/*************************************************************************************************************************************/
/* */
/* D E F I N I T I O N D E S F O N C T I O N S E T D E L E U R S A R G U M E N T S : */
/* */
/* */
/* Dans ce fichier, se trouvent toutes */
/* les donnees necessaires a la validation */
/* du nombre des arguments lors de l'appel */
/* d'une fonction. */
/* */
/* */
/* Contenu : */
/* */
/* On trouvera donc ici deux types de */
/* definitions : */
/* */
/* 1 - permettant d'atteindre une fonction */
/* 'f' sans valider le nombre d'arguments, */
/* et ce en utilisant le nom '__f' : */
/* */
/* =define __f f */
/* */
/* 2 - permettant de valider le nombre */
/* d'arguments lors d'une utilisation */
/* quelconque d'une fonction 'f' : */
/* */
/* =define _f(args) f(args) */
/* #define f(args) _f(args) */
/* */
/* */
/* Author of '$xiii/tri_image$ARG' sur 'LACT19' : */
/* */
/* Jean-Francois COLONNA (LACTAMME, 20240812121105). */
/* */
/*************************************************************************************************************************************/
/*===================================================================================================================================*/
/*************************************************************************************************************************************/
/* */
/* D E F I N I T I O N D E S F O N C T I O N S E T D E L E U R S A R G U M E N T S : */
/* */
/*************************************************************************************************************************************/
=define __ImoveM_3D_volume_avec_marquage \
ImoveM_3D_volume_avec_marquage
=define _ImoveM_3D_volume_avec_marquage( \
Argument_____imageR \
,Argument_____imageMR \
,Argument_____imageA \
,Argument_____Z_BufferA \
,Argument_____marqueurR \
,Argument_____marqueurA \
) \
ImoveM_3D_volume_avec_marquage( \
Argument_____imageR \
,Argument_____imageMR \
,Argument_____imageA \
,Argument_____Z_BufferA \
,Argument_____marqueurR \
,Argument_____marqueurA \
)
#define ImoveM_3D_volume_avec_marquage( \
Argument_____imageR \
,Argument_____imageMR \
,Argument_____imageA \
,Argument_____Z_BufferA \
,Argument_____marqueurR \
,Argument_____marqueurA \
) \
_ImoveM_3D_volume_avec_marquage( \
Argument_____imageR \
,Argument_____imageMR \
,Argument_____imageA \
,Argument_____Z_BufferA \
,Argument_____marqueurR \
,Argument_____marqueurA \
)
=define __Iaddition \
Iaddition
=define _Iaddition( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Iaddition( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Iaddition( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Iaddition( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __Iaddition_avec_renormalisation \
Iaddition_avec_renormalisation
=define _Iaddition_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Iaddition_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Iaddition_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Iaddition_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __IFaddition \
IFaddition
=define _IFaddition( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
IFaddition( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define IFaddition( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_IFaddition( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __Isoustraction \
Isoustraction
=define _Isoustraction( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Isoustraction( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Isoustraction( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Isoustraction( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __Isoustraction_avec_renormalisation \
Isoustraction_avec_renormalisation
=define _Isoustraction_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Isoustraction_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Isoustraction_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Isoustraction_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __IFsoustraction \
IFsoustraction
=define _IFsoustraction( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
IFsoustraction( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define IFsoustraction( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_IFsoustraction( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __Iinterpolation \
Iinterpolation
=define _Iinterpolation( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
) \
Iinterpolation( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
)
#define Iinterpolation( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
) \
_Iinterpolation( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
)
=define __Iinterpolation_avec_renormalisation \
Iinterpolation_avec_renormalisation
=define _Iinterpolation_avec_renormalisation( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
) \
Iinterpolation_avec_renormalisation( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
)
#define Iinterpolation_avec_renormalisation( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
) \
_Iinterpolation_avec_renormalisation( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
)
=define __IFinterpolation \
IFinterpolation
=define _IFinterpolation( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
) \
IFinterpolation( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
)
#define IFinterpolation( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
) \
_IFinterpolation( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
)
=define __IFinterpolation_floue \
IFinterpolation_floue
=define _IFinterpolation_floue( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
) \
IFinterpolation_floue( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
)
#define IFinterpolation_floue( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
) \
_IFinterpolation_floue( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
)
=define __Imultiplication \
Imultiplication
=define _Imultiplication( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Imultiplication( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Imultiplication( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Imultiplication( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __Imultiplication_avec_renormalisation \
Imultiplication_avec_renormalisation
=define _Imultiplication_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Imultiplication_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Imultiplication_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Imultiplication_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __IFmultiplication \
IFmultiplication
=define _IFmultiplication( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
IFmultiplication( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define IFmultiplication( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_IFmultiplication( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __Icombinaison_universelle \
Icombinaison_universelle
=define _Icombinaison_universelle( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Icombinaison_universelle( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Icombinaison_universelle( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Icombinaison_universelle( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __IFcombinaison_universelle \
IFcombinaison_universelle
=define _IFcombinaison_universelle( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
IFcombinaison_universelle( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define IFcombinaison_universelle( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_IFcombinaison_universelle( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __IFcombinaison_universelle_variable \
IFcombinaison_universelle_variable
=define _IFcombinaison_universelle_variable( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____image____ADD2 \
,Argument_____image____SOUS \
,Argument_____image____MUL2 \
,Argument_____image____DIVZ \
,Argument_____image____MIN2 \
,Argument_____image____MAX2 \
,Argument_____image__MINMAX \
,Argument_____image__MAXMIN \
,Argument_____image____MOYE \
,Argument_____image____MOYZ \
,Argument_____image__MOYZSI \
,Argument_____image____MOYQ \
,Argument_____image__MOYQSI \
,Argument_____image____MOYH \
,Argument_____image___SPUIX \
,Argument_____image____ATAN \
,Argument_____image__MULH24 \
) \
IFcombinaison_universelle_variable( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____image____ADD2 \
,Argument_____image____SOUS \
,Argument_____image____MUL2 \
,Argument_____image____DIVZ \
,Argument_____image____MIN2 \
,Argument_____image____MAX2 \
,Argument_____image__MINMAX \
,Argument_____image__MAXMIN \
,Argument_____image____MOYE \
,Argument_____image____MOYZ \
,Argument_____image__MOYZSI \
,Argument_____image____MOYQ \
,Argument_____image__MOYQSI \
,Argument_____image____MOYH \
,Argument_____image___SPUIX \
,Argument_____image____ATAN \
,Argument_____image__MULH24 \
)
#define IFcombinaison_universelle_variable( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____image____ADD2 \
,Argument_____image____SOUS \
,Argument_____image____MUL2 \
,Argument_____image____DIVZ \
,Argument_____image____MIN2 \
,Argument_____image____MAX2 \
,Argument_____image__MINMAX \
,Argument_____image__MAXMIN \
,Argument_____image____MOYE \
,Argument_____image____MOYZ \
,Argument_____image__MOYZSI \
,Argument_____image____MOYQ \
,Argument_____image__MOYQSI \
,Argument_____image____MOYH \
,Argument_____image___SPUIX \
,Argument_____image____ATAN \
,Argument_____image__MULH24 \
) \
_IFcombinaison_universelle_variable( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____image____ADD2 \
,Argument_____image____SOUS \
,Argument_____image____MUL2 \
,Argument_____image____DIVZ \
,Argument_____image____MIN2 \
,Argument_____image____MAX2 \
,Argument_____image__MINMAX \
,Argument_____image__MAXMIN \
,Argument_____image____MOYE \
,Argument_____image____MOYZ \
,Argument_____image__MOYZSI \
,Argument_____image____MOYQ \
,Argument_____image__MOYQSI \
,Argument_____image____MOYH \
,Argument_____image___SPUIX \
,Argument_____image____ATAN \
,Argument_____image__MULH24 \
)
=define __IFproduit_de_Horner_2_04 \
IFproduit_de_Horner_2_04
=define _IFproduit_de_Horner_2_04( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____image_a44 \
,Argument_____image_a43 \
,Argument_____image_a42 \
,Argument_____image_a41 \
,Argument_____image_a40 \
,Argument_____image_a34 \
,Argument_____image_a33 \
,Argument_____image_a32 \
,Argument_____image_a31 \
,Argument_____image_a30 \
,Argument_____image_a24 \
,Argument_____image_a23 \
,Argument_____image_a22 \
,Argument_____image_a21 \
,Argument_____image_a20 \
,Argument_____image_a14 \
,Argument_____image_a13 \
,Argument_____image_a12 \
,Argument_____image_a11 \
,Argument_____image_a10 \
,Argument_____image_a04 \
,Argument_____image_a03 \
,Argument_____image_a02 \
,Argument_____image_a01 \
,Argument_____image_a00 \
) \
IFproduit_de_Horner_2_04( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____image_a44 \
,Argument_____image_a43 \
,Argument_____image_a42 \
,Argument_____image_a41 \
,Argument_____image_a40 \
,Argument_____image_a34 \
,Argument_____image_a33 \
,Argument_____image_a32 \
,Argument_____image_a31 \
,Argument_____image_a30 \
,Argument_____image_a24 \
,Argument_____image_a23 \
,Argument_____image_a22 \
,Argument_____image_a21 \
,Argument_____image_a20 \
,Argument_____image_a14 \
,Argument_____image_a13 \
,Argument_____image_a12 \
,Argument_____image_a11 \
,Argument_____image_a10 \
,Argument_____image_a04 \
,Argument_____image_a03 \
,Argument_____image_a02 \
,Argument_____image_a01 \
,Argument_____image_a00 \
)
#define IFproduit_de_Horner_2_04( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____image_a44 \
,Argument_____image_a43 \
,Argument_____image_a42 \
,Argument_____image_a41 \
,Argument_____image_a40 \
,Argument_____image_a34 \
,Argument_____image_a33 \
,Argument_____image_a32 \
,Argument_____image_a31 \
,Argument_____image_a30 \
,Argument_____image_a24 \
,Argument_____image_a23 \
,Argument_____image_a22 \
,Argument_____image_a21 \
,Argument_____image_a20 \
,Argument_____image_a14 \
,Argument_____image_a13 \
,Argument_____image_a12 \
,Argument_____image_a11 \
,Argument_____image_a10 \
,Argument_____image_a04 \
,Argument_____image_a03 \
,Argument_____image_a02 \
,Argument_____image_a01 \
,Argument_____image_a00 \
) \
_IFproduit_de_Horner_2_04( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____image_a44 \
,Argument_____image_a43 \
,Argument_____image_a42 \
,Argument_____image_a41 \
,Argument_____image_a40 \
,Argument_____image_a34 \
,Argument_____image_a33 \
,Argument_____image_a32 \
,Argument_____image_a31 \
,Argument_____image_a30 \
,Argument_____image_a24 \
,Argument_____image_a23 \
,Argument_____image_a22 \
,Argument_____image_a21 \
,Argument_____image_a20 \
,Argument_____image_a14 \
,Argument_____image_a13 \
,Argument_____image_a12 \
,Argument_____image_a11 \
,Argument_____image_a10 \
,Argument_____image_a04 \
,Argument_____image_a03 \
,Argument_____image_a02 \
,Argument_____image_a01 \
,Argument_____image_a00 \
)
=define __IFpolynome_2_04 \
IFpolynome_2_04
=define _IFpolynome_2_04( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
IFpolynome_2_04( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define IFpolynome_2_04( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_IFpolynome_2_04( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __IFlongueur2D \
IFlongueur2D
=define _IFlongueur2D( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
IFlongueur2D( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define IFlongueur2D( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_IFlongueur2D( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __Iproduit_matriciel \
Iproduit_matriciel
=define _Iproduit_matriciel( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____renormaliser_l_image \
) \
Iproduit_matriciel( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____renormaliser_l_image \
)
#define Iproduit_matriciel( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____renormaliser_l_image \
) \
_Iproduit_matriciel( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____renormaliser_l_image \
)
=define __IFproduit_matriciel \
IFproduit_matriciel
=define _IFproduit_matriciel( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
IFproduit_matriciel( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define IFproduit_matriciel( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_IFproduit_matriciel( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __IJaddition_complexe \
IJaddition_complexe
=define _IJaddition_complexe( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
IJaddition_complexe( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define IJaddition_complexe( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_IJaddition_complexe( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __IJproduit_complexe \
IJproduit_complexe
=define _IJproduit_complexe( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____translation_de_l_imageA2 \
) \
IJproduit_complexe( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____translation_de_l_imageA2 \
)
#define IJproduit_complexe( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____translation_de_l_imageA2 \
) \
_IJproduit_complexe( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____translation_de_l_imageA2 \
)
=define __IJinterpolation_complexe \
IJinterpolation_complexe
=define _IJinterpolation_complexe( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
) \
IJinterpolation_complexe( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
)
#define IJinterpolation_complexe( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
) \
_IJinterpolation_complexe( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
)
=define __IFcutoff \
IFcutoff
=define _IFcutoff( \
Argument_____imageR \
,Argument_____marqueur_des_points_faibles \
,Argument_____imageA \
,Argument_____seuil_de_cutoff \
,Argument_____image_de_cutoff \
) \
IFcutoff( \
Argument_____imageR \
,Argument_____marqueur_des_points_faibles \
,Argument_____imageA \
,Argument_____seuil_de_cutoff \
,Argument_____image_de_cutoff \
)
#define IFcutoff( \
Argument_____imageR \
,Argument_____marqueur_des_points_faibles \
,Argument_____imageA \
,Argument_____seuil_de_cutoff \
,Argument_____image_de_cutoff \
) \
_IFcutoff( \
Argument_____imageR \
,Argument_____marqueur_des_points_faibles \
,Argument_____imageA \
,Argument_____seuil_de_cutoff \
,Argument_____image_de_cutoff \
)
=define __IJFfiltrage_additif \
IJFfiltrage_additif
=define _IJFfiltrage_additif( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____noyau_de_filtrage_Reelle \
,Argument_____noyau_de_filtrage_Imaginaire \
,Argument_____translation_Reelle \
,Argument_____translation_Imaginaire \
) \
IJFfiltrage_additif( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____noyau_de_filtrage_Reelle \
,Argument_____noyau_de_filtrage_Imaginaire \
,Argument_____translation_Reelle \
,Argument_____translation_Imaginaire \
)
#define IJFfiltrage_additif( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____noyau_de_filtrage_Reelle \
,Argument_____noyau_de_filtrage_Imaginaire \
,Argument_____translation_Reelle \
,Argument_____translation_Imaginaire \
) \
_IJFfiltrage_additif( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____noyau_de_filtrage_Reelle \
,Argument_____noyau_de_filtrage_Imaginaire \
,Argument_____translation_Reelle \
,Argument_____translation_Imaginaire \
)
=define __IJfiltrage_multiplicatif \
IJfiltrage_multiplicatif
=define _IJfiltrage_multiplicatif( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____noyau_de_filtrage_Reelle \
,Argument_____noyau_de_filtrage_Imaginaire \
,Argument_____translation_Reelle \
,Argument_____translation_Imaginaire \
) \
IJfiltrage_multiplicatif( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____noyau_de_filtrage_Reelle \
,Argument_____noyau_de_filtrage_Imaginaire \
,Argument_____translation_Reelle \
,Argument_____translation_Imaginaire \
)
#define IJfiltrage_multiplicatif( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____noyau_de_filtrage_Reelle \
,Argument_____noyau_de_filtrage_Imaginaire \
,Argument_____translation_Reelle \
,Argument_____translation_Imaginaire \
) \
_IJfiltrage_multiplicatif( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____noyau_de_filtrage_Reelle \
,Argument_____noyau_de_filtrage_Imaginaire \
,Argument_____translation_Reelle \
,Argument_____translation_Imaginaire \
)
=define __IJFfiltrage_multiplicatif \
IJFfiltrage_multiplicatif
=define _IJFfiltrage_multiplicatif( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____noyau_de_filtrage_Reelle \
,Argument_____noyau_de_filtrage_Imaginaire \
,Argument_____translation_Reelle \
,Argument_____translation_Imaginaire \
) \
IJFfiltrage_multiplicatif( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____noyau_de_filtrage_Reelle \
,Argument_____noyau_de_filtrage_Imaginaire \
,Argument_____translation_Reelle \
,Argument_____translation_Imaginaire \
)
#define IJFfiltrage_multiplicatif( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____noyau_de_filtrage_Reelle \
,Argument_____noyau_de_filtrage_Imaginaire \
,Argument_____translation_Reelle \
,Argument_____translation_Imaginaire \
) \
_IJFfiltrage_multiplicatif( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____noyau_de_filtrage_Reelle \
,Argument_____noyau_de_filtrage_Imaginaire \
,Argument_____translation_Reelle \
,Argument_____translation_Imaginaire \
)
=define __Idivision \
Idivision
=define _Idivision( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____avertissement \
) \
Idivision( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____avertissement \
)
#define Idivision( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____avertissement \
) \
_Idivision( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____avertissement \
)
=define __Idivision_avec_renormalisation \
Idivision_avec_renormalisation
=define _Idivision_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____avertissement \
) \
Idivision_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____avertissement \
)
#define Idivision_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____avertissement \
) \
_Idivision_avec_renormalisation( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____avertissement \
)
=define __IFdivision \
IFdivision
=define _IFdivision( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____avertissement \
) \
IFdivision( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____avertissement \
)
#define IFdivision( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____avertissement \
) \
_IFdivision( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____avertissement \
)
=define __Imaximum \
Imaximum
=define _Imaximum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Imaximum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Imaximum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Imaximum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __IFmaximum \
IFmaximum
=define _IFmaximum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
IFmaximum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define IFmaximum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_IFmaximum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __Iminimum \
Iminimum
=define _Iminimum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Iminimum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Iminimum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Iminimum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __IFminimum \
IFminimum
=define _IFminimum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
IFminimum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define IFminimum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_IFminimum( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __Iminmax \
Iminmax
=define _Iminmax( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Iminmax( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Iminmax( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Iminmax( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __IFminmax \
IFminmax
=define _IFminmax( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
IFminmax( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define IFminmax( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_IFminmax( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#if ((Format_p==Format_char)||(Format_p==Format_int))
=define __Ior \
Ior
=define _Ior( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Ior( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Ior( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Ior( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#Aif ((Format_p==Format_char)||(Format_p==Format_int))
#Eif ((Format_p==Format_char)||(Format_p==Format_int))
#if ((Format_p==Format_char)||(Format_p==Format_int))
=define __Iand \
Iand
=define _Iand( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Iand( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Iand( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Iand( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#Aif ((Format_p==Format_char)||(Format_p==Format_int))
#Eif ((Format_p==Format_char)||(Format_p==Format_int))
#if ((Format_p==Format_char)||(Format_p==Format_int))
=define __Ieor \
Ieor
=define _Ieor( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Ieor( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Ieor( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Ieor( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#Aif ((Format_p==Format_char)||(Format_p==Format_int))
#Eif ((Format_p==Format_char)||(Format_p==Format_int))
=define __IFniveaux_communs_a_peu_pres \
IFniveaux_communs_a_peu_pres
=define _IFniveaux_communs_a_peu_pres( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
IFniveaux_communs_a_peu_pres( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define IFniveaux_communs_a_peu_pres( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_IFniveaux_communs_a_peu_pres( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __Iproduit_generalise \
Iproduit_generalise
=define _Iproduit_generalise( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____table_de_multiplication \
) \
Iproduit_generalise( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____table_de_multiplication \
)
#define Iproduit_generalise( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____table_de_multiplication \
) \
_Iproduit_generalise( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____table_de_multiplication \
)
=define __Iproduit_de_masquage \
Iproduit_de_masquage
=define _Iproduit_de_masquage( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
Iproduit_de_masquage( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
#define Iproduit_de_masquage( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
_Iproduit_de_masquage( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
=define __Iproduit_d_anti_masquage \
Iproduit_d_anti_masquage
=define _Iproduit_d_anti_masquage( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
Iproduit_d_anti_masquage( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
#define Iproduit_d_anti_masquage( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
_Iproduit_d_anti_masquage( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
=define __Iproduit_de_masquage_anti_aliase \
Iproduit_de_masquage_anti_aliase
=define _Iproduit_de_masquage_anti_aliase( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
Iproduit_de_masquage_anti_aliase( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
#define Iproduit_de_masquage_anti_aliase( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
_Iproduit_de_masquage_anti_aliase( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
=define __Iproduit_de_depth_cueing \
Iproduit_de_depth_cueing
=define _Iproduit_de_depth_cueing( \
Argument_____imageR \
,Argument_____profondeur \
,Argument_____imageA \
) \
Iproduit_de_depth_cueing( \
Argument_____imageR \
,Argument_____profondeur \
,Argument_____imageA \
)
#define Iproduit_de_depth_cueing( \
Argument_____imageR \
,Argument_____profondeur \
,Argument_____imageA \
) \
_Iproduit_de_depth_cueing( \
Argument_____imageR \
,Argument_____profondeur \
,Argument_____imageA \
)
=define __Iproduit_de_brume \
Iproduit_de_brume
=define _Iproduit_de_brume( \
Argument_____imageR \
,Argument_____profondeur \
,Argument_____imageA \
) \
Iproduit_de_brume( \
Argument_____imageR \
,Argument_____profondeur \
,Argument_____imageA \
)
#define Iproduit_de_brume( \
Argument_____imageR \
,Argument_____profondeur \
,Argument_____imageA \
) \
_Iproduit_de_brume( \
Argument_____imageR \
,Argument_____profondeur \
,Argument_____imageA \
)
=define __Itransparence_01 \
Itransparence_01
=define _Itransparence_01( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
Itransparence_01( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
#define Itransparence_01( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
_Itransparence_01( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
=define __Itransparence_02 \
Itransparence_02
=define _Itransparence_02( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
Itransparence_02( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
#define Itransparence_02( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
_Itransparence_02( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
=define __Itransparence_03 \
Itransparence_03
=define _Itransparence_03( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
Itransparence_03( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
#define Itransparence_03( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
_Itransparence_03( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
=define __Itransparence_04 \
Itransparence_04
=define _Itransparence_04( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
Itransparence_04( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
#define Itransparence_04( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
_Itransparence_04( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
=define __Itransparence_05 \
Itransparence_05
=define _Itransparence_05( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
Itransparence_05( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
#define Itransparence_05( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
_Itransparence_05( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
=define __Itransparence_06 \
Itransparence_06
=define _Itransparence_06( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
Itransparence_06( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
#define Itransparence_06( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
) \
_Itransparence_06( \
Argument_____imageR \
,Argument_____premier_plan \
,Argument_____arriere_plan \
)
=define __Ipoints_communs \
Ipoints_communs
=define _Ipoints_communs( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Ipoints_communs( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Ipoints_communs( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Ipoints_communs( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __Idistance_NOIR_des_points \
Idistance_NOIR_des_points
=define _Idistance_NOIR_des_points( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Idistance_NOIR_des_points( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Idistance_NOIR_des_points( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Idistance_NOIR_des_points( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __Idistance_BLANC_des_points \
Idistance_BLANC_des_points
=define _Idistance_BLANC_des_points( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
Idistance_BLANC_des_points( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
#define Idistance_BLANC_des_points( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
) \
_Idistance_BLANC_des_points( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
)
=define __IFproduit_generalise \
IFproduit_generalise
=define _IFproduit_generalise( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____table_de_multiplication \
) \
IFproduit_generalise( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____table_de_multiplication \
)
#define IFproduit_generalise( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____table_de_multiplication \
) \
_IFproduit_generalise( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____table_de_multiplication \
)
=define __IFproduit_generalise_inverse_a_gauche_A1 \
IFproduit_generalise_inverse_a_gauche_A1
=define _IFproduit_generalise_inverse_a_gauche_A1( \
Argument_____imageR_A1 \
,Argument_____imageA1_R \
,Argument_____imageA2 \
,Argument_____table_de_multiplication \
) \
IFproduit_generalise_inverse_a_gauche_A1( \
Argument_____imageR_A1 \
,Argument_____imageA1_R \
,Argument_____imageA2 \
,Argument_____table_de_multiplication \
)
#define IFproduit_generalise_inverse_a_gauche_A1( \
Argument_____imageR_A1 \
,Argument_____imageA1_R \
,Argument_____imageA2 \
,Argument_____table_de_multiplication \
) \
_IFproduit_generalise_inverse_a_gauche_A1( \
Argument_____imageR_A1 \
,Argument_____imageA1_R \
,Argument_____imageA2 \
,Argument_____table_de_multiplication \
)
=define __IFproduit_generalise_inverse_a_droite_A2 \
IFproduit_generalise_inverse_a_droite_A2
=define _IFproduit_generalise_inverse_a_droite_A2( \
Argument_____imageR_A2 \
,Argument_____imageA1 \
,Argument_____imageA2_R \
,Argument_____table_de_multiplication \
) \
IFproduit_generalise_inverse_a_droite_A2( \
Argument_____imageR_A2 \
,Argument_____imageA1 \
,Argument_____imageA2_R \
,Argument_____table_de_multiplication \
)
#define IFproduit_generalise_inverse_a_droite_A2( \
Argument_____imageR_A2 \
,Argument_____imageA1 \
,Argument_____imageA2_R \
,Argument_____table_de_multiplication \
) \
_IFproduit_generalise_inverse_a_droite_A2( \
Argument_____imageR_A2 \
,Argument_____imageA1 \
,Argument_____imageA2_R \
,Argument_____table_de_multiplication \
)
=define __IFproduit_generalise_inverse_au_centre_T \
IFproduit_generalise_inverse_au_centre_T
=define _IFproduit_generalise_inverse_au_centre_T( \
Argument_____imageR_T \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____imageT_R \
) \
IFproduit_generalise_inverse_au_centre_T( \
Argument_____imageR_T \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____imageT_R \
)
#define IFproduit_generalise_inverse_au_centre_T( \
Argument_____imageR_T \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____imageT_R \
) \
_IFproduit_generalise_inverse_au_centre_T( \
Argument_____imageR_T \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____imageT_R \
)
=define __IFAproduit_generalise \
IFAproduit_generalise
=define _IFAproduit_generalise( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____imageA3 \
,Argument_____table_de_multiplication \
) \
IFAproduit_generalise( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____imageA3 \
,Argument_____table_de_multiplication \
)
#define IFAproduit_generalise( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____imageA3 \
,Argument_____table_de_multiplication \
) \
_IFAproduit_generalise( \
Argument_____imageR \
,Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____imageA3 \
,Argument_____table_de_multiplication \
)
=define __IFdeveloppement_tridimensionnel \
IFdeveloppement_tridimensionnel
=define _IFdeveloppement_tridimensionnel( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____ponderation_imageAX \
,Argument_____imageAX \
,Argument_____ponderation_imageAY \
,Argument_____imageAY \
) \
IFdeveloppement_tridimensionnel( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____ponderation_imageAX \
,Argument_____imageAX \
,Argument_____ponderation_imageAY \
,Argument_____imageAY \
)
#define IFdeveloppement_tridimensionnel( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____ponderation_imageAX \
,Argument_____imageAX \
,Argument_____ponderation_imageAY \
,Argument_____imageAY \
) \
_IFdeveloppement_tridimensionnel( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____ponderation_imageAX \
,Argument_____imageAX \
,Argument_____ponderation_imageAY \
,Argument_____imageAY \
)
#ifdef BUG_SYSTEME_DPX5000_SPIX_CC_LACT11_ZONE_DE_SWAP_2
#Aifdef BUG_SYSTEME_DPX5000_SPIX_CC_LACT11_ZONE_DE_SWAP_2
=define __Icalcul_iteratif_des_trainees \
Icalcul_iteratif_des_trainees
=define _Icalcul_iteratif_des_trainees( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
,Argument_____mode \
,Argument_____trainee_du_BLANC \
,Argument_____renormaliser \
) \
Icalcul_iteratif_des_trainees( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
,Argument_____mode \
,Argument_____trainee_du_BLANC \
,Argument_____renormaliser \
)
#define Icalcul_iteratif_des_trainees( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
,Argument_____mode \
,Argument_____trainee_du_BLANC \
,Argument_____renormaliser \
) \
_Icalcul_iteratif_des_trainees( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
,Argument_____mode \
,Argument_____trainee_du_BLANC \
,Argument_____renormaliser \
)
#Eifdef BUG_SYSTEME_DPX5000_SPIX_CC_LACT11_ZONE_DE_SWAP_2
=define __Pcentre_de_gravite \
Pcentre_de_gravite
=define _Pcentre_de_gravite( \
Argument_____centre_de_gravite \
,Argument_____imageA \
,Argument_____X \
,Argument_____Y \
,Argument_____nombre_de_points \
,Argument_____noyau \
) \
Pcentre_de_gravite( \
Argument_____centre_de_gravite \
,Argument_____imageA \
,Argument_____X \
,Argument_____Y \
,Argument_____nombre_de_points \
,Argument_____noyau \
)
#define Pcentre_de_gravite( \
Argument_____centre_de_gravite \
,Argument_____imageA \
,Argument_____X \
,Argument_____Y \
,Argument_____nombre_de_points \
,Argument_____noyau \
) \
_Pcentre_de_gravite( \
Argument_____centre_de_gravite \
,Argument_____imageA \
,Argument_____X \
,Argument_____Y \
,Argument_____nombre_de_points \
,Argument_____noyau \
)
=define __Iinterpolation_ponderee \
Iinterpolation_ponderee
=define _Iinterpolation_ponderee( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
,Argument_____nombre_de_points \
,Argument_____noyau \
) \
Iinterpolation_ponderee( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
,Argument_____nombre_de_points \
,Argument_____noyau \
)
#define Iinterpolation_ponderee( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
,Argument_____nombre_de_points \
,Argument_____noyau \
) \
_Iinterpolation_ponderee( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
,Argument_____nombre_de_points \
,Argument_____noyau \
)
=define __Iassociation_de_voisinage \
Iassociation_de_voisinage
=define _Iassociation_de_voisinage( \
Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____nombre_maximal_de_points_a_traiter \
) \
Iassociation_de_voisinage( \
Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____nombre_maximal_de_points_a_traiter \
)
#define Iassociation_de_voisinage( \
Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____nombre_maximal_de_points_a_traiter \
) \
_Iassociation_de_voisinage( \
Argument_____imageA1 \
,Argument_____imageA2 \
,Argument_____nombre_maximal_de_points_a_traiter \
)
=define __Iinterpolation_de_voisinage \
Iinterpolation_de_voisinage
=define _Iinterpolation_de_voisinage( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
,Argument_____interpoler_les_coordonnees \
,Argument_____choisir_la_coordonnee_associee \
) \
Iinterpolation_de_voisinage( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
,Argument_____interpoler_les_coordonnees \
,Argument_____choisir_la_coordonnee_associee \
)
#define Iinterpolation_de_voisinage( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
,Argument_____interpoler_les_coordonnees \
,Argument_____choisir_la_coordonnee_associee \
) \
_Iinterpolation_de_voisinage( \
Argument_____imageR \
,Argument_____alpha \
,Argument_____imageA1 \
,Argument_____beta_ \
,Argument_____imageA2 \
,Argument_____interpoler_les_coordonnees \
,Argument_____choisir_la_coordonnee_associee \
)
=define __Ibrouillage \
Ibrouillage
=define _Ibrouillage( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____matrice_de_brouillage \
,Argument_____sens_direct \
,Argument_____marquer_les_points_atteints \
) \
Ibrouillage( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____matrice_de_brouillage \
,Argument_____sens_direct \
,Argument_____marquer_les_points_atteints \
)
#define Ibrouillage( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____matrice_de_brouillage \
,Argument_____sens_direct \
,Argument_____marquer_les_points_atteints \
) \
_Ibrouillage( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____matrice_de_brouillage \
,Argument_____sens_direct \
,Argument_____marquer_les_points_atteints \
)
=define __Ireduction_du_nombre_de_niveaux_1 \
Ireduction_du_nombre_de_niveaux_1
=define _Ireduction_du_nombre_de_niveaux_1( \
Argument_____imageA_ROUGE \
,Argument_____imageA_VERTE \
,Argument_____imageA_BLEUE \
,Argument_____epsilon_voisinage_ROUGE \
,Argument_____epsilon_voisinage_VERTE \
,Argument_____epsilon_voisinage_BLEUE \
) \
Ireduction_du_nombre_de_niveaux_1( \
Argument_____imageA_ROUGE \
,Argument_____imageA_VERTE \
,Argument_____imageA_BLEUE \
,Argument_____epsilon_voisinage_ROUGE \
,Argument_____epsilon_voisinage_VERTE \
,Argument_____epsilon_voisinage_BLEUE \
)
#define Ireduction_du_nombre_de_niveaux_1( \
Argument_____imageA_ROUGE \
,Argument_____imageA_VERTE \
,Argument_____imageA_BLEUE \
,Argument_____epsilon_voisinage_ROUGE \
,Argument_____epsilon_voisinage_VERTE \
,Argument_____epsilon_voisinage_BLEUE \
) \
_Ireduction_du_nombre_de_niveaux_1( \
Argument_____imageA_ROUGE \
,Argument_____imageA_VERTE \
,Argument_____imageA_BLEUE \
,Argument_____epsilon_voisinage_ROUGE \
,Argument_____epsilon_voisinage_VERTE \
,Argument_____epsilon_voisinage_BLEUE \
)
=define __IFconversion_RT_X \
IFconversion_RT_X
=define _IFconversion_RT_X( \
Argument_____iR \
,Argument_____iAR \
,Argument_____iAT \
) \
IFconversion_RT_X( \
Argument_____iR \
,Argument_____iAR \
,Argument_____iAT \
)
#define IFconversion_RT_X( \
Argument_____iR \
,Argument_____iAR \
,Argument_____iAT \
) \
_IFconversion_RT_X( \
Argument_____iR \
,Argument_____iAR \
,Argument_____iAT \
)
=define __IFconversion_RT_Y \
IFconversion_RT_Y
=define _IFconversion_RT_Y( \
Argument_____iR \
,Argument_____iAR \
,Argument_____iAT \
) \
IFconversion_RT_Y( \
Argument_____iR \
,Argument_____iAR \
,Argument_____iAT \
)
#define IFconversion_RT_Y( \
Argument_____iR \
,Argument_____iAR \
,Argument_____iAT \
) \
_IFconversion_RT_Y( \
Argument_____iR \
,Argument_____iAR \
,Argument_____iAT \
)
=define __IFconversion_XY_R \
IFconversion_XY_R
=define _IFconversion_XY_R( \
Argument_____iR \
,Argument_____iAX \
,Argument_____iAY \
) \
IFconversion_XY_R( \
Argument_____iR \
,Argument_____iAX \
,Argument_____iAY \
)
#define IFconversion_XY_R( \
Argument_____iR \
,Argument_____iAX \
,Argument_____iAY \
) \
_IFconversion_XY_R( \
Argument_____iR \
,Argument_____iAX \
,Argument_____iAY \
)
=define __IFconversion_XY_T \
IFconversion_XY_T
=define _IFconversion_XY_T( \
Argument_____iR \
,Argument_____iAX \
,Argument_____iAY \
) \
IFconversion_XY_T( \
Argument_____iR \
,Argument_____iAX \
,Argument_____iAY \
)
#define IFconversion_XY_T( \
Argument_____iR \
,Argument_____iAX \
,Argument_____iAY \
) \
_IFconversion_XY_T( \
Argument_____iR \
,Argument_____iAX \
,Argument_____iAY \
)
=define __Icompression_masquee \
Icompression_masquee
=define _Icompression_masquee( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____masque \
) \
Icompression_masquee( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____masque \
)
#define Icompression_masquee( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____masque \
) \
_Icompression_masquee( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____masque \
)
=define __Idecompression_masquee \
Idecompression_masquee
=define _Idecompression_masquee( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____masque \
) \
Idecompression_masquee( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____masque \
)
#define Idecompression_masquee( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____masque \
) \
_Idecompression_masquee( \
Argument_____imageR \
,Argument_____imageA \
,Argument_____masque \
)