C3CImage(int w, int h, double value=0) (defined in C3CImage) | C3CImage | |
C3CImage(int w, int h, double c1, double c2, double c3) (defined in C3CImage) | C3CImage | |
C3CImage(int w, int h, const RComplex &value) (defined in C3CImage) | C3CImage | |
C3CImage(AnImage *source) (defined in C3CImage) | C3CImage | |
C3CImage(AnImage *source, int achannel) (defined in C3CImage) | C3CImage | |
C3CImage(AnImage *source, bool normalized) (defined in C3CImage) | C3CImage | |
C3CImage(C3CImage &im) (defined in C3CImage) | C3CImage | |
channel (defined in C3CImage) | C3CImage | [private] |
copy() (defined in C3CImage) | C3CImage | |
dfX2(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfX2_2(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfX_0(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfX_0_2(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfX_m1(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfX_p1(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfXY(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfXY_2(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfY2(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfY2_2(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfY_0(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfY_0_2(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfY_m1(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
dfY_p1(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
get(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
getChannel(int i) (defined in C3CImage) | C3CImage | [inline] |
getChannels() (defined in C3CImage) | C3CImage | [inline] |
getData(int i) (defined in C3CImage) | C3CImage | [inline] |
getHeight() (defined in C3CImage) | C3CImage | [inline] |
getWidth() (defined in C3CImage) | C3CImage | [inline] |
height (defined in C3CImage) | C3CImage | [private] |
inverse(double biais=0.0000001) (defined in C3CImage) | C3CImage | |
isNormalized() (defined in C3CImage) | C3CImage | [inline] |
isometricLaplacian(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
laplacian(int ch, int x, int y) (defined in C3CImage) | C3CImage | [inline] |
mult(double rsat) (defined in C3CImage) | C3CImage | |
normalisation (defined in C3CImage) | C3CImage | [private] |
numberOfChannels() (defined in C3CImage) | C3CImage | [inline] |
operator *=(double value) (defined in C3CImage) | C3CImage | |
operator *=(const RComplex &value) (defined in C3CImage) | C3CImage | |
operator+=(double value) (defined in C3CImage) | C3CImage | |
operator+=(const RComplex &value) (defined in C3CImage) | C3CImage | |
operator+=(C3CImage &image) (defined in C3CImage) | C3CImage | |
operator-=(double value) (defined in C3CImage) | C3CImage | |
operator-=(const RComplex &value) (defined in C3CImage) | C3CImage | |
operator-=(C3CImage &image) (defined in C3CImage) | C3CImage | |
operator/=(double value) (defined in C3CImage) | C3CImage | |
operator/=(const RComplex &value) (defined in C3CImage) | C3CImage | |
PI (defined in C3CImage) | C3CImage | [private] |
root() (defined in C3CImage) | C3CImage | |
set(C3CImage &im) (defined in C3CImage) | C3CImage | |
set(int ch, int x, int y, double value) (defined in C3CImage) | C3CImage | [inline] |
set(int ch, int x, int y, const RComplex &value) (defined in C3CImage) | C3CImage | [inline] |
setChannel(int i, CImage *image) (defined in C3CImage) | C3CImage | [inline] |
sqr() (defined in C3CImage) | C3CImage | |
width (defined in C3CImage) | C3CImage | [private] |
~C3CImage() (defined in C3CImage) | C3CImage |