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FVKernel Class Referenceabstract

FVKernel is a base class for all finite volume method kernels. More...

#include <FVKernel.h>

Inheritance diagram for FVKernel:
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Public Types

using DataFileParameterType = DataFileName
 The parameter type this interface expects for a data file name. More...
 
enum  ResidualTagType { ResidualTagType::NonReference, ResidualTagType::Reference }
 Enumerate whether a (residual) vector tag is to be of a non-reference or reference tag type. More...
 

Public Member Functions

 FVKernel (const InputParameters &params)
 
virtual void computeResidual ()=0
 Compute this object's contribution to the residual. More...
 
virtual void computeJacobian ()=0
 Compute this object's contribution to the diagonal Jacobian entries. More...
 
virtual void computeResidualAndJacobian ()
 Compute this object's contribution to the residual and Jacobian simultaneously. More...
 
virtual void computeOffDiagJacobian (unsigned int)
 Computes this object's contribution to off-diagonal blocks of the system Jacobian matrix. More...
 
virtual void computeOffDiagJacobianScalar (unsigned int)
 Computes jacobian block with respect to a scalar variable. More...
 
virtual void computeNonlocalJacobian ()
 Compute this object's contribution to the diagonal Jacobian entries corresponding to nonlocal dofs of the variable. More...
 
virtual void computeNonlocalOffDiagJacobian (unsigned int)
 Computes Jacobian entries corresponding to nonlocal dofs of the jvar. More...
 
virtual const MooseVariableBasevariable () const =0
 Returns the variable that this object operates on. More...
 
const SubProblemsubProblem () const
 Returns a reference to the SubProblem for which this Kernel is active. More...
 
virtual void prepareShapes (unsigned int var_num)
 Prepare shape functions. More...
 
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...
 
std::string errorPrefix (const std::string &error_type) const
 
void callMooseError (std::string msg, const bool with_prefix) const
 Calls moose error with the message msg. More...
 
MooseObjectParameterName uniqueParameterName (const std::string &parameter_name) const
 The unique parameter name of a valid parameter of this object for accessing parameter controls. More...
 
const 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...
 
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
 
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 initialSetup ()
 Gets called at the beginning of the simulation before this object is asked to do its job. 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...
 
UserObjectName getUserObjectName (const std::string &param_name) const
 
template<class T >
const T & getUserObject (const std::string &param_name, bool is_dependency=true) const
 Get an user object with a given parameter param_name. More...
 
template<class T >
const T & getUserObjectByName (const UserObjectName &object_name, bool is_dependency=true) const
 Get an user object with the name object_name. More...
 
const UserObjectgetUserObjectBase (const std::string &param_name, bool is_dependency=true) const
 Get an user object with a given parameter param_name. More...
 
const UserObjectgetUserObjectBaseByName (const UserObjectName &object_name, bool is_dependency=true) const
 Get an user object with the name object_name. More...
 
bool isImplicit ()
 
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...
 
void setRandomResetFrequency (ExecFlagType exec_flag)
 This interface should be called from a derived class to enable random number generation in this object. More...
 
unsigned long getRandomLong () const
 Returns the next random number (long) from the generator tied to this object (elem/node). More...
 
Real getRandomReal () const
 Returns the next random number (Real) from the generator tied to this object (elem/node). More...
 
unsigned int getSeed (std::size_t id)
 Get the seed for the passed in elem/node id. More...
 
unsigned int getMasterSeed () const
 
bool isNodal () const
 
ExecFlagType getResetOnTime () const
 
void setRandomDataPointer (RandomData *random_data)
 
virtual void meshChanged ()
 Called on this object when the mesh changes. More...
 
void useVectorTag (const TagName &tag_name, VectorTagsKey)
 
void useVectorTag (TagID tag_id, VectorTagsKey)
 
void useMatrixTag (const TagName &tag_name, MatrixTagsKey)
 
void useMatrixTag (TagID tag_id, MatrixTagsKey)
 
bool isVectorTagged ()
 
bool isMatrixTagged ()
 
bool hasVectorTags () const
 
const std::set< TagID > & getVectorTags (VectorTagsKey) const
 
const std::set< TagID > & getMatrixTags (MatrixTagsKey) const
 
const std::vector< SubdomainName > & blocks () const
 Return the block names for this object. More...
 
unsigned int numBlocks () const
 Return the number of blocks for this object. More...
 
virtual const std::set< SubdomainID > & blockIDs () const
 Return the block subdomain ids for this object Note, if this is not block restricted, this function returns all mesh subdomain ids. More...
 
unsigned int blocksMaxDimension () const
 Return the largest mesh dimension of the elements in the blocks for this object. More...
 
bool hasBlocks (const SubdomainName &name) const
 Test if the supplied block name is valid for this object. More...
 
bool hasBlocks (const std::vector< SubdomainName > &names) const
 Test if the supplied vector of block names are valid for this object. More...
 
bool hasBlocks (SubdomainID id) const
 Test if the supplied block ids are valid for this object. More...
 
bool hasBlocks (const std::vector< SubdomainID > &ids) const
 Test if the supplied vector block ids are valid for this object. More...
 
bool hasBlocks (const std::set< SubdomainID > &ids) const
 Test if the supplied set of block ids are valid for this object. More...
 
bool isBlockSubset (const std::set< SubdomainID > &ids) const
 Test if the class block ids are a subset of the supplied objects. More...
 
bool isBlockSubset (const std::vector< SubdomainID > &ids) const
 Test if the class block ids are a subset of the supplied objects. More...
 
template<typename T , bool is_ad = false>
bool hasBlockMaterialProperty (const std::string &prop_name)
 Check if a material property is valid for all blocks of this object. More...
 
const std::set< SubdomainID > & meshBlockIDs () const
 Return all of the SubdomainIDs for the mesh. More...
 
virtual bool blockRestricted () const
 Returns true if this object has been restricted to a block. More...
 
virtual void checkVariable (const MooseVariableFieldBase &variable) const
 Helper for checking that the ids for this object are in agreement with the variables on the supplied variable. More...
 
bool hasUserObject (const std::string &param_name) const
 
template<class T >
bool hasUserObject (const std::string &param_name) const
 
bool hasUserObjectByName (const UserObjectName &object_name) const
 
template<class T >
bool hasUserObjectByName (const UserObjectName &object_name) const
 
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 void setRMParams (const InputParameters &obj_params, InputParameters &rm_params, unsigned short ghost_layers)
 
static std::string deduceFunctorName (const std::string &name, const InputParameters &params)
 Helper to look up a functor name through the input parameter keys. More...
 

Public Attributes

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

Protected Member Functions

virtual void precalculateResidual ()
 
virtual void precalculateJacobian ()
 
virtual void precalculateOffDiagJacobian (unsigned int)
 
const MooseVariableFieldBasegetVariable (unsigned int jvar_num) const
 Retrieve the variable object from our system associated with jvar_num. More...
 
virtual void addUserObjectDependencyHelper (const UserObject &) const
 Helper for deriving classes to override to add dependencies when a UserObject is requested. More...
 
Moose::StateArg determineState () const
 Create a functor state argument that corresponds to the implicit state of this object. 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...
 
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...
 
void prepareVectorTag (Assembly &assembly, unsigned int ivar)
 Prepare data for computing element residual according to active tags. More...
 
void prepareVectorTag (Assembly &assembly, unsigned int ivar, ResidualTagType tag_type)
 Prepare vector tags in a reference residual problem context. More...
 
void prepareVectorTagNeighbor (Assembly &assembly, unsigned int ivar)
 Prepare data for computing element residual the according to active tags for DG and interface kernels. More...
 
void prepareVectorTagLower (Assembly &assembly, unsigned int ivar)
 Prepare data for computing the residual according to active tags for mortar constraints. More...
 
void prepareMatrixTag (Assembly &assembly, unsigned int ivar, unsigned int jvar)
 Prepare data for computing element jacobian according to the active tags. More...
 
void prepareMatrixTag (Assembly &assembly, unsigned int ivar, unsigned int jvar, DenseMatrix< Number > &k) const
 
void prepareMatrixTagNonlocal (Assembly &assembly, unsigned int ivar, unsigned int jvar)
 Prepare data for computing nonlocal element jacobian according to the active tags. More...
 
void prepareMatrixTagNeighbor (Assembly &assembly, unsigned int ivar, unsigned int jvar, Moose::DGJacobianType type)
 Prepare data for computing element jacobian according to the active tags for DG and interface kernels. More...
 
void prepareMatrixTagNeighbor (Assembly &assembly, unsigned int ivar, unsigned int jvar, Moose::DGJacobianType type, DenseMatrix< Number > &k) const
 
void prepareMatrixTagLower (Assembly &assembly, unsigned int ivar, unsigned int jvar, Moose::ConstraintJacobianType type)
 Prepare data for computing the jacobian according to the active tags for mortar. More...
 
void accumulateTaggedLocalResidual ()
 Local residual blocks will be appended by adding the current local kernel residual. More...
 
void assignTaggedLocalResidual ()
 Local residual blocks will assigned as the current local kernel residual. More...
 
void accumulateTaggedLocalMatrix ()
 Local Jacobian blocks will be appended by adding the current local kernel Jacobian. More...
 
void accumulateTaggedLocalMatrix (Assembly &assembly, unsigned int ivar, unsigned int jvar, const DenseMatrix< Number > &k)
 
void accumulateTaggedLocalMatrix (Assembly &assembly, unsigned int ivar, unsigned int jvar, Moose::DGJacobianType type, const DenseMatrix< Number > &k)
 
void accumulateTaggedNonlocalMatrix ()
 Nonlocal Jacobian blocks will be appended by adding the current nonlocal kernel Jacobian. More...
 
void assignTaggedLocalMatrix ()
 Local Jacobian blocks will assigned as the current local kernel Jacobian. More...
 
template<typename Residuals , typename Indices >
void addResiduals (Assembly &assembly, const Residuals &residuals, const Indices &dof_indices, Real scaling_factor)
 Add the provided incoming residuals corresponding to the provided dof indices. More...
 
template<typename T , typename Indices >
void addResiduals (Assembly &assembly, const DenseVector< T > &residuals, const Indices &dof_indices, Real scaling_factor)
 Add the provided incoming residuals corresponding to the provided dof indices. More...
 
template<typename Residuals , typename Indices >
void addResidualsAndJacobian (Assembly &assembly, const Residuals &residuals, const Indices &dof_indices, Real scaling_factor)
 Add the provided incoming residuals and derivatives for the Jacobian, corresponding to the provided dof indices. More...
 
template<typename Residuals , typename Indices >
void addJacobian (Assembly &assembly, const Residuals &residuals, const Indices &dof_indices, Real scaling_factor)
 Add the provided residual derivatives into the Jacobian for the provided dof indices. More...
 
void addJacobian (Assembly &assembly, DenseMatrix< Real > &local_k, const std::vector< dof_id_type > &row_indices, const std::vector< dof_id_type > &column_indices, Real scaling_factor)
 Add a local Jacobian matrix. More...
 
template<typename Residuals , typename Indices >
void addResidualsWithoutConstraints (Assembly &assembly, const Residuals &residuals, const Indices &dof_indices, Real scaling_factor)
 Add the provided incoming residuals corresponding to the provided dof indices. More...
 
template<typename Residuals , typename Indices >
void addResidualsAndJacobianWithoutConstraints (Assembly &assembly, const Residuals &residuals, const Indices &dof_indices, Real scaling_factor)
 Add the provided incoming residuals and derivatives for the Jacobian, corresponding to the provided dof indices. More...
 
template<typename Residuals , typename Indices >
void addJacobianWithoutConstraints (Assembly &assembly, const Residuals &residuals, const Indices &dof_indices, Real scaling_factor)
 Add the provided residual derivatives into the Jacobian for the provided dof indices. More...
 
void addJacobianElement (Assembly &assembly, Real value, dof_id_type row_index, dof_id_type column_index, Real scaling_factor)
 Add into a single Jacobian element. More...
 
template<typename T >
void setResidual (SystemBase &sys, const T &residual, MooseVariableFE< T > &var)
 Set residual using the variables' insertion API. More...
 
void setResidual (SystemBase &sys, Real residual, dof_id_type dof_index)
 Set residual at a specified degree of freedom index. More...
 
template<typename SetResidualFunctor >
void setResidual (SystemBase &sys, SetResidualFunctor set_residual_functor)
 Set residuals using the provided functor. More...
 
virtual bool hasBlockMaterialPropertyHelper (const std::string &prop_name)
 A helper method to allow the Material object to specialize the behavior of hasBlockMaterialProperty. More...
 
void initializeBlockRestrictable (const MooseObject *moose_object)
 An initialization routine needed for dual constructors. More...
 
Moose::CoordinateSystemType getBlockCoordSystem ()
 Check if the blocks this object operates on all have the same coordinate system, and if so return it. More...
 
std::string deduceFunctorName (const std::string &name) const
 Small helper to look up a functor name through the input parameter keys. More...
 
template<typename T >
const Moose::Functor< T > & getFunctor (const std::string &name)
 Retrieves a functor from the subproblem. More...
 
template<typename T >
const Moose::Functor< T > & getFunctor (const std::string &name, THREAD_ID tid)
 Retrieves a functor from the subproblem. More...
 
template<typename T >
const Moose::Functor< T > & getFunctor (const std::string &name, SubProblem &subproblem)
 Retrieves a functor from the passed-in subproblem. More...
 
template<typename T >
const Moose::Functor< T > & getFunctor (const std::string &name, SubProblem &subproblem, THREAD_ID tid)
 Retrieves a functor from the passed-in subproblem. More...
 
bool isFunctor (const std::string &name) const
 Checks the subproblem for the given functor. More...
 
bool isFunctor (const std::string &name, const SubProblem &subproblem) const
 Checks the passed-in subproblem for the given functor. More...
 
Moose::ElemArg makeElemArg (const Elem *elem, bool correct_skewnewss=false) const
 Helper method to create an elemental argument for a functor that includes whether to perform skewness corrections. More...
 
template<typename T >
void checkFunctorSupportsSideIntegration (const std::string &name, bool qp_integration)
 Throws error if the functor does not support the requested side integration. More...
 

Protected Attributes

SubProblem_subproblem
 Reference to this kernel's SubProblem. More...
 
FEProblemBase_fe_problem
 Reference to this kernel's FEProblemBase. More...
 
SystemBase_sys
 Reference to the EquationSystem object. More...
 
THREAD_ID _tid
 The thread ID for this kernel. More...
 
Assembly_assembly
 Reference to this Kernel's assembly object. More...
 
MooseMesh_mesh
 Reference to this Kernel's mesh object. More...
 
const bool & _enabled
 Reference to the "enable" InputParameters, used by Controls for toggling on/off MooseObjects. More...
 
MooseApp_app
 The MOOSE application this is associated with. More...
 
const std::string _type
 The type of this class. More...
 
const std::string _name
 The name of this class. More...
 
const InputParameters_pars
 Parameters of this object, references the InputParameters stored in the InputParametersWarehouse. More...
 
Factory_factory
 The Factory associated with the MooseApp. More...
 
ActionFactory_action_factory
 Builds Actions. More...
 
const Parallel::Communicator & _communicator
 
const ExecFlagEnum_execute_enum
 Execute settings for this object. More...
 
const ExecFlagType_current_execute_flag
 Reference to FEProblemBase. More...
 
const InputParameters_ti_params
 
FEProblemBase_ti_feproblem
 
bool _is_implicit
 If the object is using implicit or explicit form. More...
 
Real_t
 Time. More...
 
int_t_step
 The number of the time step. More...
 
Real_dt
 Time step size. More...
 
Real_dt_old
 Size of the old time step. More...
 
bool _is_transient
 
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...
 
DenseVector< Number_local_re
 Holds local residual entries as they are accumulated by this Kernel. More...
 
DenseMatrix< Number_local_ke
 Holds local Jacobian entries as they are accumulated by this Kernel. More...
 
DenseMatrix< Number_nonlocal_ke
 Holds nonlocal Jacobian entries as they are accumulated by this Kernel. More...
 
const MaterialData_blk_material_data
 Pointer to the MaterialData class for this object. More...
 

Detailed Description

FVKernel is a base class for all finite volume method kernels.

Due to the uniquely different needs for different types of finite volume kernels, there is very little shared, common interface between them. FV kernels are broadly devided into two subgroups: numerical flux or surface integral kernels (the FVFluxKernel class) and cell/volume integral kernels (the FVElementalKernel class). These FVKernels are stored in the moose app's master "TheWarehouse" warehouse under the "FVFluxKernel" or "FVElementalKernel" system names respectively. FVKernels are generally created by the CreateFVKernelsAction triggered by entries in the "[FVKernels]" input file block. FVKernels can only operate on and work with finite volume variables (i.e. with the variable's parameter "fv = true" set).

Definition at line 31 of file FVKernel.h.

Member Typedef Documentation

◆ DataFileParameterType

using DataFileInterface< MooseObject >::DataFileParameterType = DataFileName
inherited

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

Definition at line 26 of file DataFileInterface.h.

Member Enumeration Documentation

◆ ResidualTagType

enum TaggingInterface::ResidualTagType
stronginherited

Enumerate whether a (residual) vector tag is to be of a non-reference or reference tag type.

Enumerator
NonReference 
Reference 

Definition at line 75 of file TaggingInterface.h.

76  {
77  NonReference,
78  Reference
79  };

Constructor & Destructor Documentation

◆ FVKernel()

FVKernel::FVKernel ( const InputParameters params)

Definition at line 64 of file FVKernel.C.

66 {
68 }
virtual void haveADObjects(bool have_ad_objects)
Method for setting whether we have any ad objects.
Definition: SubProblem.h:722
SubProblem & _subproblem
Reference to this kernel&#39;s SubProblem.
ResidualObject(const InputParameters &parameters, bool nodal=false)
Class constructor.
ADFunctorInterface(const MooseObject *moose_object)
BlockRestrictable(const MooseObject *moose_object, bool initialize=true)
Class constructor Populates the &#39;block&#39; input parameters, see the general class documentation for det...

Member Function Documentation

◆ accumulateTaggedLocalMatrix() [1/3]

void TaggingInterface::accumulateTaggedLocalMatrix ( )
protectedinherited

Local Jacobian blocks will be appended by adding the current local kernel Jacobian.

It should be called after the local element matrix has been computed.

Definition at line 380 of file TaggingInterface.C.

Referenced by DGKernel::computeElemNeighJacobian(), ElemElemConstraint::computeElemNeighJacobian(), ArrayDGKernel::computeElemNeighJacobian(), MassLumpedTimeDerivative::computeJacobian(), TimeDerivative::computeJacobian(), VectorTimeDerivative::computeJacobian(), ScalarKernel::computeJacobian(), Kernel::computeJacobian(), ODEKernel::computeJacobian(), VectorKernel::computeJacobian(), ArrayKernel::computeJacobian(), IntegratedBC::computeJacobian(), VectorIntegratedBC::computeJacobian(), EigenKernel::computeJacobian(), ArrayIntegratedBC::computeJacobian(), NonlocalIntegratedBC::computeJacobian(), KernelGrad::computeJacobian(), KernelValue::computeJacobian(), NonlocalKernel::computeJacobian(), MortarConstraint::computeJacobian(), NodeElemConstraint::computeJacobian(), NodeFaceConstraint::computeJacobian(), LowerDIntegratedBC::computeLowerDJacobian(), ArrayLowerDIntegratedBC::computeLowerDJacobian(), DGLowerDKernel::computeLowerDJacobian(), ArrayDGLowerDKernel::computeLowerDJacobian(), LowerDIntegratedBC::computeLowerDOffDiagJacobian(), ArrayLowerDIntegratedBC::computeLowerDOffDiagJacobian(), DGKernel::computeOffDiagElemNeighJacobian(), ArrayDGKernel::computeOffDiagElemNeighJacobian(), Kernel::computeOffDiagJacobian(), VectorKernel::computeOffDiagJacobian(), EigenKernel::computeOffDiagJacobian(), ArrayKernel::computeOffDiagJacobian(), VectorIntegratedBC::computeOffDiagJacobian(), IntegratedBC::computeOffDiagJacobian(), ArrayIntegratedBC::computeOffDiagJacobian(), NonlocalKernel::computeOffDiagJacobian(), NonlocalIntegratedBC::computeOffDiagJacobian(), KernelGrad::computeOffDiagJacobian(), KernelValue::computeOffDiagJacobian(), NodeElemConstraint::computeOffDiagJacobian(), NodeFaceConstraint::computeOffDiagJacobian(), ODEKernel::computeOffDiagJacobianScalar(), VectorKernel::computeOffDiagJacobianScalar(), ArrayKernel::computeOffDiagJacobianScalar(), IntegratedBC::computeOffDiagJacobianScalar(), VectorIntegratedBC::computeOffDiagJacobianScalar(), Kernel::computeOffDiagJacobianScalar(), ArrayIntegratedBC::computeOffDiagJacobianScalar(), ScalarLagrangeMultiplier::computeOffDiagJacobianScalar(), DGLowerDKernel::computeOffDiagLowerDJacobian(), ArrayDGLowerDKernel::computeOffDiagLowerDJacobian(), and ConservativeAdvection::fullUpwind().

381 {
382  for (auto & ke : _ke_blocks)
383  *ke += _local_ke;
384 }
DenseMatrix< Number > _local_ke
Holds local Jacobian entries as they are accumulated by this Kernel.
std::vector< DenseMatrix< Number > * > _ke_blocks
Kernel blocks Vectors For each Tag.

◆ accumulateTaggedLocalMatrix() [2/3]

void TaggingInterface::accumulateTaggedLocalMatrix ( Assembly assembly,
unsigned int  ivar,
unsigned int  jvar,
const DenseMatrix< Number > &  k 
)
protectedinherited

Definition at line 387 of file TaggingInterface.C.

391 {
392  _ke_blocks.resize(_matrix_tags.size());
393  mooseAssert(_matrix_tags.size() >= 1, "we need at least one active tag");
394  auto mat_vector = _matrix_tags.begin();
395  for (MooseIndex(_matrix_tags) i = 0; i < _matrix_tags.size(); i++, ++mat_vector)
396  _ke_blocks[i] = &assembly.jacobianBlock(ivar, jvar, Assembly::LocalDataKey{}, *mat_vector);
397  mooseAssert(_ke_blocks[0]->m() == k.m() && _ke_blocks[0]->n() == k.n(),
398  "Passed-in k must match the blocks we are about to sum into");
399  for (auto & ke : _ke_blocks)
400  *ke += k;
401 }
unsigned int m() const
DenseMatrix< Number > & jacobianBlock(unsigned int ivar, unsigned int jvar, LocalDataKey, TagID tag)
Get local Jacobian block for a pair of variables and a tag.
Definition: Assembly.h:1092
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
std::vector< DenseMatrix< Number > * > _ke_blocks
Kernel blocks Vectors For each Tag.
unsigned int n() const
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ accumulateTaggedLocalMatrix() [3/3]

void TaggingInterface::accumulateTaggedLocalMatrix ( Assembly assembly,
unsigned int  ivar,
unsigned int  jvar,
Moose::DGJacobianType  type,
const DenseMatrix< Number > &  k 
)
protectedinherited

Definition at line 404 of file TaggingInterface.C.

409 {
410  _ke_blocks.resize(_matrix_tags.size());
411  mooseAssert(_matrix_tags.size() >= 1, "we need at least one active tag");
412  auto mat_vector = _matrix_tags.begin();
413  for (MooseIndex(_matrix_tags) i = 0; i < _matrix_tags.size(); i++, ++mat_vector)
414  _ke_blocks[i] =
415  &assembly.jacobianBlockNeighbor(type, ivar, jvar, Assembly::LocalDataKey{}, *mat_vector);
416  mooseAssert(_ke_blocks[0]->m() == k.m() && _ke_blocks[0]->n() == k.n(),
417  "Passed-in k must match the blocks we are about to sum into");
418  for (auto & ke : _ke_blocks)
419  *ke += k;
420 }
DenseMatrix< Number > & jacobianBlockNeighbor(Moose::DGJacobianType type, unsigned int ivar, unsigned int jvar, LocalDataKey, TagID tag)
Get local Jacobian block of a DG Jacobian type for a pair of variables and a tag. ...
Definition: Assembly.C:3108
unsigned int m() const
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
std::vector< DenseMatrix< Number > * > _ke_blocks
Kernel blocks Vectors For each Tag.
unsigned int n() const
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ accumulateTaggedLocalResidual()

void TaggingInterface::accumulateTaggedLocalResidual ( )
protectedinherited

Local residual blocks will be appended by adding the current local kernel residual.

It should be called after the local element vector has been computed.

Definition at line 360 of file TaggingInterface.C.

Referenced by FVInterfaceKernel::addResidual(), ADDGKernel::computeElemNeighResidual(), DGKernel::computeElemNeighResidual(), ElemElemConstraint::computeElemNeighResidual(), ArrayDGKernel::computeElemNeighResidual(), DGLowerDKernel::computeLowerDResidual(), ArrayDGLowerDKernel::computeLowerDResidual(), ScalarKernel::computeResidual(), Kernel::computeResidual(), VectorKernel::computeResidual(), ArrayKernel::computeResidual(), LowerDIntegratedBC::computeResidual(), ODETimeKernel::computeResidual(), ODEKernel::computeResidual(), TimeKernel::computeResidual(), ADScalarKernel::computeResidual(), VectorTimeKernel::computeResidual(), VectorIntegratedBC::computeResidual(), IntegratedBC::computeResidual(), ArrayLowerDIntegratedBC::computeResidual(), ArrayIntegratedBC::computeResidual(), EigenKernel::computeResidual(), ADMortarConstraint::computeResidual(), FVFluxBC::computeResidual(), FVBoundaryScalarLagrangeMultiplierConstraint::computeResidual(), FVScalarLagrangeMultiplierConstraint::computeResidual(), MortarConstraint::computeResidual(), KernelGrad::computeResidual(), KernelValue::computeResidual(), FVElementalKernel::computeResidual(), NodeElemConstraint::computeResidual(), FVFluxKernel::computeResidual(), NodeFaceConstraint::computeResidual(), and ConservativeAdvection::fullUpwind().

361 {
362  for (auto & re : _re_blocks)
363  *re += _local_re;
364  for (auto & absre : _absre_blocks)
365  for (const auto i : index_range(_local_re))
366  (*absre)(i) += std::abs(_local_re(i));
367 }
std::vector< DenseVector< Number > * > _absre_blocks
Residual blocks for absolute value residual tags.
std::vector< DenseVector< Number > * > _re_blocks
Residual blocks Vectors For each Tag.
ADRealEigenVector< T, D, asd > abs(const ADRealEigenVector< T, D, asd > &)
DenseVector< Number > _local_re
Holds local residual entries as they are accumulated by this Kernel.
auto index_range(const T &sizable)

◆ accumulateTaggedNonlocalMatrix()

void TaggingInterface::accumulateTaggedNonlocalMatrix ( )
protectedinherited

Nonlocal Jacobian blocks will be appended by adding the current nonlocal kernel Jacobian.

It should be called after the nonlocal element matrix has been computed.

Definition at line 423 of file TaggingInterface.C.

Referenced by NonlocalIntegratedBC::computeNonlocalJacobian(), NonlocalKernel::computeNonlocalJacobian(), NonlocalKernel::computeNonlocalOffDiagJacobian(), and NonlocalIntegratedBC::computeNonlocalOffDiagJacobian().

424 {
425  for (auto & ke : _ke_blocks)
426  *ke += _nonlocal_ke;
427 }
std::vector< DenseMatrix< Number > * > _ke_blocks
Kernel blocks Vectors For each Tag.
DenseMatrix< Number > _nonlocal_ke
Holds nonlocal Jacobian entries as they are accumulated by this Kernel.

◆ addJacobian() [1/2]

template<typename Residuals , typename Indices >
void TaggingInterface::addJacobian ( Assembly assembly,
const Residuals &  residuals,
const Indices &  dof_indices,
Real  scaling_factor 
)
protectedinherited

◆ addJacobian() [2/2]

void TaggingInterface::addJacobian ( Assembly assembly,
DenseMatrix< Real > &  local_k,
const std::vector< dof_id_type > &  row_indices,
const std::vector< dof_id_type > &  column_indices,
Real  scaling_factor 
)
inlineprotectedinherited

Add a local Jacobian matrix.

Definition at line 526 of file TaggingInterface.h.

531 {
532  for (const auto matrix_tag : _matrix_tags)
533  assembly.cacheJacobianBlock(
534  local_k, row_indices, column_indices, scaling_factor, Assembly::LocalDataKey{}, matrix_tag);
535 }
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
void cacheJacobianBlock(DenseMatrix< Number > &jac_block, const std::vector< dof_id_type > &idof_indices, const std::vector< dof_id_type > &jdof_indices, Real scaling_factor, LocalDataKey, TagID tag)
Cache a local Jacobian block with the provided rows (idof_indices) and columns (jdof_indices) for eve...
Definition: Assembly.C:3743
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ addJacobianElement()

void TaggingInterface::addJacobianElement ( Assembly assembly,
Real  value,
dof_id_type  row_index,
dof_id_type  column_index,
Real  scaling_factor 
)
inlineprotectedinherited

Add into a single Jacobian element.

Definition at line 515 of file TaggingInterface.h.

Referenced by ArrayNodalBC::computeJacobian(), VectorNodalBC::computeJacobian(), NodalBC::computeJacobian(), NodalKernel::computeJacobian(), NodalConstraint::computeJacobian(), ArrayNodalBC::computeOffDiagJacobian(), VectorNodalBC::computeOffDiagJacobian(), NodalBC::computeOffDiagJacobian(), NodalKernel::computeOffDiagJacobian(), and MortarConstraintBase::zeroInactiveLMDofs().

520 {
521  assembly.cacheJacobian(
522  row_index, column_index, value * scaling_factor, Assembly::LocalDataKey{}, _matrix_tags);
523 }
void cacheJacobian(GlobalDataKey)
Takes the values that are currently in _sub_Kee and appends them to the cached values.
Definition: Assembly.C:4054
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ addJacobianWithoutConstraints()

template<typename Residuals , typename Indices >
void TaggingInterface::addJacobianWithoutConstraints ( Assembly assembly,
const Residuals &  residuals,
const Indices &  dof_indices,
Real  scaling_factor 
)
protectedinherited

Add the provided residual derivatives into the Jacobian for the provided dof indices.

This API should only be used if the caller knows that no libMesh-level constraints (hanging nodes or periodic boundary conditions) apply to the provided dof indices

Definition at line 505 of file TaggingInterface.h.

Referenced by TaggingInterface::addResidualsAndJacobianWithoutConstraints().

509 {
511  residuals, dof_indices, scaling_factor, Assembly::LocalDataKey{}, _matrix_tags);
512 }
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
void cacheJacobianWithoutConstraints(const Residuals &residuals, const Indices &row_indices, Real scaling_factor, LocalDataKey, const std::set< TagID > &matrix_tags)
Process the derivatives() data of a vector of ADReals.
Definition: Assembly.h:3127
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ 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 {}

◆ addResiduals() [1/2]

template<typename Residuals , typename Indices >
void TaggingInterface::addResiduals ( Assembly assembly,
const Residuals &  residuals,
const Indices &  dof_indices,
Real  scaling_factor 
)
protectedinherited

Add the provided incoming residuals corresponding to the provided dof indices.

Definition at line 416 of file TaggingInterface.h.

Referenced by TaggingInterface::addResiduals(), TaggingInterface::addResidualsAndJacobian(), FVScalarLagrangeMultiplierInterface::computeResidual(), TimeNodalKernel::computeResidual(), FVScalarLagrangeMultiplierConstraint::computeResidual(), FVBoundaryScalarLagrangeMultiplierConstraint::computeResidual(), NodalKernel::computeResidual(), ADNodalKernel::computeResidual(), ADKernelScalarBase::computeResidual(), NodalConstraint::computeResidual(), ADMortarScalarBase::computeResidual(), MortarScalarBase::computeResidual(), KernelScalarBase::computeScalarResidual(), and MortarConstraintBase::zeroInactiveLMDofs().

420 {
421  assembly.cacheResiduals(
422  residuals, dof_indices, scaling_factor, Assembly::LocalDataKey{}, _vector_tags);
423  if (!_abs_vector_tags.empty())
424  {
425  _absolute_residuals.resize(residuals.size());
426  for (const auto i : index_range(residuals))
428 
430  dof_indices,
431  scaling_factor,
434  }
435 }
auto raw_value(const Eigen::Map< T > &in)
Definition: ADReal.h:73
std::set< TagID > _abs_vector_tags
The absolute value residual tag ids.
ADRealEigenVector< T, D, asd > abs(const ADRealEigenVector< T, D, asd > &)
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.
void cacheResiduals(const Residuals &residuals, const Indices &row_indices, Real scaling_factor, LocalDataKey, const std::set< TagID > &vector_tags)
Process the supplied residual values.
Definition: Assembly.h:3008
auto index_range(const T &sizable)
std::vector< Real > _absolute_residuals
A container to hold absolute values of residuals passed into addResiduals.
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ addResiduals() [2/2]

template<typename T , typename Indices >
void TaggingInterface::addResiduals ( Assembly assembly,
const DenseVector< T > &  residuals,
const Indices &  dof_indices,
Real  scaling_factor 
)
protectedinherited

Add the provided incoming residuals corresponding to the provided dof indices.

Definition at line 439 of file TaggingInterface.h.

443 {
444  addResiduals(assembly, residuals.get_values(), dof_indices, scaling_factor);
445 }
void addResiduals(Assembly &assembly, const Residuals &residuals, const Indices &dof_indices, Real scaling_factor)
Add the provided incoming residuals corresponding to the provided dof indices.

◆ addResidualsAndJacobian()

template<typename Residuals , typename Indices >
void TaggingInterface::addResidualsAndJacobian ( Assembly assembly,
const Residuals &  residuals,
const Indices &  dof_indices,
Real  scaling_factor 
)
protectedinherited

Add the provided incoming residuals and derivatives for the Jacobian, corresponding to the provided dof indices.

Definition at line 472 of file TaggingInterface.h.

Referenced by FVScalarLagrangeMultiplierInterface::computeJacobian(), FVBoundaryScalarLagrangeMultiplierConstraint::computeJacobian(), FVFluxBC::computeJacobian(), ADKernelScalarBase::computeJacobian(), FVFluxKernel::computeJacobian(), FVInterfaceKernel::computeJacobian(), FVScalarLagrangeMultiplierConstraint::computeResidualAndJacobian(), FVElementalKernel::computeResidualAndJacobian(), and ADKernelScalarBase::computeResidualAndJacobian().

476 {
477  addResiduals(assembly, residuals, dof_indices, scaling_factor);
478  addJacobian(assembly, residuals, dof_indices, scaling_factor);
479 }
void addResiduals(Assembly &assembly, const Residuals &residuals, const Indices &dof_indices, Real scaling_factor)
Add the provided incoming residuals corresponding to the provided dof indices.
void addJacobian(Assembly &assembly, const Residuals &residuals, const Indices &dof_indices, Real scaling_factor)
Add the provided residual derivatives into the Jacobian for the provided dof indices.

◆ addResidualsAndJacobianWithoutConstraints()

template<typename Residuals , typename Indices >
void TaggingInterface::addResidualsAndJacobianWithoutConstraints ( Assembly assembly,
const Residuals &  residuals,
const Indices &  dof_indices,
Real  scaling_factor 
)
protectedinherited

Add the provided incoming residuals and derivatives for the Jacobian, corresponding to the provided dof indices.

This API should only be used if the caller knows that no libMesh-level constraints (hanging nodes or periodic boundary conditions) apply to the provided dof indices

Definition at line 494 of file TaggingInterface.h.

Referenced by ADMortarConstraint::computeJacobian(), and ADMortarScalarBase::computeJacobian().

498 {
499  addResidualsWithoutConstraints(assembly, residuals, dof_indices, scaling_factor);
500  addJacobianWithoutConstraints(assembly, residuals, dof_indices, scaling_factor);
501 }
void addResidualsWithoutConstraints(Assembly &assembly, const Residuals &residuals, const Indices &dof_indices, Real scaling_factor)
Add the provided incoming residuals corresponding to the provided dof indices.
void addJacobianWithoutConstraints(Assembly &assembly, const Residuals &residuals, const Indices &dof_indices, Real scaling_factor)
Add the provided residual derivatives into the Jacobian for the provided dof indices.

◆ addResidualsWithoutConstraints()

template<typename Residuals , typename Indices >
void TaggingInterface::addResidualsWithoutConstraints ( Assembly assembly,
const Residuals &  residuals,
const Indices &  dof_indices,
Real  scaling_factor 
)
protectedinherited

Add the provided incoming residuals corresponding to the provided dof indices.

This API should only be used if the caller knows that no libMesh-level constraints (hanging nodes or periodic boundary conditions) apply to the provided dof indices

Definition at line 449 of file TaggingInterface.h.

Referenced by TaggingInterface::addResidualsAndJacobianWithoutConstraints().

453 {
455  residuals, dof_indices, scaling_factor, Assembly::LocalDataKey{}, _vector_tags);
456  if (!_abs_vector_tags.empty())
457  {
458  _absolute_residuals.resize(residuals.size());
459  for (const auto i : index_range(residuals))
461 
463  dof_indices,
464  scaling_factor,
467  }
468 }
auto raw_value(const Eigen::Map< T > &in)
Definition: ADReal.h:73
std::set< TagID > _abs_vector_tags
The absolute value residual tag ids.
ADRealEigenVector< T, D, asd > abs(const ADRealEigenVector< T, D, asd > &)
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.
auto index_range(const T &sizable)
std::vector< Real > _absolute_residuals
A container to hold absolute values of residuals passed into addResiduals.
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812
void cacheResidualsWithoutConstraints(const Residuals &residuals, const Indices &row_indices, Real scaling_factor, LocalDataKey, const std::set< TagID > &vector_tags)
Process the supplied residual values.
Definition: Assembly.h:3048

◆ addUserObjectDependencyHelper()

virtual void UserObjectInterface::addUserObjectDependencyHelper ( const UserObject ) const
inlineprotectedvirtualinherited

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

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

Definition at line 108 of file UserObjectInterface.h.

Referenced by UserObjectInterface::getUserObjectBaseByName().

108 {}

◆ addVectorPostprocessorDependencyHelper()

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

◆ assignTaggedLocalMatrix()

void TaggingInterface::assignTaggedLocalMatrix ( )
protectedinherited

Local Jacobian blocks will assigned as the current local kernel Jacobian.

It should be called after the local element matrix has been computed.

Definition at line 430 of file TaggingInterface.C.

Referenced by NodalEqualValueConstraint::computeJacobian().

431 {
432  for (auto & ke : _ke_blocks)
433  *ke = _local_ke;
434 }
DenseMatrix< Number > _local_ke
Holds local Jacobian entries as they are accumulated by this Kernel.
std::vector< DenseMatrix< Number > * > _ke_blocks
Kernel blocks Vectors For each Tag.

◆ assignTaggedLocalResidual()

void TaggingInterface::assignTaggedLocalResidual ( )
protectedinherited

Local residual blocks will assigned as the current local kernel residual.

It should be called after the local element vector has been computed.

Definition at line 370 of file TaggingInterface.C.

Referenced by NodalEqualValueConstraint::computeResidual(), and NodeFaceConstraint::computeResidual().

371 {
372  for (auto & re : _re_blocks)
373  *re = _local_re;
374  for (auto & absre : _absre_blocks)
375  for (const auto i : index_range(_local_re))
376  (*absre)(i) = std::abs(_local_re(i));
377 }
std::vector< DenseVector< Number > * > _absre_blocks
Residual blocks for absolute value residual tags.
std::vector< DenseVector< Number > * > _re_blocks
Residual blocks Vectors For each Tag.
ADRealEigenVector< T, D, asd > abs(const ADRealEigenVector< T, D, asd > &)
DenseVector< Number > _local_re
Holds local residual entries as they are accumulated by this Kernel.
auto index_range(const T &sizable)

◆ blockIDs()

const std::set< SubdomainID > & BlockRestrictable::blockIDs ( ) const
virtualinherited

Return the block subdomain ids for this object Note, if this is not block restricted, this function returns all mesh subdomain ids.

Returns
a set of SubdomainIDs that are valid for this object

Definition at line 190 of file BlockRestrictable.C.

Referenced by FunctorMaterial::addFunctorProperty(), DiracKernelBase::addPoint(), DiracKernelBase::addPointWithValidId(), NodalPatchRecoveryAuxBase::blockRestrictElements(), MooseMesh::cacheFaceInfoVariableOwnership(), ElementGroupCentroidPositions::ElementGroupCentroidPositions(), ExtraIDIntegralVectorPostprocessor::ExtraIDIntegralVectorPostprocessor(), BlockRestrictable::getBlockCoordSystem(), MaterialBase::getGenericZeroMaterialPropertyByName(), BlockRestrictable::hasBlockMaterialPropertyHelper(), SubdomainsDivision::initialize(), ElementCentroidPositions::initialize(), MooseVariableBase::MooseVariableBase(), NodalPatchRecoveryAux::NodalPatchRecoveryAux(), PointwiseRenormalizeVector::PointwiseRenormalizeVector(), ProjectedMaterialPropertyNodalPatchRecoveryAux::ProjectedMaterialPropertyNodalPatchRecoveryAux(), MaterialBase::registerPropName(), and FVPointValueConstraint::setMyElem().

191 {
192  if (_blk_ids.find(Moose::ANY_BLOCK_ID) != _blk_ids.end())
193  return _blk_mesh->meshSubdomains();
194  else
195  return _blk_ids;
196 }
const SubdomainID ANY_BLOCK_ID
Definition: MooseTypes.C:19
std::set< SubdomainID > _blk_ids
Set of block ids supplied by the user via the input file (for error checking)
MooseMesh * _blk_mesh
Pointer to Mesh.
const std::set< SubdomainID > & meshSubdomains() const
Returns a read-only reference to the set of subdomains currently present in the Mesh.
Definition: MooseMesh.C:2921

◆ blockRestricted()

bool BlockRestrictable::blockRestricted ( ) const
virtualinherited

◆ blocks()

const std::vector< SubdomainName > & BlockRestrictable::blocks ( ) const
inherited

Return the block names for this object.

Note, if the 'blocks' input parameter was not utilized this will return an empty vector.

Returns
vector of SubdomainNames that are valid for this object

Definition at line 184 of file BlockRestrictable.C.

Referenced by MaterialOutputAction::getParams(), SubdomainsDivision::initialize(), and SolutionIC::initialSetup().

185 {
186  return _blocks;
187 }
std::vector< SubdomainName > _blocks
Vector the block names supplied by the user via the input file.

◆ blocksMaxDimension()

unsigned int BlockRestrictable::blocksMaxDimension ( ) const
inherited

Return the largest mesh dimension of the elements in the blocks for this object.

Definition at line 360 of file BlockRestrictable.C.

361 {
362  mooseAssert(_blk_dim != libMesh::invalid_uint, "Block restriction not initialized");
363  return _blk_dim;
364 }
unsigned int _blk_dim
Largest mesh dimension of the elements in the blocks for this object.
const unsigned int invalid_uint

◆ callMooseError()

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

Calls moose error with the message msg.

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

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

Definition at line 33 of file MooseBase.C.

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

34 {
36  const std::string prefix = _app.isUltimateMaster() ? "" : _app.name();
37  if (with_prefix)
38  msg = errorPrefix("error") + msg;
39  moose::internal::mooseErrorRaw(msg, prefix);
40 }
bool isUltimateMaster() const
Whether or not this app is the ultimate master app.
Definition: MooseApp.h:805
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:57
std::string errorPrefix(const std::string &error_type) const
Definition: MooseBase.C:43
MooseApp & _app
The MOOSE application this is associated with.
Definition: MooseBase.h:84
void mooseErrorRaw(std::string msg, const std::string prefix="")
Definition: MooseError.C:50
void mooseConsole()
Send current output buffer to Console output objects.
OutputWarehouse & getOutputWarehouse()
Get the OutputWarehouse objects.
Definition: MooseApp.C:1766

◆ checkFunctorSupportsSideIntegration()

template<typename T >
void FunctorInterface::checkFunctorSupportsSideIntegration ( const std::string &  name,
bool  qp_integration 
)
protectedinherited

Throws error if the functor does not support the requested side integration.

Parameters
[in]nameName of functor or functor parameter
[in]qp_integrationTrue if performing qp integration, false if face info

Definition at line 236 of file FunctorInterface.h.

237 {
238  const std::string functor_name = deduceFunctorName(name);
239  const auto & functor = getFunctor<T>(name);
240  if (qp_integration)
241  {
242  if (!functor.supportsElemSideQpArg())
243  mooseError("Quadrature point integration was requested, but the functor '",
244  functor_name,
245  "' does not support this.");
246  }
247  else
248  {
249  if (!functor.supportsFaceArg())
250  mooseError("Face info integration was requested, but the functor '",
251  functor_name,
252  "' does not support this.");
253  }
254 }
std::string name(const ElemQuality q)
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:284
static std::string deduceFunctorName(const std::string &name, const InputParameters &params)
Helper to look up a functor name through the input parameter keys.

◆ checkVariable()

void BlockRestrictable::checkVariable ( const MooseVariableFieldBase variable) const
virtualinherited

Helper for checking that the ids for this object are in agreement with the variables on the supplied variable.

Parameters
variableThe variable to check against.

Reimplemented in DomainUserObject.

Definition at line 333 of file BlockRestrictable.C.

Referenced by DomainUserObject::checkVariable().

334 {
335  // a variable defined on all internal sides does not need this check because
336  // it can be coupled with other variables in DG kernels
337  if (variable.activeSubdomains().count(Moose::INTERNAL_SIDE_LOWERD_ID) > 0)
338  return;
339 
340  if (!isBlockSubset(variable.activeSubdomains()))
341  {
342  std::string var_ids = Moose::stringify(variable.activeSubdomains(), ", ");
343  std::string obj_ids = Moose::stringify(blockRestricted() ? _blk_ids : meshBlockIDs(), ", ");
344  mooseError("The 'block' parameter of the object '",
345  _blk_name,
346  "' must be a subset of the 'block' parameter of the variable '",
347  variable.name(),
348  "':\n Object '",
349  _blk_name,
350  "': ",
351  obj_ids,
352  "\n Variable '",
353  variable.name(),
354  "': ",
355  var_ids);
356  }
357 }
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:284
const std::string & name() const override
Get the variable name.
virtual bool blockRestricted() const
Returns true if this object has been restricted to a block.
bool isBlockSubset(const std::set< SubdomainID > &ids) const
Test if the class block ids are a subset of the supplied objects.
std::string stringify(const T &t)
conversion to string
Definition: Conversion.h:62
const std::set< SubdomainID > & activeSubdomains() const
The subdomains the variable is active on.
const SubdomainID INTERNAL_SIDE_LOWERD_ID
Definition: MooseTypes.C:20
const std::set< SubdomainID > & meshBlockIDs() const
Return all of the SubdomainIDs for the mesh.
std::set< SubdomainID > _blk_ids
Set of block ids supplied by the user via the input file (for error checking)
const std::string & _blk_name
Name of the object.

◆ computeJacobian()

virtual void ResidualObject::computeJacobian ( )
pure virtualinherited

◆ computeNonlocalJacobian()

virtual void ResidualObject::computeNonlocalJacobian ( )
inlinevirtualinherited

Compute this object's contribution to the diagonal Jacobian entries corresponding to nonlocal dofs of the variable.

Reimplemented in NonlocalIntegratedBC, and NonlocalKernel.

Definition at line 88 of file ResidualObject.h.

88 {}

◆ computeNonlocalOffDiagJacobian()

virtual void ResidualObject::computeNonlocalOffDiagJacobian ( unsigned int  )
inlinevirtualinherited

Computes Jacobian entries corresponding to nonlocal dofs of the jvar.

Reimplemented in NonlocalIntegratedBC, and NonlocalKernel.

Definition at line 93 of file ResidualObject.h.

93 {}

◆ computeOffDiagJacobian()

virtual void ResidualObject::computeOffDiagJacobian ( unsigned int  )
inlinevirtualinherited

Computes this object's contribution to off-diagonal blocks of the system Jacobian matrix.

Parameters
jvarThe number of the coupled variable. We pass the number of the coupled variable instead of an actual variable object because we can query our system and obtain the variable object associated with it. E.g. we need to make sure we are getting undisplaced variables if we are working on the undisplaced mesh, and displaced variables if we are working on the displaced mesh

Reimplemented in DGKernelBase, ADNodalBCTempl< Real, ADDirichletBCBase >, ADNodalBCTempl< T, ADDirichletBCBase >, ADNodalBCTempl< RealVectorValue, ADDirichletBCBase >, NodeFaceConstraint, ArrayDGLowerDKernel, DiracKernelTempl< T >, DGLowerDKernel, NodalKernel, NodeElemConstraint, ADNodalKernel, DiracKernelBase, ADKernelScalarBase, KernelScalarBase, ArrayDGKernel, FVElementalKernel, ADKernelTempl< T >, KernelGrad, KernelValue, NonlocalIntegratedBC, NonlocalKernel, ADIntegratedBCTempl< T >, NodalBC, JvarMapKernelInterface< Kernel >, ArrayIntegratedBC, ArrayNodalBC, IntegratedBC, VectorIntegratedBC, VectorNodalBC, ArrayKernel, EigenKernel, ArrayLowerDIntegratedBC, ADDGKernel, Kernel, VectorKernel, ADScalarKernel, and LowerDIntegratedBC.

Definition at line 76 of file ResidualObject.h.

76 {}

◆ computeOffDiagJacobianScalar()

virtual void ResidualObject::computeOffDiagJacobianScalar ( unsigned int  )
inlinevirtualinherited

◆ computeResidual()

virtual void ResidualObject::computeResidual ( )
pure virtualinherited

◆ computeResidualAndJacobian()

void ResidualObject::computeResidualAndJacobian ( )
virtualinherited

Compute this object's contribution to the residual and Jacobian simultaneously.

Reimplemented in InterfaceKernelTempl< T >, ADNodalBCTempl< Real, ADDirichletBCBase >, ADNodalBCTempl< T, ADDirichletBCBase >, ADNodalBCTempl< RealVectorValue, ADDirichletBCBase >, ADKernelScalarBase, FVFluxKernel, ADMortarConstraint, IntegratedBC, FVElementalKernel, ADKernelTempl< T >, FVScalarLagrangeMultiplierConstraint, NodalBC, ADIntegratedBCTempl< T >, Kernel, and ADKernelGradTempl< T >.

Definition at line 66 of file ResidualObject.C.

Referenced by ComputeResidualAndJacobianThread::compute().

67 {
68  mooseError(
69  "This object has not yet implemented 'computeResidualAndJacobian'. If you would like that "
70  "feature for this object, please contact a MOOSE developer.");
71 }
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.

◆ 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 33 of file MooseBaseParameterInterface.C.

37 {
38  MooseObjectParameterName primary_name(uniqueName(), parameter);
39  const auto base_type = _factory.getValidParams(object_type).get<std::string>("_moose_base");
40  MooseObjectParameterName secondary_name(base_type, object_name, object_parameter);
42  primary_name, secondary_name);
43 
44  const auto & tags = _pars.get<std::vector<std::string>>("control_tags");
45  for (const auto & tag : tags)
46  {
47  if (!tag.empty())
48  {
49  MooseObjectParameterName tagged_name(tag, _moose_base.name(), parameter);
51  tagged_name, secondary_name);
52  }
53  }
54 }
void addControllableParameterConnection(const MooseObjectParameterName &primary, const MooseObjectParameterName &secondary, bool error_on_empty=true)
Method for linking control parameters of different names.
const MooseBase & _moose_base
The MooseBase object that inherits this class.
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:2218
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:57
MooseApp & getMooseApp() const
Get the MooseApp this class is associated with.
Definition: MooseBase.h:45
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 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)

◆ deduceFunctorName() [1/2]

std::string FunctorInterface::deduceFunctorName ( const std::string &  name,
const InputParameters params 
)
staticinherited

Helper to look up a functor name through the input parameter keys.

Parameters
nameThe input parameter name that we are trying to deduce the functor name for
paramsThe input parameters object that we will be checking for parameters named name
Returns
The functor name

Definition at line 28 of file FunctorInterface.C.

Referenced by FunctorInterface::checkFunctorSupportsSideIntegration(), FunctorInterface::deduceFunctorName(), FunctorInterface::getFunctor(), and FunctorInterface::isFunctor().

29 {
30  if (params.isParamValid(name))
31  {
32  if (params.have_parameter<MooseFunctorName>(name))
33  return params.get<MooseFunctorName>(name);
34  // variables, functor material properties, functions, and post-processors are also functors
35  else if (params.have_parameter<MaterialPropertyName>(name))
36  return params.get<MaterialPropertyName>(name);
37  else if (params.have_parameter<VariableName>(name))
38  return params.get<VariableName>(name);
39  else if (params.have_parameter<std::vector<VariableName>>(name))
40  {
41  const auto & var_names = params.get<std::vector<VariableName>>(name);
42  if (var_names.size() != 1)
43  mooseError("We only support a single variable name for retrieving a functor");
44  return var_names[0];
45  }
46  else if (params.have_parameter<NonlinearVariableName>(name))
47  return params.get<NonlinearVariableName>(name);
48  else if (params.have_parameter<FunctionName>(name))
49  return params.get<FunctionName>(name);
50  else if (params.have_parameter<PostprocessorName>(name))
51  return params.get<PostprocessorName>(name);
52  else
53  mooseError("Invalid parameter type for retrieving a functor");
54  }
55  else
56  return name;
57 }
std::string name(const ElemQuality q)
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:284
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 have_parameter(std::string_view name) const
A wrapper around the Parameters base class method.
bool isParamValid(const std::string &name) const
This method returns parameters that have been initialized in one fashion or another, i.e.

◆ deduceFunctorName() [2/2]

std::string FunctorInterface::deduceFunctorName ( const std::string &  name) const
protectedinherited

Small helper to look up a functor name through the input parameter keys.

Definition at line 60 of file FunctorInterface.C.

61 {
62  return deduceFunctorName(name, _fi_params);
63 }
const InputParameters & _fi_params
Parameters of the object with this interface.
static std::string deduceFunctorName(const std::string &name, const InputParameters &params)
Helper to look up a functor name through the input parameter keys.

◆ determineState()

Moose::StateArg TransientInterface::determineState ( ) const
inlineprotectedinherited

Create a functor state argument that corresponds to the implicit state of this object.

If we are implicit then we will return the current state. If we are not, then we will return the old state

Definition at line 80 of file TransientInterface.h.

Referenced by SideIntegralVariablePostprocessor::computeFaceInfoIntegral(), InternalSideIntegralVariablePostprocessor::computeFaceInfoIntegral(), LayeredSideDiffusiveFluxAverage::computeQpIntegral(), SideIntegralFunctorUserObject::computeQpIntegral(), SideIntegralVariableUserObject::computeQpIntegral(), InterfaceIntegralVariableValuePostprocessor::computeQpIntegral(), FVOneVarDiffusionInterface::computeQpResidual(), FVTwoVarContinuityConstraint::computeQpResidual(), FVDiffusionInterface::computeQpResidual(), FVFunctorTimeKernel::computeQpResidual(), FVMatAdvection::computeQpResidual(), FVAdvection::computeQpResidual(), FVConstantScalarOutflowBC::computeQpResidual(), FVAnisotropicDiffusion::computeQpResidual(), FVCoupledForce::computeQpResidual(), FVFunctorNeumannBC::computeQpResidual(), FVMassMatrix::computeQpResidual(), FVDivergence::computeQpResidual(), FVBoundaryIntegralValueConstraint::computeQpResidual(), FVDiffusion::computeQpResidual(), FVIntegralValueConstraint::computeQpResidual(), FVBoundedValueConstraint::computeQpResidual(), FVPointValueConstraint::computeQpResidual(), SecondTimeDerivativeAux::computeValue(), AdvectiveFluxAux::computeValue(), TimeDerivativeAux::computeValue(), FunctorAux::computeValue(), PositionsFunctorValueSampler::execute(), MeshDivisionFunctorReductionVectorPostprocessor::execute(), FunctorPositions::initialize(), and FunctorTimes::initialize().

81 {
83 }
StateArg oldState()
MOOSE now contains C++17 code, so give a reasonable error message stating what the user can do to add...
StateArg currentState()
bool _is_implicit
If the object is using implicit or explicit form.

◆ 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

◆ errorPrefix()

std::string MooseBase::errorPrefix ( const std::string &  error_type) const
inherited
Returns
A prefix to be used in errors that contains the input file location associated with this object (if any) and the name and type of the object.

Definition at line 43 of file MooseBase.C.

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

44 {
45  std::stringstream oss;
46  if (const auto node = _params.getHitNode())
47  if (!node->isRoot())
48  oss << node->fileLocation() << ":\n";
49  oss << "The following " << error_type << " occurred in the ";
50  if (const auto base_ptr = _params.getBase())
51  oss << *base_ptr;
52  else
53  oss << "object";
54  oss << " '" << name() << "' of type " << type() << ".\n\n";
55  return oss.str();
56 }
const hit::Node * getHitNode(const std::string &param) const
std::optional< std::string > getBase() const
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:57
const InputParameters & _params
The object&#39;s parameteres.
Definition: MooseBase.h:94
const std::string & type() const
Get the type of this class.
Definition: MooseBase.h:51

◆ getBlockCoordSystem()

Moose::CoordinateSystemType BlockRestrictable::getBlockCoordSystem ( )
protectedinherited

Check if the blocks this object operates on all have the same coordinate system, and if so return it.

Definition at line 311 of file BlockRestrictable.C.

312 {
313  if (!_blk_mesh)
314  mooseError("No mesh available in BlockRestrictable::checkCoordSystem()");
315  if (!_blk_feproblem)
316  mooseError("No problem available in BlockRestrictable::checkCoordSystem()");
317 
318  const auto & subdomains = blockRestricted() ? blockIDs() : meshBlockIDs();
319 
320  if (subdomains.empty())
321  mooseError("No subdomains found in the problem.");
322 
323  // make sure all subdomains are using the same coordinate system
324  auto coord_system = _blk_feproblem->getCoordSystem(*subdomains.begin());
325  for (auto subdomain : subdomains)
326  if (_blk_feproblem->getCoordSystem(subdomain) != coord_system)
327  mooseError("This object requires all subdomains to have the same coordinate system.");
328 
329  return coord_system;
330 }
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:284
FEProblemBase * _blk_feproblem
Pointer to FEProblemBase.
virtual const std::set< SubdomainID > & blockIDs() const
Return the block subdomain ids for this object Note, if this is not block restricted, this function returns all mesh subdomain ids.
virtual bool blockRestricted() const
Returns true if this object has been restricted to a block.
const std::set< SubdomainID > & meshBlockIDs() const
Return all of the SubdomainIDs for the mesh.
Moose::CoordinateSystemType getCoordSystem(SubdomainID sid) const
Definition: SubProblem.C:1223
MooseMesh * _blk_mesh
Pointer to Mesh.

◆ 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 268 of file MooseBaseParameterInterface.h.

270 {
271  return parameters().getCheckedPointerParam<T>(name, error_string);
272 }
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

Definition at line 24 of file DataFileInterface.C.

25 {
26  // The path from the parameters, which has not been modified because it is a DataFileName
27  const auto & value = _parent.template getParam<DataFileParameterType>(param);
28  if (value.empty())
29  _parent.paramInfo(param, "Data file name is empty");
30 
31  const std::filesystem::path value_path = std::filesystem::path(std::string(value));
32 
33  // If the file is absolute, we should reference that directly and don't need to add
34  // any info beacuse this is not ambiguous
35  if (value_path.is_absolute() && MooseUtils::checkFileReadable(value, false, false, false))
36  return value;
37 
38  // Look relative to the input file
39  const auto base = _parent.parameters().getParamFileBase(param);
40  const std::string relative_to_context = std::filesystem::absolute(base / value_path).c_str();
41  if (MooseUtils::checkFileReadable(relative_to_context, false, false, false))
42  {
43  _parent.paramInfo(param, "Data file '", value, "' found relative to the input file.");
44  return relative_to_context;
45  }
46 
47  // Isn't absolute and couldn't find relative to the input file, so search the data
48  return getDataFileNameByName(value, &param);
49 }
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::filesystem::path getParamFileBase(const std::string &param_name) const
Real value(unsigned n, unsigned alpha, unsigned beta, Real x)
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:256
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 53 of file DataFileInterface.C.

55 {
57  const auto share_dir = MooseUtils::pathjoin(Moose::getExecutablePath(), "..", "share");
58  if (MooseUtils::pathIsDirectory(share_dir))
59  {
60  const auto dirs = MooseUtils::listDir(share_dir, false);
61  for (const auto & data_dir : dirs)
62  {
63  const auto path = MooseUtils::pathjoin(data_dir, "data", relative_path);
64  if (MooseUtils::checkFileReadable(path, false, false, false))
65  {
66  if (param)
68  *param, "Data file '", path, "' found in an installed app distribution.");
69  else
70  mooseInfo("Data file '", path, "' found in an installed app distribution.");
71  return path;
72  }
73  }
74  }
75 
77  for (const auto & data_dir : Registry::getRegistry().getDataFilePaths())
78  {
79  const auto path = MooseUtils::pathjoin(data_dir, relative_path);
80  if (MooseUtils::checkFileReadable(path, false, false, false))
81  {
82  if (param)
83  _parent.paramInfo(*param, "Data file '", path, "' found in a source repository.");
84  else
85  mooseInfo("Data file '", path, "' found in a source repository.");
86  return path;
87  }
88  }
89 
90  mooseException(param ? _parent.parameters().inputLocation(*param) : _parent.name(),
91  ": Unable to find data file '",
92  relative_path,
93  "' anywhere");
94 }
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:57
void mooseInfo(Args &&... args)
Emit an informational message with the given stringified, concatenated args.
Definition: MooseError.h:329
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:256
std::string inputLocation(const std::string &param) const
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:768
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...

◆ getExecuteOnEnum()

const ExecFlagEnum & SetupInterface::getExecuteOnEnum ( ) const
inherited

◆ 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

◆ getFunctor() [1/4]

template<typename T >
const Moose::Functor< T > & FunctorInterface::getFunctor ( const std::string &  name)
protectedinherited

Retrieves a functor from the subproblem.

This method also leverages the ability to create default functors if the user passed an integer or real in the input file

Parameters
nameThe name of the functor to retrieve. This should match the functor parameter name, not the actual name of the functor created in the input file
Returns
The functor

Definition at line 200 of file FunctorInterface.h.

Referenced by MaterialFunctorConverterTempl< T >::MaterialFunctorConverterTempl().

201 {
202  mooseAssert(_fi_subproblem, "This must be non-null");
203  return getFunctor<T>(name, *_fi_subproblem, _fi_tid);
204 }
std::string name(const ElemQuality q)
SubProblem *const _fi_subproblem
Pointer to subproblem if the subproblem pointer parameter was set.
const THREAD_ID _fi_tid
Current threaded it.

◆ getFunctor() [2/4]

template<typename T >
const Moose::Functor< T > & FunctorInterface::getFunctor ( const std::string &  name,
THREAD_ID  tid 
)
protectedinherited

Retrieves a functor from the subproblem.

This method also leverages the ability to create default functors if the user passed an integer or real in the input file

Parameters
nameThe name of the functor to retrieve. This should match the functor parameter name, not the actual name of the functor created in the input file
tidThe thread ID used to retrieve the functor from this interface's subproblem
Returns
The functor

Definition at line 192 of file FunctorInterface.h.

193 {
194  mooseAssert(_fi_subproblem, "This must be non-null");
195  return getFunctor<T>(name, *_fi_subproblem, tid);
196 }
std::string name(const ElemQuality q)
SubProblem *const _fi_subproblem
Pointer to subproblem if the subproblem pointer parameter was set.

◆ getFunctor() [3/4]

template<typename T >
const Moose::Functor< T > & FunctorInterface::getFunctor ( const std::string &  name,
SubProblem subproblem 
)
protectedinherited

Retrieves a functor from the passed-in subproblem.

This method also leverages the ability to create default functors if the user passed an integer or real in the input file

Parameters
nameThe name of the functor to retrieve. This should match the functor parameter name, not the actual name of the functor created in the input file
subproblemThe subproblem to query for the functor
Returns
The functor

Definition at line 185 of file FunctorInterface.h.

186 {
187  return getFunctor<T>(name, subproblem, _fi_tid);
188 }
std::string name(const ElemQuality q)
const THREAD_ID _fi_tid
Current threaded it.

◆ getFunctor() [4/4]

template<typename T >
const Moose::Functor< T > & FunctorInterface::getFunctor ( const std::string &  name,
SubProblem subproblem,
THREAD_ID  tid 
)
protectedinherited

Retrieves a functor from the passed-in subproblem.

This method also leverages the ability to create default functors if the user passed an integer or real in the input file

Parameters
nameThe name of the functor to retrieve. This should match the functor parameter name, not the actual name of the functor created in the input file
subproblemThe subproblem to query for the functor
tidThe thread ID used to retrieve the functor from the subproblem
Returns
The functor

Definition at line 176 of file FunctorInterface.h.

177 {
178  // Check if the supplied parameter is a valid input parameter key
179  std::string functor_name = deduceFunctorName(name);
180  return getFunctorByName<T>(functor_name, subproblem, tid);
181 }
static std::string deduceFunctorName(const std::string &name, const InputParameters &params)
Helper to look up a functor name through the input parameter keys.

◆ getMasterSeed()

unsigned int RandomInterface::getMasterSeed ( ) const
inlineinherited

Definition at line 66 of file RandomInterface.h.

66 { return _master_seed; }
unsigned int _master_seed

◆ getMatrixTags()

const std::set<TagID>& TaggingInterface::getMatrixTags ( MatrixTagsKey  ) const
inlineinherited

Definition at line 97 of file TaggingInterface.h.

97 { return _matrix_tags; }
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.

◆ getMooseApp()

MooseApp& MooseBase::getMooseApp ( ) const
inlineinherited

◆ 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 204 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(), BlockDeletionGenerator::generate(), MeshExtruderGenerator::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().

205 {
206  return InputParameters::getParamHelper(name, _pars, static_cast<T *>(0), &_moose_base);
207 }
const MooseBase & _moose_base
The MooseBase object that inherits this class.
const InputParameters & _pars
Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.
static const T & getParamHelper(const std::string &name, const InputParameters &pars, const T *the_type, const MooseBase *moose_base=nullptr)

◆ 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 261 of file MooseBaseParameterInterface.h.

262 {
263  return _pars.get<T1, T2>(param1, param2);
264 }
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.

◆ 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

◆ getRandomLong()

unsigned long RandomInterface::getRandomLong ( ) const
inherited

Returns the next random number (long) from the generator tied to this object (elem/node).

Definition at line 69 of file RandomInterface.C.

70 {
71  mooseAssert(_generator, "Random Generator is NULL, did you call setRandomResetFrequency()?");
72 
73  dof_id_type id;
74  if (_is_nodal)
75  id = _curr_node->id();
76  else
77  id = _curr_element->id();
78 
79  return _generator->randl(id);
80 }
static uint32_t randl()
This method returns the next random number (long format) from the generator.
Definition: MooseRandom.h:70
const Node *const & _curr_node
const Elem *const & _curr_element
MooseRandom * _generator
uint8_t dof_id_type

◆ getRandomReal()

Real RandomInterface::getRandomReal ( ) const
inherited

Returns the next random number (Real) from the generator tied to this object (elem/node).

Definition at line 83 of file RandomInterface.C.

84 {
85  mooseAssert(_generator, "Random Generator is NULL, did you call setRandomResetFrequency()?");
86 
87  dof_id_type id;
88  if (_is_nodal)
89  id = _curr_node->id();
90  else
91  id = _curr_element->id();
92 
93  return _generator->rand(id);
94 }
const Node *const & _curr_node
const Elem *const & _curr_element
static Real rand()
This method returns the next random number (Real format) from the generator.
Definition: MooseRandom.h:49
MooseRandom * _generator
uint8_t dof_id_type

◆ 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 211 of file MooseBaseParameterInterface.h.

213 {
214  // this enables having a default on the new parameter but bypassing it with the old one
215  // Most important: accept new parameter
216  if (isParamSetByUser(new_name) && !isParamValid(old_name))
217  return InputParameters::getParamHelper(new_name, _pars, static_cast<T *>(0), &_moose_base);
218  // Second most: accept old parameter
219  else if (isParamValid(old_name) && !isParamSetByUser(new_name))
220  return InputParameters::getParamHelper(old_name, _pars, static_cast<T *>(0), &_moose_base);
221  // Third most: accept default for new parameter
222  else if (isParamValid(new_name) && !isParamValid(old_name))
223  return InputParameters::getParamHelper(new_name, _pars, static_cast<T *>(0), &_moose_base);
224  // Refuse: no default, no value passed
225  else if (!isParamValid(old_name) && !isParamValid(new_name))
226  mooseError(_pars.blockFullpath() + ": parameter '" + new_name +
227  "' is being retrieved without being set.\n"
228  "Did you misspell it?");
229  // Refuse: both old and new parameters set by user
230  else
231  mooseError(_pars.blockFullpath() + ": parameter '" + new_name +
232  "' may not be provided alongside former parameter '" + old_name + "'");
233 }
const MooseBase & _moose_base
The MooseBase object that inherits this class.
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.
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() const
const InputParameters & _pars
Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.
static const T & getParamHelper(const std::string &name, const InputParameters &pars, const T *the_type, const MooseBase *moose_base=nullptr)

◆ getResetOnTime()

ExecFlagType RandomInterface::getResetOnTime ( ) const
inlineinherited

Definition at line 68 of file RandomInterface.h.

68 { return _reset_on; }
ExecFlagType _reset_on

◆ 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 }

◆ 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.

◆ getSeed()

unsigned int RandomInterface::getSeed ( std::size_t  id)
inherited

Get the seed for the passed in elem/node id.

Parameters
id- dof object id
Returns
current seed for this id

Definition at line 61 of file RandomInterface.C.

62 {
63  mooseAssert(_random_data, "RandomData object is NULL!");
64 
65  return _random_data->getSeed(id);
66 }
RandomData * _random_data
unsigned int getSeed(dof_id_type id)
Get the seed for the passed in elem/node id.
Definition: RandomData.C:40

◆ getUserObject()

template<class T >
const T & UserObjectInterface::getUserObject ( const std::string &  param_name,
bool  is_dependency = true 
) const
inherited

Get an user object with a given parameter param_name.

Parameters
param_nameThe name of the parameter key of the user object to retrieve
is_dependencyWhether the user object we are retrieving should be viewed as a dependency, e.g. whether the retrieved user object should be sorted and executed before this object (if we are a user object)
Returns
The user object with name associated with the parameter param_name

Definition at line 160 of file UserObjectInterface.h.

161 {
162  return castUserObject<T>(getUserObjectBase(param_name, is_dependency), param_name);
163 }
const UserObject & getUserObjectBase(const std::string &param_name, bool is_dependency=true) const
Get an user object with a given parameter param_name.

◆ getUserObjectBase()

const UserObject & UserObjectInterface::getUserObjectBase ( const std::string &  param_name,
bool  is_dependency = true 
) const
inherited

Get an user object with a given parameter param_name.

Parameters
param_nameThe name of the parameter key of the user object to retrieve
is_dependencyWhether the user object we are retrieving should be viewed as a dependency, e.g. whether the retrieved user object should be sorted and executed before this object (if we are a user object)
Returns
The user object with name associated with the parameter param_name

Definition at line 79 of file UserObjectInterface.C.

Referenced by UserObjectInterface::getUserObject().

81 {
82  const auto object_name = getUserObjectName(param_name);
83  if (!hasUserObjectByName(object_name))
85  param_name, "The requested UserObject with the name \"", object_name, "\" was not found.");
86 
87  return getUserObjectBaseByName(object_name, is_dependency);
88 }
UserObjectName getUserObjectName(const std::string &param_name) const
const MooseObject & _uoi_moose_object
Moose object using the interface.
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 ...
const UserObject & getUserObjectBaseByName(const UserObjectName &object_name, bool is_dependency=true) const
Get an user object with the name object_name.
bool hasUserObjectByName(const UserObjectName &object_name) const

◆ getUserObjectBaseByName()

const UserObject & UserObjectInterface::getUserObjectBaseByName ( const UserObjectName &  object_name,
bool  is_dependency = true 
) const
inherited

Get an user object with the name object_name.

Parameters
object_nameThe name of the user object to retrieve
is_dependencyWhether the user object we are retrieving should be viewed as a dependency, e.g. whether the retrieved user object should be sorted and executed before this object (if we are a user object)
Returns
The user object with the name object_name

Definition at line 91 of file UserObjectInterface.C.

Referenced by UserObject::getDependObjects(), UserObjectInterface::getUserObjectBase(), and UserObjectInterface::getUserObjectByName().

93 {
94  if (!hasUserObjectByName(object_name))
96  "The requested UserObject with the name \"", object_name, "\" was not found.");
97 
98  const auto & uo_base_tid0 = _uoi_feproblem.getUserObjectBase(object_name, /* tid = */ 0);
99  if (is_dependency)
100  addUserObjectDependencyHelper(uo_base_tid0);
101 
102  const THREAD_ID tid = uo_base_tid0.needThreadedCopy() ? _uoi_tid : 0;
103  return _uoi_feproblem.getUserObjectBase(object_name, tid);
104 }
const MooseObject & _uoi_moose_object
Moose object using the interface.
const FEProblemBase & _uoi_feproblem
Reference to the FEProblemBase instance.
const THREAD_ID _uoi_tid
Thread ID.
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.
virtual void addUserObjectDependencyHelper(const UserObject &) const
Helper for deriving classes to override to add dependencies when a UserObject is requested.
bool hasUserObjectByName(const UserObjectName &object_name) const
unsigned int THREAD_ID
Definition: MooseTypes.h:198

◆ getUserObjectByName()

template<class T >
const T & UserObjectInterface::getUserObjectByName ( const UserObjectName &  object_name,
bool  is_dependency = true 
) const
inherited

Get an user object with the name object_name.

Parameters
object_nameThe name of the user object to retrieve
is_dependencyWhether the user object we are retrieving should be viewed as a dependency, e.g. whether the retrieved user object should be sorted and executed before this object (if we are a user object)
Returns
The user object with the name object_name

Definition at line 167 of file UserObjectInterface.h.

169 {
170  return castUserObject<T>(getUserObjectBaseByName(object_name, is_dependency));
171 }
const UserObject & getUserObjectBaseByName(const UserObjectName &object_name, bool is_dependency=true) const
Get an user object with the name object_name.

◆ getUserObjectName()

UserObjectName UserObjectInterface::getUserObjectName ( const std::string &  param_name) const
inherited
Returns
The name of the user object associated with the parameter param_name

Definition at line 34 of file UserObjectInterface.C.

Referenced by UserObjectInterface::getUserObjectBase(), and UserObjectInterface::hasUserObject().

35 {
36  const auto & params = _uoi_moose_object.parameters();
37 
38  if (!params.isParamValid(param_name))
39  _uoi_moose_object.mooseError("Failed to get a parameter with the name \"",
40  param_name,
41  "\" when getting a UserObjectName.",
42  "\n\nKnown parameters:\n",
44 
45  // Other interfaces will use this interface (PostprocessorInterface, VectorPostprocessorInterface)
46  // to grab UOs with a specialized name, so we need to check them all
47  UserObjectName name;
48  if (params.isType<UserObjectName>(param_name))
49  name = params.get<UserObjectName>(param_name);
50  else if (params.isType<PostprocessorName>(param_name))
51  name = params.get<PostprocessorName>(param_name);
52  else if (params.isType<VectorPostprocessorName>(param_name))
53  name = params.get<VectorPostprocessorName>(param_name);
54  else if (params.isType<std::string>(param_name))
55  name = params.get<std::string>(param_name);
56  else
58  param_name,
59  "Parameter of type \"",
60  params.type(param_name),
61  "\" is not an expected type for getting the name of a UserObject.");
62 
63  return name;
64 }
std::string name(const ElemQuality q)
const MooseObject & _uoi_moose_object
Moose object using the interface.
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 ...
void mooseError(Args &&... args) const
Emits an error prefixed with object name and type.
const InputParameters & parameters() const
Get the parameters of the object.

◆ getVariable()

const MooseVariableFieldBase& ResidualObject::getVariable ( unsigned int  jvar_num) const
inlineprotectedinherited

Retrieve the variable object from our system associated with jvar_num.

Definition at line 119 of file ResidualObject.h.

Referenced by LowerDIntegratedBC::computeLowerDOffDiagJacobian(), ArrayLowerDIntegratedBC::computeLowerDOffDiagJacobian(), Kernel::computeOffDiagJacobian(), VectorKernel::computeOffDiagJacobian(), ADDGKernel::computeOffDiagJacobian(), ArrayKernel::computeOffDiagJacobian(), EigenKernel::computeOffDiagJacobian(), IntegratedBC::computeOffDiagJacobian(), VectorIntegratedBC::computeOffDiagJacobian(), ArrayNodalBC::computeOffDiagJacobian(), ArrayIntegratedBC::computeOffDiagJacobian(), NonlocalKernel::computeOffDiagJacobian(), NonlocalIntegratedBC::computeOffDiagJacobian(), KernelValue::computeOffDiagJacobian(), KernelGrad::computeOffDiagJacobian(), ArrayDGKernel::computeOffDiagJacobian(), NodalKernel::computeOffDiagJacobian(), DGLowerDKernel::computeOffDiagJacobian(), ArrayDGLowerDKernel::computeOffDiagJacobian(), NodeFaceConstraint::computeOffDiagJacobian(), DGKernelBase::computeOffDiagJacobian(), and KernelScalarBase::computeScalarOffDiagJacobian().

120  {
121  return _sys.getVariable(_tid, jvar_num);
122  }
THREAD_ID _tid
The thread ID for this kernel.
SystemBase & _sys
Reference to the EquationSystem object.
MooseVariableFieldBase & getVariable(THREAD_ID tid, const std::string &var_name) const
Gets a reference to a variable of with specified name.
Definition: SystemBase.C:79

◆ 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.

◆ 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.

◆ getVectorTags()

const std::set<TagID>& TaggingInterface::getVectorTags ( VectorTagsKey  ) const
inlineinherited

Definition at line 95 of file TaggingInterface.h.

95 { return _vector_tags; }
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.

◆ hasBlockMaterialProperty()

template<typename T , bool is_ad>
bool BlockRestrictable::hasBlockMaterialProperty ( const std::string &  prop_name)
inherited

Check if a material property is valid for all blocks of this object.

This method returns true if the supplied property name has been declared in a Material object on the block ids for this object.

Template Parameters
TThe type of material property
Parameters
prop_namethe name of the property to query
Returns
true if the property exists for all block ids of the object, otherwise false
See also
Material::hasBlockMaterialProperty

Definition at line 264 of file BlockRestrictable.h.

265 {
266  mooseAssert(_blk_material_data != NULL, "MaterialData pointer is not defined");
267  return hasBlockMaterialPropertyHelper(prop_name) &&
268  _blk_material_data->haveGenericProperty<T, is_ad>(prop_name);
269 }
bool haveGenericProperty(const std::string &prop_name) const
Definition: MaterialData.h:253
const MaterialData * _blk_material_data
Pointer to the MaterialData class for this object.
virtual bool hasBlockMaterialPropertyHelper(const std::string &prop_name)
A helper method to allow the Material object to specialize the behavior of hasBlockMaterialProperty.

◆ hasBlockMaterialPropertyHelper()

bool BlockRestrictable::hasBlockMaterialPropertyHelper ( const std::string &  prop_name)
protectedvirtualinherited

A helper method to allow the Material object to specialize the behavior of hasBlockMaterialProperty.

It also avoid circular #include problems.

See also
hasBlockMaterialProperty

Definition at line 275 of file BlockRestrictable.C.

Referenced by BlockRestrictable::hasBlockMaterialProperty().

276 {
277 
278  // Reference to MaterialWarehouse for testing and retrieving block ids
280 
281  // Complete set of ids that this object is active
282  const std::set<SubdomainID> & ids = blockRestricted() ? blockIDs() : meshBlockIDs();
283 
284  // Loop over each id for this object
285  for (const auto & id : ids)
286  {
287  // Storage of material properties that have been DECLARED on this id
288  std::set<std::string> declared_props;
289 
290  // If block materials exist, populated the set of properties that were declared
291  if (warehouse.hasActiveBlockObjects(id))
292  {
293  const std::vector<std::shared_ptr<MaterialBase>> & mats = warehouse.getActiveBlockObjects(id);
294  for (const auto & mat : mats)
295  {
296  const std::set<std::string> & mat_props = mat->getSuppliedItems();
297  declared_props.insert(mat_props.begin(), mat_props.end());
298  }
299  }
300 
301  // If the supplied property is not in the list of properties on the current id, return false
302  if (declared_props.find(prop_name) == declared_props.end())
303  return false;
304  }
305 
306  // If you get here the supplied property is defined on all blocks
307  return true;
308 }
bool hasActiveBlockObjects(THREAD_ID tid=0) const
const std::map< SubdomainID, std::vector< std::shared_ptr< T > > > & getActiveBlockObjects(THREAD_ID tid=0) const
FEProblemBase * _blk_feproblem
Pointer to FEProblemBase.
virtual const std::set< SubdomainID > & blockIDs() const
Return the block subdomain ids for this object Note, if this is not block restricted, this function returns all mesh subdomain ids.
virtual bool blockRestricted() const
Returns true if this object has been restricted to a block.
MaterialBase objects are special in that they have additional objects created automatically (see FEPr...
const MaterialWarehouse & getMaterialWarehouse() const
const std::set< SubdomainID > & meshBlockIDs() const
Return all of the SubdomainIDs for the mesh.

◆ hasBlocks() [1/5]

bool BlockRestrictable::hasBlocks ( const SubdomainName &  name) const
inherited

Test if the supplied block name is valid for this object.

Parameters
nameA SubdomainName to check
Returns
True if the given id is valid for this object

Definition at line 205 of file BlockRestrictable.C.

Referenced by DiracKernelBase::addPoint(), MultiAppVariableValueSamplePostprocessorTransfer::cacheElemToPostprocessorData(), DomainUserObject::checkVariable(), ComputeJacobianThread::compute(), DomainUserObject::DomainUserObject(), ExtraIDIntegralVectorPostprocessor::execute(), MeshDivisionFunctorReductionVectorPostprocessor::execute(), MultiAppVariableValueSamplePostprocessorTransfer::execute(), ExtraIDIntegralVectorPostprocessor::ExtraIDIntegralVectorPostprocessor(), QuadraturePointMultiApp::fillPositions(), CentroidMultiApp::fillPositions(), BlockRestrictable::hasBlocks(), MooseVariableField< Real >::hasBlocks(), FVFluxKernel::hasFaceSide(), and PointwiseRenormalizeVector::PointwiseRenormalizeVector().

206 {
207  // Create a vector and utilize the getSubdomainIDs function, which
208  // handles the ANY_BLOCK_ID (getSubdomainID does not)
209  std::vector<SubdomainName> names(1);
210  names[0] = name;
211  return hasBlocks(_blk_mesh->getSubdomainIDs(names));
212 }
std::string name(const ElemQuality q)
std::vector< SubdomainID > getSubdomainIDs(const std::vector< SubdomainName > &subdomain_name) const
Get the associated subdomainIDs for the subdomain names that are passed in.
Definition: MooseMesh.C:1519
bool hasBlocks(const SubdomainName &name) const
Test if the supplied block name is valid for this object.
MooseMesh * _blk_mesh
Pointer to Mesh.

◆ hasBlocks() [2/5]

bool BlockRestrictable::hasBlocks ( const std::vector< SubdomainName > &  names) const
inherited

Test if the supplied vector of block names are valid for this object.

Parameters
namesA vector of SubdomainNames to check
Returns
True if the given ids are valid for this object

Definition at line 215 of file BlockRestrictable.C.

216 {
217  return hasBlocks(_blk_mesh->getSubdomainIDs(names));
218 }
std::vector< SubdomainID > getSubdomainIDs(const std::vector< SubdomainName > &subdomain_name) const
Get the associated subdomainIDs for the subdomain names that are passed in.
Definition: MooseMesh.C:1519
bool hasBlocks(const SubdomainName &name) const
Test if the supplied block name is valid for this object.
MooseMesh * _blk_mesh
Pointer to Mesh.

◆ hasBlocks() [3/5]

bool BlockRestrictable::hasBlocks ( SubdomainID  id) const
inherited

Test if the supplied block ids are valid for this object.

Parameters
idA SubdomainID to check
Returns
True if the given id is valid for this object

Definition at line 221 of file BlockRestrictable.C.

222 {
223  if (_blk_ids.empty() || _blk_ids.find(Moose::ANY_BLOCK_ID) != _blk_ids.end())
224  return true;
225  else
226  return _blk_ids.find(id) != _blk_ids.end();
227 }
const SubdomainID ANY_BLOCK_ID
Definition: MooseTypes.C:19
std::set< SubdomainID > _blk_ids
Set of block ids supplied by the user via the input file (for error checking)

◆ hasBlocks() [4/5]

bool BlockRestrictable::hasBlocks ( const std::vector< SubdomainID > &  ids) const
inherited

Test if the supplied vector block ids are valid for this object.

Parameters
idsA vector of SubdomainIDs ids to check
Returns
True if all of the given ids are found within the ids for this object

Definition at line 230 of file BlockRestrictable.C.

231 {
232  std::set<SubdomainID> ids_set(ids.begin(), ids.end());
233  return hasBlocks(ids_set);
234 }
bool hasBlocks(const SubdomainName &name) const
Test if the supplied block name is valid for this object.

◆ hasBlocks() [5/5]

bool BlockRestrictable::hasBlocks ( const std::set< SubdomainID > &  ids) const
inherited

Test if the supplied set of block ids are valid for this object.

Parameters
idsA std::set of SubdomainIDs to check
Returns
True if all of the given ids are found within the ids for this object
See also
isSubset

Definition at line 237 of file BlockRestrictable.C.

238 {
239  if (_blk_ids.empty() || _blk_ids.find(Moose::ANY_BLOCK_ID) != _blk_ids.end())
240  return true;
241  else
242  return std::includes(_blk_ids.begin(), _blk_ids.end(), ids.begin(), ids.end());
243 }
const SubdomainID ANY_BLOCK_ID
Definition: MooseTypes.C:19
std::set< SubdomainID > _blk_ids
Set of block ids supplied by the user via the input file (for error checking)

◆ 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)

◆ 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

◆ hasUserObject() [1/2]

bool UserObjectInterface::hasUserObject ( const std::string &  param_name) const
inherited
Returns
Whether or not a UserObject exists with the name given by the parameter param_name.

Definition at line 67 of file UserObjectInterface.C.

68 {
69  return hasUserObjectByName(getUserObjectName(param_name));
70 }
UserObjectName getUserObjectName(const std::string &param_name) const
bool hasUserObjectByName(const UserObjectName &object_name) const

◆ hasUserObject() [2/2]

template<class T >
bool UserObjectInterface::hasUserObject ( const std::string &  param_name) const
inherited

Definition at line 175 of file UserObjectInterface.h.

176 {
177  return hasUserObjectByName<T>(getUserObjectName(param_name));
178 }
UserObjectName getUserObjectName(const std::string &param_name) const

◆ hasUserObjectByName() [1/2]

bool UserObjectInterface::hasUserObjectByName ( const UserObjectName &  object_name) const
inherited

Definition at line 73 of file UserObjectInterface.C.

Referenced by UserObjectInterface::getUserObjectBase(), UserObjectInterface::getUserObjectBaseByName(), UserObjectInterface::hasUserObject(), and UserObjectInterface::hasUserObjectByName().

74 {
75  return _uoi_feproblem.hasUserObject(object_name);
76 }
bool hasUserObject(const std::string &name) const
Check if there if a user object of given name.
const FEProblemBase & _uoi_feproblem
Reference to the FEProblemBase instance.

◆ hasUserObjectByName() [2/2]

template<class T >
bool UserObjectInterface::hasUserObjectByName ( const UserObjectName &  object_name) const
inherited

Definition at line 182 of file UserObjectInterface.h.

183 {
184  if (!hasUserObjectByName(object_name))
185  return false;
186  return dynamic_cast<const T *>(&_uoi_feproblem.getUserObjectBase(object_name));
187 }
const FEProblemBase & _uoi_feproblem
Reference to the FEProblemBase instance.
const UserObject & getUserObjectBase(const std::string &name, const THREAD_ID tid=0) const
Get the user object by its name.
bool hasUserObjectByName(const UserObjectName &object_name) const

◆ 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.

◆ hasVectorTags()

bool TaggingInterface::hasVectorTags ( ) const
inlineinherited

Definition at line 93 of file TaggingInterface.h.

Referenced by Kernel::computeResidual().

93 { return !_vector_tags.empty(); }
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.

◆ initializeBlockRestrictable()

void BlockRestrictable::initializeBlockRestrictable ( const MooseObject moose_object)
protectedinherited

An initialization routine needed for dual constructors.

Definition at line 74 of file BlockRestrictable.C.

Referenced by BlockRestrictable::BlockRestrictable().

75 {
76  // If the mesh pointer is not defined, but FEProblemBase is, get it from there
77  if (_blk_feproblem != NULL && _blk_mesh == NULL)
79 
80  // Check that the mesh pointer was defined, it is required for this class to operate
81  if (_blk_mesh == NULL)
82  mooseError("The input parameters must contain a pointer to FEProblem via '_fe_problem' or a "
83  "pointer to the MooseMesh via '_mesh'");
84 
85  // Populate the MaterialData pointer
86  if (_blk_feproblem != NULL)
88 
89  // The 'block' input is defined
90  if (moose_object->isParamValid("block"))
91  {
92  // Extract the blocks from the input
93  _blocks = moose_object->getParam<std::vector<SubdomainName>>("block");
94 
95  // Store the IDs in a set, handling ANY_BLOCK_ID if supplied
96  if (std::find(_blocks.begin(), _blocks.end(), "ANY_BLOCK_ID") != _blocks.end())
98  else
99  {
100  // Get the IDs from the supplied names
102  _blk_ids.insert(_vec_ids.begin(), _vec_ids.end());
103  }
104  }
105 
106  // When 'blocks' is not set and there is a "variable", use the blocks from the variable
107  else if (moose_object->isParamValid("variable"))
108  {
109  std::string variable_name = moose_object->parameters().getMooseType("variable");
110  if (!variable_name.empty())
112  ->getVariable(_blk_tid,
113  variable_name,
116  .activeSubdomains();
117  }
118 
119  // Produce error if the object is not allowed to be both block and boundary restricted
120  if (!_blk_dual_restrictable && !_boundary_ids.empty() && !_boundary_ids.empty())
121  if (!_boundary_ids.empty() && _boundary_ids.find(Moose::ANY_BOUNDARY_ID) == _boundary_ids.end())
122  moose_object->paramError("block",
123  "Attempted to restrict the object '",
124  _blk_name,
125  "' to a block, but the object is already restricted by boundary");
126 
127  // If no blocks were defined above, specify that it is valid on all blocks
128  if (_blk_ids.empty() && !moose_object->isParamValid("boundary"))
129  {
131  _blocks = {"ANY_BLOCK_ID"};
132  }
133 
134  // If this object is block restricted, check that defined blocks exist on the mesh
135  if (_blk_ids.find(Moose::ANY_BLOCK_ID) == _blk_ids.end())
136  {
137  const std::set<SubdomainID> & valid_ids = _blk_mesh->meshSubdomains();
138  std::vector<SubdomainID> diff;
139 
140  std::set_difference(_blk_ids.begin(),
141  _blk_ids.end(),
142  valid_ids.begin(),
143  valid_ids.end(),
144  std::back_inserter(diff));
145 
146  if (!diff.empty())
147  {
148  std::ostringstream msg;
149  auto sep = " ";
150  msg << "the following blocks (ids) do not exist on the mesh:";
151  for (const auto & id : diff)
152  {
153  if (_blk_name.size() > 0)
154  {
155  auto & name =
156  _blocks.at(std::find(_vec_ids.begin(), _vec_ids.end(), id) - _vec_ids.begin());
157  if (std::to_string(id) != name)
158  msg << sep << name << " (" << id << ")";
159  else
160  msg << sep << id;
161  }
162  else
163  msg << sep << id;
164  sep = ", ";
165  }
166  moose_object->paramError("block", msg.str());
167  }
168  }
169 
170  // Get the mesh dimension for the blocks
171  if (blockRestricted())
173  else
175 }
std::string name(const ElemQuality q)
std::string getMooseType(const std::string &name) const
Utility functions for retrieving one of the MooseTypes variables into the common "string" base class...
unsigned int _blk_dim
Largest mesh dimension of the elements in the blocks for this object.
const bool _blk_dual_restrictable
Flag for allowing dual restriction.
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:284
MaterialData & getMaterialData(Moose::MaterialDataType type, const THREAD_ID tid=0)
FEProblemBase * _blk_feproblem
Pointer to FEProblemBase.
virtual bool blockRestricted() const
Returns true if this object has been restricted to a block.
bool isParamValid(const std::string &name) const
Test if the supplied parameter is valid.
std::vector< SubdomainID > _vec_ids
Vector of block ids supplied by the user via the input file (for error reporting) ...
virtual unsigned int dimension() const
Returns MeshBase::mesh_dimension(), (not MeshBase::spatial_dimension()!) of the underlying libMesh me...
Definition: MooseMesh.C:2678
const T & getParam(const std::string &name) const
Retrieve a parameter for the object.
THREAD_ID _blk_tid
Thread id for this object.
std::vector< SubdomainName > _blocks
Vector the block names supplied by the user via the input file.
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 ...
const SubdomainID ANY_BLOCK_ID
Definition: MooseTypes.C:19
unsigned int getBlocksMaxDimension(const std::vector< SubdomainName > &blocks) const
Returns the maximum element dimension on the given blocks.
Definition: MooseMesh.C:2699
const MaterialData * _blk_material_data
Pointer to the MaterialData class for this object.
virtual MooseMesh & mesh() override
const std::set< BoundaryID > & _boundary_ids
Reference to the boundary_ids, defaults to an empty set if not provided.
const InputParameters & parameters() const
Get the parameters of the object.
std::vector< SubdomainID > getSubdomainIDs(const std::vector< SubdomainName > &subdomain_name) const
Get the associated subdomainIDs for the subdomain names that are passed in.
Definition: MooseMesh.C:1519
std::set< SubdomainID > _blk_ids
Set of block ids supplied by the user via the input file (for error checking)
const std::string & _blk_name
Name of the object.
MooseMesh * _blk_mesh
Pointer to Mesh.
const BoundaryID ANY_BOUNDARY_ID
Definition: MooseTypes.C:23
const std::set< SubdomainID > & meshSubdomains() const
Returns a read-only reference to the set of subdomains currently present in the Mesh.
Definition: MooseMesh.C:2921

◆ initialSetup()

void SetupInterface::initialSetup ( )
virtualinherited

Gets called at the beginning of the simulation before this object is asked to do its job.

Reimplemented in SolutionUserObject, AdvancedOutput, MooseVariableBase, MultiApp, MooseParsedFunction, MooseParsedGradFunction, DerivativeFunctionMaterialBaseTempl< is_ad >, Transfer, ProjectedStatefulMaterialNodalPatchRecoveryTempl< T, is_ad >, CSV, Exodus, OversampleOutput, Terminator, MultiAppGeneralFieldTransfer, Axisymmetric2D3DSolutionFunction, LibtorchControlValuePostprocessor, MultiAppTransfer, Nemesis, RadialAverage, MooseParsedVectorFunction, ImageFunction, Console, PiecewiseConstantFromCSV, NodalVariableValue, MortarNodalAuxKernelTempl< ComputeValueType >, LibtorchArtificialNeuralNetParameters, TimePeriod, MatDiffusionBase< T >, TransientMultiApp, ElementalVariableValue, GhostingUserObject, InterfaceQpUserObjectBase, MatDiffusionBase< Real >, SolutionAux, MultiAppProjectionTransfer, HistogramVectorPostprocessor, SolutionScalarAux, MultiAppDofCopyTransfer, MultiAppGeneralFieldNearestLocationTransfer, CoarsenedPiecewiseLinear, PiecewiseTabularBase, MatReaction, SideIntegralMaterialPropertyTempl< is_ad >, SideIntegralPostprocessor, MultiAppVariableValueSamplePostprocessorTransfer, NodalPatchRecoveryMaterialProperty, ProjectedStatefulMaterialAuxTempl< T, is_ad >, PiecewiseLinear, FullSolveMultiApp, MultiAppFieldTransfer, MultiAppVariableValueSampleTransfer, PiecewiseLinearBase, MultiAppConservativeTransfer, MultiAppCloneReporterTransfer, MultiAppReporterTransfer, ElementSubdomainModifier, and DerivativeSumMaterialTempl< is_ad >.

Definition at line 40 of file SetupInterface.C.

Referenced by SideIntegralPostprocessor::initialSetup(), ElementalVariableValue::initialSetup(), LibtorchControlValuePostprocessor::initialSetup(), and Positions::meshChanged().

41 {
42 }

◆ isBlockSubset() [1/2]

bool BlockRestrictable::isBlockSubset ( const std::set< SubdomainID > &  ids) const
inherited

Test if the class block ids are a subset of the supplied objects.

Parameters
idsA std::set of Subdomains to check
Returns
True if all of the block ids for this class are found within the given ids (opposite of hasBlocks)
See also
hasBlocks

Definition at line 246 of file BlockRestrictable.C.

Referenced by BlockRestrictable::checkVariable(), BlockRestrictable::isBlockSubset(), NodalPatchRecoveryAux::NodalPatchRecoveryAux(), and ProjectedMaterialPropertyNodalPatchRecoveryAux::ProjectedMaterialPropertyNodalPatchRecoveryAux().

247 {
248  // An empty input is assumed to be ANY_BLOCK_ID
249  if (ids.empty() || ids.find(Moose::ANY_BLOCK_ID) != ids.end())
250  return true;
251 
252  if (_blk_ids.find(Moose::ANY_BLOCK_ID) != _blk_ids.end())
253  return std::includes(ids.begin(),
254  ids.end(),
255  _blk_mesh->meshSubdomains().begin(),
256  _blk_mesh->meshSubdomains().end());
257  else
258  return std::includes(ids.begin(), ids.end(), _blk_ids.begin(), _blk_ids.end());
259 }
const SubdomainID ANY_BLOCK_ID
Definition: MooseTypes.C:19
std::set< SubdomainID > _blk_ids
Set of block ids supplied by the user via the input file (for error checking)
MooseMesh * _blk_mesh
Pointer to Mesh.
const std::set< SubdomainID > & meshSubdomains() const
Returns a read-only reference to the set of subdomains currently present in the Mesh.
Definition: MooseMesh.C:2921

◆ isBlockSubset() [2/2]

bool BlockRestrictable::isBlockSubset ( const std::vector< SubdomainID > &  ids) const
inherited

Test if the class block ids are a subset of the supplied objects.

Parameters
idsA std::vector of Subdomains to check
Returns
True if all of the block ids for this class are found within the given ids (opposite of hasBlocks)
See also
hasBlocks

Definition at line 262 of file BlockRestrictable.C.

263 {
264  std::set<SubdomainID> ids_set(ids.begin(), ids.end());
265  return isBlockSubset(ids_set);
266 }
bool isBlockSubset(const std::set< SubdomainID > &ids) const
Test if the class block ids are a subset of the supplied objects.

◆ 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.

◆ isFunctor() [1/2]

bool FunctorInterface::isFunctor ( const std::string &  name) const
protectedinherited

Checks the subproblem for the given functor.

This will not query default functors potentially stored in this object, e.g. this method will return false if the user passed an int or real to the functor param in the input file

Parameters
nameThe name of the functor to check. This should match the functor parameter name, not the actual name of the functor created in the input file
Returns
Whether the subproblem has the specified functor

Definition at line 113 of file FunctorInterface.C.

114 {
115  mooseAssert(_fi_subproblem, "This must be non-null");
116  return isFunctor(name, *_fi_subproblem);
117 }
SubProblem *const _fi_subproblem
Pointer to subproblem if the subproblem pointer parameter was set.
bool isFunctor(const std::string &name) const
Checks the subproblem for the given functor.

◆ isFunctor() [2/2]

bool FunctorInterface::isFunctor ( const std::string &  name,
const SubProblem subproblem 
) const
protectedinherited

Checks the passed-in subproblem for the given functor.

This will not query default functors potentially stored in this object, e.g. this method will return false if the user passed an int or real to the functor param in the input file

Parameters
nameThe name of the functor to check. This should match the functor parameter name, not the actual name of the functor created in the input file
subproblemThe subproblem to query for the functor
Returns
Whether the subproblem has the specified functor

Definition at line 104 of file FunctorInterface.C.

105 {
106  // Check if the supplied parameter is a valid input parameter key
107  std::string functor_name = deduceFunctorName(name);
108 
109  return subproblem.hasFunctor(functor_name, _fi_tid);
110 }
bool hasFunctor(const std::string &name, const THREAD_ID tid) const
checks whether we have a functor corresponding to name on the thread id tid
Definition: SubProblem.C:1215
const THREAD_ID _fi_tid
Current threaded it.
static std::string deduceFunctorName(const std::string &name, const InputParameters &params)
Helper to look up a functor name through the input parameter keys.

◆ isImplicit()

bool TransientInterface::isImplicit ( )
inlineinherited

Definition at line 38 of file TransientInterface.h.

Referenced by ComputeJacobianThread::compute().

38 { return _is_implicit; }
bool _is_implicit
If the object is using implicit or explicit form.

◆ isMatrixTagged()

bool TaggingInterface::isMatrixTagged ( )
inlineinherited

Definition at line 91 of file TaggingInterface.h.

91 { return _matrix_tags.size() > 0; }
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.

◆ isNodal()

bool RandomInterface::isNodal ( ) const
inlineinherited

◆ isParamSetByUser()

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

◆ 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 111 of file MooseBaseParameterInterface.h.

Referenced by CopyNodalVarsAction::act(), SetupMeshAction::act(), SetupDebugAction::act(), ComposeTimeStepperAction::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(), OversampleOutput::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(), LowerDBlockFromSidesetGenerator::generate(), SubdomainPerElementGenerator::generate(), AddMetaDataGenerator::generate(), BreakBoundaryOnSubdomainGenerator::generate(), FileMeshGenerator::generate(), ParsedSubdomainMeshGenerator::generate(), BlockDeletionGenerator::generate(), GeneratedMeshGenerator::generate(), MeshExtruderGenerator::generate(), XYDelaunayGenerator::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(), 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(), SideSetsGeneratorBase::setup(), SetupMeshAction::setupMesh(), SideDiffusiveFluxIntegralTempl< is_ad, Real >::SideDiffusiveFluxIntegralTempl(), SideExtremeValue::SideExtremeValue(), SideSetsGeneratorBase::SideSetsGeneratorBase(), SolutionUserObject::SolutionUserObject(), Terminator::Terminator(), TimeIntervalTimes::TimeIntervalTimes(), TimePeriod::TimePeriod(), MultiAppDofCopyTransfer::transfer(), TransformGenerator::TransformGenerator(), VariableCondensationPreconditioner::VariableCondensationPreconditioner(), and VectorMagnitudeFunctorMaterialTempl< is_ad >::VectorMagnitudeFunctorMaterialTempl().

111 { 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.

◆ isVectorTagged()

bool TaggingInterface::isVectorTagged ( )
inlineinherited

Definition at line 89 of file TaggingInterface.h.

89 { return _vector_tags.size() > 0; }
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.

◆ jacobianSetup()

void SetupInterface::jacobianSetup ( )
virtualinherited

◆ makeElemArg()

Moose::ElemArg FunctorInterface::makeElemArg ( const Elem *  elem,
bool  correct_skewnewss = false 
) const
protectedinherited

◆ meshBlockIDs()

const std::set< SubdomainID > & BlockRestrictable::meshBlockIDs ( ) const
inherited

Return all of the SubdomainIDs for the mesh.

Returns
A set of all subdomians for the entire mesh

Definition at line 269 of file BlockRestrictable.C.

Referenced by BlockRestrictable::checkVariable(), ElementGroupCentroidPositions::ElementGroupCentroidPositions(), BlockRestrictable::getBlockCoordSystem(), BlockRestrictable::hasBlockMaterialPropertyHelper(), and SolutionIC::initialSetup().

270 {
271  return _blk_mesh->meshSubdomains();
272 }
MooseMesh * _blk_mesh
Pointer to Mesh.
const std::set< SubdomainID > & meshSubdomains() const
Returns a read-only reference to the set of subdomains currently present in the Mesh.
Definition: MooseMesh.C:2921

◆ meshChanged()

virtual void MeshChangedInterface::meshChanged ( )
inlinevirtualinherited

◆ mooseDeprecated()

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

Definition at line 67 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().

68  {
69  moose::internal::mooseDeprecatedStream(_console, false, true, std::forward<Args>(args)...);
70  }
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 29 of file MooseBaseErrorInterface.h.

Referenced by HierarchicalGridPartitioner::_do_partition(), PetscExternalPartitioner::_do_partition(), MultiAppGeneralFieldTransfer::acceptPointInOriginMesh(), SetupMeshCompleteAction::act(), InitProblemAction::act(), CheckFVBCAction::act(), CreateExecutionerAction::act(), AutoCheckpointAction::act(), AddICAction::act(), AddMeshGeneratorAction::act(), AddFVICAction::act(), CheckIntegrityAction::act(), AddVectorPostprocessorAction::act(), CreateProblemAction::act(), CreateProblemDefaultAction::act(), SetupMeshAction::act(), SplitMeshAction::act(), AdaptivityAction::act(), SetupTimeStepperAction::act(), SetupPredictorAction::act(), AddTimeStepperAction::act(), DeprecatedBlockAction::act(), SetAdaptivityOptionsAction::act(), CreateDisplacedProblemAction::act(), MaterialDerivativeTestAction::act(), AddPeriodicBCAction::act(), MaterialOutputAction::act(), CommonOutputAction::act(), Action::Action(), 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(), SideIntegralPostprocessor::errorNoFaceInfo(), SideIntegralFunctorPostprocessorTempl< is_ad >::errorNoFaceInfo(), SolutionUserObject::evalMeshFunction(), SolutionUserObject::evalMeshFunctionGradient(), SolutionUserObject::evalMultiValuedMeshFunction(), SolutionUserObject::evalMultiValuedMeshFunctionGradient(), MultiAppGeneralFieldTransfer::examineReceivedValueConflicts(), RestartableDataReporter::execute(), DiscreteElementUserObject::execute(), MultiAppPostprocessorToAuxScalarTransfer::execute(), NodalValueSampler::execute(), MultiAppScalarToAuxScalarTransfer::execute(), MultiAppPostprocessorInterpolationTransfer::execute(), MultiAppPostprocessorTransfer::execute(), ElementQualityChecker::execute(), PositionsFunctorValueSampler::execute(), PointValue::execute(), MultiAppVariableValueSampleTransfer::execute(), GreaterThanLessThanPostprocessor::execute(), MultiAppVariableValueSamplePostprocessorTransfer::execute(), FindValueOnLine::execute(), MultiAppNearestNodeTransfer::execute(), MultiAppCopyTransfer::execute(), MultiAppGeometricInterpolationTransfer::execute(), MultiAppUserObjectTransfer::execute(), InterfaceQpUserObjectBase::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(), ExtraIDIntegralVectorPostprocessor::ExtraIDIntegralVectorPostprocessor(), FileOutput::FileOutput(), QuadraturePointMultiApp::fillPositions(), CentroidMultiApp::fillPositions(), MultiApp::fillPositions(), MultiAppGeometricInterpolationTransfer::fillSourceInterpolationPoints(), VerifyNodalUniqueID::finalize(), VerifyElementUniqueID::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(), FileMeshGenerator::generate(), LowerDBlockFromSidesetGenerator::generate(), ExtraNodesetGenerator::generate(), MoveNodeGenerator::generate(), PlaneIDMeshGenerator::generate(), RenameBlockGenerator::generate(), RenameBoundaryGenerator::generate(), SideSetsFromNormalsGenerator::generate(), SmoothMeshGenerator::generate(), SubdomainPerElementGenerator::generate(), TiledMeshGenerator::generate(), BlockToMeshConverterGenerator::generate(), BreakMeshByBlockGenerator::generate(), GeneratedMeshGenerator::generate(), CoarsenBlockGenerator::generate(), CutMeshByPlaneGenerator::generate(), FlipSidesetGenerator::generate(), MeshRepairGenerator::generate(), SideSetsFromPointsGenerator::generate(), MeshDiagnosticsGenerator::generate(), CombinerGenerator::generate(), MeshCollectionGenerator::generate(), MeshExtruderGenerator::generate(), SideSetsFromBoundingBoxGenerator::generate(), StackGenerator::generate(), StitchedMeshGenerator::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(), GeneratedMesh::getMaxInDimension(), AnnularMesh::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(), VectorPostprocessorComponent::getValue(), NumRelationshipManagers::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(), DistributedPositions::initialize(), ReporterPositions::initialize(), TransformedPositions::initialize(), ElementGroupCentroidPositions::initialize(), FunctorPositions::initialize(), ReporterTimes::initialize(), FunctorTimes::initialize(), MultiAppCloneReporterTransfer::initialSetup(), SolutionIC::initialSetup(), MultiAppConservativeTransfer::initialSetup(), IntegralPreservingFunctionIC::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(), MooseObject::MooseObject(), 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(), 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().

30  {
31  std::ostringstream oss;
32  moose::internal::mooseStreamAll(oss, std::forward<Args>(args)...);
33  _moose_base.callMooseError(oss.str(), /* with_prefix = */ true);
34  }
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
const MooseBase & _moose_base
The MooseBase class deriving from this interface.
void callMooseError(std::string msg, const bool with_prefix) const
Calls moose error with the message msg.
Definition: MooseBase.C:33

◆ mooseErrorNonPrefixed()

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

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

Definition at line 40 of file MooseBaseErrorInterface.h.

41  {
42  std::ostringstream oss;
43  moose::internal::mooseStreamAll(oss, std::forward<Args>(args)...);
44  _moose_base.callMooseError(oss.str(), /* with_prefix = */ false);
45  }
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
const MooseBase & _moose_base
The MooseBase class deriving from this interface.
void callMooseError(std::string msg, const bool with_prefix) const
Calls moose error with the message msg.
Definition: MooseBase.C:33

◆ 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 51 of file MooseBaseErrorInterface.h.

Referenced by AddKernelAction::act(), SetupMeshAction::act(), MeshOnlyAction::act(), AddFunctionAction::act(), MaterialOutputAction::act(), CommonOutputAction::act(), DiracKernelBase::addPoint(), BoundaryMarker::BoundaryMarker(), BoundsBase::BoundsBase(), DistributedRectilinearMeshGenerator::buildCube(), MultiAppVariableValueSamplePostprocessorTransfer::cacheElemToPostprocessorData(), CartesianMeshGenerator::CartesianMeshGenerator(), CheckOutputAction::checkConsoleOutput(), MultiAppTransfer::checkMultiAppExecuteOn(), PhysicsBase::checkRequiredTasks(), OversampleOutput::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(), CartesianGridDivision::initialize(), SphericalGridDivision::initialize(), ElementGroupCentroidPositions::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().

52  {
54  _console, _moose_base.errorPrefix("warning"), std::forward<Args>(args)...);
55  }
std::string errorPrefix(const std::string &error_type) const
Definition: MooseBase.C:43
void mooseWarningStream(S &oss, Args &&... args)
Definition: MooseError.h:181
const MooseBase & _moose_base
The MooseBase class deriving from this interface.
const ConsoleStream _console
An instance of helper class to write streams to the Console objects.

◆ mooseWarningNonPrefixed()

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

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

Definition at line 61 of file MooseBaseErrorInterface.h.

62  {
63  moose::internal::mooseWarningStream(_console, std::forward<Args>(args)...);
64  }
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 57 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(), MooseApp::addExecutor(), MooseApp::addExecutorParams(), 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(), MooseApp::addMeshGenerator(), 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(), MooseApp::appBinaryName(), MooseApp::appendMeshGenerator(), MultiApp::appPostprocessorValue(), MultiApp::appProblem(), MultiApp::appProblemBase(), MultiApp::appUserObjectBase(), ArrayDGKernel::ArrayDGKernel(), ArrayParsedAux::ArrayParsedAux(), AStableDirk4::AStableDirk4(), AuxKernelTempl< Real >::AuxKernelTempl(), Function::average(), MultiApp::backup(), Moose::Builder::build(), CoarsenedPiecewiseLinear::buildCoarsenedGrid(), PiecewiseTabularBase::buildFromFile(), MultiAppVariableValueSamplePostprocessorTransfer::cacheElemToPostprocessorData(), MooseBase::callMooseError(), ChangeOverFixedPointPostprocessor::ChangeOverFixedPointPostprocessor(), ChangeOverTimePostprocessor::ChangeOverTimePostprocessor(), FEProblemBase::checkDependMaterialsHelper(), ReporterTransferInterface::checkHasReporterValue(), FEProblemBase::checkICRestartError(), Material::checkMaterialProperty(), MooseApp::checkMetaDataIntegrity(), Damper::checkMinDamping(), FEProblemBase::checkNonlinearConvergence(), Coupleable::checkWritableVar(), CompositeFunction::CompositeFunction(), MaterialBase::computeProperties(), FEProblemBase::computeUserObjectByName(), VectorPostprocessorVisualizationAux::computeValue(), MooseBaseParameterInterface::connectControllableParams(), BatchMaterial< Tuple, Output, Input >::construct(), MultiApp::createApp(), MooseApp::createExecutors(), AddVariableAction::createInitialConditionAction(), MultiApp::createLocalApp(), MeshGeneratorSystem::createMeshGeneratorOrder(), MooseApp::createRecoverablePerfGraph(), 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(), MooseBase::errorPrefix(), SolutionUserObject::evalMeshFunction(), SolutionUserObject::evalMeshFunctionGradient(), SolutionUserObject::evalMultiValuedMeshFunction(), SolutionUserObject::evalMultiValuedMeshFunctionGradient(), RestartableDataReporter::execute(), PointValue::execute(), MultiAppNearestNodeTransfer::execute(), ActionWarehouse::executeActionsWithAction(), Exodus::Exodus(), ExtraIDIntegralVectorPostprocessor::ExtraIDIntegralVectorPostprocessor(), MultiApp::fillPositions(), PointSamplerBase::finalize(), FunctionDT::FunctionDT(), FVFunctionIC::functionName(), FunctionIC::functionName(), FunctorPositions::FunctorPositions(), FunctorSmootherTempl< T >::FunctorSmootherTempl(), FVOneVarDiffusionInterface::FVOneVarDiffusionInterface(), MooseServer::gatherDocumentSymbols(), BoundaryDeletionGenerator::generate(), RenameBlockGenerator::generate(), RenameBoundaryGenerator::generate(), BreakMeshByBlockGenerator::generate(), GeneratedMeshGenerator::generate(), ParsedSubdomainMeshGenerator::generate(), StitchedMeshGenerator::generate(), XYDelaunayGenerator::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(), MooseApp::getExecutor(), 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(), MooseApp::getMeshGenerator(), MeshGenerator::getMeshGeneratorNameFromParam(), MeshGenerator::getMeshGeneratorNamesFromParam(), ActionWarehouse::getMooseAppName(), MultiAppTransfer::getMultiApp(), InterfaceMaterial::getNeighborADMaterialProperty(), InterfaceMaterial::getNeighborMaterialProperty(), InterfaceMaterial::getNeighborMaterialPropertyOld(), InterfaceMaterial::getNeighborMaterialPropertyOlder(), MooseServer::getObjectParameters(), Material::getOptionalADMaterialProperty(), Material::getOptionalMaterialProperty(), Material::getOptionalMaterialPropertyOld(), Material::getOptionalMaterialPropertyOlder(), OutputWarehouse::getOutput(), MooseApp::getParam(), FEProblemBase::getPositionsObject(), FEProblemBase::getPostprocessorValueByName(), ReporterData::getReporterInfo(), MooseApp::getRestartableDataMap(), MooseApp::getRestartableDataMapName(), MooseApp::getRestartableMetaData(), FEProblemBase::getSampler(), Transient::getTimeStepperName(), ProjectedStatefulMaterialStorageAction::getTypeEnum(), FEProblemBase::getUserObject(), FEProblemBase::getUserObjectBase(), Terminator::handleMessage(), FEProblemBase::hasFunction(), SubProblem::hasFunctor(), SubProblem::hasFunctorWithType(), MooseApp::hasMeshGenerator(), AdvancedOutput::hasOutputHelper(), FEProblemBase::hasPostprocessor(), FEProblemBase::hasPostprocessorValueByName(), MooseApp::hasRelationshipManager(), MooseApp::hasRestartableDataMap(), MooseApp::hasRestartableMetaData(), FEProblemBase::hasUserObject(), IterationAdaptiveDT::init(), AdvancedOutput::init(), FEProblemBase::init(), AdvancedOutput::initExecutionTypes(), AttribName::initFrom(), NestedDivision::initialize(), TransformedPositions::initialize(), SolutionScalarAux::initialSetup(), MultiAppProjectionTransfer::initialSetup(), NodalVariableValue::initialSetup(), Console::initialSetup(), SolutionUserObject::initialSetup(), AdvancedOutput::initOutputList(), AdvancedOutput::initPostprocessorOrVectorPostprocessorLists(), MaterialBase::initStatefulProperties(), Function::integral(), InterfaceKernelTempl< T >::InterfaceKernelTempl(), MeshGenerator::isChildMeshGenerator(), MeshGenerator::isNullMeshName(), MooseApp::isParamValid(), MeshGenerator::isParentMeshGenerator(), LinearCombinationFunction::LinearCombinationFunction(), FEProblemBase::logAdd(), Marker::Marker(), MatDiffusionBase< Real >::MatDiffusionBase(), Material::Material(), MaterialDerivativeTestKernelBase< Real >::MaterialDerivativeTestKernelBase(), MaterialVectorPostprocessor::MaterialVectorPostprocessor(), Distribution::median(), MemoryUsageReporter::MemoryUsageReporter(), MeshGenerator::meshPropertyPrefix(), MooseApp::MooseApp(), OutputWarehouse::mooseConsole(), MooseVariableInterface< Real >::MooseVariableInterface(), MultiAppGeneralFieldTransfer::MultiAppGeneralFieldTransfer(), MultiAppUserObjectTransfer::MultiAppUserObjectTransfer(), NodalPatchRecoveryAuxBase::NodalPatchRecoveryAuxBase(), NodalValueSampler::NodalValueSampler(), PhysicsBase::nonlinearVariableExists(), Registry::objData(), 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(), MooseServer::parseDocumentForDiagnostics(), ParsedODEKernel::ParsedODEKernel(), ParsedSubdomainMeshGenerator::ParsedSubdomainMeshGenerator(), PiecewiseBilinear::PiecewiseBilinear(), PiecewiseByBlockFunctorMaterialTempl< T >::PiecewiseByBlockFunctorMaterialTempl(), PointVariableSamplerBase::PointVariableSamplerBase(), MooseApp::possiblyLoadRestartableMetaData(), PhysicsBase::prefix(), PerfGraphLivePrint::printStats(), MultiApp::readCommandLineArguments(), Receiver::Receiver(), Executor::Result::record(), Registry::registerObjectsTo(), FEProblemBase::registerRandomInterface(), MooseApp::registerRestartableDataMapName(), MooseApp::registerRestartableNameWithFilter(), GlobalParamsAction::remove(), MaterialBase::resetQpProperties(), MultiApp::restore(), MooseApp::runInputFile(), 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(), SideSetsGeneratorBase::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(), to_json(), 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(), Coupleable::writableVariable(), Console::write(), and MooseApp::writeRestartableMetaData().

57 { return _name; }
const std::string _name
The name of this class.
Definition: MooseBase.h:90

◆ numBlocks()

unsigned int BlockRestrictable::numBlocks ( ) const
inherited

Return the number of blocks for this object.

Returns
The number of subdomains

Definition at line 199 of file BlockRestrictable.C.

Referenced by ElementCentroidPositions::initialize().

200 {
201  return (unsigned int)_blk_ids.size();
202 }
std::set< SubdomainID > _blk_ids
Set of block ids supplied by the user via the input file (for error checking)

◆ 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 237 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(), FillBetweenSidesetsGenerator::generate(), PlaneIDMeshGenerator::generate(), RenameBlockGenerator::generate(), RenameBoundaryGenerator::generate(), AddMetaDataGenerator::generate(), FillBetweenCurvesGenerator::generate(), BlockToMeshConverterGenerator::generate(), BreakBoundaryOnSubdomainGenerator::generate(), CutMeshByPlaneGenerator::generate(), FlipSidesetGenerator::generate(), GeneratedMeshGenerator::generate(), ParsedSubdomainMeshGenerator::generate(), CoarsenBlockGenerator::generate(), RefineBlockGenerator::generate(), RefineSidesetGenerator::generate(), BlockDeletionGenerator::generate(), BreakMeshByBlockGenerator::generate(), CombinerGenerator::generate(), MeshCollectionGenerator::generate(), MeshExtruderGenerator::generate(), ParsedCurveGenerator::generate(), StackGenerator::generate(), StitchedMeshGenerator::generate(), AdvancedExtruderGenerator::generate(), BreakMeshByElementGenerator::generate(), CircularBoundaryCorrectionGenerator::generate(), XYDelaunayGenerator::generate(), XYMeshLineCutter::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(), 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(), SideSetsGeneratorBase::setup(), TimeSequenceStepperBase::setupSequence(), SideSetsFromBoundingBoxGenerator::SideSetsFromBoundingBoxGenerator(), 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().

238 {
239  Moose::show_trace = false;
240  _moose_base.callMooseError(paramErrorMsg(param, std::forward<Args>(args)...),
241  /* with_prefix = */ false);
242  Moose::show_trace = true;
243 }
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
const MooseBase & _moose_base
The MooseBase object that inherits this class.
std::string paramErrorMsg(const std::string &param, Args... args) const
void callMooseError(std::string msg, const bool with_prefix) const
Calls moose error with the message msg.
Definition: MooseBase.C:33

◆ parameters()

const InputParameters& MooseBaseParameterInterface::parameters ( ) const
inlineinherited

Get the parameters of the object.

Returns
The parameters of the object

Definition at line 62 of file MooseBaseParameterInterface.h.

Referenced by SetupDebugAction::act(), CommonOutputAction::act(), Action::Action(), FEProblemBase::addAnyRedistributers(), 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(), Action::associateWithParameter(), AuxKernelTempl< Real >::AuxKernelTempl(), AuxScalarKernel::AuxScalarKernel(), BoundsBase::BoundsBase(), MooseMesh::buildTypedMesh(), UserObjectInterface::castUserObject(), PostprocessorInterface::checkParam(), PhysicsBase::checkSecondParamSetOnlyIfFirstOneTrue(), OversampleOutput::cloneMesh(), Moose::compute_bounds(), Moose::compute_jacobian(), Moose::compute_nearnullspace(), Moose::compute_nullspace(), Moose::compute_postcheck(), Moose::compute_transpose_nullspace(), LibtorchNeuralNetControl::conditionalParameterError(), Console::Console(), CommonOutputAction::create(), 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(), MooseBaseParameterInterface::getCheckedPointerParam(), ActionWarehouse::getCurrentActionName(), 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(), MooseObject::MooseObject(), 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(), SideSetsGeneratorBase::setup(), SideSetsFromBoundingBoxGenerator::SideSetsFromBoundingBoxGenerator(), SteffensenSolve::SteffensenSolve(), DumpObjectsProblem::stringifyParameters(), TaggingInterface::TaggingInterface(), Transfer::Transfer(), Transient::Transient(), VectorBodyForce::VectorBodyForce(), VectorFunctionDirichletBC::VectorFunctionDirichletBC(), VectorFunctionIC::VectorFunctionIC(), and VectorMagnitudeFunctorMaterialTempl< is_ad >::VectorMagnitudeFunctorMaterialTempl().

62 { 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 254 of file MooseBaseParameterInterface.h.

Referenced by TransientMultiApp::TransientMultiApp().

255 {
256  mooseInfo(paramErrorMsg(param, std::forward<Args>(args)...));
257 }
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 247 of file MooseBaseParameterInterface.h.

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

248 {
249  mooseWarning(paramErrorMsg(param, std::forward<Args>(args)...));
250 }
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

◆ precalculateJacobian()

virtual void ResidualObject::precalculateJacobian ( )
inlineprotectedvirtualinherited

◆ precalculateOffDiagJacobian()

virtual void ResidualObject::precalculateOffDiagJacobian ( unsigned  int)
inlineprotectedvirtualinherited

◆ precalculateResidual()

virtual void ResidualObject::precalculateResidual ( )
inlineprotectedvirtualinherited

◆ prepareMatrixTag() [1/2]

void TaggingInterface::prepareMatrixTag ( Assembly assembly,
unsigned int  ivar,
unsigned int  jvar 
)
protectedinherited

Prepare data for computing element jacobian according to the active tags.

Jacobian blocks for different tags will be extracted from Assembly. A local Jacobian will be zeroed. It should be called right before the local element matrix is computed.

Definition at line 276 of file TaggingInterface.C.

Referenced by DGKernel::computeElemNeighJacobian(), ArrayDGKernel::computeElemNeighJacobian(), ScalarKernel::computeJacobian(), TimeDerivative::computeJacobian(), VectorTimeDerivative::computeJacobian(), MassLumpedTimeDerivative::computeJacobian(), VectorKernel::computeJacobian(), ODEKernel::computeJacobian(), Kernel::computeJacobian(), ArrayKernel::computeJacobian(), VectorIntegratedBC::computeJacobian(), IntegratedBC::computeJacobian(), ArrayIntegratedBC::computeJacobian(), EigenKernel::computeJacobian(), NodalEqualValueConstraint::computeJacobian(), NonlocalIntegratedBC::computeJacobian(), KernelGrad::computeJacobian(), KernelValue::computeJacobian(), NonlocalKernel::computeJacobian(), DGKernel::computeOffDiagElemNeighJacobian(), ArrayDGKernel::computeOffDiagElemNeighJacobian(), VectorKernel::computeOffDiagJacobian(), Kernel::computeOffDiagJacobian(), ArrayKernel::computeOffDiagJacobian(), EigenKernel::computeOffDiagJacobian(), VectorIntegratedBC::computeOffDiagJacobian(), IntegratedBC::computeOffDiagJacobian(), ArrayIntegratedBC::computeOffDiagJacobian(), NonlocalIntegratedBC::computeOffDiagJacobian(), NonlocalKernel::computeOffDiagJacobian(), KernelValue::computeOffDiagJacobian(), KernelGrad::computeOffDiagJacobian(), ODEKernel::computeOffDiagJacobianScalar(), VectorKernel::computeOffDiagJacobianScalar(), ArrayKernel::computeOffDiagJacobianScalar(), VectorIntegratedBC::computeOffDiagJacobianScalar(), IntegratedBC::computeOffDiagJacobianScalar(), Kernel::computeOffDiagJacobianScalar(), ArrayIntegratedBC::computeOffDiagJacobianScalar(), ScalarLagrangeMultiplier::computeOffDiagJacobianScalar(), and ConservativeAdvection::fullUpwind().

277 {
278  _ke_blocks.resize(_matrix_tags.size());
279  mooseAssert(_matrix_tags.size() >= 1, "we need at least one active tag");
280  auto mat_vector = _matrix_tags.begin();
281  for (MooseIndex(_matrix_tags) i = 0; i < _matrix_tags.size(); i++, ++mat_vector)
282  _ke_blocks[i] = &assembly.jacobianBlock(ivar, jvar, Assembly::LocalDataKey{}, *mat_vector);
283 
284  _local_ke.resize(_ke_blocks[0]->m(), _ke_blocks[0]->n());
285 }
DenseMatrix< Number > & jacobianBlock(unsigned int ivar, unsigned int jvar, LocalDataKey, TagID tag)
Get local Jacobian block for a pair of variables and a tag.
Definition: Assembly.h:1092
DenseMatrix< Number > _local_ke
Holds local Jacobian entries as they are accumulated by this Kernel.
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
void resize(const unsigned int new_m, const unsigned int new_n)
std::vector< DenseMatrix< Number > * > _ke_blocks
Kernel blocks Vectors For each Tag.
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ prepareMatrixTag() [2/2]

void TaggingInterface::prepareMatrixTag ( Assembly assembly,
unsigned int  ivar,
unsigned int  jvar,
DenseMatrix< Number > &  k 
) const
protectedinherited

Definition at line 288 of file TaggingInterface.C.

292 {
293  mooseAssert(!_matrix_tags.empty(), "No matrix tags exist");
294  const auto & ij_mat =
295  assembly.jacobianBlock(ivar, jvar, Assembly::LocalDataKey{}, *_matrix_tags.begin());
296  k.resize(ij_mat.m(), ij_mat.n());
297 }
DenseMatrix< Number > & jacobianBlock(unsigned int ivar, unsigned int jvar, LocalDataKey, TagID tag)
Get local Jacobian block for a pair of variables and a tag.
Definition: Assembly.h:1092
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
void resize(const unsigned int new_m, const unsigned int new_n)
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ prepareMatrixTagLower()

void TaggingInterface::prepareMatrixTagLower ( Assembly assembly,
unsigned int  ivar,
unsigned int  jvar,
Moose::ConstraintJacobianType  type 
)
protectedinherited

Prepare data for computing the jacobian according to the active tags for mortar.

Jacobian blocks for different tags will be extracted from Assembly. A local Jacobian will be zeroed. It should be called right before the local element matrix is computed.

Definition at line 344 of file TaggingInterface.C.

Referenced by MortarConstraint::computeJacobian(), LowerDIntegratedBC::computeLowerDJacobian(), ArrayLowerDIntegratedBC::computeLowerDJacobian(), DGLowerDKernel::computeLowerDJacobian(), ArrayDGLowerDKernel::computeLowerDJacobian(), LowerDIntegratedBC::computeLowerDOffDiagJacobian(), ArrayLowerDIntegratedBC::computeLowerDOffDiagJacobian(), DGLowerDKernel::computeOffDiagLowerDJacobian(), and ArrayDGLowerDKernel::computeOffDiagLowerDJacobian().

348 {
349  _ke_blocks.resize(_matrix_tags.size());
350  mooseAssert(_matrix_tags.size() >= 1, "we need at least one active tag");
351  auto mat_vector = _matrix_tags.begin();
352  for (MooseIndex(_matrix_tags) i = 0; i < _matrix_tags.size(); i++, ++mat_vector)
353  _ke_blocks[i] =
354  &assembly.jacobianBlockMortar(type, ivar, jvar, Assembly::LocalDataKey{}, *mat_vector);
355 
356  _local_ke.resize(_ke_blocks[0]->m(), _ke_blocks[0]->n());
357 }
DenseMatrix< Number > _local_ke
Holds local Jacobian entries as they are accumulated by this Kernel.
DenseMatrix< Number > & jacobianBlockMortar(Moose::ConstraintJacobianType type, unsigned int ivar, unsigned int jvar, LocalDataKey, TagID tag)
Returns the jacobian block for the given mortar Jacobian type.
Definition: Assembly.C:3149
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
void resize(const unsigned int new_m, const unsigned int new_n)
std::vector< DenseMatrix< Number > * > _ke_blocks
Kernel blocks Vectors For each Tag.
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ prepareMatrixTagNeighbor() [1/2]

void TaggingInterface::prepareMatrixTagNeighbor ( Assembly assembly,
unsigned int  ivar,
unsigned int  jvar,
Moose::DGJacobianType  type 
)
protectedinherited

Prepare data for computing element jacobian according to the active tags for DG and interface kernels.

Jacobian blocks for different tags will be extracted from Assembly. A local Jacobian will be zeroed. It should be called right before the local element matrix is computed.

Definition at line 315 of file TaggingInterface.C.

Referenced by DGKernel::computeElemNeighJacobian(), ElemElemConstraint::computeElemNeighJacobian(), ArrayDGKernel::computeElemNeighJacobian(), NodeElemConstraint::computeJacobian(), NodeFaceConstraint::computeJacobian(), DGKernel::computeOffDiagElemNeighJacobian(), ArrayDGKernel::computeOffDiagElemNeighJacobian(), NodeElemConstraint::computeOffDiagJacobian(), and NodeFaceConstraint::computeOffDiagJacobian().

319 {
320  _ke_blocks.resize(_matrix_tags.size());
321  mooseAssert(_matrix_tags.size() >= 1, "we need at least one active tag");
322  auto mat_vector = _matrix_tags.begin();
323  for (MooseIndex(_matrix_tags) i = 0; i < _matrix_tags.size(); i++, ++mat_vector)
324  _ke_blocks[i] =
325  &assembly.jacobianBlockNeighbor(type, ivar, jvar, Assembly::LocalDataKey{}, *mat_vector);
326 
327  _local_ke.resize(_ke_blocks[0]->m(), _ke_blocks[0]->n());
328 }
DenseMatrix< Number > & jacobianBlockNeighbor(Moose::DGJacobianType type, unsigned int ivar, unsigned int jvar, LocalDataKey, TagID tag)
Get local Jacobian block of a DG Jacobian type for a pair of variables and a tag. ...
Definition: Assembly.C:3108
DenseMatrix< Number > _local_ke
Holds local Jacobian entries as they are accumulated by this Kernel.
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
void resize(const unsigned int new_m, const unsigned int new_n)
std::vector< DenseMatrix< Number > * > _ke_blocks
Kernel blocks Vectors For each Tag.
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ prepareMatrixTagNeighbor() [2/2]

void TaggingInterface::prepareMatrixTagNeighbor ( Assembly assembly,
unsigned int  ivar,
unsigned int  jvar,
Moose::DGJacobianType  type,
DenseMatrix< Number > &  k 
) const
protectedinherited

Definition at line 331 of file TaggingInterface.C.

336 {
337  mooseAssert(!_matrix_tags.empty(), "No matrix tags exist");
338  const auto & ij_mat = assembly.jacobianBlockNeighbor(
339  type, ivar, jvar, Assembly::LocalDataKey{}, *_matrix_tags.begin());
340  k.resize(ij_mat.m(), ij_mat.n());
341 }
DenseMatrix< Number > & jacobianBlockNeighbor(Moose::DGJacobianType type, unsigned int ivar, unsigned int jvar, LocalDataKey, TagID tag)
Get local Jacobian block of a DG Jacobian type for a pair of variables and a tag. ...
Definition: Assembly.C:3108
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
void resize(const unsigned int new_m, const unsigned int new_n)
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ prepareMatrixTagNonlocal()

void TaggingInterface::prepareMatrixTagNonlocal ( Assembly assembly,
unsigned int  ivar,
unsigned int  jvar 
)
protectedinherited

Prepare data for computing nonlocal element jacobian according to the active tags.

Jacobian blocks for different tags will be extracted from Assembly. A nonlocal Jacobian will be zeroed. It should be called right before the nonlocal element matrix is computed.

Definition at line 300 of file TaggingInterface.C.

Referenced by NonlocalIntegratedBC::computeNonlocalJacobian(), NonlocalKernel::computeNonlocalJacobian(), NonlocalKernel::computeNonlocalOffDiagJacobian(), and NonlocalIntegratedBC::computeNonlocalOffDiagJacobian().

303 {
304  _ke_blocks.resize(_matrix_tags.size());
305  mooseAssert(_matrix_tags.size() >= 1, "we need at least one active tag");
306  auto mat_vector = _matrix_tags.begin();
307  for (MooseIndex(_matrix_tags) i = 0; i < _matrix_tags.size(); i++, ++mat_vector)
308  _ke_blocks[i] =
309  &assembly.jacobianBlockNonlocal(ivar, jvar, Assembly::LocalDataKey{}, *mat_vector);
310 
311  _nonlocal_ke.resize(_ke_blocks[0]->m(), _ke_blocks[0]->n());
312 }
DenseMatrix< Number > & jacobianBlockNonlocal(unsigned int ivar, unsigned int jvar, LocalDataKey, TagID tag)
Get local Jacobian block from non-local contribution for a pair of variables and a tag...
Definition: Assembly.h:1103
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
void resize(const unsigned int new_m, const unsigned int new_n)
std::vector< DenseMatrix< Number > * > _ke_blocks
Kernel blocks Vectors For each Tag.
DenseMatrix< Number > _nonlocal_ke
Holds nonlocal Jacobian entries as they are accumulated by this Kernel.
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ prepareShapes()

void ResidualObject::prepareShapes ( unsigned int  var_num)
virtualinherited

Prepare shape functions.

Parameters
var_numThe variable number whose shape functions should be prepared

Reimplemented in DGKernelBase, InterfaceKernelBase, and IntegratedBCBase.

Definition at line 60 of file ResidualObject.C.

Referenced by ComputeJacobianThread::compute(), ComputeFullJacobianThread::computeOnElement(), and Kernel::computeResidualAndJacobian().

61 {
62  _subproblem.prepareShapes(var_num, _tid);
63 }
virtual void prepareShapes(unsigned int var, const THREAD_ID tid)=0
THREAD_ID _tid
The thread ID for this kernel.
SubProblem & _subproblem
Reference to this kernel&#39;s SubProblem.

◆ prepareVectorTag() [1/2]

void TaggingInterface::prepareVectorTag ( Assembly assembly,
unsigned int  ivar 
)
protectedinherited

Prepare data for computing element residual according to active tags.

Residual blocks for different tags will be extracted from Assembly. A local residual will be zeroed. It should be called right before the local element vector is computed.

Definition at line 189 of file TaggingInterface.C.

Referenced by FVInterfaceKernel::addResidual(), ADDGKernel::computeElemNeighResidual(), DGKernel::computeElemNeighResidual(), ElemElemConstraint::computeElemNeighResidual(), ArrayDGKernel::computeElemNeighResidual(), ScalarKernel::computeResidual(), Kernel::computeResidual(), VectorKernel::computeResidual(), ArrayKernel::computeResidual(), TimeKernel::computeResidual(), ODETimeKernel::computeResidual(), ODEKernel::computeResidual(), ADScalarKernel::computeResidual(), VectorTimeKernel::computeResidual(), IntegratedBC::computeResidual(), VectorIntegratedBC::computeResidual(), EigenKernel::computeResidual(), ArrayIntegratedBC::computeResidual(), NodalEqualValueConstraint::computeResidual(), ADMortarConstraint::computeResidual(), FVScalarLagrangeMultiplierConstraint::computeResidual(), FVFluxBC::computeResidual(), FVBoundaryScalarLagrangeMultiplierConstraint::computeResidual(), MortarConstraint::computeResidual(), KernelGrad::computeResidual(), KernelValue::computeResidual(), FVElementalKernel::computeResidual(), NodeElemConstraint::computeResidual(), FVFluxKernel::computeResidual(), NodeFaceConstraint::computeResidual(), and ConservativeAdvection::fullUpwind().

190 {
192 }
std::set< TagID > _abs_vector_tags
The absolute value residual tag ids.
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.
void prepareVectorTagInternal(Assembly &assembly, unsigned int ivar, const std::set< TagID > &vector_tags, const std::set< TagID > &absolute_value_vector_tags)
Prepare data for computing element residual according to the specified tags Residual blocks for diffe...

◆ prepareVectorTag() [2/2]

void TaggingInterface::prepareVectorTag ( Assembly assembly,
unsigned int  ivar,
ResidualTagType  tag_type 
)
protectedinherited

Prepare vector tags in a reference residual problem context.

Parameters
AssemblyThe assembly object that we obtain the local residual blocks from
ivarThe variable which we are retrieving the local residual blocks for
ref_problemA pointer to a reference residual problem. This can be a nullptr
tag_typeWhat type of tags to prepare

Definition at line 195 of file TaggingInterface.C.

198 {
199  if (tag_type == ResidualTagType::NonReference)
201  else
203 }
std::set< TagID > _ref_abs_vector_tags
A set of either size 1 or 0.
std::set< TagID > _ref_vector_tags
A set of either size 1 or 0.
std::set< TagID > _non_ref_abs_vector_tags
A set to hold absolute value vector tags excluding the reference residual tag.
std::set< TagID > _non_ref_vector_tags
A set to hold vector tags excluding the reference residual tag.
void prepareVectorTagInternal(Assembly &assembly, unsigned int ivar, const std::set< TagID > &vector_tags, const std::set< TagID > &absolute_value_vector_tags)
Prepare data for computing element residual according to the specified tags Residual blocks for diffe...

◆ prepareVectorTagLower()

void TaggingInterface::prepareVectorTagLower ( Assembly assembly,
unsigned int  ivar 
)
protectedinherited

Prepare data for computing the residual according to active tags for mortar constraints.

Residual blocks for different tags will be extracted from Assembly. A local residual will be zeroed. It should be called right before the local element vector is computed.

Definition at line 254 of file TaggingInterface.C.

Referenced by DGLowerDKernel::computeLowerDResidual(), ArrayDGLowerDKernel::computeLowerDResidual(), LowerDIntegratedBC::computeResidual(), ArrayLowerDIntegratedBC::computeResidual(), ADMortarConstraint::computeResidual(), and MortarConstraint::computeResidual().

255 {
256  _re_blocks.resize(_vector_tags.size());
257  mooseAssert(_vector_tags.size() >= 1, "we need at least one active tag");
258  auto vector_tag = _vector_tags.begin();
259  for (MooseIndex(_vector_tags) i = 0; i < _vector_tags.size(); i++, ++vector_tag)
260  {
261  const VectorTag & tag = _subproblem.getVectorTag(*vector_tag);
262  _re_blocks[i] = &assembly.residualBlockLower(ivar, Assembly::LocalDataKey{}, tag._type_id);
263  }
264  _local_re.resize(_re_blocks[0]->size());
265 
266  _absre_blocks.resize(_abs_vector_tags.size());
267  vector_tag = _abs_vector_tags.begin();
268  for (MooseIndex(_abs_vector_tags) i = 0; i < _abs_vector_tags.size(); i++, ++vector_tag)
269  {
270  const VectorTag & tag = _subproblem.getVectorTag(*vector_tag);
272  }
273 }
SubProblem & _subproblem
SubProblem that contains tag info.
void resize(const unsigned int n)
TagTypeID _type_id
The index for this tag into a vector that contains tags of only its type ordered by ID...
Definition: VectorTag.h:45
std::vector< DenseVector< Number > * > _absre_blocks
Residual blocks for absolute value residual tags.
std::vector< DenseVector< Number > * > _re_blocks
Residual blocks Vectors For each Tag.
std::set< TagID > _abs_vector_tags
The absolute value residual tag ids.
DenseVector< Number > & residualBlockLower(unsigned int var_num, LocalDataKey, TagID tag_id)
Get residual block for lower.
Definition: Assembly.h:1083
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.
DenseVector< Number > _local_re
Holds local residual entries as they are accumulated by this Kernel.
Storage for all of the information pretaining to a vector tag.
Definition: VectorTag.h:15
virtual const VectorTag & getVectorTag(const TagID tag_id) const
Get a VectorTag from a TagID.
Definition: SubProblem.C:138
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ prepareVectorTagNeighbor()

void TaggingInterface::prepareVectorTagNeighbor ( Assembly assembly,
unsigned int  ivar 
)
protectedinherited

Prepare data for computing element residual the according to active tags for DG and interface kernels.

Residual blocks for different tags will be extracted from Assembly. A local residual will be zeroed. It should be called right before the local element vector is computed.

Definition at line 231 of file TaggingInterface.C.

Referenced by FVInterfaceKernel::addResidual(), ADDGKernel::computeElemNeighResidual(), DGKernel::computeElemNeighResidual(), ElemElemConstraint::computeElemNeighResidual(), ArrayDGKernel::computeElemNeighResidual(), ADMortarConstraint::computeResidual(), FVFluxBC::computeResidual(), MortarConstraint::computeResidual(), NodeElemConstraint::computeResidual(), FVFluxKernel::computeResidual(), and NodeFaceConstraint::computeResidual().

232 {
233  _re_blocks.resize(_vector_tags.size());
234  mooseAssert(_vector_tags.size() >= 1, "we need at least one active tag");
235  auto vector_tag = _vector_tags.begin();
236  for (MooseIndex(_vector_tags) i = 0; i < _vector_tags.size(); i++, ++vector_tag)
237  {
238  const VectorTag & tag = _subproblem.getVectorTag(*vector_tag);
240  }
241  _local_re.resize(_re_blocks[0]->size());
242 
243  _absre_blocks.resize(_abs_vector_tags.size());
244  vector_tag = _abs_vector_tags.begin();
245  for (MooseIndex(_abs_vector_tags) i = 0; i < _abs_vector_tags.size(); i++, ++vector_tag)
246  {
247  const VectorTag & tag = _subproblem.getVectorTag(*vector_tag);
248  _absre_blocks[i] =
249  &assembly.residualBlockNeighbor(ivar, Assembly::LocalDataKey{}, tag._type_id);
250  }
251 }
SubProblem & _subproblem
SubProblem that contains tag info.
void resize(const unsigned int n)
TagTypeID _type_id
The index for this tag into a vector that contains tags of only its type ordered by ID...
Definition: VectorTag.h:45
std::vector< DenseVector< Number > * > _absre_blocks
Residual blocks for absolute value residual tags.
std::vector< DenseVector< Number > * > _re_blocks
Residual blocks Vectors For each Tag.
std::set< TagID > _abs_vector_tags
The absolute value residual tag ids.
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.
DenseVector< Number > & residualBlockNeighbor(unsigned int var_num, LocalDataKey, TagID tag_id)
Get local neighbor residual block for a variable and a tag.
Definition: Assembly.h:1074
DenseVector< Number > _local_re
Holds local residual entries as they are accumulated by this Kernel.
Storage for all of the information pretaining to a vector tag.
Definition: VectorTag.h:15
virtual const VectorTag & getVectorTag(const TagID tag_id) const
Get a VectorTag from a TagID.
Definition: SubProblem.C:138
Key structure for APIs adding/caching local element residuals/Jacobians.
Definition: Assembly.h:812

◆ 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

◆ setRandomDataPointer()

void RandomInterface::setRandomDataPointer ( RandomData random_data)
inherited

Definition at line 54 of file RandomInterface.C.

Referenced by FEProblemBase::registerRandomInterface().

55 {
56  _random_data = random_data;
58 }
RandomData * _random_data
MooseRandom * _generator
MooseRandom & getGenerator()
Return the underlying MooseRandom generator object for this data instance.
Definition: RandomData.h:41

◆ setRandomResetFrequency()

void RandomInterface::setRandomResetFrequency ( ExecFlagType  exec_flag)
inherited

This interface should be called from a derived class to enable random number generation in this object.

Definition at line 47 of file RandomInterface.C.

48 {
49  _reset_on = exec_flag;
51 }
void registerRandomInterface(RandomInterface &random_interface, const std::string &name)
ExecFlagType _reset_on
const std::string _ri_name
FEProblemBase & _ri_problem

◆ setResidual() [1/3]

template<typename T >
void TaggingInterface::setResidual ( SystemBase sys,
const T &  residual,
MooseVariableFE< T > &  var 
)
protectedinherited

Set residual using the variables' insertion API.

Definition at line 539 of file TaggingInterface.h.

Referenced by ArrayNodalBC::computeResidual(), VectorNodalBC::computeResidual(), and NodalBC::computeResidual().

540 {
541  for (const auto tag_id : _vector_tags)
542  if (sys.hasVector(tag_id))
543  var.insertNodalValue(sys.getVector(tag_id), residual);
544 }
bool hasVector(const std::string &tag_name) const
Check if the named vector exists in the system.
Definition: SystemBase.C:873
void insertNodalValue(NumericVector< Number > &residual, const OutputData &v)
Write a nodal value to the passed-in solution vector.
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.
virtual NumericVector< Number > & getVector(const std::string &name)
Get a raw NumericVector by name.
Definition: SystemBase.C:882

◆ setResidual() [2/3]

void TaggingInterface::setResidual ( SystemBase sys,
Real  residual,
dof_id_type  dof_index 
)
inlineprotectedinherited

Set residual at a specified degree of freedom index.

Definition at line 547 of file TaggingInterface.h.

548 {
549  for (const auto tag_id : _vector_tags)
550  if (sys.hasVector(tag_id))
551  sys.getVector(tag_id).set(dof_index, residual);
552 }
bool hasVector(const std::string &tag_name) const
Check if the named vector exists in the system.
Definition: SystemBase.C:873
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.
virtual void set(const numeric_index_type i, const Number value)=0
virtual NumericVector< Number > & getVector(const std::string &name)
Get a raw NumericVector by name.
Definition: SystemBase.C:882

◆ setResidual() [3/3]

template<typename SetResidualFunctor >
void TaggingInterface::setResidual ( SystemBase sys,
SetResidualFunctor  set_residual_functor 
)
protectedinherited

Set residuals using the provided functor.

Definition at line 556 of file TaggingInterface.h.

557 {
558  for (const auto tag_id : _vector_tags)
559  if (sys.hasVector(tag_id))
560  set_residual_functor(sys.getVector(tag_id));
561 }
bool hasVector(const std::string &tag_name) const
Check if the named vector exists in the system.
Definition: SystemBase.C:873
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.
virtual NumericVector< Number > & getVector(const std::string &name)
Get a raw NumericVector by name.
Definition: SystemBase.C:882

◆ setRMParams()

void FVKernel::setRMParams ( const InputParameters obj_params,
InputParameters rm_params,
unsigned short  ghost_layers 
)
static

Definition at line 15 of file FVKernel.C.

Referenced by FVFluxKernel::adjustRMGhostLayers(), and validParams().

18 {
19  rm_params.set<unsigned short>("layers") = ghost_layers;
20  rm_params.set<bool>("use_point_neighbors") = obj_params.get<bool>("use_point_neighbors");
21  rm_params.set<bool>("attach_geometric_early") = false;
22  rm_params.set<bool>("use_displaced_mesh") = obj_params.get<bool>("use_displaced_mesh");
23 }
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.
T & set(const std::string &name, bool quiet_mode=false)
Returns a writable reference to the named parameters.

◆ 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 }

◆ subProblem()

const SubProblem& ResidualObject::subProblem ( ) const
inlineinherited

Returns a reference to the SubProblem for which this Kernel is active.

Definition at line 103 of file ResidualObject.h.

103 { return _subproblem; }
SubProblem & _subproblem
Reference to this kernel&#39;s SubProblem.

◆ 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 51 of file MooseBase.h.

Referenced by CreateProblemDefaultAction::act(), SetupDebugAction::act(), MaterialDerivativeTestAction::act(), MaterialOutputAction::act(), FEProblemBase::addAuxArrayVariable(), FEProblemBase::addAuxScalarVariable(), FEProblemBase::addAuxVariable(), FEProblemBase::addDistribution(), MooseApp::addExecutor(), MooseApp::addExecutorParams(), FEProblemBase::addFunction(), FEProblemBase::addMeshDivision(), MooseApp::addMeshGenerator(), MeshGenerator::addMeshSubgenerator(), FEProblemBase::addObject(), FEProblemBase::addPredictor(), CreateDisplacedProblemAction::addProxyRelationshipManagers(), FEProblemBase::addReporter(), FEProblemBase::addSampler(), FEProblemBase::addTimeIntegrator(), MooseServer::addValuesToList(), DisplacedProblem::addVectorTag(), SubProblem::addVectorTag(), FEProblemBase::advanceMultiApps(), MooseApp::appendMeshGenerator(), 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(), HFEMDirichletBC::computeLowerDQpJacobian(), HFEMDiffusion::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(), ArrayHFEMDiffusion::computeQpResidual(), DGConvection::computeQpResidual(), HFEMDiffusion::computeQpResidual(), ScalarKernel::computeQpResidual(), InterfaceDiffusion::computeQpResidual(), ArrayDGDiffusion::computeQpResidual(), InterfaceReaction::computeQpResidual(), ADDGAdvection::computeQpResidual(), CoupledTiedValueConstraint::computeQpResidual(), TiedValueConstraint::computeQpResidual(), ADDGDiffusion::computeQpResidual(), LinearNodalConstraint::computeQpResidual(), DGDiffusion::computeQpResidual(), EqualValueBoundaryConstraint::computeQpResidual(), HFEMTestJump::computeQpResidual(), HFEMTrialJump::computeQpResidual(), EqualValueEmbeddedConstraint::computeQpResidual(), FEProblemBase::computeUserObjectByName(), FEProblemBase::computeUserObjects(), FEProblemBase::computeUserObjectsInternal(), BatchMaterial< Tuple, Output, Input >::construct(), DisplacedProblem::createQRules(), FEProblemBase::createQRules(), MooseApp::createRecoverablePerfGraph(), DumpObjectsProblem::deduceNecessaryParameters(), DumpObjectsProblem::dumpObjectHelper(), FEProblemBase::duplicateVariableCheck(), ElementGroupCentroidPositions::ElementGroupCentroidPositions(), MooseBase::errorPrefix(), AB2PredictorCorrector::estimateTimeError(), FEProblemBase::execMultiApps(), FEProblemBase::execMultiAppTransfers(), FEProblemBase::execTransfers(), ActionWarehouse::executeActionsWithAction(), FEProblemBase::finishMultiAppStep(), FVScalarLagrangeMultiplierInterface::FVScalarLagrangeMultiplierInterface(), SubdomainPerElementGenerator::generate(), LowerDBlockFromSidesetGenerator::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(), MooseObject::MooseObject(), DisplacedProblem::numVectorTags(), SubProblem::numVectorTags(), Console::output(), AdvancedOutput::output(), OversampleOutput::outputStep(), Output::outputStep(), FEProblemBase::outputStep(), MooseServer::parseDocumentForDiagnostics(), ProjectedStatefulMaterialStorageAction::processProperty(), MooseApp::recursivelyCreateExecutors(), SolutionInvalidInterface::registerInvalidSolutionInternal(), FEProblemBase::restoreMultiApps(), MeshRepairGenerator::separateSubdomainsByElementType(), FEProblemBase::setCoupling(), MooseApp::setupOptions(), MooseBase::typeAndName(), ScalarKernelBase::uOld(), AuxScalarKernel::uOld(), DisplacedProblem::updateGeomSearch(), FEProblemBase::updateGeomSearch(), UserObjectInterface::userObjectType(), and AdvancedOutput::wantOutput().

51 { return _type; }
const std::string _type
The type of this class.
Definition: MooseBase.h:87

◆ typeAndName()

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

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

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

Definition at line 27 of file MooseBase.C.

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

28 {
29  return type() + std::string(" \"") + name() + std::string("\"");
30 }
virtual const std::string & name() const
Get the name of the class.
Definition: MooseBase.h:57
const std::string & type() const
Get the type of this class.
Definition: MooseBase.h:51

◆ uniqueName()

MooseObjectName MooseBaseParameterInterface::uniqueName ( ) const
inlineinherited

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

Definition at line 67 of file MooseBaseParameterInterface.h.

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

68  {
69  return MooseObjectName(_pars.get<std::string>("_unique_name"));
70  }
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 52 of file MooseBaseParameterInterface.h.

53  {
55  _pars.get<std::string>("_moose_base"), _moose_base.name(), parameter_name);
56  }
const MooseBase & _moose_base
The MooseBase object that inherits this class.
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:57
const InputParameters & _pars
Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.
A class for storing an input parameter name.

◆ useMatrixTag() [1/2]

void TaggingInterface::useMatrixTag ( const TagName &  tag_name,
MatrixTagsKey   
)
inherited

Definition at line 162 of file TaggingInterface.C.

163 {
164  if (!_subproblem.matrixTagExists(tag_name))
165  mooseError("Matrix tag ", tag_name, " does not exist in system");
166 
167  _matrix_tags.insert(_subproblem.getMatrixTagID(tag_name));
168 }
SubProblem & _subproblem
SubProblem that contains tag info.
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:284
virtual TagID getMatrixTagID(const TagName &tag_name) const
Get a TagID from a TagName.
Definition: SubProblem.C:308
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
virtual bool matrixTagExists(const TagName &tag_name) const
Check to see if a particular Tag exists.
Definition: SubProblem.C:294

◆ useMatrixTag() [2/2]

void TaggingInterface::useMatrixTag ( TagID  tag_id,
MatrixTagsKey   
)
inherited

Definition at line 180 of file TaggingInterface.C.

181 {
182  if (!_subproblem.matrixTagExists(tag_id))
183  mooseError("Matrix tag ", tag_id, " does not exist in system");
184 
185  _matrix_tags.insert(tag_id);
186 }
SubProblem & _subproblem
SubProblem that contains tag info.
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:284
std::set< TagID > _matrix_tags
The matrices this Kernel will contribute to.
virtual bool matrixTagExists(const TagName &tag_name) const
Check to see if a particular Tag exists.
Definition: SubProblem.C:294

◆ useVectorTag() [1/2]

void TaggingInterface::useVectorTag ( const TagName &  tag_name,
VectorTagsKey   
)
inherited

Definition at line 153 of file TaggingInterface.C.

154 {
155  if (!_subproblem.vectorTagExists(tag_name))
156  mooseError("Vector tag ", tag_name, " does not exist in system");
157 
158  _vector_tags.insert(_subproblem.getVectorTagID(tag_name));
159 }
virtual TagID getVectorTagID(const TagName &tag_name) const
Get a TagID from a TagName.
Definition: SubProblem.C:180
SubProblem & _subproblem
SubProblem that contains tag info.
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:284
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.
virtual bool vectorTagExists(const TagID tag_id) const
Check to see if a particular Tag exists.
Definition: SubProblem.h:163

◆ useVectorTag() [2/2]

void TaggingInterface::useVectorTag ( TagID  tag_id,
VectorTagsKey   
)
inherited

Definition at line 171 of file TaggingInterface.C.

172 {
173  if (!_subproblem.vectorTagExists(tag_id))
174  mooseError("Vector tag ", tag_id, " does not exist in system");
175 
176  _vector_tags.insert(tag_id);
177 }
SubProblem & _subproblem
SubProblem that contains tag info.
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:284
std::set< TagID > _vector_tags
The residual tag ids this Kernel will contribute to.
virtual bool vectorTagExists(const TagID tag_id) const
Check to see if a particular Tag exists.
Definition: SubProblem.h:163

◆ validParams()

InputParameters FVKernel::validParams ( )
static

Definition at line 26 of file FVKernel.C.

Referenced by FVElementalKernel::validParams(), and FVFluxKernel::validParams().

27 {
31  params.addParam<bool>("use_displaced_mesh",
32  false,
33  "Whether or not this object should use the "
34  "displaced mesh for computation. Note that in "
35  "the case this is true but no displacements "
36  "are provided in the Mesh block the "
37  "undisplaced mesh will still be used.");
38  params.addParamNamesToGroup("use_displaced_mesh", "Advanced");
39 
40  params.addParam<unsigned short>("ghost_layers", 1, "The number of layers of elements to ghost.");
41  params.addParam<bool>("use_point_neighbors",
42  false,
43  "Whether to use point neighbors, which introduces additional ghosting to "
44  "that used for simple face neighbors.");
45  params.addParamNamesToGroup("ghost_layers use_point_neighbors", "Parallel ghosting");
46 
47  // FV Kernels always need one layer of ghosting because when looping over
48  // faces to compute fluxes, the elements on each side of the face may be on
49  // different MPI ranks, but we still need to access them as a pair to
50  // compute the numerical face flux.
52  "ElementSideNeighborLayers",
55  [](const InputParameters & obj_params, InputParameters & rm_params) {
57  obj_params, rm_params, obj_params.get<unsigned short>("ghost_layers"));
58  });
59 
60  params.registerBase("FVKernel");
61  return params;
62 }
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.
static InputParameters validParams()
The main MOOSE class responsible for handling user-defined parameters in almost every MOOSE system...
void addRelationshipManager(const std::string &name, Moose::RelationshipManagerType rm_type, Moose::RelationshipManagerInputParameterCallback input_parameter_callback=nullptr)
Tells MOOSE about a RelationshipManager that this object needs.
static InputParameters validParams()
void registerBase(const std::string &value)
This method must be called from every base "Moose System" to create linkage with the Action System...
static InputParameters validParams()
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 void setRMParams(const InputParameters &obj_params, InputParameters &rm_params, unsigned short ghost_layers)
Definition: FVKernel.C:15
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...

◆ variable()

virtual const MooseVariableBase& ResidualObject::variable ( ) const
pure virtualinherited

Member Data Documentation

◆ _action_factory

ActionFactory& MooseBaseParameterInterface::_action_factory
protectedinherited

◆ _app

MooseApp& MooseBase::_app
protectedinherited

The MOOSE application this is associated with.

Definition at line 84 of file MooseBase.h.

◆ _assembly

Assembly& ResidualObject::_assembly
protectedinherited

Reference to this Kernel's assembly object.

Definition at line 138 of file ResidualObject.h.

Referenced by ADScalarKernel::computeADJacobian(), ADDGKernel::computeElemNeighJacobian(), DGKernel::computeElemNeighJacobian(), ElemElemConstraint::computeElemNeighJacobian(), ArrayDGKernel::computeElemNeighJacobian(), ADDGKernel::computeElemNeighResidual(), DGKernel::computeElemNeighResidual(), ElemElemConstraint::computeElemNeighResidual(), ArrayDGKernel::computeElemNeighResidual(), MassLumpedTimeDerivative::computeJacobian(), TimeDerivative::computeJacobian(), VectorTimeDerivative::computeJacobian(), ScalarKernel::computeJacobian(), VectorKernel::computeJacobian(), Kernel::computeJacobian(), ODEKernel::computeJacobian(), ArrayKernel::computeJacobian(), VectorIntegratedBC::computeJacobian(), IntegratedBC::computeJacobian(), EigenKernel::computeJacobian(), ArrayIntegratedBC::computeJacobian(), NodalEqualValueConstraint::computeJacobian(), NonlocalIntegratedBC::computeJacobian(), KernelGrad::computeJacobian(), KernelValue::computeJacobian(), NonlocalKernel::computeJacobian(), ADMortarConstraint::computeJacobian(), MortarConstraint::computeJacobian(), FVElementalKernel::computeJacobian(), ADKernelScalarBase::computeJacobian(), NodalKernel::computeJacobian(), ADNodalKernel::computeJacobian(), FVFluxKernel::computeJacobian(), NodeElemConstraint::computeJacobian(), NodeFaceConstraint::computeJacobian(), ADMortarScalarBase::computeJacobian(), NodalConstraint::computeJacobian(), LowerDIntegratedBC::computeLowerDJacobian(), ArrayLowerDIntegratedBC::computeLowerDJacobian(), DGLowerDKernel::computeLowerDJacobian(), ArrayDGLowerDKernel::computeLowerDJacobian(), LowerDIntegratedBC::computeLowerDOffDiagJacobian(), ArrayLowerDIntegratedBC::computeLowerDOffDiagJacobian(), DGLowerDKernel::computeLowerDResidual(), ArrayDGLowerDKernel::computeLowerDResidual(), NonlocalIntegratedBC::computeNonlocalJacobian(), NonlocalKernel::computeNonlocalJacobian(), NonlocalIntegratedBC::computeNonlocalOffDiagJacobian(), NonlocalKernel::computeNonlocalOffDiagJacobian(), ADDGKernel::computeOffDiagElemNeighJacobian(), DGKernel::computeOffDiagElemNeighJacobian(), ArrayDGKernel::computeOffDiagElemNeighJacobian(), Kernel::computeOffDiagJacobian(), VectorKernel::computeOffDiagJacobian(), ArrayKernel::computeOffDiagJacobian(), EigenKernel::computeOffDiagJacobian(), IntegratedBC::computeOffDiagJacobian(), VectorIntegratedBC::computeOffDiagJacobian(), ArrayIntegratedBC::computeOffDiagJacobian(), FVScalarLagrangeMultiplierConstraint::computeOffDiagJacobian(), NonlocalIntegratedBC::computeOffDiagJacobian(), NonlocalKernel::computeOffDiagJacobian(), KernelValue::computeOffDiagJacobian(), KernelGrad::computeOffDiagJacobian(), NodeElemConstraint::computeOffDiagJacobian(), NodalKernel::computeOffDiagJacobian(), NodeFaceConstraint::computeOffDiagJacobian(), ODEKernel::computeOffDiagJacobianScalar(), VectorKernel::computeOffDiagJacobianScalar(), ArrayKernel::computeOffDiagJacobianScalar(), IntegratedBC::computeOffDiagJacobianScalar(), VectorIntegratedBC::computeOffDiagJacobianScalar(), ArrayIntegratedBC::computeOffDiagJacobianScalar(), Kernel::computeOffDiagJacobianScalar(), ScalarLagrangeMultiplier::computeOffDiagJacobianScalar(), MortarScalarBase::computeOffDiagJacobianScalar(), KernelScalarBase::computeOffDiagJacobianScalarLocal(), DGLowerDKernel::computeOffDiagLowerDJacobian(), ArrayDGLowerDKernel::computeOffDiagLowerDJacobian(), ScalarKernel::computeResidual(), Kernel::computeResidual(), VectorKernel::computeResidual(), LowerDIntegratedBC::computeResidual(), ArrayKernel::computeResidual(), ODEKernel::computeResidual(), TimeKernel::computeResidual(), ODETimeKernel::computeResidual(), VectorTimeKernel::computeResidual(), ADScalarKernel::computeResidual(), IntegratedBC::computeResidual(), ArrayLowerDIntegratedBC::computeResidual(), VectorIntegratedBC::computeResidual(), ArrayIntegratedBC::computeResidual(), EigenKernel::computeResidual(), NodalEqualValueConstraint::computeResidual(), TimeNodalKernel::computeResidual(), ADMortarConstraint::computeResidual(), FVScalarLagrangeMultiplierConstraint::computeResidual(), MortarConstraint::computeResidual(), NodalKernel::computeResidual(), ADNodalKernel::computeResidual(), KernelGrad::computeResidual(), KernelValue::computeResidual(), FVElementalKernel::computeResidual(), ADKernelScalarBase::computeResidual(), NodeElemConstraint::computeResidual(), FVFluxKernel::computeResidual(), NodalConstraint::computeResidual(), NodeFaceConstraint::computeResidual(), ADMortarScalarBase::computeResidual(), MortarScalarBase::computeResidual(), FVScalarLagrangeMultiplierConstraint::computeResidualAndJacobian(), FVElementalKernel::computeResidualAndJacobian(), ADKernelScalarBase::computeResidualAndJacobian(), MortarScalarBase::computeScalarJacobian(), KernelScalarBase::computeScalarJacobian(), MortarScalarBase::computeScalarOffDiagJacobian(), KernelScalarBase::computeScalarOffDiagJacobian(), KernelScalarBase::computeScalarOffDiagJacobianScalar(), MortarScalarBase::computeScalarOffDiagJacobianScalar(), KernelScalarBase::computeScalarResidual(), ConservativeAdvection::fullUpwind(), InterfaceKernelBase::getNeighborElemVolume(), DGKernelBase::getNeighborElemVolume(), MortarConstraintBase::MortarConstraintBase(), NodalScalarKernel::reinit(), and MortarConstraintBase::zeroInactiveLMDofs().

◆ _blk_material_data

const MaterialData* BlockRestrictable::_blk_material_data
protectedinherited

Pointer to the MaterialData class for this object.

Definition at line 207 of file BlockRestrictable.h.

Referenced by BlockRestrictable::hasBlockMaterialProperty(), and BlockRestrictable::initializeBlockRestrictable().

◆ _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

const ExecFlagType& SetupInterface::_current_execute_flag
protectedinherited

Reference to FEProblemBase.

Definition at line 78 of file SetupInterface.h.

Referenced by PseudoTimestep::execute().

◆ _dt

Real& TransientInterface::_dt
protectedinherited

◆ _dt_old

Real& TransientInterface::_dt_old
protectedinherited

Size of the old time step.

Definition at line 70 of file TransientInterface.h.

Referenced by VariableTimeIntegrationAux::getIntegralValue().

◆ _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().

◆ _execute_enum

const ExecFlagEnum& SetupInterface::_execute_enum
protectedinherited

◆ _factory

Factory& MooseBaseParameterInterface::_factory
protectedinherited

◆ _fe_problem

FEProblemBase& ResidualObject::_fe_problem
protectedinherited

◆ _is_implicit

bool TransientInterface::_is_implicit
protectedinherited

If the object is using implicit or explicit form.

This does NOT mean time scheme, but which values are going to be used in the object - either from current time or old time. Note that even explicit schemes have implicit form (it is the time derivative "kernel")

Definition at line 58 of file TransientInterface.h.

Referenced by EigenKernel::computeJacobian(), EigenKernel::computeOffDiagJacobian(), Kernel::computeResidualAndJacobian(), NodalBC::computeResidualAndJacobian(), IntegratedBC::computeResidualAndJacobian(), TransientInterface::determineState(), EigenKernel::EigenKernel(), EigenKernel::enabled(), and TransientInterface::isImplicit().

◆ _is_transient

bool TransientInterface::_is_transient
protectedinherited

Definition at line 73 of file TransientInterface.h.

Referenced by InterfaceTimeKernel::InterfaceTimeKernel().

◆ _local_ke

DenseMatrix<Number> TaggingInterface::_local_ke
protectedinherited

Holds local Jacobian entries as they are accumulated by this Kernel.

Definition at line 335 of file TaggingInterface.h.

Referenced by TaggingInterface::accumulateTaggedLocalMatrix(), TaggingInterface::assignTaggedLocalMatrix(), ADDGKernel::computeElemNeighJacobian(), DGKernel::computeElemNeighJacobian(), ElemElemConstraint::computeElemNeighJacobian(), ArrayDGKernel::computeElemNeighJacobian(), MassLumpedTimeDerivative::computeJacobian(), TimeDerivative::computeJacobian(), VectorTimeDerivative::computeJacobian(), ScalarKernel::computeJacobian(), VectorKernel::computeJacobian(), Kernel::computeJacobian(), ODEKernel::computeJacobian(), ArrayKernel::computeJacobian(), IntegratedBC::computeJacobian(), VectorIntegratedBC::computeJacobian(), EigenKernel::computeJacobian(), ArrayIntegratedBC::computeJacobian(), NodalEqualValueConstraint::computeJacobian(), NonlocalIntegratedBC::computeJacobian(), KernelGrad::computeJacobian(), KernelValue::computeJacobian(), NonlocalKernel::computeJacobian(), MortarConstraint::computeJacobian(), NodeElemConstraint::computeJacobian(), NodeFaceConstraint::computeJacobian(), LowerDIntegratedBC::computeLowerDJacobian(), ArrayLowerDIntegratedBC::computeLowerDJacobian(), DGLowerDKernel::computeLowerDJacobian(), ArrayDGLowerDKernel::computeLowerDJacobian(), LowerDIntegratedBC::computeLowerDOffDiagJacobian(), ArrayLowerDIntegratedBC::computeLowerDOffDiagJacobian(), DGKernel::computeOffDiagElemNeighJacobian(), ArrayDGKernel::computeOffDiagElemNeighJacobian(), Kernel::computeOffDiagJacobian(), VectorKernel::computeOffDiagJacobian(), ArrayKernel::computeOffDiagJacobian(), EigenKernel::computeOffDiagJacobian(), VectorIntegratedBC::computeOffDiagJacobian(), IntegratedBC::computeOffDiagJacobian(), ArrayIntegratedBC::computeOffDiagJacobian(), NonlocalKernel::computeOffDiagJacobian(), NonlocalIntegratedBC::computeOffDiagJacobian(), KernelValue::computeOffDiagJacobian(), KernelGrad::computeOffDiagJacobian(), NodeElemConstraint::computeOffDiagJacobian(), NodeFaceConstraint::computeOffDiagJacobian(), ODEKernel::computeOffDiagJacobianScalar(), VectorKernel::computeOffDiagJacobianScalar(), ArrayKernel::computeOffDiagJacobianScalar(), IntegratedBC::computeOffDiagJacobianScalar(), VectorIntegratedBC::computeOffDiagJacobianScalar(), Kernel::computeOffDiagJacobianScalar(), ArrayIntegratedBC::computeOffDiagJacobianScalar(), ScalarLagrangeMultiplier::computeOffDiagJacobianScalar(), MortarScalarBase::computeOffDiagJacobianScalar(), KernelScalarBase::computeOffDiagJacobianScalarLocal(), DGLowerDKernel::computeOffDiagLowerDJacobian(), ArrayDGLowerDKernel::computeOffDiagLowerDJacobian(), MortarScalarBase::computeScalarJacobian(), KernelScalarBase::computeScalarJacobian(), MortarScalarBase::computeScalarOffDiagJacobian(), KernelScalarBase::computeScalarOffDiagJacobian(), KernelScalarBase::computeScalarOffDiagJacobianScalar(), MortarScalarBase::computeScalarOffDiagJacobianScalar(), ConservativeAdvection::fullUpwind(), TaggingInterface::prepareMatrixTag(), TaggingInterface::prepareMatrixTagLower(), and TaggingInterface::prepareMatrixTagNeighbor().

◆ _local_re

DenseVector<Number> TaggingInterface::_local_re
protectedinherited

Holds local residual entries as they are accumulated by this Kernel.

Definition at line 332 of file TaggingInterface.h.

Referenced by TaggingInterface::accumulateTaggedLocalResidual(), FVInterfaceKernel::addResidual(), TaggingInterface::assignTaggedLocalResidual(), ADDGKernel::computeElemNeighResidual(), DGKernel::computeElemNeighResidual(), ElemElemConstraint::computeElemNeighResidual(), ArrayDGKernel::computeElemNeighResidual(), DGLowerDKernel::computeLowerDResidual(), ArrayDGLowerDKernel::computeLowerDResidual(), ScalarKernel::computeResidual(), VectorKernel::computeResidual(), Kernel::computeResidual(), LowerDIntegratedBC::computeResidual(), ArrayKernel::computeResidual(), TimeKernel::computeResidual(), ODEKernel::computeResidual(), ODETimeKernel::computeResidual(), VectorTimeKernel::computeResidual(), ADScalarKernel::computeResidual(), ArrayLowerDIntegratedBC::computeResidual(), VectorIntegratedBC::computeResidual(), IntegratedBC::computeResidual(), ArrayIntegratedBC::computeResidual(), EigenKernel::computeResidual(), NodalEqualValueConstraint::computeResidual(), ADMortarConstraint::computeResidual(), FVBoundaryScalarLagrangeMultiplierConstraint::computeResidual(), FVScalarLagrangeMultiplierConstraint::computeResidual(), FVFluxBC::computeResidual(), MortarConstraint::computeResidual(), KernelGrad::computeResidual(), KernelValue::computeResidual(), FVElementalKernel::computeResidual(), NodeElemConstraint::computeResidual(), FVFluxKernel::computeResidual(), NodeFaceConstraint::computeResidual(), ConservativeAdvection::fullUpwind(), TaggingInterface::prepareVectorTagInternal(), TaggingInterface::prepareVectorTagLower(), and TaggingInterface::prepareVectorTagNeighbor().

◆ _mci_feproblem

FEProblemBase& MeshChangedInterface::_mci_feproblem
protectedinherited

Reference to FEProblemBase instance.

Definition at line 38 of file MeshChangedInterface.h.

Referenced by MeshChangedInterface::MeshChangedInterface().

◆ _mesh

MooseMesh& ResidualObject::_mesh
protectedinherited

◆ _name

const std::string MooseBase::_name
protectedinherited

The name of this class.

Definition at line 90 of file MooseBase.h.

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

◆ _nonlocal_ke

DenseMatrix<Number> TaggingInterface::_nonlocal_ke
protectedinherited

◆ _pars

const InputParameters& MooseBaseParameterInterface::_pars
protectedinherited

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

Definition at line 162 of file MooseBaseParameterInterface.h.

Referenced by AddFVICAction::act(), AddICAction::act(), CreateProblemDefaultAction::act(), CreateProblemAction::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(), 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::MooseBaseParameterInterface(), MooseBaseParameterInterface::paramErrorMsg(), GlobalParamsAction::parameters(), MooseBaseParameterInterface::parameters(), MooseMesh::prepare(), Eigenvalue::prepareSolverOptions(), MooseMesh::setCoordSystem(), MooseMesh::setPartitionerHelper(), SetupMeshAction::setupMesh(), Transient::setupTimeIntegrator(), MooseBaseParameterInterface::uniqueName(), and MooseBaseParameterInterface::uniqueParameterName().

◆ _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().

◆ _subproblem

SubProblem& ResidualObject::_subproblem
protectedinherited

◆ _sys

SystemBase& ResidualObject::_sys
protectedinherited

Reference to the EquationSystem object.

Definition at line 132 of file ResidualObject.h.

Referenced by ADDGKernel::ADDGKernel(), ADKernelTempl< T >::ADKernelTempl(), ArrayDGKernel::ArrayDGKernel(), ArrayKernel::ArrayKernel(), Kernel::computeJacobian(), ODEKernel::computeJacobian(), VectorKernel::computeJacobian(), EigenKernel::computeJacobian(), ArrayNodalBC::computeJacobian(), VectorNodalBC::computeJacobian(), NodalBC::computeJacobian(), MortarScalarBase::computeJacobian(), NonlocalKernel::computeNonlocalOffDiagJacobian(), NonlocalIntegratedBC::computeNonlocalOffDiagJacobian(), ArrayNodalBC::computeOffDiagJacobian(), VectorNodalBC::computeOffDiagJacobian(), NodalBC::computeOffDiagJacobian(), NodalKernel::computeOffDiagJacobian(), ODEKernel::computeOffDiagJacobianScalar(), VectorKernel::computeOffDiagJacobianScalar(), ArrayKernel::computeOffDiagJacobianScalar(), VectorIntegratedBC::computeOffDiagJacobianScalar(), IntegratedBC::computeOffDiagJacobianScalar(), ArrayIntegratedBC::computeOffDiagJacobianScalar(), Kernel::computeOffDiagJacobianScalar(), ScalarLagrangeMultiplier::computeOffDiagJacobianScalar(), MortarScalarBase::computeOffDiagJacobianScalar(), KernelScalarBase::computeOffDiagJacobianScalarLocal(), EqualValueEmbeddedConstraint::computeQpJacobian(), EqualValueEmbeddedConstraint::computeQpOffDiagJacobian(), ArrayNodalBC::computeResidual(), VectorNodalBC::computeResidual(), NodalBC::computeResidual(), Kernel::computeResidualAndJacobian(), NodalBC::computeResidualAndJacobian(), IntegratedBC::computeResidualAndJacobian(), KernelScalarBase::computeScalarOffDiagJacobianScalar(), MortarScalarBase::computeScalarOffDiagJacobianScalar(), DGKernel::DGKernel(), NodeElemConstraint::getConnectedDofIndices(), NodeFaceConstraint::getConnectedDofIndices(), ResidualObject::getVariable(), InterfaceKernelTempl< T >::InterfaceKernelTempl(), Kernel::Kernel(), EqualValueEmbeddedConstraint::reinitConstraint(), ScalarKernelBase::uOld(), and MortarConstraintBase::zeroInactiveLMDofs().

◆ _t

Real& TransientInterface::_t
protectedinherited

Time.

Definition at line 61 of file TransientInterface.h.

Referenced by FVFunctionDirichletBC::boundaryValue(), AnalyticalIndicator::computeQpIntegral(), FunctionElementIntegral::computeQpIntegral(), ElementL2Error::computeQpIntegral(), ElementHCurlSemiError::computeQpIntegral(), ElementHDivSemiError::computeQpIntegral(), ElementL1Error::computeQpIntegral(), FunctionElementIntegralUserObject::computeQpIntegral(), FunctionSideIntegral::computeQpIntegral(), ElementH1SemiError::computeQpIntegral(), ElementVectorL2Error::computeQpIntegral(), ElementW1pError::computeQpIntegral(), FunctionDiffusion::computeQpJacobian(), VectorFunctionReaction::computeQpJacobian(), ArrayBodyForce::computeQpResidual(), FunctionDiffusion::computeQpResidual(), ConvectiveFluxBC::computeQpResidual(), ADFunctionNeumannBC::computeQpResidual(), ADVectorFunctionNeumannBC::computeQpResidual(), FunctionDiracSource::computeQpResidual(), FVFunctionNeumannBC::computeQpResidual(), FunctionGradientNeumannBC::computeQpResidual(), FunctionNeumannBC::computeQpResidual(), VectorFunctionReaction::computeQpResidual(), VectorCurlPenaltyDirichletBC::computeQpResidual(), VectorDivPenaltyDirichletBC::computeQpResidual(), VectorFunctionDirichletBC::computeQpResidual(), VectorPenaltyDirichletBC::computeQpResidual(), FVOrthogonalBoundaryDiffusion::computeQpResidual(), FVBodyForce::computeQpResidual(), VectorBodyForce::computeQpResidual(), ADConservativeAdvectionBC::computeQpResidual(), UserForcingFunctionNodalKernel::computeQpResidual(), SinDirichletBC::computeQpResidual(), ADFunctionPenaltyDirichletBC::computeQpResidual(), SinNeumannBC::computeQpResidual(), FunctionPenaltyDirichletBC::computeQpResidual(), DGFunctionDiffusionDirichletBC::computeQpResidual(), ADVectorFunctionDirichletBC::computeQpValue(), ADFunctionDirichletBC::computeQpValue(), FunctionDirichletBC::computeQpValue(), FunctionArrayAux::computeValue(), ForcingFunctionAux::computeValue(), ParsedAux::computeValue(), ParsedVectorAux::computeValue(), ArrayParsedAux::computeValue(), FunctionScalarAux::computeValue(), VectorFunctionAux::computeValue(), FunctionAux::computeValue(), SolutionScalarAux::computeValue(), ElementL2ErrorFunctionAux::computeValue(), SolutionAux::computeValue(), ElementH1ErrorFunctionAux::computeValue(), ConditionalFunctionEnableControl::conditionMet(), TimePeriod::conditionMet(), LineFunctionSampler::execute(), NodalL2Error::execute(), IterationInfo::execute(), BoolFunctionControl::execute(), PIDTransientControl::execute(), RealFunctionControl::execute(), LeastSquaresFitHistory::execute(), TimeExtremeValue::execute(), UserForcingFunction::f(), ParsedPostprocessor::finalize(), FunctionValuePostprocessor::getValue(), ScalarL2Error::getValue(), ActivateElementsByPath::isElementActivated(), and SolutionUserObject::timestepSetup().

◆ _t_step

int& TransientInterface::_t_step
protectedinherited

◆ _ti_feproblem

FEProblemBase& TransientInterface::_ti_feproblem
protectedinherited

◆ _ti_params

const InputParameters& TransientInterface::_ti_params
protectedinherited

Definition at line 48 of file TransientInterface.h.

◆ _tid

THREAD_ID ResidualObject::_tid
protectedinherited

The thread ID for this kernel.

Definition at line 135 of file ResidualObject.h.

Referenced by ADDGKernel::ADDGKernel(), ADIntegratedBCTempl< T >::ADIntegratedBCTempl(), ADKernelTempl< T >::ADKernelTempl(), ArrayDGKernel::ArrayDGKernel(), ArrayIntegratedBC::ArrayIntegratedBC(), ArrayKernel::ArrayKernel(), ODEKernel::computeJacobian(), NonlocalKernel::computeNonlocalOffDiagJacobian(), NonlocalIntegratedBC::computeNonlocalOffDiagJacobian(), ODEKernel::computeOffDiagJacobianScalar(), VectorKernel::computeOffDiagJacobianScalar(), ArrayKernel::computeOffDiagJacobianScalar(), IntegratedBC::computeOffDiagJacobianScalar(), VectorIntegratedBC::computeOffDiagJacobianScalar(), Kernel::computeOffDiagJacobianScalar(), ArrayIntegratedBC::computeOffDiagJacobianScalar(), ScalarLagrangeMultiplier::computeOffDiagJacobianScalar(), MortarScalarBase::computeOffDiagJacobianScalar(), KernelScalarBase::computeOffDiagJacobianScalarLocal(), Kernel::computeResidualAndJacobian(), NodalBC::computeResidualAndJacobian(), IntegratedBC::computeResidualAndJacobian(), KernelScalarBase::computeScalarOffDiagJacobianScalar(), MortarScalarBase::computeScalarOffDiagJacobianScalar(), DGKernel::DGKernel(), FVAdvection::FVAdvection(), FVAnisotropicDiffusion::FVAnisotropicDiffusion(), FVDiffusion::FVDiffusion(), ResidualObject::getVariable(), IntegratedBC::IntegratedBC(), InterfaceKernelTempl< T >::InterfaceKernelTempl(), Kernel::Kernel(), NodalBC::NodalBC(), NodalKernel::NodalKernel(), NeighborResidualObject::prepareNeighborShapes(), IntegratedBCBase::prepareShapes(), InterfaceKernelBase::prepareShapes(), DGKernelBase::prepareShapes(), ResidualObject::prepareShapes(), and NodalScalarKernel::reinit().

◆ _type

const std::string MooseBase::_type
protectedinherited

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