class HelmholtzOp : public LevelOp
Helmholtz operator class
Inheritance:
HelmholtzOp
< LevelOp
public members:
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void setHelmCoeff(Real helmcoeff_a)
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void scaleHelmCoeff(Real a_scale)
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LevelOp * new_levelop() const
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void define( const DisjointBoxLayout & Ba, const DisjointBoxLayout * base_ba, Real DxLevel, int refratio, const Box& domf, bool a_homogeneousOnly= false, int a_ncomp = 1)
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void define( const DisjointBoxLayout & Ba, const DisjointBoxLayout * base_ba, Real DxLevel, int refratio, const ProblemDomain & domf, bool a_homogeneousOnly= false, int a_ncomp = 1)
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void define( const LevelOp * opfine, int refratio)
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HelmholtzOp()
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~HelmholtzOp()
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void smooth( LevelData< FArrayBox >& phi, const LevelData< FArrayBox >& rhs )
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virtual void levelPreconditioner( LevelData< FArrayBox >& a_phihat, const LevelData< FArrayBox >& a_rhshat )
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void applyOpI( LevelData< FArrayBox >& phi, const LevelData< FArrayBox >* phiCoarse, LevelData< FArrayBox >& LOfPhi )
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void applyOpIcfHphys( LevelData< FArrayBox >& phi, const LevelData< FArrayBox >* phiCoarse, LevelData< FArrayBox >& LOfPhi )
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void applyOpH( LevelData< FArrayBox >& phi, LevelData< FArrayBox >& LOfPhi )
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void applyOpHcfIphys( LevelData< FArrayBox >& phi, LevelData< FArrayBox >& LOfPhi )
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void CFInterp( LevelData< FArrayBox >& phi, const LevelData< FArrayBox >& phiCoarse )
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void homogeneousCFInterp(LevelData< FArrayBox >& phi)
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void setDomainGhostBC(const DomainGhostBC& a_dombcin)
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void setBottomSmoother(const BaseBottomSmoother & a_bottomSmoother)
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void homogeneousCFInterp(LevelData< FArrayBox >& phif, const DataIndex& a_datIndex, int idir, Side::LoHiSide hiorlo)
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void bottomSmoother(LevelData< FArrayBox >& phi, const LevelData< FArrayBox >& rhs)
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bool isDefined() const
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void getFlux( FArrayBox & flux, const FArrayBox & data, const DataIndex& a_datInd, int dir)
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protected members:
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BaseBottomSmoother * m_bottom_smoother_ptr
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Documentation
operator to solve equation (ie (I+alpha*laplacian)phi = rho)
- void setHelmCoeff (Real helmcoeff_a)
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Set helmholtz coefficient alpha in I+alpha*laplacian)phi = rho.
- void scaleHelmCoeff (Real a_scale)
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Scale the helmholtz coeficcient alpha in I + alpha*laplacian)phi
(alpha := a_scale*alpha)
- LevelOp * new_levelop () const
- virtual constructor workaround
coefficient and bcs must be defined before called.
- void define ( const DisjointBoxLayout & Ba, const DisjointBoxLayout * base_ba, Real DxLevel, int refratio, const Box& domf, bool a_homogeneousOnly= false, int a_ncomp = 1)
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Full define function. makes all coarse-fine
information and sets internal variables
- void define ( const DisjointBoxLayout & Ba, const DisjointBoxLayout * base_ba, Real DxLevel, int refratio, const ProblemDomain & domf, bool a_homogeneousOnly= false, int a_ncomp = 1)
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Full define function. makes all coarse-fine
information and sets internal variables
- void define ( const LevelOp * opfine, int refratio)
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Full define function. define
from finer levelop.
- void smooth ( LevelData< FArrayBox >& phi, const LevelData< FArrayBox >& rhs )
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Smoother.
Assumes that problem has already been put in
residual correction form,
so that C/F boundary conditions are homogeneous.
- virtual void levelPreconditioner ( LevelData< FArrayBox >& a_phihat, const LevelData< FArrayBox >& a_rhshat )
- apply preconditioning to the solution on this level.
Given rhshat, returns phihat from M(phihat) = rhshat
- void applyOpI ( LevelData< FArrayBox >& phi, const LevelData< FArrayBox >* phiCoarse, LevelData< FArrayBox >& LOfPhi )
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Evaluate Operator, inhomogeneous C/F boundary conditions
and phys boundary conditions.
- void applyOpIcfHphys ( LevelData< FArrayBox >& phi, const LevelData< FArrayBox >* phiCoarse, LevelData< FArrayBox >& LOfPhi )
- Evaluate Operator, inhomogeneous C/F boundary conditions.
homogeneous domain boundary conditions.
- void applyOpH ( LevelData< FArrayBox >& phi, LevelData< FArrayBox >& LOfPhi )
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Evaluate Operator, homogeneous C/F boundary conditions
and phys boundary conditions.
- void applyOpHcfIphys ( LevelData< FArrayBox >& phi, LevelData< FArrayBox >& LOfPhi )
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Evaluate Operator, homogeneous C/F boundary conditions.
inhomogeneous domain boundary conditions
- void CFInterp ( LevelData< FArrayBox >& phi, const LevelData< FArrayBox >& phiCoarse )
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Coarse / Fine interpolation operator. fills ghost
cells of phi.
- void homogeneousCFInterp (LevelData< FArrayBox >& phi)
- homogeneous coarse/fine interpolation operator
- void homogeneousCFInterp (LevelData< FArrayBox >& phif, const DataIndex& a_datIndex, int idir, Side::LoHiSide hiorlo)
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does homogeneous coarse/fine interpolation
- void bottomSmoother (LevelData< FArrayBox >& phi, const LevelData< FArrayBox >& rhs)
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// This does a GSRB Pre/Conditioned BiCGStab on a level
// for the bottom solver.
- void getFlux ( FArrayBox & flux, const FArrayBox & data, const DataIndex& a_datInd, int dir)
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get flux( == flux at THIS level)
The fluxes live on the cell faces with direction dir.
Fluxes are computed for all interior edges of data.
The flux fab is resized inside the routine.
this class has no child classes.
alphabetic index hierarchy of classes
Chombo
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