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OversampleOutput Class Reference

Based class for providing re-positioning and oversampling support to output objects. More...

#include <OversampleOutput.h>

Inheritance diagram for OversampleOutput:
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Public Member Functions

 OversampleOutput (const InputParameters &parameters)
 
virtual ~OversampleOutput ()
 
virtual void initialSetup () override
 Call init() method on setup. More...
 
virtual void meshChanged () override
 Called on this object when the mesh changes. More...
 
virtual void outputStep (const ExecFlagType &type) override
 A single call to this function should output all the necessary data for a single timestep. More...
 
virtual bool hasOutput ()
 Returns true if any of the other has methods return true. More...
 
bool hasOutput (const ExecFlagType &type)
 Tests that any output exist for the given output type. More...
 
bool hasNodalVariableOutput ()
 Returns true if there exists nodal nonlinear variables for output. More...
 
const std::set< std::string > & getNodalVariableOutput ()
 The list of nodal nonlinear variables names that are set for output. More...
 
bool hasElementalVariableOutput ()
 Returns true if there exists elemental nonlinear variables for output. More...
 
const std::set< std::string > & getElementalVariableOutput ()
 The list of elemental nonlinear variables names that are set for output. More...
 
bool hasScalarOutput ()
 Returns true if there exists scalar variables for output. More...
 
const std::set< std::string > & getScalarOutput ()
 The list of scalar variables names that are set for output. More...
 
bool hasPostprocessorOutput ()
 Returns true if there exists postprocessors for output. More...
 
const std::set< std::string > & getPostprocessorOutput ()
 The list of postprocessor names that are set for output. More...
 
bool hasVectorPostprocessorOutput ()
 Returns true if there exists VectorPostprocessors for output. More...
 
const std::set< std::string > & getVectorPostprocessorOutput ()
 The list of VectorPostprocessor names that are set for output. More...
 
bool hasReporterOutput ()
 Returns true if there exists Reporter for output. More...
 
const std::set< std::string > & getReporterOutput ()
 The list of Reporter names that are set for output. More...
 
const OutputOnWarehouseadvancedExecuteOn () const
 Get the current advanced 'execute_on' selections for display. More...
 
virtual std::string filename ()
 The filename for the output file. More...
 
void setFileBase (const std::string &file_base)
 Sets the file base string if the 'file_base' parameter is not set. More...
 
void setFileNumber (unsigned int num)
 Sets the file number manually. More...
 
unsigned int getFileNumber ()
 Return the current file number for this outputter. More...
 
virtual Real time () override
 Get the output time. More...
 
virtual Real timeOld ()
 Get the old output time. More...
 
virtual Real dt ()
 Get the current time step size. More...
 
virtual Real dtOld ()
 Get old time step size. More...
 
virtual int timeStep ()
 Get the current time step. More...
 
const unsigned intinterval () const
 Get the output interval. More...
 
const MultiMooseEnumexecuteOn () const
 Get the current 'execute_on' selections for display. More...
 
bool isAdvanced ()
 Returns true if this object is an AdvancedOutput object. More...
 
void allowOutput (bool state)
 Method for controlling the allow output state. More...
 
const std::set< Real > & getSyncTimes ()
 
virtual bool enabled () const
 Return the enabled status of the object. More...
 
MooseAppgetMooseApp () const
 Get the MooseApp this class is associated with. More...
 
const std::string & type () const
 Get the type of this class. More...
 
virtual const std::string & name () const
 Get the name of the class. More...
 
std::string typeAndName () const
 Get the class's combined type and name; useful in error handling. More...
 
MooseObjectParameterName uniqueParameterName (const std::string &parameter_name) const
 The unique parameter name of a valid parameter of this object for accessing parameter controls. More...
 
const InputParametersparameters () const
 Get the parameters of the object. More...
 
MooseObjectName uniqueName () const
 The unique name for accessing input parameters of this object in the InputParameterWarehouse. More...
 
template<typename T >
const T & getParam (const std::string &name) const
 Retrieve a parameter for the object. More...
 
template<typename T1 , typename T2 >
std::vector< std::pair< T1, T2 > > getParam (const std::string &param1, const std::string &param2) const
 Retrieve two parameters and provide pair of parameters for the object. More...
 
template<typename T >
const T & getRenamedParam (const std::string &old_name, const std::string &new_name) const
 Retrieve a renamed parameter for the object. More...
 
template<typename T >
getCheckedPointerParam (const std::string &name, const std::string &error_string="") const
 Verifies that the requested parameter exists and is not NULL and returns it to the caller. More...
 
bool isParamValid (const std::string &name) const
 Test if the supplied parameter is valid. More...
 
bool isParamSetByUser (const std::string &nm) const
 Test if the supplied parameter is set by a user, as opposed to not set or set to default. More...
 
template<typename... Args>
void paramError (const std::string &param, Args... args) const
 Emits an error prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message. More...
 
template<typename... Args>
void paramWarning (const std::string &param, Args... args) const
 Emits a warning prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message. More...
 
template<typename... Args>
void paramInfo (const std::string &param, Args... args) const
 Emits an informational message prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message. More...
 
std::string objectErrorPrefix (const std::string &error_type) const
 A descriptive prefix for errors for an object. More...
 
void connectControllableParams (const std::string &parameter, const std::string &object_type, const std::string &object_name, const std::string &object_parameter) const
 Connect controllable parameter of this action with the controllable parameters of the objects added by this action. More...
 
template<typename... Args>
void mooseError (Args &&... args) const
 Emits an error prefixed with object name and type. More...
 
template<typename... Args>
void mooseErrorNonPrefixed (Args &&... args) const
 Emits an error without the prefixing included in mooseError(). More...
 
template<typename... Args>
void 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
 
std::string errorPrefix (const std::string &error_type) const
 A descriptive prefix for errors for this object: 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
 Returns the path of a data file for a given FileName type parameter, searching (in the following order) More...
 
std::string getDataFileNameByName (const std::string &name, const std::string *param=nullptr) const
 Returns the path of a data file for a given relative file path. More...
 
virtual void timestepSetup ()
 Gets called at the beginning of the timestep before this object is asked to do its job. More...
 
virtual void jacobianSetup ()
 Gets called just before the Jacobian is computed and before this object is asked to do its job. More...
 
virtual void residualSetup ()
 Gets called just before the residual is computed and before this object is asked to do its job. More...
 
virtual void subdomainSetup ()
 Gets called when the subdomain changes (i.e. More...
 
virtual void customSetup (const ExecFlagType &)
 Gets called in FEProblemBase::execute() for execute flags other than initial, timestep_begin, nonlinear, linear and subdomain. More...
 
const ExecFlagEnumgetExecuteOnEnum () const
 Return the execute on MultiMooseEnum for this object. More...
 
const FunctiongetFunction (const std::string &name) const
 Get a function with a given name. More...
 
const FunctiongetFunctionByName (const FunctionName &name) const
 Get a function with a given name. More...
 
bool hasFunction (const std::string &param_name) const
 Determine if the function exists. More...
 
bool hasFunctionByName (const FunctionName &name) const
 Determine if the function exists. More...
 
bool isDefaultPostprocessorValue (const std::string &param_name, const unsigned int index=0) const
 Determine whether or not the Postprocessor is a default value. More...
 
bool hasPostprocessor (const std::string &param_name, const unsigned int index=0) const
 Determine if the Postprocessor data exists. More...
 
bool hasPostprocessorByName (const PostprocessorName &name) const
 Determine if the Postprocessor data exists. More...
 
std::size_t coupledPostprocessors (const std::string &param_name) const
 Returns number of Postprocessors coupled under parameter name. More...
 
const PostprocessorName & getPostprocessorName (const std::string &param_name, const unsigned int index=0) const
 Get the name of a postprocessor. More...
 
const VectorPostprocessorValuegetVectorPostprocessorValue (const std::string &param_name, const std::string &vector_name) const
 DEPRECATED: Use the new version where you need to specify whether or not the vector must be broadcast. More...
 
const VectorPostprocessorValuegetVectorPostprocessorValue (const std::string &param_name, const std::string &vector_name, bool needs_broadcast) const
 Retrieve the value of a VectorPostprocessor. More...
 
const VectorPostprocessorValuegetVectorPostprocessorValueByName (const VectorPostprocessorName &name, const std::string &vector_name) const
 DEPRECATED: Use the new version where you need to specify whether or not the vector must be broadcast. More...
 
const VectorPostprocessorValuegetVectorPostprocessorValueByName (const VectorPostprocessorName &name, const std::string &vector_name, bool needs_broadcast) const
 Retrieve the value of the VectorPostprocessor. More...
 
const VectorPostprocessorValuegetVectorPostprocessorValueOld (const std::string &param_name, const std::string &vector_name) const
 DEPRECATED: Use the new version where you need to specify whether or not the vector must be broadcast. More...
 
const VectorPostprocessorValuegetVectorPostprocessorValueOld (const std::string &param_name, const std::string &vector_name, bool needs_broadcast) const
 Retrieve the old value of a VectorPostprocessor. More...
 
const VectorPostprocessorValuegetVectorPostprocessorValueOldByName (const VectorPostprocessorName &name, const std::string &vector_name) const
 DEPRECATED: Use the new version where you need to specify whether or not the vector must be broadcast. More...
 
const VectorPostprocessorValuegetVectorPostprocessorValueOldByName (const VectorPostprocessorName &name, const std::string &vector_name, bool needs_broadcast) const
 Retrieve the old value of a VectorPostprocessor. More...
 
const ScatterVectorPostprocessorValuegetScatterVectorPostprocessorValue (const std::string &param_name, const std::string &vector_name) const
 Return the scatter value for the post processor. More...
 
const ScatterVectorPostprocessorValuegetScatterVectorPostprocessorValueByName (const VectorPostprocessorName &name, const std::string &vector_name) const
 Return the scatter value for the post processor. More...
 
const ScatterVectorPostprocessorValuegetScatterVectorPostprocessorValueOld (const std::string &param_name, const std::string &vector_name) const
 Return the old scatter value for the post processor. More...
 
const ScatterVectorPostprocessorValuegetScatterVectorPostprocessorValueOldByName (const VectorPostprocessorName &name, const std::string &vector_name) const
 Return the old scatter value for the post processor. More...
 
bool hasVectorPostprocessor (const std::string &param_name, const std::string &vector_name) const
 Determine if the VectorPostprocessor data exists by parameter. More...
 
bool hasVectorPostprocessor (const std::string &param_name) const
 Determine if the VectorPostprocessor exists by parameter. More...
 
bool hasVectorPostprocessorByName (const VectorPostprocessorName &name, const std::string &vector_name) const
 Determine if the VectorPostprocessor data exists by name. More...
 
bool hasVectorPostprocessorByName (const VectorPostprocessorName &name) const
 Determine if the VectorPostprocessor exists by name. More...
 
const VectorPostprocessorName & getVectorPostprocessorName (const std::string &param_name) const
 Get the name of a VectorPostprocessor associated with a parameter. More...
 
PerfGraphperfGraph ()
 Get the PerfGraph. More...
 
const PostprocessorValuegetPostprocessorValue (const std::string &param_name, const unsigned int index=0) const
 doco-normal-methods-begin Retrieve the value of a Postprocessor or one of it's old or older values More...
 
const PostprocessorValuegetPostprocessorValueOld (const std::string &param_name, const unsigned int index=0) const
 
const PostprocessorValuegetPostprocessorValueOlder (const std::string &param_name, const unsigned int index=0) const
 
virtual const PostprocessorValuegetPostprocessorValueByName (const PostprocessorName &name) const
 Retrieve the value of the Postprocessor. More...
 
const PostprocessorValuegetPostprocessorValueOldByName (const PostprocessorName &name) const
 
const PostprocessorValuegetPostprocessorValueOlderByName (const PostprocessorName &name) const
 
bool isVectorPostprocessorDistributed (const std::string &param_name) const
 Return true if the VectorPostprocessor is marked with parallel_type as DISTRIBUTED. More...
 
bool isVectorPostprocessorDistributedByName (const VectorPostprocessorName &name) const
 

Static Public Member Functions

static InputParameters validParams ()
 
static InputParameters enableOutputTypes (const std::string &names=std::string())
 A method for enabling individual output type control. More...
 
static ExecFlagEnum getDefaultExecFlagEnum ()
 Return an ExecFlagEnum object with the available execution flags for Output objects. More...
 
static void addDeprecatedInputParameters (InputParameters &params)
 A static helper for injecting deprecated parameters. More...
 

Public Attributes

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

Protected Member Functions

virtual void updateOversample ()
 Performs the update of the solution vector for the oversample/re-positioned mesh. More...
 
virtual void setFileBaseInternal (const std::string &file_base) override
 Appends the base class's file base string. More...
 
virtual void init ()
 Populates the various data structures needed to control the output. More...
 
virtual bool shouldOutput ()
 Handles logic for determining if a step should be output. More...
 
virtual void output ()
 A single call to this function should output all the necessary data for a single timestep. More...
 
virtual void outputNodalVariables ()
 Performs output of nodal nonlinear variables The child class must define this method to output the nonlinear variables as desired. More...
 
virtual void outputElementalVariables ()
 Performs output of elemental nonlinear variables The child class must define this method to output the nonlinear variables as desired. More...
 
virtual void outputScalarVariables ()
 Performs output of scalar variables The child class must define this method to output the scalar variables as desired. More...
 
virtual void outputPostprocessors ()
 Performs output of postprocessors The child class must define this method to output the postprocessors as desired. More...
 
virtual void outputVectorPostprocessors ()
 Performs output of VectorPostprocessors The child class must define this method to output the VectorPostprocessors as desired. More...
 
virtual void outputInput ()
 Performs the output of the input file By default this method does nothing and is not called, the individual Output objects are responsible for calling it. More...
 
virtual void outputSystemInformation ()
 
virtual void outputReporters ()
 Output Reporter values. More...
 
bool checkFilename ()
 Checks the filename for output Checks the output against the 'output_if_base_contians' list. More...
 
bool inNonlinearTimeWindow ()
 
bool inLinearTimeWindow ()
 
virtual Real getOutputTime ()
 Get the time that will be used for stream/file outputting. More...
 
virtual bool onInterval ()
 Returns true if the output interval is satisfied. More...
 
void setWallTimeIntervalFromCommandLineParam ()
 Function to set the wall time interval based on value of command line parameter (used for testing only). 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...
 
virtual void addPostprocessorDependencyHelper (const PostprocessorName &) const
 Helper for deriving classes to override to add dependencies when a Postprocessor is requested. More...
 
virtual void addVectorPostprocessorDependencyHelper (const VectorPostprocessorName &) const
 Helper for deriving classes to override to add dependencies when a VectorPostprocessor is requested. More...
 
const ReporterNamegetReporterName (const std::string &param_name) const
 
virtual void addReporterDependencyHelper (const ReporterName &)
 A method that can be overridden to update the UO dependencies. More...
 
PerfID registerTimedSection (const std::string &section_name, const unsigned int level) const
 Call to register a named section for timing. More...
 
PerfID registerTimedSection (const std::string &section_name, const unsigned int level, const std::string &live_message, const bool print_dots=true) const
 Call to register a named section for timing. More...
 
std::string timedSectionName (const std::string &section_name) const
 
template<typename T >
const T & getReporterValue (const std::string &param_name, const std::size_t time_index=0)
 doco-normal-methods-begin Returns read-only reference to a Reporter value that is provided by an input parameter. More...
 
template<typename T >
const T & getReporterValue (const std::string &param_name, ReporterMode mode, const std::size_t time_index=0)
 
template<typename T >
const T & getReporterValueByName (const ReporterName &reporter_name, const std::size_t time_index=0)
 Returns read-only reference to a Reporter value that is provided by name directly. More...
 
template<typename T >
const T & getReporterValueByName (const ReporterName &reporter_name, ReporterMode mode, const std::size_t time_index=0)
 
bool hasReporterValue (const std::string &param_name) const
 Return True if the Reporter value exists. More...
 
template<typename T >
bool hasReporterValue (const std::string &param_name) const
 
bool hasReporterValueByName (const ReporterName &reporter_name) const
 
template<typename T >
bool hasReporterValueByName (const ReporterName &reporter_name) const
 

Static Protected Member Functions

static PetscErrorCode petscNonlinearOutput (SNES, PetscInt its, PetscReal fnorm, void *void_ptr)
 Performs the output on non-linear iterations This is the monitor method that PETSc will call on non-linear iterations. More...
 
static PetscErrorCode petscLinearOutput (KSP, PetscInt its, PetscReal fnorm, void *void_ptr)
 Performs the output onlinear iterations This is the monitor method that PETSc will call on linear iterations. More...
 

Protected Attributes

const unsigned int _refinements
 The number of oversampling refinements. More...
 
bool _oversample
 Flag indicating that oversampling is enabled. More...
 
bool _change_position
 Flag for re-positioning. More...
 
bool _elemental_as_nodal
 Flags to control nodal output. More...
 
bool _scalar_as_nodal
 
const ReporterData_reporter_data
 Storage for Reporter values. More...
 
unsigned int_file_num
 A file number counter, initialized to 0 (this must be controlled by the child class, see Exodus) More...
 
unsigned int _padding
 Number of digits to pad the extensions. More...
 
std::vector< std::string > _output_if_base_contains
 Storage for 'output_if_base_contains'. More...
 
std::string _file_base
 The base filename from the input paramaters. More...
 
Real _norm
 Current norm returned from PETSc. More...
 
PetscInt _nonlinear_iter
 Current non-linear iteration returned from PETSc. More...
 
PetscInt _linear_iter
 Current linear iteration returned from PETSc. More...
 
bool _on_linear_residual
 True if current output calls is on the linear residual (used by time()) More...
 
bool _on_nonlinear_residual
 True if current output call is on the non-linear residual (used by time()) More...
 
FEProblemBase_problem_ptr
 Pointer the the FEProblemBase object for output object (use this) More...
 
bool _transient
 Transient flag (true = transient) More...
 
bool _use_displaced
 Flag for using displaced mesh. More...
 
EquationSystems * _es_ptr
 Reference the the libMesh::EquationSystems object that contains the data. More...
 
MooseMesh_mesh_ptr
 A convenience pointer to the current mesh (reference or displaced depending on "use_displaced") More...
 
bool _sequence
 Flag for forcing call to outputSetup() with every call to output() (restartable) More...
 
ExecFlagEnum _execute_on
 The common Execution types; this is used as the default execution type for everything except system information and input. More...
 
ExecFlagType _current_execute_flag
 Current execute on flag. More...
 
Real_time
 The current time for output purposes. More...
 
Real_time_old
 The old time. More...
 
int_t_step
 The current time step. More...
 
Real_dt
 Time step delta. More...
 
Real_dt_old
 Old time step delta. More...
 
unsigned int _num
 The number of outputs written. More...
 
const bool _time_step_interval_set_by_addparam
 Whether time step interval is set by AddParam. More...
 
unsigned int _time_step_interval
 The output time step interval. More...
 
const Real _min_simulation_time_interval
 Minimum simulation time between outputs. More...
 
const Real _simulation_time_interval
 Target simulation time between outputs. More...
 
Real _wall_time_interval
 Target wall time between outputs in seconds. More...
 
std::set< Real_sync_times
 Sync times for this outputter. More...
 
const Times *const _sync_times_object
 Sync times object for this outputter. More...
 
Real _start_time
 Start outputting time. More...
 
Real _end_time
 End outputting time. More...
 
int _start_step
 Start outputting at this time step. More...
 
int _end_step
 End outputting at this time step. More...
 
Real _t_tol
 Time checking tolerance. More...
 
bool _sync_only
 Flag for only executing at sync times. More...
 
bool _allow_output
 Flag for disabling output. More...
 
bool _is_advanced
 Flag for advanced output testing. More...
 
OutputOnWarehouse _advanced_execute_on
 Storage for the individual component execute flags. More...
 
Real_last_output_simulation_time
 last simulation time an output has occured More...
 
std::chrono::time_point< std::chrono::steady_clock > _last_output_wall_time
 last wall time an output has occured More...
 
Real _wall_time_since_last_output
 time in seconds since last output More...
 
const bool & _enabled
 Reference to the "enable" InputParameters, used by Controls for toggling on/off MooseObjects. More...
 
MooseApp_app
 The MOOSE application this is associated with. More...
 
const std::string & _type
 The type of this class. More...
 
const std::string & _name
 The name of this class, reference to value stored in InputParameters. More...
 
const InputParameters_pars
 Parameters of this object, references the InputParameters stored in the InputParametersWarehouse. More...
 
Factory_factory
 The Factory associated with the MooseApp. More...
 
ActionFactory_action_factory
 Builds Actions. More...
 
const Parallel::Communicator & _communicator
 
MooseApp_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_mci_feproblem
 Reference to FEProblemBase instance. More...
 
const ExecFlagEnum_execute_enum
 Execute settings for this object. More...
 
MooseApp_pg_moose_app
 The MooseApp that owns the PerfGraph. More...
 
const std::string _prefix
 A prefix to use for all sections. More...
 
PetscOutput_petsc_output
 

Private Member Functions

void initOversample ()
 Setups the output object to produce re-positioned and/or oversampled results. More...
 
void cloneMesh ()
 Clone mesh in preperation for re-positioning or oversampling. More...
 

Private Attributes

std::vector< std::vector< std::unique_ptr< MeshFunction > > > _mesh_functions
 A vector of pointers to the mesh functions This is only populated when the oversample() function is called, it must be cleaned up by the destructor. More...
 
Point _position
 When oversampling, the output is shift by this amount. More...
 
bool _oversample_mesh_changed
 A flag indicating that the mesh has changed and the oversampled mesh needs to be re-initialized. More...
 
std::unique_ptr< EquationSystems > _oversample_es
 
std::unique_ptr< MooseMesh_cloned_mesh_ptr
 
std::unique_ptr< NumericVector< Number > > _serialized_solution
 Oversample solution vector. More...
 

Detailed Description

Based class for providing re-positioning and oversampling support to output objects.

This class performs the actual oversampling calculations and makes the correct changes to the libMesh::EquationsSystems() pointer (_es_ptr), i.e., this pointer is will point to the oversampled system, if oversamping is utilized.

The use of oversampling is triggered by setting the oversample input parameter to a integer value greater than 0, indicating the number of refinements to perform.

See also
Exodus

Definition at line 37 of file OversampleOutput.h.

Constructor & Destructor Documentation

◆ OversampleOutput()

OversampleOutput::OversampleOutput ( const InputParameters parameters)

Definition at line 56 of file OversampleOutput.C.

58  _refinements(getParam<unsigned int>("refinements")),
59  _oversample(_refinements > 0 || isParamValid("file")),
60  _change_position(isParamValid("position")),
61  _position(_change_position ? getParam<Point>("position") : Point()),
63 {
64 }
bool _oversample_mesh_changed
A flag indicating that the mesh has changed and the oversampled mesh needs to be re-initialized.
AdvancedOutput(const InputParameters &parameters)
Class constructor.
Point _position
When oversampling, the output is shift by this amount.
bool isParamValid(const std::string &name) const
Test if the supplied parameter is valid.
bool _oversample
Flag indicating that oversampling is enabled.
const InputParameters & parameters() const
Get the parameters of the object.
const unsigned int _refinements
The number of oversampling refinements.
bool _change_position
Flag for re-positioning.

◆ ~OversampleOutput()

OversampleOutput::~OversampleOutput ( )
virtual

Definition at line 107 of file OversampleOutput.C.

108 {
109  // TODO: Remove once libmesh Issue #1184 is fixed
110  _oversample_es.reset();
111  _cloned_mesh_ptr.reset();
112 }
std::unique_ptr< EquationSystems > _oversample_es
std::unique_ptr< MooseMesh > _cloned_mesh_ptr

Member Function Documentation

◆ addDeprecatedInputParameters()

static void Output::addDeprecatedInputParameters ( InputParameters params)
staticinherited

A static helper for injecting deprecated parameters.

◆ addPostprocessorDependencyHelper()

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

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

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

Definition at line 141 of file PostprocessorInterface.h.

Referenced by PostprocessorInterface::getPostprocessorValueByNameInternal().

141 {}

◆ addReporterDependencyHelper()

virtual void ReporterInterface::addReporterDependencyHelper ( const ReporterName )
inlineprotectedvirtualinherited

A method that can be overridden to update the UO dependencies.

This is needed because the get methods for this interface cannot be virtual because of the template parameter. See GeneralUserObject for how it is utilized.

Reimplemented in UserObject.

Definition at line 97 of file ReporterInterface.h.

Referenced by ReporterInterface::getReporterValueByName().

97 {}

◆ addVectorPostprocessorDependencyHelper()

virtual void VectorPostprocessorInterface::addVectorPostprocessorDependencyHelper ( const VectorPostprocessorName &  ) const
inlineprotectedvirtualinherited

◆ advancedExecuteOn()

const OutputOnWarehouse & AdvancedOutput::advancedExecuteOn ( ) const
virtualinherited

Get the current advanced 'execute_on' selections for display.

Reimplemented from Output.

Definition at line 871 of file AdvancedOutput.C.

Referenced by CSV::initialSetup().

872 {
873  return _advanced_execute_on;
874 }
OutputOnWarehouse _advanced_execute_on
Storage for the individual component execute flags.
Definition: Output.h:274

◆ allowOutput()

void Output::allowOutput ( bool  state)
inlineinherited

Method for controlling the allow output state.

Parameters
stateThe state to set the allow flag to

Definition at line 129 of file Output.h.

129 { _allow_output = state; }
bool _allow_output
Flag for disabling output.
Definition: Output.h:265

◆ checkFilename()

bool FileOutput::checkFilename ( )
protectedinherited

Checks the filename for output Checks the output against the 'output_if_base_contians' list.

Returns
Returns true if the filename is valid for output

Definition at line 87 of file FileOutput.C.

Referenced by FileOutput::shouldOutput(), and AdvancedOutput::shouldOutput().

88 {
89  // Return true if 'output_if_base_contains' is not utilized
90  if (_output_if_base_contains.empty())
91  return true;
92 
93  // Assumed output is false
94  bool output = false;
95 
96  // Loop through each string in the list
97  for (const auto & search_string : _output_if_base_contains)
98  {
99  // Search for the string in the file base, if found set the output to true and break the loop
100  if (_file_base.find(search_string) != std::string::npos)
101  {
102  output = true;
103  break;
104  }
105  }
106 
107  // Return the value
108  return output;
109 }
std::string _file_base
The base filename from the input paramaters.
Definition: FileOutput.h:89
virtual void output()=0
Overload this function with the desired output activities.
std::vector< std::string > _output_if_base_contains
Storage for &#39;output_if_base_contains&#39;.
Definition: FileOutput.h:86

◆ cloneMesh()

void OversampleOutput::cloneMesh ( )
private

Clone mesh in preperation for re-positioning or oversampling.

This changes the pointer, _mesh_ptr, with a clone of the current mesh so that it may be modified to perform the necessary oversample/positioning actions

Definition at line 268 of file OversampleOutput.C.

Referenced by initOversample().

269 {
270  // Create the new mesh from a file
271  if (isParamValid("file"))
272  {
273  InputParameters mesh_params = emptyInputParameters();
274  mesh_params += _mesh_ptr->parameters();
275  mesh_params.set<MeshFileName>("file") = getParam<MeshFileName>("file");
276  mesh_params.set<bool>("nemesis") = false;
277  mesh_params.set<bool>("skip_partitioning") = false;
278  mesh_params.set<std::string>("_object_name") = "output_problem_mesh";
279  _cloned_mesh_ptr = std::make_unique<FileMesh>(mesh_params);
280  _cloned_mesh_ptr->allowRecovery(false); // We actually want to reread the initial mesh
281  _cloned_mesh_ptr->init();
282  _cloned_mesh_ptr->prepare(/*mesh_to_clone=*/nullptr);
283  _cloned_mesh_ptr->meshChanged();
284  }
285 
286  // Clone the existing mesh
287  else
288  {
289  if (_app.isRecovering())
290  mooseWarning("Recovering or Restarting with Oversampling may not work (especially with "
291  "adapted meshes)!! Refs #2295");
292 
294  }
295 
296  // Make sure that the mesh pointer points to the newly cloned mesh
297  _mesh_ptr = _cloned_mesh_ptr.get();
298 }
T & set(const std::string &name, bool quiet_mode=false)
Returns a writable reference to the named parameters.
The main MOOSE class responsible for handling user-defined parameters in almost every MOOSE system...
void mooseWarning(Args &&... args) const
Emits a warning prefixed with object name and type.
InputParameters emptyInputParameters()
bool isParamValid(const std::string &name) const
Test if the supplied parameter is valid.
MooseApp & _app
The MOOSE application this is associated with.
Definition: MooseBase.h:69
virtual std::unique_ptr< MooseMesh > safeClone() const =0
A safer version of the clone() method that hands back an allocated object wrapped in a smart pointer...
MooseMesh * _mesh_ptr
A convenience pointer to the current mesh (reference or displaced depending on "use_displaced") ...
Definition: Output.h:191
const InputParameters & parameters() const
Get the parameters of the object.
bool isRecovering() const
Whether or not this is a "recover" calculation.
Definition: MooseApp.C:1167
std::unique_ptr< MooseMesh > _cloned_mesh_ptr

◆ connectControllableParams()

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

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

Parameters
parameterName of the controllable parameter of this action
object_typeType of the object added by this action.
object_nameName of the object added by this action.
object_parameterName of the parameter of the object.

Definition at line 34 of file MooseBaseParameterInterface.C.

38 {
39  MooseObjectParameterName primary_name(uniqueName(), parameter);
40  const auto base_type = _factory.getValidParams(object_type).get<std::string>("_moose_base");
41  MooseObjectParameterName secondary_name(base_type, object_name, object_parameter);
43  primary_name, secondary_name);
44 
45  const auto & tags = _pars.get<std::vector<std::string>>("control_tags");
46  for (const auto & tag : tags)
47  {
48  if (!tag.empty())
49  {
50  MooseObjectParameterName tagged_name(tag, _moose_base->name(), parameter);
52  tagged_name, secondary_name);
53  }
54  }
55 }
void addControllableParameterConnection(const MooseObjectParameterName &primary, const MooseObjectParameterName &secondary, bool error_on_empty=true)
Method for linking control parameters of different names.
std::vector< std::pair< R1, R2 > > get(const std::string &param1, const std::string &param2) const
Combine two vector parameters into a single vector of pairs.
InputParameterWarehouse & getInputParameterWarehouse()
Get the InputParameterWarehouse for MooseObjects.
Definition: MooseApp.C:2224
InputParameters getValidParams(const std::string &name) const
Get valid parameters for the object.
Definition: Factory.C:67
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
MooseApp & getMooseApp() const
Get the MooseApp this class is associated with.
Definition: MooseBase.h:44
Factory & _factory
The Factory associated with the MooseApp.
MooseObjectName uniqueName() const
The unique name for accessing input parameters of this object in the InputParameterWarehouse.
const MooseBase *const _moose_base
The MooseBase object that inherits this class.
const InputParameters & _pars
Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.
A class for storing an input parameter name.

◆ coupledPostprocessors()

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

Returns number of Postprocessors coupled under parameter name.

Parameters
param_nameThe name of the Postprocessor parameter
Returns
Number of coupled post-processors, 1 if it's a single

Definition at line 129 of file PostprocessorInterface.C.

Referenced by FunctionValuePostprocessor::FunctionValuePostprocessor().

130 {
131  checkParam(param_name);
132 
133  if (_ppi_params.isType<PostprocessorName>(param_name))
134  return 1;
135  return _ppi_params.get<std::vector<PostprocessorName>>(param_name).size();
136 }
std::vector< std::pair< R1, R2 > > get(const std::string &param1, const std::string &param2) const
Combine two vector parameters into a single vector of pairs.
void checkParam(const std::string &param_name, const unsigned int index=std::numeric_limits< unsigned int >::max()) const
Checks the parameters relating to a Postprocessor.
bool isType(const std::string &name) const
const InputParameters & _ppi_params
PostprocessorInterface Parameters.

◆ customSetup()

virtual void SetupInterface::customSetup ( const ExecFlagType )
inlinevirtualinherited

Gets called in FEProblemBase::execute() for execute flags other than initial, timestep_begin, nonlinear, linear and subdomain.

Reimplemented in Function.

Definition at line 61 of file SetupInterface.h.

61 {}

◆ 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.

279 {
280  auto & data_ptr =
281  declareRestartableDataHelper<T>(data_name, context, std::forward<Args>(args)...);
282  return Restartable::ManagedValue<T>(data_ptr);
283 }
Wrapper class for restartable data that is "managed.
Definition: Restartable.h:42

◆ 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_nameThe name of the data (usually just use the same name as the member variable)
argsArguments to forward to the constructor of the data

Definition at line 351 of file Restartable.h.

352 {
353  const auto full_name = restartableName(data_name);
354 
356 
357  return declareRestartableDataWithContext<T>(data_name, nullptr, std::forward<Args>(args)...);
358 }
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 nam...
Definition: Restartable.C:66
void registerRestartableNameWithFilterOnApp(const std::string &name, Moose::RESTARTABLE_FILTER filter)
Helper function for actually registering the restartable data.
Definition: Restartable.C:59

◆ 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_nameThe name of the data (usually just use the same name as the member variable)
argsArguments to forward to the constructor of the data

Definition at line 269 of file Restartable.h.

270 {
271  return declareRestartableDataWithContext<T>(data_name, nullptr, std::forward<Args>(args)...);
272 }

◆ 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_nameThe name of the data (usually just use the same name as the member variable)
contextContext pointer that will be passed to the load and store functions
argsArguments to forward to the constructor of the data

Definition at line 294 of file Restartable.h.

297 {
298  return declareRestartableDataHelper<T>(data_name, context, std::forward<Args>(args)...).set();
299 }

◆ 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_nameThe name of the data (usually just use the same name as the member variable)
object_nameA supplied name for the object that is declaring this data.
argsArguments to forward to the constructor of the data

Definition at line 323 of file Restartable.h.

326 {
327  return declareRestartableDataWithObjectNameWithContext<T>(
328  data_name, object_name, nullptr, std::forward<Args>(args)...);
329 }

◆ 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_nameThe name of the data (usually just use the same name as the member variable)
object_nameA supplied name for the object that is declaring this data.
contextContext pointer that will be passed to the load and store functions
argsArguments to forward to the constructor of the data

Definition at line 333 of file Restartable.h.

337 {
338  std::string old_name = _restartable_name;
339 
340  _restartable_name = object_name;
341 
342  T & value = declareRestartableDataWithContext<T>(data_name, context, std::forward<Args>(args)...);
343 
344  _restartable_name = old_name;
345 
346  return value;
347 }
std::string _restartable_name
The name of the object.
Definition: Restartable.h:243
Real value(unsigned n, unsigned alpha, unsigned beta, Real x)

◆ dt()

Real Output::dt ( )
virtualinherited

Get the current time step size.

Definition at line 369 of file Output.C.

Referenced by Console::writeTimestepInformation().

370 {
371  if (_transient)
372  return _dt;
373  else
374  return 1;
375 }
bool _transient
Transient flag (true = transient)
Definition: Output.h:182
Real & _dt
Time step delta.
Definition: Output.h:217

◆ dtOld()

Real Output::dtOld ( )
virtualinherited

Get old time step size.

Definition at line 378 of file Output.C.

379 {
380  if (_transient)
381  return _dt_old;
382  else
383  return 1;
384 }
Real & _dt_old
Old time step delta.
Definition: Output.h:220
bool _transient
Transient flag (true = transient)
Definition: Output.h:182

◆ enabled()

virtual bool MooseObject::enabled ( ) const
inlinevirtualinherited

Return the enabled status of the object.

Reimplemented in EigenKernel.

Definition at line 49 of file MooseObject.h.

Referenced by EigenKernel::enabled().

49 { return _enabled; }
const bool & _enabled
Reference to the "enable" InputParameters, used by Controls for toggling on/off MooseObjects.
Definition: MooseObject.h:53

◆ enableOutputTypes()

InputParameters AdvancedOutput::enableOutputTypes ( const std::string &  names = std::string())
staticinherited

A method for enabling individual output type control.

Parameters
names(optional) Space separated of output type names that are supported by this Output object, if this is omitted all outputs types will be supported. The list of available output types is given below.

Output objects vary widely in what type of outputs they support (e.g., elemental variables, or postprocessor data). This method provides the user a means for controlling the types of outputs that are supported for the object being created. This is a static method that MUST be used to append parameters inside the objects validParams function.

List of Output Types and Method Names The output system is designed around overloading virtual method calls to output the various output types, the following list gives the name of the output type and the associated virtual method that should be overloaded to perform the output in the object being created.

Type virtual Method Name


nodal outputNodalVariables() elemental outputElementalVariables() scalar outputScalarVariables() postprocessor outputPostprocessors() vector_postprocessor outputVectorPostprocessors() input outputInput() system_information outputSystemInformation()

See also
CSV Exodus

Definition at line 113 of file AdvancedOutput.C.

Referenced by JSONOutput::validParams(), XMLOutput::validParams(), Console::validParams(), Nemesis::validParams(), Exodus::validParams(), and TableOutput::validParams().

114 {
115  // The parameters object that will be returned
117 
118  // Get the MultiEnum of output types
119  MultiMooseEnum output_types = getOutputTypes();
120 
121  // Update the enum of output types to append
122  if (names.empty())
123  output_types = output_types.getRawNames();
124  else
125  output_types = names;
126 
127  // Add the parameters and return them
128  addValidParams(params, output_types);
129  return params;
130 }
The main MOOSE class responsible for handling user-defined parameters in almost every MOOSE system...
std::string getRawNames() const
Method for returning the raw name strings for this instance.
InputParameters emptyInputParameters()
static void addValidParams(InputParameters &params, const MultiMooseEnum &types)
Method for defining the available parameters based on the types of outputs.
static MultiMooseEnum getOutputTypes()
Get the supported types of output (e.g., postprocessors, etc.)
This is a "smart" enum class intended to replace many of the shortcomings in the C++ enum type It sho...

◆ errorPrefix()

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

A descriptive prefix for errors for this object:

The following <error_type> occurred in the object "<name>", of type "<type>".

Definition at line 15 of file MooseBaseErrorInterface.C.

Referenced by MooseBaseErrorInterface::mooseError(), and MooseBaseErrorInterface::mooseWarning().

16 {
17  std::stringstream oss;
18  oss << "The following " << error_type << " occurred in the object \"" << _moose_base->name()
19  << "\", of type \"" << _moose_base->type() << "\".\n\n";
20  return oss.str();
21 }
const MooseBase *const _moose_base
The MooseBase class deriving from this interface.
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
const std::string & type() const
Get the type of this class.
Definition: MooseBase.h:50

◆ executeOn()

const MultiMooseEnum & Output::executeOn ( ) const
inherited

Get the current 'execute_on' selections for display.

Definition at line 393 of file Output.C.

394 {
395  return _execute_on;
396 }
ExecFlagEnum _execute_on
The common Execution types; this is used as the default execution type for everything except system i...
Definition: Output.h:197

◆ filename()

std::string FileOutput::filename ( )
virtualinherited

The filename for the output file.

Returns
A string of output file including the extension, by default this returns _file_base

Reimplemented in Exodus, Checkpoint, Nemesis, Console, CSV, Gnuplot, SolutionHistory, GMVOutput, Tecplot, XDA, VTKOutput, DOFMapOutput, JSONOutput, and XMLOutput.

Definition at line 112 of file FileOutput.C.

Referenced by OutputWarehouse::resetFileBase().

113 {
114  return _file_base;
115 }
std::string _file_base
The base filename from the input paramaters.
Definition: FileOutput.h:89

◆ getCheckedPointerParam()

template<typename T >
T MooseBaseParameterInterface::getCheckedPointerParam ( const std::string &  name,
const std::string &  error_string = "" 
) const
inherited

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

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

Definition at line 274 of file MooseBaseParameterInterface.h.

276 {
277  return parameters().getCheckedPointerParam<T>(name, error_string);
278 }
std::string name(const ElemQuality q)
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...
const InputParameters & parameters() const
Get the parameters of the object.

◆ getDataFileName()

std::string DataFileInterface< MooseObject >::getDataFileName ( const std::string &  param) const
inherited

Returns the path of a data file for a given FileName type parameter, searching (in the following order)

  • relative to the input file directory
  • relative to the running binary (assuming the application is installed)
  • relative to all registered data file directories
  • relative to the input file directory

Definition at line 22 of file DataFileInterface.C.

23 {
25  {
26  const auto & absolute_path = _parent.template getParam<FileName>(param);
27  if (MooseUtils::checkFileReadable(absolute_path, false, false, false))
28  {
29  _parent.paramInfo(param, "Data file '", absolute_path, "' found relative to the input file.");
30  return absolute_path;
31  }
32  }
33 
34  const auto & relative_path = _parent.parameters().rawParamVal(param);
35  return getDataFileNameByName(relative_path, &param);
36 }
std::string getDataFileNameByName(const std::string &name, const std::string *param=nullptr) const
Returns the path of a data file for a given relative file path.
std::string & rawParamVal(const std::string &param)
Get/set a string representing the raw, unmodified token text for the given param. ...
bool checkFileReadable(const std::string &filename, bool check_line_endings=false, bool throw_on_unreadable=true, bool check_for_git_lfs_pointer=true)
Checks to see if a file is readable (exists and permissions)
Definition: MooseUtils.C:253
const InputParameters & parameters() const
Get the parameters of the object.
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 in...

◆ getDataFileNameByName()

std::string DataFileInterface< MooseObject >::getDataFileNameByName ( const std::string &  name,
const std::string *  param = nullptr 
) 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. The optional param pointer can be used to turn the mooseErrors this function emits into paramErrors

  • relative to the running binary (assuming the application is installed)
  • relative to all registered data file directories

Definition at line 40 of file DataFileInterface.C.

42 {
44  const auto share_dir = MooseUtils::pathjoin(Moose::getExecutablePath(), "..", "share");
45  if (MooseUtils::pathIsDirectory(share_dir))
46  {
47  const auto dirs = MooseUtils::listDir(share_dir, false);
48  for (const auto & data_dir : dirs)
49  {
50  const auto path = MooseUtils::pathjoin(data_dir, "data", relative_path);
51  if (MooseUtils::checkFileReadable(path, false, false, false))
52  {
53  if (param)
55  *param, "Data file '", path, "' found in an installed app distribution.");
56  else
57  mooseInfo("Data file '", path, "' found in an installed app distribution.");
58  return path;
59  }
60  }
61  }
62 
64  for (const auto & data_dir : Registry::getRegistry().getDataFilePaths())
65  {
66  const auto path = MooseUtils::pathjoin(data_dir, relative_path);
67  if (MooseUtils::checkFileReadable(path, false, false, false))
68  {
69  if (param)
70  _parent.paramInfo(*param, "Data file '", path, "' found in a source repository.");
71  else
72  mooseInfo("Data file '", path, "' found in a source repository.");
73  return path;
74  }
75  }
76 
77  mooseException(param ? _parent.parameters().inputLocation(*param) : _parent.name(),
78  ": Unable to find data file '",
79  relative_path,
80  "' anywhere");
81 }
static Registry & getRegistry()
Get the global Registry singleton.
Definition: Registry.C:21
std::string getExecutablePath()
This function returns the PATH of the running executable.
bool pathIsDirectory(const std::string &path)
Definition: MooseUtils.C:247
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
void mooseInfo(Args &&... args)
Emit an informational message with the given stringified, concatenated args.
Definition: MooseError.h:329
const std::string & inputLocation(const std::string &param) const
Get/set a string representing the location in the input text the parameter originated from (i...
bool checkFileReadable(const std::string &filename, bool check_line_endings=false, bool throw_on_unreadable=true, bool check_for_git_lfs_pointer=true)
Checks to see if a file is readable (exists and permissions)
Definition: MooseUtils.C:253
std::filesystem::path pathjoin(const std::filesystem::path &p)
Definition: MooseUtils.C:58
std::list< std::string > listDir(const std::string path, bool files_only=false)
Definition: MooseUtils.C:765
const InputParameters & parameters() const
Get the parameters of the object.
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 in...

◆ getDefaultExecFlagEnum()

ExecFlagEnum Output::getDefaultExecFlagEnum ( )
staticinherited

Return an ExecFlagEnum object with the available execution flags for Output objects.

Definition at line 113 of file Output.C.

Referenced by CommonOutputAction::validParams(), and Output::validParams().

114 {
116  exec_enum.addAvailableFlags(EXEC_FAILED);
117  return exec_enum;
118 }
const ExecFlagType EXEC_FAILED
Definition: Moose.C:40
A MultiMooseEnum object to hold "execute_on" flags.
Definition: ExecFlagEnum.h:21
void addAvailableFlags(const ExecFlagType &flag, Args... flags)
Add additional execute_on flags to the list of possible flags.
Definition: ExecFlagEnum.h:82
ExecFlagEnum getDefaultExecFlagEnum()
Return the default ExecFlagEnum for MOOSE.
Definition: MooseUtils.C:1053

◆ getElementalVariableOutput()

const std::set< std::string > & AdvancedOutput::getElementalVariableOutput ( )
inherited

The list of elemental nonlinear variables names that are set for output.

Returns
A vector of strings containing the names of the nonlinear variables for output
See also
hasElementalVariableOutput

Definition at line 817 of file AdvancedOutput.C.

Referenced by Nemesis::output(), and Exodus::outputElementalVariables().

818 {
819  return _execute_data["elemental"].output;
820 }
OutputDataWarehouse _execute_data
Storage structures for the various output types.

◆ getExecuteOnEnum()

const ExecFlagEnum & SetupInterface::getExecuteOnEnum ( ) const
inherited

◆ getFileNumber()

unsigned int FileOutput::getFileNumber ( )
inherited

Return the current file number for this outputter.

This method was implemented for the MultiApp system, particularly when reseting an application and a new output file is desired after the reset.

Definition at line 176 of file FileOutput.C.

Referenced by OutputWarehouse::getFileNumbers().

177 {
178  return _file_num;
179 }
unsigned int & _file_num
A file number counter, initialized to 0 (this must be controlled by the child class, see Exodus)
Definition: FileOutput.h:80

◆ getFunction()

const Function & FunctionInterface::getFunction ( const std::string &  name) const
inherited

Get a function with a given name.

Parameters
nameThe name of the parameter key of the function to retrieve
Returns
The function with name associated with the parameter 'name'

Definition at line 30 of file FunctionInterface.C.

Referenced by FunctionDT::FunctionDT(), and Output::Output().

31 {
32  return _fni_feproblem.getFunction(_fni_params.get<FunctionName>(name), _fni_tid);
33 }
std::vector< std::pair< R1, R2 > > get(const std::string &param1, const std::string &param2) const
Combine two vector parameters into a single vector of pairs.
virtual Function & getFunction(const std::string &name, const THREAD_ID tid=0)
const THREAD_ID _fni_tid
Thread ID.
FEProblemBase & _fni_feproblem
Reference to FEProblemBase instance.
const InputParameters & _fni_params
Parameters of the object with this interface.

◆ getFunctionByName()

const Function & FunctionInterface::getFunctionByName ( const FunctionName &  name) const
inherited

◆ getMooseApp()

MooseApp& MooseBase::getMooseApp ( ) const
inlineinherited

◆ getNodalVariableOutput()

const std::set< std::string > & AdvancedOutput::getNodalVariableOutput ( )
inherited

The list of nodal nonlinear variables names that are set for output.

Returns
A vector of strings containing the names of the nodal nonlinear variables for output

Note: The list returned by this will contain the names of both elemental and nodal variable names if 'elemental_as_nodal = true' in the input file. The libMesh output system (EquationSystems::build_solution_vector) performs the correct action within the solution vector by setting the nodal values as the average of the values for each of the element that the node shares.

See also
hasNodalVariableOutput

Definition at line 805 of file AdvancedOutput.C.

Referenced by Nemesis::output(), and Exodus::outputNodalVariables().

806 {
807  return _execute_data["nodal"].output;
808 }
OutputDataWarehouse _execute_data
Storage structures for the various output types.

◆ getOutputTime()

Real PetscOutput::getOutputTime ( )
protectedvirtualinherited

Get the time that will be used for stream/file outputting.

This method is intended to override the output given by time() for cases that do not conform to the linear, nonlinear, time step pattern. For example, this can be used for optimization or fixed point iteration solves. If you override this method for your application, replace time() calls with getOutputTime() calls and ensure output consistency.

Definition at line 265 of file PetscOutput.C.

Referenced by Tecplot::output(), Nemesis::output(), Exodus::outputEmptyTimestep(), Exodus::outputNodalVariables(), TableOutput::outputPostprocessors(), TableOutput::outputReporter(), TableOutput::outputScalarVariables(), and Console::writeTimestepInformation().

266 {
267  return time();
268 }
virtual Real time() override
Get the output time.
Definition: PetscOutput.C:254

◆ getParam() [1/2]

template<typename T >
const T & MooseBaseParameterInterface::getParam ( const std::string &  name) const
inherited

Retrieve a parameter for the object.

Parameters
nameThe name of the parameter
Returns
The value of the parameter

Definition at line 210 of file MooseBaseParameterInterface.h.

Referenced by CreateDisplacedProblemAction::act(), AddPeriodicBCAction::act(), ADNodalKernel::ADNodalKernel(), ArrayParsedAux::ArrayParsedAux(), AddPeriodicBCAction::autoTranslationBoundaries(), BicubicSplineFunction::BicubicSplineFunction(), PiecewiseTabularBase::buildFromJSON(), PhysicsBase::checkVectorParamsNoOverlap(), PhysicsBase::checkVectorParamsSameLength(), FEProblemBase::createTagSolutions(), AccumulateReporter::declareLateValues(), DerivativeParsedMaterialTempl< is_ad >::DerivativeParsedMaterialTempl(), DynamicObjectRegistrationAction::DynamicObjectRegistrationAction(), EigenKernel::EigenKernel(), FEProblemBase::FEProblemBase(), FEProblemSolve::FEProblemSolve(), FiniteDifferencePreconditioner::FiniteDifferencePreconditioner(), FVInterfaceKernel::FVInterfaceKernel(), ExtraNodesetGenerator::generate(), FileMeshGenerator::generate(), BreakMeshByBlockGenerator::generate(), CoarsenBlockGenerator::generate(), GeneratedMeshGenerator::generate(), RefineBlockGenerator::generate(), RefineSidesetGenerator::generate(), SideSetsBetweenSubdomainsGenerator::generate(), BlockDeletionGenerator::generate(), MeshExtruderGenerator::generate(), ParsedGenerateSideset::generate(), GenericConstantRankTwoTensorTempl< is_ad >::GenericConstantRankTwoTensorTempl(), MooseApp::getCheckpointDirectories(), ExecutorInterface::getExecutor(), GhostingUserObject::GhostingUserObject(), TimeSequenceStepper::init(), IterationAdaptiveDT::init(), AdvancedOutput::init(), AttribThread::initFrom(), AttribSysNum::initFrom(), AttribResidualObject::initFrom(), AttribDisplaced::initFrom(), BlockRestrictable::initializeBlockRestrictable(), BoundaryRestrictable::initializeBoundaryRestrictable(), Console::initialSetup(), IterationAdaptiveDT::limitDTToPostprocessorValue(), MooseMesh::MooseMesh(), MooseVariableBase::MooseVariableBase(), NestedDivision::NestedDivision(), ConsoleUtils::outputExecutionInformation(), ParsedAux::ParsedAux(), ParsedCurveGenerator::ParsedCurveGenerator(), ParsedElementDeletionGenerator::ParsedElementDeletionGenerator(), ParsedGenerateSideset::ParsedGenerateSideset(), ParsedMaterialTempl< is_ad >::ParsedMaterialTempl(), ParsedNodeTransformGenerator::ParsedNodeTransformGenerator(), ParsedODEKernel::ParsedODEKernel(), ParsedPostprocessor::ParsedPostprocessor(), ParsedSubdomainMeshGenerator::ParsedSubdomainMeshGenerator(), PiecewiseByBlockFunctorMaterialTempl< T >::PiecewiseByBlockFunctorMaterialTempl(), PiecewiseConstantByBlockMaterialTempl< is_ad >::PiecewiseConstantByBlockMaterialTempl(), RenameBlockGenerator::RenameBlockGenerator(), RenameBoundaryGenerator::RenameBoundaryGenerator(), Moose::FV::setInterpolationMethod(), SetupMeshAction::setupMesh(), SingleMatrixPreconditioner::SingleMatrixPreconditioner(), TimePeriod::TimePeriod(), UniqueExtraIDMeshGenerator::UniqueExtraIDMeshGenerator(), VariableCondensationPreconditioner::VariableCondensationPreconditioner(), and VectorOfPostprocessors::VectorOfPostprocessors().

211 {
212  return InputParameters::getParamHelper(name, _pars, static_cast<T *>(0));
213 }
static const T & getParamHelper(const std::string &name, const InputParameters &pars, const T *the_type, const MooseObject *moose_object=nullptr)
const InputParameters & _pars
Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

◆ getParam() [2/2]

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

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

Parameters
param1The name of first parameter
param2The name of second parameter
Returns
Vector of pairs of first and second parameters

Definition at line 267 of file MooseBaseParameterInterface.h.

268 {
269  return _pars.get<T1, T2>(param1, param2);
270 }
std::vector< std::pair< R1, R2 > > get(const std::string &param1, const std::string &param2) const
Combine two vector parameters into a single vector of pairs.
const InputParameters & _pars
Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

◆ getPostprocessorName()

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

Get the name of a postprocessor.

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

Parameters
param_nameThe name of the Postprocessor parameter
indexThe index of the Postprocessor
Returns
The name of the given Postprocessor

Definition at line 185 of file PostprocessorInterface.C.

Referenced by EigenKernel::EigenKernel().

187 {
188  return getPostprocessorNameInternal(param_name, index, /* allow_default_value = */ false);
189 }
const PostprocessorName & getPostprocessorNameInternal(const std::string &param_name, const unsigned int index, const bool allow_default_value=true) const
Internal method for getting the PostprocessorName associated with a paremeter.

◆ getPostprocessorOutput()

const std::set< std::string > & AdvancedOutput::getPostprocessorOutput ( )
inherited

The list of postprocessor names that are set for output.

Returns
A vector of strings containing the names of the postprocessor variables for output
See also
hasPostprocessorOutput

Definition at line 841 of file AdvancedOutput.C.

Referenced by CSV::initialSetup(), TableOutput::outputPostprocessors(), Nemesis::outputPostprocessors(), and Exodus::outputPostprocessors().

842 {
843  return _execute_data["postprocessors"].output;
844 }
OutputDataWarehouse _execute_data
Storage structures for the various output types.

◆ getPostprocessorValue()

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

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

Parameters
param_nameThe name of the Postprocessor parameter (see below)
indexThe index of the Postprocessor
Returns
A reference to the desired value

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

see getPostprocessorValueByName getPostprocessorValueOldByName getPostprocessorValueOlderByName

Definition at line 36 of file PostprocessorInterface.C.

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

38 {
39  return getPostprocessorValueInternal(param_name, index, /* t_index = */ 0);
40 }
const PostprocessorValue & getPostprocessorValueInternal(const std::string &param_name, unsigned int index, std::size_t t_index) const
Internal methods for getting Postprocessor values.

◆ getPostprocessorValueByName()

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

Retrieve the value of the Postprocessor.

Parameters
namePostprocessor name (see below)
Returns
A reference to the desired value

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

see getPostprocessorValue getPostprocessorValueOld getPostprocessorValueOlder

Definition at line 57 of file PostprocessorInterface.C.

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

58 {
59  return getPostprocessorValueByNameInternal(name, /* t_index = */ 0);
60 }
const PostprocessorValue & getPostprocessorValueByNameInternal(const PostprocessorName &name, std::size_t t_index) const

◆ getPostprocessorValueOld()

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

Definition at line 43 of file PostprocessorInterface.C.

45 {
46  return getPostprocessorValueInternal(param_name, index, /* t_index = */ 1);
47 }
const PostprocessorValue & getPostprocessorValueInternal(const std::string &param_name, unsigned int index, std::size_t t_index) const
Internal methods for getting Postprocessor values.

◆ getPostprocessorValueOldByName()

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

Definition at line 63 of file PostprocessorInterface.C.

Referenced by EigenKernel::EigenKernel().

64 {
65  return getPostprocessorValueByNameInternal(name, /* t_index = */ 1);
66 }
const PostprocessorValue & getPostprocessorValueByNameInternal(const PostprocessorName &name, std::size_t t_index) const

◆ getPostprocessorValueOlder()

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

Definition at line 50 of file PostprocessorInterface.C.

52 {
53  return getPostprocessorValueInternal(param_name, index, /* t_index = */ 2);
54 }
const PostprocessorValue & getPostprocessorValueInternal(const std::string &param_name, unsigned int index, std::size_t t_index) const
Internal methods for getting Postprocessor values.

◆ getPostprocessorValueOlderByName()

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

Definition at line 69 of file PostprocessorInterface.C.

70 {
71  return getPostprocessorValueByNameInternal(name, /* t_index = */ 2);
72 }
const PostprocessorValue & getPostprocessorValueByNameInternal(const PostprocessorName &name, std::size_t t_index) const

◆ getRenamedParam()

template<typename T >
const T & MooseBaseParameterInterface::getRenamedParam ( const std::string &  old_name,
const std::string &  new_name 
) const
inherited

Retrieve a renamed parameter for the object.

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

Parameters
old_namethe old name for the parameter
new_namethe new name for the parameter

Definition at line 217 of file MooseBaseParameterInterface.h.

219 {
220  // this enables having a default on the new parameter but bypassing it with the old one
221  // Most important: accept new parameter
222  if (isParamSetByUser(new_name) && !isParamValid(old_name))
223  return InputParameters::getParamHelper(new_name, _pars, static_cast<T *>(0));
224  // Second most: accept old parameter
225  else if (isParamValid(old_name) && !isParamSetByUser(new_name))
226  return InputParameters::getParamHelper(old_name, _pars, static_cast<T *>(0));
227  // Third most: accept default for new parameter
228  else if (isParamValid(new_name) && !isParamValid(old_name))
229  return InputParameters::getParamHelper(new_name, _pars, static_cast<T *>(0));
230  // Refuse: no default, no value passed
231  else if (!isParamValid(old_name) && !isParamValid(new_name))
232  mooseError(_pars.blockFullpath() + ": parameter '" + new_name +
233  "' is being retrieved without being set.\n"
234  "Did you misspell it?");
235  // Refuse: both old and new parameters set by user
236  else
237  mooseError(_pars.blockFullpath() + ": parameter '" + new_name +
238  "' may not be provided alongside former parameter '" + old_name + "'");
239 }
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:284
bool isParamValid(const std::string &name) const
Test if the supplied parameter is valid.
static const T & getParamHelper(const std::string &name, const InputParameters &pars, const T *the_type, const MooseObject *moose_object=nullptr)
bool isParamSetByUser(const std::string &nm) const
Test if the supplied parameter is set by a user, as opposed to not set or set to default.
std::string & blockFullpath()
Get/set a string representing the full HIT parameter path from the input file (e.g.
const InputParameters & _pars
Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

◆ getReporterName()

const ReporterName & ReporterInterface::getReporterName ( const std::string &  param_name) const
protectedinherited
Returns
The ReporterName associated with the parametre param_name.

Performs error checking to mak sure that the parameter is valid.

Definition at line 49 of file ReporterInterface.C.

Referenced by ReporterInterface::getReporterValue(), and ReporterInterface::hasReporterValue().

50 {
51  if (!_ri_params.isParamValid(param_name))
53  "When getting a Reporter, failed to get a parameter with the name \"",
54  param_name,
55  "\".",
56  "\n\nKnown parameters:\n",
58 
59  if (_ri_params.isType<ReporterName>(param_name))
60  return _ri_params.get<ReporterName>(param_name);
61 
62  _ri_moose_object.mooseError("Supplied parameter with name \"",
63  param_name,
64  "\" of type \"",
65  _ri_params.type(param_name),
66  "\" is not an expected type for getting a Reporter.\n\n",
67  "The expected type is \"ReporterName\".");
68 }
std::vector< std::pair< R1, R2 > > get(const std::string &param1, const std::string &param2) const
Combine two vector parameters into a single vector of pairs.
bool isType(const std::string &name) const
const MooseObject & _ri_moose_object
The MooseObject needing this interface.
const InputParameters & _ri_params
Parameters for the MooseObject inherting from this interface.
std::string type(const std::string &name) const
Prints the type of the requested parameter by name.
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.
const InputParameters & parameters() const
Get the parameters of the object.
The Reporter system is comprised of objects that can contain any number of data values.
Definition: ReporterName.h:30
bool isParamValid(const std::string &name) const
This method returns parameters that have been initialized in one fashion or another, i.e.

◆ getReporterOutput()

const std::set< std::string > & AdvancedOutput::getReporterOutput ( )
inherited

The list of Reporter names that are set for output.

Returns
A vector containing the names of the Reporter names for output
See also
hasReporterOutput

Definition at line 865 of file AdvancedOutput.C.

Referenced by CSV::initialSetup(), JSONOutput::outputReporters(), TableOutput::outputReporters(), and Exodus::outputReporters().

866 {
867  return _execute_data["reporters"].output;
868 }
OutputDataWarehouse _execute_data
Storage structures for the various output types.

◆ getReporterValue() [1/2]

template<typename T >
const T & ReporterInterface::getReporterValue ( const std::string &  param_name,
const std::size_t  time_index = 0 
)
protectedinherited

doco-normal-methods-begin Returns read-only reference to a Reporter value that is provided by an input parameter.

Template Parameters
TThe C++ type of the Reporter value being consumed
Parameters
param_nameThe name of the parameter that gives the name of the Reporter, which must be a ReporterName parameter (i.e., getParam<ReporterName>(param_name)).
modeThe mode that the object will consume the Reporter value time_index (optional) If zero is provided the current value is returned. Use a positive index to return previous values (1 = older, 2 = older, etc.). The maximum number of old values is dictated by the ReporterData object.

Definition at line 133 of file ReporterInterface.h.

134 {
135  return getReporterValue<T>(param_name, REPORTER_MODE_UNSET, time_index);
136 }
const ReporterMode REPORTER_MODE_UNSET

◆ getReporterValue() [2/2]

template<typename T >
const T & ReporterInterface::getReporterValue ( const std::string &  param_name,
ReporterMode  mode,
const std::size_t  time_index = 0 
)
protectedinherited

Definition at line 140 of file ReporterInterface.h.

143 {
144  const auto & reporter_name = getReporterName(param_name);
145 
146  possiblyCheckHasReporter<T>(reporter_name, param_name);
147 
148  return getReporterValueByName<T>(reporter_name, mode, time_index);
149 }
const ReporterName & getReporterName(const std::string &param_name) const

◆ getReporterValueByName() [1/2]

template<typename T >
const T & ReporterInterface::getReporterValueByName ( const ReporterName reporter_name,
const std::size_t  time_index = 0 
)
protectedinherited

Returns read-only reference to a Reporter value that is provided by name directly.

Template Parameters
TThe C++ type of the Reporter value being consumed
Parameters
reporter_nameA ReporterName object that for the desired Reporter value.
modeThe mode that the object will consume the Reporter value time_index (optional) If zero is provided the current value is returned. Use a positive index to return previous values (1 = older, 2 = older, etc.). The maximum number of old values is dictated by the ReporterData object.

Definition at line 153 of file ReporterInterface.h.

155 {
156  return getReporterValueByName<T>(reporter_name, REPORTER_MODE_UNSET, time_index);
157 }
const ReporterMode REPORTER_MODE_UNSET

◆ getReporterValueByName() [2/2]

template<typename T >
const T & ReporterInterface::getReporterValueByName ( const ReporterName reporter_name,
ReporterMode  mode,
const std::size_t  time_index = 0 
)
protectedinherited

Definition at line 161 of file ReporterInterface.h.

164 {
165  possiblyCheckHasReporter<T>(reporter_name);
166 
167  addReporterDependencyHelper(reporter_name);
168 
169  return _ri_reporter_data.getReporterValue<T>(reporter_name, _ri_moose_object, mode, time_index);
170 }
virtual void addReporterDependencyHelper(const ReporterName &)
A method that can be overridden to update the UO dependencies.
const T & getReporterValue(const ReporterName &reporter_name, const MooseObject &consumer, const ReporterMode &mode, const std::size_t time_index=0) const
Method for returning read only references to Reporter values.
Definition: ReporterData.h:379
const MooseObject & _ri_moose_object
The MooseObject needing this interface.
const ReporterData & _ri_reporter_data
The ReporterData.

◆ 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_nameThe name of the data (usually just use the same name as the member variable)

Definition at line 287 of file Restartable.h.

288 {
289  return declareRestartableDataHelper<T>(data_name, nullptr).get();
290 }

◆ getScalarOutput()

const std::set< std::string > & AdvancedOutput::getScalarOutput ( )
inherited

The list of scalar variables names that are set for output.

Returns
A vector of strings containing the names of the scalar variables for output
See also
hasScalarVariableOutput

Definition at line 829 of file AdvancedOutput.C.

Referenced by CSV::initialSetup(), TableOutput::outputScalarVariables(), Nemesis::outputScalarVariables(), and Exodus::outputScalarVariables().

830 {
831  return _execute_data["scalars"].output;
832 }
OutputDataWarehouse _execute_data
Storage structures for the various output types.

◆ getScatterVectorPostprocessorValue()

const ScatterVectorPostprocessorValue & VectorPostprocessorInterface::getScatterVectorPostprocessorValue ( const std::string &  param_name,
const std::string &  vector_name 
) const
inherited

Return the scatter value for the post processor.

This is only valid when you expec the vector to be of lenghth "num_procs" In that case - this will return a reference to a value that will be this processor's value from that vector

Parameters
param_nameThe name of the parameter holding the vpp name
vector_nameThe name of the vector
Returns
The reference to the current scatter value

Definition at line 106 of file VectorPostprocessorInterface.C.

108 {
109  possiblyCheckHasVectorPostprocessor(param_name, vector_name);
111  vector_name);
112 }
void possiblyCheckHasVectorPostprocessor(const std::string &param_name, const std::string &vector_name) const
Helpers for "possibly" checking if a vpp exists.
const VectorPostprocessorName & getVectorPostprocessorName(const std::string &param_name) const
Get the name of a VectorPostprocessor associated with a parameter.
const ScatterVectorPostprocessorValue & getScatterVectorPostprocessorValueByName(const VectorPostprocessorName &name, const std::string &vector_name) const
Return the scatter value for the post processor.

◆ getScatterVectorPostprocessorValueByName()

const ScatterVectorPostprocessorValue & VectorPostprocessorInterface::getScatterVectorPostprocessorValueByName ( const VectorPostprocessorName &  name,
const std::string &  vector_name 
) const
inherited

Return the scatter value for the post processor.

This is only valid when you expec the vector to be of lenghth "num_procs" In that case - this will return a reference to a value that will be this processor's value from that vector

Parameters
nameThe name of the VectorPostprocessor
vector_nameThe name of the vector
Returns
The reference to the current scatter value

Definition at line 115 of file VectorPostprocessorInterface.C.

Referenced by VectorPostprocessorInterface::getScatterVectorPostprocessorValue().

117 {
118  return getVectorPostprocessorContextByNameHelper(name, vector_name).getScatterValue();
119 }
const VectorPostprocessorContext< VectorPostprocessorValue > & getVectorPostprocessorContextByNameHelper(const VectorPostprocessorName &name, const std::string &vector_name) const
Helper for getting the VPP context that handles scatter values.

◆ getScatterVectorPostprocessorValueOld()

const ScatterVectorPostprocessorValue & VectorPostprocessorInterface::getScatterVectorPostprocessorValueOld ( const std::string &  param_name,
const std::string &  vector_name 
) const
inherited

Return the old scatter value for the post processor.

This is only valid when you expec the vector to be of lenghth "num_procs" In that case - this will return a reference to a value that will be this processor's value from that vector

Parameters
param_nameThe name of the parameter holding the vpp name
vector_nameThe name of the vector
Returns
The reference to the old scatter value

Definition at line 122 of file VectorPostprocessorInterface.C.

124 {
125  possiblyCheckHasVectorPostprocessor(param_name, vector_name);
127  vector_name);
128 }
void possiblyCheckHasVectorPostprocessor(const std::string &param_name, const std::string &vector_name) const
Helpers for "possibly" checking if a vpp exists.
const ScatterVectorPostprocessorValue & getScatterVectorPostprocessorValueOldByName(const VectorPostprocessorName &name, const std::string &vector_name) const
Return the old scatter value for the post processor.
const VectorPostprocessorName & getVectorPostprocessorName(const std::string &param_name) const
Get the name of a VectorPostprocessor associated with a parameter.

◆ getScatterVectorPostprocessorValueOldByName()

const ScatterVectorPostprocessorValue & VectorPostprocessorInterface::getScatterVectorPostprocessorValueOldByName ( const VectorPostprocessorName &  name,
const std::string &  vector_name 
) const
inherited

Return the old scatter value for the post processor.

This is only valid when you expect the vector to be of length "num_procs" In that case - this will return a reference to a value that will be this processor's value from that vector

Parameters
nameThe name of the VectorPostprocessor
vector_nameThe name of the vector
Returns
The reference to the old scatter value

Definition at line 131 of file VectorPostprocessorInterface.C.

Referenced by VectorPostprocessorInterface::getScatterVectorPostprocessorValueOld().

133 {
134  return getVectorPostprocessorContextByNameHelper(name, vector_name).getScatterValueOld();
135 }
const VectorPostprocessorContext< VectorPostprocessorValue > & getVectorPostprocessorContextByNameHelper(const VectorPostprocessorName &name, const std::string &vector_name) const
Helper for getting the VPP context that handles scatter values.

◆ getSyncTimes()

const std::set<Real>& Output::getSyncTimes ( )
inlineinherited

Definition at line 144 of file Output.h.

144 { return _sync_times; }
std::set< Real > _sync_times
Sync times for this outputter.
Definition: Output.h:241

◆ getVectorPostprocessorName()

const VectorPostprocessorName & VectorPostprocessorInterface::getVectorPostprocessorName ( const std::string &  param_name) const
inherited

Get the name of a VectorPostprocessor associated with a parameter.

Parameters
param_nameThe name of the VectorPostprocessor parameter
Returns
The name of the given VectorPostprocessor

Definition at line 203 of file VectorPostprocessorInterface.C.

Referenced by VectorPostprocessorInterface::getScatterVectorPostprocessorValue(), VectorPostprocessorInterface::getScatterVectorPostprocessorValueOld(), VectorPostprocessorInterface::getVectorPostprocessorValue(), VectorPostprocessorInterface::getVectorPostprocessorValueOld(), VectorPostprocessorInterface::hasVectorPostprocessor(), VectorPostprocessorInterface::isVectorPostprocessorDistributed(), and VectorPostprocessorInterface::possiblyCheckHasVectorPostprocessor().

204 {
205  const auto & params = _vpi_moose_object.parameters();
206 
207  if (!params.isParamValid(param_name))
209  "When getting a VectorPostprocessor, failed to get a parameter with the name \"",
210  param_name,
211  "\".",
212  "\n\nKnown parameters:\n",
214 
215  if (!params.isType<VectorPostprocessorName>(param_name))
217  "Supplied parameter with name \"",
218  param_name,
219  "\" of type \"",
220  params.type(param_name),
221  "\" is not an expected type for getting a VectorPostprocessor.\n\n",
222  "The allowed type is \"VectorPostprocessorName\".");
223 
224  return params.get<VectorPostprocessorName>(param_name);
225 }
const MooseObject & _vpi_moose_object
The MooseObject that uses this interface.
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.
const InputParameters & parameters() const
Get the parameters of the object.

◆ getVectorPostprocessorOutput()

const std::set< std::string > & AdvancedOutput::getVectorPostprocessorOutput ( )
inherited

The list of VectorPostprocessor names that are set for output.

Returns
A vector of strings containing the names of the VectorPostprocessor variables for output
See also
hasVectorPostprocessorOutput

Definition at line 853 of file AdvancedOutput.C.

Referenced by CSV::initialSetup(), TableOutput::outputReporters(), XMLOutput::outputVectorPostprocessors(), and TableOutput::outputVectorPostprocessors().

854 {
855  return _execute_data["vector_postprocessors"].output;
856 }
OutputDataWarehouse _execute_data
Storage structures for the various output types.

◆ getVectorPostprocessorValue() [1/2]

const VectorPostprocessorValue & VectorPostprocessorInterface::getVectorPostprocessorValue ( const std::string &  param_name,
const std::string &  vector_name 
) const
inherited

DEPRECATED: Use the new version where you need to specify whether or not the vector must be broadcast.

Retrieve the value of a VectorPostprocessor

Parameters
param_nameThe name of the VectorPostprocessor parameter (see below)
vector_nameThe name of the particular vector you want.
Returns
A reference to the desired value

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

see getVectorPostprocessorValueOld getVectorPostprocessorValueByName getVectorPostprocessorValueOldByName

Definition at line 36 of file VectorPostprocessorInterface.C.

38 {
39  possiblyCheckHasVectorPostprocessor(param_name, vector_name);
40  return getVectorPostprocessorValueByName(getVectorPostprocessorName(param_name), vector_name);
41 }
void possiblyCheckHasVectorPostprocessor(const std::string &param_name, const std::string &vector_name) const
Helpers for "possibly" checking if a vpp exists.
const VectorPostprocessorName & getVectorPostprocessorName(const std::string &param_name) const
Get the name of a VectorPostprocessor associated with a parameter.
const VectorPostprocessorValue & getVectorPostprocessorValueByName(const VectorPostprocessorName &name, const std::string &vector_name) const
DEPRECATED: Use the new version where you need to specify whether or not the vector must be broadcast...

◆ getVectorPostprocessorValue() [2/2]

const VectorPostprocessorValue & VectorPostprocessorInterface::getVectorPostprocessorValue ( const std::string &  param_name,
const std::string &  vector_name,
bool  needs_broadcast 
) const
inherited

Retrieve the value of a VectorPostprocessor.

Parameters
param_nameThe name of the VectorPostprocessor parameter (see below)
vector_nameThe name of the particular vector you want.
need_broadcastWhether or not this object requires the vector to be replicated in parallel
Returns
A reference to the desired value

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

see getVectorPostprocessorValueOld getVectorPostprocessorValueByName getVectorPostprocessorValueOldByName

Definition at line 66 of file VectorPostprocessorInterface.C.

69 {
70  possiblyCheckHasVectorPostprocessor(param_name, vector_name);
72  getVectorPostprocessorName(param_name), vector_name, needs_broadcast);
73 }
void possiblyCheckHasVectorPostprocessor(const std::string &param_name, const std::string &vector_name) const
Helpers for "possibly" checking if a vpp exists.
const VectorPostprocessorName & getVectorPostprocessorName(const std::string &param_name) const
Get the name of a VectorPostprocessor associated with a parameter.
const VectorPostprocessorValue & getVectorPostprocessorValueByName(const VectorPostprocessorName &name, const std::string &vector_name) const
DEPRECATED: Use the new version where you need to specify whether or not the vector must be broadcast...

◆ getVectorPostprocessorValueByName() [1/2]

const VectorPostprocessorValue & VectorPostprocessorInterface::getVectorPostprocessorValueByName ( const VectorPostprocessorName &  name,
const std::string &  vector_name 
) const
inherited

DEPRECATED: Use the new version where you need to specify whether or not the vector must be broadcast.

Retrieve the value of the VectorPostprocessor

Parameters
nameVectorPostprocessor name (see below)
vector_nameThe name of the particular vector you want.
Returns
A reference to the desired value

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

see getVectorPostprocessorValue getVectorPostprocessorValueOldByName getVectorPostprocessorValueByName

Definition at line 44 of file VectorPostprocessorInterface.C.

Referenced by VectorPostprocessorInterface::getVectorPostprocessorValue().

46 {
47  return getVectorPostprocessorByNameHelper(name, vector_name, _broadcast_by_default, 0);
48 }
const VectorPostprocessorValue & getVectorPostprocessorByNameHelper(const VectorPostprocessorName &name, const std::string &vector_name, bool broadcast, std::size_t t_index) const
Helper function for extracting VPP data from ReporterData object.
const bool _broadcast_by_default
Whether or not to force broadcasting by default.

◆ getVectorPostprocessorValueByName() [2/2]

const VectorPostprocessorValue & VectorPostprocessorInterface::getVectorPostprocessorValueByName ( const VectorPostprocessorName &  name,
const std::string &  vector_name,
bool  needs_broadcast 
) const
inherited

Retrieve the value of the VectorPostprocessor.

Parameters
nameVectorPostprocessor name (see below)
vector_nameThe name of the particular vector you want.
need_broadcastWhether or not this object requires the vector to be replicated in parallel
Returns
A reference to the desired value

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

see getVectorPostprocessorValue getVectorPostprocessorValueOldByName getVectorPostprocessorValueByName

Definition at line 76 of file VectorPostprocessorInterface.C.

80 {
82  name, vector_name, needs_broadcast || _broadcast_by_default, 0);
83 }
const VectorPostprocessorValue & getVectorPostprocessorByNameHelper(const VectorPostprocessorName &name, const std::string &vector_name, bool broadcast, std::size_t t_index) const
Helper function for extracting VPP data from ReporterData object.
const bool _broadcast_by_default
Whether or not to force broadcasting by default.

◆ getVectorPostprocessorValueOld() [1/2]

const VectorPostprocessorValue & VectorPostprocessorInterface::getVectorPostprocessorValueOld ( const std::string &  param_name,
const std::string &  vector_name 
) const
inherited

DEPRECATED: Use the new version where you need to specify whether or not the vector must be broadcast.

Retrieve the old value of a VectorPostprocessor

Parameters
param_nameThe name of the VectorPostprocessor parameter
vector_nameThe name of the particular vector you want.
Returns
The value of the VectorPostprocessor

see getVectorPostprocessorValue

Definition at line 51 of file VectorPostprocessorInterface.C.

53 {
54  possiblyCheckHasVectorPostprocessor(param_name, vector_name);
56 }
void possiblyCheckHasVectorPostprocessor(const std::string &param_name, const std::string &vector_name) const
Helpers for "possibly" checking if a vpp exists.
const VectorPostprocessorName & getVectorPostprocessorName(const std::string &param_name) const
Get the name of a VectorPostprocessor associated with a parameter.
const VectorPostprocessorValue & getVectorPostprocessorValueOldByName(const VectorPostprocessorName &name, const std::string &vector_name) const
DEPRECATED: Use the new version where you need to specify whether or not the vector must be broadcast...

◆ getVectorPostprocessorValueOld() [2/2]

const VectorPostprocessorValue & VectorPostprocessorInterface::getVectorPostprocessorValueOld ( const std::string &  param_name,
const std::string &  vector_name,
bool  needs_broadcast 
) const
inherited

Retrieve the old value of a VectorPostprocessor.

Parameters
param_nameThe name of the VectorPostprocessor parameter
vector_nameThe name of the particular vector you want.
need_broadcastWhether or not this object requires the vector to be replicated in parallel
Returns
The value of the VectorPostprocessor

see getVectorPostprocessorValue

Definition at line 86 of file VectorPostprocessorInterface.C.

89 {
90  possiblyCheckHasVectorPostprocessor(param_name, vector_name);
92  getVectorPostprocessorName(param_name), vector_name, needs_broadcast);
93 }
void possiblyCheckHasVectorPostprocessor(const std::string &param_name, const std::string &vector_name) const
Helpers for "possibly" checking if a vpp exists.
const VectorPostprocessorName & getVectorPostprocessorName(const std::string &param_name) const
Get the name of a VectorPostprocessor associated with a parameter.
const VectorPostprocessorValue & getVectorPostprocessorValueOldByName(const VectorPostprocessorName &name, const std::string &vector_name) const
DEPRECATED: Use the new version where you need to specify whether or not the vector must be broadcast...

◆ getVectorPostprocessorValueOldByName() [1/2]

const VectorPostprocessorValue & VectorPostprocessorInterface::getVectorPostprocessorValueOldByName ( const VectorPostprocessorName &  name,
const std::string &  vector_name 
) const
inherited

DEPRECATED: Use the new version where you need to specify whether or not the vector must be broadcast.

Retrieve the old value of a VectorPostprocessor

Parameters
nameThe name of the VectorPostprocessor
vector_nameThe name of the particular vector you want.
Returns
The value of the VectorPostprocessor

If within the validParams for the object the addVectorPostprocessorParam was called this method will retun a reference to the default value specified in the call to the addVectorPostprocessorParam function if the postVectorPostprocessor does not exist.

see getVectorPostprocessorValueByName

Definition at line 59 of file VectorPostprocessorInterface.C.

Referenced by VectorPostprocessorInterface::getVectorPostprocessorValueOld().

61 {
62  return getVectorPostprocessorByNameHelper(name, vector_name, _broadcast_by_default, 1);
63 }
const VectorPostprocessorValue & getVectorPostprocessorByNameHelper(const VectorPostprocessorName &name, const std::string &vector_name, bool broadcast, std::size_t t_index) const
Helper function for extracting VPP data from ReporterData object.
const bool _broadcast_by_default
Whether or not to force broadcasting by default.

◆ getVectorPostprocessorValueOldByName() [2/2]

const VectorPostprocessorValue & VectorPostprocessorInterface::getVectorPostprocessorValueOldByName ( const VectorPostprocessorName &  name,
const std::string &  vector_name,
bool  needs_broadcast 
) const
inherited

Retrieve the old value of a VectorPostprocessor.

Parameters
nameThe name of the VectorPostprocessor
vector_nameThe name of the particular vector you want.
need_broadcastWhether or not this object requires the vector to be replicated in parallel
Returns
The value of the VectorPostprocessor

If within the validParams for the object the addVectorPostprocessorParam was called this method will retun a reference to the default value specified in the call to the addVectorPostprocessorParam function if the postVectorPostprocessor does not exist.

see getVectorPostprocessorValueByName

Definition at line 96 of file VectorPostprocessorInterface.C.

100 {
102  name, vector_name, needs_broadcast || _broadcast_by_default, 1);
103 }
const VectorPostprocessorValue & getVectorPostprocessorByNameHelper(const VectorPostprocessorName &name, const std::string &vector_name, bool broadcast, std::size_t t_index) const
Helper function for extracting VPP data from ReporterData object.
const bool _broadcast_by_default
Whether or not to force broadcasting by default.

◆ hasElementalVariableOutput()

bool AdvancedOutput::hasElementalVariableOutput ( )
inherited

Returns true if there exists elemental nonlinear variables for output.

Returns
True if nonlinear variable output exists
See also
getElementalVariableOutput

Definition at line 811 of file AdvancedOutput.C.

Referenced by Exodus::initialSetup().

812 {
813  return hasOutputHelper("elemental");
814 }
bool hasOutputHelper(const std::string &name)
Helper method for checking if output types exists.

◆ hasFunction()

bool FunctionInterface::hasFunction ( const std::string &  param_name) const
inherited

Determine if the function exists.

Parameters
param_nameThe name of the function parameter
indexThe index of the function
Returns
True if the function exists

Definition at line 42 of file FunctionInterface.C.

43 {
44  return hasFunctionByName(_fni_params.get<FunctionName>(param_name));
45 }
std::vector< std::pair< R1, R2 > > get(const std::string &param1, const std::string &param2) const
Combine two vector parameters into a single vector of pairs.
bool hasFunctionByName(const FunctionName &name) const
Determine if the function exists.
const InputParameters & _fni_params
Parameters of the object with this interface.

◆ hasFunctionByName()

bool FunctionInterface::hasFunctionByName ( const FunctionName &  name) const
inherited

Determine if the function exists.

Parameters
nameThe name of the function
Returns
True if the function exists

Definition at line 48 of file FunctionInterface.C.

Referenced by FunctionInterface::hasFunction().

49 {
50  return _fni_feproblem.hasFunction(name, _fni_tid);
51 }
const THREAD_ID _fni_tid
Thread ID.
FEProblemBase & _fni_feproblem
Reference to FEProblemBase instance.
virtual bool hasFunction(const std::string &name, const THREAD_ID tid=0)

◆ hasNodalVariableOutput()

bool AdvancedOutput::hasNodalVariableOutput ( )
inherited

Returns true if there exists nodal nonlinear variables for output.

Returns
True if nonlinear variable output exists
See also
getNodalVariableOutput

Definition at line 799 of file AdvancedOutput.C.

Referenced by Exodus::initialSetup(), and Exodus::outputElementalVariables().

800 {
801  return hasOutputHelper("nodal");
802 }
bool hasOutputHelper(const std::string &name)
Helper method for checking if output types exists.

◆ hasOutput() [1/2]

bool AdvancedOutput::hasOutput ( )
virtualinherited

Returns true if any of the other has methods return true.

Definition at line 383 of file AdvancedOutput.C.

Referenced by Exodus::initialSetup(), and AdvancedOutput::shouldOutput().

384 {
385  // Test that variables exist for output AND that output execution flags are valid
386  for (const auto & it : _execute_data)
387  if (!(it.second).output.empty() && _advanced_execute_on.contains(it.first) &&
388  _advanced_execute_on[it.first].isValid())
389  return true;
390 
391  // Test execution flags for non-variable output
392  if (_advanced_execute_on.contains("system_information") &&
393  _advanced_execute_on["system_information"].isValid())
394  return true;
395  if (_advanced_execute_on.contains("input") && _advanced_execute_on["input"].isValid())
396  return true;
397 
398  return false;
399 }
OutputOnWarehouse _advanced_execute_on
Storage for the individual component execute flags.
Definition: Output.h:274
OutputDataWarehouse _execute_data
Storage structures for the various output types.
bool contains(const std::string &name) const
A method for testing of a key exists.

◆ hasOutput() [2/2]

bool AdvancedOutput::hasOutput ( const ExecFlagType type)
inherited

Tests that any output exist for the given output type.

See also
Exodus

Definition at line 371 of file AdvancedOutput.C.

372 {
373  // If any of the component outputs are true, then there is some output to perform
374  for (const auto & it : _advanced_execute_on)
375  if (wantOutput(it.first, type))
376  return true;
377 
378  // There is nothing to output
379  return false;
380 }
OutputOnWarehouse _advanced_execute_on
Storage for the individual component execute flags.
Definition: Output.h:274
const std::string & type() const
Get the type of this class.
Definition: MooseBase.h:50
bool wantOutput(const std::string &name, const ExecFlagType &type)
Handles logic for determining if a step should be output.

◆ hasPostprocessor()

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

Determine if the Postprocessor data exists.

Parameters
param_nameThe name of the Postprocessor parameter
indexThe index of the Postprocessor
Returns
True if the Postprocessor exists
See also
hasPostprocessorByName getPostprocessorValue

Definition at line 107 of file PostprocessorInterface.C.

109 {
110  if (!postprocessorsAdded())
112  "Cannot call hasPostprocessor() until all Postprocessors have been constructed.");
113 
114  return hasPostprocessorByName(getPostprocessorNameInternal(param_name, index));
115 }
const PostprocessorName & getPostprocessorNameInternal(const std::string &param_name, const unsigned int index, const bool allow_default_value=true) const
Internal method for getting the PostprocessorName associated with a paremeter.
bool hasPostprocessorByName(const PostprocessorName &name) const
Determine if the Postprocessor data exists.
const MooseObject & _ppi_moose_object
The MooseObject that uses this interface.
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.

◆ hasPostprocessorByName()

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

Determine if the Postprocessor data exists.

Parameters
nameThe name of the Postprocessor
Returns
True if the Postprocessor exists
See also
hasPostprocessor getPostprocessorValueByName

Definition at line 118 of file PostprocessorInterface.C.

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

119 {
120  if (!postprocessorsAdded())
122  "Cannot call hasPostprocessorByName() until all Postprocessors have been constructed.");
123 
126 }
const FEProblemBase & _ppi_feproblem
Reference the the FEProblemBase class.
const ReporterData & getReporterData() const
Provides const access the ReporterData object.
Real PostprocessorValue
various MOOSE typedefs
Definition: MooseTypes.h:191
const MooseObject & _ppi_moose_object
The MooseObject that uses this interface.
A ReporterName that represents a Postprocessor.
Definition: ReporterName.h:134
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.
bool hasReporterValue(const ReporterName &reporter_name) const
Return True if a Reporter value with the given type and name have been created.
Definition: ReporterData.h:436

◆ hasPostprocessorOutput()

bool AdvancedOutput::hasPostprocessorOutput ( )
inherited

Returns true if there exists postprocessors for output.

Returns
True if postprocessor output exists
See also
getPostprocessorOutput

Definition at line 835 of file AdvancedOutput.C.

Referenced by Exodus::initialSetup().

836 {
837  return hasOutputHelper("postprocessors");
838 }
bool hasOutputHelper(const std::string &name)
Helper method for checking if output types exists.

◆ hasReporterOutput()

bool AdvancedOutput::hasReporterOutput ( )
inherited

Returns true if there exists Reporter for output.

Returns
True if Reporter output exists
See also
getReporterOutput

Definition at line 859 of file AdvancedOutput.C.

860 {
861  return hasOutputHelper("reporters");
862 }
bool hasOutputHelper(const std::string &name)
Helper method for checking if output types exists.

◆ hasReporterValue() [1/2]

bool ReporterInterface::hasReporterValue ( const std::string &  param_name) const
protectedinherited

Return True if the Reporter value exists.

Template Parameters
TThe C++ type of the Reporter value being consumed
Parameters
reporter_nameA ReporterName object that for the desired Reporter value.

Definition at line 29 of file ReporterInterface.C.

30 {
31  if (!reportersAdded())
33  "Cannot call hasReporterValue() until all Reporters have been constructed.");
34 
35  return hasReporterValueByName(getReporterName(param_name));
36 }
const ReporterName & getReporterName(const std::string &param_name) const
bool reportersAdded() const
const MooseObject & _ri_moose_object
The MooseObject needing this interface.
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.
bool hasReporterValueByName(const ReporterName &reporter_name) const

◆ hasReporterValue() [2/2]

template<typename T >
bool ReporterInterface::hasReporterValue ( const std::string &  param_name) const
protectedinherited

Definition at line 174 of file ReporterInterface.h.

175 {
176  if (!reportersAdded())
178  "Cannot call hasReporterValue() until all Reporters have been constructed.");
179 
180  return hasReporterValueByName<T>(getReporterName(param_name));
181 }
const ReporterName & getReporterName(const std::string &param_name) const
bool reportersAdded() const
const MooseObject & _ri_moose_object
The MooseObject needing this interface.
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.

◆ hasReporterValueByName() [1/2]

bool ReporterInterface::hasReporterValueByName ( const ReporterName reporter_name) const
protectedinherited

Definition at line 39 of file ReporterInterface.C.

Referenced by ReporterInterface::hasReporterValue(), and AdvancedOutput::initShowHideLists().

40 {
41  if (!reportersAdded())
43  "Cannot call hasReporterValueByName() until all Reporters have been constructed.");
44 
45  return _ri_reporter_data.hasReporterValue(reporter_name);
46 }
bool reportersAdded() const
const MooseObject & _ri_moose_object
The MooseObject needing this interface.
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.
const ReporterData & _ri_reporter_data
The ReporterData.
bool hasReporterValue(const ReporterName &reporter_name) const
Return True if a Reporter value with the given type and name have been created.
Definition: ReporterData.h:436

◆ hasReporterValueByName() [2/2]

template<typename T >
bool ReporterInterface::hasReporterValueByName ( const ReporterName reporter_name) const
protectedinherited

Definition at line 185 of file ReporterInterface.h.

186 {
187  if (!reportersAdded())
189  "Cannot call hasReporterValueByName() until all Reporters have been constructed.");
190 
191  return _ri_reporter_data.hasReporterValue<T>(reporter_name);
192 }
bool reportersAdded() const
const MooseObject & _ri_moose_object
The MooseObject needing this interface.
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.
const ReporterData & _ri_reporter_data
The ReporterData.
bool hasReporterValue(const ReporterName &reporter_name) const
Return True if a Reporter value with the given type and name have been created.
Definition: ReporterData.h:436

◆ hasScalarOutput()

bool AdvancedOutput::hasScalarOutput ( )
inherited

Returns true if there exists scalar variables for output.

Returns
True if scalar variable output exists
See also
getScalarVariableOutput

Definition at line 823 of file AdvancedOutput.C.

Referenced by Exodus::initialSetup().

824 {
825  return hasOutputHelper("scalars");
826 }
bool hasOutputHelper(const std::string &name)
Helper method for checking if output types exists.

◆ hasVectorPostprocessor() [1/2]

bool VectorPostprocessorInterface::hasVectorPostprocessor ( const std::string &  param_name,
const std::string &  vector_name 
) const
inherited

Determine if the VectorPostprocessor data exists by parameter.

Parameters
param_nameThe name of the VectorPostprocessor parameter
vector_nameThe vector name within the VectorPostprocessor
Returns
True if the VectorPostprocessor data exists
See also
hasVectorPostprocessorByName getVectorPostprocessorValue

Definition at line 138 of file VectorPostprocessorInterface.C.

Referenced by VectorPostprocessorInterface::possiblyCheckHasVectorPostprocessor().

140 {
142  _vpi_feproblem.mooseError("Cannot call hasVectorPostprocessor() until all VectorPostprocessors "
143  "have been constructed.");
144 
145  return hasVectorPostprocessorByName(getVectorPostprocessorName(param_name), vector_name);
146 }
const VectorPostprocessorName & getVectorPostprocessorName(const std::string &param_name) const
Get the name of a VectorPostprocessor associated with a parameter.
bool hasVectorPostprocessorByName(const VectorPostprocessorName &name, const std::string &vector_name) const
Determine if the VectorPostprocessor data exists by name.
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.
const FEProblemBase & _vpi_feproblem
Reference the FEProblemBase class.

◆ hasVectorPostprocessor() [2/2]

bool VectorPostprocessorInterface::hasVectorPostprocessor ( const std::string &  param_name) const
inherited

Determine if the VectorPostprocessor exists by parameter.

Parameters
nameThe name of the VectorPostprocessor parameter
Returns
True if the VectorPostprocessor exists

Definition at line 168 of file VectorPostprocessorInterface.C.

169 {
171  _vpi_feproblem.mooseError("Cannot call hasVectorPostprocessor() until all "
172  "VectorPostprocessors have been constructed.");
173 
175 }
const VectorPostprocessorName & getVectorPostprocessorName(const std::string &param_name) const
Get the name of a VectorPostprocessor associated with a parameter.
bool hasVectorPostprocessorByName(const VectorPostprocessorName &name, const std::string &vector_name) const
Determine if the VectorPostprocessor data exists by name.
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.
const FEProblemBase & _vpi_feproblem
Reference the FEProblemBase class.

◆ hasVectorPostprocessorByName() [1/2]

bool VectorPostprocessorInterface::hasVectorPostprocessorByName ( const VectorPostprocessorName &  name,
const std::string &  vector_name 
) const
inherited

Determine if the VectorPostprocessor data exists by name.

Parameters
nameThe name of the VectorPostprocessor
vector_nameThe vector name within the VectorPostprocessor
Returns
True if the VectorPostprocessor data exists
See also
hasVectorPostprocessor getVectorPostprocessorValueByName

Definition at line 149 of file VectorPostprocessorInterface.C.

Referenced by VectorPostprocessorInterface::hasVectorPostprocessor(), AdvancedOutput::initShowHideLists(), CSV::output(), and VectorPostprocessorInterface::possiblyCheckHasVectorPostprocessorByName().

151 {
153  _vpi_feproblem.mooseError("Cannot call hasVectorPostprocessorByName() until all "
154  "VectorPostprocessors have been constructed.");
155 
157  VectorPostprocessorReporterName(name, vector_name));
158 
159  if (has_vpp)
160  mooseAssert(_vpi_feproblem.hasUserObject(name) && dynamic_cast<const VectorPostprocessor *>(
162  "Has reporter VectorPostprocessor Reporter value but not VectorPostprocessor UO");
163 
164  return has_vpp;
165 }
bool hasUserObject(const std::string &name) const
Check if there if a user object of given name.
A ReporterName that represents a VectorPostprocessor.
Definition: ReporterName.h:143
const ReporterData & getReporterData() const
Provides const access the ReporterData object.
std::vector< Real > VectorPostprocessorValue
Definition: MooseTypes.h:192
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.
bool hasReporterValue(const ReporterName &reporter_name) const
Return True if a Reporter value with the given type and name have been created.
Definition: ReporterData.h:436
const UserObject & getUserObjectBase(const std::string &name, const THREAD_ID tid=0) const
Get the user object by its name.
Base class for Postprocessors that produce a vector of values.
const FEProblemBase & _vpi_feproblem
Reference the FEProblemBase class.

◆ hasVectorPostprocessorByName() [2/2]

bool VectorPostprocessorInterface::hasVectorPostprocessorByName ( const VectorPostprocessorName &  name) const
inherited

Determine if the VectorPostprocessor exists by name.

Parameters
nameThe name of the VectorPostprocessor
Returns
True if the VectorPostprocessor exists

Definition at line 178 of file VectorPostprocessorInterface.C.

180 {
182  _vpi_feproblem.mooseError("Cannot call hasVectorPostprocessorByName() until all "
183  "VectorPostprocessors have been constructed.");
184 
185  return _vpi_feproblem.hasUserObject(name) &&
186  dynamic_cast<const VectorPostprocessor *>(&_vpi_feproblem.getUserObjectBase(name));
187 }
bool hasUserObject(const std::string &name) const
Check if there if a user object of given name.
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.
const UserObject & getUserObjectBase(const std::string &name, const THREAD_ID tid=0) const
Get the user object by its name.
Base class for Postprocessors that produce a vector of values.
const FEProblemBase & _vpi_feproblem
Reference the FEProblemBase class.

◆ hasVectorPostprocessorOutput()

bool AdvancedOutput::hasVectorPostprocessorOutput ( )
inherited

Returns true if there exists VectorPostprocessors for output.

Returns
True if VectorPostprocessor output exists
See also
getVectorPostprocessorOutput

Definition at line 847 of file AdvancedOutput.C.

848 {
849  return hasOutputHelper("vector_postprocessors");
850 }
bool hasOutputHelper(const std::string &name)
Helper method for checking if output types exists.

◆ init()

void AdvancedOutput::init ( )
protectedvirtualinherited

Populates the various data structures needed to control the output.

Definition at line 153 of file AdvancedOutput.C.

Referenced by AdvancedOutput::initialSetup(), and AdvancedOutput::output().

154 {
155  // Initialize the execution flags
156  for (auto & [name, input] : _advanced_execute_on)
157  initExecutionTypes(name, input);
158 
159  // Clear existing execute information lists
161 
162  // Initialize the available output
164 
165  // Separate the hide/show list into components
166  initShowHideLists(getParam<std::vector<VariableName>>("show"),
167  getParam<std::vector<VariableName>>("hide"));
168 
169  // If 'elemental_as_nodal = true' the elemental variable names must be appended to the
170  // nodal variable names. Thus, when libMesh::EquationSystem::build_solution_vector is called
171  // it will create the correct nodal variable from the elemental
173  {
174  OutputData & nodal = _execute_data["nodal"];
175  OutputData & elemental = _execute_data["elemental"];
176  nodal.show.insert(elemental.show.begin(), elemental.show.end());
177  nodal.hide.insert(elemental.hide.begin(), elemental.hide.end());
178  nodal.available.insert(elemental.available.begin(), elemental.available.end());
179  }
180 
181  // Similarly as above, if 'scalar_as_nodal = true' append the elemental variable lists
182  if (_scalar_as_nodal)
183  {
184  OutputData & nodal = _execute_data["nodal"];
185  OutputData & scalar = _execute_data["scalars"];
186  nodal.show.insert(scalar.show.begin(), scalar.show.end());
187  nodal.hide.insert(scalar.hide.begin(), scalar.hide.end());
188  nodal.available.insert(scalar.available.begin(), scalar.available.end());
189  }
190 
191  // Initialize the show/hide/output lists for each of the types of output
192  for (auto & it : _execute_data)
193  initOutputList(it.second);
194 }
OutputOnWarehouse _advanced_execute_on
Storage for the individual component execute flags.
Definition: Output.h:274
bool _elemental_as_nodal
Flags to control nodal output.
void initShowHideLists(const std::vector< VariableName > &show, const std::vector< VariableName > &hide)
Parses the user-supplied input for hiding and showing variables and postprocessors into a list for ea...
OutputDataWarehouse _execute_data
Storage structures for the various output types.
A structure for storing the various lists that contain the names of the items to be exported...
void initOutputList(OutputData &data)
Initializes the list of items to be output using the available, show, and hide lists.
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
void initAvailableLists()
Initializes the available lists for each of the output types.
void reset()
Clear existing lists for re-initialization.
std::set< std::string > available
A list of all possible outputs.
const T & getParam(const std::string &name) const
Retrieve a parameter for the object.
std::set< std::string > hide
User-supplied list of outputs to hide.
std::set< std::string > show
User-supplied list of outputs to display.
void initExecutionTypes(const std::string &name, ExecFlagEnum &input)
Initialize the possible execution types.

◆ initialSetup()

void OversampleOutput::initialSetup ( )
overridevirtual

Call init() method on setup.

Reimplemented from AdvancedOutput.

Reimplemented in Exodus.

Definition at line 67 of file OversampleOutput.C.

Referenced by Exodus::initialSetup().

68 {
70 
71  // Creates and initializes the oversampled mesh
73 }
void initOversample()
Setups the output object to produce re-positioned and/or oversampled results.
virtual void initialSetup()
Call init() method on setup.

◆ initOversample()

void OversampleOutput::initOversample ( )
private

Setups the output object to produce re-positioned and/or oversampled results.

This is accomplished by creating a new, finer mesh that the existing solution is projected upon. This function is called by the creating action (addOutputAction) and should not be called by the user as it will create a memory leak if called multiple times.

Definition at line 121 of file OversampleOutput.C.

Referenced by initialSetup().

122 {
123  // Perform the mesh cloning, if needed
125  cloneMesh();
126  else
127  return;
128 
129  // Re-position the oversampled mesh
130  if (_change_position)
131  for (auto & node : _mesh_ptr->getMesh().node_ptr_range())
132  *node += _position;
133 
134  // Perform the mesh refinement
135  if (_oversample)
136  {
137  MeshRefinement mesh_refinement(_mesh_ptr->getMesh());
138 
139  // We want original and refined partitioning to match so we can
140  // query from one to the other safely on distributed meshes.
141  _mesh_ptr->getMesh().skip_partitioning(true);
142  mesh_refinement.uniformly_refine(_refinements);
143  }
144 
145  // We can't allow renumbering if we want to output multiple time
146  // steps to the same Exodus file
147  _mesh_ptr->getMesh().allow_renumbering(false);
148 
149  // Create the new EquationSystems
150  _oversample_es = std::make_unique<EquationSystems>(_mesh_ptr->getMesh());
151  _es_ptr = _oversample_es.get();
152 
153  // Reference the system from which we are copying
154  EquationSystems & source_es = _problem_ptr->es();
155 
156  // If we're going to be copying from that system later, we need to keep its
157  // original elements as ghost elements even if it gets grossly
158  // repartitioned, since we can't repartition the oversample mesh to
159  // match.
160  DistributedMesh * dist_mesh = dynamic_cast<DistributedMesh *>(&source_es.get_mesh());
161  if (dist_mesh)
162  {
163  for (auto & elem : dist_mesh->active_local_element_ptr_range())
164  dist_mesh->add_extra_ghost_elem(elem);
165  }
166 
167  // Initialize the _mesh_functions vector
168  unsigned int num_systems = source_es.n_systems();
169  _mesh_functions.resize(num_systems);
170 
171  // Loop over the number of systems
172  for (unsigned int sys_num = 0; sys_num < num_systems; sys_num++)
173  {
174  // Reference to the current system
175  System & source_sys = source_es.get_system(sys_num);
176 
177  // Add the system to the new EquationsSystems
178  ExplicitSystem & dest_sys = _oversample_es->add_system<ExplicitSystem>(source_sys.name());
179 
180  // Loop through the variables in the System
181  unsigned int num_vars = source_sys.n_vars();
182  if (num_vars > 0)
183  {
184  _mesh_functions[sys_num].resize(num_vars);
186  _serialized_solution->init(source_sys.n_dofs(), false, SERIAL);
187 
188  // Need to pull down a full copy of this vector on every processor so we can get values in
189  // parallel
190  source_sys.solution->localize(*_serialized_solution);
191 
192  // Add the variables to the system... simultaneously creating MeshFunctions for them.
193  for (unsigned int var_num = 0; var_num < num_vars; var_num++)
194  {
195  // Add the variable, allow for first and second lagrange
196  const FEType & fe_type = source_sys.variable_type(var_num);
197  FEType second(SECOND, LAGRANGE);
198  if (fe_type == second)
199  dest_sys.add_variable(source_sys.variable_name(var_num), second);
200  else
201  dest_sys.add_variable(source_sys.variable_name(var_num), FEType());
202  }
203  }
204  }
205 
206  // Initialize the newly created EquationSystem
207  _oversample_es->init();
208 }
std::vector< std::vector< std::unique_ptr< MeshFunction > > > _mesh_functions
A vector of pointers to the mesh functions This is only populated when the oversample() function is c...
Point _position
When oversampling, the output is shift by this amount.
const Parallel::Communicator & _communicator
std::unique_ptr< EquationSystems > _oversample_es
std::unique_ptr< NumericVector< Number > > _serialized_solution
Oversample solution vector.
virtual EquationSystems & es() override
SERIAL
MeshBase & getMesh()
Accessor for the underlying libMesh Mesh object.
Definition: MooseMesh.C:3198
EquationSystems * _es_ptr
Reference the the libMesh::EquationSystems object that contains the data.
Definition: Output.h:188
bool _oversample
Flag indicating that oversampling is enabled.
void cloneMesh()
Clone mesh in preperation for re-positioning or oversampling.
FEProblemBase * _problem_ptr
Pointer the the FEProblemBase object for output object (use this)
Definition: Output.h:179
static std::unique_ptr< NumericVector< Number > > build(const Parallel::Communicator &comm, const SolverPackage solver_package=libMesh::default_solver_package())
MooseMesh * _mesh_ptr
A convenience pointer to the current mesh (reference or displaced depending on "use_displaced") ...
Definition: Output.h:191
const unsigned int _refinements
The number of oversampling refinements.
bool _change_position
Flag for re-positioning.

◆ inLinearTimeWindow()

bool PetscOutput::inLinearTimeWindow ( )
inlineprotectedinherited

Definition at line 67 of file PetscOutput.h.

68  {
70  }
Real _linear_start_time
Linear residual output start time.
Definition: PetscOutput.h:123
Real _linear_end_time
Linear residual output end time.
Definition: PetscOutput.h:129
Real _t_tol
Time checking tolerance.
Definition: Output.h:259
Real & _time
The current time for output purposes.
Definition: Output.h:208

◆ inNonlinearTimeWindow()

bool PetscOutput::inNonlinearTimeWindow ( )
inlineprotectedinherited

Definition at line 63 of file PetscOutput.h.

64  {
66  }
Real _nonlinear_start_time
Non-linear residual output start time.
Definition: PetscOutput.h:120
Real _t_tol
Time checking tolerance.
Definition: Output.h:259
Real _nonlinear_end_time
Non-linear residual output end time.
Definition: PetscOutput.h:126
Real & _time
The current time for output purposes.
Definition: Output.h:208

◆ interval()

const unsigned int& Output::interval ( ) const
inherited

Get the output interval.

◆ isAdvanced()

bool Output::isAdvanced ( )
inherited

Returns true if this object is an AdvancedOutput object.

Definition at line 399 of file Output.C.

400 {
401  return _is_advanced;
402 }
bool _is_advanced
Flag for advanced output testing.
Definition: Output.h:268

◆ isDefaultPostprocessorValue()

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

Determine whether or not the Postprocessor is a default value.

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

Parameters
param_nameThe name of the Postprocessor parameter
indexThe index of the postprocessor
Returns
True if the Postprocessor is a default value, false if the Postprocessor is the name of a Postprocessor

Definition at line 75 of file PostprocessorInterface.C.

Referenced by EigenKernel::EigenKernel().

77 {
79 }
bool isDefaultPostprocessorValueByName(const PostprocessorName &name) const
const PostprocessorName & getPostprocessorNameInternal(const std::string &param_name, const unsigned int index, const bool allow_default_value=true) const
Internal method for getting the PostprocessorName associated with a paremeter.

◆ isParamSetByUser()

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

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

Parameters
nmThe name of the parameter to test

Definition at line 118 of file MooseBaseParameterInterface.h.

Referenced by SetupDebugAction::act(), SetAdaptivityOptionsAction::act(), ADConservativeAdvectionBC::ADConservativeAdvectionBC(), PhysicsBase::checkSecondParamSetOnlyIfFirstOneTrue(), LibtorchNeuralNetControl::conditionalParameterError(), MooseBaseParameterInterface::getRenamedParam(), MeshDiagnosticsGenerator::MeshDiagnosticsGenerator(), MultiAppGeneralFieldTransfer::MultiAppGeneralFieldTransfer(), Output::Output(), MultiAppGeneralFieldTransfer::outputValueConflicts(), PiecewiseTabularBase::PiecewiseTabularBase(), MooseMesh::prepare(), and SolutionUserObject::readXda().

118 { return _pars.isParamSetByUser(nm); }
bool isParamSetByUser(const std::string &name) const
Method returns true if the parameter was by the user.
const InputParameters & _pars
Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

◆ isParamValid()

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

Test if the supplied parameter is valid.

Parameters
nameThe name of the parameter to test

Definition at line 112 of file MooseBaseParameterInterface.h.

Referenced by CopyNodalVarsAction::act(), SetupMeshAction::act(), ComposeTimeStepperAction::act(), SetupDebugAction::act(), CreateDisplacedProblemAction::act(), SetAdaptivityOptionsAction::act(), CommonOutputAction::act(), ADConservativeAdvectionBC::ADConservativeAdvectionBC(), DiffusionCG::addFEBCs(), DiffusionCG::addFEKernels(), DiffusionFV::addFVBCs(), DiffusionFV::addFVKernels(), DiffusionCG::addNonlinearVariables(), AdvectiveFluxAux::AdvectiveFluxAux(), ArrayHFEMDirichletBC::ArrayHFEMDirichletBC(), AddPeriodicBCAction::autoTranslationBoundaries(), BicubicSplineFunction::BicubicSplineFunction(), BlockDeletionGenerator::BlockDeletionGenerator(), PiecewiseTabularBase::buildFromFile(), PiecewiseTabularBase::buildFromJSON(), GeneratedMesh::buildMesh(), CartesianGridDivision::CartesianGridDivision(), CartesianMeshGenerator::CartesianMeshGenerator(), PhysicsBase::checkParamsBothSetOrNotSet(), PhysicsBase::checkVectorParamsSameLength(), LibmeshPartitioner::clone(), cloneMesh(), CombinerGenerator::CombinerGenerator(), CSVReaderVectorPostprocessor::CSVReaderVectorPostprocessor(), CutMeshByPlaneGenerator::CutMeshByPlaneGenerator(), ConstantReporter::declareConstantReporterValues(), DGKernelBase::DGKernelBase(), DiffusionFluxAux::DiffusionFluxAux(), DomainUserObject::DomainUserObject(), DynamicObjectRegistrationAction::DynamicObjectRegistrationAction(), Eigenvalue::Eigenvalue(), ElementExtremeFunctorValueTempl< is_ad >::ElementExtremeFunctorValueTempl(), ElementExtremeValue::ElementExtremeValue(), ElementGroupCentroidPositions::ElementGroupCentroidPositions(), PIDTransientControl::execute(), MultiAppNearestNodeTransfer::execute(), MultiAppUserObjectTransfer::execute(), Exodus::Exodus(), ExtraIDIntegralReporter::ExtraIDIntegralReporter(), FEProblemBase::FEProblemBase(), FEProblemSolve::FEProblemSolve(), FieldSplitPreconditioner::FieldSplitPreconditioner(), FileOutput::FileOutput(), SpatialUserObjectVectorPostprocessor::fillPoints(), CombinerGenerator::fillPositions(), MultiApp::fillPositions(), FiniteDifferencePreconditioner::FiniteDifferencePreconditioner(), FunctionDT::FunctionDT(), FunctionValuePostprocessor::FunctionValuePostprocessor(), FVInterfaceKernel::FVInterfaceKernel(), FVMassMatrix::FVMassMatrix(), ExtraNodesetGenerator::generate(), FileMeshGenerator::generate(), LowerDBlockFromSidesetGenerator::generate(), SubdomainPerElementGenerator::generate(), AddMetaDataGenerator::generate(), BreakBoundaryOnSubdomainGenerator::generate(), GeneratedMeshGenerator::generate(), ParsedSubdomainMeshGenerator::generate(), SideSetsBetweenSubdomainsGenerator::generate(), BlockDeletionGenerator::generate(), MeshExtruderGenerator::generate(), XYDelaunayGenerator::generate(), ParsedGenerateSideset::generate(), SubdomainBoundingBoxGenerator::generate(), DistributedRectilinearMeshGenerator::generate(), MultiAppNearestNodeTransfer::getLocalEntitiesAndComponents(), MeshGenerator::getMeshGeneratorNameFromParam(), MeshGenerator::getMeshGeneratorNamesFromParam(), MooseBaseParameterInterface::getRenamedParam(), MultiAppNearestNodeTransfer::getTargetLocalNodes(), Terminator::handleMessage(), HFEMDirichletBC::HFEMDirichletBC(), EigenExecutionerBase::init(), IterationAdaptiveDT::init(), Eigenvalue::init(), AdvancedOutput::initExecutionTypes(), BlockRestrictable::initializeBlockRestrictable(), BoundaryRestrictable::initializeBoundaryRestrictable(), MultiAppCloneReporterTransfer::initialSetup(), MultiAppVariableValueSampleTransfer::initialSetup(), PiecewiseTabularBase::initialSetup(), SolutionScalarAux::initialSetup(), SolutionAux::initialSetup(), Console::initialSetup(), MooseParsedVectorFunction::initialSetup(), MultiAppGeneralFieldTransfer::initialSetup(), MooseParsedGradFunction::initialSetup(), MooseParsedFunction::initialSetup(), IterationAdaptiveDT::IterationAdaptiveDT(), LeastSquaresFit::LeastSquaresFit(), LibmeshPartitioner::LibmeshPartitioner(), LibtorchNeuralNetControl::LibtorchNeuralNetControl(), MassMatrix::MassMatrix(), MatCoupledForce::MatCoupledForce(), MatDiffusionBase< Real >::MatDiffusionBase(), MooseMesh::MooseMesh(), MoosePreconditioner::MoosePreconditioner(), MooseVariableBase::MooseVariableBase(), MooseVariableFV< Real >::MooseVariableFV(), MortarConstraintBase::MortarConstraintBase(), MoveNodeGenerator::MoveNodeGenerator(), MultiApp::MultiApp(), MultiAppCloneReporterTransfer::MultiAppCloneReporterTransfer(), MultiAppGeneralFieldNearestLocationTransfer::MultiAppGeneralFieldNearestLocationTransfer(), MultiAppGeneralFieldShapeEvaluationTransfer::MultiAppGeneralFieldShapeEvaluationTransfer(), MultiAppGeneralFieldTransfer::MultiAppGeneralFieldTransfer(), MultiAppGeneralFieldUserObjectTransfer::MultiAppGeneralFieldUserObjectTransfer(), MultiAppPostprocessorInterpolationTransfer::MultiAppPostprocessorInterpolationTransfer(), MultiAppPostprocessorTransfer::MultiAppPostprocessorTransfer(), MultiAppReporterTransfer::MultiAppReporterTransfer(), MultiAppTransfer::MultiAppTransfer(), MultiAppUserObjectTransfer::MultiAppUserObjectTransfer(), MultiAppVariableValueSampleTransfer::MultiAppVariableValueSampleTransfer(), NodalExtremeValue::NodalExtremeValue(), EigenExecutionerBase::normalizeSolution(), Output::Output(), MultiAppGeneralFieldTransfer::outputValueConflicts(), ParsedCurveGenerator::ParsedCurveGenerator(), ParsedGenerateSideset::ParsedGenerateSideset(), PetscOutput::PetscOutput(), PhysicsBasedPreconditioner::PhysicsBasedPreconditioner(), PicardSolve::PicardSolve(), PIDTransientControl::PIDTransientControl(), PiecewiseTabularBase::PiecewiseTabularBase(), PlaneIDMeshGenerator::PlaneIDMeshGenerator(), MooseMesh::prepare(), MultiApp::readCommandLineArguments(), SolutionUserObject::readExodusII(), RenameBlockGenerator::RenameBlockGenerator(), RenameBoundaryGenerator::RenameBoundaryGenerator(), ReporterPointSource::ReporterPointSource(), MooseMesh::setCoordSystem(), FileOutput::setFileBase(), FileOutput::setFileBaseInternal(), Split::setup(), SetupMeshAction::setupMesh(), SideDiffusiveFluxIntegralTempl< is_ad, Real >::SideDiffusiveFluxIntegralTempl(), SideExtremeValue::SideExtremeValue(), SolutionUserObject::SolutionUserObject(), Terminator::Terminator(), TimeIntervalTimes::TimeIntervalTimes(), TimePeriod::TimePeriod(), MultiAppDofCopyTransfer::transfer(), TransformGenerator::TransformGenerator(), VariableCondensationPreconditioner::VariableCondensationPreconditioner(), and VectorMagnitudeFunctorMaterialTempl< is_ad >::VectorMagnitudeFunctorMaterialTempl().

112 { return _pars.isParamValid(name); }
const InputParameters & _pars
Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.
bool isParamValid(const std::string &name) const
This method returns parameters that have been initialized in one fashion or another, i.e.

◆ isVectorPostprocessorDistributed()

bool VectorPostprocessorInterface::isVectorPostprocessorDistributed ( const std::string &  param_name) const
inherited

Return true if the VectorPostprocessor is marked with parallel_type as DISTRIBUTED.

Definition at line 190 of file VectorPostprocessorInterface.C.

191 {
193 }
const VectorPostprocessorName & getVectorPostprocessorName(const std::string &param_name) const
Get the name of a VectorPostprocessor associated with a parameter.
bool isVectorPostprocessorDistributedByName(const VectorPostprocessorName &name) const

◆ isVectorPostprocessorDistributedByName()

bool VectorPostprocessorInterface::isVectorPostprocessorDistributedByName ( const VectorPostprocessorName &  name) const
inherited

Definition at line 196 of file VectorPostprocessorInterface.C.

Referenced by VectorPostprocessorInterface::isVectorPostprocessorDistributed().

198 {
200 }
const VectorPostprocessor & getVectorPostprocessorObjectByName(const std::string &object_name, const THREAD_ID tid=0) const
Return the VPP object given the name.
bool isDistributed() const
Return true if the VPP is operating in distributed mode.
const FEProblemBase & _vpi_feproblem
Reference the FEProblemBase class.

◆ jacobianSetup()

void SetupInterface::jacobianSetup ( )
virtualinherited

◆ meshChanged()

void OversampleOutput::meshChanged ( )
overridevirtual

Called on this object when the mesh changes.

Reimplemented from MeshChangedInterface.

Reimplemented in Exodus.

Definition at line 115 of file OversampleOutput.C.

Referenced by Exodus::meshChanged().

116 {
118 }
bool _oversample_mesh_changed
A flag indicating that the mesh has changed and the oversampled mesh needs to be re-initialized.

◆ mooseDeprecated()

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

Definition at line 78 of file MooseBaseErrorInterface.h.

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

79  {
80  moose::internal::mooseDeprecatedStream(_console, false, true, std::forward<Args>(args)...);
81  }
void mooseDeprecatedStream(S &oss, const bool expired, const bool print_title, Args &&... args)
Definition: MooseError.h:236
const ConsoleStream _console
An instance of helper class to write streams to the Console objects.

◆ mooseError()

template<typename... Args>
void MooseBaseErrorInterface::mooseError ( Args &&...  args) const
inlineinherited

Emits an error prefixed with object name and type.

Definition at line 38 of file MooseBaseErrorInterface.h.

Referenced by HierarchicalGridPartitioner::_do_partition(), PetscExternalPartitioner::_do_partition(), MultiAppGeneralFieldTransfer::acceptPointInOriginMesh(), SetupMeshCompleteAction::act(), CreateExecutionerAction::act(), AddVectorPostprocessorAction::act(), CheckIntegrityAction::act(), AddICAction::act(), AddMeshGeneratorAction::act(), InitProblemAction::act(), CheckFVBCAction::act(), AutoCheckpointAction::act(), AddFVICAction::act(), CreateProblemAction::act(), CreateProblemDefaultAction::act(), SetupMeshAction::act(), SplitMeshAction::act(), AdaptivityAction::act(), SetupPredictorAction::act(), SetupTimeStepperAction::act(), AddTimeStepperAction::act(), DeprecatedBlockAction::act(), CreateDisplacedProblemAction::act(), MaterialDerivativeTestAction::act(), SetAdaptivityOptionsAction::act(), AddPeriodicBCAction::act(), CommonOutputAction::act(), MaterialOutputAction::act(), FEProblemBase::adaptMesh(), ADConservativeAdvectionBC::ADConservativeAdvectionBC(), FEProblemBase::addConstraint(), DistributedRectilinearMeshGenerator::addElement(), FEProblemBase::addFunction(), SubProblem::addFunctor(), FEProblemBase::addFVInitialCondition(), ADDGKernel::ADDGKernel(), FEProblemBase::addInitialCondition(), FEProblem::addLineSearch(), FEProblemBase::addLineSearch(), MeshGenerator::addMeshSubgenerator(), FEProblemBase::addOutput(), SubProblem::addPiecewiseByBlockLambdaFunctor(), DiracKernelBase::addPoint(), DistributedRectilinearMeshGenerator::addPoint(), DiracKernelBase::addPointWithValidId(), FEProblemBase::addPostprocessor(), CreateDisplacedProblemAction::addProxyRelationshipManagers(), MooseMesh::addQuadratureNode(), Action::addRelationshipManager(), FEProblemBase::addReporter(), AddVariableAction::addVariable(), FEProblemBase::addVectorPostprocessor(), SubProblem::addVectorTag(), ADInterfaceKernelTempl< T >::ADInterfaceKernelTempl(), ADPiecewiseLinearInterpolationMaterial::ADPiecewiseLinearInterpolationMaterial(), MooseVariableScalar::adUDot(), Output::advancedExecuteOn(), AdvectiveFluxAux::AdvectiveFluxAux(), MooseVariableBase::allDofIndices(), MultiApp::appPostprocessorValue(), MultiApp::appProblem(), MultiApp::appProblemBase(), MultiApp::appUserObjectBase(), ArrayConstantIC::ArrayConstantIC(), ArrayDGKernel::ArrayDGKernel(), ArrayDiffusion::ArrayDiffusion(), ArrayFunctionIC::ArrayFunctionIC(), ArrayParsedAux::ArrayParsedAux(), ArrayReaction::ArrayReaction(), ArrayTimeDerivative::ArrayTimeDerivative(), AddPeriodicBCAction::autoTranslationBoundaries(), AuxKernelTempl< Real >::AuxKernelTempl(), Function::average(), Axisymmetric2D3DSolutionFunction::Axisymmetric2D3DSolutionFunction(), BicubicSplineFunction::BicubicSplineFunction(), BlockDeletionGenerator::BlockDeletionGenerator(), BoundingValueElementDamper::BoundingValueElementDamper(), BoundingValueNodalDamper::BoundingValueNodalDamper(), BreakMeshByBlockGeneratorBase::BreakMeshByBlockGeneratorBase(), MooseMesh::buildCoarseningMap(), MultiApp::buildComm(), DistributedRectilinearMeshGenerator::buildCube(), PiecewiseTabularBase::buildFromFile(), PiecewiseTabularBase::buildFromJSON(), PiecewiseTabularBase::buildFromXY(), PiecewiseLinearBase::buildInterpolation(), MooseMesh::buildLowerDMesh(), TiledMesh::buildMesh(), GeneratedMesh::buildMesh(), SpiralAnnularMesh::buildMesh(), MeshGeneratorMesh::buildMesh(), ImageMeshGenerator::buildMesh3D(), ImageMesh::buildMesh3D(), MooseMesh::buildRefinementMap(), MaterialBase::buildRequiredMaterials(), MooseMesh::buildSideList(), MooseMesh::buildTypedMesh(), MooseMesh::cacheFaceInfoVariableOwnership(), CartesianGridDivision::CartesianGridDivision(), CartesianMeshGenerator::CartesianMeshGenerator(), UserObjectInterface::castUserObject(), ChangeOverFixedPointPostprocessor::ChangeOverFixedPointPostprocessor(), ChangeOverTimePostprocessor::ChangeOverTimePostprocessor(), EigenExecutionerBase::chebyshev(), SubProblem::checkBlockMatProps(), SubProblem::checkBoundaryMatProps(), MooseMesh::checkCoordinateSystems(), FEProblemBase::checkDependMaterialsHelper(), FEProblemBase::checkDisplacementOrders(), FEProblemBase::checkDuplicatePostprocessorVariableNames(), MooseMesh::checkDuplicateSubdomainNames(), FEProblemBase::checkExceptionAndStopSolve(), MaterialBase::checkExecutionStage(), MeshGenerator::checkGetMesh(), ReporterTransferInterface::checkHasReporterValue(), FEProblemBase::checkICRestartError(), Steady::checkIntegrity(), EigenExecutionerBase::checkIntegrity(), Eigenvalue::checkIntegrity(), ExplicitTimeIntegrator::checkLinearConvergence(), MeshDiagnosticsGenerator::checkNonConformalMeshFromAdaptivity(), PostprocessorInterface::checkParam(), FEProblemBase::checkProblemIntegrity(), Sampler::checkReinitStatus(), MultiAppPostprocessorToAuxScalarTransfer::checkSiblingsTransferSupported(), MultiAppScalarToAuxScalarTransfer::checkSiblingsTransferSupported(), MultiAppPostprocessorTransfer::checkSiblingsTransferSupported(), MultiAppReporterTransfer::checkSiblingsTransferSupported(), MultiAppCopyTransfer::checkSiblingsTransferSupported(), MultiAppTransfer::checkSiblingsTransferSupported(), MaterialBase::checkStatefulSanity(), FEProblemBase::checkUserObjects(), DomainUserObject::checkVariable(), MultiAppTransfer::checkVariable(), PhysicsBase::checkVectorParamsNoOverlap(), LibmeshPartitioner::clone(), MooseMesh::clone(), CombinerGenerator::CombinerGenerator(), ComparisonPostprocessor::comparisonIsTrue(), ElementSubdomainModifier::complementMovingBoundaryID(), ElementSubdomainModifier::complementMovingBoundaryName(), MooseVariableFieldBase::componentName(), CompositeFunction::CompositeFunction(), ElementH1ErrorFunctionAux::compute(), NodalPatchRecovery::compute(), FEProblemBase::computeBounds(), VariableCondensationPreconditioner::computeDInverseDiag(), CompositionDT::computeDT(), ArrayDGKernel::computeElemNeighJacobian(), ArrayDGKernel::computeElemNeighResidual(), InternalSideIntegralPostprocessor::computeFaceInfoIntegral(), SideIntegralPostprocessor::computeFaceInfoIntegral(), MooseVariableFieldBase::computeFaceValues(), TimeSequenceStepperBase::computeFailedDT(), IterationAdaptiveDT::computeFailedDT(), TimeStepper::computeFailedDT(), MooseMesh::computeFiniteVolumeCoords(), HistogramVectorPostprocessor::computeHistogram(), ArrayKernel::computeJacobian(), ArrayIntegratedBC::computeJacobian(), FVFluxKernel::computeJacobian(), NodalConstraint::computeJacobian(), FEProblemBase::computeJacobianTags(), LowerDIntegratedBC::computeLowerDOffDiagJacobian(), ArrayLowerDIntegratedBC::computeLowerDOffDiagJacobian(), EigenProblem::computeMatricesTags(), ArrayDGKernel::computeOffDiagElemNeighJacobian(), ArrayKernel::computeOffDiagJacobian(), ArrayIntegratedBC::computeOffDiagJacobian(), FVElementalKernel::computeOffDiagJacobian(), MortarScalarBase::computeOffDiagJacobianScalar(), DGLowerDKernel::computeOffDiagLowerDJacobian(), ArrayDGLowerDKernel::computeOffDiagLowerDJacobian(), MaterialBase::computeProperties(), ScalarKernel::computeQpJacobian(), CoupledTiedValueConstraint::computeQpJacobian(), TiedValueConstraint::computeQpJacobian(), NodalEqualValueConstraint::computeQpJacobian(), LinearNodalConstraint::computeQpJacobian(), EqualValueBoundaryConstraint::computeQpJacobian(), EqualValueEmbeddedConstraint::computeQpJacobian(), CoupledTiedValueConstraint::computeQpOffDiagJacobian(), EqualValueEmbeddedConstraint::computeQpOffDiagJacobian(), ScalarKernel::computeQpResidual(), NodalEqualValueConstraint::computeQpResidual(), KernelValue::computeQpResidual(), InterfaceQpValueUserObject::computeRealValue(), ArrayKernel::computeResidual(), ArrayIntegratedBC::computeResidual(), FVFluxBC::computeResidual(), FVFluxKernel::computeResidual(), NodalConstraint::computeResidual(), FVFluxKernel::computeResidualAndJacobian(), ResidualObject::computeResidualAndJacobian(), FEProblemBase::computeResidualAndJacobian(), FEProblemBase::computeResidualInternal(), FEProblemBase::computeResidualL2Norm(), FEProblemBase::computeResidualTag(), FEProblemBase::computeResidualTags(), FEProblemBase::computeResidualType(), KernelScalarBase::computeScalarOffDiagJacobian(), ADKernelScalarBase::computeScalarQpResidual(), ADMortarScalarBase::computeScalarQpResidual(), MortarScalarBase::computeScalarQpResidual(), KernelScalarBase::computeScalarQpResidual(), TimeStepper::computeStep(), ActuallyExplicitEuler::computeTimeDerivatives(), ExplicitEuler::computeTimeDerivatives(), ImplicitEuler::computeTimeDerivatives(), BDF2::computeTimeDerivatives(), NewmarkBeta::computeTimeDerivatives(), CentralDifference::computeTimeDerivatives(), CrankNicolson::computeTimeDerivatives(), LStableDirk2::computeTimeDerivatives(), LStableDirk3::computeTimeDerivatives(), ImplicitMidpoint::computeTimeDerivatives(), ExplicitTVDRK2::computeTimeDerivatives(), AStableDirk4::computeTimeDerivatives(), LStableDirk4::computeTimeDerivatives(), ExplicitRK2::computeTimeDerivatives(), MultiAppGeometricInterpolationTransfer::computeTransformation(), BuildArrayVariableAux::computeValue(), TagVectorArrayVariableAux::computeValue(), PenetrationAux::computeValue(), ConcentricCircleMesh::ConcentricCircleMesh(), ConditionalEnableControl::ConditionalEnableControl(), TimeStepper::constrainStep(), LibtorchNeuralNetControl::controlNeuralNet(), CoupledForceNodalKernel::CoupledForceNodalKernel(), MultiApp::createApp(), AddVariableAction::createInitialConditionAction(), Function::curl(), MooseVariableFV< Real >::curlPhi(), SidesetInfoVectorPostprocessor::dataHelper(), ReporterTransferInterface::declareClone(), MeshGenerator::declareMeshProperty(), ReporterTransferInterface::declareVectorClone(), FunctorRelationshipManager::delete_remote_elements(), MooseMesh::deleteRemoteElements(), BicubicSplineFunction::derivative(), DerivativeSumMaterialTempl< is_ad >::DerivativeSumMaterialTempl(), MooseMesh::detectPairedSidesets(), FEProblemBase::determineNonlinearSystem(), DGKernel::DGKernel(), MeshDiagnosticsGenerator::diagnosticsLog(), DistributedPositions::DistributedPositions(), Function::div(), FunctorBinnedValuesDivision::divisionIndex(), MooseVariableFV< Real >::divPhi(), FunctorRelationshipManager::dofmap_reinit(), EigenProblem::doFreeNonlinearPowerIterations(), FEProblemBase::duplicateVariableCheck(), EigenProblem::EigenProblem(), Eigenvalue::Eigenvalue(), Eigenvalues::Eigenvalues(), ElementalVariableValue::ElementalVariableValue(), ElementGroupCentroidPositions::ElementGroupCentroidPositions(), ElementIntegerAux::ElementIntegerAux(), ElementQualityAux::ElementQualityAux(), ElementUOAux::ElementUOAux(), DistributedRectilinearMeshGenerator::elemId(), ProjectionAux::elemOnNodeVariableIsDefinedOn(), MooseMesh::errorIfDistributedMesh(), SolutionUserObject::evalMeshFunction(), SolutionUserObject::evalMeshFunctionGradient(), SolutionUserObject::evalMultiValuedMeshFunction(), SolutionUserObject::evalMultiValuedMeshFunctionGradient(), MultiAppGeneralFieldTransfer::examineReceivedValueConflicts(), RestartableDataReporter::execute(), DiscreteElementUserObject::execute(), MultiAppPostprocessorToAuxScalarTransfer::execute(), MultiAppScalarToAuxScalarTransfer::execute(), NodalValueSampler::execute(), MultiAppPostprocessorInterpolationTransfer::execute(), ElementQualityChecker::execute(), MultiAppPostprocessorTransfer::execute(), PositionsFunctorValueSampler::execute(), PointValue::execute(), MultiAppVariableValueSampleTransfer::execute(), GreaterThanLessThanPostprocessor::execute(), MultiAppVariableValueSamplePostprocessorTransfer::execute(), FindValueOnLine::execute(), MultiAppNearestNodeTransfer::execute(), MultiAppCopyTransfer::execute(), MultiAppGeometricInterpolationTransfer::execute(), InterfaceQpUserObjectBase::execute(), MultiAppUserObjectTransfer::execute(), LeastSquaresFit::execute(), VectorPostprocessorComparison::execute(), LeastSquaresFitHistory::execute(), TimeExtremeValue::execute(), Eigenvalue::execute(), DomainUserObject::execute(), FEProblemBase::execute(), FEProblemBase::executeControls(), MultiAppVectorPostprocessorTransfer::executeFromMultiapp(), MultiAppVectorPostprocessorTransfer::executeToMultiapp(), Exodus::Exodus(), ExplicitSSPRungeKutta::ExplicitSSPRungeKutta(), MultiAppGeneralFieldTransfer::extractOutgoingPoints(), FileOutput::FileOutput(), QuadraturePointMultiApp::fillPositions(), CentroidMultiApp::fillPositions(), MultiApp::fillPositions(), MultiAppGeometricInterpolationTransfer::fillSourceInterpolationPoints(), VerifyElementUniqueID::finalize(), VerifyNodalUniqueID::finalize(), DiscreteElementUserObject::finalize(), ElementQualityChecker::finalize(), MemoryUsage::finalize(), PointSamplerBase::finalize(), NearestPointAverage::finalize(), NearestPointIntegralVariablePostprocessor::finalize(), Transfer::find_sys(), BreakMeshByBlockGeneratorBase::findFreeBoundaryId(), FunctionDT::FunctionDT(), FunctionMaterialBase< is_ad >::FunctionMaterialBase(), FunctionScalarAux::FunctionScalarAux(), FunctionScalarIC::FunctionScalarIC(), MaterialOutputAction::functorMaterialOutputHelper(), FunctorSmootherTempl< T >::FunctorSmootherTempl(), FVInitialConditionTempl< T >::FVInitialConditionTempl(), FVMassMatrix::FVMassMatrix(), FVMatAdvection::FVMatAdvection(), FVScalarLagrangeMultiplierInterface::FVScalarLagrangeMultiplierInterface(), GapValueAux::GapValueAux(), WorkBalance::gather(), LowerDBlockFromSidesetGenerator::generate(), BlockToMeshConverterGenerator::generate(), ExtraNodesetGenerator::generate(), FileMeshGenerator::generate(), MoveNodeGenerator::generate(), PlaneIDMeshGenerator::generate(), RenameBlockGenerator::generate(), RenameBoundaryGenerator::generate(), SideSetsFromNormalsGenerator::generate(), SmoothMeshGenerator::generate(), SubdomainPerElementGenerator::generate(), TiledMeshGenerator::generate(), CoarsenBlockGenerator::generate(), CutMeshByPlaneGenerator::generate(), BreakMeshByBlockGenerator::generate(), GeneratedMeshGenerator::generate(), MeshDiagnosticsGenerator::generate(), MeshRepairGenerator::generate(), FlipSidesetGenerator::generate(), SideSetsFromPointsGenerator::generate(), MeshExtruderGenerator::generate(), MeshCollectionGenerator::generate(), SideSetsFromBoundingBoxGenerator::generate(), StackGenerator::generate(), StitchedMeshGenerator::generate(), CombinerGenerator::generate(), AllSideSetsByNormalsGenerator::generate(), SpiralAnnularMeshGenerator::generate(), XYDelaunayGenerator::generate(), XYMeshLineCutter::generate(), PatternedMeshGenerator::generate(), SubdomainBoundingBoxGenerator::generate(), DistributedRectilinearMeshGenerator::generate(), BoundingBoxNodeSetGenerator::generate(), MeshGenerator::generateData(), GeneratedMesh::GeneratedMesh(), GeneratedMeshGenerator::GeneratedMeshGenerator(), MeshGenerator::generateInternal(), CircularBoundaryCorrectionGenerator::generateRadialCorrectionFactor(), RandomICBase::generateRandom(), GenericConstantMaterialTempl< is_ad >::GenericConstantMaterialTempl(), GenericConstantVectorMaterialTempl< is_ad >::GenericConstantVectorMaterialTempl(), GenericFunctionMaterialTempl< is_ad >::GenericFunctionMaterialTempl(), GenericFunctionVectorMaterialTempl< is_ad >::GenericFunctionVectorMaterialTempl(), GenericFunctorGradientMaterialTempl< is_ad >::GenericFunctorGradientMaterialTempl(), GenericFunctorMaterialTempl< is_ad >::GenericFunctorMaterialTempl(), GenericVectorFunctorMaterialTempl< is_ad >::GenericVectorFunctorMaterialTempl(), DisplacedProblem::getActualFieldVariable(), FEProblemBase::getActualFieldVariable(), DisplacedProblem::getArrayVariable(), FEProblemBase::getArrayVariable(), MooseMesh::getAxisymmetricRadialCoord(), MooseMesh::getBlockConnectedBlocks(), VariableOldValueBounds::getBound(), MooseMesh::getBoundaryID(), MultiApp::getBoundingBox(), MooseMesh::getCoarseningMap(), MooseVariableBase::getContinuity(), Control::getControllableParameterByName(), MooseMesh::getCoordSystem(), PhysicsBase::getCoupledPhysics(), PropertyReadFile::getData(), TransfiniteMeshGenerator::getDiscreteEdge(), FEProblemBase::getDistribution(), MooseVariableBase::getDofIndices(), VariableCondensationPreconditioner::getDofToCondense(), TransfiniteMeshGenerator::getEdge(), GhostingUserObject::getElementalValue(), ElementUOProvider::getElementalValueLong(), ElementUOProvider::getElementalValueReal(), PropertyReadFile::getElementData(), MooseMesh::getElementIDIndex(), Material::getElementIDNeighbor(), Material::getElementIDNeighborByName(), MooseMesh::getElemIDMapping(), MooseMesh::getElemIDsOnBlocks(), MultiAppFieldTransfer::getEquationSystem(), MultiApp::getExecutioner(), MultiAppTransfer::getFromMultiApp(), MultiAppTransfer::getFromMultiAppInfo(), FEProblemBase::getFunction(), SubProblem::getFunctor(), MooseMesh::getGeneralAxisymmetricCoordAxis(), DistributedRectilinearMeshGenerator::getGhostNeighbors(), BatchMaterial< Tuple, Output, Input >::getIndex(), DistributedRectilinearMeshGenerator::getIndices(), SolutionUserObject::getLocalVarIndex(), Material::getMaterialByName(), FEProblemBase::getMaterialData(), SubProblem::getMatrixTagID(), AnnularMesh::getMaxInDimension(), GeneratedMesh::getMaxInDimension(), FEProblemBase::getMaxQps(), FEProblemBase::getMeshDivision(), MeshGenerator::getMeshGeneratorNameFromParam(), MeshGenerator::getMeshGeneratorNamesFromParam(), AnnularMesh::getMinInDimension(), GeneratedMesh::getMinInDimension(), MultiAppTransfer::getMultiApp(), DistributedRectilinearMeshGenerator::getNeighbors(), Times::getNextTime(), MooseMesh::getNodeBlockIds(), PropertyReadFile::getNodeData(), MooseMesh::getNodeList(), EigenProblem::getNonlinearEigenSystem(), FEProblemBase::getNonlinearSystem(), MooseMesh::getPairedBoundaryMapping(), ImageMeshGenerator::GetPixelInfo(), ImageMesh::GetPixelInfo(), PlaneIDMeshGenerator::getPlaneID(), Positions::getPosition(), Positions::getPositions(), FEProblemBase::getPositionsObject(), Positions::getPositionsVector2D(), Positions::getPositionsVector3D(), Positions::getPositionsVector4D(), PostprocessorInterface::getPostprocessorValueByNameInternal(), Times::getPreviousTime(), InterfaceQpUserObjectBase::getQpValue(), MooseMesh::getRefinementMap(), ReporterInterface::getReporterName(), Reporter::getReporterValueName(), FEProblemBase::getSampler(), JSONFileReader::getScalar(), DisplacedProblem::getScalarVariable(), FEProblemBase::getScalarVariable(), InterfaceQpUserObjectBase::getSideAverageValue(), DisplacedProblem::getStandardVariable(), FEProblemBase::getStandardVariable(), MooseMesh::getSubdomainBoundaryIds(), DisplacedProblem::getSystem(), FEProblemBase::getSystem(), Times::getTimeAtIndex(), FEProblemBase::getTimeFromStateArg(), Transient::getTimeIntegratorName(), Times::getTimes(), MultiAppTransfer::getToMultiApp(), MultiAppTransfer::getToMultiAppInfo(), MooseMesh::getUniqueCoordSystem(), FEProblemBase::getUserObject(), FEProblemBase::getUserObjectBase(), UserObjectInterface::getUserObjectBaseByName(), UserObjectInterface::getUserObjectName(), NumRelationshipManagers::getValue(), VectorPostprocessorComponent::getValue(), Residual::getValue(), SideAverageValue::getValue(), LineValueSampler::getValue(), FindValueOnLine::getValueAtPoint(), SubProblem::getVariableHelper(), JSONFileReader::getVector(), VectorPostprocessorInterface::getVectorPostprocessorName(), SubProblem::getVectorTag(), SubProblem::getVectorTagID(), DisplacedProblem::getVectorVariable(), FEProblemBase::getVectorVariable(), GhostingAux::GhostingAux(), MultiApp::globalAppToLocal(), MooseParsedVectorFunction::gradient(), Function::gradient(), FEProblemBase::handleException(), Terminator::handleMessage(), MooseVariableBase::hasDoFsOnNodes(), PostprocessorInterface::hasPostprocessor(), PostprocessorInterface::hasPostprocessorByName(), ReporterInterface::hasReporterValue(), ReporterInterface::hasReporterValueByName(), VectorPostprocessorInterface::hasVectorPostprocessor(), VectorPostprocessorInterface::hasVectorPostprocessorByName(), CrankNicolson::init(), CSVTimeSequenceStepper::init(), ExplicitTimeIntegrator::init(), EigenExecutionerBase::init(), IterationAdaptiveDT::init(), Transient::init(), AddAuxVariableAction::init(), Eigenvalue::init(), AddVariableAction::init(), MooseMesh::init(), Sampler::init(), FEProblemBase::init(), MultiApp::init(), FEProblemBase::initialAdaptMesh(), NestedDivision::initialize(), TransformedPositions::initialize(), DistributedPositions::initialize(), ReporterPositions::initialize(), FunctorPositions::initialize(), ReporterTimes::initialize(), ElementGroupCentroidPositions::initialize(), FunctorTimes::initialize(), MultiAppCloneReporterTransfer::initialSetup(), SolutionIC::initialSetup(), IntegralPreservingFunctionIC::initialSetup(), MultiAppConservativeTransfer::initialSetup(), PiecewiseLinearBase::initialSetup(), ReferenceResidualProblem::initialSetup(), FullSolveMultiApp::initialSetup(), PiecewiseLinear::initialSetup(), CoarsenedPiecewiseLinear::initialSetup(), SolutionScalarAux::initialSetup(), MultiAppGeneralFieldNearestLocationTransfer::initialSetup(), SolutionAux::initialSetup(), NodalVariableValue::initialSetup(), Axisymmetric2D3DSolutionFunction::initialSetup(), Exodus::initialSetup(), CSV::initialSetup(), MooseParsedFunction::initialSetup(), SolutionUserObject::initialSetup(), FEProblemBase::initialSetup(), SubProblem::initialSetup(), AdvancedOutput::initOutputList(), AdvancedOutput::initShowHideLists(), Function::integral(), InterfaceDiffusiveFluxIntegralTempl< is_ad >::InterfaceDiffusiveFluxIntegralTempl(), InterfaceIntegralVariableValuePostprocessor::InterfaceIntegralVariableValuePostprocessor(), InterfaceKernelTempl< T >::InterfaceKernelTempl(), InterfaceTimeKernel::InterfaceTimeKernel(), MultiAppGeometricInterpolationTransfer::interpolateTargetPoints(), EigenExecutionerBase::inversePowerIteration(), InversePowerMethod::InversePowerMethod(), Sampler::isAdaptiveSamplingCompleted(), MooseMesh::isBoundaryFullyExternalToSubdomains(), MooseVariableBase::isNodal(), IterationAdaptiveDT::IterationAdaptiveDT(), LeastSquaresFit::LeastSquaresFit(), LibmeshPartitioner::LibmeshPartitioner(), LibtorchNeuralNetControl::LibtorchNeuralNetControl(), LinearCombinationPostprocessor::LinearCombinationPostprocessor(), LinearNodalConstraint::LinearNodalConstraint(), LineMaterialSamplerBase< Real >::LineMaterialSamplerBase(), LineSearch::lineSearch(), LineValueSampler::LineValueSampler(), MultiAppGeneralFieldTransfer::locatePointReceivers(), LowerBoundNodalKernel::LowerBoundNodalKernel(), MooseVariableFV< Real >::lowerDError(), PNGOutput::makePNG(), ReporterPointMarker::markerSetup(), MassMatrix::MassMatrix(), Material::Material(), MaterialOutputAction::materialOutputHelper(), MaterialRealTensorValueAux::MaterialRealTensorValueAux(), MaterialRealVectorValueAuxTempl< is_ad >::MaterialRealVectorValueAuxTempl(), MaterialStdVectorRealGradientAux::MaterialStdVectorRealGradientAux(), MaterialVectorPostprocessor::MaterialVectorPostprocessor(), Distribution::median(), FunctorRelationshipManager::mesh_reinit(), SubProblem::meshChanged(), MeshDiagnosticsGenerator::MeshDiagnosticsGenerator(), MeshExtruderGenerator::MeshExtruderGenerator(), MeshRepairGenerator::MeshRepairGenerator(), SetupMeshAction::modifyParamsForUseSplit(), MeshMetaDataInterface::mooseErrorInternal(), MooseMesh::MooseMesh(), MooseVariableBase::MooseVariableBase(), MooseVariableConstMonomial::MooseVariableConstMonomial(), MoveNodeGenerator::MoveNodeGenerator(), ElementSubdomainModifier::movingBoundaryID(), ElementSubdomainModifier::movingBoundaryName(), MultiApp::MultiApp(), MultiAppPostprocessorTransfer::MultiAppPostprocessorTransfer(), MultiAppTransfer::MultiAppTransfer(), MultiAppUserObjectTransfer::MultiAppUserObjectTransfer(), MultiAppVariableValueSamplePostprocessorTransfer::MultiAppVariableValueSamplePostprocessorTransfer(), NearestNodeDistanceAux::NearestNodeDistanceAux(), NearestNodeValueAux::NearestNodeValueAux(), FEProblemBase::needsPreviousNewtonIteration(), NewmarkBeta::NewmarkBeta(), NodalConstraint::NodalConstraint(), MooseVariableFV< Real >::nodalDofIndex(), MooseVariableFV< Real >::nodalDofIndexNeighbor(), MooseVariableFV< Real >::nodalMatrixTagValue(), NodalPatchRecoveryBase::nodalPatchRecovery(), NodalPatchRecoveryAuxBase::NodalPatchRecoveryAuxBase(), NodalScalarKernel::NodalScalarKernel(), MooseVariableFV< Real >::nodalValueArray(), MooseVariableFV< Real >::nodalValueOldArray(), MooseVariableFV< Real >::nodalValueOlderArray(), NodalVariableValue::NodalVariableValue(), MooseVariableFV< Real >::nodalVectorTagValue(), DistributedRectilinearMeshGenerator::nodeId(), PhysicsBase::nonlinearVariableExists(), MooseVariableFV< Real >::numberOfDofsNeighbor(), NumDOFs::NumDOFs(), NumFailedTimeSteps::NumFailedTimeSteps(), DistributedRectilinearMeshGenerator::numNeighbors(), NumNonlinearIterations::NumNonlinearIterations(), NumVars::NumVars(), Output::onInterval(), FunctorRelationshipManager::operator()(), RelationshipManager::operator==(), XDA::output(), SolutionHistory::output(), Exodus::output(), Output::Output(), AdvancedOutput::outputElementalVariables(), AdvancedOutput::outputInput(), AdvancedOutput::outputNodalVariables(), AdvancedOutput::outputPostprocessors(), AdvancedOutput::outputReporters(), AdvancedOutput::outputScalarVariables(), Exodus::outputSetup(), AdvancedOutput::outputSystemInformation(), Console::outputVectorPostprocessors(), AdvancedOutput::outputVectorPostprocessors(), DistributedRectilinearMeshGenerator::paritionSquarely(), PiecewiseBilinear::parse(), ParsedAux::ParsedAux(), ParsedCurveGenerator::ParsedCurveGenerator(), ParsedGenerateSideset::ParsedGenerateSideset(), ParsedODEKernel::ParsedODEKernel(), ParsedPostprocessor::ParsedPostprocessor(), ParsedSubdomainMeshGenerator::ParsedSubdomainMeshGenerator(), MultiAppConservativeTransfer::performAdjustment(), ExplicitTimeIntegrator::performExplicitSolve(), PetscExternalPartitioner::PetscExternalPartitioner(), MooseVariableFV< Real >::phiLowerSize(), PhysicsBasedPreconditioner::PhysicsBasedPreconditioner(), Executioner::picardSolve(), PIDTransientControl::PIDTransientControl(), PiecewiseBilinear::PiecewiseBilinear(), PiecewiseLinearInterpolationMaterial::PiecewiseLinearInterpolationMaterial(), PiecewiseMulticonstant::PiecewiseMulticonstant(), PiecewiseMultiInterpolation::PiecewiseMultiInterpolation(), PiecewiseTabularBase::PiecewiseTabularBase(), CutMeshByPlaneGenerator::pointPairPlaneInterception(), SolutionUserObject::pointValueGradientWrapper(), SolutionUserObject::pointValueWrapper(), ReporterInterface::possiblyCheckHasReporter(), VectorPostprocessorInterface::possiblyCheckHasVectorPostprocessorByName(), LStableDirk2::postResidual(), LStableDirk3::postResidual(), ImplicitMidpoint::postResidual(), ExplicitTVDRK2::postResidual(), AStableDirk4::postResidual(), LStableDirk4::postResidual(), ExplicitRK2::postResidual(), EigenProblem::postScaleEigenVector(), VariableCondensationPreconditioner::preallocateCondensedJacobian(), ADKernelValueTempl< T >::precomputeQpJacobian(), Predictor::Predictor(), Transient::preExecute(), MooseMesh::prepare(), MooseMesh::prepared(), FixedPointSolve::printFixedPointConvergenceReason(), PseudoTimestep::PseudoTimestep(), MultiApp::readCommandLineArguments(), PropertyReadFile::readData(), SolutionUserObject::readExodusII(), SolutionUserObject::readXda(), CoarsenBlockGenerator::recursiveCoarsen(), FunctorRelationshipManager::redistribute(), ReferenceResidualProblem::ReferenceResidualProblem(), Sampler::reinit(), EqualValueEmbeddedConstraint::reinitConstraint(), RelativeSolutionDifferenceNorm::RelativeSolutionDifferenceNorm(), RinglebMesh::RinglebMesh(), RinglebMeshGenerator::RinglebMeshGenerator(), PiecewiseMultiInterpolation::sample(), ScalarComponentIC::ScalarComponentIC(), MortarScalarBase::scalarVariable(), DistributedRectilinearMeshGenerator::scaleNodalPositions(), BicubicSplineFunction::secondDerivative(), MooseVariableFV< Real >::secondPhi(), MooseVariableFV< Real >::secondPhiFace(), MooseVariableFV< Real >::secondPhiFaceNeighbor(), MooseVariableFV< Real >::secondPhiNeighbor(), FunctorRelationshipManager::set_mesh(), MooseVariableBase::setActiveTags(), DistributedRectilinearMeshGenerator::setBoundaryNames(), MooseMesh::setCoordSystem(), FEProblemBase::setCoupling(), PiecewiseBase::setData(), FileOutput::setFileBaseInternal(), MooseMesh::setGeneralAxisymmetricCoordAxes(), FEProblemSolve::setInnerSolve(), MeshGenerator::setMeshProperty(), FVPointValueConstraint::setMyElem(), FEProblemBase::setNonlocalCouplingMatrix(), Sampler::setNumberOfCols(), Sampler::setNumberOfRandomSeeds(), Sampler::setNumberOfRows(), Exodus::setOutputDimensionInExodusWriter(), MultiAppGeneralFieldTransfer::setSolutionVectorValues(), Split::setup(), TransientMultiApp::setupApp(), SetupMeshAction::setupMesh(), TimeSequenceStepperBase::setupSequence(), Transient::setupTimeIntegrator(), TimePeriodBase::setupTimes(), SideAdvectiveFluxIntegralTempl< is_ad >::SideAdvectiveFluxIntegralTempl(), SideDiffusiveFluxIntegralTempl< is_ad, Real >::SideDiffusiveFluxIntegralTempl(), SideSetsFromBoundingBoxGenerator::SideSetsFromBoundingBoxGenerator(), SideSetsFromNormalsGenerator::SideSetsFromNormalsGenerator(), SideSetsFromPointsGenerator::SideSetsFromPointsGenerator(), SingleMatrixPreconditioner::SingleMatrixPreconditioner(), SolutionTimeAdaptiveDT::SolutionTimeAdaptiveDT(), SolutionUserObject::SolutionUserObject(), FullSolveMultiApp::solveStep(), SpatialAverageBase::SpatialAverageBase(), UserObject::spatialPoints(), NearestPointAverage::spatialValue(), NearestPointIntegralVariablePostprocessor::spatialValue(), MeshDivisionFunctorReductionVectorPostprocessor::spatialValue(), UserObject::spatialValue(), SpiralAnnularMesh::SpiralAnnularMesh(), SpiralAnnularMeshGenerator::SpiralAnnularMeshGenerator(), StitchedMesh::StitchedMesh(), MultiAppGeometricInterpolationTransfer::subdomainIDsNode(), Constraint::subdomainSetup(), GeneralUserObject::subdomainSetup(), NodalUserObject::subdomainSetup(), MaterialBase::subdomainSetup(), FEProblemBase::swapBackMaterialsNeighbor(), Console::systemInfoFlags(), Terminator::Terminator(), CutMeshByPlaneGenerator::tet4ElemCutter(), ThreadedGeneralUserObject::threadJoin(), DiscreteElementUserObject::threadJoin(), GeneralUserObject::threadJoin(), Function::timeDerivative(), TimeExtremeValue::TimeExtremeValue(), TimeIntervalTimes::TimeIntervalTimes(), TimePeriodBase::TimePeriodBase(), VectorPostprocessorVisualizationAux::timestepSetup(), MultiAppDofCopyTransfer::transfer(), MultiAppShapeEvaluationTransfer::transferVariable(), TransformedPositions::TransformedPositions(), FEProblemBase::trustUserCouplingMatrix(), MooseVariableScalar::uDot(), MooseVariableScalar::uDotDot(), MooseVariableScalar::uDotDotOld(), FEProblemBase::uDotDotOldRequested(), MooseVariableScalar::uDotOld(), FEProblemBase::uDotOldRequested(), Positions::unrollMultiDPositions(), ScalarKernelBase::uOld(), AuxScalarKernel::uOld(), Checkpoint::updateCheckpointFiles(), EqualValueBoundaryConstraint::updateConstrainedNodes(), SolutionUserObject::updateExodusBracketingTimeIndices(), FEProblemBase::updateMaxQps(), UpperBoundNodalKernel::UpperBoundNodalKernel(), NearestPointAverage::userObjectValue(), NearestPointIntegralVariablePostprocessor::userObjectValue(), BoundingBoxIC::value(), PiecewiseConstantFromCSV::value(), IntegralPreservingFunctionIC::value(), Axisymmetric2D3DSolutionFunction::value(), Function::value(), ValueRangeMarker::ValueRangeMarker(), ValueThresholdMarker::ValueThresholdMarker(), VariableCondensationPreconditioner::VariableCondensationPreconditioner(), MultiAppTransfer::variableIntegrityCheck(), VariableTimeIntegrationAux::VariableTimeIntegrationAux(), AddVariableAction::variableType(), VariableValueVolumeHistogram::VariableValueVolumeHistogram(), VectorMagnitudeFunctorMaterialTempl< is_ad >::VectorMagnitudeFunctorMaterialTempl(), VectorNodalBC::VectorNodalBC(), SubProblem::vectorTagName(), SubProblem::vectorTagType(), MooseParsedGradFunction::vectorValue(), MooseParsedFunction::vectorValue(), Function::vectorValue(), SubProblem::verifyVectorTags(), VTKOutput::VTKOutput(), DOFMapOutput::writeStreamToFile(), and Console::writeStreamToFile().

39  {
40  std::ostringstream oss;
41  moose::internal::mooseStreamAll(oss, errorPrefix("error"), std::forward<Args>(args)...);
42  std::string msg = oss.str();
43  callMooseErrorRaw(msg, &_app);
44  }
void mooseStreamAll(std::ostringstream &ss)
All of the following are not meant to be called directly - they are called by the normal macros (moos...
Definition: MooseError.C:91
void callMooseErrorRaw(std::string &msg, MooseApp *app)
MooseApp & _app
The MOOSE application this is associated with.
std::string errorPrefix(const std::string &error_type) const
A descriptive prefix for errors for this object:

◆ mooseErrorNonPrefixed()

template<typename... Args>
void MooseBaseErrorInterface::mooseErrorNonPrefixed ( Args &&...  args) const
inlineinherited

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

Definition at line 50 of file MooseBaseErrorInterface.h.

51  {
52  std::ostringstream oss;
53  moose::internal::mooseStreamAll(oss, std::forward<Args>(args)...);
54  std::string msg = oss.str();
55  callMooseErrorRaw(msg, &_app);
56  }
void mooseStreamAll(std::ostringstream &ss)
All of the following are not meant to be called directly - they are called by the normal macros (moos...
Definition: MooseError.C:91
void callMooseErrorRaw(std::string &msg, MooseApp *app)
MooseApp & _app
The MOOSE application this is associated with.

◆ mooseInfo()

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

◆ mooseWarning()

template<typename... Args>
void MooseBaseErrorInterface::mooseWarning ( Args &&...  args) const
inlineinherited

Emits a warning prefixed with object name and type.

Definition at line 62 of file MooseBaseErrorInterface.h.

Referenced by AddKernelAction::act(), SetupMeshAction::act(), MeshOnlyAction::act(), AddFunctionAction::act(), CommonOutputAction::act(), MaterialOutputAction::act(), DiracKernelBase::addPoint(), BoundaryMarker::BoundaryMarker(), BoundsBase::BoundsBase(), DistributedRectilinearMeshGenerator::buildCube(), MultiAppVariableValueSamplePostprocessorTransfer::cacheElemToPostprocessorData(), CartesianMeshGenerator::CartesianMeshGenerator(), CheckOutputAction::checkConsoleOutput(), MultiAppTransfer::checkMultiAppExecuteOn(), PhysicsBase::checkRequiredTasks(), cloneMesh(), GapValueAux::computeValue(), MultiApp::createApp(), MeshDiagnosticsGenerator::diagnosticsLog(), CartesianGridDivision::divisionIndex(), CylindricalGridDivision::divisionIndex(), SphericalGridDivision::divisionIndex(), Postprocessor::evaluateDotWarning(), MeshDivisionFunctorReductionVectorPostprocessor::execute(), ElementQualityChecker::finalize(), FiniteDifferencePreconditioner::FiniteDifferencePreconditioner(), FixedPointSolve::FixedPointSolve(), SubdomainPerElementGenerator::generate(), ParsedGenerateSideset::generate(), MultiAppTransfer::getAppInfo(), FunctorBinnedValuesDivision::getBinIndex(), PointSamplerBase::getLocalElemContainingPoint(), FEProblemBase::getMaterial(), Positions::getNearestPositionIndex(), LineValueSampler::getValue(), Terminator::handleMessage(), ElementGroupCentroidPositions::initialize(), CartesianGridDivision::initialize(), SphericalGridDivision::initialize(), CylindricalGridDivision::initialize(), ReferenceResidualProblem::initialSetup(), MultiAppGeneralFieldNearestLocationTransfer::initialSetup(), MultiAppGeneralFieldTransfer::initialSetup(), FEProblemBase::initialSetup(), AdvancedOutput::initPostprocessorOrVectorPostprocessorLists(), MaterialBase::initStatefulProperties(), LeastSquaresFit::LeastSquaresFit(), IterationAdaptiveDT::limitDTToPostprocessorValue(), MaterialVectorPostprocessor::MaterialVectorPostprocessor(), FEProblemBase::mesh(), MultiAppGeneralFieldTransfer::MultiAppGeneralFieldTransfer(), NewmarkBeta::NewmarkBeta(), NodalPatchRecovery::NodalPatchRecovery(), NonlocalIntegratedBC::NonlocalIntegratedBC(), NonlocalKernel::NonlocalKernel(), Output::Output(), MultiAppGeneralFieldTransfer::outputValueConflicts(), PiecewiseConstantFromCSV::PiecewiseConstantFromCSV(), Executioner::problem(), PropertyReadFile::readData(), TestSourceStepper::rejectStep(), MaterialBase::resetQpProperties(), SecondTimeDerivativeAux::SecondTimeDerivativeAux(), MooseMesh::setCoordSystem(), FEProblemBase::sizeZeroes(), TransientMultiApp::solveStep(), Tecplot::Tecplot(), TimeDerivativeAux::TimeDerivativeAux(), Checkpoint::updateCheckpointFiles(), PiecewiseConstantFromCSV::value(), and VariableCondensationPreconditioner::VariableCondensationPreconditioner().

63  {
65  _console, errorPrefix("warning"), std::forward<Args>(args)...);
66  }
void mooseWarningStream(S &oss, Args &&... args)
Definition: MooseError.h:181
const ConsoleStream _console
An instance of helper class to write streams to the Console objects.
std::string errorPrefix(const std::string &error_type) const
A descriptive prefix for errors for this object:

◆ mooseWarningNonPrefixed()

template<typename... Args>
void MooseBaseErrorInterface::mooseWarningNonPrefixed ( Args &&...  args) const
inlineinherited

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

Definition at line 72 of file MooseBaseErrorInterface.h.

73  {
74  moose::internal::mooseWarningStream(_console, std::forward<Args>(args)...);
75  }
void mooseWarningStream(S &oss, Args &&... args)
Definition: MooseError.h:181
const ConsoleStream _console
An instance of helper class to write streams to the Console objects.

◆ name()

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

Get the name of the class.

Returns
The name of the class

Reimplemented in MooseVariableBase.

Definition at line 56 of file MooseBase.h.

Referenced by HierarchicalGridPartitioner::_do_partition(), CopyNodalVarsAction::act(), AddElementalFieldAction::act(), AdaptivityAction::act(), AddTimeStepperAction::act(), DeprecatedBlockAction::act(), DisplayGhostingAction::act(), AddVariableAction::act(), AddPeriodicBCAction::act(), MaterialOutputAction::act(), FEProblemBase::addAnyRedistributers(), Executioner::addAttributeReporter(), FEProblemBase::addAuxKernel(), FEProblemBase::addAuxScalarKernel(), DisplacedProblem::addAuxVariable(), FEProblemBase::addBoundaryCondition(), FEProblemBase::addConstraint(), FEProblemBase::addDamper(), FEProblemBase::addDGKernel(), FEProblemBase::addDiracKernel(), FEProblemBase::addDistribution(), FEProblemBase::addFunction(), SubProblem::addFunctor(), FEProblemBase::addFunctorMaterial(), FunctorMaterial::addFunctorProperty(), FunctorMaterial::addFunctorPropertyByBlocks(), FEProblemBase::addFVBC(), FEProblemBase::addFVInitialCondition(), FEProblemBase::addFVInterfaceKernel(), FEProblemBase::addFVKernel(), ADDGKernel::ADDGKernel(), FEProblemBase::addIndicator(), FEProblemBase::addInitialCondition(), FEProblemBase::addInterfaceKernel(), FEProblemBase::addInterfaceMaterial(), FEProblemBase::addKernel(), FEProblemBase::addMarker(), FEProblemBase::addMaterial(), FEProblemBase::addMaterialHelper(), FEProblemBase::addMeshDivision(), MeshGenerator::addMeshSubgenerator(), FEProblemBase::addMultiApp(), FEProblemBase::addNodalKernel(), FEProblemBase::addObject(), SubProblem::addPiecewiseByBlockLambdaFunctor(), FEProblemBase::addPostprocessor(), InitialConditionBase::addPostprocessorDependencyHelper(), UserObject::addPostprocessorDependencyHelper(), FEProblemBase::addPredictor(), CreateDisplacedProblemAction::addProxyRelationshipManagers(), Action::addRelationshipManager(), FEProblemBase::addReporter(), FEProblemBase::addSampler(), FEProblemBase::addScalarKernel(), FEProblemBase::addTimeIntegrator(), FEProblemBase::addTransfer(), FEProblemBase::addUserObject(), InitialConditionBase::addUserObjectDependencyHelper(), UserObject::addUserObjectDependencyHelper(), AuxKernelTempl< Real >::addUserObjectDependencyHelper(), DisplacedProblem::addVariable(), FEProblemBase::addVectorPostprocessor(), UserObject::addVectorPostprocessorDependencyHelper(), FVFluxKernel::adjustRMGhostLayers(), Output::advancedExecuteOn(), AdvancedExtruderGenerator::AdvancedExtruderGenerator(), MultiApp::appPostprocessorValue(), MultiApp::appProblem(), MultiApp::appProblemBase(), MultiApp::appUserObjectBase(), ArrayDGKernel::ArrayDGKernel(), ArrayParsedAux::ArrayParsedAux(), AStableDirk4::AStableDirk4(), AuxKernelTempl< Real >::AuxKernelTempl(), Function::average(), MultiApp::backup(), CoarsenedPiecewiseLinear::buildCoarsenedGrid(), PiecewiseTabularBase::buildFromFile(), MultiAppVariableValueSamplePostprocessorTransfer::cacheElemToPostprocessorData(), ChangeOverFixedPointPostprocessor::ChangeOverFixedPointPostprocessor(), ChangeOverTimePostprocessor::ChangeOverTimePostprocessor(), FEProblemBase::checkDependMaterialsHelper(), FEProblemBase::checkICRestartError(), Material::checkMaterialProperty(), Damper::checkMinDamping(), Coupleable::checkWritableVar(), CompositeFunction::CompositeFunction(), MaterialBase::computeProperties(), FEProblemBase::computeUserObjectByName(), VectorPostprocessorVisualizationAux::computeValue(), MooseBaseParameterInterface::connectControllableParams(), BatchMaterial< Tuple, Output, Input >::construct(), MultiApp::createApp(), AddVariableAction::createInitialConditionAction(), MultiApp::createLocalApp(), MeshGeneratorSystem::createMeshGeneratorOrder(), MaterialBase::declareADProperty(), MeshGenerator::declareMeshesForSubByName(), MeshGenerator::declareNullMeshName(), MaterialBase::declareProperty(), DOFMapOutput::demangle(), DerivativeSumMaterialTempl< is_ad >::DerivativeSumMaterialTempl(), DGKernel::DGKernel(), DGKernelBase::DGKernelBase(), DomainUserObject::DomainUserObject(), DumpObjectsProblem::dumpObjectHelper(), ElementGroupCentroidPositions::ElementGroupCentroidPositions(), ElementValueSampler::ElementValueSampler(), MooseMesh::errorIfDistributedMesh(), MooseBaseErrorInterface::errorPrefix(), SolutionUserObject::evalMeshFunction(), SolutionUserObject::evalMeshFunctionGradient(), SolutionUserObject::evalMultiValuedMeshFunction(), SolutionUserObject::evalMultiValuedMeshFunctionGradient(), RestartableDataReporter::execute(), PointValue::execute(), MultiAppNearestNodeTransfer::execute(), Exodus::Exodus(), ExtraIDIntegralVectorPostprocessor::ExtraIDIntegralVectorPostprocessor(), MultiApp::fillPositions(), PointSamplerBase::finalize(), FunctionDT::FunctionDT(), FunctionIC::functionName(), FVFunctionIC::functionName(), FunctorPositions::FunctorPositions(), FunctorSmootherTempl< T >::FunctorSmootherTempl(), FVOneVarDiffusionInterface::FVOneVarDiffusionInterface(), MooseServer::gatherDocumentSymbols(), BoundaryDeletionGenerator::generate(), RenameBlockGenerator::generate(), RenameBoundaryGenerator::generate(), BreakMeshByBlockGenerator::generate(), ParsedSubdomainMeshGenerator::generate(), GeneratedMeshGenerator::generate(), StitchedMeshGenerator::generate(), XYDelaunayGenerator::generate(), ParsedGenerateSideset::generate(), SideSetsAroundSubdomainGenerator::generate(), SubdomainBoundingBoxGenerator::generate(), MeshGenerator::generateInternal(), InterfaceMaterial::getADMaterialProperty(), Material::getADMaterialProperty(), MultiAppTransfer::getAppInfo(), MultiApp::getBoundingBox(), MooseApp::getCheckpointDirectories(), Control::getControllableParameterByName(), Control::getControllableValue(), Control::getControllableValueByName(), UserObject::getDependObjects(), DistributionInterface::getDistribution(), FEProblemBase::getDistribution(), DistributionInterface::getDistributionByName(), ElementUOProvider::getElementalValueLong(), ElementUOProvider::getElementalValueReal(), MultiApp::getExecutioner(), FEProblemBase::getExecutor(), OutputWarehouse::getFileNumbers(), FEProblemBase::getFunction(), SubProblem::getFunctor(), NodalPatchRecovery::getGenericMaterialProperty(), InterfaceMaterial::getGenericMaterialProperty(), Material::getGenericMaterialProperty(), AuxKernelTempl< Real >::getGenericMaterialProperty(), InterfaceMaterial::getGenericNeighborMaterialProperty(), InterfaceMaterial::getGenericNeighborMaterialPropertyByName(), Material::getGenericOptionalMaterialProperty(), MaterialBase::getGenericZeroMaterialProperty(), BatchMaterial< Tuple, Output, Input >::getIndex(), SolutionUserObject::getLocalVarIndex(), Marker::getMarkerValue(), Material::getMaterial(), FEProblemBase::getMaterial(), Material::getMaterialByName(), NodalPatchRecovery::getMaterialProperty(), InterfaceMaterial::getMaterialProperty(), Material::getMaterialProperty(), AuxKernelTempl< Real >::getMaterialProperty(), SubProblem::getMaterialPropertyBlockNames(), SubProblem::getMaterialPropertyBoundaryNames(), NodalPatchRecovery::getMaterialPropertyOld(), InterfaceMaterial::getMaterialPropertyOld(), Material::getMaterialPropertyOld(), AuxKernelTempl< Real >::getMaterialPropertyOld(), NodalPatchRecovery::getMaterialPropertyOlder(), InterfaceMaterial::getMaterialPropertyOlder(), Material::getMaterialPropertyOlder(), AuxKernelTempl< Real >::getMaterialPropertyOlder(), MeshGenerator::getMesh(), FEProblemBase::getMeshDivision(), MeshGenerator::getMeshesByName(), MeshGenerator::getMeshGeneratorNameFromParam(), MeshGenerator::getMeshGeneratorNamesFromParam(), MultiAppTransfer::getMultiApp(), InterfaceMaterial::getNeighborADMaterialProperty(), InterfaceMaterial::getNeighborMaterialProperty(), InterfaceMaterial::getNeighborMaterialPropertyOld(), InterfaceMaterial::getNeighborMaterialPropertyOlder(), MooseServer::getObjectParameters(), Material::getOptionalADMaterialProperty(), Material::getOptionalMaterialProperty(), Material::getOptionalMaterialPropertyOld(), Material::getOptionalMaterialPropertyOlder(), FEProblemBase::getPositionsObject(), FEProblemBase::getPostprocessorValueByName(), ReporterData::getReporterInfo(), FEProblemBase::getSampler(), Transient::getTimeStepperName(), ProjectedStatefulMaterialStorageAction::getTypeEnum(), FEProblemBase::getUserObject(), FEProblemBase::getUserObjectBase(), Terminator::handleMessage(), FEProblemBase::hasFunction(), SubProblem::hasFunctor(), SubProblem::hasFunctorWithType(), AdvancedOutput::hasOutputHelper(), FEProblemBase::hasPostprocessor(), FEProblemBase::hasPostprocessorValueByName(), FEProblemBase::hasUserObject(), IterationAdaptiveDT::init(), AdvancedOutput::init(), FEProblemBase::init(), AdvancedOutput::initExecutionTypes(), AttribName::initFrom(), NestedDivision::initialize(), TransformedPositions::initialize(), SolutionScalarAux::initialSetup(), MultiAppProjectionTransfer::initialSetup(), NodalVariableValue::initialSetup(), SolutionUserObject::initialSetup(), AdvancedOutput::initOutputList(), AdvancedOutput::initPostprocessorOrVectorPostprocessorLists(), MaterialBase::initStatefulProperties(), Function::integral(), InterfaceKernelTempl< T >::InterfaceKernelTempl(), MeshGenerator::isChildMeshGenerator(), MeshGenerator::isNullMeshName(), MeshGenerator::isParentMeshGenerator(), LinearCombinationFunction::LinearCombinationFunction(), FEProblemBase::logAdd(), Marker::Marker(), MatDiffusionBase< Real >::MatDiffusionBase(), Material::Material(), MaterialDerivativeTestKernelBase< Real >::MaterialDerivativeTestKernelBase(), MaterialVectorPostprocessor::MaterialVectorPostprocessor(), Distribution::median(), MemoryUsageReporter::MemoryUsageReporter(), MeshGenerator::meshPropertyPrefix(), MooseVariableInterface< Real >::MooseVariableInterface(), MultiAppGeneralFieldTransfer::MultiAppGeneralFieldTransfer(), MultiAppUserObjectTransfer::MultiAppUserObjectTransfer(), NodalPatchRecoveryAuxBase::NodalPatchRecoveryAuxBase(), NodalValueSampler::NodalValueSampler(), PhysicsBase::nonlinearVariableExists(), Registry::objData(), MooseBaseParameterInterface::objectErrorPrefix(), MeshGenerator::Comparator::operator()(), ProgressOutput::output(), DOFMapOutput::output(), Output::Output(), AdvancedOutput::outputElementalVariables(), ConsoleUtils::outputExecutionInformation(), AdvancedOutput::outputInput(), AdvancedOutput::outputNodalVariables(), Nemesis::outputPostprocessors(), Exodus::outputPostprocessors(), AdvancedOutput::outputPostprocessors(), TableOutput::outputReporter(), AdvancedOutput::outputReporters(), AdvancedOutput::outputScalarVariables(), AdvancedOutput::outputSystemInformation(), AdvancedOutput::outputVectorPostprocessors(), ParsedAux::ParsedAux(), ParsedCurveGenerator::ParsedCurveGenerator(), ParsedGenerateSideset::ParsedGenerateSideset(), ParsedODEKernel::ParsedODEKernel(), ParsedSubdomainMeshGenerator::ParsedSubdomainMeshGenerator(), PiecewiseBilinear::PiecewiseBilinear(), PiecewiseByBlockFunctorMaterialTempl< T >::PiecewiseByBlockFunctorMaterialTempl(), PointVariableSamplerBase::PointVariableSamplerBase(), PhysicsBase::prefix(), MultiApp::readCommandLineArguments(), Receiver::Receiver(), Executor::Result::record(), Registry::registerObjectsTo(), FEProblemBase::registerRandomInterface(), GlobalParamsAction::remove(), MaterialBase::resetQpProperties(), MultiApp::restore(), ScalarComponentIC::ScalarComponentIC(), MultiApp::setAppOutputFileBase(), MooseMesh::setBoundaryName(), Control::setControllableValue(), Control::setControllableValueByName(), GlobalParamsAction::setDoubleIndexParam(), OutputWarehouse::setFileNumbers(), GlobalParamsAction::setParam(), FEProblemBase::setPostprocessorValueByName(), GlobalParamsAction::setScalarParam(), MooseMesh::setSubdomainName(), GlobalParamsAction::setTripleIndexParam(), Split::setup(), TransientMultiApp::setupApp(), GlobalParamsAction::setVectorParam(), FullSolveMultiApp::showStatusMessage(), SideSetExtruderGenerator::SideSetExtruderGenerator(), SideValueSampler::SideValueSampler(), TransientMultiApp::solveStep(), UserObject::spatialValue(), StitchedMesh::StitchedMesh(), SubProblem::storeBoundaryDelayedCheckMatProp(), SubProblem::storeBoundaryMatPropName(), SubProblem::storeBoundaryZeroMatProp(), SubProblem::storeSubdomainDelayedCheckMatProp(), SubProblem::storeSubdomainMatPropName(), SubProblem::storeSubdomainZeroMatProp(), MaterialBase::subdomainSetup(), TaggingInterface::TaggingInterface(), VectorPostprocessorVisualizationAux::timestepSetup(), MultiAppDofCopyTransfer::transfer(), TransientMultiApp::TransientMultiApp(), MooseServer::traverseParseTreeAndFillSymbols(), MooseBase::typeAndName(), MooseBaseParameterInterface::uniqueParameterName(), FVFluxBC::uOnGhost(), FVFluxBC::uOnUSub(), UserObject::UserObject(), UserObjectInterface::userObjectName(), MultiAppTransfer::variableIntegrityCheck(), VectorMagnitudeFunctorMaterialTempl< is_ad >::VectorMagnitudeFunctorMaterialTempl(), AdvancedOutput::wantOutput(), Coupleable::writableCoupledValue(), and Coupleable::writableVariable().

56 { return _name; }
const std::string & _name
The name of this class, reference to value stored in InputParameters.
Definition: MooseBase.h:75

◆ objectErrorPrefix()

std::string MooseBaseParameterInterface::objectErrorPrefix ( const std::string &  error_type) const
inherited

A descriptive prefix for errors for an object.

Definition at line 58 of file MooseBaseParameterInterface.C.

Referenced by MooseBaseParameterInterface::paramErrorMsg().

59 {
60  std::stringstream oss;
61  oss << "The following " << error_type << " occurred in the class \"" << _moose_base->name()
62  << "\", of type \"" << _moose_base->type() << "\".\n\n";
63  return oss.str();
64 }
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
const MooseBase *const _moose_base
The MooseBase object that inherits this class.
const std::string & type() const
Get the type of this class.
Definition: MooseBase.h:50

◆ onInterval()

bool Output::onInterval ( )
protectedvirtualinherited

Returns true if the output interval is satisfied.

Definition at line 286 of file Output.C.

Referenced by Console::output(), outputStep(), Output::outputStep(), and Checkpoint::shouldOutput().

287 {
288  // The output flag to return
289  bool output = false;
290 
291  // Return true if the current step on the current output interval and within the output time range
292  // and within the output step range
293  if (_time >= _start_time && _time <= _end_time && _t_step >= _start_step &&
295  output = true;
296 
297  // Return false if 'sync_only' is set to true
298  if (_sync_only)
299  output = false;
300 
301  if (_sync_times_object)
302  {
303  const auto & sync_times = _sync_times_object->getUniqueTimes();
304  if (sync_times != _sync_times)
305  mooseError("The provided sync times object has changing time values. Only static time "
306  "values are supported since time steppers take sync times from the output "
307  "warehouse which determines its sync times at output construction time.");
308  }
309 
310  // If sync times are not skipped, return true if the current time is a sync_time
311  if (_sync_times.find(_time) != _sync_times.end())
312  output = true;
313 
314  // check if enough simulation time has passed between outputs
317  output = false;
318 
319  // check if enough wall time has passed between outputs
320  const auto now = std::chrono::steady_clock::now();
321  // count below returns an interger type, so lets express on a millisecond
322  // scale and convert to seconds for finer resolution
324  std::chrono::duration_cast<std::chrono::milliseconds>(now - _last_output_wall_time).count() /
325  1000.0;
326  // Take the maximum wall time since last output accross all processors
329  output = true;
330 
331  // Return the output status
332  return output;
333 }
Real _start_time
Start outputting time.
Definition: Output.h:247
const std::set< Real > getUniqueTimes() const
Getter for a set of the full times.
Definition: Times.h:29
int & _t_step
The current time step.
Definition: Output.h:214
const Parallel::Communicator & _communicator
Real _wall_time_since_last_output
time in seconds since last output
Definition: Output.h:283
int _start_step
Start outputting at this time step.
Definition: Output.h:253
Real & _last_output_simulation_time
last simulation time an output has occured
Definition: Output.h:277
int _end_step
End outputting at this time step.
Definition: Output.h:256
virtual void output()=0
Overload this function with the desired output activities.
const Times *const _sync_times_object
Sync times object for this outputter.
Definition: Output.h:244
bool _sync_only
Flag for only executing at sync times.
Definition: Output.h:262
Real _wall_time_interval
Target wall time between outputs in seconds.
Definition: Output.h:238
unsigned int _time_step_interval
The output time step interval.
Definition: Output.h:229
std::set< Real > _sync_times
Sync times for this outputter.
Definition: Output.h:241
std::chrono::time_point< std::chrono::steady_clock > _last_output_wall_time
last wall time an output has occured
Definition: Output.h:280
Real _t_tol
Time checking tolerance.
Definition: Output.h:259
void max(const T &r, T &o, Request &req) const
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.
Real & _time
The current time for output purposes.
Definition: Output.h:208
const Real _min_simulation_time_interval
Minimum simulation time between outputs.
Definition: Output.h:232

◆ output()

void AdvancedOutput::output ( )
protectedvirtualinherited

A single call to this function should output all the necessary data for a single timestep.

By default this function performs calls each of the four virtual output methods: outputScalarVariables(), outputPostprocessors(), outputElementalVariables(), and outputNodalVariables(). But, only if output exists for each type.

See also
outputNodalVariables outputElementalVariables outputScalarVariables outputPostprocessors

Implements Output.

Reimplemented in Nemesis, Console, Exodus, CSV, Gnuplot, GMVOutput, Tecplot, VTKOutput, XDA, JSONOutput, and XMLOutput.

Definition at line 274 of file AdvancedOutput.C.

Referenced by AdvancedOutput::initOutputList(), JSONOutput::output(), XMLOutput::output(), Gnuplot::output(), CSV::output(), Exodus::output(), Nemesis::output(), and outputStep().

275 {
276  const auto & type = _current_execute_flag;
277 
278  // (re)initialize the list of available items for output
279  init();
280 
281  // Call the various output types, if data exists
282  if (wantOutput("nodal", type))
283  {
285  _last_execute_time["nodal"] = _time;
286  }
287 
288  if (wantOutput("elemental", type))
289  {
291  _last_execute_time["elemental"] = _time;
292  }
293 
294  if (wantOutput("postprocessors", type))
295  {
297  _last_execute_time["postprocessors"] = _time;
298  }
299 
300  if (wantOutput("vector_postprocessors", type))
301  {
303  _last_execute_time["vector_postprocessors"] = _time;
304  }
305 
306  if (wantOutput("scalars", type))
307  {
309  _last_execute_time["scalars"] = _time;
310  }
311 
312  if (wantOutput("system_information", type))
313  {
315  _last_execute_time["system_information"] = _time;
316  }
317 
318  if (wantOutput("input", type))
319  {
320  outputInput();
321  _last_execute_time["input"] = _time;
322  }
323 
324  if (wantOutput("reporters", type))
325  {
326  outputReporters();
327  _last_execute_time["reporters"] = _time;
328  }
329 }
virtual void outputVectorPostprocessors()
Performs output of VectorPostprocessors The child class must define this method to output the VectorP...
virtual void outputSystemInformation()
std::map< std::string, Real > _last_execute_time
Storage for the last output time for the various output types, this is used to avoid duplicate output...
virtual void outputElementalVariables()
Performs output of elemental nonlinear variables The child class must define this method to output th...
virtual void outputScalarVariables()
Performs output of scalar variables The child class must define this method to output the scalar vari...
virtual void outputNodalVariables()
Performs output of nodal nonlinear variables The child class must define this method to output the no...
virtual void outputInput()
Performs the output of the input file By default this method does nothing and is not called...
ExecFlagType _current_execute_flag
Current execute on flag.
Definition: Output.h:205
const std::string & type() const
Get the type of this class.
Definition: MooseBase.h:50
bool wantOutput(const std::string &name, const ExecFlagType &type)
Handles logic for determining if a step should be output.
virtual void outputReporters()
Output Reporter values.
virtual void outputPostprocessors()
Performs output of postprocessors The child class must define this method to output the postprocessor...
Real & _time
The current time for output purposes.
Definition: Output.h:208
virtual void init()
Populates the various data structures needed to control the output.

◆ outputElementalVariables()

void AdvancedOutput::outputElementalVariables ( )
protectedvirtualinherited

Performs output of elemental nonlinear variables The child class must define this method to output the nonlinear variables as desired.

See also
Exodus::outputElementalVariables

Reimplemented in Exodus.

Definition at line 207 of file AdvancedOutput.C.

Referenced by AdvancedOutput::output().

208 {
209  mooseError(
210  "Individual output of elemental variables is not support for this output object named '",
211  name(),
212  "'");
213 }
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.

◆ outputInput()

void AdvancedOutput::outputInput ( )
protectedvirtualinherited

Performs the output of the input file By default this method does nothing and is not called, the individual Output objects are responsible for calling it.

Reimplemented in Exodus, and Console.

Definition at line 247 of file AdvancedOutput.C.

Referenced by AdvancedOutput::output().

248 {
249  mooseError("Output of the input file information is not support for this output object named '",
250  name(),
251  "'");
252 }
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.

◆ outputNodalVariables()

void AdvancedOutput::outputNodalVariables ( )
protectedvirtualinherited

Performs output of nodal nonlinear variables The child class must define this method to output the nonlinear variables as desired.

See also
Exodus::outputNodalVariables

Reimplemented in Exodus.

Definition at line 199 of file AdvancedOutput.C.

Referenced by AdvancedOutput::output().

200 {
201  mooseError("Individual output of nodal variables is not support for the output object named '",
202  name(),
203  "'");
204 }
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.

◆ outputPostprocessors()

void AdvancedOutput::outputPostprocessors ( )
protectedvirtualinherited

Performs output of postprocessors The child class must define this method to output the postprocessors as desired.

See also
Exodus::outputPostprocessors

Reimplemented in Console, Exodus, CSV, Nemesis, and TableOutput.

Definition at line 216 of file AdvancedOutput.C.

Referenced by AdvancedOutput::output().

217 {
218  mooseError("Individual output of postprocessors is not support for this output object named '",
219  name(),
220  "'");
221 }
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.

◆ outputReporters()

void AdvancedOutput::outputReporters ( )
protectedvirtualinherited

Output Reporter values.

The child class must define this method to output the Reporter values as desired

See also
CSV::outputReporters

Reimplemented in Console, Exodus, CSV, TableOutput, and JSONOutput.

Definition at line 255 of file AdvancedOutput.C.

Referenced by AdvancedOutput::output().

256 {
257  mooseError(
258  "Output of the Reporter value(s) is not support for this output object named '", name(), "'");
259 }
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.

◆ outputScalarVariables()

void AdvancedOutput::outputScalarVariables ( )
protectedvirtualinherited

Performs output of scalar variables The child class must define this method to output the scalar variables as desired.

See also
Exodus::outputScalarVariables

Reimplemented in Exodus, Console, Nemesis, CSV, and TableOutput.

Definition at line 233 of file AdvancedOutput.C.

Referenced by AdvancedOutput::output().

234 {
235  mooseError(
236  "Individual output of scalars is not support for this output object named '", name(), "'");
237 }
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.

◆ outputStep()

void OversampleOutput::outputStep ( const ExecFlagType type)
overridevirtual

A single call to this function should output all the necessary data for a single timestep.

Parameters
typeThe type execution flag (see Moose.h)
See also
outputNodalVariables outputElementalVariables outputScalarVariables outputPostprocessors

Reimplemented from Output.

Definition at line 76 of file OversampleOutput.C.

77 {
78  // Output is not allowed
79  if (!_allow_output && type != EXEC_FORCED)
80  return;
81 
82  // If recovering disable output of initial condition, it was already output
83  if (type == EXEC_INITIAL && _app.isRecovering())
84  return;
85 
86  // Return if the current output is not on the desired interval
87  if (type != EXEC_FINAL && !onInterval())
88  return;
89 
90  // store current simulation time
92 
93  // set current type
95 
96  // Call the output method
97  if (shouldOutput())
98  {
99  TIME_SECTION("outputStep", 2, "Outputting Step");
101  output();
102  }
103 
105 }
virtual void updateOversample()
Performs the update of the solution vector for the oversample/re-positioned mesh. ...
const ExecFlagType EXEC_FORCED
Definition: Moose.C:39
virtual bool onInterval()
Returns true if the output interval is satisfied.
Definition: Output.C:286
const ExecFlagType EXEC_NONE
Definition: Moose.C:27
virtual bool shouldOutput()
Handles logic for determining if a step should be output.
virtual void output()
A single call to this function should output all the necessary data for a single timestep.
Real & _last_output_simulation_time
last simulation time an output has occured
Definition: Output.h:277
ExecFlagType _current_execute_flag
Current execute on flag.
Definition: Output.h:205
bool _allow_output
Flag for disabling output.
Definition: Output.h:265
const std::string & type() const
Get the type of this class.
Definition: MooseBase.h:50
MooseApp & _app
The MOOSE application this is associated with.
Definition: MooseBase.h:69
bool isRecovering() const
Whether or not this is a "recover" calculation.
Definition: MooseApp.C:1167
const ExecFlagType EXEC_FINAL
Definition: Moose.C:38
Real & _time
The current time for output purposes.
Definition: Output.h:208
const ExecFlagType EXEC_INITIAL
Definition: Moose.C:28

◆ outputSystemInformation()

void AdvancedOutput::outputSystemInformation ( )
protectedvirtualinherited

Reimplemented in Console, and JSONOutput.

Definition at line 240 of file AdvancedOutput.C.

Referenced by AdvancedOutput::output().

241 {
242  mooseError(
243  "Output of system information is not support for this output object named '", name(), "'");
244 }
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.

◆ outputVectorPostprocessors()

void AdvancedOutput::outputVectorPostprocessors ( )
protectedvirtualinherited

Performs output of VectorPostprocessors The child class must define this method to output the VectorPostprocessors as desired.

Reimplemented in Console, CSV, TableOutput, and XMLOutput.

Definition at line 224 of file AdvancedOutput.C.

Referenced by AdvancedOutput::output().

225 {
226  mooseError(
227  "Individual output of VectorPostprocessors is not support for this output object named '",
228  name(),
229  "'");
230 }
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.

◆ paramError()

template<typename... Args>
void MooseBaseParameterInterface::paramError ( const std::string &  param,
Args...  args 
) const
inherited

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

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

Definition at line 243 of file MooseBaseParameterInterface.h.

Referenced by HierarchicalGridPartitioner::_do_partition(), SetupDebugAction::act(), ADConservativeAdvectionBC::ADConservativeAdvectionBC(), DiffusionCG::addFEKernels(), DiffusionFV::addFVKernels(), ADDGKernel::ADDGKernel(), DiffusionCG::addNonlinearVariables(), ReporterPointSource::addPoints(), ADIntegratedBCTempl< T >::ADIntegratedBCTempl(), ADKernelTempl< T >::ADKernelTempl(), ADNodalKernel::ADNodalKernel(), ADPenaltyPeriodicSegmentalConstraint::ADPenaltyPeriodicSegmentalConstraint(), ADPeriodicSegmentalConstraint::ADPeriodicSegmentalConstraint(), AdvancedExtruderGenerator::AdvancedExtruderGenerator(), AdvectiveFluxAux::AdvectiveFluxAux(), ADVectorFunctionDirichletBC::ADVectorFunctionDirichletBC(), AnnularMesh::AnnularMesh(), AnnularMeshGenerator::AnnularMeshGenerator(), ArrayBodyForce::ArrayBodyForce(), ArrayDGKernel::ArrayDGKernel(), ArrayDGLowerDKernel::ArrayDGLowerDKernel(), ArrayDirichletBC::ArrayDirichletBC(), ArrayHFEMDirichletBC::ArrayHFEMDirichletBC(), ArrayIntegratedBC::ArrayIntegratedBC(), ArrayKernel::ArrayKernel(), ArrayLowerDIntegratedBC::ArrayLowerDIntegratedBC(), ArrayParsedAux::ArrayParsedAux(), ArrayPenaltyDirichletBC::ArrayPenaltyDirichletBC(), ArrayVacuumBC::ArrayVacuumBC(), AuxKernelTempl< Real >::AuxKernelTempl(), BlockDeletionGenerator::BlockDeletionGenerator(), BlockWeightedPartitioner::BlockWeightedPartitioner(), BoundsBase::BoundsBase(), BreakMeshByBlockGenerator::BreakMeshByBlockGenerator(), BuildArrayVariableAux::BuildArrayVariableAux(), PiecewiseTabularBase::buildFromFile(), CartesianGridDivision::CartesianGridDivision(), UserObjectInterface::castUserObject(), checkComponent(), MeshGenerator::checkGetMesh(), PostprocessorInterface::checkParam(), PhysicsBase::checkParamsBothSetOrNotSet(), Checkpoint::Checkpoint(), PhysicsBase::checkSecondParamSetOnlyIfFirstOneTrue(), Coupleable::checkVar(), MultiAppTransfer::checkVariable(), PhysicsBase::checkVectorParamsSameLength(), CircularBoundaryCorrectionGenerator::CircularBoundaryCorrectionGenerator(), CircularBoundaryCorrectionGenerator::circularCenterCalculator(), MultiAppGeneralFieldTransfer::closestToPosition(), CoarsenBlockGenerator::CoarsenBlockGenerator(), CombinerGenerator::CombinerGenerator(), CompositionDT::CompositionDT(), ConcentricCircleMeshGenerator::ConcentricCircleMeshGenerator(), LibtorchNeuralNetControl::conditionalParameterError(), ConstantVectorPostprocessor::ConstantVectorPostprocessor(), ContainsPointAux::ContainsPointAux(), CopyValueAux::CopyValueAux(), Coupleable::Coupleable(), CoupledForceTempl< is_ad >::CoupledForceTempl(), CoupledValueFunctionMaterialTempl< is_ad >::CoupledValueFunctionMaterialTempl(), MultiApp::createApp(), MeshGeneratorSystem::createMeshGenerator(), CylindricalGridDivision::CylindricalGridDivision(), ConstantReporter::declareConstantReporterValues(), AccumulateReporter::declareLateValues(), DGKernel::DGKernel(), DGKernelBase::DGKernelBase(), DGLowerDKernel::DGLowerDKernel(), DiffusionFluxAux::DiffusionFluxAux(), DomainUserObject::DomainUserObject(), EigenProblem::EigenProblem(), Eigenvalue::Eigenvalue(), ElementExtremeFunctorValueTempl< is_ad >::ElementExtremeFunctorValueTempl(), ElementExtremeValue::ElementExtremeValue(), ElementGroupCentroidPositions::ElementGroupCentroidPositions(), ElementLengthAux::ElementLengthAux(), ElementLpNormAux::ElementLpNormAux(), ElementValueSampler::ElementValueSampler(), ElementVectorL2Error::ElementVectorL2Error(), ReporterPointSource::errorCheck(), MultiAppNearestNodeTransfer::execute(), MultiAppUserObjectTransfer::execute(), ExtraElementIDAux::ExtraElementIDAux(), ExtraElementIntegerDivision::ExtraElementIntegerDivision(), FEProblemSolve::FEProblemSolve(), FillBetweenCurvesGenerator::FillBetweenCurvesGenerator(), FillBetweenSidesetsGenerator::FillBetweenSidesetsGenerator(), ReporterPointSource::fillPoint(), SpatialUserObjectVectorPostprocessor::fillPoints(), CombinerGenerator::fillPositions(), MultiApp::fillPositions(), InternalSideIndicator::finalize(), FixedPointSolve::FixedPointSolve(), ForcingFunctionAux::ForcingFunctionAux(), FunctionArrayAux::FunctionArrayAux(), FunctionValuePostprocessor::FunctionValuePostprocessor(), FunctorADConverterTempl< T >::FunctorADConverterTempl(), FunctorAux::FunctorAux(), FunctorBinnedValuesDivision::FunctorBinnedValuesDivision(), FunctorElementalGradientAuxTempl< is_ad >::FunctorElementalGradientAuxTempl(), FunctorPositions::FunctorPositions(), FunctorVectorElementalAuxTempl< is_ad >::FunctorVectorElementalAuxTempl(), FVFluxBC::FVFluxBC(), FVInterfaceKernel::FVInterfaceKernel(), FVOneVarDiffusionInterface::FVOneVarDiffusionInterface(), FVTwoVarContinuityConstraint::FVTwoVarContinuityConstraint(), BoundaryDeletionGenerator::generate(), ElementsToTetrahedronsConverter::generate(), ExtraNodesetGenerator::generate(), FillBetweenCurvesGenerator::generate(), FillBetweenSidesetsGenerator::generate(), PlaneIDMeshGenerator::generate(), RenameBlockGenerator::generate(), RenameBoundaryGenerator::generate(), AddMetaDataGenerator::generate(), BlockToMeshConverterGenerator::generate(), BreakBoundaryOnSubdomainGenerator::generate(), ParsedSubdomainMeshGenerator::generate(), RefineBlockGenerator::generate(), RefineSidesetGenerator::generate(), SideSetsBetweenSubdomainsGenerator::generate(), FlipSidesetGenerator::generate(), BlockDeletionGenerator::generate(), BreakMeshByBlockGenerator::generate(), CoarsenBlockGenerator::generate(), CutMeshByPlaneGenerator::generate(), GeneratedMeshGenerator::generate(), CombinerGenerator::generate(), MeshCollectionGenerator::generate(), MeshExtruderGenerator::generate(), ParsedCurveGenerator::generate(), BreakMeshByElementGenerator::generate(), SideSetsFromBoundingBoxGenerator::generate(), StackGenerator::generate(), StitchedMeshGenerator::generate(), AdvancedExtruderGenerator::generate(), CircularBoundaryCorrectionGenerator::generate(), XYDelaunayGenerator::generate(), XYMeshLineCutter::generate(), ParsedGenerateSideset::generate(), SideSetsAroundSubdomainGenerator::generate(), PatternedMeshGenerator::generate(), SubdomainBoundingBoxGenerator::generate(), GenericFunctorGradientMaterialTempl< is_ad >::GenericFunctorGradientMaterialTempl(), GenericFunctorMaterialTempl< is_ad >::GenericFunctorMaterialTempl(), GenericVectorFunctorMaterialTempl< is_ad >::GenericVectorFunctorMaterialTempl(), PropertyReadFile::getBlockData(), PropertyReadFile::getData(), Sampler::getGlobalSamples(), MultiAppNearestNodeTransfer::getLocalEntitiesAndComponents(), Sampler::getLocalSamples(), MeshGenerator::getMeshGeneratorNameFromParam(), MeshGenerator::getMeshGeneratorNamesFromParam(), Sampler::getNextLocalRow(), PostprocessorInterface::getPostprocessorNameInternal(), PostprocessorInterface::getPostprocessorValueInternal(), MultiAppNearestNodeTransfer::getTargetLocalNodes(), UserObjectInterface::getUserObjectBase(), UserObjectInterface::getUserObjectName(), HFEMDirichletBC::HFEMDirichletBC(), MultiApp::init(), DistributedPositions::initialize(), BlockWeightedPartitioner::initialize(), BlockRestrictable::initializeBlockRestrictable(), BoundaryRestrictable::initializeBoundaryRestrictable(), PhysicsBase::initializePhysics(), MultiAppCloneReporterTransfer::initialSetup(), ReferenceResidualProblem::initialSetup(), MultiAppVariableValueSamplePostprocessorTransfer::initialSetup(), MultiAppGeneralFieldNearestLocationTransfer::initialSetup(), MultiAppDofCopyTransfer::initialSetup(), HistogramVectorPostprocessor::initialSetup(), PiecewiseConstantFromCSV::initialSetup(), LibtorchControlValuePostprocessor::initialSetup(), MultiAppGeneralFieldTransfer::initialSetup(), AddMetaDataGenerator::inputChecker(), IntegratedBC::IntegratedBC(), InterfaceDiffusiveFluxIntegralTempl< is_ad >::InterfaceDiffusiveFluxIntegralTempl(), InterfaceValueUserObjectAux::InterfaceValueUserObjectAux(), InterpolatedStatefulMaterialTempl< T >::InterpolatedStatefulMaterialTempl(), InversePowerMethod::InversePowerMethod(), IterationAdaptiveDT::IterationAdaptiveDT(), MultiApp::keepSolutionDuringRestore(), Kernel::Kernel(), LibtorchNeuralNetControl::LibtorchNeuralNetControl(), LinearCombinationFunction::LinearCombinationFunction(), LowerDIntegratedBC::LowerDIntegratedBC(), PNGOutput::makeMeshFunc(), MatCoupledForce::MatCoupledForce(), MaterialADConverterTempl< T >::MaterialADConverterTempl(), MaterialFunctorConverterTempl< T >::MaterialFunctorConverterTempl(), PatternedMeshGenerator::mergeSubdomainNameMaps(), MeshCollectionGenerator::MeshCollectionGenerator(), MeshDiagnosticsGenerator::MeshDiagnosticsGenerator(), MeshDivisionAux::MeshDivisionAux(), MeshGenerator::MeshGenerator(), MoosePreconditioner::MoosePreconditioner(), MooseVariableBase::MooseVariableBase(), MortarConstraintBase::MortarConstraintBase(), MortarNodalAuxKernelTempl< ComputeValueType >::MortarNodalAuxKernelTempl(), MultiApp::moveApp(), MoveNodeGenerator::MoveNodeGenerator(), MultiApp::MultiApp(), MultiAppCloneReporterTransfer::MultiAppCloneReporterTransfer(), MultiAppGeneralFieldNearestLocationTransfer::MultiAppGeneralFieldNearestLocationTransfer(), MultiAppGeneralFieldShapeEvaluationTransfer::MultiAppGeneralFieldShapeEvaluationTransfer(), MultiAppGeneralFieldTransfer::MultiAppGeneralFieldTransfer(), MultiAppGeneralFieldUserObjectTransfer::MultiAppGeneralFieldUserObjectTransfer(), MultiAppGeometricInterpolationTransfer::MultiAppGeometricInterpolationTransfer(), MultiAppNearestNodeTransfer::MultiAppNearestNodeTransfer(), MultiAppPostprocessorInterpolationTransfer::MultiAppPostprocessorInterpolationTransfer(), MultiAppPostprocessorToAuxScalarTransfer::MultiAppPostprocessorToAuxScalarTransfer(), MultiAppPostprocessorTransfer::MultiAppPostprocessorTransfer(), MultiAppProjectionTransfer::MultiAppProjectionTransfer(), MultiAppReporterTransfer::MultiAppReporterTransfer(), MultiAppScalarToAuxScalarTransfer::MultiAppScalarToAuxScalarTransfer(), MultiAppShapeEvaluationTransfer::MultiAppShapeEvaluationTransfer(), MultiAppTransfer::MultiAppTransfer(), MultiAppUserObjectTransfer::MultiAppUserObjectTransfer(), MultiAppVariableValueSamplePostprocessorTransfer::MultiAppVariableValueSamplePostprocessorTransfer(), MultiAppVariableValueSampleTransfer::MultiAppVariableValueSampleTransfer(), MultiAppVectorPostprocessorTransfer::MultiAppVectorPostprocessorTransfer(), NestedDivision::NestedDivision(), NodalBC::NodalBC(), NodalEqualValueConstraint::NodalEqualValueConstraint(), NodalKernel::NodalKernel(), NodalPatchRecoveryAux::NodalPatchRecoveryAux(), NodalValueSampler::NodalValueSampler(), Output::Output(), ParsedCurveGenerator::ParsedCurveGenerator(), ParsedElementDeletionGenerator::ParsedElementDeletionGenerator(), ParsedFunctorMaterialTempl< is_ad >::ParsedFunctorMaterialTempl(), ParsedGenerateSideset::ParsedGenerateSideset(), ParsedNodeTransformGenerator::ParsedNodeTransformGenerator(), PatchMeshGenerator::PatchMeshGenerator(), PatternedMeshGenerator::PatternedMeshGenerator(), PenaltyPeriodicSegmentalConstraint::PenaltyPeriodicSegmentalConstraint(), PeriodicSegmentalConstraint::PeriodicSegmentalConstraint(), PIDTransientControl::PIDTransientControl(), PlaneDeletionGenerator::PlaneDeletionGenerator(), PlaneIDMeshGenerator::PlaneIDMeshGenerator(), PointwiseRenormalizeVector::PointwiseRenormalizeVector(), PolyLineMeshGenerator::PolyLineMeshGenerator(), ReporterInterface::possiblyCheckHasReporter(), VectorPostprocessorInterface::possiblyCheckHasVectorPostprocessor(), LibmeshPartitioner::prepareBlocksForSubdomainPartitioner(), ProjectedMaterialPropertyNodalPatchRecoveryAux::ProjectedMaterialPropertyNodalPatchRecoveryAux(), PropertyReadFile::PropertyReadFile(), RandomIC::RandomIC(), MultiApp::readCommandLineArguments(), PropertyReadFile::readData(), SolutionUserObject::readXda(), ReferenceResidualProblem::ReferenceResidualProblem(), RefineBlockGenerator::RefineBlockGenerator(), RefineSidesetGenerator::RefineSidesetGenerator(), RenameBlockGenerator::RenameBlockGenerator(), RenameBoundaryGenerator::RenameBoundaryGenerator(), ReporterPointSource::ReporterPointSource(), SecondTimeDerivativeAux::SecondTimeDerivativeAux(), MooseMesh::setPartitioner(), TimeSequenceStepperBase::setupSequence(), SingleRankPartitioner::SingleRankPartitioner(), SphericalGridDivision::SphericalGridDivision(), SymmetryTransformGenerator::SymmetryTransformGenerator(), Terminator::Terminator(), TimeDerivativeAux::TimeDerivativeAux(), Transfer::Transfer(), TransformGenerator::TransformGenerator(), TransientMultiApp::TransientMultiApp(), ParsedCurveGenerator::tSectionSpaceDefiner(), UniqueExtraIDMeshGenerator::UniqueExtraIDMeshGenerator(), UserObject::UserObject(), VariableCondensationPreconditioner::VariableCondensationPreconditioner(), VectorBodyForce::VectorBodyForce(), VectorFunctionDirichletBC::VectorFunctionDirichletBC(), VectorFunctionIC::VectorFunctionIC(), VolumeAux::VolumeAux(), XYDelaunayGenerator::XYDelaunayGenerator(), and XYMeshLineCutter::XYMeshLineCutter().

244 {
245  Moose::show_trace = false;
246  std::string msg = paramErrorMsg(param, std::forward<Args>(args)...);
248  Moose::show_trace = true;
249 }
bool show_trace
Set to true (the default) to print the stack trace with error and warning messages - false to omit it...
Definition: Moose.C:642
MooseApp & getMooseApp() const
Get the MooseApp this class is associated with.
Definition: MooseBase.h:44
void callMooseErrorRaw(std::string &msg, MooseApp *app)
const MooseBase *const _moose_base
The MooseBase object that inherits this class.
std::string paramErrorMsg(const std::string &param, Args... args) const

◆ parameters()

const InputParameters& MooseBaseParameterInterface::parameters ( ) const
inlineinherited

Get the parameters of the object.

Returns
The parameters of the object

Definition at line 63 of file MooseBaseParameterInterface.h.

Referenced by SetupDebugAction::act(), FEProblemBase::addAuxKernel(), FEProblemBase::addAuxScalarKernel(), DisplacedProblem::addAuxVariable(), FEProblemBase::addBoundaryCondition(), FEProblemBase::addConstraint(), FEProblemBase::addDamper(), FEProblemBase::addDGKernel(), FEProblemBase::addDiracKernel(), FEProblemBase::addDistribution(), FEProblemBase::addFunction(), FEProblemBase::addFunctorMaterial(), FEProblemBase::addFVBC(), FEProblemBase::addFVInitialCondition(), FEProblemBase::addFVInterfaceKernel(), FEProblemBase::addFVKernel(), FEProblemBase::addIndicator(), FEProblemBase::addInitialCondition(), FEProblemBase::addInterfaceKernel(), FEProblemBase::addInterfaceMaterial(), FEProblemBase::addKernel(), FEProblem::addLineSearch(), FEProblemBase::addMarker(), FEProblemBase::addMaterial(), FEProblemBase::addMaterialHelper(), FEProblemBase::addMeshDivision(), FEProblemBase::addMultiApp(), FEProblemBase::addNodalKernel(), FEProblemBase::addObject(), FEProblemBase::addObjectParamsHelper(), FEProblemBase::addOutput(), FEProblemBase::addPostprocessor(), FEProblemBase::addPredictor(), FEProblemBase::addReporter(), FEProblemBase::addSampler(), FEProblemBase::addScalarKernel(), FEProblemBase::addTimeIntegrator(), FEProblemBase::addTransfer(), FEProblemBase::addUserObject(), DisplacedProblem::addVariable(), FEProblemBase::addVectorPostprocessor(), ADPiecewiseLinearInterpolationMaterial::ADPiecewiseLinearInterpolationMaterial(), AdvancedOutput::AdvancedOutput(), ADVectorFunctionDirichletBC::ADVectorFunctionDirichletBC(), AnnularMesh::AnnularMesh(), AnnularMeshGenerator::AnnularMeshGenerator(), assemble_l2(), Moose::assemble_matrix(), PhysicsBase::assertParamDefined(), AuxKernelTempl< Real >::AuxKernelTempl(), AuxScalarKernel::AuxScalarKernel(), BoundsBase::BoundsBase(), MooseMesh::buildTypedMesh(), UserObjectInterface::castUserObject(), PostprocessorInterface::checkParam(), PhysicsBase::checkSecondParamSetOnlyIfFirstOneTrue(), LibmeshPartitioner::clone(), cloneMesh(), Moose::compute_bounds(), Moose::compute_jacobian(), Moose::compute_nearnullspace(), Moose::compute_nullspace(), Moose::compute_postcheck(), Moose::compute_transpose_nullspace(), LibtorchNeuralNetControl::conditionalParameterError(), Console::Console(), MultiApp::createApp(), Postprocessor::declareValue(), DumpObjectsProblem::deduceNecessaryParameters(), DumpObjectsProblem::dumpObjectHelper(), EigenProblem::EigenProblem(), Eigenvalue::Eigenvalue(), Executor::Executor(), Exodus::Exodus(), FEProblem::FEProblem(), FEProblemBase::FEProblemBase(), FixedPointSolve::FixedPointSolve(), FunctorSmootherTempl< T >::FunctorSmootherTempl(), GapValueAux::GapValueAux(), ParsedSubdomainMeshGenerator::generate(), ParsedGenerateSideset::generate(), MooseBaseParameterInterface::getCheckedPointerParam(), ExecutorInterface::getExecutor(), Material::getMaterial(), ReporterInterface::getReporterName(), Reporter::getReporterValueName(), UserObjectInterface::getUserObjectName(), VectorPostprocessorInterface::getVectorPostprocessorName(), GhostingUserObject::GhostingUserObject(), AttribSystem::initFrom(), AttribDisplaced::initFrom(), BlockRestrictable::initializeBlockRestrictable(), FullSolveMultiApp::initialSetup(), FEProblemBase::initNullSpaceVectors(), InterfaceDiffusiveFluxIntegralTempl< is_ad >::InterfaceDiffusiveFluxIntegralTempl(), InterfaceIntegralVariableValuePostprocessor::InterfaceIntegralVariableValuePostprocessor(), InterfaceKernelTempl< T >::InterfaceKernelTempl(), isValid(), IterationAdaptiveDT::IterationAdaptiveDT(), LibtorchNeuralNetControl::LibtorchNeuralNetControl(), MaterialVectorPostprocessor::MaterialVectorPostprocessor(), MooseVariableInterface< Real >::MooseVariableInterface(), MultiApp::MultiApp(), MultiAppGeneralFieldTransfer::MultiAppGeneralFieldTransfer(), MultiAppGeneralFieldUserObjectTransfer::MultiAppGeneralFieldUserObjectTransfer(), MultiAppTransfer::MultiAppTransfer(), MultiAppVariableValueSamplePostprocessorTransfer::MultiAppVariableValueSamplePostprocessorTransfer(), NodeFaceConstraint::NodeFaceConstraint(), OverlayMeshGenerator::OverlayMeshGenerator(), PatchMeshGenerator::PatchMeshGenerator(), PenetrationAux::PenetrationAux(), PicardSolve::PicardSolve(), PiecewiseBilinear::PiecewiseBilinear(), PiecewiseLinearInterpolationMaterial::PiecewiseLinearInterpolationMaterial(), ProjectedStatefulMaterialStorageAction::processProperty(), PropertyReadFile::PropertyReadFile(), PseudoTimestep::PseudoTimestep(), RandomIC::RandomIC(), InputParameterWarehouse::removeInputParameters(), OutputWarehouse::resetFileBase(), FEProblem::setInputParametersFEProblem(), FEProblemBase::setInputParametersFEProblem(), SideSetsFromBoundingBoxGenerator::SideSetsFromBoundingBoxGenerator(), SteffensenSolve::SteffensenSolve(), DumpObjectsProblem::stringifyParameters(), TaggingInterface::TaggingInterface(), Transfer::Transfer(), Transient::Transient(), VectorBodyForce::VectorBodyForce(), VectorFunctionDirichletBC::VectorFunctionDirichletBC(), VectorFunctionIC::VectorFunctionIC(), and VectorMagnitudeFunctorMaterialTempl< is_ad >::VectorMagnitudeFunctorMaterialTempl().

63 { return _pars; }
const InputParameters & _pars
Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

◆ paramInfo()

template<typename... Args>
void MooseBaseParameterInterface::paramInfo ( const std::string &  param,
Args...  args 
) const
inherited

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

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

Definition at line 260 of file MooseBaseParameterInterface.h.

Referenced by TransientMultiApp::TransientMultiApp().

261 {
262  mooseInfo(paramErrorMsg(param, std::forward<Args>(args)...));
263 }
void mooseInfo(Args &&... args)
Emit an informational message with the given stringified, concatenated args.
Definition: MooseError.h:329
std::string paramErrorMsg(const std::string &param, Args... args) const

◆ paramWarning()

template<typename... Args>
void MooseBaseParameterInterface::paramWarning ( const std::string &  param,
Args...  args 
) const
inherited

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

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

Definition at line 253 of file MooseBaseParameterInterface.h.

Referenced by MultiAppNearestNodeTransfer::execute(), FEProblemSolve::FEProblemSolve(), UniqueExtraIDMeshGenerator::generate(), PlaneIDMeshGenerator::generate(), Terminator::initialSetup(), and MooseMesh::MooseMesh().

254 {
255  mooseWarning(paramErrorMsg(param, std::forward<Args>(args)...));
256 }
void mooseWarning(Args &&... args)
Emit a warning message with the given stringified, concatenated args.
Definition: MooseError.h:296
std::string paramErrorMsg(const std::string &param, Args... args) const

◆ perfGraph()

PerfGraph & PerfGraphInterface::perfGraph ( )
inherited

Get the PerfGraph.

Definition at line 78 of file PerfGraphInterface.C.

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

79 {
80  return _pg_moose_app.perfGraph();
81 }
MooseApp & _pg_moose_app
The MooseApp that owns the PerfGraph.
PerfGraph & perfGraph()
Get the PerfGraph for this app.
Definition: MooseApp.h:144

◆ petscLinearOutput()

PetscErrorCode PetscOutputInterface::petscLinearOutput ( KSP  ,
PetscInt  its,
PetscReal  fnorm,
void void_ptr 
)
staticprotectedinherited

Performs the output onlinear iterations This is the monitor method that PETSc will call on linear iterations.

This is one of three locations where we explicitly flush the output buffers during a simulation: PetscOutput::petscNonlinearOutput() PetscOutput::petscLinearOutput() OutputWarehouse::outputStep()

All other Console output should be using newlines to avoid covering buffer errors and to avoid excessive I/O. This call is necessary. In the PETSc callback the context bypasses the OutputWarehouse.

Definition at line 75 of file PetscOutput.C.

Referenced by PetscOutput::solveSetup().

76 {
77  // Get the primary outputter object
78  PetscOutput * primary_ptr = static_cast<PetscOutput *>(void_ptr);
79 
80  // loop over all interface objects
81  for (const auto poi_ptr : primary_ptr->getMooseApp().getInterfaceObjects<PetscOutputInterface>())
82  {
83  auto ptr = poi_ptr->_petsc_output;
84 
85  // check time
86  if (!ptr->inLinearTimeWindow())
87  continue;
88 
89  // Update the pseudo time
90  ptr->_linear_time += ptr->_linear_dt;
91 
92  // Set the current norm and iteration number
93  ptr->_norm = norm;
94  ptr->_linear_iter = its;
95 
96  // Set the flag indicating that output is occurring on the non-linear residual
97  ptr->_on_linear_residual = true;
98 
99  // Perform the output
100  ptr->outputStep(EXEC_LINEAR);
101 
113  ptr->_app.getOutputWarehouse().flushConsoleBuffer();
114 
115  // Reset the linear output flag and the simulation time
116  ptr->_on_linear_residual = false;
117  }
118 
119  // Done
120  return 0;
121 }
Real _linear_time
Psuedo linear time.
Definition: PetscOutput.h:108
MooseApp & getMooseApp() const
Get the MooseApp this class is associated with.
Definition: MooseBase.h:44
PetscOutput * _petsc_output
Definition: PetscOutput.h:23
auto norm(const T &a) -> decltype(std::abs(a))
const ExecFlagType EXEC_LINEAR
Definition: Moose.C:29
const std::vector< T * > & getInterfaceObjects() const
Gets the registered interface objects for a given interface.
Definition: MooseApp.h:1535
Adds the ability to output on every nonlinear and/or linear residual.
Definition: PetscOutput.h:41

◆ petscNonlinearOutput()

PetscErrorCode PetscOutputInterface::petscNonlinearOutput ( SNES  ,
PetscInt  its,
PetscReal  fnorm,
void void_ptr 
)
staticprotectedinherited

Performs the output on non-linear iterations This is the monitor method that PETSc will call on non-linear iterations.

This is one of three locations where we explicitly flush the output buffers during a simulation: PetscOutput::petscNonlinearOutput() PetscOutput::petscLinearOutput() OutputWarehouse::outputStep()

All other Console output should be using newlines to avoid covering buffer errors and to avoid excessive I/O. This call is necessary. In the PETSc callback the context bypasses the OutputWarehouse.

Definition at line 25 of file PetscOutput.C.

Referenced by PetscOutput::solveSetup().

26 {
27  // Get the primary outputter object
28  PetscOutput * primary_ptr = static_cast<PetscOutput *>(void_ptr);
29 
30  // loop over all interface objects
31  for (const auto poi_ptr : primary_ptr->getMooseApp().getInterfaceObjects<PetscOutputInterface>())
32  {
33  auto ptr = poi_ptr->_petsc_output;
34 
35  // check time
36  if (!ptr->inNonlinearTimeWindow())
37  continue;
38 
39  // Update the pseudo times
40  ptr->_nonlinear_time += ptr->_nonlinear_dt;
41  ptr->_linear_time = ptr->_nonlinear_time;
42 
43  // Set the current norm and iteration number
44  ptr->_norm = norm;
45  ptr->_nonlinear_iter = its;
46 
47  // Set the flag indicating that output is occurring on the non-linear residual
48  ptr->_on_nonlinear_residual = true;
49 
50  // Perform the output
51  ptr->outputStep(EXEC_NONLINEAR);
52 
64  ptr->_app.getOutputWarehouse().flushConsoleBuffer();
65 
66  // Reset the non-linear output flag and the simulation time
67  ptr->_on_nonlinear_residual = false;
68  }
69 
70  // Done
71  return 0;
72 }
MooseApp & getMooseApp() const
Get the MooseApp this class is associated with.
Definition: MooseBase.h:44
PetscOutput * _petsc_output
Definition: PetscOutput.h:23
Real _nonlinear_time
The psuedo non-linear time.
Definition: PetscOutput.h:102
auto norm(const T &a) -> decltype(std::abs(a))
const ExecFlagType EXEC_NONLINEAR
Definition: Moose.C:30
const std::vector< T * > & getInterfaceObjects() const
Gets the registered interface objects for a given interface.
Definition: MooseApp.h:1535
Adds the ability to output on every nonlinear and/or linear residual.
Definition: PetscOutput.h:41

◆ registerTimedSection() [1/2]

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

Call to register a named section for timing.

Parameters
section_nameThe name of the code section to be timed
levelThe importance of the timer - lower is more important (0 will always come out)
Returns
The ID of the section - use when starting timing

Definition at line 53 of file PerfGraphInterface.C.

55 {
56  const auto timed_section_name = timedSectionName(section_name);
57  if (!moose::internal::getPerfGraphRegistry().sectionExists(timed_section_name))
58  return moose::internal::getPerfGraphRegistry().registerSection(timed_section_name, level);
59  else
60  return moose::internal::getPerfGraphRegistry().sectionID(timed_section_name);
61 }
PerfID registerSection(const std::string &section_name, const unsigned int level)
Call to register a named section for timing.
std::string timedSectionName(const std::string &section_name) const
PerfID sectionID(const std::string &section_name) const
Given a name return the PerfID The name of the section.
PerfGraphRegistry & getPerfGraphRegistry()
Get the global PerfGraphRegistry singleton.

◆ registerTimedSection() [2/2]

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

Call to register a named section for timing.

Parameters
section_nameThe name of the code section to be timed
levelThe importance of the timer - lower is more important (0 will always come out)
live_messageThe message to be printed to the screen during execution
print_dotsWhether or not progress dots should be printed for this section
Returns
The ID of the section - use when starting timing

Definition at line 64 of file PerfGraphInterface.C.

68 {
69  const auto timed_section_name = timedSectionName(section_name);
70  if (!moose::internal::getPerfGraphRegistry().sectionExists(timed_section_name))
72  timedSectionName(section_name), level, live_message, print_dots);
73  else
74  return moose::internal::getPerfGraphRegistry().sectionID(timed_section_name);
75 }
PerfID registerSection(const std::string &section_name, const unsigned int level)
Call to register a named section for timing.
std::string timedSectionName(const std::string &section_name) const
PerfID sectionID(const std::string &section_name) const
Given a name return the PerfID The name of the section.
PerfGraphRegistry & getPerfGraphRegistry()
Get the global PerfGraphRegistry singleton.

◆ residualSetup()

void SetupInterface::residualSetup ( )
virtualinherited

◆ 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().

67 {
68  return _restartable_system_name + "/" + _restartable_name + "/" + data_name;
69 }
std::string _restartable_name
The name of the object.
Definition: Restartable.h:243
const std::string _restartable_system_name
The system name this object is in.
Definition: Restartable.h:230

◆ setFileBase()

void FileOutput::setFileBase ( const std::string &  file_base)
inherited

Sets the file base string if the 'file_base' parameter is not set.

Parameters
file_baseThe new file base string

Definition at line 118 of file FileOutput.C.

Referenced by OutputWarehouse::resetFileBase().

119 {
120  if (!isParamValid("file_base"))
121  setFileBaseInternal(file_base);
122 }
virtual void setFileBaseInternal(const std::string &file_base)
Internal function that sets the file_base.
Definition: FileOutput.C:125
bool isParamValid(const std::string &name) const
Test if the supplied parameter is valid.

◆ setFileBaseInternal()

void OversampleOutput::setFileBaseInternal ( const std::string &  file_base)
overrideprotectedvirtual

Appends the base class's file base string.

Reimplemented from FileOutput.

Definition at line 301 of file OversampleOutput.C.

302 {
304  // ** DEPRECATED SUPPORT **
305  if (getParam<bool>("append_oversample"))
306  _file_base += "_oversample";
307 }
virtual void setFileBaseInternal(const std::string &file_base)
Internal function that sets the file_base.
Definition: FileOutput.C:125
std::string _file_base
The base filename from the input paramaters.
Definition: FileOutput.h:89

◆ setFileNumber()

void FileOutput::setFileNumber ( unsigned int  num)
inherited

Sets the file number manually.

This method was implemented for the MultiApp system, particularly when reseting an application and a new output file is desired after the reset.

Definition at line 170 of file FileOutput.C.

Referenced by OutputWarehouse::setFileNumbers().

171 {
172  _file_num = num;
173 }
unsigned int & _file_num
A file number counter, initialized to 0 (this must be controlled by the child class, see Exodus)
Definition: FileOutput.h:80

◆ setWallTimeIntervalFromCommandLineParam()

void Output::setWallTimeIntervalFromCommandLineParam ( )
protectedinherited

Function to set the wall time interval based on value of command line parameter (used for testing only).

Parameters
cli_param_nameThe name of the command line parameter to set the wall time interval to

Definition at line 336 of file Output.C.

Referenced by Checkpoint::Checkpoint().

337 {
338  if (_app.isParamValid("output_wall_time_interval"))
339  {
340  _wall_time_interval = _app.getParam<Real>("output_wall_time_interval");
341 
342  // If default value of _wall_time_interval was just overriden and user did not
343  // explicitly specify _time_step_interval, override default value of
344  // _time_step_interval so output does not occur after every time step
347  }
348 }
bool isParamValid(const std::string &name) const
Definition: MooseApp.h:174
auto max(const L &left, const R &right)
const bool _time_step_interval_set_by_addparam
Whether time step interval is set by AddParam.
Definition: Output.h:226
MooseApp & _app
The MOOSE application this is associated with.
Definition: MooseBase.h:69
Real _wall_time_interval
Target wall time between outputs in seconds.
Definition: Output.h:238
unsigned int _time_step_interval
The output time step interval.
Definition: Output.h:229
const T & getParam(const std::string &name)
Retrieve a parameter for the object.
Definition: MooseApp.h:1474
DIE A HORRIBLE DEATH HERE typedef LIBMESH_DEFAULT_SCALAR_TYPE Real

◆ shouldOutput()

bool AdvancedOutput::shouldOutput ( )
protectedvirtualinherited

Handles logic for determining if a step should be output.

Returns
True if a call if output should be performed

Reimplemented from FileOutput.

Definition at line 262 of file AdvancedOutput.C.

Referenced by outputStep().

263 {
264  if (!checkFilename())
265  return false;
266 
268  return true;
269  else
270  return Output::shouldOutput();
271 }
virtual bool hasOutput()
Returns true if any of the other has methods return true.
virtual bool shouldOutput()
Handles logic for determining if a step should be output.
Definition: Output.C:278
ExecFlagType _current_execute_flag
Current execute on flag.
Definition: Output.h:205
bool checkFilename()
Checks the filename for output Checks the output against the &#39;output_if_base_contians&#39; list...
Definition: FileOutput.C:87

◆ subdomainSetup()

void SetupInterface::subdomainSetup ( )
virtualinherited

Gets called when the subdomain changes (i.e.

in a Jacobian or residual loop) and before this object is asked to do its job

Reimplemented in MaterialBase, Material, NodalUserObject, GeneralUserObject, Constraint, and ThreadedGeneralUserObject.

Definition at line 60 of file SetupInterface.C.

61 {
62 }

◆ time()

Real PetscOutput::time ( )
overridevirtualinherited

Get the output time.

This outputter enables the ability to perform output on the nonlinear and linear iterations performed by PETSc. To separate theses outputs within the output a pseudo time is defined, this function provides this time and it should be used in place of _time from Outputter.

Reimplemented from Output.

Definition at line 254 of file PetscOutput.C.

Referenced by PetscOutput::getOutputTime(), and FileOutput::setFileBaseInternal().

255 {
257  return _nonlinear_time;
258  else if (_on_linear_residual)
259  return _linear_time;
260  else
261  return Output::time();
262 }
bool _on_linear_residual
True if current output calls is on the linear residual (used by time())
Definition: PetscOutput.h:90
Real _linear_time
Psuedo linear time.
Definition: PetscOutput.h:108
bool _on_nonlinear_residual
True if current output call is on the non-linear residual (used by time())
Definition: PetscOutput.h:93
Real _nonlinear_time
The psuedo non-linear time.
Definition: PetscOutput.h:102
virtual Real time()
Get the output time.
Definition: Output.C:351

◆ timedSectionName()

std::string PerfGraphInterface::timedSectionName ( const std::string &  section_name) const
protectedinherited
Returns
The name of the timed section with the name section_name.

Optionally adds a prefix if one is defined.

Definition at line 47 of file PerfGraphInterface.C.

Referenced by PerfGraphInterface::registerTimedSection().

48 {
49  return _prefix.empty() ? "" : (_prefix + "::") + section_name;
50 }
const std::string _prefix
A prefix to use for all sections.

◆ timeOld()

Real Output::timeOld ( )
virtualinherited

Get the old output time.

Returns
The old output time, which may be different than the simulation time
See also
time()

Definition at line 360 of file Output.C.

Referenced by Console::writeTimestepInformation().

361 {
362  if (_transient)
363  return _time_old;
364  else
365  return _t_step - 1;
366 }
Real & _time_old
The old time.
Definition: Output.h:211
int & _t_step
The current time step.
Definition: Output.h:214
bool _transient
Transient flag (true = transient)
Definition: Output.h:182

◆ timeStep()

int Output::timeStep ( )
virtualinherited

Get the current time step.

Definition at line 387 of file Output.C.

Referenced by JSONOutput::filename(), Checkpoint::filename(), CSV::getVectorPostprocessorFileName(), Checkpoint::shouldOutput(), and Console::writeTimestepInformation().

388 {
389  return _t_step;
390 }
int & _t_step
The current time step.
Definition: Output.h:214

◆ timestepSetup()

void SetupInterface::timestepSetup ( )
virtualinherited

◆ 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 50 of file MooseBase.h.

Referenced by CreateProblemDefaultAction::act(), SetupDebugAction::act(), MaterialDerivativeTestAction::act(), MaterialOutputAction::act(), FEProblemBase::addAuxArrayVariable(), FEProblemBase::addAuxScalarVariable(), FEProblemBase::addAuxVariable(), FEProblemBase::addDistribution(), FEProblemBase::addFunction(), FEProblemBase::addMeshDivision(), MeshGenerator::addMeshSubgenerator(), FEProblemBase::addObject(), FEProblemBase::addPredictor(), CreateDisplacedProblemAction::addProxyRelationshipManagers(), FEProblemBase::addReporter(), FEProblemBase::addSampler(), FEProblemBase::addTimeIntegrator(), MooseServer::addValuesToList(), DisplacedProblem::addVectorTag(), SubProblem::addVectorTag(), FEProblemBase::advanceMultiApps(), PhysicsBase::assertParamDefined(), AuxKernelTempl< Real >::AuxKernelTempl(), FEProblemBase::backupMultiApps(), BoundaryPreservedMarker::BoundaryPreservedMarker(), DistributedRectilinearMeshGenerator::buildCube(), MooseMesh::buildHRefinementAndCoarseningMaps(), MooseMesh::buildPRefinementAndCoarseningMaps(), MeshDiagnosticsGenerator::checkNonConformalMeshFromAdaptivity(), PhysicsBase::checkRequiredTasks(), FEProblemBase::computeAuxiliaryKernels(), ADDGKernel::computeElemNeighJacobian(), DGKernel::computeElemNeighJacobian(), ElemElemConstraint::computeElemNeighJacobian(), ArrayDGKernel::computeElemNeighJacobian(), ADDGKernel::computeElemNeighResidual(), DGKernel::computeElemNeighResidual(), ElemElemConstraint::computeElemNeighResidual(), ArrayDGKernel::computeElemNeighResidual(), LowerDIntegratedBC::computeLowerDJacobian(), ArrayLowerDIntegratedBC::computeLowerDJacobian(), DGLowerDKernel::computeLowerDJacobian(), ArrayDGLowerDKernel::computeLowerDJacobian(), LowerDIntegratedBC::computeLowerDOffDiagJacobian(), ArrayLowerDIntegratedBC::computeLowerDOffDiagJacobian(), ArrayHFEMDirichletBC::computeLowerDQpJacobian(), ArrayHFEMDiffusion::computeLowerDQpJacobian(), HFEMDiffusion::computeLowerDQpJacobian(), HFEMDirichletBC::computeLowerDQpJacobian(), ArrayHFEMDirichletBC::computeLowerDQpOffDiagJacobian(), HFEMDirichletBC::computeLowerDQpOffDiagJacobian(), ArrayLowerDIntegratedBC::computeLowerDQpOffDiagJacobian(), ArrayDGLowerDKernel::computeLowerDQpOffDiagJacobian(), FEProblemBase::computeMultiAppsDT(), ADDGKernel::computeOffDiagElemNeighJacobian(), DGKernel::computeOffDiagElemNeighJacobian(), ArrayDGKernel::computeOffDiagElemNeighJacobian(), DGLowerDKernel::computeOffDiagLowerDJacobian(), ArrayDGLowerDKernel::computeOffDiagLowerDJacobian(), DGConvection::computeQpJacobian(), ScalarKernel::computeQpJacobian(), InterfaceDiffusion::computeQpJacobian(), InterfaceReaction::computeQpJacobian(), ArrayDGDiffusion::computeQpJacobian(), CoupledTiedValueConstraint::computeQpJacobian(), TiedValueConstraint::computeQpJacobian(), DGDiffusion::computeQpJacobian(), LinearNodalConstraint::computeQpJacobian(), EqualValueBoundaryConstraint::computeQpJacobian(), EqualValueEmbeddedConstraint::computeQpJacobian(), CoupledTiedValueConstraint::computeQpOffDiagJacobian(), HFEMTestJump::computeQpOffDiagJacobian(), HFEMTrialJump::computeQpOffDiagJacobian(), EqualValueEmbeddedConstraint::computeQpOffDiagJacobian(), ArrayDGKernel::computeQpOffDiagJacobian(), DGConvection::computeQpResidual(), HFEMDiffusion::computeQpResidual(), ArrayHFEMDiffusion::computeQpResidual(), ScalarKernel::computeQpResidual(), InterfaceDiffusion::computeQpResidual(), InterfaceReaction::computeQpResidual(), ADDGAdvection::computeQpResidual(), ArrayDGDiffusion::computeQpResidual(), CoupledTiedValueConstraint::computeQpResidual(), TiedValueConstraint::computeQpResidual(), DGDiffusion::computeQpResidual(), LinearNodalConstraint::computeQpResidual(), ADDGDiffusion::computeQpResidual(), HFEMTrialJump::computeQpResidual(), EqualValueBoundaryConstraint::computeQpResidual(), HFEMTestJump::computeQpResidual(), EqualValueEmbeddedConstraint::computeQpResidual(), FEProblemBase::computeUserObjectByName(), FEProblemBase::computeUserObjects(), FEProblemBase::computeUserObjectsInternal(), BatchMaterial< Tuple, Output, Input >::construct(), DisplacedProblem::createQRules(), FEProblemBase::createQRules(), DumpObjectsProblem::deduceNecessaryParameters(), DumpObjectsProblem::dumpObjectHelper(), FEProblemBase::duplicateVariableCheck(), ElementGroupCentroidPositions::ElementGroupCentroidPositions(), MooseBaseErrorInterface::errorPrefix(), AB2PredictorCorrector::estimateTimeError(), FEProblemBase::execMultiApps(), FEProblemBase::execMultiAppTransfers(), FEProblemBase::execTransfers(), FEProblemBase::finishMultiAppStep(), FVScalarLagrangeMultiplierInterface::FVScalarLagrangeMultiplierInterface(), LowerDBlockFromSidesetGenerator::generate(), SubdomainPerElementGenerator::generate(), PatternedMeshGenerator::generate(), MeshGenerator::generateInternal(), MultiAppTransfer::getAppInfo(), TransfiniteMeshGenerator::getEdge(), ElementGenerator::getElemType(), MooseServer::getInputLookupDefinitionNodes(), FEProblemBase::getMaterial(), FEProblemBase::getMaterialData(), MaterialOutputAction::getParams(), ReporterData::getReporterInfo(), Transient::getTimeIntegratorName(), FEProblemBase::getTransfers(), DisplacedProblem::getVectorTags(), SubProblem::getVectorTags(), CommonOutputAction::hasConsole(), FEProblemBase::hasMultiApps(), AdvancedOutput::hasOutput(), FEProblemBase::incrementMultiAppTStep(), AdvancedOutput::initAvailableLists(), FunctorPositions::initialize(), FunctorTimes::initialize(), MultiAppConservativeTransfer::initialSetup(), ArrayDGDiffusion::initQpResidual(), AdvancedOutput::initShowHideLists(), RelationshipManager::isType(), FEProblemBase::logAdd(), MaterialFunctorConverterTempl< T >::MaterialFunctorConverterTempl(), DisplacedProblem::numVectorTags(), SubProblem::numVectorTags(), MooseBaseParameterInterface::objectErrorPrefix(), Console::output(), AdvancedOutput::output(), outputStep(), Output::outputStep(), FEProblemBase::outputStep(), ProjectedStatefulMaterialStorageAction::processProperty(), SolutionInvalidInterface::registerInvalidSolutionInternal(), FEProblemBase::restoreMultiApps(), MeshRepairGenerator::separateSubdomainsByElementType(), FEProblemBase::setCoupling(), MooseBase::typeAndName(), ScalarKernelBase::uOld(), AuxScalarKernel::uOld(), DisplacedProblem::updateGeomSearch(), FEProblemBase::updateGeomSearch(), UserObjectInterface::userObjectType(), and AdvancedOutput::wantOutput().

50 { return _type; }
const std::string & _type
The type of this class.
Definition: MooseBase.h:72

◆ typeAndName()

std::string MooseBase::typeAndName ( ) const
inlineinherited

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 62 of file MooseBase.h.

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

63  {
64  return type() + std::string(" \"") + name() + std::string("\"");
65  }
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
const std::string & type() const
Get the type of this class.
Definition: MooseBase.h:50

◆ uniqueName()

MooseObjectName MooseBaseParameterInterface::uniqueName ( ) const
inlineinherited

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

Definition at line 68 of file MooseBaseParameterInterface.h.

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

69  {
70  return MooseObjectName(_pars.get<std::string>("_unique_name"));
71  }
std::vector< std::pair< R1, R2 > > get(const std::string &param1, const std::string &param2) const
Combine two vector parameters into a single vector of pairs.
const InputParameters & _pars
Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.
A class for storing the names of MooseObject by tag and object name.

◆ uniqueParameterName()

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

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

Definition at line 53 of file MooseBaseParameterInterface.h.

54  {
56  _pars.get<std::string>("_moose_base"), _moose_base->name(), parameter_name);
57  }
std::vector< std::pair< R1, R2 > > get(const std::string &param1, const std::string &param2) const
Combine two vector parameters into a single vector of pairs.
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:56
const MooseBase *const _moose_base
The MooseBase object that inherits this class.
const InputParameters & _pars
Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.
A class for storing an input parameter name.

◆ updateOversample()

void OversampleOutput::updateOversample ( )
protectedvirtual

Performs the update of the solution vector for the oversample/re-positioned mesh.

Definition at line 211 of file OversampleOutput.C.

Referenced by outputStep().

212 {
213  // Do nothing if oversampling and changing position are not enabled
214  if (!_oversample && !_change_position)
215  return;
216 
217  // Get a reference to actual equation system
218  EquationSystems & source_es = _problem_ptr->es();
219 
220  // Loop throuch each system
221  for (unsigned int sys_num = 0; sys_num < source_es.n_systems(); ++sys_num)
222  {
223  if (!_mesh_functions[sys_num].empty())
224  {
225  // Get references to the source and destination systems
226  System & source_sys = source_es.get_system(sys_num);
227  System & dest_sys = _oversample_es->get_system(sys_num);
228 
229  // Update the solution for the oversampled mesh
230  _serialized_solution->clear();
231  _serialized_solution->init(source_sys.n_dofs(), false, SERIAL);
232  source_sys.solution->localize(*_serialized_solution);
233 
234  // Update the mesh functions
235  for (unsigned int var_num = 0; var_num < _mesh_functions[sys_num].size(); ++var_num)
236  {
237 
238  // If the mesh has change the MeshFunctions need to be re-built, otherwise simply clear it
239  // for re-initialization
240  if (!_mesh_functions[sys_num][var_num] || _oversample_mesh_changed)
241  _mesh_functions[sys_num][var_num] = std::make_unique<MeshFunction>(
242  source_es, *_serialized_solution, source_sys.get_dof_map(), var_num);
243  else
244  _mesh_functions[sys_num][var_num]->clear();
245 
246  // Initialize the MeshFunctions for application to the oversampled solution
247  _mesh_functions[sys_num][var_num]->init();
248  }
249 
250  // Now loop over the nodes of the oversampled mesh setting values for each variable.
251  for (const auto & node : as_range(_mesh_ptr->localNodesBegin(), _mesh_ptr->localNodesEnd()))
252  for (unsigned int var_num = 0; var_num < _mesh_functions[sys_num].size(); ++var_num)
253  if (node->n_dofs(sys_num, var_num))
254  dest_sys.solution->set(node->dof_number(sys_num, var_num, 0),
255  (*_mesh_functions[sys_num][var_num])(
256  *node - _position)); // 0 value is for component
257 
258  dest_sys.solution->close();
259  }
260  }
261 
262  // Set this to false so that new output files are not created, since the oversampled mesh doesn't
263  // actually change
264  _oversample_mesh_changed = false;
265 }
bool _oversample_mesh_changed
A flag indicating that the mesh has changed and the oversampled mesh needs to be re-initialized.
std::vector< std::vector< std::unique_ptr< MeshFunction > > > _mesh_functions
A vector of pointers to the mesh functions This is only populated when the oversample() function is c...
Point _position
When oversampling, the output is shift by this amount.
std::unique_ptr< EquationSystems > _oversample_es
std::unique_ptr< NumericVector< Number > > _serialized_solution
Oversample solution vector.
virtual EquationSystems & es() override
SERIAL
bool _oversample
Flag indicating that oversampling is enabled.
SimpleRange< IndexType > as_range(const std::pair< IndexType, IndexType > &p)
FEProblemBase * _problem_ptr
Pointer the the FEProblemBase object for output object (use this)
Definition: Output.h:179
MooseMesh * _mesh_ptr
A convenience pointer to the current mesh (reference or displaced depending on "use_displaced") ...
Definition: Output.h:191
MeshBase::node_iterator localNodesEnd()
Definition: MooseMesh.C:2783
MeshBase::node_iterator localNodesBegin()
Calls local_nodes_begin/end() on the underlying libMesh mesh object.
Definition: MooseMesh.C:2777
bool _change_position
Flag for re-positioning.

◆ validParams()

InputParameters OversampleOutput::validParams ( )
static

Definition at line 23 of file OversampleOutput.C.

Referenced by GMVOutput::validParams(), XDA::validParams(), VTKOutput::validParams(), Tecplot::validParams(), and Exodus::validParams().

24 {
25 
26  // Get the parameters from the parent object
28  params.addParam<unsigned int>("refinements",
29  0,
30  "Number of uniform refinements for oversampling "
31  "(refinement levels beyond any uniform "
32  "refinements)");
33  params.addParam<Point>("position",
34  "Set a positional offset, this vector will get added to the "
35  "nodal coordinates to move the domain.");
36  params.addParam<MeshFileName>("file", "The name of the mesh file to read, for oversampling");
37 
38  // **** DEPRECATED AND REMOVED PARAMETERS ****
39  params.addDeprecatedParam<bool>("oversample",
40  false,
41  "Set to true to enable oversampling",
42  "This parameter is no longer active, simply set 'refinements' to "
43  "a value greater than zero to evoke oversampling");
44  params.addDeprecatedParam<bool>("append_oversample",
45  false,
46  "Append '_oversample' to the output file base",
47  "This parameter is no longer operational, to append "
48  "'_oversample' utilize the output block name or 'file_base'");
49 
50  // 'Oversampling' Group
51  params.addParamNamesToGroup("refinements position file", "Oversampling");
52 
53  return params;
54 }
void addDeprecatedParam(const std::string &name, const T &value, const std::string &doc_string, const std::string &deprecation_message)
The main MOOSE class responsible for handling user-defined parameters in almost every MOOSE system...
void addParam(const std::string &name, const S &value, const std::string &doc_string)
These methods add an option parameter and a documentation string to the InputParameters object...
static InputParameters validParams()
void addParamNamesToGroup(const std::string &space_delim_names, const std::string group_name)
This method takes a space delimited list of parameter names and adds them to the specified group name...

Member Data Documentation

◆ _action_factory

ActionFactory& MooseBaseParameterInterface::_action_factory
protectedinherited

◆ _advanced_execute_on

OutputOnWarehouse Output::_advanced_execute_on
protectedinherited

◆ _allow_output

bool Output::_allow_output
protectedinherited

Flag for disabling output.

Definition at line 265 of file Output.h.

Referenced by Output::allowOutput(), outputStep(), and Output::outputStep().

◆ _app

MooseApp& MooseBase::_app
protectedinherited

The MOOSE application this is associated with.

Definition at line 69 of file MooseBase.h.

◆ _change_position

bool OversampleOutput::_change_position
protected

Flag for re-positioning.

Definition at line 66 of file OversampleOutput.h.

Referenced by initOversample(), Exodus::outputSetup(), and updateOversample().

◆ _cloned_mesh_ptr

std::unique_ptr<MooseMesh> OversampleOutput::_cloned_mesh_ptr
private

Definition at line 98 of file OversampleOutput.h.

Referenced by cloneMesh(), and ~OversampleOutput().

◆ _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.

Referenced by IterationAdaptiveDT::acceptStep(), MeshOnlyAction::act(), SetupDebugAction::act(), MaterialOutputAction::act(), Adaptivity::adaptMesh(), FEProblemBase::adaptMesh(), PerfGraph::addToExecutionList(), SimplePredictor::apply(), SystemBase::applyScalingFactors(), MultiApp::backup(), FEProblemBase::backupMultiApps(), CoarsenedPiecewiseLinear::buildCoarsenedGrid(), MeshDiagnosticsGenerator::checkElementOverlap(), MeshDiagnosticsGenerator::checkElementTypes(), MeshDiagnosticsGenerator::checkElementVolumes(), FEProblemBase::checkExceptionAndStopSolve(), MeshDiagnosticsGenerator::checkLocalJacobians(), MeshDiagnosticsGenerator::checkNonConformalMesh(), MeshDiagnosticsGenerator::checkNonConformalMeshFromAdaptivity(), MeshDiagnosticsGenerator::checkNonPlanarSides(), FEProblemBase::checkProblemIntegrity(), ReferenceResidualProblem::checkRelativeConvergence(), MeshDiagnosticsGenerator::checkSidesetsOrientation(), IterationAdaptiveDT::computeAdaptiveDT(), Transient::computeConstrainedDT(), FixedPointSolve::computeCustomConvergencePostprocessor(), NonlinearSystemBase::computeDamping(), IterationAdaptiveDT::computeDT(), IterationAdaptiveDT::computeFailedDT(), IterationAdaptiveDT::computeInitialDT(), IterationAdaptiveDT::computeInterpolationDT(), NonlinearSystemBase::computeScaling(), Problem::console(), IterationAdaptiveDT::constrainStep(), TimeStepper::constrainStep(), MultiApp::createApp(), FEProblemBase::execMultiApps(), FEProblemBase::execMultiAppTransfers(), MessageFromInput::execute(), Steady::execute(), Eigenvalue::execute(), ActionWarehouse::executeActionsWithAction(), ActionWarehouse::executeAllActions(), ElementQualityChecker::finalize(), FEProblemBase::finishMultiAppStep(), MeshRepairGenerator::fixOverlappingNodes(), CoarsenBlockGenerator::generate(), MeshGenerator::generateInternal(), VariableCondensationPreconditioner::getDofToCondense(), InversePowerMethod::init(), NonlinearEigen::init(), FEProblemBase::initialAdaptMesh(), EigenExecutionerBase::inversePowerIteration(), FEProblemBase::joinAndFinalize(), Transient::keepGoing(), IterationAdaptiveDT::limitDTByFunction(), IterationAdaptiveDT::limitDTToPostprocessorValue(), FEProblemBase::logAdd(), EigenExecutionerBase::makeBXConsistent(), Console::meshChanged(), MooseBaseErrorInterface::mooseDeprecated(), MooseBaseErrorInterface::mooseInfo(), MooseBaseErrorInterface::mooseWarning(), MooseBaseErrorInterface::mooseWarningNonPrefixed(), ReferenceResidualProblem::nonlinearConvergenceSetup(), ReporterDebugOutput::output(), PerfGraphOutput::output(), MaterialPropertyDebugOutput::output(), DOFMapOutput::output(), VariableResidualNormsDebugOutput::output(), Console::output(), ControlOutput::outputActiveObjects(), ControlOutput::outputChangedControls(), ControlOutput::outputControls(), Console::outputInput(), Console::outputPostprocessors(), PseudoTimestep::outputPseudoTimestep(), Console::outputReporters(), Console::outputScalarVariables(), Console::outputSystemInformation(), FEProblemBase::possiblyRebuildGeomSearchPatches(), EigenExecutionerBase::postExecute(), AB2PredictorCorrector::postSolve(), ActionWarehouse::printActionDependencySets(), SolutionInvalidity::printDebug(), EigenExecutionerBase::printEigenvalue(), SecantSolve::printFixedPointConvergenceHistory(), SteffensenSolve::printFixedPointConvergenceHistory(), PicardSolve::printFixedPointConvergenceHistory(), FixedPointSolve::printFixedPointConvergenceReason(), PerfGraphLivePrint::printLiveMessage(), MaterialPropertyDebugOutput::printMaterialMap(), PerfGraphLivePrint::printStats(), AutomaticMortarGeneration::projectPrimaryNodesSinglePair(), AutomaticMortarGeneration::projectSecondaryNodesSinglePair(), CoarsenBlockGenerator::recursiveCoarsen(), SolutionTimeAdaptiveDT::rejectStep(), MultiApp::restore(), FEProblemBase::restoreMultiApps(), SimplePredictor::shouldApply(), Checkpoint::shouldOutput(), SubProblem::showFunctorRequestors(), SubProblem::showFunctors(), FullSolveMultiApp::showStatusMessage(), FEProblemSolve::solve(), FixedPointSolve::solve(), NonlinearSystem::solve(), EigenProblem::solve(), LStableDirk2::solve(), LStableDirk3::solve(), ImplicitMidpoint::solve(), ExplicitTVDRK2::solve(), AStableDirk4::solve(), LStableDirk4::solve(), ExplicitRK2::solve(), TransientMultiApp::solveStep(), FixedPointSolve::solveStep(), PerfGraphLivePrint::start(), AB2PredictorCorrector::step(), NonlinearEigen::takeStep(), Transient::takeStep(), Console::writeTimestepInformation(), Console::writeVariableNorms(), and FEProblemBase::~FEProblemBase().

◆ _current_execute_flag

ExecFlagType Output::_current_execute_flag
protectedinherited

Current execute on flag.

This is different from the flag provided by FEProblemBase::getCurrentExecuteOnFlag() const, as outputs are triggered in PETSc callbacks which cannot update FEProblemBase::_current_execute_on_flag so we shadow it with a new member of the same name.

Definition at line 205 of file Output.h.

Referenced by CSV::getVectorPostprocessorFileName(), ProgressOutput::output(), ControlOutput::output(), CSV::output(), Console::output(), AdvancedOutput::output(), outputStep(), Output::outputStep(), PerfGraphOutput::shouldOutput(), Checkpoint::shouldOutput(), Output::shouldOutput(), and AdvancedOutput::shouldOutput().

◆ _dt

Real& Output::_dt
protectedinherited

Time step delta.

Definition at line 217 of file Output.h.

Referenced by Output::dt(), and PetscOutput::solveSetup().

◆ _dt_old

Real& Output::_dt_old
protectedinherited

Old time step delta.

Definition at line 220 of file Output.h.

Referenced by Output::dtOld(), and Console::writeTimestepInformation().

◆ _elemental_as_nodal

bool AdvancedOutput::_elemental_as_nodal
protectedinherited

Flags to control nodal output.

Definition at line 279 of file AdvancedOutput.h.

Referenced by Exodus::Exodus(), and AdvancedOutput::init().

◆ _enabled

const bool& MooseObject::_enabled
protectedinherited

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

Definition at line 53 of file MooseObject.h.

Referenced by MooseObject::enabled().

◆ _end_step

int Output::_end_step
protectedinherited

End outputting at this time step.

Definition at line 256 of file Output.h.

Referenced by Output::onInterval().

◆ _end_time

Real Output::_end_time
protectedinherited

End outputting time.

Definition at line 250 of file Output.h.

◆ _es_ptr

EquationSystems* Output::_es_ptr
protectedinherited

◆ _execute_enum

const ExecFlagEnum& SetupInterface::_execute_enum
protectedinherited

◆ _execute_on

ExecFlagEnum Output::_execute_on
protectedinherited

The common Execution types; this is used as the default execution type for everything except system information and input.

Definition at line 197 of file Output.h.

Referenced by AdvancedOutput::AdvancedOutput(), Console::Console(), Output::executeOn(), AdvancedOutput::initExecutionTypes(), Console::initialSetup(), Console::output(), Output::Output(), PetscOutput::PetscOutput(), PerfGraphOutput::shouldOutput(), and Output::shouldOutput().

◆ _factory

Factory& MooseBaseParameterInterface::_factory
protectedinherited

◆ _file_base

std::string FileOutput::_file_base
protectedinherited

◆ _file_num

unsigned int& FileOutput::_file_num
protectedinherited

◆ _is_advanced

bool Output::_is_advanced
protectedinherited

Flag for advanced output testing.

Definition at line 268 of file Output.h.

Referenced by AdvancedOutput::AdvancedOutput(), and Output::isAdvanced().

◆ _last_output_simulation_time

Real& Output::_last_output_simulation_time
protectedinherited

last simulation time an output has occured

Definition at line 277 of file Output.h.

Referenced by Output::onInterval(), outputStep(), and Output::outputStep().

◆ _last_output_wall_time

std::chrono::time_point<std::chrono::steady_clock> Output::_last_output_wall_time
protectedinherited

last wall time an output has occured

Definition at line 280 of file Output.h.

Referenced by Output::onInterval(), and Output::outputStep().

◆ _linear_iter

PetscInt PetscOutput::_linear_iter
protectedinherited

Current linear iteration returned from PETSc.

Definition at line 87 of file PetscOutput.h.

Referenced by CSV::getVectorPostprocessorFileName(), Console::output(), JSONOutput::outputReporters(), and XMLOutput::outputVectorPostprocessors().

◆ _mci_feproblem

FEProblemBase& MeshChangedInterface::_mci_feproblem
protectedinherited

Reference to FEProblemBase instance.

Definition at line 38 of file MeshChangedInterface.h.

Referenced by MeshChangedInterface::MeshChangedInterface().

◆ _mesh_functions

std::vector<std::vector<std::unique_ptr<MeshFunction> > > OversampleOutput::_mesh_functions
private

A vector of pointers to the mesh functions This is only populated when the oversample() function is called, it must be cleaned up by the destructor.

Definition at line 89 of file OversampleOutput.h.

Referenced by initOversample(), and updateOversample().

◆ _mesh_ptr

MooseMesh* Output::_mesh_ptr
protectedinherited

A convenience pointer to the current mesh (reference or displaced depending on "use_displaced")

Definition at line 191 of file Output.h.

Referenced by cloneMesh(), initOversample(), Tecplot::output(), XDA::output(), PNGOutput::output(), Output::Output(), Exodus::outputSetup(), and updateOversample().

◆ _min_simulation_time_interval

const Real Output::_min_simulation_time_interval
protectedinherited

Minimum simulation time between outputs.

Definition at line 232 of file Output.h.

Referenced by Output::onInterval().

◆ _name

const std::string& MooseBase::_name
protectedinherited

The name of this class, reference to value stored in InputParameters.

Definition at line 75 of file MooseBase.h.

Referenced by AddBCAction::act(), AddDamperAction::act(), AddUserObjectAction::act(), AddDGKernelAction::act(), AddFVInterfaceKernelAction::act(), AddIndicatorAction::act(), AddNodalKernelAction::act(), AddTransferAction::act(), AddPostprocessorAction::act(), AddMeshGeneratorAction::act(), AddScalarKernelAction::act(), AddDiracKernelAction::act(), AddFunctorMaterialAction::act(), AddKernelAction::act(), AddMultiAppAction::act(), AddMarkerAction::act(), AddInitialConditionAction::act(), AddConstraintAction::act(), AddMaterialAction::act(), AddInterfaceKernelAction::act(), AddFVInitialConditionAction::act(), ReadExecutorParamsAction::act(), PartitionerAction::act(), AddVectorPostprocessorAction::act(), AddTimesAction::act(), AddFieldSplitAction::act(), AddPositionsAction::act(), AddReporterAction::act(), AddFVBCAction::act(), AddFVKernelAction::act(), SetupPreconditionerAction::act(), SetupTimeIntegratorAction::act(), AddMeshDivisionAction::act(), AddFunctionAction::act(), AddTimeStepperAction::act(), AddDistributionAction::act(), AddOutputAction::act(), AddSamplerAction::act(), AddControlAction::act(), AddPeriodicBCAction::act(), ADPiecewiseLinearInterpolationMaterial::ADPiecewiseLinearInterpolationMaterial(), PiecewiseTabularBase::buildFromFile(), PiecewiseTabularBase::buildFromXY(), PiecewiseLinearBase::buildInterpolation(), CombinerGenerator::CombinerGenerator(), Executor::Executor(), ExtraIDIntegralReporter::ExtraIDIntegralReporter(), QuadraturePointMultiApp::fillPositions(), CentroidMultiApp::fillPositions(), MultiApp::fillPositions(), FunctionDT::FunctionDT(), FillBetweenSidesetsGenerator::generate(), FillBetweenPointVectorsGenerator::generate(), FillBetweenCurvesGenerator::generate(), NearestPointBase< LayeredSideDiffusiveFluxAverage, SideIntegralVariableUserObject >::name(), ParsedFunctorMaterialTempl< is_ad >::ParsedFunctorMaterialTempl(), PiecewiseBilinear::PiecewiseBilinear(), PiecewiseLinearInterpolationMaterial::PiecewiseLinearInterpolationMaterial(), PiecewiseBase::setData(), and Split::setup().

◆ _nonlinear_iter

PetscInt PetscOutput::_nonlinear_iter
protectedinherited

Current non-linear iteration returned from PETSc.

Definition at line 84 of file PetscOutput.h.

Referenced by CSV::getVectorPostprocessorFileName(), Console::output(), JSONOutput::outputReporters(), and XMLOutput::outputVectorPostprocessors().

◆ _norm

Real PetscOutput::_norm
protectedinherited

Current norm returned from PETSc.

Definition at line 81 of file PetscOutput.h.

Referenced by Console::output().

◆ _num

unsigned int Output::_num
protectedinherited

The number of outputs written.

Definition at line 223 of file Output.h.

◆ _on_linear_residual

bool PetscOutput::_on_linear_residual
protectedinherited

True if current output calls is on the linear residual (used by time())

Definition at line 90 of file PetscOutput.h.

Referenced by PetscOutput::time().

◆ _on_nonlinear_residual

bool PetscOutput::_on_nonlinear_residual
protectedinherited

True if current output call is on the non-linear residual (used by time())

Definition at line 93 of file PetscOutput.h.

Referenced by JSONOutput::outputReporters(), XMLOutput::outputVectorPostprocessors(), and PetscOutput::time().

◆ _output_if_base_contains

std::vector<std::string> FileOutput::_output_if_base_contains
protectedinherited

Storage for 'output_if_base_contains'.

Definition at line 86 of file FileOutput.h.

Referenced by FileOutput::checkFilename().

◆ _oversample

bool OversampleOutput::_oversample
protected

Flag indicating that oversampling is enabled.

Definition at line 63 of file OversampleOutput.h.

Referenced by initOversample(), Exodus::outputSetup(), and updateOversample().

◆ _oversample_es

std::unique_ptr<EquationSystems> OversampleOutput::_oversample_es
private

Definition at line 97 of file OversampleOutput.h.

Referenced by initOversample(), updateOversample(), and ~OversampleOutput().

◆ _oversample_mesh_changed

bool OversampleOutput::_oversample_mesh_changed
private

A flag indicating that the mesh has changed and the oversampled mesh needs to be re-initialized.

Definition at line 95 of file OversampleOutput.h.

Referenced by meshChanged(), and updateOversample().

◆ _padding

unsigned int FileOutput::_padding
protectedinherited

◆ _pars

const InputParameters& MooseBaseParameterInterface::_pars
protectedinherited

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

Definition at line 168 of file MooseBaseParameterInterface.h.

Referenced by AddFVICAction::act(), AddICAction::act(), CreateProblemAction::act(), CreateProblemDefaultAction::act(), SetupMeshAction::act(), ComposeTimeStepperAction::act(), SetupDebugAction::act(), AddAuxKernelAction::act(), AddVariableAction::act(), AddPeriodicBCAction::act(), CommonOutputAction::act(), FunctorMaterial::addFunctorPropertyByBlocks(), FVFluxKernel::adjustRMGhostLayers(), BreakMeshByBlockGeneratorBase::BreakMeshByBlockGeneratorBase(), PiecewiseTabularBase::buildFromFile(), PNGOutput::calculateRescalingValues(), SingleRankPartitioner::clone(), RandomPartitioner::clone(), BlockWeightedPartitioner::clone(), PetscExternalPartitioner::clone(), HierarchicalGridPartitioner::clone(), GridPartitioner::clone(), MooseBaseParameterInterface::connectControllableParams(), Console::Console(), AddVariableAction::createInitialConditionAction(), MaterialBase::declareADProperty(), MaterialBase::declareProperty(), FEProblemSolve::FEProblemSolve(), FunctionMaterialBase< is_ad >::FunctionMaterialBase(), FVAdvection::FVAdvection(), FVAnisotropicDiffusion::FVAnisotropicDiffusion(), FVDiffusion::FVDiffusion(), FileMeshGenerator::generate(), MaterialBase::getGenericZeroMaterialProperty(), MeshGenerator::getMeshGeneratorNameFromParam(), MeshGenerator::getMeshGeneratorNamesFromParam(), MooseBaseParameterInterface::getParam(), MooseBaseParameterInterface::getRenamedParam(), MeshGenerator::hasGenerateData(), AddVariableAction::init(), AdvancedOutput::initExecutionTypes(), Console::initialSetup(), MooseBaseParameterInterface::isParamSetByUser(), MooseBaseParameterInterface::isParamValid(), MultiApp::keepSolutionDuringRestore(), MooseBaseParameterInterface::paramErrorMsg(), GlobalParamsAction::parameters(), MooseBaseParameterInterface::parameters(), MooseMesh::prepare(), Eigenvalue::prepareSolverOptions(), MooseMesh::setCoordSystem(), MooseMesh::setPartitionerHelper(), SetupMeshAction::setupMesh(), Transient::setupTimeIntegrator(), MooseBaseParameterInterface::uniqueName(), and MooseBaseParameterInterface::uniqueParameterName().

◆ _petsc_output

PetscOutput* PetscOutputInterface::_petsc_output
protectedinherited

◆ _pg_moose_app

MooseApp& PerfGraphInterface::_pg_moose_app
protectedinherited

The MooseApp that owns the PerfGraph.

Definition at line 124 of file PerfGraphInterface.h.

Referenced by PerfGraphInterface::perfGraph().

◆ _position

Point OversampleOutput::_position
private

When oversampling, the output is shift by this amount.

Definition at line 92 of file OversampleOutput.h.

Referenced by initOversample(), and updateOversample().

◆ _prefix

const std::string PerfGraphInterface::_prefix
protectedinherited

A prefix to use for all sections.

Definition at line 127 of file PerfGraphInterface.h.

Referenced by PerfGraphInterface::timedSectionName().

◆ _problem_ptr

FEProblemBase* Output::_problem_ptr
protectedinherited

◆ _refinements

const unsigned int OversampleOutput::_refinements
protected

The number of oversampling refinements.

Definition at line 60 of file OversampleOutput.h.

Referenced by initOversample().

◆ _reporter_data

const ReporterData& AdvancedOutput::_reporter_data
protectedinherited

◆ _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().

◆ _scalar_as_nodal

bool AdvancedOutput::_scalar_as_nodal
protectedinherited

Definition at line 279 of file AdvancedOutput.h.

Referenced by AdvancedOutput::init().

◆ _sequence

bool Output::_sequence
protectedinherited

Flag for forcing call to outputSetup() with every call to output() (restartable)

Definition at line 194 of file Output.h.

◆ _serialized_solution

std::unique_ptr<NumericVector<Number> > OversampleOutput::_serialized_solution
private

Oversample solution vector.

Definition at line 106 of file OversampleOutput.h.

Referenced by initOversample(), and updateOversample().

◆ _simulation_time_interval

const Real Output::_simulation_time_interval
protectedinherited

Target simulation time between outputs.

Definition at line 235 of file Output.h.

◆ _start_step

int Output::_start_step
protectedinherited

Start outputting at this time step.

Definition at line 253 of file Output.h.

Referenced by Output::onInterval().

◆ _start_time

Real Output::_start_time
protectedinherited

Start outputting time.

Definition at line 247 of file Output.h.

Referenced by Output::onInterval().

◆ _sync_only

bool Output::_sync_only
protectedinherited

Flag for only executing at sync times.

Definition at line 262 of file Output.h.

Referenced by Output::onInterval().

◆ _sync_times

std::set<Real> Output::_sync_times
protectedinherited

Sync times for this outputter.

Definition at line 241 of file Output.h.

Referenced by Output::getSyncTimes(), Output::onInterval(), and Output::Output().

◆ _sync_times_object

const Times* const Output::_sync_times_object
protectedinherited

Sync times object for this outputter.

Definition at line 244 of file Output.h.

Referenced by Output::onInterval(), and Output::Output().

◆ _t_step

int& Output::_t_step
protectedinherited

◆ _t_tol

Real Output::_t_tol
protectedinherited

Time checking tolerance.

Definition at line 259 of file Output.h.

Referenced by PetscOutput::inLinearTimeWindow(), PetscOutput::inNonlinearTimeWindow(), and Output::onInterval().

◆ _time

Real& Output::_time
protectedinherited

◆ _time_old

Real& Output::_time_old
protectedinherited

The old time.

Definition at line 211 of file Output.h.

Referenced by PetscOutput::solveSetup(), and Output::timeOld().

◆ _time_step_interval

unsigned int Output::_time_step_interval
protectedinherited

The output time step interval.

Definition at line 229 of file Output.h.

Referenced by Output::onInterval(), and Output::setWallTimeIntervalFromCommandLineParam().

◆ _time_step_interval_set_by_addparam

const bool Output::_time_step_interval_set_by_addparam
protectedinherited

Whether time step interval is set by AddParam.

Definition at line 226 of file Output.h.

Referenced by Output::setWallTimeIntervalFromCommandLineParam().

◆ _transient

bool Output::_transient
protectedinherited

Transient flag (true = transient)

Definition at line 182 of file Output.h.

Referenced by Output::dt(), Output::dtOld(), Output::time(), Output::timeOld(), and Console::writeTimestepInformation().

◆ _type

const std::string& MooseBase::_type
protectedinherited

◆ _use_displaced

bool Output::_use_displaced
protectedinherited

Flag for using displaced mesh.

Definition at line 185 of file Output.h.

Referenced by Output::Output().

◆ _wall_time_interval

Real Output::_wall_time_interval
protectedinherited

Target wall time between outputs in seconds.

Definition at line 238 of file Output.h.

Referenced by Output::onInterval(), Output::setWallTimeIntervalFromCommandLineParam(), and Checkpoint::shouldOutput().

◆ _wall_time_since_last_output

Real Output::_wall_time_since_last_output
protectedinherited

time in seconds since last output

Definition at line 283 of file Output.h.

Referenced by Output::onInterval(), and Checkpoint::shouldOutput().


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