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MFEM
v4.3.0
Finite element discretization library
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MFEM
v4.3.0
Finite element discretization library
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#include <bilininteg.hpp>
Public Member Functions | |
| DiffusionIntegrator () | |
| Construct a diffusion integrator with coefficient Q = 1. More... | |
| DiffusionIntegrator (Coefficient &q) | |
| Construct a diffusion integrator with a scalar coefficient q. More... | |
| DiffusionIntegrator (VectorCoefficient &q) | |
| Construct a diffusion integrator with a vector coefficient q. More... | |
| DiffusionIntegrator (MatrixCoefficient &q) | |
| Construct a diffusion integrator with a matrix coefficient q. More... | |
| DiffusionIntegrator (SymmetricMatrixCoefficient &q) | |
| Construct a diffusion integrator with a symmetric matrix coefficient q. More... | |
| virtual void | AssembleElementMatrix (const FiniteElement &el, ElementTransformation &Trans, DenseMatrix &elmat) |
| virtual void | AssembleElementMatrix2 (const FiniteElement &trial_fe, const FiniteElement &test_fe, ElementTransformation &Trans, DenseMatrix &elmat) |
| virtual void | AssembleElementVector (const FiniteElement &el, ElementTransformation &Tr, const Vector &elfun, Vector &elvect) |
| Perform the local action of the BilinearFormIntegrator. More... | |
| virtual void | ComputeElementFlux (const FiniteElement &el, ElementTransformation &Trans, Vector &u, const FiniteElement &fluxelem, Vector &flux, bool with_coef=true) |
| Virtual method required for Zienkiewicz-Zhu type error estimators. More... | |
| virtual double | ComputeFluxEnergy (const FiniteElement &fluxelem, ElementTransformation &Trans, Vector &flux, Vector *d_energy=NULL) |
| Virtual method required for Zienkiewicz-Zhu type error estimators. More... | |
| virtual void | AssembleMF (const FiniteElementSpace &fes) |
| Method defining matrix-free assembly. More... | |
| virtual void | AssemblePA (const FiniteElementSpace &fes) |
| Method defining partial assembly. More... | |
| virtual void | AssembleEA (const FiniteElementSpace &fes, Vector &emat, const bool add) |
| Method defining element assembly. More... | |
| virtual void | AssembleDiagonalPA (Vector &diag) |
| Assemble diagonal and add it to Vector diag. More... | |
| virtual void | AssembleDiagonalMF (Vector &diag) |
| Assemble diagonal and add it to Vector diag. More... | |
| virtual void | AddMultMF (const Vector &, Vector &) const |
| virtual void | AddMultPA (const Vector &, Vector &) const |
| Method for partially assembled action. More... | |
| virtual void | AddMultTransposePA (const Vector &, Vector &) const |
| Method for partially assembled transposed action. More... | |
| bool | SupportsCeed () const |
| Indicates whether this integrator can use a Ceed backend. More... | |
 Public Member Functions inherited from mfem::BilinearFormIntegrator | |
| virtual void | AssemblePA (const FiniteElementSpace &trial_fes, const FiniteElementSpace &test_fes) |
| virtual void | AssemblePAInteriorFaces (const FiniteElementSpace &fes) |
| virtual void | AssemblePABoundaryFaces (const FiniteElementSpace &fes) |
| virtual void | AssembleDiagonalPA_ADAt (const Vector &D, Vector &diag) |
| Assemble diagonal of ADA^T (A is this integrator) and add it to diag. More... | |
| virtual void | AddMultTransposeMF (const Vector &x, Vector &y) const |
| virtual void | AssembleEAInteriorFaces (const FiniteElementSpace &fes, Vector &ea_data_int, Vector &ea_data_ext, const bool add=true) |
| virtual void | AssembleEABoundaryFaces (const FiniteElementSpace &fes, Vector &ea_data_bdr, const bool add=true) |
| virtual void | AssembleFaceMatrix (const FiniteElement &el1, const FiniteElement &el2, FaceElementTransformations &Trans, DenseMatrix &elmat) |
| virtual void | AssembleFaceMatrix (const FiniteElement &trial_face_fe, const FiniteElement &test_fe1, const FiniteElement &test_fe2, FaceElementTransformations &Trans, DenseMatrix &elmat) |
| virtual void | AssembleFaceVector (const FiniteElement &el1, const FiniteElement &el2, FaceElementTransformations &Tr, const Vector &elfun, Vector &elvect) |
| Perform the local action of the BilinearFormIntegrator resulting from a face integral term. Note that the default implementation in the base class is general but not efficient. More... | |
| virtual void | AssembleElementGrad (const FiniteElement &el, ElementTransformation &Tr, const Vector &elfun, DenseMatrix &elmat) |
| Assemble the local gradient matrix. More... | |
| virtual void | AssembleFaceGrad (const FiniteElement &el1, const FiniteElement &el2, FaceElementTransformations &Tr, const Vector &elfun, DenseMatrix &elmat) |
| Assemble the local action of the gradient of the NonlinearFormIntegrator resulting from a face integral term. More... | |
| virtual | ~BilinearFormIntegrator () |
| Public Member Functions inherited from mfem::NonlinearFormIntegrator | |
| virtual void | SetIntRule (const IntegrationRule *ir) |
| Prescribe a fixed IntegrationRule to use (when ir != NULL) or let the integrator choose (when ir == NULL). More... | |
| void | SetIntegrationRule (const IntegrationRule &ir) |
| Prescribe a fixed IntegrationRule to use. More... | |
| void | SetPAMemoryType (MemoryType mt) |
| const IntegrationRule * | GetIntegrationRule () const |
| Get the integration rule of the integrator (possibly NULL). More... | |
| virtual double | GetElementEnergy (const FiniteElement &el, ElementTransformation &Tr, const Vector &elfun) |
| Compute the local energy. More... | |
| virtual void | AssembleGradPA (const Vector &x, const FiniteElementSpace &fes) |
| Prepare the integrator for partial assembly (PA) gradient evaluations on the given FE space fes at the state x. More... | |
| virtual double | GetLocalStateEnergyPA (const Vector &x) const |
| Compute the local (to the MPI rank) energy with partial assembly. More... | |
| virtual void | AddMultGradPA (const Vector &x, Vector &y) const |
| Method for partially assembled gradient action. More... | |
| virtual void | AssembleGradDiagonalPA (Vector &diag) const |
| Method for computing the diagonal of the gradient with partial assembly. More... | |
| ceed::Operator & | GetCeedOp () |
| virtual | ~NonlinearFormIntegrator () |
Static Public Member Functions | |
| static const IntegrationRule & | GetRule (const FiniteElement &trial_fe, const FiniteElement &test_fe) |
Protected Attributes | |
| Coefficient * | Q |
| VectorCoefficient * | VQ |
| MatrixCoefficient * | MQ |
| SymmetricMatrixCoefficient * | SMQ |
| Protected Attributes inherited from mfem::NonlinearFormIntegrator | |
| const IntegrationRule * | IntRule |
| ceed::Operator * | ceedOp |
| MemoryType | pa_mt = MemoryType::DEFAULT |
Additional Inherited Members | |
| Protected Member Functions inherited from mfem::BilinearFormIntegrator | |
| BilinearFormIntegrator (const IntegrationRule *ir=NULL) | |
| Protected Member Functions inherited from mfem::NonlinearFormIntegrator | |
| NonlinearFormIntegrator (const IntegrationRule *ir=NULL) | |
Class for integrating the bilinear form a(u,v) := (Q grad u, grad v) where Q can be a scalar or a matrix coefficient.
Definition at line 1959 of file bilininteg.hpp.
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Construct a diffusion integrator with coefficient Q = 1.
Definition at line 1985 of file bilininteg.hpp.
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Construct a diffusion integrator with a scalar coefficient q.
Definition at line 1989 of file bilininteg.hpp.
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Construct a diffusion integrator with a vector coefficient q.
Definition at line 1993 of file bilininteg.hpp.
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Construct a diffusion integrator with a matrix coefficient q.
Definition at line 1997 of file bilininteg.hpp.
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Construct a diffusion integrator with a symmetric matrix coefficient q.
Definition at line 2001 of file bilininteg.hpp.
Perform the action of integrator on the input x and add the result to the output y. Both x and y are E-vectors, i.e. they represent the element-wise discontinuous version of the FE space.
This method can be called only after the method AssembleMF() has been called.
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 56 of file bilininteg_diffusion_mf.cpp.
Method for partially assembled action.
Perform the action of integrator on the input x and add the result to the output y. Both x and y are E-vectors, i.e. they represent the element-wise discontinuous version of the FE space.
This method can be called only after the method AssemblePA() has been called.
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 1896 of file bilininteg_diffusion_pa.cpp.
Method for partially assembled transposed action.
Perform the transpose action of integrator on the input x and add the result to the output y. Both x and y are E-vectors, i.e. they represent the element-wise discontinuous version of the FE space.
This method can be called only after the method AssemblePA() has been called.
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 1910 of file bilininteg_diffusion_pa.cpp.
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Assemble diagonal and add it to Vector diag.
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 43 of file bilininteg_diffusion_mf.cpp.
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Assemble diagonal and add it to Vector diag.
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 920 of file bilininteg_diffusion_pa.cpp.
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Method defining element assembly.
The result of the element assembly is added to the emat Vector if add is true. Otherwise, if add is false, we set emat.
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 245 of file bilininteg_diffusion_ea.cpp.
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Given a particular Finite Element computes the element stiffness matrix elmat.
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 725 of file bilininteg.cpp.
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Given a trial and test Finite Element computes the element stiffness matrix elmat.
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 798 of file bilininteg.cpp.
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Perform the local action of the BilinearFormIntegrator.
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 882 of file bilininteg.cpp.
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Method defining matrix-free assembly.
Used with BilinearFormIntegrators that have different spaces.The result of fully matrix-free assembly is stored internally so that it can be used later in the methods AddMultMF() and AddMultTransposeMF().
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 22 of file bilininteg_diffusion_mf.cpp.
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Method defining partial assembly.
The result of the partial assembly is stored internally so that it can be used later in the methods AddMultPA() and AddMultTransposePA().
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 352 of file bilininteg_diffusion_pa.cpp.
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Virtual method required for Zienkiewicz-Zhu type error estimators.
The purpose of the method is to compute a local "flux" finite element function given a local finite element solution. The "flux" function has to be computed in terms of its coefficients (represented by the Vector flux) which multiply the basis functions defined by the FiniteElement fluxelem. Typically, the "flux" function will have more than one component and consequently flux should be store the coefficients of all components: first all coefficient for component 0, then all coefficients for component 1, etc. What the "flux" function represents depends on the specific integrator. For example, in the case of DiffusionIntegrator, the flux is the gradient of the solution multiplied by the diffusion coefficient.
| [in] | el | FiniteElement of the solution. |
| [in] | Trans | The ElementTransformation describing the physical position of the mesh element. |
| [in] | u | Solution coefficients representing the expansion of the solution function in the basis of el. |
| [in] | fluxelem | FiniteElement of the "flux". |
| [out] | flux | "Flux" coefficients representing the expansion of the "flux" function in the basis of fluxelem. The size of flux as a Vector has to be set by this method, e.g. using Vector::SetSize(). |
| [in] | with_coef | If zero (the default value is 1) the implementation of the method may choose not to scale the "flux" function by any coefficients describing the integrator. |
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 965 of file bilininteg.cpp.
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Virtual method required for Zienkiewicz-Zhu type error estimators.
The purpose of this method is to compute a local number that measures the energy of a given "flux" function (see ComputeElementFlux() for a description of the "flux" function). Typically, the energy of a "flux" function should be equal to a_local(u,u), if the "flux" is defined from a solution u; here a_local(.,.) denotes the element-local bilinear form represented by the integrator.
| [in] | fluxelem | FiniteElement of the "flux". |
| [in] | Trans | The ElementTransformation describing the physical position of the mesh element. |
| [in] | flux | "Flux" coefficients representing the expansion of the "flux" function in the basis of fluxelem. |
| [out] | d_energy | If not NULL, the given Vector should be set to represent directional energy split that can be used for anisotropic error estimation. |
Reimplemented from mfem::BilinearFormIntegrator.
Definition at line 1051 of file bilininteg.cpp.
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Definition at line 1117 of file bilininteg.cpp.
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Indicates whether this integrator can use a Ceed backend.
Reimplemented from mfem::NonlinearFormIntegrator.
Definition at line 2052 of file bilininteg.hpp.
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Definition at line 1964 of file bilininteg.hpp.
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Definition at line 1962 of file bilininteg.hpp.
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Definition at line 1965 of file bilininteg.hpp.
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Definition at line 1963 of file bilininteg.hpp.
1.8.5
