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InterfaceKernel Class Referenceabstract

InterfaceKernel is responsible for interfacing physics across subdomains. More...

#include <InterfaceKernel.h>

Inheritance diagram for InterfaceKernel:
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Public Types

enum  TEST_TYPE { ALL, ANY }
 A flag changing the behavior of hasBoundary. More...
 

Public Member Functions

 InterfaceKernel (const InputParameters &parameters)
 
MooseVariablevariable () const
 The master variable that this interface kernel operates on. More...
 
const MooseVariableneighborVariable () const
 The neighbor variable number that this interface kernel operates on. More...
 
SubProblemsubProblem ()
 Return a reference to the subproblem. More...
 
virtual void computeElemNeighResidual (Moose::DGResidualType type)
 Using the passed DGResidual type, selects the correct test function space and residual block, and then calls computeQpResidual. More...
 
virtual void computeElemNeighJacobian (Moose::DGJacobianType type)
 Using the passed DGJacobian type, selects the correct test function and trial function spaces and jacobian block, and then calls computeQpJacobian. More...
 
virtual void computeOffDiagElemNeighJacobian (Moose::DGJacobianType type, unsigned int jvar)
 Using the passed DGJacobian type, selects the correct test function and trial function spaces and jacobian block, and then calls computeQpOffDiagJacobian with the passed jvar. More...
 
virtual void computeElementOffDiagJacobian (unsigned int jvar)
 Selects the correct Jacobian type and routine to call for the master variable jacobian. More...
 
virtual void computeNeighborOffDiagJacobian (unsigned int jvar)
 Selects the correct Jacobian type and routine to call for the slave variable jacobian. More...
 
virtual void computeResidual ()
 Computes the residual for the current side. More...
 
virtual void computeJacobian ()
 Computes the jacobian for the current side. More...
 
const std::string & type () const
 Get the type of this object. More...
 
const std::string & name () const
 Get the name of the object. More...
 
const InputParametersparameters () const
 Get the parameters of the object. More...
 
template<typename T >
const T & getParam (const std::string &name) const
 Retrieve a 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...
 
MooseAppgetMooseApp () const
 Get the MooseApp this object is associated with. More...
 
virtual bool enabled () const
 Return the enabled status of the object. More...
 
template<typename... Args>
void paramError (const std::string &param, Args... args)
 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)
 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)
 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...
 
template<typename... Args>
void mooseError (Args &&... args) const
 
template<typename... Args>
void mooseWarning (Args &&... args) const
 
template<typename... Args>
void mooseDeprecated (Args &&... args) const
 
template<typename... Args>
void mooseInfo (Args &&... args) const
 
virtual const std::set< BoundaryID > & boundaryIDs () const
 Return the boundary IDs for this object. More...
 
const std::vector< BoundaryName > & boundaryNames () const
 Return the boundary names for this object. More...
 
unsigned int numBoundaryIDs () const
 Return the number of boundaries for this object. More...
 
bool hasBoundary (const BoundaryName &name) const
 Test if the supplied boundary name is valid for this object. More...
 
bool hasBoundary (const std::vector< BoundaryName > &names) const
 Test if the supplied vector of boundary names are valid for this object. More...
 
bool hasBoundary (const BoundaryID &id) const
 Test if the supplied boundary ids are valid for this object. More...
 
bool hasBoundary (const std::vector< BoundaryID > &ids, TEST_TYPE type=ALL) const
 Test if the supplied vector boundary ids are valid for this object. More...
 
bool hasBoundary (const std::set< BoundaryID > &ids, TEST_TYPE type=ALL) const
 Test if the supplied set of boundary ids are valid for this object. More...
 
bool isBoundarySubset (const std::set< BoundaryID > &ids) const
 Test if the class boundary ids are a subset of the supplied objects. More...
 
bool isBoundarySubset (const std::vector< BoundaryID > &ids) const
 
template<typename T >
bool hasBoundaryMaterialProperty (const std::string &prop_name) const
 Check if a material property is valid for all boundaries of this object. More...
 
virtual bool boundaryRestricted () const
 Returns true if this object has been restricted to a boundary. More...
 
const std::set< BoundaryID > & meshBoundaryIDs () const
 Returns the set of all boundary ids for the entire mesh. 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...
 
const ExecFlagEnumgetExecuteOnEnum () const
 Return the execute on MultiMooseEnum for this object. More...
 
virtual const std::vector< ExecFlagType > & execFlags () const
 (DEPRECATED) Get the execution flag for the object TODO: ExecFlagType More...
 
ExecFlagType execBitFlags () const
 (DEPRECATED) Build and return the execution flags as a bitfield TODO: ExecFlagType More...
 
bool isImplicit ()
 
FunctiongetFunction (const std::string &name)
 Get a function with a given name. More...
 
FunctiongetFunctionByName (const FunctionName &name)
 Get a function with a given name. More...
 
template<class T >
const T & getUserObject (const std::string &name)
 Get an user object with a given parameter name. More...
 
template<class T >
const T & getUserObjectByName (const std::string &name)
 Get an user object with a given name. More...
 
const UserObjectgetUserObjectBase (const std::string &name)
 Get an user object with a given parameter name. More...
 
const UserObjectgetUserObjectBaseByName (const std::string &name)
 Get an user object with a given name. More...
 
virtual const VariableValuecoupledNeighborValue (const std::string &var_name, unsigned int comp=0)
 
virtual const VariableValuecoupledNeighborValueDot (const std::string &var_name, unsigned int comp=0)
 
virtual const VariableValuecoupledNeighborValueDotDu (const std::string &var_name, unsigned int comp=0)
 
virtual const VariableValuecoupledNeighborValueOld (const std::string &var_name, unsigned int comp=0)
 
virtual const VariableValuecoupledNeighborValueOlder (const std::string &var_name, unsigned int comp=0)
 
virtual const VariableGradientcoupledNeighborGradient (const std::string &var_name, unsigned int comp=0)
 
virtual const VariableGradientcoupledNeighborGradientOld (const std::string &var_name, unsigned int comp=0)
 
virtual const VariableGradientcoupledNeighborGradientOlder (const std::string &var_name, unsigned int comp=0)
 
virtual const VectorVariableGradientcoupledVectorNeighborGradient (const std::string &var_name, unsigned int comp=0)
 
virtual const VectorVariableGradientcoupledVectorNeighborGradientOld (const std::string &var_name, unsigned int comp=0)
 
virtual const VectorVariableGradientcoupledVectorNeighborGradientOlder (const std::string &var_name, unsigned int comp=0)
 
virtual const VariableSecondcoupledNeighborSecond (const std::string &var_name, unsigned int i=0)
 
virtual const VariableValuecoupledNeighborDofValues (const std::string &var_name, unsigned int comp=0)
 
virtual const VariableValuecoupledNeighborDofValuesOld (const std::string &var_name, unsigned int comp=0)
 
virtual const VariableValuecoupledNeighborDofValuesOlder (const std::string &var_name, unsigned int comp=0)
 
const std::map< std::string, std::vector< MooseVariableFEBase * > > & getCoupledVars ()
 Get the list of coupled variables. More...
 
const std::vector< MooseVariableFEBase * > & getCoupledMooseVars () const
 Get the list of all coupled variables. More...
 
const std::vector< MooseVariable * > & getCoupledStandardMooseVars () const
 Get the list of standard coupled variables. More...
 
const std::vector< VectorMooseVariable * > & getCoupledVectorMooseVars () const
 Get the list of vector coupled variables. More...
 
void addFEVariableCoupleableVectorTag (TagID tag)
 
void addFEVariableCoupleableMatrixTag (TagID tag)
 
std::set< TagID > & getFEVariableCoupleableVectorTags ()
 
std::set< TagID > & getFEVariableCoupleableMatrixTags ()
 
template<ComputeStage compute_stage>
ADVariableValue * getADDefaultValue (const std::string &var_name)
 Helper method to return (and insert if necessary) the default value for Automatic Differentiation for an uncoupled variable. More...
 
template<>
VariableValuegetADDefaultValue (const std::string &var_name)
 
template<>
VariableValuegetADDefaultValue (const std::string &var_name)
 
template<ComputeStage compute_stage>
ADVectorVariableValue * getADDefaultVectorValue (const std::string &var_name)
 Helper method to return (and insert if necessary) the default vector value for Automatic Differentiation for an uncoupled variable. More...
 
template<>
VectorVariableValuegetADDefaultVectorValue (const std::string &var_name)
 
template<>
VectorVariableValuegetADDefaultVectorValue (const std::string &var_name)
 
template<ComputeStage compute_stage>
ADVariableGradient & getADDefaultGradient ()
 Helper method to return (and insert if necessary) the default gradient for Automatic Differentiation for an uncoupled variable. More...
 
template<>
VariableGradientgetADDefaultGradient ()
 
template<>
VariableGradientgetADDefaultGradient ()
 
template<ComputeStage compute_stage>
ADVectorVariableGradient & getADDefaultVectorGradient ()
 Helper method to return (and insert if necessary) the default gradient for Automatic Differentiation for an uncoupled vector variable. More...
 
template<>
VectorVariableGradientgetADDefaultVectorGradient ()
 
template<>
VectorVariableGradientgetADDefaultVectorGradient ()
 
template<ComputeStage compute_stage>
ADVariableSecond & getADDefaultSecond ()
 Helper method to return (and insert if necessary) the default second derivatives for Automatic Differentiation for an uncoupled variable. More...
 
template<>
VariableSecondgetADDefaultSecond ()
 
template<>
VariableSecondgetADDefaultSecond ()
 
const std::vector< MooseVariableScalar * > & getCoupledMooseScalarVars ()
 Get the list of coupled scalar variables. More...
 
std::set< TagID > & getScalarVariableCoupleableVectorTags ()
 
std::set< TagID > & getScalarVariableCoupleableMatrixTags ()
 
void addScalarVariableCoupleableVectorTag (TagID tag)
 
void addScalarVariableCoupleableMatrixTag (TagID tag)
 
const std::set< MooseVariableFEBase * > & getMooseVariableDependencies () const
 Retrieve the set of MooseVariableFEBases that this object depends on. More...
 
MooseVariableFE< Real > * mooseVariable () const
 Get the variable that this object is using. More...
 
virtual void meshChanged ()
 Called on this object when the mesh changes. More...
 
template<typename T >
const MaterialProperty< T > & getNeighborMaterialProperty (const std::string &name)
 Retrieve the property named "name". More...
 
template<typename T >
const ADMaterialPropertyObject< T > & getNeighborADMaterialProperty (const std::string &name)
 Retrieve the ADMaterialProperty named "name". More...
 
template<typename T >
const MaterialProperty< T > & getNeighborMaterialPropertyOld (const std::string &name)
 
template<typename T >
const MaterialProperty< T > & getNeighborMaterialPropertyOlder (const std::string &name)
 
template<typename T >
std::pair< const MaterialProperty< T > *, std::set< SubdomainID > > getBlockMaterialProperty (const MaterialPropertyName &name)
 Retrieve pointer to a material property with the mesh blocks where it is defined The name required by this method is the name defined in the input file. More...
 
template<typename T >
const MaterialProperty< T > & getZeroMaterialProperty (const std::string &prop_name)
 Return a material property that is initialized to zero by default and does not need to (but can) be declared by another material. More...
 
std::set< SubdomainIDgetMaterialPropertyBlocks (const std::string &name)
 Retrieve the block ids that the material property is defined. More...
 
std::vector< SubdomainName > getMaterialPropertyBlockNames (const std::string &name)
 Retrieve the block names that the material property is defined. More...
 
std::set< BoundaryIDgetMaterialPropertyBoundaryIDs (const std::string &name)
 Retrieve the boundary ids that the material property is defined. More...
 
std::vector< BoundaryName > getMaterialPropertyBoundaryNames (const std::string &name)
 Retrieve the boundary namess that the material property is defined. More...
 
void checkBlockAndBoundaryCompatibility (std::shared_ptr< Material > discrete)
 Check if block and boundary restrictions of a given material are compatible with the current material. More...
 
template<>
MaterialgetMaterialByName (const std::string &name, bool no_warn)
 
template<>
MaterialgetMaterialByName (const std::string &name, bool no_warn)
 
void statefulPropertiesAllowed (bool)
 Derived classes can declare whether or not they work with stateful material properties. More...
 
bool getMaterialPropertyCalled () const
 Returns true if getMaterialProperty() has been called, false otherwise. More...
 
const std::set< unsigned int > & getMatPropDependencies () const
 Retrieve the set of material properties that this object depends on. More...
 
template<>
const MaterialProperty< Real > * defaultMaterialProperty (const std::string &name)
 
void useVectorTag (const TagName &tag_name)
 
void useVectorTag (TagID tag_id)
 
void useMatrixTag (const TagName &tag_name)
 
void useMatrixTag (TagID tag_id)
 
bool isVectorTagged ()
 
bool isMatrixTagged ()
 
const std::set< TagID > & getVectorTags () const
 
const std::set< TagID > & getMatrixTags () const
 
void prepareVectorTag (Assembly &assembly, unsigned int ivar)
 Prepare data for computing element residual the according to active tags. 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 prepareMatrixTag (Assembly &assembly, unsigned int ivar, unsigned int jvar)
 Prepare data for computing element jacobian according to the ative tags. More...
 
void prepareMatrixTagNeighbor (Assembly &assembly, unsigned int ivar, unsigned int jvar, Moose::DGJacobianType type)
 Prepare data for computing element jacobian according to the ative tags for DG and interface kernels. 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 assignTaggedLocalMatrix ()
 Local Jacobian blocks will assigned as the current local kernel Jacobian. More...
 
template<typename T >
const MaterialProperty< T > & getMaterialProperty (const std::string &name)
 Retrieve reference to material property or one of it's old or older values. More...
 
template<typename T >
const ADMaterialPropertyObject< T > & getADMaterialProperty (const std::string &name)
 
template<typename T >
const MaterialProperty< T > & getMaterialPropertyOld (const std::string &name)
 
template<typename T >
const MaterialProperty< T > & getMaterialPropertyOlder (const std::string &name)
 
template<typename T >
const MaterialProperty< T > & getMaterialPropertyByName (const MaterialPropertyName &name)
 Retrieve reference to material property or its old or older value The name required by this method is the name defined in the input file. More...
 
template<typename T >
const ADMaterialPropertyObject< T > & getADMaterialPropertyByName (const MaterialPropertyName &name)
 
template<typename T >
const MaterialProperty< T > & getMaterialPropertyOldByName (const MaterialPropertyName &name)
 
template<typename T >
const MaterialProperty< T > & getMaterialPropertyOlderByName (const MaterialPropertyName &name)
 
MaterialgetMaterial (const std::string &name)
 Return a Material reference - usable for computing directly. More...
 
template<ComputeStage >
MaterialgetMaterial (const std::string &name)
 
MaterialgetMaterialByName (const std::string &name, bool no_warn=false)
 
template<ComputeStage >
MaterialgetMaterialByName (const std::string &name, bool no_warn=false)
 
template<typename T >
bool hasMaterialProperty (const std::string &name)
 Check if the material property exists. More...
 
template<typename T >
bool hasMaterialPropertyByName (const std::string &name)
 

Static Public Member Functions

static bool restricted (const std::set< BoundaryID > &ids)
 Helper for determining if the object is boundary restricted. More...
 
static ExecFlagEnum getExecuteOptions ()
 (DEPRECATED) Returns the available options for the 'execute_on' input parameters TODO: ExecFlagType More...
 

Public Attributes

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

Protected Member Functions

virtual Real computeQpResidual (Moose::DGResidualType type)=0
 Compute residuals at quadrature points. More...
 
virtual Real computeQpJacobian (Moose::DGJacobianType type)=0
 Compute jacobians at quadrature points. More...
 
virtual Real computeQpOffDiagJacobian (Moose::DGJacobianType type, unsigned int jvar)
 compute off-diagonal jacobian components at quadrature points More...
 
const Real & getNeighborElemVolume ()
 The volume of the current neighbor. More...
 
bool hasBoundaryMaterialPropertyHelper (const std::string &prop_name) const
 A helper method to avoid circular #include problems. More...
 
virtual bool isCoupled (const std::string &var_name, unsigned int i=0)
 Returns true if a variables has been coupled as name. More...
 
unsigned int coupledComponents (const std::string &var_name)
 Number of coupled components. More...
 
virtual void coupledCallback (const std::string &var_name, bool is_old)
 
virtual unsigned int coupled (const std::string &var_name, unsigned int comp=0)
 Returns the index for a coupled variable by name. More...
 
virtual const VariableValuecoupledValue (const std::string &var_name, unsigned int comp=0)
 Returns value of a coupled variable. More...
 
template<ComputeStage compute_stage>
const ADVariableValue & adCoupledValueTemplate (const std::string &var_name, unsigned int comp=0)
 Returns value of a coupled variable for use in Automatic Differentiation. More...
 
template<ComputeStage compute_stage>
const ADVectorVariableValue & adCoupledVectorValueTemplate (const std::string &var_name, unsigned int comp=0)
 Returns value of a coupled vector variable for use in Automatic Differentiation. More...
 
virtual const VariableValuecoupledVectorTagValue (const std::string &var_name, TagID tag, unsigned int comp=0)
 Returns value of a coupled variable for a given tag. More...
 
virtual const VariableValuecoupledMatrixTagValue (const std::string &var_name, TagID tag, unsigned int comp=0)
 Returns value of a coupled variable for a given tag. More...
 
virtual const VectorVariableValuecoupledVectorValue (const std::string &var_name, unsigned int comp=0)
 Returns value of a coupled vector variable. More...
 
virtual VariableValuewritableCoupledValue (const std::string &var_name, unsigned int comp=0)
 Returns a writable reference to a coupled variable. More...
 
virtual const VariableValuecoupledValueOld (const std::string &var_name, unsigned int comp=0)
 Returns an old value from previous time step of a coupled variable. More...
 
virtual const VariableValuecoupledValueOlder (const std::string &var_name, unsigned int comp=0)
 Returns an old value from two time steps previous of a coupled variable. More...
 
virtual const VariableValuecoupledValuePreviousNL (const std::string &var_name, unsigned int comp=0)
 Returns value of previous Newton iterate of a coupled variable. More...
 
virtual const VectorVariableValuecoupledVectorValueOld (const std::string &var_name, unsigned int comp=0)
 Returns an old value from previous time step of a coupled vector variable. More...
 
virtual const VectorVariableValuecoupledVectorValueOlder (const std::string &var_name, unsigned int comp=0)
 Returns an old value from two time steps previous of a coupled vector variable. More...
 
virtual const VariableGradientcoupledGradient (const std::string &var_name, unsigned int comp=0)
 Returns gradient of a coupled variable. More...
 
template<ComputeStage compute_stage>
const ADVariableGradient & adCoupledGradientTemplate (const std::string &var_name, unsigned int comp=0)
 Returns gradient of a coupled variable for use in Automatic Differentation. More...
 
template<ComputeStage compute_stage>
const ADVectorVariableGradient & adCoupledVectorGradientTemplate (const std::string &var_name, unsigned int comp=0)
 Returns gradient of a coupled vector variable for use in Automatic Differentation. More...
 
template<ComputeStage compute_stage>
const ADVariableSecond & adCoupledSecondTemplate (const std::string &var_name, unsigned int comp=0)
 Returns second derivatives of a coupled variable for use in Automatic Differentation. More...
 
template<ComputeStage compute_stage>
const ADVectorVariableSecond & adCoupledVectorSecondTemplate (const std::string &var_name, unsigned int comp=0)
 Returns second derivatives of a coupled vector variable for use in Automatic Differentation. More...
 
virtual const VariableGradientcoupledGradientOld (const std::string &var_name, unsigned int comp=0)
 Returns an old gradient from previous time step of a coupled variable. More...
 
virtual const VariableGradientcoupledGradientOlder (const std::string &var_name, unsigned int comp=0)
 Returns an old gradient from two time steps previous of a coupled variable. More...
 
virtual const VariableGradientcoupledGradientPreviousNL (const std::string &var_name, unsigned int comp=0)
 Returns gradient of a coupled variable for previous Newton iterate. More...
 
virtual const VariableGradientcoupledGradientDot (const std::string &var_name, unsigned int comp=0)
 Time derivative of the gradient of a coupled variable. More...
 
virtual const VariableGradientcoupledGradientDotDot (const std::string &var_name, unsigned int comp=0)
 Second time derivative of the gradient of a coupled variable. More...
 
virtual const VectorVariableGradientcoupledVectorGradient (const std::string &var_name, unsigned int comp=0)
 Returns gradient of a coupled vector variable. More...
 
virtual const VectorVariableGradientcoupledVectorGradientOld (const std::string &var_name, unsigned int comp=0)
 Returns an old gradient from previous time step of a coupled vector variable. More...
 
virtual const VectorVariableGradientcoupledVectorGradientOlder (const std::string &var_name, unsigned int comp=0)
 Returns an old gradient from two time steps previous of a coupled vector variable. More...
 
virtual const VectorVariableCurlcoupledCurl (const std::string &var_name, unsigned int comp=0)
 Returns curl of a coupled variable. More...
 
virtual const VectorVariableCurlcoupledCurlOld (const std::string &var_name, unsigned int comp=0)
 Returns an old curl from previous time step of a coupled variable. More...
 
virtual const VectorVariableCurlcoupledCurlOlder (const std::string &var_name, unsigned int comp=0)
 Returns an old curl from two time steps previous of a coupled variable. More...
 
virtual const VariableSecondcoupledSecond (const std::string &var_name, unsigned int comp=0)
 Returns second derivative of a coupled variable. More...
 
virtual const VariableSecondcoupledSecondOld (const std::string &var_name, unsigned int comp=0)
 Returns an old second derivative from previous time step of a coupled variable. More...
 
virtual const VariableSecondcoupledSecondOlder (const std::string &var_name, unsigned int comp=0)
 Returns an old second derivative from two time steps previous of a coupled variable. More...
 
virtual const VariableSecondcoupledSecondPreviousNL (const std::string &var_name, unsigned int comp=0)
 Returns second derivative of a coupled variable for the previous Newton iterate. More...
 
virtual const VariableValuecoupledDot (const std::string &var_name, unsigned int comp=0)
 Time derivative of a coupled variable. More...
 
virtual const VariableValuecoupledDotDot (const std::string &var_name, unsigned int comp=0)
 Second time derivative of a coupled variable. More...
 
virtual const VariableValuecoupledDotOld (const std::string &var_name, unsigned int comp=0)
 Old time derivative of a coupled variable. More...
 
virtual const VariableValuecoupledDotDotOld (const std::string &var_name, unsigned int comp=0)
 Old second time derivative of a coupled variable. More...
 
template<ComputeStage compute_stage>
const ADVariableValue & adCoupledDotTemplate (const std::string &var_name, unsigned int comp=0)
 Time derivative of a coupled variable for ad simulations. More...
 
template<ComputeStage compute_stage>
const ADVectorVariableValue & adCoupledVectorDotTemplate (const std::string &var_name, unsigned int comp=0)
 Time derivative of a vector coupled variable for ad simulations. More...
 
virtual const VectorVariableValuecoupledVectorDot (const std::string &var_name, unsigned int comp=0)
 Time derivative of a coupled vector variable. More...
 
virtual const VectorVariableValuecoupledVectorDotDot (const std::string &var_name, unsigned int comp=0)
 Second time derivative of a coupled vector variable. More...
 
virtual const VectorVariableValuecoupledVectorDotOld (const std::string &var_name, unsigned int comp=0)
 Old time derivative of a coupled vector variable. More...
 
virtual const VectorVariableValuecoupledVectorDotDotOld (const std::string &var_name, unsigned int comp=0)
 Old second time derivative of a coupled vector variable. More...
 
virtual const VariableValuecoupledDotDu (const std::string &var_name, unsigned int comp=0)
 Time derivative of a coupled variable with respect to the coefficients. More...
 
virtual const VariableValuecoupledDotDotDu (const std::string &var_name, unsigned int comp=0)
 Second time derivative of a coupled variable with respect to the coefficients. More...
 
template<typename T >
const T & coupledNodalValue (const std::string &var_name, unsigned int comp=0)
 Returns nodal values of a coupled variable. More...
 
template<typename T , ComputeStage compute_stage>
const Moose::ValueType< T, compute_stage >::typeadCoupledNodalValueTemplate (const std::string &var_name, unsigned int comp=0)
 Returns AD nodal values of a coupled variable. More...
 
template<typename T >
const T & coupledNodalValueOld (const std::string &var_name, unsigned int comp=0)
 Returns an old nodal value from previous time step of a coupled variable. More...
 
template<typename T >
const T & coupledNodalValueOlder (const std::string &var_name, unsigned int comp=0)
 Returns an old nodal value from two time steps previous of a coupled variable. More...
 
template<typename T >
const T & coupledNodalValuePreviousNL (const std::string &var_name, unsigned int comp=0)
 Returns nodal values of a coupled variable for previous Newton iterate. More...
 
template<typename T >
const T & coupledNodalDot (const std::string &var_name, unsigned int comp=0)
 Nodal values of time derivative of a coupled variable. More...
 
template<typename T >
const T & getNodalDefaultValue (const std::string &var_name, unsigned int comp=0)
 Get nodal default value. More...
 
template<>
const RealVectorValue & getNodalDefaultValue (const std::string &var_name, unsigned int)
 
virtual const VariableValuecoupledNodalDotDot (const std::string &var_name, unsigned int comp=0)
 Nodal values of second time derivative of a coupled variable. More...
 
virtual const VariableValuecoupledNodalDotOld (const std::string &var_name, unsigned int comp=0)
 Nodal values of old time derivative of a coupled variable. More...
 
virtual const VariableValuecoupledNodalDotDotOld (const std::string &var_name, unsigned int comp=0)
 Nodal values of old second time derivative of a coupled variable. More...
 
virtual const VariableValuecoupledDofValues (const std::string &var_name, unsigned int comp=0)
 Returns DoFs in the current solution vector of a coupled variable for the local element. More...
 
virtual const VariableValuecoupledDofValuesOld (const std::string &var_name, unsigned int comp=0)
 Returns DoFs in the old solution vector of a coupled variable for the local element. More...
 
virtual const VariableValuecoupledDofValuesOlder (const std::string &var_name, unsigned int comp=0)
 Returns DoFs in the older solution vector of a coupled variable for the local element. More...
 
template<ComputeStage compute_stage>
const ADVariableValue & adZeroValueTemplate ()
 Template method that returns _zero to RESIDUAL computing objects and _ad_zero to JACOBIAN computing objects. More...
 
template<>
const VariableValueadZeroValueTemplate ()
 
template<>
const VariableValueadZeroValueTemplate ()
 
template<ComputeStage compute_stage>
const ADVariableGradient & adZeroGradientTemplate ()
 Template method that returns _grad_zero to RESIDUAL computing objects and _ad_grad_zero to JACOBIAN computing objects. More...
 
template<>
const VariableGradientadZeroGradientTemplate ()
 
template<>
const VariableGradientadZeroGradientTemplate ()
 
template<ComputeStage compute_stage>
const ADVariableSecond & adZeroSecondTemplate ()
 Retrieve a zero second for automatic differentiation. More...
 
template<>
const VariableSecondadZeroSecondTemplate ()
 
template<>
const VariableSecondadZeroSecondTemplate ()
 
void checkVar (const std::string &var_name)
 Check that the right kind of variable is being coupled in. More...
 
void checkVar (const std::string &var_name)
 Check that the right kind of variable is being coupled in. More...
 
MooseVariableFEBasegetFEVar (const std::string &var_name, unsigned int comp)
 Extract pointer to a base finite element coupled variable. More...
 
template<typename T >
MooseVariableFE< T > * getVarHelper (const std::string &var_name, unsigned int comp)
 Helper that segues off to either getVar of getVectorVar depending on template paramter. More...
 
MooseVariablegetVar (const std::string &var_name, unsigned int comp)
 Extract pointer to a coupled variable. More...
 
VectorMooseVariablegetVectorVar (const std::string &var_name, unsigned int comp)
 Extract pointer to a coupled vector variable. More...
 
void validateExecutionerType (const std::string &name, const std::string &fn_name) const
 Checks to make sure that the current Executioner has set "_is_transient" when old/older values are coupled in. More...
 
void validateExecutionerType (const std::string &name, const std::string &fn_name) const
 Checks to make sure that the current Executioner has set "_is_transient" when old/older values are coupled in. More...
 
VariableValuegetDefaultValue (const std::string &var_name)
 Helper method to return (and insert if necessary) the default value for an uncoupled variable. More...
 
virtual bool isCoupledScalar (const std::string &var_name, unsigned int i=0)
 Returns true if a variables has been coupled_as name. More...
 
virtual unsigned int coupledScalarComponents (const std::string &var_name)
 Return the number of components to the coupled scalar variable. More...
 
virtual unsigned int coupledScalar (const std::string &var_name, unsigned int comp=0)
 Returns the index for a scalar coupled variable by name. More...
 
virtual Order coupledScalarOrder (const std::string &var_name, unsigned int comp=0)
 Returns the order for a scalar coupled variable by name. More...
 
virtual VariableValuecoupledScalarValue (const std::string &var_name, unsigned int comp=0)
 Returns value of a scalar coupled variable. More...
 
virtual VariableValuecoupledVectorTagScalarValue (const std::string &var_name, TagID tag, unsigned int comp=0)
 Returns value of a scalar coupled variable. More...
 
virtual VariableValuecoupledMatrixTagScalarValue (const std::string &var_name, TagID tag, unsigned int comp=0)
 Returns value of a scalar coupled variable. More...
 
virtual VariableValuecoupledScalarValueOld (const std::string &var_name, unsigned int comp=0)
 Returns the old (previous time step) value of a scalar coupled variable. More...
 
virtual VariableValuecoupledScalarValueOlder (const std::string &var_name, unsigned int comp=0)
 Returns the older (two time steps previous) value of a scalar coupled variable. More...
 
virtual VariableValuecoupledScalarDot (const std::string &var_name, unsigned int comp=0)
 Returns the time derivative of a scalar coupled variable. More...
 
virtual VariableValuecoupledScalarDotDot (const std::string &var_name, unsigned int comp=0)
 Returns the second time derivative of a scalar coupled variable. More...
 
virtual VariableValuecoupledScalarDotOld (const std::string &var_name, unsigned int comp=0)
 Returns the old time derivative of a scalar coupled variable. More...
 
virtual VariableValuecoupledScalarDotDotOld (const std::string &var_name, unsigned int comp=0)
 Returns the old second time derivative of a scalar coupled variable. More...
 
virtual VariableValuecoupledScalarDotDu (const std::string &var_name, unsigned int comp=0)
 Time derivative of a scalar coupled variable with respect to the coefficients. More...
 
virtual VariableValuecoupledScalarDotDotDu (const std::string &var_name, unsigned int comp=0)
 Second time derivative of a scalar coupled variable with respect to the coefficients. More...
 
MooseVariableScalargetScalarVar (const std::string &var_name, unsigned int comp)
 Extract pointer to a scalar coupled variable. More...
 
void addMooseVariableDependency (MooseVariableFEBase *var)
 Call this function to add the passed in MooseVariableFEBase as a variable that this object depends on. More...
 
void addMooseVariableDependency (std::vector< MooseVariableFEBase *> vars)
 
virtual const OutputTools< Real >::VariableValueneighborValue ()
 The value of the variable this object is operating on evaluated on the "neighbor" element. More...
 
const VectorVariableValueneighborValue ()
 
virtual const OutputTools< Real >::VariableValueneighborValueOld ()
 The old value of the variable this object is operating on evaluated on the "neighbor" element. More...
 
const VectorVariableValueneighborValueOld ()
 
virtual const OutputTools< Real >::VariableValueneighborValueOlder ()
 The older value of the variable this object is operating on evaluated on the "neighbor" element. More...
 
const VectorVariableValueneighborValueOlder ()
 
virtual const OutputTools< Real >::VariableGradientneighborGradient ()
 The gradient of the variable this object is operating on evaluated on the "neighbor" element. More...
 
virtual const OutputTools< Real >::VariableGradientneighborGradientOld ()
 The old gradient of the variable this object is operating on evaluated on the "neighbor" element. More...
 
virtual const OutputTools< Real >::VariableGradientneighborGradientOlder ()
 The older gradient of the variable this object is operating on evaluated on the "neighbor" element. More...
 
virtual const OutputTools< Real >::VariableSecondneighborSecond ()
 The second derivative of the variable this object is operating on evaluated on the "neighbor" element. More...
 
virtual const OutputTools< Real >::VariableSecondneighborSecondOld ()
 The old second derivative of the variable this object is operating on evaluated on the "neighbor" element. More...
 
virtual const OutputTools< Real >::VariableSecondneighborSecondOlder ()
 The older second derivative of the variable this object is operating on evaluated on the "neighbor" element. More...
 
virtual const OutputTools< Real >::VariableTestSecondneighborSecondTest ()
 The second derivative of the neighbor's test function. More...
 
virtual const OutputTools< Real >::VariablePhiSecondneighborSecondPhi ()
 The second derivative of the neighbor's shape function. More...
 
virtual const OutputTools< Real >::VariableValuevalue ()
 The value of the variable this object is operating on. More...
 
virtual const OutputTools< Real >::VariableValuevalueOld ()
 The old value of the variable this object is operating on. More...
 
virtual const OutputTools< Real >::VariableValuevalueOlder ()
 The older value of the variable this object is operating on. More...
 
virtual const OutputTools< Real >::VariableValuedot ()
 The time derivative of the variable this object is operating on. More...
 
virtual const OutputTools< Real >::VariableValuedotDot ()
 The second time derivative of the variable this object is operating on. More...
 
virtual const OutputTools< Real >::VariableValuedotOld ()
 The old time derivative of the variable this object is operating on. More...
 
virtual const OutputTools< Real >::VariableValuedotDotOld ()
 The old second time derivative of the variable this object is operating on. More...
 
virtual const VariableValuedotDu ()
 The derivative of the time derivative of the variable this object is operating on with respect to this variable's coefficients. More...
 
virtual const VariableValuedotDotDu ()
 The derivative of the second time derivative of the variable this object is operating on with respect to this variable's coefficients. More...
 
virtual const OutputTools< Real >::VariableGradientgradient ()
 The gradient of the variable this object is operating on. More...
 
virtual const OutputTools< Real >::VariableGradientgradientOld ()
 The old gradient of the variable this object is operating on. More...
 
virtual const OutputTools< Real >::VariableGradientgradientOlder ()
 The older gradient of the variable this object is operating on. More...
 
virtual const OutputTools< Real >::VariableSecondsecond ()
 The second derivative of the variable this object is operating on. More...
 
virtual const OutputTools< Real >::VariableSecondsecondOld ()
 The old second derivative of the variable this object is operating on. More...
 
virtual const OutputTools< Real >::VariableSecondsecondOlder ()
 The older second derivative of the variable this object is operating on. More...
 
virtual const OutputTools< Real >::VariableTestSecondsecondTest ()
 The second derivative of the test function. More...
 
virtual const OutputTools< Real >::VariableTestSecondsecondTestFace ()
 The second derivative of the test function on the current face. More...
 
virtual const OutputTools< Real >::VariablePhiSecondsecondPhi ()
 The second derivative of the trial function. More...
 
virtual const OutputTools< Real >::VariablePhiSecondsecondPhiFace ()
 The second derivative of the trial function on the current face. More...
 
template<typename T >
T & declareRestartableData (std::string data_name)
 Declare a piece of data as "restartable". More...
 
template<typename T >
T & declareRestartableData (std::string data_name, const T &init_value)
 Declare a piece of data as "restartable" and initialize it. More...
 
template<typename T >
T & declareRestartableDataWithContext (std::string data_name, void *context)
 Declare a piece of data as "restartable". More...
 
template<typename T >
T & declareRestartableDataWithContext (std::string data_name, const T &init_value, void *context)
 Declare a piece of data as "restartable" and initialize it. More...
 
template<typename T >
T & declareRecoverableData (std::string data_name)
 Declare a piece of data as "recoverable". More...
 
template<typename T >
T & declareRecoverableData (std::string data_name, const T &init_value)
 Declare a piece of data as "restartable" and initialize it. More...
 
template<typename T >
T & declareRestartableDataWithObjectName (std::string data_name, std::string object_name)
 Declare a piece of data as "restartable". More...
 
template<typename T >
T & declareRestartableDataWithObjectNameWithContext (std::string data_name, std::string object_name, void *context)
 Declare a piece of data as "restartable". More...
 
void checkMaterialProperty (const std::string &name)
 A helper method for checking material properties This method was required to avoid a compiler problem with the template getMaterialProperty method. More...
 
void markMatPropRequested (const std::string &)
 A proxy method for _mi_feproblem.markMatPropRequested(name) More...
 
std::string deducePropertyName (const std::string &name)
 Small helper to look up a material property name through the input parameter keys. More...
 
template<typename T >
const MaterialProperty< T > * defaultMaterialProperty (const std::string &name)
 Helper function to parse default material property values. More...
 
template<typename T >
const ADMaterialPropertyObject< T > * defaultADMaterialProperty (const std::string &name)
 Helper function to parse default material property values. More...
 
template<>
const ADMaterialPropertyObject< Real > * defaultADMaterialProperty (const std::string &name)
 
template<>
const ADMaterialPropertyObject< RealVectorValue > * defaultADMaterialProperty (const std::string &name)
 

Protected Attributes

SubProblem_subproblem
 Reference to the controlling finite element problem. More...
 
SystemBase_sys
 Reference to the nonlinear system. More...
 
THREAD_ID _tid
 The thread ID. More...
 
Assembly_assembly
 Problem assembly. More...
 
MooseVariable_var
 The master side MooseVariable. More...
 
MooseMesh_mesh
 The problem mesh. More...
 
const Elem *& _current_elem
 Pointer reference to the current element. More...
 
const Real & _current_elem_volume
 The volume (or length) of the current element. More...
 
const Elem *& _neighbor_elem
 The neighboring element. More...
 
unsigned int & _current_side
 Current side. More...
 
const Elem *& _current_side_elem
 Current side element. More...
 
const Real & _current_side_volume
 The volume (or length) of the current side. More...
 
const Moose::CoordinateSystemType_coord_sys
 Coordinate system. More...
 
unsigned int _qp
 Current quadrature point. More...
 
const MooseArray< Point > & _q_point
 Array that holds element quadrature point coordinates. More...
 
QBase *& _qrule
 Quadrature rule. More...
 
const MooseArray< Real > & _JxW
 Elemtn Jacobian/quadrature weight. More...
 
const MooseArray< Real > & _coord
 Coordinate transformation value; relevant in axisymmetric simulations for example. More...
 
unsigned int _i
 Index for test and trial functions. More...
 
unsigned int _j
 
const VariableValue_u
 Holds the current solution at the current quadrature point on the face. More...
 
const VariableGradient_grad_u
 Holds the current solution gradient at the current quadrature point on the face. More...
 
const VariablePhiValue_phi
 shape function More...
 
const VariablePhiGradient_grad_phi
 Shape function gradient. More...
 
const VariableTestValue_test
 Side shape function. More...
 
const VariableTestGradient_grad_test
 Gradient of side shape function. More...
 
const MooseArray< Point > & _normals
 Normal vectors at the quadrature points. More...
 
MooseVariable_neighbor_var
 Coupled neighbor variable. More...
 
const VariableValue_neighbor_value
 Coupled neighbor variable value. More...
 
const VariableGradient_grad_neighbor_value
 Coupled neighbor variable gradient. More...
 
const VariablePhiValue_phi_neighbor
 Side neighbor shape function. More...
 
const VariablePhiGradient_grad_phi_neighbor
 Gradient of side neighbor shape function. More...
 
const VariableTestValue_test_neighbor
 Side neighbor test function. More...
 
const VariableTestGradient_grad_test_neighbor
 Gradient of side neighbor shape function. More...
 
DenseMatrix< Number > _local_kxx
 Holds residual entries as they are accumulated by this InterfaceKernel This variable is temporarily reserved for RattleSnake. More...
 
MultiMooseEnum _save_in_var_side
 MultiMooseEnum specifying whether residual save-in aux variables correspond to master or slave side. More...
 
std::vector< AuxVariableName > _save_in_strings
 The names of the aux variables that will be used to save-in residuals (includes both master and slave variable names) More...
 
bool _has_master_residuals_saved_in
 Whether there are master residual aux variables. More...
 
std::vector< MooseVariableFEBase * > _master_save_in_residual_variables
 The aux variables to save the master residual contributions to. More...
 
bool _has_slave_residuals_saved_in
 Whether there are slave residual aux variables. More...
 
std::vector< MooseVariableFEBase * > _slave_save_in_residual_variables
 The aux variables to save the slave contributions to. More...
 
MultiMooseEnum _diag_save_in_var_side
 MultiMooseEnum specifying whether jacobian save-in aux variables correspond to master or slave side. More...
 
std::vector< AuxVariableName > _diag_save_in_strings
 The names of the aux variables that will be used to save-in jacobians (includes both master and slave variable names) More...
 
bool _has_master_jacobians_saved_in
 Whether there are master jacobian aux variables. More...
 
std::vector< MooseVariableFEBase * > _master_save_in_jacobian_variables
 The aux variables to save the diagonal Jacobian contributions of the master variables to. More...
 
bool _has_slave_jacobians_saved_in
 Whether there are slave jacobian aux variables. More...
 
std::vector< MooseVariableFEBase * > _slave_save_in_jacobian_variables
 The aux variables to save the diagonal Jacobian contributions of the slave variables to. More...
 
const InputParameters_pars
 Parameters of this object, references the InputParameters stored in the InputParametersWarehouse. More...
 
MooseApp_app
 The MooseApp this object is associated with. More...
 
const std::string & _type
 The type of this object (the Class name) More...
 
const std::string & _name
 The name of this object, reference to value stored in InputParameters. More...
 
const bool & _enabled
 Reference to the "enable" InputParaemters, used by Controls for toggling on/off MooseObjects. More...
 
const ExecFlagEnum_execute_enum
 Execute settings for this oejct. More...
 
const std::vector< ExecFlagType_exec_flags
 (DEPRECATED) execution flag (when is the object executed/evaluated) TODO: ExecFlagType 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
 
bool _neighbor_nodal
 
const InputParameters_c_parameters
 
const std::string & _c_name
 The name of the object this interface is part of. More...
 
FEProblemBase_c_fe_problem
 
std::map< std::string, std::vector< MooseVariableFEBase * > > _coupled_vars
 Coupled vars whose values we provide. More...
 
std::vector< MooseVariableFEBase * > _coupled_moose_vars
 Vector of all coupled variables. More...
 
std::vector< MooseVariable * > _coupled_standard_moose_vars
 Vector of standard coupled variables. More...
 
std::vector< VectorMooseVariable * > _coupled_vector_moose_vars
 Vector of vector coupled variables. More...
 
bool _c_nodal
 True if we provide coupling to nodal values. More...
 
bool _c_is_implicit
 True if implicit value is required. More...
 
THREAD_ID _c_tid
 Thread ID of the thread using this object. More...
 
std::map< std::string, std::vector< VariableValue * > > _default_value
 Will hold the default value for optional coupled variables. More...
 
std::map< std::string, VariableValue * > _default_value
 Will hold the default value for optional coupled scalar variables. More...
 
std::map< std::string, MooseArray< DualReal > * > _ad_default_value
 Will hold the default value for optional coupled variables for automatic differentiation. More...
 
std::map< std::string, VectorVariableValue * > _default_vector_value
 Will hold the default value for optional vector coupled variables. More...
 
std::map< std::string, MooseArray< DualRealVectorValue > * > _ad_default_vector_value
 Will hold the default value for optional vector coupled variables for automatic differentiation. More...
 
VariableValue _default_value_zero
 This will always be zero because the default values for optionally coupled variables is always constant and this is used for time derivative info. More...
 
VariableGradient _default_gradient
 This will always be zero because the default values for optionally coupled variables is always constant. More...
 
MooseArray< DualRealVectorValue_ad_default_gradient
 This will always be zero because the default values for optionally coupled variables is always constant. More...
 
MooseArray< DualRealTensorValue_ad_default_vector_gradient
 This will always be zero because the default values for optionally coupled vector variables is always constant. More...
 
VariableSecond _default_second
 This will always be zero because the default values for optionally coupled variables is always constant. More...
 
MooseArray< DualRealTensorValue_ad_default_second
 This will always be zero because the default values for optionally coupled variables is always constant. More...
 
const VariableValue_zero
 Zero value of a variable. More...
 
const MooseArray< DualReal > & _ad_zero
 
const VariableGradient_grad_zero
 Zero gradient of a variable. More...
 
const MooseArray< DualRealVectorValue > & _ad_grad_zero
 
const VariableSecond_second_zero
 Zero second derivative of a variable. More...
 
const MooseArray< DualRealTensorValue > & _ad_second_zero
 
const VariablePhiSecond_second_phi_zero
 Zero second derivative of a test function. More...
 
const VectorVariableValue_vector_zero
 Zero value of a vector variable. More...
 
const VectorVariableCurl_vector_curl_zero
 Zero value of the curl of a vector variable. More...
 
VectorVariableValue _default_vector_value_zero
 This will always be zero because the default values for optionally coupled variables is always constant and this is used for time derivative info. More...
 
VectorVariableGradient _default_vector_gradient
 This will always be zero because the default values for optionally coupled variables is always constant. More...
 
VectorVariableCurl _default_vector_curl
 This will always be zero because the default values for optionally coupled variables is always constant. More...
 
bool _coupleable_neighbor
 Whether or not this object is a "neighbor" object: ie all of it's coupled values should be neighbor values. More...
 
const InputParameters_sc_parameters
 
const std::string & _sc_name
 The name of the object this interface is part of. More...
 
FEProblemBase_sc_fe_problem
 
std::map< std::string, std::vector< MooseVariableScalar * > > _coupled_scalar_vars
 Coupled vars whose values we provide. More...
 
std::vector< MooseVariableScalar * > _coupled_moose_scalar_vars
 Vector of coupled variables. More...
 
bool _sc_is_implicit
 True if implicit value is required. More...
 
const InputParameters_coupleable_params
 Local InputParameters. More...
 
THREAD_ID _sc_tid
 Thread ID of the thread using this object. More...
 
const Real & _real_zero
 Scalar zero. More...
 
const VariableValue_scalar_zero
 Zero value of a scalar variable. More...
 
const Point & _point_zero
 Zero point. More...
 
bool _nodal
 Whether or not this object is acting only at nodes. More...
 
MooseVariableFE< Real > * _variable
 The variable this object is acting on. More...
 
Assembly_mvi_assembly
 
FEProblemBase_mci_feproblem
 Reference to FEProblemBase instance. More...
 
std::shared_ptr< MaterialData_neighbor_material_data
 
const InputParameters_mi_params
 Parameters of the object with this interface. More...
 
const std::string _mi_name
 The name of the object that this interface belongs to. More...
 
Moose::MaterialDataType _material_data_type
 The type of data. More...
 
std::shared_ptr< MaterialData_material_data
 Pointer to the material data class that stores properties. More...
 
FEProblemBase_mi_feproblem
 Reference to the FEProblemBase class. More...
 
const THREAD_ID _mi_tid
 Current threaded it. More...
 
bool _stateful_allowed
 True by default. More...
 
bool _get_material_property_called
 Initialized to false. More...
 
std::vector< std::unique_ptr< MaterialProperty< Real > > > _default_real_properties
 Storage vector for MaterialProperty<Real> default objects. More...
 
std::vector< std::unique_ptr< ADMaterialPropertyObject< Real > > > _default_ad_real_properties
 Storage vector for ADMaterialPropertyObject<Real> default objects. More...
 
std::vector< std::unique_ptr< ADMaterialPropertyObject< RealVectorValue > > > _default_ad_real_vector_properties
 Storage vector for ADMaterialPropertyObject<RealVectorValue> default objects. More...
 
std::set< unsigned int > _material_property_dependencies
 The set of material properties (as given by their IDs) that this object depends on. More...
 
std::set< TagID_vector_tags
 The vectors this Kernel will contribute to. More...
 
std::set< TagID_matrix_tags
 The matrices this Kernel will contribute to. More...
 
const MooseObject_moose_object
 Moose objct this tag works on. More...
 
const InputParameters_tag_params
 Parameters from moose object. More...
 
std::vector< DenseVector< Number > * > _re_blocks
 Residual blocks Vectors For each Tag. More...
 
std::vector< DenseMatrix< Number > * > _ke_blocks
 Kernel blocks Vectors For each Tag. More...
 
DenseVector< Number > _local_re
 Holds residual entries as they are accumulated by this Kernel. More...
 
DenseMatrix< Number > _local_ke
 Holds residual entries as they are accumulated by this Kernel. More...
 

Static Protected Attributes

static Threads::spin_mutex _resid_vars_mutex
 Mutex that prevents multiple threads from saving into the residual aux_var at the same time. More...
 
static Threads::spin_mutex _jacoby_vars_mutex
 Mutex that prevents multiple threads from saving into the jacobian aux_var at the same time. More...
 

Detailed Description

InterfaceKernel is responsible for interfacing physics across subdomains.

Definition at line 37 of file InterfaceKernel.h.

Member Enumeration Documentation

◆ TEST_TYPE

A flag changing the behavior of hasBoundary.

Enumerator
ALL 
ANY 

Definition at line 35 of file BoundaryRestrictable.h.

Constructor & Destructor Documentation

◆ InterfaceKernel()

InterfaceKernel::InterfaceKernel ( const InputParameters parameters)

Definition at line 80 of file InterfaceKernel.C.

82  BoundaryRestrictable(this, false), // false for _not_ nodal
83  SetupInterface(this),
84  TransientInterface(this),
85  FunctionInterface(this),
86  UserObjectInterface(this),
90  Restartable(this, "InterfaceKernels"),
93  TaggingInterface(this),
94  _subproblem(*getCheckedPointerParam<SubProblem *>("_subproblem")),
95  _sys(*getCheckedPointerParam<SystemBase *>("_sys")),
96  _tid(parameters.get<THREAD_ID>("_tid")),
98  _var(*mooseVariable()),
111  _u(_is_implicit ? _var.sln() : _var.slnOld()),
115  _test(_var.phiFace()),
117  _normals(_var.normals()),
118  _neighbor_var(*getVar("neighbor_var", 0)),
119  _neighbor_value(coupledNeighborValue("neighbor_var")),
125  _save_in_var_side(parameters.get<MultiMooseEnum>("save_in_var_side")),
126  _save_in_strings(parameters.get<std::vector<AuxVariableName>>("save_in")),
127  _diag_save_in_var_side(parameters.get<MultiMooseEnum>("diag_save_in_var_side")),
128  _diag_save_in_strings(parameters.get<std::vector<AuxVariableName>>("diag_save_in"))
129 
130 {
132 
133  if (!parameters.isParamValid("boundary"))
134  mooseError(
135  "In order to use an interface kernel, you must specify a boundary where it will live.");
136 
137  if (parameters.isParamSetByUser("save_in"))
138  {
139  if (_save_in_strings.size() != _save_in_var_side.size())
140  mooseError("save_in and save_in_var_side must be the same length");
141  else
142  {
143  for (unsigned i = 0; i < _save_in_strings.size(); ++i)
144  {
146 
148  mooseError("Trying to use solution variable " + _save_in_strings[i] +
149  " as a save_in variable in " + name());
150 
151  if (_save_in_var_side[i] == "m")
152  {
153  if (var->feType() != _var.feType())
154  mooseError(
155  "Error in " + name() +
156  ". There is a mismatch between the fe_type of the save-in Auxiliary variable "
157  "and the fe_type of the the master side nonlinear "
158  "variable this interface kernel object is acting on.");
159  _master_save_in_residual_variables.push_back(var);
160  }
161  else
162  {
163  if (var->feType() != _neighbor_var.feType())
164  mooseError(
165  "Error in " + name() +
166  ". There is a mismatch between the fe_type of the save-in Auxiliary variable "
167  "and the fe_type of the the slave side nonlinear "
168  "variable this interface kernel object is acting on.");
169  _slave_save_in_residual_variables.push_back(var);
170  }
171 
174  }
175  }
176  }
177 
180 
181  if (parameters.isParamSetByUser("diag_save_in"))
182  {
184  mooseError("diag_save_in and diag_save_in_var_side must be the same length");
185  else
186  {
187  for (unsigned i = 0; i < _diag_save_in_strings.size(); ++i)
188  {
190 
192  mooseError("Trying to use solution variable " + _diag_save_in_strings[i] +
193  " as a save_in variable in " + name());
194 
195  if (_diag_save_in_var_side[i] == "m")
196  {
197  if (var->feType() != _var.feType())
198  mooseError(
199  "Error in " + name() +
200  ". There is a mismatch between the fe_type of the save-in Auxiliary variable "
201  "and the fe_type of the the master side nonlinear "
202  "variable this interface kernel object is acting on.");
203  _master_save_in_jacobian_variables.push_back(var);
204  }
205  else
206  {
207  if (var->feType() != _neighbor_var.feType())
208  mooseError(
209  "Error in " + name() +
210  ". There is a mismatch between the fe_type of the save-in Auxiliary variable "
211  "and the fe_type of the the slave side nonlinear "
212  "variable this interface kernel object is acting on.");
213  _slave_save_in_jacobian_variables.push_back(var);
214  }
215 
218  }
219  }
220  }
221 
224 }
const VariablePhiGradient & _grad_phi
Shape function gradient.
virtual MooseMesh & mesh()=0
const VariableTestGradient & _grad_test
Gradient of side shape function.
const FieldVariableGradient & gradSlnOld()
const VariablePhiValue & _phi
shape function
QBase *& qRuleFace()
Returns the reference to the current quadrature being used on a current face.
Definition: Assembly.h:278
MultiMooseEnum _save_in_var_side
MultiMooseEnum specifying whether residual save-in aux variables correspond to master or slave side...
const VariablePhiGradient & _grad_phi_neighbor
Gradient of side neighbor shape function.
const Elem *& _neighbor_elem
The neighboring element.
const FieldVariableGradient & gradSln()
const MooseArray< Point > & qPointsFace()
Returns the reference to the current quadrature being used.
Definition: Assembly.h:284
bool _has_slave_residuals_saved_in
Whether there are slave residual aux variables.
virtual MooseVariable & getStandardVariable(THREAD_ID tid, const std::string &var_name)=0
Returns the variable reference for requested MooseVariable which may be in any system.
const MooseArray< Real > & _coord
Coordinate transformation value; relevant in axisymmetric simulations for example.
const FieldVariableValue & sln()
MultiMooseEnum _diag_save_in_var_side
MultiMooseEnum specifying whether jacobian save-in aux variables correspond to master or slave side...
FunctionInterface(const MooseObject *moose_object)
const VariablePhiGradient & gradPhiFaceNeighbor(const MooseVariable &) const
Definition: Assembly.h:731
std::vector< MooseVariableFEBase * > _slave_save_in_residual_variables
The aux variables to save the slave contributions to.
const Elem *& _current_side_elem
Current side element.
std::vector< MooseVariableFEBase * > _master_save_in_jacobian_variables
The aux variables to save the diagonal Jacobian contributions of the master variables to...
const Elem *& _current_elem
Pointer reference to the current element.
virtual Assembly & assembly(THREAD_ID tid)=0
const VariableTestGradient & _grad_test_neighbor
Gradient of side neighbor shape function.
MooseVariable & _neighbor_var
Coupled neighbor variable.
MooseObject(const InputParameters &parameters)
Definition: MooseObject.C:48
unsigned int size() const
Return the number of active items in the MultiMooseEnum.
const Elem *& neighbor()
Return the neighbor element.
Definition: Assembly.h:366
const FieldVariableGradient & gradSlnNeighbor()
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
const MooseArray< Real > & _JxW
Elemtn Jacobian/quadrature weight.
void mooseError(Args &&... args) const
Definition: MooseObject.h:144
const FEType & feType() const
Get the type of finite element object.
void addMooseVariableDependency(MooseVariableFEBase *var)
Call this function to add the passed in MooseVariableFEBase as a variable that this object depends on...
const VariableValue & _neighbor_value
Coupled neighbor variable value.
const VariablePhiValue & phiFaceNeighbor(const MooseVariable &) const
Definition: Assembly.h:727
const MooseArray< Point > & _normals
Normal vectors at the quadrature points.
TaggingInterface(const MooseObject *moose_object)
TwoMaterialPropertyInterface(const MooseObject *moose_object, const std::set< SubdomainID > &blocks_ids, const std::set< BoundaryID > &boundary_ids)
const VariablePhiValue & _phi_neighbor
Side neighbor shape function.
MooseVariableFE< Real > * mooseVariable() const
Get the variable that this object is using.
unsigned int & side()
Returns the current side.
Definition: Assembly.h:342
bool _has_slave_jacobians_saved_in
Whether there are slave jacobian aux variables.
const VariableGradient & _grad_neighbor_value
Coupled neighbor variable gradient.
TransientInterface(const MooseObject *moose_object)
const FieldVariablePhiGradient & gradPhiFace()
std::vector< AuxVariableName > _diag_save_in_strings
The names of the aux variables that will be used to save-in jacobians (includes both master and slave...
const MooseArray< Point > & _q_point
Array that holds element quadrature point coordinates.
const InputParameters & parameters() const
Get the parameters of the object.
Definition: MooseObject.h:62
const Moose::CoordinateSystemType & _coord_sys
Coordinate system.
const VariableGradient & _grad_u
Holds the current solution gradient at the current quadrature point on the face.
const Real & _current_side_volume
The volume (or length) of the current side.
const MooseArray< Real > & coordTransformation() const
Returns the reference to the coordinate transformation coefficients.
Definition: Assembly.h:256
MeshChangedInterface(const InputParameters &params)
const FieldVariablePhiValue & phiFaceNeighbor()
SystemBase & _sys
Reference to the nonlinear system.
const Real & elemVolume()
Returns the reference to the current element volume.
Definition: Assembly.h:336
SetupInterface(const MooseObject *moose_object)
const MooseArray< Point > & normals() const override
const VariableTestValue & _test
Side shape function.
const VariablePhiValue & phiFace() const
Definition: Assembly.h:711
virtual bool hasVariable(const std::string &var_name) const
Query a system for a variable.
Definition: SystemBase.C:652
Restartable(const MooseObject *moose_object, const std::string &system_name)
Class constructor.
Definition: Restartable.C:17
virtual const VariableValue & coupledNeighborValue(const std::string &var_name, unsigned int comp=0)
const MooseArray< Real > & JxWFace()
Returns the reference to the transformed jacobian weights on a current face.
Definition: Assembly.h:290
const FieldVariableValue & slnOld()
bool isParamSetByUser(const std::string &name) const
Method returns true if the parameter was by the user.
NeighborCoupleableMooseVariableDependencyIntermediateInterface(const MooseObject *moose_object, bool nodal, bool neighbor_nodal)
const VariableTestValue & _test_neighbor
Side neighbor test function.
MooseVariable & _var
The master side MooseVariable.
const Elem *& elem()
Return the current element.
Definition: Assembly.h:320
bool _has_master_jacobians_saved_in
Whether there are master jacobian aux variables.
const std::set< SubdomainID > EMPTY_BLOCK_IDS
Definition: MooseTypes.h:452
virtual void addVariableToZeroOnResidual(std::string var_name)
Adds this variable to the list of variables to be zeroed during each residual evaluation.
Definition: SystemBase.C:178
std::vector< MooseVariableFEBase * > _master_save_in_residual_variables
The aux variables to save the master residual contributions to.
const FieldVariablePhiGradient & gradPhiFaceNeighbor()
Assembly & _assembly
Problem assembly.
MooseMesh & _mesh
The problem mesh.
QBase *& _qrule
Quadrature rule.
const std::string & name() const
Get the name of the object.
Definition: MooseObject.h:56
virtual void addVariableToZeroOnJacobian(std::string var_name)
Adds this variable to the list of variables to be zeroed during each Jacobian evaluation.
Definition: SystemBase.C:184
const FieldVariablePhiValue & phiFace()
THREAD_ID _tid
The thread ID.
const Real & sideElemVolume()
Returns the reference to the volume of current side element.
Definition: Assembly.h:360
This is a "smart" enum class intended to replace many of the shortcomings in the C++ enum type It sho...
bool _has_master_residuals_saved_in
Whether there are master residual aux variables.
const Moose::CoordinateSystemType & coordSystem()
Get the coordinate system type.
Definition: Assembly.h:272
const Real & _current_elem_volume
The volume (or length) of the current element.
BoundaryRestrictable(const MooseObject *moose_object, bool nodal)
Class constructor Populates the _bnd_ids for the given boundary names supplied with the &#39;boundary&#39; in...
const VariableValue & _u
Holds the current solution at the current quadrature point on the face.
std::vector< AuxVariableName > _save_in_strings
The names of the aux variables that will be used to save-in residuals (includes both master and slave...
SystemBase & sys()
Get the system this variable is part of.
virtual const std::set< BoundaryID > & boundaryIDs() const
Return the boundary IDs for this object.
std::vector< MooseVariableFEBase * > _slave_save_in_jacobian_variables
The aux variables to save the diagonal Jacobian contributions of the slave variables to...
SubProblem & _subproblem
Reference to the controlling finite element problem.
bool _is_implicit
If the object is using implicit or explicit form.
unsigned int & _current_side
Current side.
const Elem *& sideElem()
Returns the side element.
Definition: Assembly.h:354
unsigned int THREAD_ID
Definition: MooseTypes.h:162
const VariablePhiGradient & gradPhiFace() const
Definition: Assembly.h:713
UserObjectInterface(const MooseObject *moose_object)
bool isParamValid(const std::string &name) const
This method returns parameters that have been initialized in one fashion or another, i.e.

Member Function Documentation

◆ accumulateTaggedLocalMatrix()

void TaggingInterface::accumulateTaggedLocalMatrix ( )
inherited

◆ accumulateTaggedLocalResidual()

void TaggingInterface::accumulateTaggedLocalResidual ( )
inherited

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 179 of file TaggingInterface.C.

Referenced by DGKernel::computeElemNeighResidual(), computeElemNeighResidual(), Kernel::computeResidual(), ODEKernel::computeResidual(), ODETimeKernel::computeResidual(), TimeKernel::computeResidual(), IntegratedBC::computeResidual(), VectorIntegratedBC::computeResidual(), DiracKernel::computeResidual(), and ConservativeAdvection::fullUpwind().

180 {
181  for (auto & re : _re_blocks)
182  *re += _local_re;
183 }
std::vector< DenseVector< Number > * > _re_blocks
Residual blocks Vectors For each Tag.
DenseVector< Number > _local_re
Holds residual entries as they are accumulated by this Kernel.

◆ adCoupledDotTemplate()

template<ComputeStage compute_stage>
const ADVariableValue & Coupleable::adCoupledDotTemplate ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedinherited

Time derivative of a coupled variable for ad simulations.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue containing the time derivative of the coupled variable
See also
Kernel::dot

Definition at line 1051 of file Coupleable.h.

1052 {
1053  checkVar(var_name);
1054  if (!isCoupled(var_name)) // Return default 0
1055  return *getADDefaultValue<compute_stage>(var_name);
1056 
1057  MooseVariable * var = getVar(var_name, comp);
1058  if (var == nullptr)
1059  mooseError("Call corresponding vector variable method");
1060 
1061  if (!_coupleable_neighbor)
1062  {
1063  if (_c_nodal)
1064  mooseError("Not implemented");
1065  else
1066  return var->adUDot<compute_stage>();
1067  }
1068  else
1069  {
1070  if (_c_nodal)
1071  mooseError("Not implemented");
1072  else
1073  return var->adUDotNeighbor<compute_stage>();
1074  }
1075 }
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ adCoupledGradientTemplate()

template<ComputeStage compute_stage>
const ADVariableGradient & Coupleable::adCoupledGradientTemplate ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedinherited

Returns gradient of a coupled variable for use in Automatic Differentation.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableGradient containing the gradient of the coupled variable
See also
Kernel::gradient

Definition at line 985 of file Coupleable.h.

986 {
987  if (!isCoupled(var_name)) // Return default 0
988  return getADDefaultGradient<compute_stage>();
989 
990  coupledCallback(var_name, false);
991  if (_c_nodal)
992  mooseError("Nodal variables do not have gradients");
993 
994  MooseVariable * var = getVar(var_name, comp);
995 
997  {
998  if (_c_is_implicit)
999  return var->adGradSln<compute_stage>();
1000  else
1001  mooseError("Not implemented");
1002  }
1003  else
1004  {
1005  if (_c_is_implicit)
1006  return var->adGradSlnNeighbor<compute_stage>();
1007  else
1008  mooseError("Not implemented");
1009  }
1010 }
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
const VariableGradientType< OutputType, compute_stage >::type & adGradSlnNeighbor()
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
const VariableGradientType< OutputType, compute_stage >::type & adGradSln()

◆ adCoupledNodalValueTemplate()

template<typename T , ComputeStage compute_stage>
template const libMesh::VectorValue< DualReal > & Coupleable::adCoupledNodalValueTemplate< RealVectorValue, JACOBIAN > ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedinherited

Returns AD nodal values of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue for the coupled variable

Definition at line 1537 of file Coupleable.C.

1538 {
1539  static const typename Moose::ValueType<T, compute_stage>::type zero = 0;
1540  if (!isCoupled(var_name))
1541  return zero;
1542 
1543  if (!_c_nodal)
1544  mooseError("The adCoupledNodalValue method should only be called for nodal computing objects");
1546  mooseError(
1547  "The adCoupledNodalValue method shouldn't be called for neighbor computing objects. I "
1548  "don't even know what that would mean, although maybe someone could explain it to me.");
1549  if (!_c_is_implicit)
1550  mooseError("If you're going to use an explicit scheme, then use coupledNodalValue instead of "
1551  "adCoupledNodalValue");
1552 
1553  coupledCallback(var_name, false);
1554  MooseVariableFE<T> * var = getVarHelper<T>(var_name, comp);
1555 
1556  return var->template adNodalValue<compute_stage>();
1557 }
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867

◆ adCoupledSecondTemplate()

template<ComputeStage compute_stage>
const ADVariableSecond & Coupleable::adCoupledSecondTemplate ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedinherited

Returns second derivatives of a coupled variable for use in Automatic Differentation.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableSecond containing the second derivatives of the coupled variable

Definition at line 1014 of file Coupleable.h.

1015 {
1016  if (!isCoupled(var_name)) // Return default 0
1017  return getADDefaultSecond<compute_stage>();
1018 
1019  coupledCallback(var_name, false);
1020  if (_c_nodal)
1021  mooseError("Nodal variables do not have second derivatives");
1022 
1023  MooseVariable * var = getVar(var_name, comp);
1024 
1025  if (!_coupleable_neighbor)
1026  {
1027  if (_c_is_implicit)
1028  return var->adSecondSln<compute_stage>();
1029  else
1030  mooseError("Not implemented");
1031  }
1032  else
1033  {
1034  if (_c_is_implicit)
1035  return var->adSecondSlnNeighbor<compute_stage>();
1036  else
1037  mooseError("Not implemented");
1038  }
1039 }
const VariableSecondType< OutputType, compute_stage >::type & adSecondSlnNeighbor()
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
const VariableSecondType< OutputType, compute_stage >::type & adSecondSln()
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867

◆ adCoupledValueTemplate()

template<ComputeStage compute_stage>
const ADVariableValue & Coupleable::adCoupledValueTemplate ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedinherited

Returns value of a coupled variable for use in Automatic Differentiation.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue for the coupled variable
See also
Kernel::value

Definition at line 949 of file Coupleable.h.

950 {
951  if (!isCoupled(var_name))
952  return *getADDefaultValue<compute_stage>(var_name);
953 
954  coupledCallback(var_name, false);
955  MooseVariable * var = getVar(var_name, comp);
956 
958  {
959  if (_c_nodal)
960  mooseError("Not implemented");
961  else
962  {
963  if (_c_is_implicit)
964  return var->adSln<compute_stage>();
965  else
966  mooseError("Not implemented");
967  }
968  }
969  else
970  {
971  if (_c_nodal)
972  mooseError("Not implemented");
973  else
974  {
975  if (_c_is_implicit)
976  return var->adSlnNeighbor<compute_stage>();
977  else
978  mooseError("Not implemented");
979  }
980  }
981 }
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
const VariableValueType< OutputType, compute_stage >::type & adSln()
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
const VariableValueType< OutputType, compute_stage >::type & adSlnNeighbor()

◆ adCoupledVectorDotTemplate()

template<ComputeStage compute_stage>
const ADVectorVariableValue & Coupleable::adCoupledVectorDotTemplate ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedinherited

Time derivative of a vector coupled variable for ad simulations.

Parameters
var_nameName of vector coupled variable
compComponent number
Returns
Reference to a VectorVariableValue containing the time derivative of the coupled variable
See also
Kernel::dot

Definition at line 1079 of file Coupleable.h.

1080 {
1081  checkVar(var_name);
1082  if (!isCoupled(var_name)) // Return default 0
1083  return *getADDefaultVectorValue<compute_stage>(var_name);
1084 
1085  VectorMooseVariable * var = getVectorVar(var_name, comp);
1086  if (var == nullptr)
1087  mooseError("Try calling corresponding standard variable method");
1088 
1089  if (!_coupleable_neighbor)
1090  {
1091  if (_c_nodal)
1092  mooseError("Not implemented");
1093  else
1094  return var->adUDot<compute_stage>();
1095  }
1096  else
1097  {
1098  if (_c_nodal)
1099  mooseError("Not implemented");
1100  else
1101  return var->adUDotNeighbor<compute_stage>();
1102  }
1103 }
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
VectorMooseVariable * getVectorVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled vector variable.
Definition: Coupleable.C:247
Class for stuff related to variables.
Definition: Adaptivity.h:30
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ adCoupledVectorGradientTemplate()

template<ComputeStage compute_stage>
const ADVectorVariableGradient & Coupleable::adCoupledVectorGradientTemplate ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedinherited

Returns gradient of a coupled vector variable for use in Automatic Differentation.

Parameters
var_nameName of coupled vector variable
compComponent number for vector of coupled vector variables
Returns
Reference to a VectorVariableGradient containing the gradient of the coupled variable
See also
Kernel::gradient

Definition at line 1143 of file Coupleable.h.

1144 {
1145 
1146  if (!isCoupled(var_name)) // Return default 0
1147  return getADDefaultVectorGradient<compute_stage>();
1148 
1149  coupledCallback(var_name, false);
1150  if (_c_nodal)
1151  mooseError("Nodal variables do not have gradients");
1152 
1153  VectorMooseVariable * var = getVectorVar(var_name, comp);
1154 
1155  if (!_coupleable_neighbor)
1156  {
1157  if (_c_is_implicit)
1158  return var->adGradSln<compute_stage>();
1159  else
1160  mooseError("Not implemented");
1161  }
1162  else
1163  {
1164  if (_c_is_implicit)
1165  return var->adGradSlnNeighbor<compute_stage>();
1166  else
1167  mooseError("Not implemented");
1168  }
1169 }
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
VectorMooseVariable * getVectorVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled vector variable.
Definition: Coupleable.C:247
Class for stuff related to variables.
Definition: Adaptivity.h:30
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
const VariableGradientType< OutputType, compute_stage >::type & adGradSlnNeighbor()
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
const VariableGradientType< OutputType, compute_stage >::type & adGradSln()

◆ adCoupledVectorSecondTemplate()

template<ComputeStage compute_stage>
const ADVectorVariableSecond& Coupleable::adCoupledVectorSecondTemplate ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedinherited

Returns second derivatives of a coupled vector variable for use in Automatic Differentation.

Parameters
var_nameName of coupled vector variable
compComponent number for vector of coupled vector variables
Returns
Reference to a VectorVariableSecond containing the second derivatives of the coupled variable

◆ adCoupledVectorValueTemplate()

template<ComputeStage compute_stage>
const ADVectorVariableValue & Coupleable::adCoupledVectorValueTemplate ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedinherited

Returns value of a coupled vector variable for use in Automatic Differentiation.

Parameters
var_nameName of coupled vector variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue for the coupled variable
See also
Kernel::value

Definition at line 1107 of file Coupleable.h.

1108 {
1109  if (!isCoupled(var_name))
1110  return *getADDefaultVectorValue<compute_stage>(var_name);
1111 
1112  coupledCallback(var_name, false);
1113  VectorMooseVariable * var = getVectorVar(var_name, comp);
1114 
1115  if (!_coupleable_neighbor)
1116  {
1117  if (_c_nodal)
1118  mooseError("Not implemented");
1119  else
1120  {
1121  if (_c_is_implicit)
1122  return var->adSln<compute_stage>();
1123  else
1124  mooseError("Not implemented");
1125  }
1126  }
1127  else
1128  {
1129  if (_c_nodal)
1130  mooseError("Not implemented");
1131  else
1132  {
1133  if (_c_is_implicit)
1134  return var->adSlnNeighbor<compute_stage>();
1135  else
1136  mooseError("Not implemented");
1137  }
1138  }
1139 }
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
VectorMooseVariable * getVectorVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled vector variable.
Definition: Coupleable.C:247
Class for stuff related to variables.
Definition: Adaptivity.h:30
const VariableValueType< OutputType, compute_stage >::type & adSln()
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
const VariableValueType< OutputType, compute_stage >::type & adSlnNeighbor()

◆ addFEVariableCoupleableMatrixTag()

void Coupleable::addFEVariableCoupleableMatrixTag ( TagID  tag)
inlineinherited

Definition at line 116 of file Coupleable.h.

Referenced by Coupleable::coupledMatrixTagValue().

116 { _fe_coupleable_matrix_tags.insert(tag); }
std::set< TagID > _fe_coupleable_matrix_tags
Definition: Coupleable.h:944

◆ addFEVariableCoupleableVectorTag()

void Coupleable::addFEVariableCoupleableVectorTag ( TagID  tag)
inlineinherited

Definition at line 114 of file Coupleable.h.

Referenced by Coupleable::coupledVectorTagValue().

114 { _fe_coupleable_vector_tags.insert(tag); }
std::set< TagID > _fe_coupleable_vector_tags
Definition: Coupleable.h:942

◆ addMooseVariableDependency() [1/2]

void MooseVariableDependencyInterface::addMooseVariableDependency ( MooseVariableFEBase var)
inlineprotectedinherited

Call this function to add the passed in MooseVariableFEBase as a variable that this object depends on.

Definition at line 37 of file MooseVariableDependencyInterface.h.

Referenced by ADIntegratedBCTempl< T, compute_stage >::ADIntegratedBCTempl(), ADKernelTempl< T, compute_stage >::ADKernelTempl(), ADNodalBCTempl< T, compute_stage >::ADNodalBCTempl(), AuxKernelTempl< ComputeValueType >::AuxKernelTempl(), AuxNodalScalarKernel::AuxNodalScalarKernel(), CoupleableMooseVariableDependencyIntermediateInterface::CoupleableMooseVariableDependencyIntermediateInterface(), DGKernelBase::DGKernelBase(), DiracKernel::DiracKernel(), ElemElemConstraint::ElemElemConstraint(), ElementIndicator::ElementIndicator(), ElementIntegralVariablePostprocessor::ElementIntegralVariablePostprocessor(), ElementIntegralVariableUserObject::ElementIntegralVariableUserObject(), ElementUserObject::ElementUserObject(), ElementVariablePostprocessor::ElementVariablePostprocessor(), IntegratedBC::IntegratedBC(), InterfaceIntegralVariableValuePostprocessor::InterfaceIntegralVariableValuePostprocessor(), InterfaceKernel(), InterfaceUserObject::InterfaceUserObject(), InternalSideIndicator::InternalSideIndicator(), InternalSideUserObject::InternalSideUserObject(), Kernel::Kernel(), Marker::Marker(), Material::Material(), NeighborCoupleableMooseVariableDependencyIntermediateInterface::NeighborCoupleableMooseVariableDependencyIntermediateInterface(), NodalBC::NodalBC(), NodalConstraint::NodalConstraint(), NodalKernel::NodalKernel(), NodalScalarKernel::NodalScalarKernel(), NodalUserObject::NodalUserObject(), NodeElemConstraint::NodeElemConstraint(), NodeFaceConstraint::NodeFaceConstraint(), PointSamplerBase::PointSamplerBase(), QuadraturePointMarker::QuadraturePointMarker(), SideIntegralVariablePostprocessor::SideIntegralVariablePostprocessor(), SideIntegralVariableUserObject::SideIntegralVariableUserObject(), SideUserObject::SideUserObject(), VectorIntegratedBC::VectorIntegratedBC(), VectorKernel::VectorKernel(), and VectorNodalBC::VectorNodalBC().

38  {
39  _moose_variable_dependencies.insert(var);
40  }
std::set< MooseVariableFEBase * > _moose_variable_dependencies

◆ addMooseVariableDependency() [2/2]

void MooseVariableDependencyInterface::addMooseVariableDependency ( std::vector< MooseVariableFEBase *>  vars)
inlineprotectedinherited

Definition at line 41 of file MooseVariableDependencyInterface.h.

42  {
43  _moose_variable_dependencies.insert(vars.begin(), vars.end());
44  }
std::set< MooseVariableFEBase * > _moose_variable_dependencies

◆ addScalarVariableCoupleableMatrixTag()

void ScalarCoupleable::addScalarVariableCoupleableMatrixTag ( TagID  tag)
inlineinherited

Definition at line 59 of file ScalarCoupleable.h.

Referenced by ScalarCoupleable::coupledMatrixTagScalarValue().

59 { _sc_coupleable_matrix_tags.insert(tag); }
std::set< TagID > _sc_coupleable_matrix_tags

◆ addScalarVariableCoupleableVectorTag()

void ScalarCoupleable::addScalarVariableCoupleableVectorTag ( TagID  tag)
inlineinherited

Definition at line 57 of file ScalarCoupleable.h.

Referenced by ScalarCoupleable::coupledVectorTagScalarValue().

57 { _sc_coupleable_vector_tags.insert(tag); }
std::set< TagID > _sc_coupleable_vector_tags

◆ adZeroGradientTemplate() [1/3]

template<ComputeStage compute_stage>
const ADVariableGradient & Coupleable::adZeroGradientTemplate ( )
protectedinherited

Template method that returns _grad_zero to RESIDUAL computing objects and _ad_grad_zero to JACOBIAN computing objects.

Definition at line 1250 of file Coupleable.h.

1251 {
1252  return _ad_grad_zero;
1253 }
const MooseArray< DualRealVectorValue > & _ad_grad_zero
Definition: Coupleable.h:797

◆ adZeroGradientTemplate() [2/3]

template<>
const VariableGradient& Coupleable::adZeroGradientTemplate ( )
protectedinherited

◆ adZeroGradientTemplate() [3/3]

template<>
const VariableGradient& Coupleable::adZeroGradientTemplate ( )
protectedinherited

Definition at line 1523 of file Coupleable.C.

1524 {
1525  return _grad_zero;
1526 }
const VariableGradient & _grad_zero
Zero gradient of a variable.
Definition: Coupleable.h:796

◆ adZeroSecondTemplate() [1/3]

template<ComputeStage compute_stage>
const ADVariableSecond & Coupleable::adZeroSecondTemplate ( )
protectedinherited

Retrieve a zero second for automatic differentiation.

Definition at line 1257 of file Coupleable.h.

1258 {
1259  return _ad_second_zero;
1260 }
const MooseArray< DualRealTensorValue > & _ad_second_zero
Definition: Coupleable.h:801

◆ adZeroSecondTemplate() [2/3]

template<>
const VariableSecond& Coupleable::adZeroSecondTemplate ( )
protectedinherited

◆ adZeroSecondTemplate() [3/3]

template<>
const VariableSecond& Coupleable::adZeroSecondTemplate ( )
protectedinherited

Definition at line 1530 of file Coupleable.C.

1531 {
1532  return _second_zero;
1533 }
const VariableSecond & _second_zero
Zero second derivative of a variable.
Definition: Coupleable.h:800

◆ adZeroValueTemplate() [1/3]

template<ComputeStage compute_stage>
const ADVariableValue & Coupleable::adZeroValueTemplate ( )
protectedinherited

Template method that returns _zero to RESIDUAL computing objects and _ad_zero to JACOBIAN computing objects.

Definition at line 1243 of file Coupleable.h.

1244 {
1245  return _ad_zero;
1246 }
const MooseArray< DualReal > & _ad_zero
Definition: Coupleable.h:793

◆ adZeroValueTemplate() [2/3]

template<>
const VariableValue& Coupleable::adZeroValueTemplate ( )
protectedinherited

◆ adZeroValueTemplate() [3/3]

template<>
const VariableValue& Coupleable::adZeroValueTemplate ( )
protectedinherited

Definition at line 1516 of file Coupleable.C.

1517 {
1518  return _zero;
1519 }
const VariableValue & _zero
Zero value of a variable.
Definition: Coupleable.h:792

◆ assignTaggedLocalMatrix()

void TaggingInterface::assignTaggedLocalMatrix ( )
inherited

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 200 of file TaggingInterface.C.

Referenced by NodalEqualValueConstraint::computeJacobian().

201 {
202  for (auto & ke : _ke_blocks)
203  *ke = _local_ke;
204 }
DenseMatrix< Number > _local_ke
Holds residual entries as they are accumulated by this Kernel.
std::vector< DenseMatrix< Number > * > _ke_blocks
Kernel blocks Vectors For each Tag.

◆ assignTaggedLocalResidual()

void TaggingInterface::assignTaggedLocalResidual ( )
inherited

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 186 of file TaggingInterface.C.

Referenced by NodalEqualValueConstraint::computeResidual().

187 {
188  for (auto & re : _re_blocks)
189  *re = _local_re;
190 }
std::vector< DenseVector< Number > * > _re_blocks
Residual blocks Vectors For each Tag.
DenseVector< Number > _local_re
Holds residual entries as they are accumulated by this Kernel.

◆ boundaryIDs()

const std::set< BoundaryID > & BoundaryRestrictable::boundaryIDs ( ) const
virtualinherited

Return the boundary IDs for this object.

Returns
A set of all boundary ids for which the object is restricted

Definition at line 148 of file BoundaryRestrictable.C.

Referenced by NonlinearSystemBase::addBoundaryCondition(), NonlinearSystemBase::addInterfaceKernel(), Material::getZeroMaterialProperty(), BoundaryRestrictable::hasBoundaryMaterialPropertyHelper(), InterfaceQpValueUserObject::initialize(), and Material::registerPropName().

149 {
150  return _bnd_ids;
151 }
std::set< BoundaryID > _bnd_ids
Set of the boundary ids.

◆ boundaryNames()

const std::vector< BoundaryName > & BoundaryRestrictable::boundaryNames ( ) const
inherited

Return the boundary names for this object.

Returns
A set of all boundary names for which the object is restricted

Definition at line 154 of file BoundaryRestrictable.C.

Referenced by MaterialOutputAction::getParams(), NearestNodeDistanceAux::NearestNodeDistanceAux(), and NearestNodeValueAux::NearestNodeValueAux().

155 {
156  return _boundary_names;
157 }
std::vector< BoundaryName > _boundary_names
Vector the the boundary names.

◆ boundaryRestricted()

bool BoundaryRestrictable::boundaryRestricted ( ) const
virtualinherited

Returns true if this object has been restricted to a boundary.

See also
MooseObject

Definition at line 166 of file BoundaryRestrictable.C.

Referenced by MaterialOutputAction::getParams(), and DerivativeMaterialInterface< Material >::haveMaterialProperty().

167 {
169 }
static bool restricted(const std::set< BoundaryID > &ids)
Helper for determining if the object is boundary restricted.
std::set< BoundaryID > _bnd_ids
Set of the boundary ids.

◆ checkBlockAndBoundaryCompatibility()

void MaterialPropertyInterface::checkBlockAndBoundaryCompatibility ( std::shared_ptr< Material discrete)
inherited

Check if block and boundary restrictions of a given material are compatible with the current material.

Error out otherwise.

Definition at line 211 of file MaterialPropertyInterface.C.

Referenced by MaterialPropertyInterface::getMaterialByName().

212 {
213  // Check block compatibility
214  if (!discrete->hasBlocks(_mi_block_ids))
215  {
216  std::ostringstream oss;
217  oss << "The Material object '" << discrete->name()
218  << "' is defined on blocks that are incompatible with the retrieving object '" << _mi_name
219  << "':\n";
220  oss << " " << discrete->name();
221  for (const auto & sbd_id : discrete->blockIDs())
222  oss << " " << sbd_id;
223  oss << "\n";
224  oss << " " << _mi_name;
225  for (const auto & block_id : _mi_block_ids)
226  oss << " " << block_id;
227  oss << "\n";
228  mooseError(oss.str());
229  }
230 
231  // Check boundary compatibility
232  if (!discrete->hasBoundary(_mi_boundary_ids))
233  {
234  std::ostringstream oss;
235  oss << "The Material object '" << discrete->name()
236  << "' is defined on boundaries that are incompatible with the retrieving object '"
237  << _mi_name << "':\n";
238  oss << " " << discrete->name();
239  for (const auto & bnd_id : discrete->boundaryIDs())
240  oss << " " << bnd_id;
241  oss << "\n";
242  oss << " " << _mi_name;
243  for (const auto & bnd_id : _mi_boundary_ids)
244  oss << " " << bnd_id;
245  oss << "\n";
246  mooseError(oss.str());
247  }
248 }
const std::set< SubdomainID > & _mi_block_ids
Storage for the block ids created by BlockRestrictable.
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
const std::set< BoundaryID > & _mi_boundary_ids
Storage for the boundary ids created by BoundaryRestrictable.
const std::string _mi_name
The name of the object that this interface belongs to.

◆ checkMaterialProperty()

void MaterialPropertyInterface::checkMaterialProperty ( const std::string &  name)
protectedinherited

A helper method for checking material properties This method was required to avoid a compiler problem with the template getMaterialProperty method.

Definition at line 179 of file MaterialPropertyInterface.C.

Referenced by MaterialPropertyInterface::getADMaterialPropertyByName(), and MaterialPropertyInterface::getMaterialPropertyByName().

180 {
181  // If the material property is boundary restrictable, add to the list of materials to check
183  for (const auto & bnd_id : _mi_boundary_ids)
185 
186  // The default is to assume block restrictions
187  else
188  for (const auto & blk_ids : _mi_block_ids)
190 }
FEProblemBase & _mi_feproblem
Reference to the FEProblemBase class.
const std::set< SubdomainID > & _mi_block_ids
Storage for the block ids created by BlockRestrictable.
virtual void storeSubdomainDelayedCheckMatProp(const std::string &requestor, SubdomainID block_id, const std::string &name)
Adds to a map based on block ids of material properties to validate.
Definition: SubProblem.C:429
const bool _mi_boundary_restricted
BoundaryRestricted flag.
virtual void storeBoundaryDelayedCheckMatProp(const std::string &requestor, BoundaryID boundary_id, const std::string &name)
Adds to a map based on boundary ids of material properties to validate.
Definition: SubProblem.C:437
const std::set< BoundaryID > & _mi_boundary_ids
Storage for the boundary ids created by BoundaryRestrictable.
const std::string _mi_name
The name of the object that this interface belongs to.

◆ checkVar() [1/2]

void ScalarCoupleable::checkVar ( const std::string &  var_name)
protectedinherited

Check that the right kind of variable is being coupled in.

Parameters
var_nameThe name of the coupled variable

Definition at line 257 of file ScalarCoupleable.C.

Referenced by ScalarCoupleable::coupledMatrixTagScalarValue(), ScalarCoupleable::coupledScalar(), ScalarCoupleable::coupledScalarDot(), ScalarCoupleable::coupledScalarDotDot(), ScalarCoupleable::coupledScalarDotDotDu(), ScalarCoupleable::coupledScalarDotDotOld(), ScalarCoupleable::coupledScalarDotDu(), ScalarCoupleable::coupledScalarDotOld(), ScalarCoupleable::coupledScalarOrder(), ScalarCoupleable::coupledScalarValue(), ScalarCoupleable::coupledScalarValueOld(), ScalarCoupleable::coupledScalarValueOlder(), and ScalarCoupleable::coupledVectorTagScalarValue().

258 {
259  auto it = _sc_coupled_vars.find(var_name);
260  if (it != _sc_coupled_vars.end())
261  {
262  std::string cvars;
263  for (auto jt : it->second)
264  cvars += " " + jt->name();
266  ": Trying to couple a field variable where scalar variable is expected, '",
267  var_name,
268  " =",
269  cvars,
270  "'");
271  }
272  // NOTE: non-existent variables are handled in the constructor
273 }
std::map< std::string, std::vector< MooseVariableFEBase * > > _sc_coupled_vars
Field variables coupled into this object (for error checking)
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
const std::string & _sc_name
The name of the object this interface is part of.

◆ checkVar() [2/2]

void Coupleable::checkVar ( const std::string &  var_name)
protectedinherited

Check that the right kind of variable is being coupled in.

Parameters
var_nameThe name of the coupled variable

Definition at line 180 of file Coupleable.C.

Referenced by Coupleable::adCoupledDotTemplate(), Coupleable::adCoupledVectorDotTemplate(), Coupleable::coupled(), Coupleable::coupledDofValues(), Coupleable::coupledDofValuesOld(), Coupleable::coupledDofValuesOlder(), Coupleable::coupledDot(), Coupleable::coupledDotDot(), Coupleable::coupledDotDotDu(), Coupleable::coupledDotDotOld(), Coupleable::coupledDotDu(), Coupleable::coupledDotOld(), Coupleable::coupledGradient(), Coupleable::coupledGradientDot(), Coupleable::coupledGradientDotDot(), Coupleable::coupledGradientOld(), Coupleable::coupledGradientOlder(), Coupleable::coupledGradientPreviousNL(), Coupleable::coupledMatrixTagValue(), Coupleable::coupledNodalDot(), Coupleable::coupledNodalDotDot(), Coupleable::coupledNodalDotDotOld(), Coupleable::coupledNodalDotOld(), Coupleable::coupledNodalValue(), Coupleable::coupledNodalValueOld(), Coupleable::coupledNodalValueOlder(), Coupleable::coupledNodalValuePreviousNL(), Coupleable::coupledSecond(), Coupleable::coupledSecondOld(), Coupleable::coupledSecondOlder(), Coupleable::coupledSecondPreviousNL(), Coupleable::coupledValue(), Coupleable::coupledValueOld(), Coupleable::coupledValueOlder(), Coupleable::coupledValuePreviousNL(), Coupleable::coupledVectorDot(), Coupleable::coupledVectorDotDot(), Coupleable::coupledVectorDotDotOld(), Coupleable::coupledVectorDotOld(), Coupleable::coupledVectorGradient(), Coupleable::coupledVectorGradientOld(), Coupleable::coupledVectorGradientOlder(), and Coupleable::coupledVectorTagValue().

181 {
182  auto it = _c_coupled_scalar_vars.find(var_name);
183  if (it != _c_coupled_scalar_vars.end())
184  {
185  std::string cvars;
186  for (auto jt : it->second)
187  cvars += " " + jt->name();
189  ": Trying to couple a scalar variable where field variable is expected, '",
190  var_name,
191  " =",
192  cvars,
193  "'");
194  }
195  // NOTE: non-existent variables are handled in the constructor
196 }
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
std::map< std::string, std::vector< MooseVariableScalar * > > _c_coupled_scalar_vars
Scalar variables coupled into this object (for error checking)
Definition: Coupleable.h:940
const std::string & _c_name
The name of the object this interface is part of.
Definition: Coupleable.h:732

◆ computeElementOffDiagJacobian()

void InterfaceKernel::computeElementOffDiagJacobian ( unsigned int  jvar)
virtual

Selects the correct Jacobian type and routine to call for the master variable jacobian.

Definition at line 376 of file InterfaceKernel.C.

377 {
378  bool is_jvar_not_interface_var = true;
379  if (jvar == _var.number())
380  {
382  is_jvar_not_interface_var = false;
383  }
384  if (jvar == _neighbor_var.number())
385  {
387  is_jvar_not_interface_var = false;
388  }
389 
390  if (is_jvar_not_interface_var)
391  {
394  }
395 }
virtual void computeOffDiagElemNeighJacobian(Moose::DGJacobianType type, unsigned int jvar)
Using the passed DGJacobian type, selects the correct test function and trial function spaces and jac...
unsigned int number() const
Get variable number coming from libMesh.
MooseVariable & _neighbor_var
Coupled neighbor variable.
virtual void computeElemNeighJacobian(Moose::DGJacobianType type)
Using the passed DGJacobian type, selects the correct test function and trial function spaces and jac...
MooseVariable & _var
The master side MooseVariable.

◆ computeElemNeighJacobian()

void InterfaceKernel::computeElemNeighJacobian ( Moose::DGJacobianType  type)
virtual

Using the passed DGJacobian type, selects the correct test function and trial function spaces and jacobian block, and then calls computeQpJacobian.

Definition at line 275 of file InterfaceKernel.C.

Referenced by computeElementOffDiagJacobian(), computeJacobian(), and computeNeighborOffDiagJacobian().

276 {
277  const VariableTestValue & test_space =
279  const VariableTestValue & loc_phi =
281 
282  unsigned int ivar, jvar;
283 
284  switch (type)
285  {
287  ivar = jvar = _var.number();
288  break;
290  ivar = _var.number(), jvar = _neighbor_var.number();
291  break;
293  ivar = _neighbor_var.number(), jvar = _var.number();
294  break;
296  ivar = _neighbor_var.number(), jvar = _neighbor_var.number();
297  break;
298  default:
299  mooseError("Unknown DGJacobianType ", type);
300  }
301 
303  prepareMatrixTag(_assembly, ivar, jvar);
304  else
306 
307  for (_qp = 0; _qp < _qrule->n_points(); _qp++)
308  for (_i = 0; _i < test_space.size(); _i++)
309  for (_j = 0; _j < loc_phi.size(); _j++)
311 
313 
315  {
316  auto rows = _local_ke.m();
317  DenseVector<Number> diag(rows);
318  for (decltype(rows) i = 0; i < rows; i++)
319  diag(i) = _local_ke(i, i);
320 
321  Threads::spin_mutex::scoped_lock lock(_jacoby_vars_mutex);
322  for (const auto & var : _master_save_in_jacobian_variables)
323  var->sys().solution().add_vector(diag, var->dofIndices());
324  }
326  {
327  auto rows = _local_ke.m();
328  DenseVector<Number> diag(rows);
329  for (decltype(rows) i = 0; i < rows; i++)
330  diag(i) = _local_ke(i, i);
331 
332  Threads::spin_mutex::scoped_lock lock(_jacoby_vars_mutex);
333  for (const auto & var : _slave_save_in_jacobian_variables)
334  var->sys().solution().add_vector(diag, var->dofIndicesNeighbor());
335  }
336 }
const VariablePhiValue & _phi
shape function
const MooseArray< Real > & _coord
Coordinate transformation value; relevant in axisymmetric simulations for example.
unsigned int number() const
Get variable number coming from libMesh.
std::vector< MooseVariableFEBase * > _master_save_in_jacobian_variables
The aux variables to save the diagonal Jacobian contributions of the master variables to...
MooseVariable & _neighbor_var
Coupled neighbor variable.
unsigned int _qp
Current quadrature point.
const MooseArray< Real > & _JxW
Elemtn Jacobian/quadrature weight.
void mooseError(Args &&... args) const
Definition: MooseObject.h:144
unsigned int _j
DenseMatrix< Number > _local_ke
Holds residual entries as they are accumulated by this Kernel.
const std::string & type() const
Get the type of this object.
Definition: MooseObject.h:50
unsigned int _i
Index for test and trial functions.
void prepareMatrixTagNeighbor(Assembly &assembly, unsigned int ivar, unsigned int jvar, Moose::DGJacobianType type)
Prepare data for computing element jacobian according to the ative tags for DG and interface kernels...
const VariablePhiValue & _phi_neighbor
Side neighbor shape function.
bool _has_slave_jacobians_saved_in
Whether there are slave jacobian aux variables.
OutputTools< Real >::VariableTestValue VariableTestValue
Definition: MooseTypes.h:206
const VariableTestValue & _test
Side shape function.
void accumulateTaggedLocalMatrix()
Local Jacobian blocks will be appended by adding the current local kernel Jacobian.
const VariableTestValue & _test_neighbor
Side neighbor test function.
MooseVariable & _var
The master side MooseVariable.
virtual Real computeQpJacobian(Moose::DGJacobianType type)=0
Compute jacobians at quadrature points.
bool _has_master_jacobians_saved_in
Whether there are master jacobian aux variables.
Assembly & _assembly
Problem assembly.
QBase *& _qrule
Quadrature rule.
static Threads::spin_mutex _jacoby_vars_mutex
Mutex that prevents multiple threads from saving into the jacobian aux_var at the same time...
void prepareMatrixTag(Assembly &assembly, unsigned int ivar, unsigned int jvar)
Prepare data for computing element jacobian according to the ative tags.
std::vector< MooseVariableFEBase * > _slave_save_in_jacobian_variables
The aux variables to save the diagonal Jacobian contributions of the slave variables to...

◆ computeElemNeighResidual()

void InterfaceKernel::computeElemNeighResidual ( Moose::DGResidualType  type)
virtual

Using the passed DGResidual type, selects the correct test function space and residual block, and then calls computeQpResidual.

Definition at line 227 of file InterfaceKernel.C.

Referenced by computeResidual().

228 {
229  bool is_elem;
230  if (type == Moose::Element)
231  is_elem = true;
232  else
233  is_elem = false;
234 
235  const VariableTestValue & test_space = is_elem ? _test : _test_neighbor;
236 
237  if (is_elem)
239  else
241 
242  for (_qp = 0; _qp < _qrule->n_points(); _qp++)
243  for (_i = 0; _i < test_space.size(); _i++)
245 
247 
248  if (_has_master_residuals_saved_in && is_elem)
249  {
250  Threads::spin_mutex::scoped_lock lock(_resid_vars_mutex);
251  for (const auto & var : _master_save_in_residual_variables)
252  {
253  var->sys().solution().add_vector(_local_re, var->dofIndices());
254  }
255  }
256  else if (_has_slave_residuals_saved_in && !is_elem)
257  {
258  Threads::spin_mutex::scoped_lock lock(_resid_vars_mutex);
259  for (const auto & var : _slave_save_in_residual_variables)
260  var->sys().solution().add_vector(_local_re, var->dofIndicesNeighbor());
261  }
262 }
void accumulateTaggedLocalResidual()
Local residual blocks will be appended by adding the current local kernel residual.
bool _has_slave_residuals_saved_in
Whether there are slave residual aux variables.
const MooseArray< Real > & _coord
Coordinate transformation value; relevant in axisymmetric simulations for example.
unsigned int number() const
Get variable number coming from libMesh.
std::vector< MooseVariableFEBase * > _slave_save_in_residual_variables
The aux variables to save the slave contributions to.
MooseVariable & _neighbor_var
Coupled neighbor variable.
unsigned int _qp
Current quadrature point.
virtual Real computeQpResidual(Moose::DGResidualType type)=0
Compute residuals at quadrature points.
const MooseArray< Real > & _JxW
Elemtn Jacobian/quadrature weight.
static Threads::spin_mutex _resid_vars_mutex
Mutex that prevents multiple threads from saving into the residual aux_var at the same time...
const std::string & type() const
Get the type of this object.
Definition: MooseObject.h:50
unsigned int _i
Index for test and trial functions.
OutputTools< Real >::VariableTestValue VariableTestValue
Definition: MooseTypes.h:206
const VariableTestValue & _test
Side shape function.
const VariableTestValue & _test_neighbor
Side neighbor test function.
MooseVariable & _var
The master side MooseVariable.
void prepareVectorTagNeighbor(Assembly &assembly, unsigned int ivar)
Prepare data for computing element residual the according to active tags for DG and interface kernels...
std::vector< MooseVariableFEBase * > _master_save_in_residual_variables
The aux variables to save the master residual contributions to.
Assembly & _assembly
Problem assembly.
DenseVector< Number > _local_re
Holds residual entries as they are accumulated by this Kernel.
QBase *& _qrule
Quadrature rule.
bool _has_master_residuals_saved_in
Whether there are master residual aux variables.
void prepareVectorTag(Assembly &assembly, unsigned int ivar)
Prepare data for computing element residual the according to active tags.

◆ computeJacobian()

void InterfaceKernel::computeJacobian ( )
virtual

Computes the jacobian for the current side.

Definition at line 339 of file InterfaceKernel.C.

340 {
343 }
virtual void computeElemNeighJacobian(Moose::DGJacobianType type)
Using the passed DGJacobian type, selects the correct test function and trial function spaces and jac...

◆ computeNeighborOffDiagJacobian()

void InterfaceKernel::computeNeighborOffDiagJacobian ( unsigned int  jvar)
virtual

Selects the correct Jacobian type and routine to call for the slave variable jacobian.

Definition at line 398 of file InterfaceKernel.C.

399 {
400  bool is_jvar_not_interface_var = true;
401  if (jvar == _var.number())
402  {
404  is_jvar_not_interface_var = false;
405  }
406  if (jvar == _neighbor_var.number())
407  {
409  is_jvar_not_interface_var = false;
410  }
411 
412  if (is_jvar_not_interface_var)
413  {
416  }
417 }
virtual void computeOffDiagElemNeighJacobian(Moose::DGJacobianType type, unsigned int jvar)
Using the passed DGJacobian type, selects the correct test function and trial function spaces and jac...
unsigned int number() const
Get variable number coming from libMesh.
MooseVariable & _neighbor_var
Coupled neighbor variable.
virtual void computeElemNeighJacobian(Moose::DGJacobianType type)
Using the passed DGJacobian type, selects the correct test function and trial function spaces and jac...
MooseVariable & _var
The master side MooseVariable.

◆ computeOffDiagElemNeighJacobian()

void InterfaceKernel::computeOffDiagElemNeighJacobian ( Moose::DGJacobianType  type,
unsigned int  jvar 
)
virtual

Using the passed DGJacobian type, selects the correct test function and trial function spaces and jacobian block, and then calls computeQpOffDiagJacobian with the passed jvar.

Definition at line 346 of file InterfaceKernel.C.

Referenced by computeElementOffDiagJacobian(), and computeNeighborOffDiagJacobian().

347 {
348  const VariableTestValue & test_space =
350  const VariableTestValue & loc_phi =
352 
353  unsigned int ivar;
354 
356  ivar = _var.number();
357  else
358  ivar = _neighbor_var.number();
359 
361  prepareMatrixTag(_assembly, ivar, jvar);
362  else
364 
365  // Prevent calling of Jacobian computation if jvar doesn't lie in the current block
366  if ((_local_ke.m() == test_space.size()) && (_local_ke.n() == loc_phi.size()))
367  for (_qp = 0; _qp < _qrule->n_points(); _qp++)
368  for (_i = 0; _i < test_space.size(); _i++)
369  for (_j = 0; _j < loc_phi.size(); _j++)
371 
373 }
const VariablePhiValue & _phi
shape function
const MooseArray< Real > & _coord
Coordinate transformation value; relevant in axisymmetric simulations for example.
unsigned int number() const
Get variable number coming from libMesh.
virtual Real computeQpOffDiagJacobian(Moose::DGJacobianType type, unsigned int jvar)
compute off-diagonal jacobian components at quadrature points
MooseVariable & _neighbor_var
Coupled neighbor variable.
unsigned int _qp
Current quadrature point.
const MooseArray< Real > & _JxW
Elemtn Jacobian/quadrature weight.
unsigned int _j
DenseMatrix< Number > _local_ke
Holds residual entries as they are accumulated by this Kernel.
const std::string & type() const
Get the type of this object.
Definition: MooseObject.h:50
unsigned int _i
Index for test and trial functions.
void prepareMatrixTagNeighbor(Assembly &assembly, unsigned int ivar, unsigned int jvar, Moose::DGJacobianType type)
Prepare data for computing element jacobian according to the ative tags for DG and interface kernels...
const VariablePhiValue & _phi_neighbor
Side neighbor shape function.
OutputTools< Real >::VariableTestValue VariableTestValue
Definition: MooseTypes.h:206
const VariableTestValue & _test
Side shape function.
void accumulateTaggedLocalMatrix()
Local Jacobian blocks will be appended by adding the current local kernel Jacobian.
const VariableTestValue & _test_neighbor
Side neighbor test function.
MooseVariable & _var
The master side MooseVariable.
Assembly & _assembly
Problem assembly.
QBase *& _qrule
Quadrature rule.
void prepareMatrixTag(Assembly &assembly, unsigned int ivar, unsigned int jvar)
Prepare data for computing element jacobian according to the ative tags.

◆ computeQpJacobian()

virtual Real InterfaceKernel::computeQpJacobian ( Moose::DGJacobianType  type)
protectedpure virtual

Compute jacobians at quadrature points.

Implemented in InterfaceTimeKernel.

Referenced by computeElemNeighJacobian().

◆ computeQpOffDiagJacobian()

Real InterfaceKernel::computeQpOffDiagJacobian ( Moose::DGJacobianType  type,
unsigned int  jvar 
)
protectedvirtual

compute off-diagonal jacobian components at quadrature points

Reimplemented in InterfaceTimeKernel.

Definition at line 420 of file InterfaceKernel.C.

Referenced by computeOffDiagElemNeighJacobian().

421 {
422  return 0.;
423 }

◆ computeQpResidual()

virtual Real InterfaceKernel::computeQpResidual ( Moose::DGResidualType  type)
protectedpure virtual

Compute residuals at quadrature points.

Implemented in InterfaceTimeKernel.

Referenced by computeElemNeighResidual().

◆ computeResidual()

void InterfaceKernel::computeResidual ( )
virtual

Computes the residual for the current side.

Definition at line 265 of file InterfaceKernel.C.

266 {
267  // Compute the residual for this element
269 
270  // Compute the residual for the neighbor
272 }
virtual void computeElemNeighResidual(Moose::DGResidualType type)
Using the passed DGResidual type, selects the correct test function space and residual block...

◆ coupled()

unsigned int Coupleable::coupled ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Returns the index for a coupled variable by name.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Index of coupled variable, if this is an optionally coupled variable that wasn't provided this will return a unique "invalid" index.

Reimplemented in ShapeUserObject< ElementUserObject >, and ShapeUserObject< SideUserObject >.

Definition at line 253 of file Coupleable.C.

Referenced by FunctionMaterialBase::FunctionMaterialBase(), KernelBase::KernelBase(), and NodalEqualValueConstraint::NodalEqualValueConstraint().

254 {
255  checkVar(var_name);
256 
257  if (!isCoupled(var_name))
258  {
259  // make sure we don't try to access default var ids that were not provided
260  if (comp + 1 > _optional_var_index[var_name].size())
262  ": Requested component ",
263  comp,
264  " of coupled value ",
265  var_name,
266  " is out of range.");
267  return _optional_var_index[var_name][comp];
268  }
269 
270  MooseVariableFEBase * var = getFEVar(var_name, comp);
271  switch (var->kind())
272  {
274  return var->number();
276  return std::numeric_limits<unsigned int>::max() - var->number();
277  default:
278  mooseError(_c_name, ": Unknown variable kind. Corrupted binary?");
279  }
280 }
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
unsigned int number() const
Get variable number coming from libMesh.
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
const std::string & _c_name
The name of the object this interface is part of.
Definition: Coupleable.h:732
Moose::VarKindType kind() const
Kind of the variable (Nonlinear, Auxiliary, ...)
std::map< std::string, std::vector< unsigned int > > _optional_var_index
Unique indices for optionally coupled vars that weren&#39;t provided.
Definition: Coupleable.h:937
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180
MooseVariableFEBase * getFEVar(const std::string &var_name, unsigned int comp)
Extract pointer to a base finite element coupled variable.
Definition: Coupleable.C:199

◆ coupledCallback()

void Coupleable::coupledCallback ( const std::string &  var_name,
bool  is_old 
)
protectedvirtualinherited

Reimplemented in AuxKernelTempl< ComputeValueType >.

Definition at line 139 of file Coupleable.C.

Referenced by Coupleable::adCoupledGradientTemplate(), Coupleable::adCoupledNodalValueTemplate(), Coupleable::adCoupledSecondTemplate(), Coupleable::adCoupledValueTemplate(), Coupleable::adCoupledVectorGradientTemplate(), Coupleable::adCoupledVectorValueTemplate(), Coupleable::coupledCurl(), Coupleable::coupledCurlOld(), Coupleable::coupledCurlOlder(), Coupleable::coupledDofValues(), Coupleable::coupledDofValuesOld(), Coupleable::coupledDofValuesOlder(), Coupleable::coupledGradient(), Coupleable::coupledGradientDot(), Coupleable::coupledGradientDotDot(), Coupleable::coupledGradientOld(), Coupleable::coupledGradientOlder(), Coupleable::coupledGradientPreviousNL(), Coupleable::coupledMatrixTagValue(), Coupleable::coupledNodalDot(), Coupleable::coupledNodalDotDot(), Coupleable::coupledNodalDotDotOld(), Coupleable::coupledNodalDotOld(), Coupleable::coupledNodalValue(), Coupleable::coupledNodalValueOld(), Coupleable::coupledNodalValueOlder(), Coupleable::coupledNodalValuePreviousNL(), Coupleable::coupledSecond(), Coupleable::coupledSecondOld(), Coupleable::coupledSecondOlder(), Coupleable::coupledSecondPreviousNL(), Coupleable::coupledValue(), Coupleable::coupledValueOld(), Coupleable::coupledValueOlder(), Coupleable::coupledValuePreviousNL(), Coupleable::coupledVectorGradient(), Coupleable::coupledVectorGradientOld(), Coupleable::coupledVectorGradientOlder(), Coupleable::coupledVectorTagValue(), Coupleable::coupledVectorValue(), Coupleable::coupledVectorValueOld(), and Coupleable::coupledVectorValueOlder().

140 {
141 }

◆ coupledComponents()

unsigned int Coupleable::coupledComponents ( const std::string &  var_name)
protectedinherited

Number of coupled components.

Parameters
var_nameName of the variable
Returns
number of components this variable has (usually 1)

Definition at line 166 of file Coupleable.C.

Referenced by KernelBase::KernelBase(), NodalEqualValueConstraint::NodalEqualValueConstraint(), SpatialAverageBase::SpatialAverageBase(), and VolumeHistogram::VolumeHistogram().

167 {
168  if (isCoupled(var_name))
169  return _coupled_vars[var_name].size();
170  else
171  {
173  return _c_parameters.numberDefaultCoupledValues(var_name);
174  else
175  return 0;
176  }
177 }
unsigned int numberDefaultCoupledValues(const std::string &coupling_name) const
Get the number of defaulted coupled value entries.
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
bool hasDefaultCoupledValue(const std::string &coupling_name) const
Return whether or not the requested parameter has a default coupled value.
std::map< std::string, std::vector< MooseVariableFEBase * > > _coupled_vars
Coupled vars whose values we provide.
Definition: Coupleable.h:738
const InputParameters & _c_parameters
Definition: Coupleable.h:729

◆ coupledCurl()

const VectorVariableCurl & Coupleable::coupledCurl ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Returns curl of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VectorVariableCurl containing the curl of the coupled variable
See also
Kernel::_curl_u

Definition at line 1078 of file Coupleable.C.

1079 {
1080  if (!isCoupled(var_name)) // Return default 0
1081  return _default_vector_curl;
1082 
1083  coupledCallback(var_name, false);
1084  if (_c_nodal)
1085  mooseError("Nodal variables do not have curls");
1086 
1087  VectorMooseVariable * var = getVectorVar(var_name, comp);
1088  if (var == NULL)
1089  mooseError("Call corresponding scalar field variable method");
1090 
1091  if (!_coupleable_neighbor)
1092  return (_c_is_implicit) ? var->curlSln() : var->curlSlnOld();
1093  else
1094  return (_c_is_implicit) ? var->curlSlnNeighbor() : var->curlSlnOldNeighbor();
1095 }
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
VectorVariableCurl _default_vector_curl
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:819
VectorMooseVariable * getVectorVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled vector variable.
Definition: Coupleable.C:247
Class for stuff related to variables.
Definition: Adaptivity.h:30
const FieldVariableCurl & curlSlnOld()
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
const FieldVariableCurl & curlSlnOldNeighbor()
const FieldVariableCurl & curlSln()
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
const FieldVariableCurl & curlSlnNeighbor()
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867

◆ coupledCurlOld()

const VectorVariableCurl & Coupleable::coupledCurlOld ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Returns an old curl from previous time step of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VectorVariableCurl containing the old curl of the coupled variable
See also
Kernel::_curl_u_old

Definition at line 1098 of file Coupleable.C.

1099 {
1100  if (!isCoupled(var_name)) // Return default 0
1101  return _default_vector_curl;
1102 
1103  coupledCallback(var_name, true);
1104  if (_c_nodal)
1105  mooseError("Nodal variables do not have curls");
1106 
1107  validateExecutionerType(var_name, "coupledCurlOld");
1108  VectorMooseVariable * var = getVectorVar(var_name, comp);
1109  if (var == NULL)
1110  mooseError("Call corresponding scalar field variable method");
1111 
1112  if (!_coupleable_neighbor)
1113  return (_c_is_implicit) ? var->curlSlnOld() : var->curlSlnOlder();
1114  else
1115  return (_c_is_implicit) ? var->curlSlnOldNeighbor() : var->curlSlnOlderNeighbor();
1116 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
const FieldVariableCurl & curlSlnOlder()
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
VectorVariableCurl _default_vector_curl
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:819
VectorMooseVariable * getVectorVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled vector variable.
Definition: Coupleable.C:247
Class for stuff related to variables.
Definition: Adaptivity.h:30
const FieldVariableCurl & curlSlnOld()
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
const FieldVariableCurl & curlSlnOldNeighbor()
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
const FieldVariableCurl & curlSlnOlderNeighbor()

◆ coupledCurlOlder()

const VectorVariableCurl & Coupleable::coupledCurlOlder ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Returns an old curl from two time steps previous of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VectorVariableCurl containing the older curl of the coupled variable
See also
Kernel::_curl_u_older

Definition at line 1119 of file Coupleable.C.

1120 {
1121  if (!isCoupled(var_name)) // Return default 0
1122  return _default_vector_curl;
1123 
1124  coupledCallback(var_name, true);
1125  if (_c_nodal)
1126  mooseError("Nodal variables do not have curls");
1127 
1128  validateExecutionerType(var_name, "coupledCurlOlder");
1129  VectorMooseVariable * var = getVectorVar(var_name, comp);
1130  if (var == NULL)
1131  mooseError("Call corresponding scalar field variable method");
1132 
1133  if (_c_is_implicit)
1134  {
1135  if (!_coupleable_neighbor)
1136  return var->curlSlnOlder();
1137  else
1138  return var->curlSlnOlderNeighbor();
1139  }
1140  else
1141  mooseError("Older values not available for explicit schemes");
1142 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
const FieldVariableCurl & curlSlnOlder()
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
VectorVariableCurl _default_vector_curl
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:819
VectorMooseVariable * getVectorVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled vector variable.
Definition: Coupleable.C:247
Class for stuff related to variables.
Definition: Adaptivity.h:30
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
const FieldVariableCurl & curlSlnOlderNeighbor()

◆ coupledDofValues()

const VariableValue & Coupleable::coupledDofValues ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Returns DoFs in the current solution vector of a coupled variable for the local element.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue for the DoFs of the coupled variable

Definition at line 1410 of file Coupleable.C.

1411 {
1412  checkVar(var_name);
1413 
1414  if (!isCoupled(var_name))
1415  return *getDefaultValue(var_name, comp);
1416 
1417  coupledCallback(var_name, false);
1418  MooseVariableFEBase * var = getFEVar(var_name, comp);
1419 
1420  if (!_coupleable_neighbor)
1421  return (_c_is_implicit) ? var->dofValues() : var->dofValuesOld();
1422  else
1423  return (_c_is_implicit) ? var->dofValuesNeighbor() : var->dofValuesOldNeighbor();
1424 }
VariableValue * getDefaultValue(const std::string &var_name, unsigned int comp)
Helper method to return (and insert if necessary) the default value for an uncoupled variable...
Definition: Coupleable.C:283
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
virtual const MooseArray< Number > & dofValues()=0
Returns dof solution on element.
virtual const MooseArray< Number > & dofValuesOld()=0
Returns old dof solution on element.
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180
virtual const MooseArray< Number > & dofValuesOldNeighbor()=0
Returns old dof solution on neighbor element.
MooseVariableFEBase * getFEVar(const std::string &var_name, unsigned int comp)
Extract pointer to a base finite element coupled variable.
Definition: Coupleable.C:199
virtual const MooseArray< Number > & dofValuesNeighbor()=0
Returns dof solution on neighbor element.

◆ coupledDofValuesOld()

const VariableValue & Coupleable::coupledDofValuesOld ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Returns DoFs in the old solution vector of a coupled variable for the local element.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue for the old DoFs of the coupled variable

Definition at line 1427 of file Coupleable.C.

1428 {
1429  checkVar(var_name);
1430 
1431  if (!isCoupled(var_name))
1432  return *getDefaultValue(var_name, comp);
1433 
1434  validateExecutionerType(var_name, "coupledDofValuesOld");
1435  coupledCallback(var_name, true);
1436  MooseVariableFEBase * var = getFEVar(var_name, comp);
1437 
1438  if (!_coupleable_neighbor)
1439  return (_c_is_implicit) ? var->dofValuesOld() : var->dofValuesOlder();
1440  else
1441  return (_c_is_implicit) ? var->dofValuesOldNeighbor() : var->dofValuesOlderNeighbor();
1442 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
VariableValue * getDefaultValue(const std::string &var_name, unsigned int comp)
Helper method to return (and insert if necessary) the default value for an uncoupled variable...
Definition: Coupleable.C:283
virtual const MooseArray< Number > & dofValuesOlderNeighbor()=0
Returns older dof solution on neighbor element.
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
virtual const MooseArray< Number > & dofValuesOld()=0
Returns old dof solution on element.
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180
virtual const MooseArray< Number > & dofValuesOldNeighbor()=0
Returns old dof solution on neighbor element.
virtual const MooseArray< Number > & dofValuesOlder()=0
Returns older dof solution on element.
MooseVariableFEBase * getFEVar(const std::string &var_name, unsigned int comp)
Extract pointer to a base finite element coupled variable.
Definition: Coupleable.C:199

◆ coupledDofValuesOlder()

const VariableValue & Coupleable::coupledDofValuesOlder ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Returns DoFs in the older solution vector of a coupled variable for the local element.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue for the older DoFs of the coupled variable

Definition at line 1445 of file Coupleable.C.

1446 {
1447  checkVar(var_name);
1448 
1449  if (!isCoupled(var_name))
1450  return *getDefaultValue(var_name, comp);
1451 
1452  validateExecutionerType(var_name, "coupledDofValuesOlder");
1453  coupledCallback(var_name, true);
1454  MooseVariableFEBase * var = getFEVar(var_name, comp);
1455  if (_c_is_implicit)
1456  {
1457  if (!_coupleable_neighbor)
1458  return var->dofValuesOlder();
1459  else
1460  return var->dofValuesOlderNeighbor();
1461  }
1462  else
1463  mooseError(_c_name, ": Older values not available for explicit schemes");
1464 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
VariableValue * getDefaultValue(const std::string &var_name, unsigned int comp)
Helper method to return (and insert if necessary) the default value for an uncoupled variable...
Definition: Coupleable.C:283
virtual const MooseArray< Number > & dofValuesOlderNeighbor()=0
Returns older dof solution on neighbor element.
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
const std::string & _c_name
The name of the object this interface is part of.
Definition: Coupleable.h:732
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180
virtual const MooseArray< Number > & dofValuesOlder()=0
Returns older dof solution on element.
MooseVariableFEBase * getFEVar(const std::string &var_name, unsigned int comp)
Extract pointer to a base finite element coupled variable.
Definition: Coupleable.C:199

◆ coupledDot()

const VariableValue & Coupleable::coupledDot ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Time derivative of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue containing the time derivative of the coupled variable

Reimplemented in AuxKernelTempl< ComputeValueType >.

Definition at line 624 of file Coupleable.C.

Referenced by AuxKernelTempl< ComputeValueType >::coupledDot().

625 {
626  checkVar(var_name);
627  if (!isCoupled(var_name)) // Return default 0
628  return _default_value_zero;
629 
630  validateExecutionerType(var_name, "coupledDot");
631  MooseVariable * var = getVar(var_name, comp);
632 
634  {
635  if (_c_nodal)
636  return var->dofValuesDot();
637  else
638  return var->uDot();
639  }
640  else
641  {
642  if (_c_nodal)
643  return var->dofValuesDotNeighbor();
644  else
645  return var->uDotNeighbor();
646  }
647 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
const MooseArray< Number > & dofValuesDot() override
Returns time derivative of degrees of freedom.
VariableValue _default_value_zero
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:774
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
const MooseArray< Number > & dofValuesDotNeighbor() override
Returns time derivative of neighboring degrees of freedom.
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
const FieldVariableValue & uDot()
const FieldVariableValue & uDotNeighbor()
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledDotDot()

const VariableValue & Coupleable::coupledDotDot ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Second time derivative of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue containing the time derivative of the coupled variable

Definition at line 650 of file Coupleable.C.

651 {
652  checkVar(var_name);
653  if (!isCoupled(var_name)) // Return default 0
654  return _default_value_zero;
655 
656  validateExecutionerType(var_name, "coupledDotDot");
657  MooseVariable * var = getVar(var_name, comp);
658 
660  {
661  if (_c_nodal)
662  return var->dofValuesDotDot();
663  else
664  return var->uDotDot();
665  }
666  else
667  {
668  if (_c_nodal)
669  return var->dofValuesDotDotNeighbor();
670  else
671  return var->uDotDotNeighbor();
672  }
673 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
const FieldVariableValue & uDotDotNeighbor()
const MooseArray< Number > & dofValuesDotDot() override
Returns second time derivative of degrees of freedom.
VariableValue _default_value_zero
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:774
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
const MooseArray< Number > & dofValuesDotDotNeighbor() override
Returns second time derivative of neighboring degrees of freedom.
const FieldVariableValue & uDotDot()
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledDotDotDu()

const VariableValue & Coupleable::coupledDotDotDu ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

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

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue containing the time derivative of the coupled variable with respect to the coefficients

Definition at line 866 of file Coupleable.C.

867 {
868  checkVar(var_name);
869  if (!isCoupled(var_name)) // Return default 0
870  return _default_value_zero;
871 
872  validateExecutionerType(var_name, "coupledDotDotDu");
873  MooseVariable * var = getVar(var_name, comp);
874 
876  {
877  if (_c_nodal)
878  return var->dofValuesDuDotDotDu();
879  else
880  return var->duDotDotDu();
881  }
882  else
883  {
884  if (_c_nodal)
885  return var->dofValuesDuDotDotDuNeighbor();
886  else
887  return var->duDotDotDu();
888  }
889 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
VariableValue _default_value_zero
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:774
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
const MooseArray< Number > & dofValuesDuDotDotDu() override
Returns derivative of second time derivative of degrees of freedom.
const MooseArray< Number > & dofValuesDuDotDotDuNeighbor() override
Returns derivative of second time derivative of neighboring degrees of freedom.
const VariableValue & duDotDotDu()
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledDotDotOld()

const VariableValue & Coupleable::coupledDotDotOld ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Old second time derivative of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue containing the time derivative of the coupled variable

Definition at line 702 of file Coupleable.C.

703 {
704  checkVar(var_name);
705  if (!isCoupled(var_name)) // Return default 0
706  return _default_value_zero;
707 
708  validateExecutionerType(var_name, "coupledDotDotOld");
709  MooseVariable * var = getVar(var_name, comp);
710 
712  {
713  if (_c_nodal)
714  return var->dofValuesDotDotOld();
715  else
716  return var->uDotDotOld();
717  }
718  else
719  {
720  if (_c_nodal)
721  return var->dofValuesDotDotOldNeighbor();
722  else
723  return var->uDotDotOldNeighbor();
724  }
725 }
const MooseArray< Number > & dofValuesDotDotOldNeighbor() override
Returns old second time derivative of neighboring degrees of freedom.
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
const FieldVariableValue & uDotDotOldNeighbor()
VariableValue _default_value_zero
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:774
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
const MooseArray< Number > & dofValuesDotDotOld() override
Returns old second time derivative of degrees of freedom.
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
const FieldVariableValue & uDotDotOld()
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledDotDu()

const VariableValue & Coupleable::coupledDotDu ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

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

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue containing the time derivative of the coupled variable with respect to the coefficients

Reimplemented in AuxKernelTempl< ComputeValueType >.

Definition at line 840 of file Coupleable.C.

Referenced by AuxKernelTempl< ComputeValueType >::coupledDotDu().

841 {
842  checkVar(var_name);
843  if (!isCoupled(var_name)) // Return default 0
844  return _default_value_zero;
845 
846  validateExecutionerType(var_name, "coupledDotDu");
847  MooseVariable * var = getVar(var_name, comp);
848 
850  {
851  if (_c_nodal)
852  return var->dofValuesDuDotDu();
853  else
854  return var->duDotDu();
855  }
856  else
857  {
858  if (_c_nodal)
859  return var->dofValuesDuDotDuNeighbor();
860  else
861  return var->duDotDuNeighbor();
862  }
863 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
const VariableValue & duDotDu()
VariableValue _default_value_zero
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:774
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
const MooseArray< Number > & dofValuesDuDotDu() override
Returns derivative of time derivative of degrees of freedom.
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
const MooseArray< Number > & dofValuesDuDotDuNeighbor() override
Returns derivative of time derivative of neighboring degrees of freedom.
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180
const VariableValue & duDotDuNeighbor()

◆ coupledDotOld()

const VariableValue & Coupleable::coupledDotOld ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Old time derivative of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue containing the time derivative of the coupled variable

Definition at line 676 of file Coupleable.C.

677 {
678  checkVar(var_name);
679  if (!isCoupled(var_name)) // Return default 0
680  return _default_value_zero;
681 
682  validateExecutionerType(var_name, "coupledDotOld");
683  MooseVariable * var = getVar(var_name, comp);
684 
686  {
687  if (_c_nodal)
688  return var->dofValuesDotOld();
689  else
690  return var->uDotOld();
691  }
692  else
693  {
694  if (_c_nodal)
695  return var->dofValuesDotOldNeighbor();
696  else
697  return var->uDotOldNeighbor();
698  }
699 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
const MooseArray< Number > & dofValuesDotOld() override
Returns old time derivative of degrees of freedom.
VariableValue _default_value_zero
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:774
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
const MooseArray< Number > & dofValuesDotOldNeighbor() override
Returns old time derivative of neighboring degrees of freedom.
const FieldVariableValue & uDotOldNeighbor()
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180
const FieldVariableValue & uDotOld()

◆ coupledGradient()

const VariableGradient & Coupleable::coupledGradient ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Returns gradient of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableGradient containing the gradient of the coupled variable
See also
Kernel::gradient

Definition at line 892 of file Coupleable.C.

Referenced by NodeElemConstraint::coupledSlaveGradient(), and NodeFaceConstraint::coupledSlaveGradient().

893 {
894  checkVar(var_name);
895  if (!isCoupled(var_name)) // Return default 0
896  return _default_gradient;
897 
898  coupledCallback(var_name, false);
899  if (_c_nodal)
900  mooseError(_c_name, ": Nodal variables do not have gradients");
901 
902  MooseVariable * var = getVar(var_name, comp);
903 
905  return (_c_is_implicit) ? var->gradSln() : var->gradSlnOld();
906  else
907  return (_c_is_implicit) ? var->gradSlnNeighbor() : var->gradSlnOldNeighbor();
908 }
const FieldVariableGradient & gradSlnOld()
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
const FieldVariableGradient & gradSln()
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
const FieldVariableGradient & gradSlnNeighbor()
const FieldVariableGradient & gradSlnOldNeighbor()
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
VariableGradient _default_gradient
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:777
const std::string & _c_name
The name of the object this interface is part of.
Definition: Coupleable.h:732
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledGradientDot()

const VariableGradient & Coupleable::coupledGradientDot ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Time derivative of the gradient of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableGradient containing the time derivative of the gradient of a coupled variable

Definition at line 976 of file Coupleable.C.

977 {
978  checkVar(var_name);
979  if (!isCoupled(var_name)) // Return default 0
980  return _default_gradient;
981 
982  coupledCallback(var_name, false);
983  if (_c_nodal)
984  mooseError(_c_name, ": Nodal variables do not have gradients");
985 
986  MooseVariable * var = getVar(var_name, comp);
987 
989  return var->gradSlnDot();
990  else
991  return var->gradSlnNeighborDot();
992 }
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
const FieldVariableGradient & gradSlnNeighborDot()
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
const FieldVariableGradient & gradSlnDot()
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
VariableGradient _default_gradient
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:777
const std::string & _c_name
The name of the object this interface is part of.
Definition: Coupleable.h:732
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledGradientDotDot()

const VariableGradient & Coupleable::coupledGradientDotDot ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Second time derivative of the gradient of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableGradient containing the time derivative of the gradient of a coupled variable

Definition at line 995 of file Coupleable.C.

996 {
997  checkVar(var_name);
998  if (!isCoupled(var_name)) // Return default 0
999  return _default_gradient;
1000 
1001  coupledCallback(var_name, false);
1002  if (_c_nodal)
1003  mooseError(_c_name, ": Nodal variables do not have gradients");
1004 
1005  MooseVariable * var = getVar(var_name, comp);
1006 
1007  if (!_coupleable_neighbor)
1008  return var->gradSlnDotDot();
1009  else
1010  return var->gradSlnNeighborDotDot();
1011 }
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
const FieldVariableGradient & gradSlnDotDot()
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
VariableGradient _default_gradient
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:777
const FieldVariableGradient & gradSlnNeighborDotDot()
const std::string & _c_name
The name of the object this interface is part of.
Definition: Coupleable.h:732
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledGradientOld()

const VariableGradient & Coupleable::coupledGradientOld ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Returns an old gradient from previous time step of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableGradient containing the old gradient of the coupled variable
See also
Kernel::gradientOld

Definition at line 911 of file Coupleable.C.

Referenced by NodeElemConstraint::coupledSlaveGradientOld(), and NodeFaceConstraint::coupledSlaveGradientOld().

912 {
913  checkVar(var_name);
914  if (!isCoupled(var_name)) // Return default 0
915  return _default_gradient;
916 
917  coupledCallback(var_name, true);
918  if (_c_nodal)
919  mooseError(_c_name, ": Nodal compute objects do not support gradients");
920 
921  validateExecutionerType(var_name, "coupledGradientOld");
922  MooseVariable * var = getVar(var_name, comp);
923 
925  return (_c_is_implicit) ? var->gradSlnOld() : var->gradSlnOlder();
926  else
927  return (_c_is_implicit) ? var->gradSlnOldNeighbor() : var->gradSlnOlderNeighbor();
928 }
const FieldVariableGradient & gradSlnOld()
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
const FieldVariableGradient & gradSlnOlder()
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
const FieldVariableGradient & gradSlnOlderNeighbor()
const FieldVariableGradient & gradSlnOldNeighbor()
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
VariableGradient _default_gradient
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:777
const std::string & _c_name
The name of the object this interface is part of.
Definition: Coupleable.h:732
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledGradientOlder()

const VariableGradient & Coupleable::coupledGradientOlder ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Returns an old gradient from two time steps previous of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableGradient containing the older gradient of the coupled variable
See also
Kernel::gradientOlder

Definition at line 931 of file Coupleable.C.

Referenced by NodeElemConstraint::coupledSlaveGradientOlder(), and NodeFaceConstraint::coupledSlaveGradientOlder().

932 {
933  checkVar(var_name);
934  if (!isCoupled(var_name)) // Return default 0
935  return _default_gradient;
936 
937  coupledCallback(var_name, true);
938  if (_c_nodal)
939  mooseError(_c_name, ": Nodal compute objects do not support gradients");
940 
941  validateExecutionerType(var_name, "coupledGradientOlder");
942  MooseVariable * var = getVar(var_name, comp);
943 
944  if (_c_is_implicit)
945  {
947  return var->gradSlnOlder();
948  else
949  return var->gradSlnOlderNeighbor();
950  }
951  else
952  mooseError(_c_name, ": Older values not available for explicit schemes");
953 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
const FieldVariableGradient & gradSlnOlder()
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
const FieldVariableGradient & gradSlnOlderNeighbor()
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
VariableGradient _default_gradient
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:777
const std::string & _c_name
The name of the object this interface is part of.
Definition: Coupleable.h:732
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledGradientPreviousNL()

const VariableGradient & Coupleable::coupledGradientPreviousNL ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Returns gradient of a coupled variable for previous Newton iterate.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableGradient containing the gradient of the coupled variable

Definition at line 956 of file Coupleable.C.

957 {
958  checkVar(var_name);
959  if (!isCoupled(var_name)) // Return default 0
960  return _default_gradient;
961 
963  coupledCallback(var_name, true);
964  if (_c_nodal)
965  mooseError(_c_name, ": Nodal compute objects do not support gradients");
966 
967  MooseVariable * var = getVar(var_name, comp);
968 
970  return var->gradSlnPreviousNL();
971  else
972  return var->gradSlnPreviousNLNeighbor();
973 }
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
FEProblemBase & _c_fe_problem
Definition: Coupleable.h:735
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
const FieldVariableGradient & gradSlnPreviousNLNeighbor()
VariableGradient _default_gradient
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:777
void needsPreviousNewtonIteration(bool state)
Set a flag that indicated that user required values for the previous Newton iterate.
const std::string & _c_name
The name of the object this interface is part of.
Definition: Coupleable.h:732
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
const FieldVariableGradient & gradSlnPreviousNL()
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledMatrixTagScalarValue()

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

Returns value of a scalar coupled variable.

Parameters
var_nameName of coupled variable
tagTag ID of coupled matrix;
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue for the coupled variable

Definition at line 162 of file ScalarCoupleable.C.

165 {
166  checkVar(var_name);
167  if (!isCoupledScalar(var_name, comp))
168  return *getDefaultValue(var_name);
169 
171 
172  MooseVariableScalar * var = getScalarVar(var_name, comp);
173  return var->matrixTagSln(tag);
174 }
virtual bool isCoupledScalar(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled_as name.
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
VariableValue * getDefaultValue(const std::string &var_name)
Helper method to return (and insert if necessary) the default value for an uncoupled variable...
MooseVariableScalar * getScalarVar(const std::string &var_name, unsigned int comp)
Extract pointer to a scalar coupled variable.
VariableValue & matrixTagSln(TagID tag)
Class for scalar variables (they are different).
void addScalarVariableCoupleableMatrixTag(TagID tag)

◆ coupledMatrixTagValue()

const VariableValue & Coupleable::coupledMatrixTagValue ( const std::string &  var_name,
TagID  tag,
unsigned int  comp = 0 
)
protectedvirtualinherited

Returns value of a coupled variable for a given tag.

This couples the diag vector of matrix

Parameters
var_nameName of coupled variable
tagmatrix tag ID
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue for the coupled variable
See also
Kernel::_u

Definition at line 406 of file Coupleable.C.

407 {
408  checkVar(var_name);
409  if (!isCoupled(var_name))
410  mooseError(var_name, ": invalid variable name for coupledMatrixTagValue");
411 
413 
414  coupledCallback(var_name, false);
415  MooseVariable * var = getVar(var_name, comp);
416 
417  if (_c_nodal)
418  return var->nodalMatrixTagValue(tag);
419  else
420  return var->matrixTagValue(tag);
421 }
bool _c_nodal
True if we provide coupling to nodal values.
Definition: Coupleable.h:750
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
const FieldVariableValue & matrixTagValue(TagID tag)
void addFEVariableCoupleableMatrixTag(TagID tag)
Definition: Coupleable.h:116
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180
const MooseArray< Real > & nodalMatrixTagValue(TagID tag)

◆ coupledNeighborDofValues()

const VariableValue & NeighborCoupleable::coupledNeighborDofValues ( const std::string &  var_name,
unsigned int  comp = 0 
)
virtualinherited

Definition at line 174 of file NeighborCoupleable.C.

175 {
176  if (_neighbor_nodal)
177  mooseError("nodal objects should not call coupledDofValues");
178 
179  MooseVariable * var = getVar(var_name, comp);
180  return (_c_is_implicit) ? var->dofValuesNeighbor() : var->dofValuesOldNeighbor();
181 }
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
const MooseArray< Number > & dofValuesNeighbor() override
Returns dof solution on neighbor element.
const MooseArray< Number > & dofValuesOldNeighbor() override
Returns old dof solution on neighbor element.

◆ coupledNeighborDofValuesOld()

const VariableValue & NeighborCoupleable::coupledNeighborDofValuesOld ( const std::string &  var_name,
unsigned int  comp = 0 
)
virtualinherited

Definition at line 184 of file NeighborCoupleable.C.

185 {
186  if (_neighbor_nodal)
187  mooseError("nodal objects should not call coupledDofValuesOld");
188 
189  validateExecutionerType(var_name, "coupledNeighborDofValuesOld");
190  MooseVariable * var = getVar(var_name, comp);
192 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
const MooseArray< Number > & dofValuesOlderNeighbor() override
Returns older dof solution on neighbor element.
const MooseArray< Number > & dofValuesOldNeighbor() override
Returns old dof solution on neighbor element.

◆ coupledNeighborDofValuesOlder()

const VariableValue & NeighborCoupleable::coupledNeighborDofValuesOlder ( const std::string &  var_name,
unsigned int  comp = 0 
)
virtualinherited

Definition at line 195 of file NeighborCoupleable.C.

196 {
197  if (_neighbor_nodal)
198  mooseError("nodal objects should not call coupledDofValuesOlder");
199 
200  validateExecutionerType(var_name, "coupledNeighborDofValuesOlder");
201  MooseVariable * var = getVar(var_name, comp);
202  if (_c_is_implicit)
203  return var->dofValuesOlderNeighbor();
204  else
205  mooseError("Older values not available for explicit schemes");
206 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
const MooseArray< Number > & dofValuesOlderNeighbor() override
Returns older dof solution on neighbor element.

◆ coupledNeighborGradient()

const VariableGradient & NeighborCoupleable::coupledNeighborGradient ( const std::string &  var_name,
unsigned int  comp = 0 
)
virtualinherited

Definition at line 92 of file NeighborCoupleable.C.

Referenced by NodeElemConstraint::coupledMasterGradient(), and NodeFaceConstraint::coupledMasterGradient().

93 {
94  if (_neighbor_nodal)
95  mooseError("Nodal variables do not have gradients");
96 
97  MooseVariable * var = getVar(var_name, comp);
98  return (_c_is_implicit) ? var->gradSlnNeighbor() : var->gradSlnOldNeighbor();
99 }
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
const FieldVariableGradient & gradSlnNeighbor()
const FieldVariableGradient & gradSlnOldNeighbor()
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753

◆ coupledNeighborGradientOld()

const VariableGradient & NeighborCoupleable::coupledNeighborGradientOld ( const std::string &  var_name,
unsigned int  comp = 0 
)
virtualinherited

Definition at line 102 of file NeighborCoupleable.C.

Referenced by NodeElemConstraint::coupledMasterGradientOld(), and NodeFaceConstraint::coupledMasterGradientOld().

103 {
104  if (_neighbor_nodal)
105  mooseError("Nodal variables do not have gradients");
106 
107  validateExecutionerType(var_name, "coupledNeighborGradientOld");
108  MooseVariable * var = getVar(var_name, comp);
109  return (_c_is_implicit) ? var->gradSlnOldNeighbor() : var->gradSlnOlderNeighbor();
110 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
const FieldVariableGradient & gradSlnOlderNeighbor()
const FieldVariableGradient & gradSlnOldNeighbor()
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753

◆ coupledNeighborGradientOlder()

const VariableGradient & NeighborCoupleable::coupledNeighborGradientOlder ( const std::string &  var_name,
unsigned int  comp = 0 
)
virtualinherited

Definition at line 113 of file NeighborCoupleable.C.

Referenced by NodeElemConstraint::coupledMasterGradientOlder(), and NodeFaceConstraint::coupledMasterGradientOlder().

114 {
115  if (_neighbor_nodal)
116  mooseError("Nodal variables do not have gradients");
117 
118  validateExecutionerType(var_name, "coupledNeighborGradientOlder");
119  MooseVariable * var = getVar(var_name, comp);
120  if (_c_is_implicit)
121  return var->gradSlnOlderNeighbor();
122  else
123  mooseError("Older values not available for explicit schemes");
124 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
const FieldVariableGradient & gradSlnOlderNeighbor()
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753

◆ coupledNeighborSecond()

const VariableSecond & NeighborCoupleable::coupledNeighborSecond ( const std::string &  var_name,
unsigned int  i = 0 
)
virtualinherited

Definition at line 164 of file NeighborCoupleable.C.

Referenced by NodeElemConstraint::coupledMasterSecond(), and NodeFaceConstraint::coupledMasterSecond().

165 {
166  if (_neighbor_nodal)
167  mooseError("Nodal variables do not have second derivatives");
168 
169  MooseVariable * var = getVar(var_name, comp);
170  return (_c_is_implicit) ? var->secondSlnNeighbor() : var->secondSlnOldNeighbor();
171 }
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
const FieldVariableSecond & secondSlnNeighbor()
const FieldVariableSecond & secondSlnOldNeighbor()

◆ coupledNeighborValue()

const VariableValue & NeighborCoupleable::coupledNeighborValue ( const std::string &  var_name,
unsigned int  comp = 0 
)
virtualinherited

Definition at line 28 of file NeighborCoupleable.C.

Referenced by NodeElemConstraint::coupledMasterValue(), and NodeFaceConstraint::coupledMasterValue().

29 {
30  MooseVariable * var = getVar(var_name, comp);
31  if (_neighbor_nodal)
32  return (_c_is_implicit) ? var->dofValuesNeighbor() : var->dofValuesOldNeighbor();
33  else
34  return (_c_is_implicit) ? var->slnNeighbor() : var->slnOldNeighbor();
35 }
const FieldVariableValue & slnOldNeighbor()
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
const FieldVariableValue & slnNeighbor()
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
const MooseArray< Number > & dofValuesNeighbor() override
Returns dof solution on neighbor element.
const MooseArray< Number > & dofValuesOldNeighbor() override
Returns old dof solution on neighbor element.

◆ coupledNeighborValueDot()

const VariableValue & NeighborCoupleable::coupledNeighborValueDot ( const std::string &  var_name,
unsigned int  comp = 0 
)
virtualinherited

Definition at line 38 of file NeighborCoupleable.C.

39 {
40  MooseVariable * var = getVar(var_name, comp);
41  if (_neighbor_nodal)
42  return var->dofValuesDotNeighbor();
43  else
44  return var->uDotNeighbor();
45 }
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
const MooseArray< Number > & dofValuesDotNeighbor() override
Returns time derivative of neighboring degrees of freedom.
const FieldVariableValue & uDotNeighbor()

◆ coupledNeighborValueDotDu()

const VariableValue & NeighborCoupleable::coupledNeighborValueDotDu ( const std::string &  var_name,
unsigned int  comp = 0 
)
virtualinherited

Definition at line 48 of file NeighborCoupleable.C.

49 {
50  MooseVariable * var = getVar(var_name, comp);
51  if (_neighbor_nodal)
52  return var->dofValuesDuDotDuNeighbor();
53  else
54  return var->duDotDuNeighbor();
55 }
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
const MooseArray< Number > & dofValuesDuDotDuNeighbor() override
Returns derivative of time derivative of neighboring degrees of freedom.
const VariableValue & duDotDuNeighbor()

◆ coupledNeighborValueOld()

const VariableValue & NeighborCoupleable::coupledNeighborValueOld ( const std::string &  var_name,
unsigned int  comp = 0 
)
virtualinherited

Definition at line 58 of file NeighborCoupleable.C.

Referenced by NodeElemConstraint::coupledMasterValueOld(), and NodeFaceConstraint::coupledMasterValueOld().

59 {
60  validateExecutionerType(var_name, "coupledNeighborValueOld");
61 
62  MooseVariable * var = getVar(var_name, comp);
63  if (_neighbor_nodal)
65  else
66  return (_c_is_implicit) ? var->slnOldNeighbor() : var->slnOlderNeighbor();
67 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
const FieldVariableValue & slnOldNeighbor()
const FieldVariableValue & slnOlderNeighbor()
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
const MooseArray< Number > & dofValuesOlderNeighbor() override
Returns older dof solution on neighbor element.
const MooseArray< Number > & dofValuesOldNeighbor() override
Returns old dof solution on neighbor element.

◆ coupledNeighborValueOlder()

const VariableValue & NeighborCoupleable::coupledNeighborValueOlder ( const std::string &  var_name,
unsigned int  comp = 0 
)
virtualinherited

Definition at line 70 of file NeighborCoupleable.C.

Referenced by NodeElemConstraint::coupledMasterValueOlder(), and NodeFaceConstraint::coupledMasterValueOlder().

71 {
72  validateExecutionerType(var_name, "coupledNeighborValueOlder");
73 
74  MooseVariable * var = getVar(var_name, comp);
75  if (_neighbor_nodal)
76  {
77  if (_c_is_implicit)
78  return var->dofValuesOlderNeighbor();
79  else
80  mooseError("Older values not available for explicit schemes");
81  }
82  else
83  {
84  if (_c_is_implicit)
85  return var->slnOlderNeighbor();
86  else
87  mooseError("Older values not available for explicit schemes");
88  }
89 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
const FieldVariableValue & slnOlderNeighbor()
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
bool _c_is_implicit
True if implicit value is required.
Definition: Coupleable.h:753
const MooseArray< Number > & dofValuesOlderNeighbor() override
Returns older dof solution on neighbor element.

◆ coupledNodalDot()

template<typename T >
template const RealVectorValue & Coupleable::coupledNodalDot< RealVectorValue > ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedinherited

Nodal values of time derivative of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue containing the nodal values of time derivative of the coupled variable

Definition at line 1333 of file Coupleable.C.

1334 {
1335  checkVar(var_name);
1336  static const T zero = 0;
1337  if (!isCoupled(var_name)) // Return default 0
1338  return zero;
1339 
1340  validateExecutionerType(var_name, "coupledNodalDot");
1341  coupledCallback(var_name, false);
1342  MooseVariableFE<T> * var = getVarHelper<T>(var_name, comp);
1343  if (var == NULL)
1344  mooseError("Call corresponding vector variable method");
1345 
1346  if (!_coupleable_neighbor)
1347  return var->nodalValueDot();
1348  else
1349  mooseError("Neighbor version not implemented");
1350 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
const OutputType & nodalValueDot()
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledNodalDotDot()

const VariableValue & Coupleable::coupledNodalDotDot ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Nodal values of second time derivative of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue containing the nodal values of second time derivative of the coupled variable

Definition at line 1353 of file Coupleable.C.

1354 {
1355  checkVar(var_name);
1356  if (!isCoupled(var_name)) // Return default 0
1357  return _default_value_zero;
1358 
1359  validateExecutionerType(var_name, "coupledNodalDotDot");
1360  coupledCallback(var_name, false);
1361  MooseVariable * var = getVar(var_name, comp);
1362  if (var == NULL)
1363  mooseError("Call corresponding vector variable method");
1364 
1365  if (!_coupleable_neighbor)
1366  return var->dofValuesDotDot();
1367  else
1368  return var->dofValuesDotDotNeighbor();
1369 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
const MooseArray< Number > & dofValuesDotDot() override
Returns second time derivative of degrees of freedom.
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
VariableValue _default_value_zero
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:774
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
const MooseArray< Number > & dofValuesDotDotNeighbor() override
Returns second time derivative of neighboring degrees of freedom.
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledNodalDotDotOld()

const VariableValue & Coupleable::coupledNodalDotDotOld ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Nodal values of old second time derivative of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue containing the nodal values of second time derivative of the coupled variable

Definition at line 1391 of file Coupleable.C.

1392 {
1393  checkVar(var_name);
1394  if (!isCoupled(var_name)) // Return default 0
1395  return _default_value_zero;
1396 
1397  validateExecutionerType(var_name, "coupledNodalDotDotOld");
1398  coupledCallback(var_name, false);
1399  MooseVariable * var = getVar(var_name, comp);
1400  if (var == NULL)
1401  mooseError("Call corresponding vector variable method");
1402 
1403  if (!_coupleable_neighbor)
1404  return var->dofValuesDotDotOld();
1405  else
1406  return var->dofValuesDotDotOldNeighbor();
1407 }
const MooseArray< Number > & dofValuesDotDotOldNeighbor() override
Returns old second time derivative of neighboring degrees of freedom.
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
VariableValue _default_value_zero
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:774
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
const MooseArray< Number > & dofValuesDotDotOld() override
Returns old second time derivative of degrees of freedom.
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledNodalDotOld()

const VariableValue & Coupleable::coupledNodalDotOld ( const std::string &  var_name,
unsigned int  comp = 0 
)
protectedvirtualinherited

Nodal values of old time derivative of a coupled variable.

Parameters
var_nameName of coupled variable
compComponent number for vector of coupled variables
Returns
Reference to a VariableValue containing the nodal values of time derivative of the coupled variable

Definition at line 1372 of file Coupleable.C.

1373 {
1374  checkVar(var_name);
1375  if (!isCoupled(var_name)) // Return default 0
1376  return _default_value_zero;
1377 
1378  validateExecutionerType(var_name, "coupledNodalDotOld");
1379  coupledCallback(var_name, false);
1380  MooseVariable * var = getVar(var_name, comp);
1381  if (var == NULL)
1382  mooseError("Call corresponding vector variable method");
1383 
1384  if (!_coupleable_neighbor)
1385  return var->dofValuesDotOld();
1386  else
1387  return var->dofValuesDotOldNeighbor();
1388 }
void validateExecutionerType(const std::string &name, const std::string &fn_name) const
Checks to make sure that the current Executioner has set "_is_transient" when old/older values are co...
Definition: Coupleable.C:1467
const MooseArray< Number > & dofValuesDotOld() override
Returns old time derivative of degrees of freedom.
void mooseError(Args &&... args)
Emit an error message with the given stringified, concatenated args and terminate the application...
Definition: MooseError.h:208
VariableValue _default_value_zero
This will always be zero because the default values for optionally coupled variables is always consta...
Definition: Coupleable.h:774
MooseVariable * getVar(const std::string &var_name, unsigned int comp)
Extract pointer to a coupled variable.
Definition: Coupleable.C:241
virtual bool isCoupled(const std::string &var_name, unsigned int i=0)
Returns true if a variables has been coupled as name.
Definition: Coupleable.C:144
virtual void coupledCallback(const std::string &var_name, bool is_old)
Definition: Coupleable.C:139
const MooseArray< Number > & dofValuesDotOldNeighbor() override
Returns old time derivative of neighboring degrees of freedom.
bool _coupleable_neighbor
Whether or not this object is a "neighbor" object: ie all of it&#39;s coupled values should be neighbor v...
Definition: Coupleable.h:867
void checkVar(const std::string &var_name)
Check that the right kind of variable is being coupled in.
Definition: Coupleable.C:180

◆ coupledNodalValue()

template<typename T >
template const RealVectorValue & Coupleable::coupledNodalValue< RealVectorValue > ( const std::string &  var