AFSpatialDiscretisation(bool fixed=false) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [inline] |
blurrer (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [protected] |
contrast (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [protected] |
contrast2 (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [protected] |
diffusivity (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [protected] |
FClassicAnisotropicSpace(double sigma=2.0, double acontrast=1.0, int diffusivity=0, int gradType=0) (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | |
fixedMatrix (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [protected] |
g (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [protected] |
getA(float tau, FImage *uk, AFSymMatrix *A=0) (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [virtual] |
getAexplicit(float tau, FImage *uk, AFSymMatrix *Afull=0) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [virtual] |
getAsemiImplicit(float tau, FImage *uk, AFSymMatrix *Afull=0) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [virtual] |
getB(FImage *ik, FloatVector *uk=0) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [virtual] |
getColA(float tau, FImage *uk, int col, AFSymMatrix *A2=0) (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [virtual] |
getColAexplicit(float tau, FImage *uk, int col, AFSymMatrix *A2=0) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [virtual] |
getColAsemiImplicit(float tau, FImage *uk, int col, AFSymMatrix *A2=0) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [virtual] |
getColB(FImage *ik, int col, FloatVector *uk=0) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [virtual] |
getColImage(FloatVector *uk, int col, FImage *ik) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [virtual] |
getI0() (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [inline, virtual] |
getImage(FloatVector *uk, FImage *ik) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [virtual] |
getRowA(float tau, FImage *uk, int row, AFSymMatrix *A1=0) (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [virtual] |
getRowAexplicit(float tau, FImage *uk, int row, AFSymMatrix *A1=0) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [virtual] |
getRowAsemiImplicit(float tau, FImage *uk, int row, AFSymMatrix *A1=0) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [virtual] |
getRowB(FImage *ik, int row, FloatVector *uk=0) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [virtual] |
getRowImage(FloatVector *uk, int row, FImage *ik) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [virtual] |
gradient (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [protected] |
gValues(FImage *src, FImage *dest=0) (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [protected, virtual] |
init(FImage *uk) (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [virtual] |
order (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [protected] |
setI0(FImage *u0) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [inline, virtual] |
setTauRight(float t) (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [inline, virtual] |
setTauRight() (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [inline, virtual] |
sigmaRegularisation (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [protected] |
uSigma (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [protected] |
~AFSpatialDiscretisation() (defined in AFSpatialDiscretisation) | AFSpatialDiscretisation | [inline, virtual] |
~FClassicAnisotropicSpace() (defined in FClassicAnisotropicSpace) | FClassicAnisotropicSpace | [inline, virtual] |