| beltramiOperator(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| channel (defined in Float3CImage) | Float3CImage | [private] |
| copy() (defined in Float3CImage) | Float3CImage | |
| curvature(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfX2(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfX2_2(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfX_0(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfX_0_2(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfX_m1(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfX_p1(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfXY(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfXY_2(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfY2(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfY2_2(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfY_0(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfY_0_2(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfY_m1(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| dfY_p1(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| exp() (defined in Float3CImage) | Float3CImage | |
| Float3CImage(int w, int h, float value=0) (defined in Float3CImage) | Float3CImage | |
| Float3CImage(int w, int h, float c1, float c2, float c3) (defined in Float3CImage) | Float3CImage | |
| Float3CImage(AnImage *source) (defined in Float3CImage) | Float3CImage | |
| Float3CImage(AnImage *source, int achannel) (defined in Float3CImage) | Float3CImage | |
| Float3CImage(AnImage *source, bool normalized) (defined in Float3CImage) | Float3CImage | |
| Float3CImage(Float3CImage &im) (defined in Float3CImage) | Float3CImage | |
| g(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| get(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| getChannel(int i) (defined in Float3CImage) | Float3CImage | [inline] |
| getChannels() (defined in Float3CImage) | Float3CImage | [inline] |
| getData(int i) (defined in Float3CImage) | Float3CImage | [inline] |
| getHeight() (defined in Float3CImage) | Float3CImage | [inline] |
| getWidth() (defined in Float3CImage) | Float3CImage | [inline] |
| gij(int i, int j, int x, int y) (defined in Float3CImage) | Float3CImage | |
| gradCorrectiveViscosity(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| height (defined in Float3CImage) | Float3CImage | [private] |
| inverse(float biais=0.0000001) (defined in Float3CImage) | Float3CImage | |
| isNormalized() (defined in Float3CImage) | Float3CImage | [inline] |
| isometricLaplacian(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| lambdaMinus(int x, int y) (defined in Float3CImage) | Float3CImage | |
| lambdaPlus(int x, int y) (defined in Float3CImage) | Float3CImage | |
| laplacian(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| ln(float biais=1.0) (defined in Float3CImage) | Float3CImage | |
| meanCurvature(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| meanCurvatureOperator(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| mult(float rsat) (defined in Float3CImage) | Float3CImage | |
| normalDirection(int x, int y) (defined in Float3CImage) | Float3CImage | |
| normalisation (defined in Float3CImage) | Float3CImage | [private] |
| normeGradient(int ch, int x, int y, float epsilon=1e-8) (defined in Float3CImage) | Float3CImage | [inline] |
| numberOfChannels() (defined in Float3CImage) | Float3CImage | [inline] |
| operator *=(float value) (defined in Float3CImage) | Float3CImage | |
| operator+=(float value) (defined in Float3CImage) | Float3CImage | |
| operator+=(Float3CImage &image) (defined in Float3CImage) | Float3CImage | |
| operator-=(float value) (defined in Float3CImage) | Float3CImage | |
| operator-=(Float3CImage &image) (defined in Float3CImage) | Float3CImage | |
| operator/=(float value) (defined in Float3CImage) | Float3CImage | |
| peronaMalikOperator(int ch, int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| PI (defined in Float3CImage) | Float3CImage | [private] |
| power(float value) (defined in Float3CImage) | Float3CImage | |
| root() (defined in Float3CImage) | Float3CImage | |
| set(Float3CImage &im) (defined in Float3CImage) | Float3CImage | |
| set(int ch, int x, int y, float value) (defined in Float3CImage) | Float3CImage | [inline] |
| setChannel(int i, FImage *image) (defined in Float3CImage) | Float3CImage | [inline] |
| setInZeroOneBox(float minVal=0.0, float maxVal=255.0) (defined in Float3CImage) | Float3CImage | [inline] |
| setOutZeroOneBox(float minVal=0.0, float maxVal=255.0) (defined in Float3CImage) | Float3CImage | [inline] |
| sqr() (defined in Float3CImage) | Float3CImage | |
| tangentDirection(int x, int y) (defined in Float3CImage) | Float3CImage | [inline] |
| width (defined in Float3CImage) | Float3CImage | [private] |
| ~Float3CImage() (defined in Float3CImage) | Float3CImage | |
