HelmholtzBT3 Class Reference
Builds finite element arrays for Helmholtz equations in a bounded media using 3-Node triangles. More...
#include <HelmholtzBT3.h>
Inheritance diagram for HelmholtzBT3:
Public Member Functions | |
| HelmholtzBT3 () | |
| Default Constructor. | |
| HelmholtzBT3 (Mesh &ms) | |
| Constructor using mesh data. | |
| HelmholtzBT3 (Mesh &ms, Vect< real_t > &u) | |
| Constructor using mesh and solution vector. | |
| ~HelmholtzBT3 () | |
| Destructor. | |
| void | build () |
| Builds system of equations. | |
| void | LHS () |
| Add element Left-Hand Side. | |
| void | BodyRHS (Vect< real_t > &f) |
| Add element Right-Hand Side. | |
| void | BoundaryRHS (Vect< real_t > &f) |
| Add side Right-Hand Side. | |
 Public Member Functions inherited from Equation< NEN_, NEE_, NSN_, NSE_ > | |
| Equation () | |
| Equation (Mesh &mesh) | |
| Constructor with mesh instance. | |
| Equation (Mesh &mesh, Vect< real_t > &u) | |
| Constructor with mesh instance and solution vector. | |
| Equation (Mesh &mesh, Vect< real_t > &u, real_t &init_time, real_t &final_time, real_t &time_step) | |
| Constructor with mesh instance, matrix and right-hand side. | |
| ~Equation () | |
| Destructor. | |
| void | updateBC (const Element &el, const Vect< real_t > &bc) |
| Update Right-Hand side by taking into account essential boundary conditions. | |
| void | DiagBC (DOFSupport dof_type=NODE_DOF, int dof=0) |
| Update element matrix to impose bc by diagonalization technique. | |
| void | LocalNodeVector (Vect< real_t > &b) |
| Localize element vector from a Vect instance. | |
| void | ElementNodeVector (const Vect< real_t > &b, LocalVect< real_t, NEE_ > &be) |
| Localize element vector from a Vect instance. | |
| void | SideNodeVector (const Vect< real_t > &b, LocalVect< real_t, NSE_ > &bs) |
| Localize side vector from a Vect instance. | |
| void | SideSideVector (const Vect< real_t > &b, vector< real_t > &bs) |
| Localize side vector from a Vect instance. | |
| void | ElementNodeVectorSingleDOF (const Vect< real_t > &b, LocalVect< real_t, NEN_ > &be) |
| Localize Element Vector from a Vect instance. | |
| void | ElementNodeVector (const Vect< real_t > &b, LocalVect< real_t, NEN_ > &be, int dof) |
| Localize Element Vector from a Vect instance. | |
| void | ElementSideVector (const Vect< real_t > &b, LocalVect< real_t, NSE_ > &be) |
| Localize Element Vector from a Vect instance. | |
| void | ElementVector (const Vect< real_t > &b, DOFSupport dof_type=NODE_DOF, int flag=0) |
| Localize element vector. | |
| void | SideVector (const Vect< real_t > &b, vector< real_t > &sb) |
| Localize side vector. | |
| void | ElementNodeCoordinates () |
| Localize coordinates of element nodes. | |
| void | SideNodeCoordinates () |
| Localize coordinates of side nodes. | |
| void | ElementAssembly (Matrix< real_t > *A) |
| Assemble element matrix into global one. | |
| void | ElementAssembly (BMatrix< real_t > &A) |
| Assemble element matrix into global one. | |
| void | ElementAssembly (SkSMatrix< real_t > &A) |
| Assemble element matrix into global one. | |
| void | ElementAssembly (SkMatrix< real_t > &A) |
| Assemble element matrix into global one. | |
| void | ElementAssembly (SpMatrix< real_t > &A) |
| Assemble element matrix into global one. | |
| void | ElementAssembly (TrMatrix< real_t > &A) |
| Assemble element matrix into global one. | |
| void | DGElementAssembly (Matrix< real_t > *A) |
| Assemble element matrix into global one for the Discontinuous Galerkin approximation. | |
| void | DGElementAssembly (SkSMatrix< real_t > &A) |
| Assemble element matrix into global one for the Discontinuous Galerkin approximation. | |
| void | DGElementAssembly (SkMatrix< real_t > &A) |
| Assemble element matrix into global one for the Discontinuous Galerkin approximation. | |
| void | DGElementAssembly (SpMatrix< real_t > &A) |
| Assemble element matrix into global one for the Discontinuous Galerkin approximation. | |
| void | DGElementAssembly (TrMatrix< real_t > &A) |
| Assemble element matrix into global one for the Discontinuous Galerkin approximation. | |
| void | SideAssembly (Matrix< real_t > *A) |
| Assemble side (edge or face) matrix into global one. | |
| void | SideAssembly (SkSMatrix< real_t > &A) |
| Assemble side (edge or face) matrix into global one. | |
| void | SideAssembly (SkMatrix< real_t > &A) |
| Assemble side (edge or face) matrix into global one. | |
| void | SideAssembly (SpMatrix< real_t > &A) |
| Assemble side (edge or face) matrix into global one. | |
| void | ElementAssembly (Vect< real_t > &v) |
| Assemble element vector into global one. | |
| void | SideAssembly (Vect< real_t > &v) |
| Assemble side (edge or face) vector into global one. | |
| void | AxbAssembly (const Element &el, const Vect< real_t > &x, Vect< real_t > &b) |
| Assemble product of element matrix by element vector into global vector. | |
| void | AxbAssembly (const Side &sd, const Vect< real_t > &x, Vect< real_t > &b) |
| Assemble product of side matrix by side vector into global vector. | |
| size_t | getNbNodes () const |
| Return number of element nodes. | |
| size_t | getNbEq () const |
| Return number of element equations. | |
| real_t | setMaterialProperty (const string &exp, const string &prop) |
| Define a material property by an algebraic expression. | |
| Public Member Functions inherited from Equa | |
| Equa () | |
| Default constructor. | |
| virtual | ~Equa () |
| Destructor. | |
| void | setMesh (Mesh &m) |
| Define mesh and renumber DOFs after removing imposed ones. | |
| Mesh & | getMesh () const |
| Return reference to Mesh instance. | |
| LinearSolver & | getLinearSolver () |
| Return reference to linear solver instance. | |
| Matrix< real_t > * | getMatrix () const |
| Return pointer to matrix. | |
| void | setSolver (Iteration ls, Preconditioner pc=IDENT_PREC) |
| Choose solver for the linear system. | |
| void | setMatrixType (int t) |
| Choose type of matrix. | |
| int | solveLinearSystem (Matrix< real_t > *A, Vect< real_t > &b, Vect< real_t > &x) |
| Solve the linear system with given matrix and right-hand side. | |
| int | solveLinearSystem (Vect< real_t > &b, Vect< real_t > &x) |
| Solve the linear system with given right-hand side. | |
| void | LinearSystemInfo () |
| Print info on linear system solver. | |
Additional Inherited Members | |
| Protected Member Functions inherited from Equa_Electromagnetics< 3, 6, 2, 4 > | |
| void | MagneticPermeability (const real_t &mu) |
| Set (constant) magnetic permeability. | |
| void | MagneticPermeability (const string &exp) |
| Set magnetic permeability given by an algebraic expression. | |
| void | ElectricConductivity (const real_t &sigma) |
| Set (constant) electric conductivity. | |
| void | ElectricConductivity (const string &exp) |
| set electric conductivity given by an algebraic expression | |
| void | setMaterial () |
| Set material properties. | |
Detailed Description
Builds finite element arrays for Helmholtz equations in a bounded media using 3-Node triangles.
Problem being formulated in time harmonics, the solution is complex-valued but stored in 2-degree of freedom real-valued vector. Therefore, mesh must be defined with 2 degrees of freedom per node
- Copyright
- GNU Lesser Public License
Constructor & Destructor Documentation
◆ HelmholtzBT3() [1/2]
| HelmholtzBT3 | ( | Mesh & | ms | ) |
Constructor using mesh data.
- Parameters
-
[in] ms Mesh instance
◆ HelmholtzBT3() [2/2]
| HelmholtzBT3 | ( | Mesh & | ms, |
| Vect< real_t > & | u | ||
| ) |