SimpleNonlinearEllipticSolver.hpp

/*

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*/

#ifndef SIMPLENONLINEARELLIPTICSOLVER_HPP_
#define SIMPLENONLINEARELLIPTICSOLVER_HPP_

#include "AbstractNonlinearAssemblerSolverHybrid.hpp"
#include "AbstractNonlinearEllipticPde.hpp"

template<unsigned ELEMENT_DIM, unsigned SPACE_DIM>
class SimpleNonlinearEllipticSolver : public AbstractNonlinearAssemblerSolverHybrid<ELEMENT_DIM,SPACE_DIM,1>
{
private:

    AbstractNonlinearEllipticPde<SPACE_DIM>* mpNonlinearEllipticPde;

    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);


    // Note: does not have to provide a ComputeVectorSurfaceTerm for surface integrals,
    // the parent AbstractAssemblerSolverHybrid assumes natural Neumann BCs and uses a
    // NaturalNeumannSurfaceTermAssembler for assembling this part of the vector.


public:

    SimpleNonlinearEllipticSolver(AbstractTetrahedralMesh<ELEMENT_DIM, SPACE_DIM>* pMesh,
                                  AbstractNonlinearEllipticPde<SPACE_DIM>* pPde,
                                  BoundaryConditionsContainer<ELEMENT_DIM, SPACE_DIM, 1>* pBoundaryConditions,
                                  unsigned numQuadPoints=2);
};

#endif /*SIMPLENONLINEARELLIPTICSOLVER_HPP_*/