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| SimpleNonlinearEllipticSolver (AbstractTetrahedralMesh< ELEMENT_DIM, SPACE_DIM > *pMesh, AbstractNonlinearEllipticPde< SPACE_DIM > *pPde, BoundaryConditionsContainer< ELEMENT_DIM, SPACE_DIM, 1 > *pBoundaryConditions) |
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void | ComputeResidual (const Vec currentGuess, Vec residualVector) |
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void | ComputeJacobian (const Vec currentGuess, Mat *pJacobian) |
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| AbstractNonlinearAssemblerSolverHybrid (AbstractTetrahedralMesh< ELEMENT_DIM, SPACE_DIM > *pMesh, BoundaryConditionsContainer< ELEMENT_DIM, SPACE_DIM, PROBLEM_DIM > *pBoundaryConditions) |
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virtual | ~AbstractNonlinearAssemblerSolverHybrid () |
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virtual Vec | Solve (Vec initialGuess, bool useAnalyticalJacobian=false) |
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void | SetNonlinearSolver (AbstractNonlinearSolver *pNonlinearSolver) |
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bool | VerifyJacobian (double tol) |
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| AbstractFeVolumeIntegralAssembler (AbstractTetrahedralMesh< ELEMENT_DIM, SPACE_DIM > *pMesh) |
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virtual | ~AbstractFeVolumeIntegralAssembler () |
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| AbstractFeAssemblerCommon () |
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void | SetCurrentSolution (Vec currentSolution) |
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virtual | ~AbstractFeAssemblerCommon () |
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| AbstractFeAssemblerInterface () |
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void | SetMatrixToAssemble (Mat &rMatToAssemble, bool zeroMatrixBeforeAssembly=true) |
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void | SetVectorToAssemble (Vec &rVecToAssemble, bool zeroVectorBeforeAssembly) |
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void | Assemble () |
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void | AssembleMatrix () |
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void | AssembleVector () |
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virtual | ~AbstractFeAssemblerInterface () |
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virtual c_matrix< double, 1 *(ELEMENT_DIM+1), 1 *(ELEMENT_DIM+1)> | ComputeMatrixTerm (c_vector< double, ELEMENT_DIM+1 > &rPhi, c_matrix< double, SPACE_DIM, ELEMENT_DIM+1 > &rGradPhi, ChastePoint< SPACE_DIM > &rX, c_vector< double, 1 > &rU, c_matrix< double, 1, SPACE_DIM > &rGradU, Element< ELEMENT_DIM, SPACE_DIM > *pElement) |
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virtual c_vector< double, 1 *(ELEMENT_DIM+1)> | ComputeVectorTerm (c_vector< double, ELEMENT_DIM+1 > &rPhi, c_matrix< double, SPACE_DIM, ELEMENT_DIM+1 > &rGradPhi, ChastePoint< SPACE_DIM > &rX, c_vector< double, 1 > &rU, c_matrix< double, 1, SPACE_DIM > &rGradU, Element< ELEMENT_DIM, SPACE_DIM > *pElement) |
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typedef LinearBasisFunction< ELEMENT_DIM > | BasisFunction |
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void | ApplyDirichletConditions (Vec currentGuess, Vec residual, Mat *pMat) |
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void | ComputeJacobianNumerically (const Vec currentGuess, Mat *pJacobian) |
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void | ComputeTransformedBasisFunctionDerivatives (const ChastePoint< ELEMENT_DIM > &rPoint, const c_matrix< double, ELEMENT_DIM, SPACE_DIM > &rInverseJacobian, c_matrix< double, SPACE_DIM, ELEMENT_DIM+1 > &rReturnValue) |
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void | DoAssemble () |
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virtual c_matrix< double, PROBLEM_DIM *(ELEMENT_DIM+1), PROBLEM_DIM *(ELEMENT_DIM+1)> | ComputeMatrixTerm (c_vector< double, ELEMENT_DIM+1 > &rPhi, c_matrix< double, SPACE_DIM, ELEMENT_DIM+1 > &rGradPhi, ChastePoint< SPACE_DIM > &rX, c_vector< double, PROBLEM_DIM > &rU, c_matrix< double, PROBLEM_DIM, SPACE_DIM > &rGradU, Element< ELEMENT_DIM, SPACE_DIM > *pElement) |
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virtual c_vector< double, PROBLEM_DIM *(ELEMENT_DIM+1)> | ComputeVectorTerm (c_vector< double, ELEMENT_DIM+1 > &rPhi, c_matrix< double, SPACE_DIM, ELEMENT_DIM+1 > &rGradPhi, ChastePoint< SPACE_DIM > &rX, c_vector< double, PROBLEM_DIM > &rU, c_matrix< double, PROBLEM_DIM, SPACE_DIM > &rGradU, Element< ELEMENT_DIM, SPACE_DIM > *pElement) |
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virtual void | AssembleOnElement (Element< ELEMENT_DIM, SPACE_DIM > &rElement, c_matrix< double, PROBLEM_DIM *(ELEMENT_DIM+1), PROBLEM_DIM *(ELEMENT_DIM+1) > &rAElem, c_vector< double, PROBLEM_DIM *(ELEMENT_DIM+1)> &rBElem) |
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virtual bool | ElementAssemblyCriterion (Element< ELEMENT_DIM, SPACE_DIM > &rElement) |
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virtual double | GetCurrentSolutionOrGuessValue (unsigned nodeIndex, unsigned indexOfUnknown) |
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virtual void | ResetInterpolatedQuantities () |
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virtual void | IncrementInterpolatedQuantities (double phiI, const Node< SPACE_DIM > *pNode) |
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virtual void | IncrementInterpolatedGradientQuantities (const c_matrix< double, SPACE_DIM, ELEMENT_DIM+1 > &rGradPhi, unsigned phiIndex, const Node< SPACE_DIM > *pNode) |
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AbstractTetrahedralMesh< ELEMENT_DIM, SPACE_DIM > * | mpMesh |
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BoundaryConditionsContainer< ELEMENT_DIM, SPACE_DIM, PROBLEM_DIM > * | mpBoundaryConditions |
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AbstractNonlinearSolver * | mpSolver |
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bool | mWeAllocatedSolverMemory |
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bool | mUseAnalyticalJacobian |
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NaturalNeumannSurfaceTermAssembler< ELEMENT_DIM, SPACE_DIM, PROBLEM_DIM > * | mpNeumannSurfaceTermsAssembler |
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AbstractTetrahedralMesh< ELEMENT_DIM, SPACE_DIM > * | mpMesh |
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GaussianQuadratureRule< ELEMENT_DIM > * | mpQuadRule |
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ReplicatableVector | mCurrentSolutionOrGuessReplicated |
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Vec | mVectorToAssemble |
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Mat | mMatrixToAssemble |
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bool | mAssembleMatrix |
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bool | mAssembleVector |
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bool | mZeroMatrixBeforeAssembly |
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bool | mZeroVectorBeforeAssembly |
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PetscInt | mOwnershipRangeLo |
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PetscInt | mOwnershipRangeHi |
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template<unsigned ELEMENT_DIM, unsigned SPACE_DIM>
class SimpleNonlinearEllipticSolver< ELEMENT_DIM, SPACE_DIM >
Solver of nonlinear elliptic PDEs.
Definition at line 46 of file SimpleNonlinearEllipticSolver.hpp.