Class LaplaceOperator is an abstract base class for a Laplace-type operators.
#include <ibtk/LaplaceOperator.h>
Public Member Functions | |
| LaplaceOperator (std::string object_name, bool homogeneous_bc=false) | |
| Constructor. More... | |
| ~LaplaceOperator ()=default | |
| Default destructor. More... | |
| virtual void | setPoissonSpecifications (const SAMRAI::solv::PoissonSpecifications &poisson_spec) |
| Set the SAMRAI::solv::PoissonSpecifications object used to specify the coefficients for the scalar-valued or vector-valued Laplace operator. More... | |
| virtual const SAMRAI::solv::PoissonSpecifications & | getPoissonSpecifications () const |
| Get the SAMRAI::solv::PoissonSpecifications object used to specify the coefficients for the scalar-valued or vector-valued Laplace operator. More... | |
| virtual void | setPhysicalBcCoef (SAMRAI::solv::RobinBcCoefStrategy< NDIM > *bc_coef) |
| Set the SAMRAI::solv::RobinBcCoefStrategy object used to specify physical boundary conditions. More... | |
| virtual void | setPhysicalBcCoefs (const std::vector< SAMRAI::solv::RobinBcCoefStrategy< NDIM > * > &bc_coefs) |
| Set the SAMRAI::solv::RobinBcCoefStrategy objects used to specify physical boundary conditions. More... | |
| virtual const std::vector< SAMRAI::solv::RobinBcCoefStrategy< NDIM > * > & | getPhysicalBcCoefs () const |
| Get the SAMRAI::solv::RobinBcCoefStrategy object(s) used to specify physical boundary conditions. More... | |
Protected Attributes | |
| SAMRAI::solv::PoissonSpecifications | d_poisson_spec |
| std::unique_ptr< SAMRAI::solv::RobinBcCoefStrategy< NDIM > > | d_default_bc_coef |
| std::vector< SAMRAI::solv::RobinBcCoefStrategy< NDIM > * > | d_bc_coefs |
Private Member Functions | |
| LaplaceOperator ()=delete | |
| Default constructor. More... | |
| LaplaceOperator (const LaplaceOperator &from)=delete | |
| Copy constructor. More... | |
| LaplaceOperator & | operator= (const LaplaceOperator &that)=delete |
| Assignment operator. More... | |
General operator functionality. | |
| const std::string & | getName () const |
| Return the object name. More... | |
| virtual bool | getIsInitialized () const |
| Return whether the operator is initialized. More... | |
| virtual void | setHomogeneousBc (bool homogeneous_bc) |
| Set whether the operator should use homogeneous boundary conditions. More... | |
| virtual bool | getHomogeneousBc () const |
| Return whether the operator is using homogeneous boundary conditions. More... | |
| virtual void | setSolutionTime (double solution_time) |
| Set the time at which the solution is to be evaluated. More... | |
| virtual double | getSolutionTime () const |
| Get the time at which the solution is being evaluated. More... | |
| virtual void | setTimeInterval (double current_time, double new_time) |
| Set the current time interval. More... | |
| virtual std::pair< double, double > | getTimeInterval () const |
| Get the current time interval. More... | |
| virtual double | getDt () const |
| Get the current time step size. More... | |
| virtual void | setHierarchyMathOps (SAMRAI::tbox::Pointer< HierarchyMathOps > hier_math_ops) |
| Set the HierarchyMathOps object used by the operator. More... | |
| virtual SAMRAI::tbox::Pointer< HierarchyMathOps > | getHierarchyMathOps () const |
| Get the HierarchyMathOps object used by the operator. More... | |
| virtual void | apply (SAMRAI::solv::SAMRAIVectorReal< NDIM, double > &x, SAMRAI::solv::SAMRAIVectorReal< NDIM, double > &y)=0 |
| Compute \(y=F[x]\). More... | |
| virtual void | applyAdd (SAMRAI::solv::SAMRAIVectorReal< NDIM, double > &x, SAMRAI::solv::SAMRAIVectorReal< NDIM, double > &y, SAMRAI::solv::SAMRAIVectorReal< NDIM, double > &z) |
| Compute \(z=F[x]+y\). More... | |
| virtual void | initializeOperatorState (const SAMRAI::solv::SAMRAIVectorReal< NDIM, double > &in, const SAMRAI::solv::SAMRAIVectorReal< NDIM, double > &out) |
| Compute hierarchy dependent data required for computing y=F[x] and z=F[x]+y. More... | |
| virtual void | deallocateOperatorState () |
| Remove all hierarchy dependent data allocated by initializeOperatorState(). More... | |
| virtual void | imposeSolBcs (SAMRAI::solv::SAMRAIVectorReal< NDIM, double > &u) |
| Impose boudary conditions in the solution vector. More... | |
Logging functions. | |
| const std::string | d_object_name |
| bool | d_is_initialized = false |
| bool | d_homogeneous_bc |
| double | d_solution_time = std::numeric_limits<double>::quiet_NaN() |
| double | d_current_time = std::numeric_limits<double>::quiet_NaN() |
| double | d_new_time = std::numeric_limits<double>::quiet_NaN() |
| SAMRAI::tbox::Pointer< HierarchyMathOps > | d_hier_math_ops |
| bool | d_hier_math_ops_external = false |
| bool | d_enable_logging = false |
| virtual void | setLoggingEnabled (bool enable_logging=true) |
| Enable or disable logging. More... | |
| virtual bool | getLoggingEnabled () const |
| Determine whether logging is enabled or disabled. More... | |
| virtual void | printClassData (std::ostream &stream) |
| Print class data to stream. More... | |
Constructor & Destructor Documentation
◆ LaplaceOperator() [1/3]
| IBTK::LaplaceOperator::LaplaceOperator | ( | std::string | object_name, |
| bool | homogeneous_bc = false |
||
| ) |
◆ ~LaplaceOperator()
|
default |
◆ LaplaceOperator() [2/3]
|
privatedelete |
- Note
- This constructor is not implemented and should not be used.
◆ LaplaceOperator() [3/3]
|
privatedelete |
- Note
- This constructor is not implemented and should not be used.
- Parameters
-
from The value to copy to this object.
Member Function Documentation
◆ setPoissonSpecifications()
|
virtual |
◆ getPoissonSpecifications()
|
virtual |
◆ setPhysicalBcCoef()
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virtual |
- Note
- bc_coef may be nullptr. In this case, default boundary conditions (as supplied to the class constructor) are employed.
- Parameters
-
bc_coef Pointer to an object that can set the Robin boundary condition coefficients
◆ setPhysicalBcCoefs()
|
virtual |
- Note
- Any of the elements of bc_coefs may be nullptr. In this case, default boundary conditions (as supplied to the class constructor) are employed for that data depth.
- Parameters
-
bc_coefs Vector of pointers to objects that can set the Robin boundary condition coefficients
◆ getPhysicalBcCoefs()
|
virtual |
◆ operator=()
|
privatedelete |
- Note
- This operator is not implemented and should not be used.
- Parameters
-
that The value to assign to this object.
- Returns
- A reference to this object.
◆ modifyRhsForBcs()
|
overridevirtualinherited |
Before calling this function, the form of the vector y should be set properly by the user on all patch interiors on the range of levels covered by the operator. All data in this vector should be allocated. The user is responsible for managing the storage for the vectors.
- Note
- The operator MUST be initialized prior to calling modifyRhsForBcs.
- See also
- initializeOperatorState
- Note
- A default implementation evaluates y := y - A*0.
Reimplemented from IBTK::GeneralOperator.
◆ getName()
|
inherited |
◆ getIsInitialized()
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virtualinherited |
◆ setHomogeneousBc()
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virtualinherited |
◆ getHomogeneousBc()
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virtualinherited |
◆ setSolutionTime()
|
virtualinherited |
◆ getSolutionTime()
|
virtualinherited |
◆ setTimeInterval()
|
virtualinherited |
◆ getTimeInterval()
◆ getDt()
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virtualinherited |
◆ setHierarchyMathOps()
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virtualinherited |
◆ getHierarchyMathOps()
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virtualinherited |
◆ apply()
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pure virtualinherited |
Before calling apply(), the form of the vectors x and y should be set properly by the user on all patch interiors on the specified range of levels in the patch hierarchy. The user is responsible for all data management for the quantities associated with the vectors. In particular, patch data in these vectors must be allocated prior to calling this method.
- Parameters
-
x input vector y output vector, i.e., \(y=F[x]\)
Conditions on Parameters:
- vectors x and y must have same hierarchy
- vectors x and y must have same structure, depth, etc.
In general, the vectors x and y cannot be the same.
- Note
- Subclasses may require that the operator be initialized prior to calling apply().
- See also
- initializeOperatorState
Implemented in IBTK::PETScSNESJacobianJOWrapper, IBTK::PETScMFFDJacobianOperator, IBTK::PETScSNESFunctionGOWrapper, IBAMR::ConvectiveOperator, IBAMR::VCStaggeredStokesOperator, IBTK::PETScMatLOWrapper, IBTK::SCLaplaceOperator, IBTK::CCLaplaceOperator, and IBTK::VCSCViscousOperator.
◆ applyAdd()
|
virtualinherited |
Before calling applyAdd(), the form of the vectors x, y, and z should be set properly by the user on all patch interiors on the specified range of levels in the patch hierarchy. The user is responsible for all data management for the quantities associated with the vectors. In particular, patch data in these vectors must be allocated prior to calling this method.
- Parameters
-
x input vector y input vector z output vector, i.e., \(z=F[x]+y\)
Conditions on Parameters:
- vectors x, y, and z must have same hierarchy
- vectors x, y, and z must have same structure, depth, etc.
In general, the vectors x and y cannot be the same.
- Note
- Subclasses may require that the operator be initialized prior to calling applyAdd().
- See also
- initializeOperatorState
- Note
- A default implementation is provided which employs apply() and SAMRAI::solv::SAMRAIVectorReal::add().
Reimplemented in IBTK::PETScSNESJacobianJOWrapper, and IBTK::PETScMatLOWrapper.
◆ initializeOperatorState()
|
virtualinherited |
The vector arguments for apply(), applyAdd(), etc, need not match those for initializeOperatorState(). However, there must be a certain degree of similarity, including
- hierarchy configuration (hierarchy pointer and level range)
- number, type and alignment of vector component data
- ghost cell widths of data in the input and output vectors
- Note
- It is generally necessary to reinitialize the operator state when the hierarchy configuration changes.
It is safe to call initializeOperatorState() when the state is already initialized. In this case, the operator state is first deallocated and then reinitialized.
Conditions on arguments:
- input and output vectors must have same hierarchy
- input and output vectors must have same structure, depth, etc.
Call deallocateOperatorState() to remove any data allocated by this method.
- See also
- deallocateOperatorState
- Parameters
-
in input vector out output vector
Reimplemented in IBTK::PETScSNESJacobianJOWrapper, IBAMR::AdvDiffWavePropConvectiveOperator, IBTK::PETScMatLOWrapper, IBTK::PETScMFFDJacobianOperator, IBTK::PETScSNESFunctionGOWrapper, IBAMR::INSCollocatedPPMConvectiveOperator, IBAMR::CellConvectiveOperator, IBAMR::INSStaggeredCUIConvectiveOperator, IBAMR::INSCollocatedCenteredConvectiveOperator, IBAMR::INSStaggeredWavePropConvectiveOperator, IBAMR::INSStaggeredStabilizedPPMConvectiveOperator, IBAMR::INSCollocatedWavePropConvectiveOperator, IBAMR::INSStaggeredPPMConvectiveOperator, IBAMR::INSStaggeredCenteredConvectiveOperator, IBAMR::INSStaggeredUpwindConvectiveOperator, IBAMR::CFUpperConvectiveOperator, IBTK::SCLaplaceOperator, IBTK::CCLaplaceOperator, IBTK::VCSCViscousOperator, and IBAMR::CIBStaggeredStokesOperator.
◆ deallocateOperatorState()
|
virtualinherited |
- Note
- Subclasses are required to be implemented so that it is safe to call deallocateOperatorState() when the operator state is already deallocated.
- See also
- initializeOperatorState
Reimplemented in IBTK::PETScSNESJacobianJOWrapper, IBAMR::AdvDiffWavePropConvectiveOperator, IBTK::PETScMatLOWrapper, IBTK::PETScMFFDJacobianOperator, IBTK::PETScSNESFunctionGOWrapper, IBAMR::INSCollocatedPPMConvectiveOperator, IBAMR::INSStaggeredCUIConvectiveOperator, IBAMR::INSCollocatedCenteredConvectiveOperator, IBAMR::INSStaggeredWavePropConvectiveOperator, IBAMR::INSStaggeredStabilizedPPMConvectiveOperator, IBAMR::CellConvectiveOperator, IBAMR::INSCollocatedWavePropConvectiveOperator, IBAMR::INSStaggeredPPMConvectiveOperator, IBAMR::INSStaggeredCenteredConvectiveOperator, IBAMR::INSStaggeredUpwindConvectiveOperator, IBAMR::CFUpperConvectiveOperator, IBTK::SCLaplaceOperator, IBTK::CCLaplaceOperator, IBTK::VCSCViscousOperator, and IBAMR::CIBStaggeredStokesOperator.
◆ imposeSolBcs()
|
virtualinherited |
Before calling this function, the form of the vector y should be set properly by the user on all patch interiors on the range of levels covered by the operator. All data in this vector should be allocated. The user is responsible for managing the storage for the vectors.
- Note
- The operator MUST be initialized prior to calling imposeSolBcs.
- See also
- initializeOperatorState
- Note
- A default implementation does not modify the sol vector u.
◆ setLoggingEnabled()
|
virtualinherited |
◆ getLoggingEnabled()
|
virtualinherited |
◆ printClassData()
|
virtualinherited |
Member Data Documentation
◆ d_poisson_spec
|
protected |
◆ d_default_bc_coef
|
protected |
◆ d_bc_coefs
|
protected |
◆ d_object_name
|
protectedinherited |
◆ d_is_initialized
|
protectedinherited |
◆ d_homogeneous_bc
|
protectedinherited |
◆ d_solution_time
|
protectedinherited |
◆ d_current_time
|
protectedinherited |
◆ d_new_time
|
protectedinherited |
◆ d_hier_math_ops
|
protectedinherited |
◆ d_hier_math_ops_external
|
protectedinherited |
◆ d_enable_logging
|
protectedinherited |
The documentation for this class was generated from the following file:
- ibtk/include/ibtk/LaplaceOperator.h
