AbsEqua() | AbsEqua< real_t > | |
AbsEqua(Mesh &mesh) | AbsEqua< real_t > | |
AxbAssembly(const Element &el, const Vect< real_t > &x, Vect< real_t > &b) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
AxbAssembly(const Side &sd, const Vect< real_t > &x, Vect< real_t > &b) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
BodyRHS(UserData< real_t > &ud, real_t coef=1) | DC2DT3 | |
BodyRHS(const Vect< real_t > &bf, int opt=GLOBAL_ARRAY) | DC2DT3 | virtual |
BodyRHS(real_t bf) | DC2DT3 | |
BoundaryRHS(UserData< real_t > &ud, real_t coef=1) | DC2DT3 | |
BoundaryRHS(real_t flux) | DC2DT3 | |
BoundaryRHS(const Vect< real_t > &b, int opt=GLOBAL_ARRAY) | DC2DT3 | virtual |
build() | DC2DT3 | |
Equa_Therm< real_t, 3, 3, 2, 2 >::build(EigenProblemSolver &e) | Equa_Therm< real_t, 3, 3, 2, 2 > | |
Capacity(real_t coef=1) | DC2DT3 | |
CapacityToLHS(real_t coef=1) | DC2DT3 | virtual |
CapacityToRHS(real_t coef=1) | DC2DT3 | virtual |
Conduc(const string &exp) | Equa_Therm< real_t, 3, 3, 2, 2 > | |
Convection(const Point< real_t > &v, real_t coef=1) | DC2DT3 | |
Convection(const Vect< real_t > &v, real_t coef=1) | DC2DT3 | |
Convection(real_t coef=1) | DC2DT3 | virtual |
ConvectionToRHS(const Point< real_t > &v, real_t coef=1) | DC2DT3 | |
ConvectionToRHS(real_t coef=1) | DC2DT3 | virtual |
DC2DT3() | DC2DT3 | |
DC2DT3(Mesh &ms) | DC2DT3 | |
DC2DT3(Mesh &ms, Vect< real_t > &u) | DC2DT3 | |
DC2DT3(const Element *el) | DC2DT3 | |
DC2DT3(const Side *sd) | DC2DT3 | |
DC2DT3(const Element *el, const Vect< real_t > &u, real_t time=0.) | DC2DT3 | |
DC2DT3(const Element *el, const Vect< real_t > &u, real_t time, real_t deltat, int scheme) | DC2DT3 | |
DC2DT3(const Side *sd, const Vect< real_t > &u, real_t time=0.) | DC2DT3 | |
DC2DT3(const Side *sd, const Vect< real_t > &u, real_t time, real_t deltat, int scheme) | DC2DT3 | |
DGElementAssembly(Matrix< real_t > *A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
DGElementAssembly(SkSMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
DGElementAssembly(SkMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
DGElementAssembly(SpMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
DGElementAssembly(TrMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
DiagBC(int dof_type=NODE_DOF, int dof=0) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
Diffusion(real_t coef=1) | DC2DT3 | virtual |
Diffusion(const LocalMatrix< real_t, 2, 2 > &diff, real_t coef=1) | DC2DT3 | |
DiffusionToRHS(real_t coef=1) | DC2DT3 | virtual |
ElementAssembly(Matrix< real_t > *A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementAssembly(PETScMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementAssembly(PETScVect< real_t > &b) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementAssembly(BMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementAssembly(SkSMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementAssembly(SkMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementAssembly(SpMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementAssembly(TrMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementAssembly(Vect< real_t > &v) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementNodeCoordinates() | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementNodeVector(const Vect< real_t > &b, LocalVect< real_t, NEE_ > &be) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementNodeVector(const Vect< real_t > &b, LocalVect< real_t, NEN_ > &be, int dof) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementNodeVectorSingleDOF(const Vect< real_t > &b, LocalVect< real_t, NEN_ > &be) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementSideVector(const Vect< real_t > &b, LocalVect< real_t, NSE_ > &be) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ElementVector(const Vect< real_t > &b, int dof_type=NODE_FIELD, int flag=0) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
eMat | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
ePrev | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
Equa_Therm() | Equa_Therm< real_t, 3, 3, 2, 2 > | |
Equation() | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
Equation(Mesh &mesh) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
Equation(Mesh &mesh, Vect< real_t > &b, real_t &t, real_t &ts) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
Equation(const Element *el) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
Equation(const Side *sd) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
Equation(const Element *el, const Vect< real_t > &u, real_t time=0) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
Equation(const Side *sd, const Vect< real_t > &u, real_t time=0) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
eRes | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
eRHS | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
Flux() const | DC2DT3 | |
getLinearSolver() | AbsEqua< real_t > | |
getMesh() const | AbsEqua< real_t > | |
getNbEq() const | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
getNbNodes() const | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
Grad(const LocalVect< real_t, 3 > &u) const | DC2DT3 | |
Grad(const Vect< real_t > &u) const | DC2DT3 | |
Init(const Element *el) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | protected |
Init(const Side *sd) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | protected |
JouleHeating(const Vect< real_t > &sigma, const Vect< real_t > &psi) | DC2DT3 | |
LCapacity(real_t coef) | DC2DT3 | |
LCapacityToLHS(real_t coef=1) | DC2DT3 | virtual |
LCapacityToRHS(real_t coef=1) | DC2DT3 | virtual |
LinearExchange(real_t coef, real_t T) | DC2DT3 | |
LocalNodeVector(Vect< real_t > &b) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
Periodic(real_t coef=1.e20) | DC2DT3 | |
RhoCp(const string &exp) | Equa_Therm< real_t, 3, 3, 2, 2 > | |
run() | Equa_Therm< real_t, 3, 3, 2, 2 > | |
runOneTimeStep() | Equa_Therm< real_t, 3, 3, 2, 2 > | |
runTransient() | Equa_Therm< real_t, 3, 3, 2, 2 > | |
set(const Element *el) | DC2DT3 | protected |
setCapacity() | Equa_Therm< real_t, 3, 3, 2, 2 > | |
setConductivity(const real_t &diff) | Equa_Therm< real_t, 3, 3, 2, 2 > | |
setConvection() | Equa_Therm< real_t, 3, 3, 2, 2 > | |
setDiffusion() | Equa_Therm< real_t, 3, 3, 2, 2 > | |
setInitialSolution(const Vect< real_t > &u) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
setInput(EqDataType opt, Vect< real_t > &u) | DC2DT3 | |
setLumpedCapacity() | Equa_Therm< real_t, 3, 3, 2, 2 > | |
setMaterial() | Equa_Therm< real_t, 3, 3, 2, 2 > | protected |
setMaterialProperty(const string &exp, const string &prop) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
setMesh(Mesh &m) | AbsEqua< real_t > | |
setRhoCp(const real_t &rhocp) | Equa_Therm< real_t, 3, 3, 2, 2 > | |
setSolver(Iteration ls, Preconditioner pc=IDENT_PREC) | AbsEqua< real_t > | |
setStab() | Equa_Therm< real_t, 3, 3, 2, 2 > | virtual |
SideAssembly(PETScMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
SideAssembly(PETScVect< real_t > &b) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
SideAssembly(Matrix< real_t > *A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
SideAssembly(SkSMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
SideAssembly(SkMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
SideAssembly(SpMatrix< real_t > &A) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
SideAssembly(Vect< real_t > &v) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
SideNodeCoordinates() | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
SideVector(const Vect< real_t > &b) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
sMat | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
SolveLinearSystem(Matrix< real_t > *A, Vect< real_t > &b, Vect< real_t > &x) | AbsEqua< real_t > | |
sRHS | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
updateBC(const Element &el, const Vect< real_t > &bc) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
updateBC(const Vect< real_t > &bc) | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | |
~AbsEqua() | AbsEqua< real_t > | virtual |
~DC2DT3() | DC2DT3 | |
~Equa_Therm() | Equa_Therm< real_t, 3, 3, 2, 2 > | virtual |
~Equation() | Equation< real_t, NEN_, NEE_, NSN_, NSE_ > | virtual |