| applyOpH(T &a_phi, T &a_LOfPhi)=0 | GenAMRLevelMGOp< T > | [pure virtual] |
| applyOpHcfIphys(T &a_phi, T &a_LOfPhi)=0 | GenAMRLevelMGOp< T > | [pure virtual] |
| applyOpI(T &a_phi, const T *a_phiCoarse, T &a_LOfPhi)=0 | GenAMRLevelMGOp< T > | [pure virtual] |
| applyOpIcfHphys(T &a_phi, const T *a_phiCoarse, T &a_LOfPhi)=0 | GenAMRLevelMGOp< T > | [pure virtual] |
| bottomSmoother(T &a_phi, const T &a_rhs)=0 | GenLevelMGOp< T > | [pure virtual] |
| copy(T &a_one, const T &a_two)=0 | GenSolverOp< T > | [pure virtual] |
| defineData(T &a_data)=0 | GenSolverOp< T > | [pure virtual] |
| defineOpData(T &a_data)=0 | GenSolverOp< T > | [pure virtual] |
| diff(T &a_one, const T &a_two)=0 | GenSolverOp< T > | [pure virtual] |
| dotProduct(const T &a_one, const T &a_two)=0 | GenSolverOp< T > | [pure virtual] |
| GenAMRLevelMGOp() | GenAMRLevelMGOp< T > | [inline] |
| GenLevelMGOp() | GenLevelMGOp< T > | [inline] |
| GenSolverOp() | GenSolverOp< T > | [inline] |
| isDefined() const=0 | GenLevelMGOp< T > | [pure virtual] |
| negate(T &a_one)=0 | GenSolverOp< T > | [pure virtual] |
| newOp() const=0 | GenAMRLevelMGOp< T > | [pure virtual] |
| norm(const T &a_one, const int a_power)=0 | GenSolverOp< T > | [pure virtual] |
| scalarMul(T &a_one, const Real a_scalar)=0 | GenSolverOp< T > | [pure virtual] |
| setToZero(T &a_one)=0 | GenSolverOp< T > | [pure virtual] |
| smooth(T &a_phi, const T &a_rhs)=0 | GenLevelMGOp< T > | [pure virtual] |
| sum(T &a_one, const T &a_two)=0 | GenSolverOp< T > | [pure virtual] |
| ~GenAMRLevelMGOp() | GenAMRLevelMGOp< T > | [inline, virtual] |
| ~GenLevelMGOp() | GenLevelMGOp< T > | [inline, virtual] |
| ~GenSolverOp() | GenSolverOp< T > | [inline, virtual] |
