Zero point. More...

Detailed Description

Definition at line 19 of file SolutionTimeAdaptiveDT.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.

Constructor & Destructor Documentation

◆ SolutionTimeAdaptiveDT()

SolutionTimeAdaptiveDT::SolutionTimeAdaptiveDT ( const InputParameters & parameters )

Definition at line 33 of file SolutionTimeAdaptiveDT.C.

   : TimeStepper(parameters),
     _direction(getParam<int>("initial_direction")),
     _percent_change(getParam<Real>("percent_change")),
     _older_sol_time_vs_dt(std::numeric_limits<Real>::max()),
     _old_sol_time_vs_dt(std::numeric_limits<Real>::max()),
     _sol_time_vs_dt(std::numeric_limits<Real>::max()),
     _adapt_log(getParam<bool>("adapt_log"))
 
 {
   if ((_adapt_log) && (processor_id() == 0))
   {
     static const std::string log("adaptive_log");
     _adaptive_log.open(log);
     if (_adaptive_log.fail())
       mooseError("Unable to open file ", log);
     _adaptive_log << "Adaptive Times Step Log" << std::endl;
   }
 }

◆ ~SolutionTimeAdaptiveDT()

SolutionTimeAdaptiveDT::~SolutionTimeAdaptiveDT ( )

virtual

Definition at line 53 of file SolutionTimeAdaptiveDT.C.

53 { _adaptive_log.close(); }

SolutionTimeAdaptiveDT::_adaptive_log

std::ofstream _adaptive_log

The filehandle to hold the log.

Definition: SolutionTimeAdaptiveDT.h:51

Member Function Documentation

◆ acceptStep()

void TimeStepper::acceptStep ( )

virtualinherited

This gets called when time step is accepted.

Reimplemented in CompositionDT, IterationAdaptiveDT, TimeSequenceStepperBase, and FixedPointIterationAdaptiveDT.

Definition at line 175 of file TimeStepper.C.

Referenced by FixedPointIterationAdaptiveDT::acceptStep(), TimeSequenceStepperBase::acceptStep(), IterationAdaptiveDT::acceptStep(), MFEMTransient::takeStep(), and TransientBase::takeStep().

 {
   // If there are sync times at or before the current time, delete them
   while (!_sync_times.empty() && _time + _timestep_tolerance >= *_sync_times.begin())
   {
     _sync_times.erase(_sync_times.begin());
   }
 }

◆ adCoupledScalarDot()

const ADVariableValue & ScalarCoupleable::adCoupledScalarDot	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns the time derivative of a scalar coupled variable, including its dependence on the nonlinear degrees of freedom through automatic differentiation.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Reference to the time derivative at quadrature points for the coupled variable, including automatic differentiation information

Definition at line 252 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   validateExecutionerType(var_name, "adCoupledScalarDot");
   return getScalarVar(var_name, comp)->adUDot();
 }

◆ adCoupledScalarValue()

const ADVariableValue & ScalarCoupleable::adCoupledScalarValue	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns AD value of a scalar coupled variable.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Reference to a ADVariableValue for the coupled variable

Definition at line 135 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   if (!isCoupledScalar(var_name, comp))
     return *getADDefaultValue(var_name);
 
   auto var = getScalarVar(var_name, comp);
 
   if (_sc_is_implicit)
     return var->adSln();
   else
     mooseError("adCoupledValue for non-implicit calculations is not currently supported. Use "
                "coupledValue instead for non-implicit");
 }

◆ addSyncTime() [1/2]

void TimeStepper::addSyncTime ( Real sync_time )

inherited

Add a sync time.

Todo:: {Remove after old output system is removed; sync time are handled by OutputWarehouse}

◆ addSyncTime() [2/2]

void TimeStepper::addSyncTime ( const std::set< Real > & times )

inherited

◆ callMooseError() [1/2]

void MooseBase::callMooseError	(	std::string	msg,
		const bool	with_prefix,
		const hit::Node *	node = `nullptr`
	)		const

inherited

External method for calling moose error with added object context.

Parameters

msg	The message
with_prefix	If true, add the prefix from messagePrefix(), which is the object information (type, name, etc)
node	Optional hit node to add file path context as a prefix

Definition at line 102 of file MooseBase.C.

Referenced by InputParameters::callMooseError(), MooseBase::mooseDocumentedError(), MooseBase::mooseError(), and MooseBase::mooseErrorNonPrefixed().

 {
   callMooseError(&_app, _pars, msg, with_prefix, node);
 }

◆ callMooseError() [2/2]

void MooseBase::callMooseError	(	MooseApp *const	app,
		const InputParameters &	params,
		std::string	msg,
		const bool	with_prefix,
		const hit::Node *	node
	)

staticinherited

External method for calling moose error with added object context.

Needed so that objects without the MooseBase context (InputParameters) can call errors with context

Parameters

app	The app pointer (if available); adds multiapp context and clears the console
params	The parameters, needed to obtain object information
msg	The message
with_prefix	If true, add the prefix from messagePrefix(), which is the object information (type, name, etc)
node	Optional hit node to add file path context as a prefix

Definition at line 110 of file MooseBase.C.

 {
   if (!node)
     node = MooseBase::getHitNode(params);
 
   std::string multiapp_prefix = "";
   if (app)
   {
     if (!app->isUltimateMaster())
       multiapp_prefix = app->name();
     app->getOutputWarehouse().mooseConsole();
   }
 
   if (with_prefix)
     // False here because the hit context will get processed by the node
     msg = messagePrefix(params, false) + msg;
 
   moose::internal::mooseErrorRaw(msg, multiapp_prefix, node);
 }

◆ computeDT()

Real SolutionTimeAdaptiveDT::computeDT ( )

overrideprotectedvirtual

Computes time step size after the initial time step.

Implements TimeStepper.

Definition at line 81 of file SolutionTimeAdaptiveDT.C.

 {
   // Ratio grew so switch direction
   if (_sol_time_vs_dt > _old_sol_time_vs_dt && _sol_time_vs_dt > _older_sol_time_vs_dt)
   {
     _direction *= -1;
 
     // Make sure we take at least two steps in this new direction
     _old_sol_time_vs_dt = std::numeric_limits<Real>::max();
     _older_sol_time_vs_dt = std::numeric_limits<Real>::max();
   }
 
   Real local_dt = _dt + _dt * _percent_change * _direction;
 
   if ((_adapt_log) && (processor_id() == 0))
   {
     Real out_dt = getCurrentDT();
     if (out_dt > _dt_max)
       out_dt = _dt_max;
 
     _adaptive_log << "***Time step: " << _t_step << ", time = " << _time + out_dt
                   << "\nCur DT: " << out_dt << "\nOlder Ratio: " << _older_sol_time_vs_dt
                   << "\nOld Ratio: " << _old_sol_time_vs_dt << "\nNew Ratio: " << _sol_time_vs_dt
                   << std::endl;
   }
 
   return local_dt;
 }

◆ computeFailedDT()

Real TimeStepper::computeFailedDT ( )

protectedvirtualinherited

Computes time step size after a failed time step.

Reimplemented in IterationAdaptiveDT, and TimeSequenceStepperBase.

Definition at line 203 of file TimeStepper.C.

Referenced by TimeStepper::computeStep().

 {
   if (_dt <= _dt_min)
     mooseError("Solve failed and timestep already at or below dtmin, cannot continue!");
 
   // cut the time step
   if (_cutback_factor_at_failure * _dt >= _dt_min)
     return _cutback_factor_at_failure * _dt;
   else // (_cutback_factor_at_failure * _current_dt < _dt_min)
     return _dt_min;
 }

◆ computeInitialDT()

Real SolutionTimeAdaptiveDT::computeInitialDT ( )

overrideprotectedvirtual

Computes time step size for the initial time step.

Implements TimeStepper.

Definition at line 75 of file SolutionTimeAdaptiveDT.C.

 {
   return getParam<Real>("dt");
 }

◆ computeStep()

void TimeStepper::computeStep ( )

inherited

Called before a new step is started.

This is when the actual computation of the current DT will be done. Because of that this MUST be called only once per step!

After calling this function use getCurrentDT() to get the DT that was computed.

Definition at line 78 of file TimeStepper.C.

Referenced by TransientBase::computeDT().

 {
   if (_t_step < 2 || (_reset_dt && !_has_reset_dt))
   {
     _has_reset_dt = true;
 
     if (converged())
       _current_dt = computeInitialDT();
     else
       _current_dt = computeFailedDT();
   }
   else
   {
     if (converged())
       _current_dt = computeDT();
     else
       _current_dt = computeFailedDT();
   }
   if (_current_dt < -TOLERANCE)
     mooseError("Negative time step detected :" + std::to_string(_current_dt) +
                " Investigate the TimeStepper to resolve this error");
 }

◆ connectControllableParams()

void MooseBase::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 74 of file MooseBase.C.

 {
   auto & factory = _app.getFactory();
   auto & ip_warehouse = _app.getInputParameterWarehouse();
 
   MooseObjectParameterName primary_name(uniqueName(), parameter);
   const auto base_type = factory.getValidParams(object_type).getBase();
   MooseObjectParameterName secondary_name(base_type, object_name, object_parameter);
   ip_warehouse.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, name(), parameter);
       ip_warehouse.addControllableParameterConnection(
           tagged_name, secondary_name, /*error_on_empty=*/false);
     }
   }
 }

◆ constrainStep()

bool TimeStepper::constrainStep ( Real & dt )

virtualinherited

Called after computeStep() is called.

Returns: true if any type of sync point was hit, false otherwise

Reimplemented in CompositionDT, and IterationAdaptiveDT.

Definition at line 102 of file TimeStepper.C.

Referenced by TransientBase::computeConstrainedDT(), IterationAdaptiveDT::constrainStep(), and CompositionDT::constrainStep().

 {
   bool at_sync_point = false;
 
   std::ostringstream diag;
 
   // Don't let the time step size exceed maximum time step size
   if (dt > _dt_max)
   {
     dt = _dt_max;
     diag << "Limiting dt to dtmax: " << std::setw(9) << std::setprecision(6) << std::setfill('0')
          << std::showpoint << std::left << _dt_max << std::endl;
   }
 
   // Don't allow time step size to be smaller than minimum time step size
   if (dt < _dt_min)
   {
     dt = _dt_min;
     diag << "Increasing dt to dtmin: " << std::setw(9) << std::setprecision(6) << std::setfill('0')
          << std::showpoint << std::left << _dt_min << std::endl;
   }
 
   // Don't let time go beyond simulation end time (unless we're doing a half transient)
   if (_time + dt > _end_time && !_app.testCheckpointHalfTransient())
   {
     dt = _end_time - _time;
     diag << "Limiting dt for end_time: " << std::setw(9) << std::setprecision(6)
          << std::setfill('0') << std::showpoint << std::left << _end_time << " dt: " << std::setw(9)
          << std::setprecision(6) << std::setfill('0') << std::showpoint << std::left << dt
          << std::endl;
   }
 
   // Adjust to a sync time if supplied
   if (!_sync_times.empty() && _time + dt + _timestep_tolerance >= (*_sync_times.begin()))
   {
     dt = *_sync_times.begin() - _time;
     diag << "Limiting dt for sync_time: " << std::setw(9) << std::setprecision(6)
          << std::setfill('0') << std::showpoint << std::left << *_sync_times.begin()
          << " dt: " << std::setw(9) << std::setprecision(6) << std::setfill('0') << std::showpoint
          << std::left << dt << std::endl;
 
     if (dt <= 0.0)
     {
       _console << diag.str();
       mooseError("Adjusting to sync_time resulted in a non-positive time step.  dt: ",
                  dt,
                  " sync_time: ",
                  *_sync_times.begin(),
                  " time: ",
                  _time);
     }
 
     at_sync_point = true;
   }
 
   if (_verbose)
   {
     _console << diag.str();
   }
 
   return at_sync_point;
 }

◆ converged()

bool TimeStepper::converged ( ) const

virtualinherited

If the time step converged.

Returns: true if converged, otherwise false

Reimplemented in CompositionDT, IterationAdaptiveDT, and AB2PredictorCorrector.

Definition at line 197 of file TimeStepper.C.

Referenced by TimeStepper::computeStep(), IterationAdaptiveDT::converged(), CompositionDT::converged(), MFEMTransient::takeStep(), and TransientBase::takeStep().

 {
   return _converged;
 }

◆ coupledGenericScalarValue() [1/3]

template<bool is_ad>

const GenericVariableValue<is_ad>& ScalarCoupleable::coupledGenericScalarValue	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns value of a coupled scalar variable for use in templated automatic differentiation classes.

Parameters

var_name	Name of coupled scalar variable
comp	Component number for vector of coupled scalar variables

Returns: Reference to a GenericVariableValue for the coupled scalar variable

◆ coupledGenericScalarValue() [2/3]

template<>

const GenericVariableValue<false>& ScalarCoupleable::coupledGenericScalarValue	(	const std::string &	var_name,
		const unsigned int	comp
	)		const

protectedinherited

Definition at line 152 of file ScalarCoupleable.C.

 {
   return coupledScalarValue(var_name, comp);
 }

◆ coupledGenericScalarValue() [3/3]

template<>

const GenericVariableValue<true>& ScalarCoupleable::coupledGenericScalarValue	(	const std::string &	var_name,
		const unsigned int	comp
	)		const

protectedinherited

Definition at line 160 of file ScalarCoupleable.C.

 {
   return adCoupledScalarValue(var_name, comp);
 }

◆ coupledMatrixTagScalarValue()

const VariableValue & ScalarCoupleable::coupledMatrixTagScalarValue	(	const std::string &	var_name,
		TagID	tag,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns value of a scalar coupled variable.

Parameters

var_name	Name of coupled variable
tag	Tag ID of coupled matrix;
comp	Component number for vector of coupled variables

Returns: Reference to a VariableValue for the coupled variable

Definition at line 202 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   if (!isCoupledScalar(var_name, comp))
     return *getDefaultValue(var_name);
 
   _sc_coupleable_matrix_tags.insert(tag);
 
   return getScalarVar(var_name, comp)->matrixTagSln(tag);
 }

◆ coupledScalar()

unsigned int ScalarCoupleable::coupledScalar	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns the index for a scalar coupled variable by name.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Index of coupled variable

Definition at line 93 of file ScalarCoupleable.C.

Referenced by ParsedODEKernel::ParsedODEKernel().

 {
   checkVar(var_name);
   return getScalarVar(var_name, comp)->number();
 }

◆ coupledScalarComponents()

unsigned int ScalarCoupleable::coupledScalarComponents ( const std::string & var_name ) const

protectedinherited

Return the number of components to the coupled scalar variable.

Parameters

var_name The of the coupled variable

Definition at line 353 of file ScalarCoupleable.C.

 {
   const auto var_name = _sc_parameters.checkForRename(var_name_in);
 
   const auto it = _coupled_scalar_vars.find(var_name);
   if (it != _coupled_scalar_vars.end())
     return it->second.size();
 
   mooseError(_sc_name, ": Trying to get a non-existent variable '", var_name, "'");
 }

◆ coupledScalarDot()

const VariableValue & ScalarCoupleable::coupledScalarDot	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns the time derivative of a scalar coupled variable.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Reference to a time derivative VariableValue for the coupled variable

Definition at line 244 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   validateExecutionerType(var_name, "coupledScalarDot");
   return getScalarVar(var_name, comp)->uDot();
 }

◆ coupledScalarDotDot()

const VariableValue & ScalarCoupleable::coupledScalarDotDot	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns the second time derivative of a scalar coupled variable.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Reference to a time derivative VariableValue for the coupled variable

Definition at line 260 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   validateExecutionerType(var_name, "coupledScalarDotDot");
   return getScalarVar(var_name, comp)->uDotDot();
 }

◆ coupledScalarDotDotDu()

const VariableValue & ScalarCoupleable::coupledScalarDotDotDu	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Second time derivative of a scalar coupled variable with respect to the coefficients.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Reference to a VariableValue containing the time derivative of the coupled variable with respect to the coefficients

Definition at line 292 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   validateExecutionerType(var_name, "coupledScalarDotDotDu");
   return getScalarVar(var_name, comp)->duDotDotDu();
 }

◆ coupledScalarDotDotOld()

const VariableValue & ScalarCoupleable::coupledScalarDotDotOld	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns the old second time derivative of a scalar coupled variable.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Reference to a time derivative VariableValue for the coupled variable

Definition at line 276 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   validateExecutionerType(var_name, "coupledScalarDotDotOld");
   return getScalarVar(var_name, comp)->uDotDotOld();
 }

◆ coupledScalarDotDu()

const VariableValue & ScalarCoupleable::coupledScalarDotDu	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Time derivative of a scalar coupled variable with respect to the coefficients.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Reference to a VariableValue containing the time derivative of the coupled variable with respect to the coefficients

Definition at line 284 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   validateExecutionerType(var_name, "coupledScalarDotDu");
   return getScalarVar(var_name, comp)->duDotDu();
 }

◆ coupledScalarDotOld()

const VariableValue & ScalarCoupleable::coupledScalarDotOld	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns the old time derivative of a scalar coupled variable.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Reference to a time derivative VariableValue for the coupled variable

Definition at line 268 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   validateExecutionerType(var_name, "coupledScalarDotOld");
   return getScalarVar(var_name, comp)->uDotOld();
 }

◆ coupledScalarOrder()

Order ScalarCoupleable::coupledScalarOrder	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns the order for a scalar coupled variable by name.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Order of coupled variable

Definition at line 100 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   if (!isCoupledScalar(var_name, comp))
     return _sc_fe_problem.getMaxScalarOrder();
 
   return getScalarVar(var_name, comp)->order();
 }

◆ coupledScalarValue()

const VariableValue & ScalarCoupleable::coupledScalarValue	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns value of a scalar coupled variable.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Reference to a VariableValue for the coupled variable

Definition at line 124 of file ScalarCoupleable.C.

Referenced by ParsedODEKernel::ParsedODEKernel().

 {
   checkVar(var_name);
   if (!isCoupledScalar(var_name, comp))
     return *getDefaultValue(var_name);
 
   auto var = getScalarVar(var_name, comp);
   return _sc_is_implicit ? var->sln() : var->slnOld();
 }

◆ coupledScalarValueOld()

const VariableValue & ScalarCoupleable::coupledScalarValueOld	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns the old (previous time step) value of a scalar coupled variable.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Reference to a old VariableValue for the coupled variable

Definition at line 216 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   if (!isCoupledScalar(var_name, comp))
     return *getDefaultValue(var_name);
 
   validateExecutionerType(var_name, "coupledScalarValueOld");
   auto var = getScalarVar(var_name, comp);
   return _sc_is_implicit ? var->slnOld() : var->slnOlder();
 }

◆ coupledScalarValueOlder()

const VariableValue & ScalarCoupleable::coupledScalarValueOlder	(	const std::string &	var_name,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns the older (two time steps previous) value of a scalar coupled variable.

Parameters

var_name	Name of coupled variable
comp	Component number for vector of coupled variables

Returns: Reference to a older VariableValue for the coupled variable

Definition at line 228 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   if (!isCoupledScalar(var_name, comp))
     return *getDefaultValue(var_name);
 
   validateExecutionerType(var_name, "coupledScalarValueOlder");
   auto var = getScalarVar(var_name, comp);
   if (_sc_is_implicit)
     return var->slnOlder();
   else
     mooseError("Older values not available for explicit schemes");
 }

◆ coupledVectorTagScalarValue()

const VariableValue & ScalarCoupleable::coupledVectorTagScalarValue	(	const std::string &	var_name,
		TagID	tag,
		unsigned int	comp = `0`
	)		const

protectedinherited

Returns value of a scalar coupled variable.

Parameters

var_name	Name of coupled variable
tag	Tag ID of coupled vector ;
comp	Component number for vector of coupled variables

Returns: Reference to a VariableValue for the coupled variable

Definition at line 181 of file ScalarCoupleable.C.

 {
   checkVar(var_name);
   if (!isCoupledScalar(var_name, comp))
     return *getDefaultValue(var_name);
 
   if (!_sc_fe_problem.vectorTagExists(tag))
     mooseError("Attempting to couple to vector tag scalar with ID ",
                tag,
                "in ",
                _sc_name,
                ", but a vector tag with that ID does not exist");
 
   _sc_coupleable_vector_tags.insert(tag);
 
   return getScalarVar(var_name, comp)->vectorTagSln(tag);
 }

◆ declareManagedRestartableDataWithContext()

template<typename T , typename... Args>

Restartable::ManagedValue< T > Restartable::declareManagedRestartableDataWithContext	(	const std::string &	data_name,
		void *	context,
		Args &&...	args
	)

protectedinherited

Declares a piece of "managed" restartable data and initialize it.

Here, "managed" restartable data means that the caller can destruct this data upon destruction of the return value of this method. Therefore, this ManagedValue<T> wrapper should survive after the final calls to dataStore() for it. That is... at the very end.

This is needed for objects whose destruction ordering is important, and enables natural c++ destruction in reverse construction order of the object that declares it.

See delcareRestartableData and declareRestartableDataWithContext for more information.

Definition at line 276 of file Restartable.h.

 {
   auto & data_ptr =
       declareRestartableDataHelper<T>(data_name, context, std::forward<Args>(args)...);
   return Restartable::ManagedValue<T>(data_ptr);
 }

◆ declareRecoverableData()

template<typename T , typename... Args>

T & Restartable::declareRecoverableData	(	const std::string &	data_name,
		Args &&...	args
	)

protectedinherited

Declare a piece of data as "recoverable" and initialize it.

This means that in the event of a restart this piece of data will be restored back to its previous value.

Note - this data will NOT be restored on Restart!

NOTE: This returns a reference! Make sure you store it in a reference!

Parameters

data_name	The name of the data (usually just use the same name as the member variable)
args	Arguments to forward to the constructor of the data

Definition at line 351 of file Restartable.h.

 {
   const auto full_name = restartableName(data_name);
 
   registerRestartableNameWithFilterOnApp(full_name, Moose::RESTARTABLE_FILTER::RECOVERABLE);
 
   return declareRestartableDataWithContext<T>(data_name, nullptr, std::forward<Args>(args)...);
 }

◆ declareRestartableData()

template<typename T , typename... Args>

T & Restartable::declareRestartableData	(	const std::string &	data_name,
		Args &&...	args
	)

protectedinherited

Declare a piece of data as "restartable" and initialize it.

This means that in the event of a restart this piece of data will be restored back to its previous value.

NOTE: This returns a reference! Make sure you store it in a reference!

Parameters

data_name	The name of the data (usually just use the same name as the member variable)
args	Arguments to forward to the constructor of the data

Definition at line 269 of file Restartable.h.

 {
   return declareRestartableDataWithContext<T>(data_name, nullptr, std::forward<Args>(args)...);
 }

◆ declareRestartableDataWithContext()

template<typename T , typename... Args>

T & Restartable::declareRestartableDataWithContext	(	const std::string &	data_name,
		void *	context,
		Args &&...	args
	)

protectedinherited

Declare a piece of data as "restartable" and initialize it.

This means that in the event of a restart this piece of data will be restored back to its previous value.

NOTE: This returns a reference! Make sure you store it in a reference!

Parameters

data_name	The name of the data (usually just use the same name as the member variable)
context	Context pointer that will be passed to the load and store functions
args	Arguments to forward to the constructor of the data

Definition at line 294 of file Restartable.h.

 {
   return declareRestartableDataHelper<T>(data_name, context, std::forward<Args>(args)...).set();
 }

◆ declareRestartableDataWithObjectName()

template<typename T , typename... Args>

T & Restartable::declareRestartableDataWithObjectName	(	const std::string &	data_name,
		const std::string &	object_name,
		Args &&...	args
	)

protectedinherited

Declare a piece of data as "restartable".

This means that in the event of a restart this piece of data will be restored back to its previous value.

NOTE: This returns a reference! Make sure you store it in a reference!

Parameters

data_name	The name of the data (usually just use the same name as the member variable)
object_name	A supplied name for the object that is declaring this data.
args	Arguments to forward to the constructor of the data

Definition at line 323 of file Restartable.h.

 {
   return declareRestartableDataWithObjectNameWithContext<T>(
       data_name, object_name, nullptr, std::forward<Args>(args)...);
 }

◆ declareRestartableDataWithObjectNameWithContext()

template<typename T , typename... Args>

T & Restartable::declareRestartableDataWithObjectNameWithContext	(	const std::string &	data_name,
		const std::string &	object_name,
		void *	context,
		Args &&...	args
	)

protectedinherited

Declare a piece of data as "restartable".

This means that in the event of a restart this piece of data will be restored back to its previous value.

NOTE: This returns a reference! Make sure you store it in a reference!

Parameters

data_name	The name of the data (usually just use the same name as the member variable)
object_name	A supplied name for the object that is declaring this data.
context	Context pointer that will be passed to the load and store functions
args	Arguments to forward to the constructor of the data

Definition at line 333 of file Restartable.h.

 {
   std::string old_name = _restartable_name;
 
   _restartable_name = object_name;
 
   T & value = declareRestartableDataWithContext<T>(data_name, context, std::forward<Args>(args)...);
 
   _restartable_name = old_name;
 
   return value;
 }

◆ enabled()

virtual bool MooseObject::enabled ( ) const

inlinevirtualinherited

Return the enabled status of the object.

Reimplemented in EigenKernel.

Definition at line 39 of file MooseObject.h.

Referenced by EigenKernel::enabled().

39 { return _enabled; }

MooseObject::_enabled

const bool & _enabled

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

Definition: MooseObject.h:50

◆ errorPrefix()

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

inlineinherited

Deprecated message prefix; the error type is no longer used.

Definition at line 260 of file MooseBase.h.

260 { return messagePrefix(); }

MooseBase::messagePrefix

std::string messagePrefix(const bool hit_prefix=true) const

Definition: MooseBase.h:252

◆ forceNumSteps()

void TimeStepper::forceNumSteps ( const unsigned int num_steps )

virtualinherited

Set the number of time steps.

Parameters

num_steps number of time steps

Definition at line 222 of file TimeStepper.C.

 {
   _executioner.forceNumSteps(num_steps);
 }

◆ forceTimeStep()

void TimeStepper::forceTimeStep ( Real dt )

virtualinherited

Definition at line 216 of file TimeStepper.C.

 {
   _current_dt = dt;
 }

◆ getBase()

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

inlineinherited

Returns: The registered base for this object (set via InputParameters::registerBase())

Definition at line 143 of file MooseBase.h.

Referenced by Factory::copyConstruct(), and MooseBase::uniqueParameterName().

143 { return _pars.getBase(); }

MooseBase::_pars

const InputParameters & _pars

The object's parameters.

Definition: MooseBase.h:362

InputParameters::getBase

const std::string & getBase() const

Definition: InputParameters.C:497

◆ getCheckedPointerParam()

template<typename T >

T MooseBase::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 428 of file MooseBase.h.

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

◆ getCoupledMooseScalarVars()

const std::vector<MooseVariableScalar *>& ScalarCoupleable::getCoupledMooseScalarVars ( )

inlineinherited

Get the list of coupled scalar variables.

Returns: The list of coupled variables

Definition at line 45 of file ScalarCoupleable.h.

Referenced by AuxScalarKernel::AuxScalarKernel(), MortarScalarBase::computeJacobian(), and ScalarInitialCondition::ScalarInitialCondition().

   {
     return _coupled_moose_scalar_vars;
   }

◆ getCurrentDT()

Real TimeStepper::getCurrentDT ( )

inlineinherited

Get the current_dt.

Definition at line 85 of file TimeStepper.h.

Referenced by ConstantDT::computeDT(), LogConstantDT::computeDT(), computeDT(), and TransientBase::getDT().

85 { return _current_dt; }

TimeStepper::_current_dt

Real & _current_dt

Size of the current time step as computed by the Stepper. Note that the actual dt that was taken migh...

Definition: TimeStepper.h:156

◆ 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;
 }

◆ getHitNode()

const hit::Node* MooseBase::getHitNode ( ) const

inlineinherited

Returns: The block-level hit node for this object, if any

Definition at line 132 of file MooseBase.h.

Referenced by FEProblemBase::addAnyRedistributers(), MooseBase::callMooseError(), MooseBase::getHitNode(), and MooseBase::messagePrefix().

132 { return getHitNode(_pars); }

MooseBase::_pars

const InputParameters & _pars

The object's parameters.

Definition: MooseBase.h:362

MooseBase::getHitNode

const hit::Node * getHitNode() const

Definition: MooseBase.h:132

◆ getMooseApp()

MooseApp& MooseBase::getMooseApp ( ) const

inlineinherited

Get the MooseApp this class is associated with.

Definition at line 83 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(), 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().

83 { return _app; }

MooseBase::_app

MooseApp & _app

The MOOSE application this is associated with.

Definition: MooseBase.h:353

◆ getParam() [1/2]

template<typename T >

const T & MooseBase::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 384 of file MooseBase.h.

 {
   return InputParameters::getParamHelper<T>(name, _pars);
 }

◆ getParam() [2/2]

template<typename T1 , typename T2 >

std::vector< std::pair< T1, T2 > > MooseBase::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 421 of file MooseBase.h.

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

◆ getRenamedParam()

template<typename T >

const T & MooseBase::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 398 of file MooseBase.h.

 {
   // Most important: accept new parameter
   if (isParamSetByUser(new_name) && !isParamValid(old_name))
     return getParam<T>(new_name);
   // Second most: accept old parameter
   if (isParamValid(old_name) && !isParamSetByUser(new_name))
     return getParam<T>(old_name);
   // Third most: accept default for new parameter
   if (isParamValid(new_name) && !isParamValid(old_name))
     return getParam<T>(new_name);
   // Refuse: no default, no value passed
   if (!isParamValid(old_name) && !isParamValid(new_name))
     mooseError("parameter '" + new_name +
                "' is being retrieved without being set.\nDid you misspell it?");
   // Refuse: both old and new parameters set by user
   else
     mooseError("Parameter '" + new_name + "' may not be provided alongside former parameter '" +
                old_name + "'");
 }

◆ getRestartableData()

template<typename T , typename... Args>

const T & Restartable::getRestartableData ( const std::string & data_name ) const

protectedinherited

Declare a piece of data as "restartable" and initialize it Similar to declareRestartableData but returns a const reference to the object.

Forwarded arguments are not allowed in this case because we assume that the object is restarted and we won't need different constructors to initialize it.

NOTE: This returns a const reference! Make sure you store it in a const reference!

Parameters

data_name The name of the data (usually just use the same name as the member variable)

Definition at line 287 of file Restartable.h.

 {
   return declareRestartableDataHelper<T>(data_name, nullptr).get();
 }

◆ getScalarVar()

const MooseVariableScalar * ScalarCoupleable::getScalarVar	(	const std::string &	var_name,
		unsigned int	comp
	)		const

protectedinherited

Extract pointer to a scalar coupled variable.

Parameters

var_name	Name of parameter desired
comp	Component number of multiple coupled variables

Returns: Pointer to the desired variable

Definition at line 321 of file ScalarCoupleable.C.

 {
   const auto var_name = _sc_parameters.checkForRename(var_name_in);
 
   const auto it = _coupled_scalar_vars.find(var_name);
   if (it != _coupled_scalar_vars.end())
   {
     const auto & entry = it->second;
     if (comp < entry.size())
       return entry[comp];
     else
       mooseError(_sc_name, ": Trying to get a non-existent component of variable '", var_name, "'");
   }
   else
     mooseError(_sc_name, ": Trying to get a non-existent variable '", var_name, "'");
 }

◆ getScalarVariableCoupleableMatrixTags()

const std::set<TagID>& ScalarCoupleable::getScalarVariableCoupleableMatrixTags ( ) const

inlineinherited

Definition at line 55 of file ScalarCoupleable.h.

   {
     return _sc_coupleable_matrix_tags;
   }

◆ getScalarVariableCoupleableVectorTags()

const std::set<TagID>& ScalarCoupleable::getScalarVariableCoupleableVectorTags ( ) const

inlineinherited

Definition at line 50 of file ScalarCoupleable.h.

   {
     return _sc_coupleable_vector_tags;
   }

◆ 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 61 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 74 of file MooseObject.C.

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

◆ hasBase()

bool MooseBase::hasBase ( ) const

inlineinherited

Returns: Whether or not this object has a registered base (set via InputParameters::registerBase())

Definition at line 138 of file MooseBase.h.

138 { return _pars.hasBase(); }

MooseBase::_pars

const InputParameters & _pars

The object's parameters.

Definition: MooseBase.h:362

InputParameters::hasBase

bool hasBase() const

Definition: InputParameters.C:491

◆ init()

void TimeStepper::init ( )

virtualinherited

Initialize the time stepper.

Called at the very beginning of Executioner::execute()

Reimplemented in CompositionDT, IterationAdaptiveDT, TimeSequenceStepperBase, CSVTimeSequenceStepper, FunctionDT, TimeSequenceStepper, and FixedPointIterationAdaptiveDT.

Definition at line 65 of file TimeStepper.C.

Referenced by FixedPointIterationAdaptiveDT::init(), and TransientBase::init().

66 {

67 }

◆ isCoupledScalar()

bool ScalarCoupleable::isCoupledScalar	(	const std::string &	var_name,
		unsigned int	i = `0`
	)		const

protectedinherited

Returns true if a variables has been coupled_as name.

Parameters

var_name	The of the coupled variable
i	By default 0, in general the index to test in a vector of MooseVariable pointers.

Definition at line 70 of file ScalarCoupleable.C.

Referenced by ScalarCoupleable::adCoupledScalarValue(), ScalarCoupleable::coupledMatrixTagScalarValue(), ScalarCoupleable::coupledScalarOrder(), ScalarCoupleable::coupledScalarValue(), ScalarCoupleable::coupledScalarValueOld(), ScalarCoupleable::coupledScalarValueOlder(), and ScalarCoupleable::coupledVectorTagScalarValue().

 {
   const auto var_name = _sc_parameters.checkForRename(var_name_in);
 
   auto it = _coupled_scalar_vars.find(var_name);
   if (it != _coupled_scalar_vars.end())
     return (i < it->second.size());
   else
   {
     // Make sure the user originally requested this value in the InputParameter syntax
     if (!_sc_parameters.hasCoupledValue(var_name))
       mooseError(_sc_name,
                  ": The coupled scalar variable \"",
                  var_name,
                  "\" was never added to this object's "
                  "InputParameters, please double-check "
                  "your spelling");
 
     return false;
   }
 }

◆ isParamSetByUser()

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

inlineinherited

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

Parameters

name	The name of the parameter to test

Definition at line 201 of file MooseBase.h.

Referenced by SetupDebugAction::act(), ADConservativeAdvectionBC::ADConservativeAdvectionBC(), DiffusionCG::addFEBCs(), DiffusionPhysicsBase::addInitialConditions(), MFEMMesh::buildMesh(), LibtorchNeuralNetControl::conditionalParameterError(), MooseApp::copyInputs(), DiffusionPhysicsBase::DiffusionPhysicsBase(), ElementSubdomainModifierBase::ElementSubdomainModifierBase(), MooseApp::errorCheck(), MooseBase::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(), MooseApp::runInputFile(), MooseApp::runInputs(), MFEMSolverBase::setPreconditioner(), SetupMeshAction::setupMesh(), MooseApp::setupOptions(), SideSetsFromBoundingBoxGenerator::SideSetsFromBoundingBoxGenerator(), TimedSubdomainModifier::TimedSubdomainModifier(), and XYDelaunayGenerator::XYDelaunayGenerator().

   {
     return _pars.isParamSetByUser(name);
   }

◆ isParamValid()

bool MooseBase::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 195 of file MooseBase.h.

195 { return _pars.isParamValid(name); }

MooseBase::_pars

const InputParameters & _pars

The object's parameters.

Definition: MooseBase.h:362

MooseBase::name

const std::string & name() const

Get the name of the class.

Definition: MooseBase.h:99

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:386

◆ messagePrefix()

std::string MooseBase::messagePrefix ( const bool hit_prefix = true ) const

inlineinherited

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

Definition at line 252 of file MooseBase.h.

Referenced by MooseBase::callMooseError(), MooseBase::errorPrefix(), MooseBase::mooseDeprecated(), MooseBase::mooseInfo(), and MooseBase::mooseWarning().

   {
     return messagePrefix(_pars, hit_prefix);
   }

◆ mooseDeprecated()

template<typename... Args>

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

inlineinherited

Definition at line 310 of file MooseBase.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(), MooseApp::getRecoverFileBase(), FEProblemBase::getUserObjects(), FEProblemBase::hasPostprocessor(), MooseApp::hasRecoverFileBase(), 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(), MooseApp::setupOptions(), UserForcingFunction::UserForcingFunction(), and VariableResidual::VariableResidual().

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

◆ mooseDocumentedError()

template<typename... Args>

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

inlineinherited

Definition at line 273 of file MooseBase.h.

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

   {
     callMooseError(moose::internal::formatMooseDocumentedError(
                        repo_name, issue_num, argumentsToString(std::forward<Args>(args)...)),
                    /* with_prefix = */ true);
   }

◆ mooseError()

template<typename... Args>

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

inlineinherited

Emits an error prefixed with object name and type and optionally a file path to the top-level block parameter if available.

Definition at line 267 of file MooseBase.h.

   {
     callMooseError(argumentsToString(std::forward<Args>(args)...), /* with_prefix = */ true);
   }

◆ mooseErrorNonPrefixed()

template<typename... Args>

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

inlineinherited

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

Definition at line 286 of file MooseBase.h.

   {
     callMooseError(argumentsToString(std::forward<Args>(args)...), /* with_prefix = */ false);
   }

◆ mooseInfo()

template<typename... Args>

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

inlineinherited

Definition at line 317 of file MooseBase.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(), MooseBase::paramInfo(), ProjectionAux::ProjectionAux(), ReferenceResidualConvergence::ReferenceResidualConvergence(), MFEMDataCollection::registerFields(), FEProblemBase::setRestartFile(), MooseApp::setupOptions(), SolutionUserObjectBase::SolutionUserObjectBase(), SymmetryTransformGenerator::SymmetryTransformGenerator(), TransientBase::takeStep(), and TransientBase::TransientBase().

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

◆ mooseWarning()

template<typename... Args>

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

inlineinherited

Emits a warning prefixed with object name and type.

Definition at line 295 of file MooseBase.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(), CartesianGridDivision::divisionIndex(), CylindricalGridDivision::divisionIndex(), SphericalGridDivision::divisionIndex(), ElementMaterialSampler::ElementMaterialSampler(), Postprocessor::evaluateDotWarning(), MeshDivisionFunctorReductionVectorPostprocessor::execute(), ElementQualityChecker::finalize(), FiniteDifferencePreconditioner::FiniteDifferencePreconditioner(), FixedPointSolve::FixedPointSolve(), SubdomainPerElementGenerator::generate(), StitchMeshGenerator::generate(), ParsedGenerateSideset::generate(), MultiAppTransfer::getAppInfo(), FunctorBinnedValuesDivision::getBinIndex(), DataFileInterface::getDataFilePath(), PointSamplerBase::getLocalElemContainingPoint(), FEProblemBase::getMaterial(), LineValueSampler::getValue(), Terminator::handleMessage(), IndicatorMarker::IndicatorMarker(), CylindricalGridDivision::initialize(), CartesianGridDivision::initialize(), SphericalGridDivision::initialize(), ElementGroupCentroidPositions::initialize(), MultiAppGeneralFieldNearestLocationTransfer::initialSetup(), BoundsBase::initialSetup(), ReferenceResidualConvergence::initialSetup(), MultiAppGeneralFieldTransfer::initialSetup(), FEProblemBase::initialSetup(), AdvancedOutput::initPostprocessorOrVectorPostprocessorLists(), MaterialBase::initStatefulProperties(), LeastSquaresFit::LeastSquaresFit(), IterationAdaptiveDT::limitDTToPostprocessorValue(), MooseApp::loadLibraryAndDependencies(), FEProblemBase::mesh(), MultiAppGeneralFieldTransfer::MultiAppGeneralFieldTransfer(), NewmarkBeta::NewmarkBeta(), NodalPatchRecovery::NodalPatchRecovery(), NonlocalIntegratedBC::NonlocalIntegratedBC(), NonlocalKernel::NonlocalKernel(), Output::Output(), MultiAppGeneralFieldTransfer::outputValueConflicts(), MooseBase::paramWarning(), 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, messagePrefix(true), std::forward<Args>(args)...);
   }

◆ mooseWarningNonPrefixed()

template<typename... Args>

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

inlineinherited

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

Definition at line 304 of file MooseBase.h.

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

◆ name()

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

inlineinherited

Get the name of the class.

Returns: The name of the class

Definition at line 99 of file MooseBase.h.

   {
     mooseAssert(_name.size(), "Empty name");
     return _name;
   }

◆ numFailures()

unsigned int TimeStepper::numFailures ( ) const

inherited

Gets the number of failures and returns them.

Definition at line 191 of file TimeStepper.C.

Referenced by NumFailedTimeSteps::getValue().

 {
   return _failure_count;
 }

◆ paramError()

template<typename... Args>

void MooseBase::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 435 of file MooseBase.h.

 {
   _pars.paramError(param, std::forward<Args>(args)...);
 }

◆ parameters()

const InputParameters& MooseBase::parameters ( ) const

inlineinherited

Get the parameters of the object.

Returns: The parameters of the object

Definition at line 127 of file MooseBase.h.

127 { return _pars; }

MooseBase::_pars

const InputParameters & _pars

The object's parameters.

Definition: MooseBase.h:362

◆ paramInfo()

template<typename... Args>

void MooseBase::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 449 of file MooseBase.h.

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

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

◆ paramWarning()

template<typename... Args>

void MooseBase::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 442 of file MooseBase.h.

Referenced by GridPartitioner::_do_partition(), MultiAppTransfer::checkParentAppUserObjectExecuteOn(), 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(_pars.paramMessage(param, std::forward<Args>(args)...));
 }

◆ postExecute()

virtual void TimeStepper::postExecute ( )

inlinevirtualinherited

Reimplemented in CompositionDT.

Definition at line 38 of file TimeStepper.h.

Referenced by TransientBase::postExecute().

38 {}

◆ postSolve()

virtual void TimeStepper::postSolve ( )

inlinevirtualinherited

Reimplemented in CompositionDT, and AB2PredictorCorrector.

Definition at line 37 of file TimeStepper.h.

Referenced by MFEMTransient::takeStep(), and TransientBase::takeStep().

37 {}

◆ postStep()

virtual void TimeStepper::postStep ( )

inlinevirtualinherited

Reimplemented in CompositionDT, and FunctionDT.

Definition at line 40 of file TimeStepper.h.

Referenced by TransientBase::postStep().

40 {}

◆ preExecute()

void TimeStepper::preExecute ( )

virtualinherited

Reimplemented in CompositionDT, IterationAdaptiveDT, and AB2PredictorCorrector.

Definition at line 70 of file TimeStepper.C.

Referenced by AB2PredictorCorrector::preExecute(), IterationAdaptiveDT::preExecute(), and TransientBase::preExecute().

 {
   // Delete all sync times that are at or before the begin time
   while (!_sync_times.empty() && _time + _timestep_tolerance >= *_sync_times.begin())
     _sync_times.erase(_sync_times.begin());
 }

◆ preSolve()

virtual void TimeStepper::preSolve ( )

inlinevirtualinherited

Reimplemented in CompositionDT, and AB2PredictorCorrector.

Definition at line 36 of file TimeStepper.h.

Referenced by MFEMTransient::takeStep(), and TransientBase::takeStep().

36 {}

◆ preStep()

virtual void TimeStepper::preStep ( )

inlinevirtualinherited

Reimplemented in CompositionDT.

Definition at line 39 of file TimeStepper.h.

Referenced by TransientBase::preStep().

39 {}

◆ queryParam()

template<typename T >

const T * MooseBase::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 391 of file MooseBase.h.

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

◆ rejectStep()

void SolutionTimeAdaptiveDT::rejectStep ( )

overridevirtual

This gets called when time step is rejected.

Reimplemented from TimeStepper.

Definition at line 111 of file SolutionTimeAdaptiveDT.C.

 {
   _console << "Solve failed... cutting timestep" << std::endl;
   if (_adapt_log)
     _adaptive_log << "Solve failed... cutting timestep" << std::endl;
 
   // Reverse progression of quantities
   _sol_time_vs_dt = _old_sol_time_vs_dt;
   _old_sol_time_vs_dt = _older_sol_time_vs_dt;
 
   TimeStepper::rejectStep();
 }

◆ restartableName()

std::string Restartable::restartableName ( const std::string & data_name ) const

protectedinherited

Gets the name of a piece of restartable data given a data name, adding the system name and object name prefix.

This should only be used in this interface and in testing.

Definition at line 66 of file Restartable.C.

Referenced by Restartable::declareRecoverableData(), and Restartable::declareRestartableDataHelper().

 {
   return _restartable_system_name + "/" + _restartable_name + "/" + data_name;
 }

◆ step()

void SolutionTimeAdaptiveDT::step ( )

overridevirtual

Take a time step.

Reimplemented from TimeStepper.

Definition at line 56 of file SolutionTimeAdaptiveDT.C.

 {
   auto solve_start = std::chrono::system_clock::now();
 
   TimeStepper::step();
 
   auto solve_end = std::chrono::system_clock::now();
   auto elapsed_time =
       std::chrono::duration_cast<std::chrono::milliseconds>(solve_end - solve_start).count();
 
   // Take the maximum time over all processors so all processors compute and use the same dt
   TimeStepper::_communicator.max(elapsed_time);
 
   _older_sol_time_vs_dt = _old_sol_time_vs_dt;
   _old_sol_time_vs_dt = _sol_time_vs_dt;
   _sol_time_vs_dt = elapsed_time / _dt;
 }

◆ 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 89 of file MooseBase.h.

   {
     mooseAssert(_type.size(), "Empty type");
     return _type;
   }

◆ 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 54 of file MooseBase.C.

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

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

◆ uniqueName()

MooseObjectName MooseBase::uniqueName ( ) const

inherited

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

Definition at line 66 of file MooseBase.C.

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

 {
   if (!_pars.have_parameter<std::string>(unique_name_param))
     mooseError("uniqueName(): Object does not have a unique name");
   return MooseObjectName(_pars.get<std::string>(unique_name_param));
 }

◆ uniqueParameterName()

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

inherited

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

Definition at line 60 of file MooseBase.C.

 {
   return MooseObjectParameterName(getBase(), name(), parameter_name);
 }

◆ validParams()

InputParameters SolutionTimeAdaptiveDT::validParams ( )

static

Definition at line 19 of file SolutionTimeAdaptiveDT.C.

 {
   InputParameters params = TimeStepper::validParams();
   params.addClassDescription("Compute simulation timestep based on actual solution time.");
   params.addParam<Real>(
       "percent_change", 0.1, "Fraction to change the timestep by.  Should be between 0 and 1");
   params.addParam<int>(
       "initial_direction", 1, "Direction for the first step.  1 for up... -1 for down. ");
   params.addParam<bool>("adapt_log", false, "Output adaptive time step log");
   params.addRequiredParam<Real>("dt", "The timestep size between solves");
 
   return params;
 }

Member Data Documentation

◆ _action_factory

ActionFactory& ParallelParamObject::_action_factory

protectedinherited

Builds Actions.

Definition at line 40 of file ParallelParamObject.h.

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

◆ _adapt_log

bool SolutionTimeAdaptiveDT::_adapt_log

protected

Boolean to control whether a separate adapt log is written to a file.

Definition at line 48 of file SolutionTimeAdaptiveDT.h.

Referenced by computeDT(), rejectStep(), and SolutionTimeAdaptiveDT().

◆ _adaptive_log

std::ofstream SolutionTimeAdaptiveDT::_adaptive_log

protected

The filehandle to hold the log.

Definition at line 51 of file SolutionTimeAdaptiveDT.h.

Referenced by computeDT(), rejectStep(), SolutionTimeAdaptiveDT(), and ~SolutionTimeAdaptiveDT().

◆ _app

MooseApp& MooseBase::_app

protectedinherited

The MOOSE application this is associated with.

Definition at line 353 of file MooseBase.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.

◆ _converged

bool TimeStepper::_converged

protectedinherited

Whether or not the previous solve converged.

Definition at line 140 of file TimeStepper.h.

Referenced by AB2PredictorCorrector::converged(), TimeStepper::converged(), AB2PredictorCorrector::step(), and TimeStepper::step().

◆ _cutback_factor_at_failure

const Real TimeStepper::_cutback_factor_at_failure

protectedinherited

Cutback factor if a time step fails to converge.

Definition at line 143 of file TimeStepper.h.

Referenced by TimeSequenceStepperBase::computeFailedDT(), IterationAdaptiveDT::computeFailedDT(), and TimeStepper::computeFailedDT().

◆ _direction

short SolutionTimeAdaptiveDT::_direction

protected

Multiplier specifying the direction the timestep is currently going.

Positive for up. Negative for down.

Definition at line 39 of file SolutionTimeAdaptiveDT.h.

Referenced by computeDT().

◆ _dt

Real& TimeStepper::_dt

protectedinherited

Definition at line 128 of file TimeStepper.h.

Referenced by FixedPointIterationAdaptiveDT::acceptStep(), IterationAdaptiveDT::acceptStep(), FunctionDT::computeDT(), computeDT(), AB2PredictorCorrector::computeDT(), IterationAdaptiveDT::computeFailedDT(), TimeStepper::computeFailedDT(), IterationAdaptiveDT::converged(), AB2PredictorCorrector::estimateTimeError(), AB2PredictorCorrector::preSolve(), and step().

◆ _dt_max

Real& TimeStepper::_dt_max

protectedinherited

Definition at line 130 of file TimeStepper.h.

Referenced by computeDT(), and TimeStepper::constrainStep().

◆ _dt_min

Real& TimeStepper::_dt_min

protectedinherited

Definition at line 129 of file TimeStepper.h.

Referenced by TimeSequenceStepperBase::computeFailedDT(), IterationAdaptiveDT::computeFailedDT(), TimeStepper::computeFailedDT(), TimeStepper::constrainStep(), IterationAdaptiveDT::converged(), CompositionDT::getSequenceSteppersNextTime(), IterationAdaptiveDT::limitDTByFunction(), and IterationAdaptiveDT::limitDTToPostprocessorValue().

◆ _enabled

const bool& MooseObject::_enabled

protectedinherited

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

Definition at line 50 of file MooseObject.h.

Referenced by MooseObject::enabled().

◆ _end_time

Real& TimeStepper::_end_time

protectedinherited

Definition at line 131 of file TimeStepper.h.

Referenced by TimeStepper::constrainStep().

◆ _executioner

TransientBase& TimeStepper::_executioner

protectedinherited

Reference to transient executioner.

Definition at line 122 of file TimeStepper.h.

Referenced by FixedPointIterationAdaptiveDT::acceptStep(), IterationAdaptiveDT::acceptStep(), IterationAdaptiveDT::computeDT(), TimeStepper::forceNumSteps(), TimeSequenceStepperBase::setupSequence(), and TimeStepper::step().

◆ _factory

Factory& ParallelParamObject::_factory

protectedinherited

The Factory associated with the MooseApp.

Definition at line 37 of file ParallelParamObject.h.

Referenced by ElementIDOutputAction::act(), AutoCheckpointAction::act(), CreateExecutionerAction::act(), PartitionerAction::act(), CreateProblemAction::act(), CreateProblemDefaultAction::act(), AdaptivityAction::act(), CombineComponentsMeshes::act(), SetupMeshAction::act(), SetupPredictorAction::act(), SetupTimeStepperAction::act(), SetupDebugAction::act(), ComposeTimeStepperAction::act(), SetupPreconditionerAction::act(), SetupResidualDebugAction::act(), MaterialDerivativeTestAction::act(), CreateDisplacedProblemAction::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(), DynamicObjectRegistrationAction::DynamicObjectRegistrationAction(), ActionComponent::getFactory(), PhysicsBase::getFactory(), MaterialOutputAction::getParams(), and ProjectedStatefulMaterialStorageAction::processProperty().

◆ _failure_count

unsigned int TimeStepper::_failure_count

protectedinherited

Cumulative amount of steps that have failed.

Definition at line 152 of file TimeStepper.h.

Referenced by TimeStepper::numFailures(), TimeStepper::step(), and CompositionDT::step().

◆ _fe_problem

FEProblemBase& TimeStepper::_fe_problem

protectedinherited

Definition at line 120 of file TimeStepper.h.

Referenced by AB2PredictorCorrector::AB2PredictorCorrector(), IterationAdaptiveDT::acceptStep(), IterationAdaptiveDT::computeAdaptiveDT(), AB2PredictorCorrector::estimateTimeError(), CompositionDT::getTimeSteppers(), FixedPointIterationAdaptiveDT::init(), IterationAdaptiveDT::init(), TimeStepper::rejectStep(), and AB2PredictorCorrector::step().

◆ _has_reset_dt

bool TimeStepper::_has_reset_dt

protectedinherited

True if dt has been reset.

Definition at line 149 of file TimeStepper.h.

Referenced by TimeStepper::computeStep().

◆ _name

const std::string& MooseBase::_name

protectedinherited

The name of this class.

Definition at line 359 of file MooseBase.h.

◆ _old_sol_time_vs_dt

Real SolutionTimeAdaptiveDT::_old_sol_time_vs_dt

protected

Definition at line 45 of file SolutionTimeAdaptiveDT.h.

Referenced by computeDT(), rejectStep(), and step().

◆ _older_sol_time_vs_dt

Real SolutionTimeAdaptiveDT::_older_sol_time_vs_dt

protected

Ratios to control whether to increase or decrease the current timestep.

Definition at line 45 of file SolutionTimeAdaptiveDT.h.

Referenced by computeDT(), rejectStep(), and step().

◆ _pars

const InputParameters& MooseBase::_pars

protectedinherited

The object's parameters.

Definition at line 362 of file MooseBase.h.

Referenced by AddFVICAction::act(), AddICAction::act(), CreateProblemDefaultAction::act(), CreateProblemAction::act(), SetupMeshAction::act(), ComposeTimeStepperAction::act(), SetupDebugAction::act(), AddAuxKernelAction::act(), AddPeriodicBCAction::act(), CommonOutputAction::act(), FunctorMaterial::addFunctorPropertyByBlocks(), BreakMeshByBlockGeneratorBase::BreakMeshByBlockGeneratorBase(), PiecewiseTabularBase::buildFromFile(), PNGOutput::calculateRescalingValues(), MooseBase::callMooseError(), MooseBase::connectControllableParams(), Console::Console(), MooseApp::copyInputs(), MaterialBase::declareADProperty(), MaterialBase::declareProperty(), FEProblemSolve::FEProblemSolve(), FunctionMaterialBase< is_ad >::FunctionMaterialBase(), FileMeshGenerator::generate(), MooseBase::getBase(), MooseBase::getCheckedPointerParam(), MaterialBase::getGenericZeroMaterialProperty(), MooseBase::getHitNode(), MeshGenerator::getMeshGeneratorNameFromParam(), MeshGenerator::getMeshGeneratorNamesFromParam(), MooseBase::getParam(), MooseBase::hasBase(), MeshGenerator::hasGenerateData(), AddVariableAction::init(), AdvancedOutput::initExecutionTypes(), Console::initialSetup(), MooseBase::isParamSetByUser(), MooseBase::isParamValid(), MultiApp::keepSolutionDuringRestore(), MooseBase::messagePrefix(), MooseBase::MooseBase(), MooseApp::outputMachineReadableData(), MooseBase::paramError(), GlobalParamsAction::parameters(), MooseBase::parameters(), MooseBase::paramInfo(), MooseBase::paramWarning(), MooseMesh::prepare(), Eigenvalue::prepareSolverOptions(), MooseMesh::setCoordSystem(), MooseMesh::setPartitionerHelper(), SetupMeshAction::setupMesh(), TransientBase::setupTimeIntegrator(), MooseApp::showInputs(), and MooseBase::uniqueName().

◆ _percent_change

Real SolutionTimeAdaptiveDT::_percent_change

protected

Percentage to change the timestep by either way.

Definition at line 42 of file SolutionTimeAdaptiveDT.h.

Referenced by computeDT().

◆ _point_zero

const Point& ScalarCoupleable::_point_zero

protectedinherited

Zero point.

Definition at line 244 of file ScalarCoupleable.h.

Referenced by FunctionDT::computeDT(), FunctionScalarAux::computeValue(), and FunctionScalarIC::value().

◆ _real_zero

const Real& ScalarCoupleable::_real_zero

protectedinherited

Scalar zero.

Definition at line 238 of file ScalarCoupleable.h.

◆ _reset_dt

bool TimeStepper::_reset_dt

protectedinherited

If true then the next dt will be computed by computeInitialDT()

Definition at line 146 of file TimeStepper.h.

Referenced by TimeStepper::computeStep().

◆ _restartable_app

MooseApp& Restartable::_restartable_app

protectedinherited

Reference to the application.

Definition at line 227 of file Restartable.h.

Referenced by Restartable::registerRestartableDataOnApp(), and Restartable::registerRestartableNameWithFilterOnApp().

◆ _restartable_read_only

const bool Restartable::_restartable_read_only

protectedinherited

Flag for toggling read only status (see ReporterData)

Definition at line 236 of file Restartable.h.

Referenced by Restartable::registerRestartableDataOnApp().

◆ _restartable_system_name

const std::string Restartable::_restartable_system_name

protectedinherited

The system name this object is in.

Definition at line 230 of file Restartable.h.

Referenced by Restartable::restartableName().

◆ _restartable_tid

const THREAD_ID Restartable::_restartable_tid

protectedinherited

The thread ID for this object.

Definition at line 233 of file Restartable.h.

Referenced by Restartable::declareRestartableDataHelper().

◆ _sc_fe_problem

FEProblemBase& ScalarCoupleable::_sc_fe_problem

protectedinherited

Definition at line 232 of file ScalarCoupleable.h.

Referenced by ScalarCoupleable::coupledScalarOrder(), ScalarCoupleable::coupledVectorTagScalarValue(), ScalarCoupleable::getADDefaultValue(), ScalarCoupleable::getDefaultValue(), and ScalarCoupleable::validateExecutionerType().

◆ _sc_tid

const THREAD_ID ScalarCoupleable::_sc_tid

protectedinherited

Thread ID of the thread using this object.

Definition at line 235 of file ScalarCoupleable.h.

Referenced by ScalarCoupleable::ScalarCoupleable().

◆ _scalar_zero

const VariableValue& ScalarCoupleable::_scalar_zero

protectedinherited

Zero value of a scalar variable.

Definition at line 241 of file ScalarCoupleable.h.

◆ _sol_time_vs_dt

Real SolutionTimeAdaptiveDT::_sol_time_vs_dt

protected

Definition at line 45 of file SolutionTimeAdaptiveDT.h.

Referenced by computeDT(), rejectStep(), and step().

◆ _sync_times

std::set<Real>& TimeStepper::_sync_times

protectedinherited

Definition at line 132 of file TimeStepper.h.

Referenced by TimeStepper::acceptStep(), TimeStepper::constrainStep(), and TimeStepper::preExecute().

◆ _t_step

int& TimeStepper::_t_step

protectedinherited

Definition at line 127 of file TimeStepper.h.

Referenced by computeDT(), AB2PredictorCorrector::computeDT(), TimeStepper::computeStep(), IterationAdaptiveDT::converged(), IterationAdaptiveDT::limitDTToPostprocessorValue(), and AB2PredictorCorrector::step().

◆ _time

Real& TimeStepper::_time

protectedinherited

Values from executioner.

Definition at line 125 of file TimeStepper.h.

Referenced by TimeSequenceStepperBase::acceptStep(), IterationAdaptiveDT::acceptStep(), TimeStepper::acceptStep(), LogConstantDT::computeDT(), FunctionDT::computeDT(), computeDT(), IterationAdaptiveDT::constrainStep(), TimeStepper::constrainStep(), CompositionDT::getSequenceSteppersNextTime(), IterationAdaptiveDT::limitDTByFunction(), TimeStepper::preExecute(), IterationAdaptiveDT::preExecute(), CompositionDT::produceCompositionDT(), and FunctionDT::removeOldKnots().

◆ _time_old

Real& TimeStepper::_time_old

protectedinherited

Definition at line 126 of file TimeStepper.h.

Referenced by IterationAdaptiveDT::computeDT(), IterationAdaptiveDT::computeInitialDT(), IterationAdaptiveDT::computeInterpolationDT(), and IterationAdaptiveDT::limitDTByFunction().

◆ _timestep_tolerance

Real& TimeStepper::_timestep_tolerance

protectedinherited

Definition at line 134 of file TimeStepper.h.

Referenced by IterationAdaptiveDT::acceptStep(), TimeStepper::acceptStep(), IterationAdaptiveDT::constrainStep(), TimeStepper::constrainStep(), IterationAdaptiveDT::limitDTByFunction(), TimeStepper::preExecute(), and IterationAdaptiveDT::preExecute().

◆ _type

const std::string& MooseBase::_type

protectedinherited

The type of this class.

Definition at line 356 of file MooseBase.h.

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

◆ _verbose

const bool& TimeStepper::_verbose

protectedinherited

whether a detailed diagnostic output should be printed

Definition at line 137 of file TimeStepper.h.

Referenced by IterationAdaptiveDT::acceptStep(), IterationAdaptiveDT::computeAdaptiveDT(), FixedPointIterationAdaptiveDT::computeDT(), IterationAdaptiveDT::computeDT(), IterationAdaptiveDT::computeFailedDT(), IterationAdaptiveDT::computeInitialDT(), IterationAdaptiveDT::computeInterpolationDT(), IterationAdaptiveDT::constrainStep(), TimeStepper::constrainStep(), IterationAdaptiveDT::limitDTByFunction(), and IterationAdaptiveDT::limitDTToPostprocessorValue().

◆ app_param

const std::string MooseBase::app_param = "_moose_app"

staticinherited

The name of the parameter that contains the MooseApp.

Definition at line 59 of file MooseBase.h.

Referenced by FEProblemBase::addAnyRedistributers(), MeshGenerator::addMeshSubgenerator(), InputParameters::callMooseError(), ActionFactory::create(), Factory::getValidParams(), ActionFactory::getValidParams(), AutomaticMortarGeneration::initOutput(), SetupMeshAction::modifyParamsForUseSplit(), and MortarNodalGeometryOutput::validParams().

◆ moose_base_param

const std::string MooseBase::moose_base_param = "_moose_base"

staticinherited

The name of the parameter that contains the moose system base.

Definition at line 61 of file MooseBase.h.

Referenced by InputParameters::getBase(), InputParameters::hasBase(), and InputParameters::registerBase().

◆ name_param

const std::string MooseBase::name_param = "_object_name"

staticinherited

The name of the parameter that contains the object name.

Definition at line 55 of file MooseBase.h.

Referenced by InputParameterWarehouse::addInputParameters(), MooseObjectUnitTest::buildObjects(), ActionFactory::create(), AppFactory::create(), InputParameters::getObjectName(), AutomaticMortarGeneration::initOutput(), InputParameters::isMooseBaseObject(), MooseMesh::prepare(), CouplingFunctorCheckAction::validParams(), and MooseBase::validParams().

◆ type_param

const std::string MooseBase::type_param = "_type"

staticinherited

The name of the parameter that contains the object type.

Definition at line 53 of file MooseBase.h.

Referenced by ActionFactory::create(), AppFactory::create(), InputParameters::getObjectType(), Factory::initialize(), InputParameters::isMooseBaseObject(), MooseBase::validParams(), and MortarNodalGeometryOutput::validParams().

◆ unique_name_param

const std::string MooseBase::unique_name_param = "_unique_name"

staticinherited

The name of the parameter that contains the unique object name.

Definition at line 57 of file MooseBase.h.

Referenced by InputParameterWarehouse::addInputParameters(), AppFactory::create(), InputParameterWarehouse::removeInputParameters(), MooseBase::uniqueName(), and MooseBase::validParams().

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

include/timesteppers/SolutionTimeAdaptiveDT.h
src/timesteppers/SolutionTimeAdaptiveDT.C

Public Types

Public Member Functions

Static Public Member Functions

Public Attributes

Static Public Attributes

Protected Member Functions

Protected Attributes

Detailed Description

Member Typedef Documentation

◆ DataFileParameterType

Constructor & Destructor Documentation

◆ SolutionTimeAdaptiveDT()

◆ ~SolutionTimeAdaptiveDT()

Member Function Documentation

◆ acceptStep()

◆ adCoupledScalarDot()

◆ adCoupledScalarValue()

◆ addSyncTime() [1/2]

◆ addSyncTime() [2/2]

◆ callMooseError() [1/2]

◆ callMooseError() [2/2]

◆ computeDT()

◆ computeFailedDT()

◆ computeInitialDT()

◆ computeStep()

◆ connectControllableParams()

◆ constrainStep()

◆ converged()

◆ coupledGenericScalarValue() [1/3]

◆ coupledGenericScalarValue() [2/3]

◆ coupledGenericScalarValue() [3/3]

◆ coupledMatrixTagScalarValue()

◆ coupledScalar()

◆ coupledScalarComponents()

◆ coupledScalarDot()

◆ coupledScalarDotDot()

◆ coupledScalarDotDotDu()

◆ coupledScalarDotDotOld()

◆ coupledScalarDotDu()

◆ coupledScalarDotOld()

◆ coupledScalarOrder()

◆ coupledScalarValue()

◆ coupledScalarValueOld()

◆ coupledScalarValueOlder()

◆ coupledVectorTagScalarValue()

◆ declareManagedRestartableDataWithContext()

◆ declareRecoverableData()

◆ declareRestartableData()

◆ declareRestartableDataWithContext()

◆ declareRestartableDataWithObjectName()

◆ declareRestartableDataWithObjectNameWithContext()

◆ enabled()

◆ errorPrefix()

◆ forceNumSteps()

◆ forceTimeStep()

◆ getBase()

◆ getCheckedPointerParam()

◆ getCoupledMooseScalarVars()

◆ getCurrentDT()

◆ getDataFileName()

◆ getDataFileNameByName()

◆ getDataFilePath()

◆ getHitNode()

◆ getMooseApp()

◆ getParam() [1/2]

◆ getParam() [2/2]

◆ getRenamedParam()

◆ getRestartableData()

◆ getScalarVar()

◆ getScalarVariableCoupleableMatrixTags()

◆ getScalarVariableCoupleableVectorTags()

◆ getSharedPtr() [1/2]

◆ getSharedPtr() [2/2]

◆ hasBase()

◆ init()

◆ isCoupledScalar()

◆ isParamSetByUser()

◆ isParamValid()

◆ messagePrefix()

◆ mooseDeprecated()