, including all inherited members.
| A() | Equation | |
| AbsEqua() | AbsEqua | |
| AbsEqua(class Mesh &mesh) | AbsEqua | |
| b() | Equation | |
| BodyRHS(UserData< double > &ud, double coef=1) | DC1DL2 | |
| BodyRHS(const Vect< double > &b, int opt=LOCAL_ARRAY) | DC1DL2 | |
| BoundaryRHS(UserData< double > &ud, double coef=1) | DC1DL2 | |
| BoundaryRHS(double flux) | DC1DL2 | |
| BoundaryRHS(const Vect< double > &b, int opt=LOCAL_ARRAY) | DC1DL2 | |
| build() | DC1DL2 | |
| Capacity(double coef=1) | DC1DL2 | |
| CapacityToLHS(double coef=1) | DC1DL2 | [virtual] |
| CapacityToRHS(double coef=1) | DC1DL2 | [virtual] |
| Conduc(const double &diff) | Equa_Therm< double, 2, 2, 1, 1 > | [protected] |
| Conduc(const string &exp) | Equa_Therm< double, 2, 2, 1, 1 > | [protected] |
| Convection(const double &v, double coef=1) | DC1DL2 | |
| Convection(const Vect< double > &v, double coef=1) | DC1DL2 | |
| Convection(double coef=1) | DC1DL2 | [virtual] |
| ConvectionToRHS(const double &v, double coef=1) | DC1DL2 | |
| ConvectionToRHS(double coef=1) | DC1DL2 | [virtual] |
| DC1DL2() | DC1DL2 | |
| DC1DL2(const Element *el) | DC1DL2 | |
| DC1DL2(const Element *el, const Vect< double > &u, double time=0.) | DC1DL2 | |
| DC1DL2(const Element *el, const Vect< double > &u, double time, double deltat, int scheme) | DC1DL2 | |
| DiagBC(int dof_type=NODE_DOF, int dof=0) | Equation | |
| Diffusion(double coef=1) | DC1DL2 | [virtual] |
| DiffusionToRHS(double coef=1) | DC1DL2 | [virtual] |
| EA() | Equation | |
| Eb() | Equation | |
| ElementVector(const Vect< T_ > &b, int dof=0, int dof_type=NODE_DOF) | Equation | |
| Ep() | Equation | |
| Equa_Therm() | Equa_Therm< double, 2, 2, 1, 1 > | |
| Equation() | Equation | |
| Equation(class Mesh &mesh) | Equation | |
| Equation(class Mesh &mesh, Vect< T_ > &b, double &t, double &ts) | Equation | |
| Equation(const Element *el) | Equation | |
| Equation(const Side *sd) | Equation | |
| Equation(const Element *el, const Vect< T_ > &u, const double &time=0) | Equation | |
| Equation(const Side *sd, const Vect< T_ > &u, const double &time=0) | Equation | |
| Flux() const | DC1DL2 | |
| getLinearSolver() | AbsEqua | |
| getNbEq() const | Equation | [virtual] |
| getNbNodes() const | Equation | [virtual] |
| Init(const Element *el) | Equation | [protected] |
| Init(const Side *sd) | Equation | [protected] |
| LCapacity(double coef) | DC1DL2 | |
| LCapacityToLHS(double coef=1) | DC1DL2 | [virtual] |
| LCapacityToRHS(double coef=1) | DC1DL2 | [virtual] |
| LocalNodeVector(AbsVect< T_ > *b) | Equation | |
| Prev() | Equation | |
| RhoCp(const double &rhocp) | Equa_Therm< double, 2, 2, 1, 1 > | [protected] |
| RhoCp(const string &exp) | Equa_Therm< double, 2, 2, 1, 1 > | [protected] |
| run() | DC1DL2 | |
| runOneStep() | DC1DL2 | |
| SA() | Equation | |
| setCapacity() | Equa_Therm< double, 2, 2, 1, 1 > | |
| setConvection() | Equa_Therm< double, 2, 2, 1, 1 > | |
| setDiffusion() | Equa_Therm< double, 2, 2, 1, 1 > | |
| setInitialSolution(const Vect< T_ > &u) | Equation | |
| setInput(int opt, Vect< double > &u) | DC1DL2 | |
| setLumpedCapacity() | Equa_Therm< double, 2, 2, 1, 1 > | |
| setMaterial() | Equa_Therm< double, 2, 2, 1, 1 > | [protected] |
| setMaterialProperty(const string &exp, const string &prop) | Equation | |
| setMesh(class Mesh &m) | AbsEqua | |
| setVelocity(NodeVect< double > &v) | DC1DL2 | |
| SideVector(const Vect< T_ > &b) | Equation | |
| updateBC(const Vect< T_ > &bc) | Equation | |
| ~AbsEqua() | AbsEqua | [virtual] |
| ~DC1DL2() | DC1DL2 | |
| ~Equa_Therm() | Equa_Therm< double, 2, 2, 1, 1 > | [virtual] |
| ~Equation() | Equation | [virtual] |
