 |
Chaste
Release::3.4
|
|
Chaste
Release::3.4
|
#include <SimpleNonlinearEllipticSolver.hpp>
Inheritance diagram for SimpleNonlinearEllipticSolver< ELEMENT_DIM, SPACE_DIM >: Collaboration diagram for SimpleNonlinearEllipticSolver< ELEMENT_DIM, SPACE_DIM >:Private Member Functions | |
| 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) |
| 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) |
Private Attributes | |
| AbstractNonlinearEllipticPde < SPACE_DIM > * | mpNonlinearEllipticPde |
Additional Inherited Members | |
| Protected Types inherited from AbstractFeVolumeIntegralAssembler< ELEMENT_DIM, SPACE_DIM, PROBLEM_DIM, true, true, NONLINEAR > | |
| typedef LinearBasisFunction < ELEMENT_DIM > | BasisFunction |
| Protected Member Functions inherited from AbstractNonlinearAssemblerSolverHybrid< ELEMENT_DIM, SPACE_DIM, 1 > | |
| void | ApplyDirichletConditions (Vec currentGuess, Vec residual, Mat *pMat) |
| void | ComputeJacobianNumerically (const Vec currentGuess, Mat *pJacobian) |
| Protected Member Functions inherited from AbstractFeVolumeIntegralAssembler< ELEMENT_DIM, SPACE_DIM, PROBLEM_DIM, true, true, NONLINEAR > | |
| 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) |
| void | DoAssemble () |
| 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) |
| 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) |
| 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) |
| virtual bool | ElementAssemblyCriterion (Element< ELEMENT_DIM, SPACE_DIM > &rElement) |
| Protected Member Functions inherited from AbstractFeAssemblerCommon< ELEMENT_DIM, SPACE_DIM, PROBLEM_DIM, CAN_ASSEMBLE_VECTOR, CAN_ASSEMBLE_MATRIX, INTERPOLATION_LEVEL > | |
| virtual double | GetCurrentSolutionOrGuessValue (unsigned nodeIndex, unsigned indexOfUnknown) |
| virtual void | ResetInterpolatedQuantities () |
| virtual void | IncrementInterpolatedQuantities (double phiI, const Node< SPACE_DIM > *pNode) |
| virtual void | IncrementInterpolatedGradientQuantities (const c_matrix< double, SPACE_DIM, ELEMENT_DIM+1 > &rGradPhi, unsigned phiIndex, const Node< SPACE_DIM > *pNode) |
| Protected Attributes inherited from AbstractNonlinearAssemblerSolverHybrid< ELEMENT_DIM, SPACE_DIM, 1 > | |
| AbstractTetrahedralMesh < ELEMENT_DIM, SPACE_DIM > * | mpMesh |
| BoundaryConditionsContainer < ELEMENT_DIM, SPACE_DIM, PROBLEM_DIM > * | mpBoundaryConditions |
| AbstractNonlinearSolver * | mpSolver |
| bool | mWeAllocatedSolverMemory |
| bool | mUseAnalyticalJacobian |
| NaturalNeumannSurfaceTermAssembler < ELEMENT_DIM, SPACE_DIM, PROBLEM_DIM > * | mpNeumannSurfaceTermsAssembler |
| Protected Attributes inherited from AbstractFeVolumeIntegralAssembler< ELEMENT_DIM, SPACE_DIM, PROBLEM_DIM, true, true, NONLINEAR > | |
| AbstractTetrahedralMesh < ELEMENT_DIM, SPACE_DIM > * | mpMesh |
| GaussianQuadratureRule < ELEMENT_DIM > * | mpQuadRule |
| Protected Attributes inherited from AbstractFeAssemblerCommon< ELEMENT_DIM, SPACE_DIM, PROBLEM_DIM, CAN_ASSEMBLE_VECTOR, CAN_ASSEMBLE_MATRIX, INTERPOLATION_LEVEL > | |
| ReplicatableVector | mCurrentSolutionOrGuessReplicated |
| Protected Attributes inherited from AbstractFeAssemblerInterface< CAN_ASSEMBLE_VECTOR, CAN_ASSEMBLE_MATRIX > | |
| Vec | mVectorToAssemble |
| Mat | mMatrixToAssemble |
| bool | mAssembleMatrix |
| bool | mAssembleVector |
| bool | mZeroMatrixBeforeAssembly |
| bool | mZeroVectorBeforeAssembly |
| PetscInt | mOwnershipRangeLo |
| PetscInt | mOwnershipRangeHi |
Solver of nonlinear elliptic PDEs.
Definition at line 46 of file SimpleNonlinearEllipticSolver.hpp.
| SimpleNonlinearEllipticSolver< ELEMENT_DIM, SPACE_DIM >::SimpleNonlinearEllipticSolver | ( | AbstractTetrahedralMesh< ELEMENT_DIM, SPACE_DIM > * | pMesh, |
| AbstractNonlinearEllipticPde< SPACE_DIM > * | pPde, | ||
| BoundaryConditionsContainer< ELEMENT_DIM, SPACE_DIM, 1 > * | pBoundaryConditions | ||
| ) |
Constructor.
| pMesh | pointer to the mesh |
| pPde | pointer to the PDE |
| pBoundaryConditions | pointer to the boundary conditions |
Definition at line 102 of file SimpleNonlinearEllipticSolver.cpp.
|
privatevirtual |
| rPhi | The basis functions, rPhi(i) = phi_i, i=1..numBases |
| rGradPhi | Basis gradients, rGradPhi(i,j) = d(phi_j)/d(X_i) |
| rX | The point in space |
| rU | The unknown as a vector, u(i) = u_i |
| rGradU | The gradient of the unknown as a matrix, rGradU(i,j) = d(u_i)/d(X_j) |
| pElement | Pointer to the element |
Definition at line 39 of file SimpleNonlinearEllipticSolver.cpp.
|
privatevirtual |
| rPhi | The basis functions, rPhi(i) = phi_i, i=1..numBases |
| rGradPhi | Basis gradients, rGradPhi(i,j) = d(phi_j)/d(X_i) |
| rX | The point in space |
| rU | The unknown as a vector, u(i) = u_i |
| rGradU | The gradient of the unknown as a matrix, rGradU(i,j) = d(u_i)/d(X_j) |
| pElement | Pointer to the element |
Definition at line 72 of file SimpleNonlinearEllipticSolver.cpp.
|
private |
The PDE to be solved.
Definition at line 51 of file SimpleNonlinearEllipticSolver.hpp.
1.8.6 
