Merge branch 'master' of ssh://tetalab.org:2213/tTh/FloatImg

something is broken ?
2020-10-10 01:26:19 +02:00 · 2020-10-10 01:26:19 +02:00 · aa42aa99fb
parent f6a1387bd0 5599a2f7da
commit aa42aa99fb
16 changed files with 559 additions and 36 deletions
--- a/.gitignore
+++ b/.gitignore
@ -27,6 +27,7 @@ doc/co*.tex
 funcs/t
 funcs/*.o
 funcs/*.png
 funcs/V/*
 funcs/*.gif
 funcs/*.fits
 funcs/*.tiff
--- a/doc/the_floatimg_hack.tex
+++ b/doc/the_floatimg_hack.tex
@ -412,7 +412,7 @@ foo = fimg_create_from_dump("lena.fimg", &head);
 \end{lstlisting}
 Si la valeur retournée est différente de 0, c'est que quelque
-chose s'est mal passé.
+chose s'est probablement mal passé.
 Certains messages sont parfois  explicites.
 % 	_________
@ -884,7 +884,7 @@ pas vraiment compte du contenu de l'image.
 \begin{verbatim}
 tth@daubian:~/Devel/FloatImg/tools$ ./fimgfx -v -h
 --- fimg special effects ---
-        cos01 cos010 pow2 sqrt gray0 xper
+        cos01 cos010 pow2 sqrt gray0 cmixa xper desat
 \end{verbatim}
 Certaines de ces opérations ont besoin d'un paramètre flottant.
@ -898,6 +898,12 @@ sera lisible avec le sélecteur \texttt{-L}.
 \item [Déformations géométriques:] r90
 \end{description}
 Et pour les aventureux, la commande \texttt{xper} (abréviation
 de \textsl{expérimental}) permet de tester la plus récente tentative
 de friture du moment.
 %		---------------------
 \subsection{fimgops}\index{fimgops}\label{fimgops}
 Quelques opérations diverses entre deux images, qui doivent être
@ -955,9 +961,34 @@ avoir plusieurs plans de réalité. Il ne faut en négliger aucun.
 Il faut quand même deviner que pour passer de l'espace RGB\index{RGB}
 à une abstraction linéaire mono-dimensionnelle, il existe une foultitude
 de méthodes, toutes plus légitimes que les autres.
 \index{procrastination}
 Et face à l'incertitude du choix, j'ai reporté l'écriture de ce
 logiciel aux calendes grecques, voire même plus tard.
 \subsection{cumulfimgs}\index{cumulfimgs}\label{cumulfimgs}
 Cet outil accumule\index{cumul} une quantité d'images flottantes
 (même taille et même type) afin d'obtenir
 un flou de meilleure qualité. Aucune mise à l'échelle n'etant
 effctuée, les pixels de sortie peuvent atteindre des valeurs
 considérables\footnote{Prévoir une gestion des \textsf{overflows} ?}
 \begin{verbatim}
 tth@delirium:~/Devel/FloatImg/tools$ ./cumulfimgs -h
 usage :
        cumulfimgs a.fimg b.fimg c-fimg ...
 cumulator options :
        -v      increase verbosity
        -o      name of output file
        -g      convert to gray level
 \end{verbatim}
 Le nom par défaut du fichier résultant est \texttt{out.fimg}.
 L'exportation "multiformat" est pour bientôt.
 % -------------------------------------------------------------------
-\section{TODO}\index{TODO}\label{TODO}
+\section{TODO}\index{TODO}\label{TODO}\
 		\index{XXX}
 Il reste plein de choses à faire pour que ce soit vraiment utilisable,
 surtout dans un contexte artistique à grande porosité.
@ -971,7 +1002,8 @@ choses seront acquises.
 \item	Compléter les traitements mathémathiques (eg le gamma\index{gamma}).
 \item	Formaliser les codes d'erreur. \textbf{Urgent}.
 \item	Faire une passe complète de Valgrind\index{valgrind}.
-\item	Integrer la fonderie et l'interpolator.
+\item	Intégrer la fonderie et l'interpolator.
 \item	Vérifier le gestion des images mono-canal.
 \end{itemize}
 % -------------------------------------------------------------------
--- a/floatimg.h
+++ b/floatimg.h
@ -3,7 +3,7 @@
 *			ugly code from tTh
 */
-#define		FIMG_VERSION	106
+#define		FIMG_VERSION	109
 /*
 *	in memory descriptor
@ -59,7 +59,7 @@ int   fimg_type_is_valid(int type);
 int   fimg_print_version(int k);
-void fimg_print_sizeof(void);
+void  fimg_print_sizeof(void);
 void  fimg_printhead(FloatImg *h);
 int   fimg_describe(FloatImg *head, char *txt);
 char *fimg_str_type(int type);
@ -97,6 +97,9 @@ int fimg_killborders(FloatImg *img);
 int fimg_lissage_2x2(FloatImg *img);
 int fimg_filter_3x3(FloatImg *s, FloatImg *d, FimgFilter3x3 *filtr);
 int fimg_contour_2x2(FloatImg *psrc, FloatImg *pdst, int notused);
 /*	'sfx0' module 			*/
 int fimg_killcolors_a(FloatImg *fimg, float fval);
 int fimg_killcolors_b(FloatImg *fimg, float fval);
@ -124,6 +127,10 @@ int fimg_cos_010(FloatImg *s, FloatImg *d, double maxval);
 int fimg_mix_rgb_gray(FloatImg *img, float mix);
 int     fimg_shift_to_zero(FloatImg *s, FloatImg *d, float coefs[6]);
 /* * * * experimental ! */
 int fimg_classif_trial(FloatImg *src, FloatImg*dst, float fval, int notused);
 int fimg_qsort_rgb_a(FloatImg *psrc, FloatImg *pdst, int notused);
 int fimg_qsort_rgb_b(FloatImg *psrc, FloatImg *pdst, int notused);
 /*	module funcs/geometry.c		*/
 int fimg_equalize_compute(FloatImg *src, void *vptr, float vmax);
@ -158,7 +165,7 @@ int   fimg_meanvalues(FloatImg *head, float means[4]);
 int   fimg_to_gray(FloatImg *head);
 void  fimg_add_cste(FloatImg *fi, float value);
 void  fimg_mul_cste(FloatImg *fi, float value);
-int   fimg_normalize(FloatImg *fi, double maxima, int notused);
+int   fimg_ajust_from_grab(FloatImg *fi, double maxima, int notused);
 void  fimg_drand48(FloatImg *fi, float kmul);
 int   fimg_count_negativ(FloatImg *fi);
 int   fimg_clamp_negativ(FloatImg *fi);
--- a/funcs/Makefile
+++ b/funcs/Makefile
@ -5,7 +5,7 @@ DEPS = ../floatimg.h Makefile
 OBJS = fimg-png.o fimg-tiff.o misc-plots.o filtrage.o utils.o	\
 	fimg-libpnm.o rampes.o sfx0.o geometry.o rotate.o	\
 	equalize.o fimg-fits.o saturation.o histogram.o		\
-	hsv.o
+	hsv.o classif.o contour2x2.o qsortrgb.o
 #---------------------------------------------------------------
@ -55,9 +55,19 @@ equalize.o:		equalize.c $(DEPS)
 sfx0.o:			sfx0.c $(DEPS)
 	gcc $(COPT) -c $<
 contour2x2.o:		contour2x2.c $(DEPS)
 	gcc $(COPT) -c $<
 rampes.o:		rampes.c $(DEPS)
 	gcc $(COPT) -c $<
 classif.o:		classif.c $(DEPS)
 	gcc $(COPT) -c $<
 qsortrgb.o:		qsortrgb.c $(DEPS)
 	gcc $(COPT) -c $<
 hsv.o:		hsv.c $(DEPS)
 	gcc $(COPT) -c $<
--- a/funcs/classif.c
+++ b/funcs/classif.c
@ -0,0 +1,93 @@
 /*
 *		classif.c
 */
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include   <math.h>
 #include "../floatimg.h"
 int		verbosity;
 /* --------------------------------------------------------------------- */
 /* nouveau 2 octobre 2020, juste avant sonoptic de la pluie craignos	 */
 int fimg_classif_trial(FloatImg *psrc, FloatImg *pdst, float fval, int notused)
 {
 float		minmax[6], delta[3], baryc[3];
 float		range, dist, rgb[3], dr, dg, db;
 int		x, y, on, off;
 #if DEBUG_LEVEL
 fprintf(stderr, ">>> %s ( %p %p %f %d )\n", __func__, psrc, pdst, fval, notused);
 #endif
 /* calculer les amplitudes RGB de l'image source */
 fimg_get_minmax_rgb(psrc, minmax);
 delta[0] = minmax[1] - minmax[0];
 delta[1] = minmax[3] - minmax[2];
 delta[2] = minmax[5] - minmax[4];
 /* chercher le plus petit des deltas */
 range = delta[0]; 	if (delta[1]<range) range=delta[1];
 			if (delta[2]<range) range=delta[2];
 /* convertir le diametre en rayon (magic inside) */
 range *= fval;
 if (verbosity ) fprintf(stderr, "deltas : %f  %f  %f  /  %f\n",
 					delta[0], delta[1], delta[2], range);
 /* calcul du "barycentre" chromatique */
 baryc[0] = (minmax[1] + minmax[0]) / 2;
 baryc[1] = (minmax[3] + minmax[2]) / 2;
 baryc[2] = (minmax[5] + minmax[4]) / 2;
 if (verbosity) fprintf(stderr, "barycs : %f  %f  %f\n",
 					baryc[0], baryc[1], baryc[2]);
 on = off = 0;
 for (y=0; y<psrc->height; y++) {
 	for (x=0; x<psrc->width; x++) {
 		fimg_get_rgb(psrc, x, y, rgb);
 		/* calcul de la distance chromatique */
 		dr = rgb[0] - baryc[0];
 		dg = rgb[1] - baryc[1];
 		db = rgb[2] - baryc[2];
 		dist = sqrtf( (dr*dr) + (dg*dg) + (db*db) );
 #if DEBUG_LEVEL
 	if (x==y) fprintf(stderr, "%4d  %4d   %f\n", x, y, dist);
 #endif
 		/*   action !!!   */
 		if (dist > range) {
 			/* make our pixel gray-level */
 			rgb[0] = rgb[1] = rgb[2] = 0.0;
 				// (rgb[0] + rgb[1] + rgb[2]) / 3.0; 
 			on++;
 			}
 		else	{
 			/* the easy part : do nothing */
 			off++;
 			}
 		fimg_put_rgb(pdst, x, y, rgb);
 		/* MUST BE MORE CREATIVE HERE !!! */
 		}
 	}
 fprintf(stderr, "on %d off %d\n", on, off);
 return 0;
 }
 /* --------------------------------------------------------------------- */
--- a/funcs/contour2x2.c
+++ b/funcs/contour2x2.c
@ -0,0 +1,71 @@
 /*
 *		classif.c
 */
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include   <math.h>
 #include "../floatimg.h"
 int		verbosity;
 /* --------------------------------------------------------------------- */
 /* nouveau 4 octobre 2020, juste avant sonoptic de la pluie craignos	 */
 int fimg_contour_2x2(FloatImg *psrc, FloatImg *pdst, int notused)
 {
 float		avg[4];
 int		foo, x, y, q;
 int     tbl[] = 			/* deep magic inside */
        {
        0,      1,      1,      1,
        1,      1,      0,      1,
        1,      0,      1,      1,
        1,      1,      1,      0
        };
 #if DEBUG_LEVEL
 fprintf(stderr, ">>> %s ( %p %p %d )\n", __func__, psrc, pdst, notused);
 #endif
 foo = fimg_meanvalues(psrc, avg);
 if (verbosity) {
 	fprintf(stderr, "mean values : %f %f %f\n", avg[0], avg[1], avg[2]);
 	}
 #define RP(ix, iy)   ( psrc->R[((iy)*psrc->width)+(ix)] < avg[0] )
 #define GP(ix, iy)   ( psrc->G[((iy)*psrc->width)+(ix)] < avg[1] )
 #define BP(ix, iy)   ( psrc->B[((iy)*psrc->width)+(ix)] < avg[2] )
 for (y=0; y<psrc->height-1; y++) {
 	for (x=0; x<psrc->width-1; x++) {
 		q = (	( RP(x, y)	<< 3 )	|
 			( RP(x+1, y)	<< 2 )	|
 			( RP(x, y+1)	<< 1 )	|
 			( RP(x+1, y+1)	     )	);
 		pdst->R[(y*psrc->width)+x] = tbl[q] ? 1.0 : 0.0 ;
 		q = (	( GP(x,  y)	<< 3 )	|
 			( GP(x+1, y)	<< 2 )	|
 			( GP(x, y+1)	<< 1 )	|
 			( GP(x+1, y+1)	     )	);
 		pdst->G[(y*psrc->width)+x] = tbl[q] ? 1.0 : 0.0 ;
 		q = (	( BP(x, y)	<< 3 )	|
 			( BP(x+1, y)	<< 2 )	|
 			( BP(x, y+1)	<< 1 )	|
 			( BP(x+1, y+1)	     )	);
 		pdst->B[(y*psrc->width)+x] = tbl[q] ? 1.0 : 0.0 ;
 		}
 	}
 return 0;
 }
 /* --------------------------------------------------------------------- */
--- a/funcs/equalize.c
+++ b/funcs/equalize.c
@ -19,7 +19,7 @@ int			foo;
 float			dr, dg, db;
 #if DEBUG_LEVEL
-fprintf(stderr, ">>> %s ( %p )\n", __func__, src);
+fprintf(stderr, ">>> %s ( %p %p %f )\n", __func__, src, vptr, vmax);
 #endif
 memset(minmax, 0, 6*sizeof(float));
@ -34,9 +34,9 @@ dr = minmax[1] - minmax[0];
 dg = minmax[3] - minmax[2];
 db = minmax[5] - minmax[4];
-printf("Rmin  %12.4g    Rmax  %12.4g    delta  %12.4g\n", minmax[0], minmax[1], dr);
+printf("Rmin  %12.4g   max  %12.4g  delta  %12.4g\n", minmax[0], minmax[1], dr);
-printf("Gmin  %12.4g    Gmax  %12.4g    delta  %12.4g\n", minmax[2], minmax[3], dg);
+printf("Gmin  %12.4g   max  %12.4g  delta  %12.4g\n", minmax[2], minmax[3], dg);
-printf("Bmin  %12.4g    Bmax  %12.4g    delta  %12.4g\n", minmax[4], minmax[5], db);
+printf("Bmin  %12.4g   max  %12.4g  delta  %12.4g\n", minmax[4], minmax[5], db);
 if ( (minmax[0]<0.0) || (minmax[2]<0.0) || (minmax[4]<0.0) ) {
 	fprintf(stderr, "%s: negative value ?\n", __func__);
--- a/funcs/qsortrgb.c
+++ b/funcs/qsortrgb.c
@ -0,0 +1,104 @@
 /*
 *		qsort_rgb.c
 */
 #include   <stdio.h>
 #include   <stdlib.h>
 #include   <string.h>
 #include   <math.h>
 #include   "../floatimg.h"
 int		verbosity;
 /* --------------------------------------------------------------------- */
 /* nouveau 7 octobre 2020, juste avant sonoptic de la pluie craignos	 */
 static int compare_a(const void *p1, const void *p2)
 {
 return		( *(float *)p1 < *(float *)p2 );
 }
 int fimg_qsort_rgb_a(FloatImg *psrc, FloatImg *pdst, int notused)
 {
 int		foo, szimg;
 #if DEBUG_LEVEL
 fprintf(stderr, ">>> %s ( %p %p %d )\n", __func__, psrc, pdst, notused);
 #endif
 foo = fimg_copy_data(psrc, pdst);
 szimg = pdst->width * pdst->height;
 fprintf(stderr, "%s : %d pixels\n", __func__, szimg);
 qsort(pdst->R, szimg, sizeof(float), compare_a);
 qsort(pdst->G, szimg, sizeof(float), compare_a);
 qsort(pdst->B, szimg, sizeof(float), compare_a);
 return 0;
 }
 /* --------------------------------------------------------------------- */
 typedef struct {
 	float	sum;
 	float	r, g, b;
 	} pix;
 static compare_b(const void *p1, const void *p2)
 {
 pix	*s1, *s2;
 s1 = (pix *)p1;
 s2 = (pix *)p2;
 return		( s1->sum < s2->sum );
 }
 int fimg_qsort_rgb_b(FloatImg *psrc, FloatImg *pdst, int notused)
 {
 int		x, y, szimg;
 pix		*ppix, *ptr;
 float		rgb[3];
 // #if DEBUG_LEVEL
 fprintf(stderr, ">>> %s ( %p %p %d )\n", __func__, psrc, pdst, notused);
 // #endif
 szimg = pdst->width * pdst->height;
 fprintf(stderr, "%s : %d pixels\n", __func__, szimg);
 ppix = calloc(szimg, sizeof(pix));
 ptr = ppix;		/* mobile pointer */
 for (y=0; y<psrc->height; y++) {
 	for (x=0; x<psrc->width; x++) {
 		fimg_get_rgb(psrc, x, y, rgb);
 		ptr->sum = rgb[0] + rgb[1] + rgb[2];
 		ptr->r = rgb[0];
 		ptr->g = rgb[1];
 		ptr->b = rgb[2];
 		ptr++;			/* next pixel */
 		}
 	}
 qsort(ppix, szimg, sizeof(pix), compare_b);
 ptr = ppix;		/* mobile pointer */
 for (y=0; y<psrc->height; y++) {
 	for (x=0; x<psrc->width; x++) {
 		rgb[0] = ptr->r;
 		rgb[1] = ptr->g;
 		rgb[2] = ptr->b;
 		fimg_put_rgb(pdst, x, y, rgb);
 		ptr++;			/* next pixel */
 		}
 	}
 free(ppix);
 return 0;
 }
 /* --------------------------------------------------------------------- */
--- a/funcs/t.c
+++ b/funcs/t.c
@ -14,6 +14,126 @@ int		verbosity;
 float		global_fvalue;
 /* --------------------------------------------------------------------- */
 /*
 *	nouveau 7 octobre 2020 pendant sonoptic
 */
 // 
 int essai_qsort_rgb(char *infile)
 {
 FloatImg	src, dst;
 int		foo;
 if (NULL != infile) {
 	fprintf(stderr, "%s : loading %s\n", __func__, infile);
 	foo = fimg_create_from_dump(infile, &src);
 	if (foo) {
 		fprintf(stderr, "%s: error loading '%s'\n", __func__, infile);
 		return foo;
 		}
 	}
 else	{
 	fprintf(stderr, "%s : NOT INPUT FILE, FUBAR\n", __func__);
 	abort();
 	}
 fimg_clone(&src, &dst, 1);
 foo = fimg_qsort_rgb_b(&src, &dst, 0);
 if (foo) {
 	fprintf(stderr, "%s: err %d in qsort_rgb\n", __func__, foo);
 	return foo;
 	}
 foo = fimg_dump_to_file(&dst, "out.fimg", 0);
 if (foo) {
 	fprintf(stderr, "%s : err %d saving result\n", __func__, foo);
 	return foo;
 	}
 return 0;
 }
 /* --------------------------------------------------------------------- */
 /*
 *	nouveau 5 octobre 2020 pendant sonoptic
 */
 int essai_contour_2x2(char *infile)
 {
 FloatImg	src, dst;
 int		foo;
 if (NULL != infile) {
 	fprintf(stderr, "%s : loading %s\n", __func__, infile);
 	foo = fimg_create_from_dump(infile, &src);
 	if (foo) {
 		fprintf(stderr, "%s: error loading '%s'\n", __func__, infile);
 		return foo;
 		}
 	}
 else	{
 	fprintf(stderr, "%s : NOT INPUT FILE, FUBAR\n", __func__);
 	abort();
 	}
 fimg_clone(&src, &dst, 1);
 foo = fimg_contour_2x2(&src, &dst, 0);
 if (foo) {
 	fprintf(stderr, "%s: err %d in contour_2x2\n", __func__, foo);
 	return foo;
 	}
 foo = fimg_save_as_pnm(&dst, "out.pnm", 0);
 if (foo) {
 	fprintf(stderr, "%s : err %d saving result\n", __func__, foo);
 	return foo;
 	}
 return 0;
 }
 /* --------------------------------------------------------------------- */
 /*
 *	nouveau 5 octobre 2020 pendant sonoptic
 */
 int essai_classif(char *infile)
 {
 FloatImg	src, dst;
 int		foo;
 if (NULL != infile) {
 	fprintf(stderr, "%s : loading %s\n", __func__, infile);
 	foo = fimg_create_from_dump(infile, &src);
 	if (foo) {
 		fprintf(stderr, "%s: error loading '%s'\n", __func__, infile);
 		return foo;
 		}
 	}
 else	{
 	fprintf(stderr, "%s : NOT INPUT FILE, FUBAR\n", __func__);
 	abort();
 	}
 fimg_clone(&src, &dst, 1);
 fprintf(stderr, "%s : fvalue is %f\n", __func__, global_fvalue);
 foo = fimg_classif_trial(&src, &dst, global_fvalue, 0);
 if (foo) {
 	fprintf(stderr, "%s: err %d in classif_trial\n", __func__, foo);
 	return foo;
 	}
 foo = fimg_save_as_pnm(&dst, "out.pnm", 0);
 if (foo) {
 	fprintf(stderr, "%s : err %d saving result\n", __func__, foo);
 	return foo;
 	}
 return 0;
 }
 /* --------------------------------------------------------------------- */
 /* nouveau 19 aout 2020, le matin avant la canicule */
@ -31,7 +151,6 @@ if (foo) {
 	return foo;
 	}
 return -7;
 }
 /* --------------------------------------------------------------------- */
@ -434,7 +553,7 @@ return 0;
 }
 /* --------------------------------------------------------------------- */
 enum nCmd { Equalize=1, Rotate, Sfx0, F3x3, MIRE, Wfits, Wpng, Wtiff,
-			Histo, Hsv  };
+			Histo, Hsv, Classif, Ctr2x2, Qsortrgb  };
 typedef struct {
 	char	*name;
 	int	Cmd;
@ -451,6 +570,9 @@ Command commands[] = {
 	{ "wtiff",	Wtiff		},
 	{ "histo",	Histo		},
 	{ "hsv",	Hsv		},
 	{ "classif",	Classif		},
 	{ "ctr2x2",	Ctr2x2		},
 	{ "qsortrgb",	Qsortrgb	},
 	{ NULL,		0		}
 	} ;
@ -514,7 +636,9 @@ command  = argv[optind];
 filename = argv[optind+1];
 if (verbosity) {
-	fprintf(stderr, "running command '%s' on '%s'\n", command, filename);
+	fprintf(stderr, "%s : running command '%s' on '%s'\n",
 				argv[0], command, filename);
 	fprintf(stderr, "global fvalue : %f\n", global_fvalue);
 	}
 opt = lookup_cmd(command);
@ -547,6 +671,15 @@ switch(opt) {
 	case Hsv:
 		foo = fimg_essai_hsv(filename);
 		break;
 	case Classif:
 		foo = essai_classif(filename);
 		break;
 	case Ctr2x2:
 		foo = essai_contour_2x2(filename);
 		break;
 	case Qsortrgb:
 		foo = essai_qsort_rgb(filename);
 		break;
 	default:
 		fprintf(stderr, "%s : bad command\n", command);
 		exit(1);
--- a/funcs/vroum.sh
+++ b/funcs/vroum.sh
@ -0,0 +1,32 @@
 #!/bin/bash
 src=/dev/shm/foo.fimg
 out=out.fimg
 maxi=99
 W="640"
 H="480"
 grabopt=" -s 640x480 -v -p 0 -n 100 -c cos01 "
 mkdir /tmp/V
 G=$(printf "%dx%d+0+0" $W $H)
 for foo in $(seq 0 $maxi)
 do
 	echo
 	grabvidseq -$grabopt -o $src
 	fval=$(echo "$foo / $maxi" | bc -l)
 	./t -k $fval -v qsortrgb $src
 	echo $foo ' = ' $fval
 	dst=$(printf "/tmp/V/%03d.png" $foo)
 	montage $src $out -geometry $G $dst
 done
 convert -delay 10 V/*.png foo.gif
--- a/install.sh
+++ b/install.sh
@ -4,8 +4,9 @@ cp	libfloatimg.a 	/usr/local/lib
 cp	floatimg.h 	/usr/local/include
 cp	tools/mkfimg tools/fimg2pnm tools/fimgops 	\
-	tools/fimg2png tools/fimg2tiff			\
+	tools/fimg2png tools/fimg2tiff tools/fimg2fits	\
 	tools/png2fimg tools/fimgstats tools/fimgfx	\
 	tools/cumulfimgs				\
 	/usr/local/bin
 cp	v4l2/grabvidseq v4l2/video-infos		\
--- a/lib/fimg-2gray.c
+++ b/lib/fimg-2gray.c
@ -70,7 +70,7 @@ for (foo=0; foo<nbb; foo++) {
 			(src->R[foo] + src->G[foo] + src->B[foo]) / 3.0;
 	}
-return -99;
+return 0;
 }
 /* --------------------------------------------------------------------- */
--- a/lib/fimg-math.c
+++ b/lib/fimg-math.c
@ -246,7 +246,7 @@ for (idx=0; idx<nbre; idx++) {
 	}
 }
 /* ---------------------------------------------------------------- */
-int fimg_normalize(FloatImg *fi, double maxima, int notused)
+int fimg_ajust_from_grab(FloatImg *fi, double maxima, int notused)
 {
 double		coef;
--- a/tools/cumulfimgs.c
+++ b/tools/cumulfimgs.c
@ -19,12 +19,12 @@ int		foo, numbers[3];
 foo = fimg_fileinfos(path, numbers);
 if (foo) {
 #if DEBUG_LEVEL
-	fprintf(stderr, "%s -> err %d\n", path, foo);
+	fprintf(stderr, "fileinfo of '%s' -> err %d\n", path, foo);
 #endif
 	return foo;
 	}
-fprintf(stderr, "%s \t%d x %d\n",path, numbers[0], numbers[1]);
+if (verbosity) fprintf(stderr, "%-20s %d x %d\n",path, numbers[0], numbers[1]);
 if (FIMG_TYPE_RGB != numbers[2]) {
 	fprintf(stderr, "file %s, %d : bad type\n", path, numbers[2]);
@ -36,10 +36,13 @@ return 0;
 /* --------------------------------------------------------------------- */
 void help(int v)
 {
 puts("");
 puts("$ cumulfimgs a.fimg b.fimg c-fimg ...");
 puts("cumulator options :");
 puts("\t-v\tincrease verbosity");
 puts("\t-o\tname of output file");
-
+puts("\t-g\tconvert to gray level");
 puts("");
 if (verbosity) { puts(""); fimg_print_version(1); }
 exit(0);
 }
@ -48,14 +51,17 @@ int main(int argc, char *argv[])
 {
 int		foo, idx;
 int		opt;
 int		to_gray = 0;
 char		*output_file = "out.fimg";
 FloatImg	accu, temp;
 int		src_loaded = 0;
 g_width = g_height = 0;
-while ((opt = getopt(argc, argv, "ho:v")) != -1) {
+while ((opt = getopt(argc, argv, "gho:v")) != -1) {
 	switch(opt) {
 		case 'g':	to_gray = 1;			break;
 		case 'h':	help(0);			break;
 		case 'o':	output_file = optarg;		break;
 		case 'v':	verbosity++;			break;
@ -67,16 +73,17 @@ if (verbosity)		fprintf(stderr, "------ cumulfimgs ------\n");
 fprintf(stderr, "argc = %d, optind = %d\n", argc, optind);
 #endif
 // foo = testfile(output_file);
 // fprintf(stderr, "Output %s -> %d\n", output_file, foo);
 for (idx=optind; idx<argc; idx++) {
 #if DEBUG_LEVEL
 	fprintf(stderr, "%5d   %s\n", idx, argv[idx]);
 #endif
 	foo = testfile(argv[idx]);
-	fprintf(stderr, "testfile %s -> %d\n", argv[idx],foo);
+	if (foo) {
 		fprintf(stderr, "testfile %s -> %d\n", argv[idx],foo);
 		exit(1);
 		}
 	if ( ! src_loaded ) {
 		foo = fimg_create_from_dump(argv[idx], &accu);
@ -85,13 +92,29 @@ for (idx=optind; idx<argc; idx++) {
 		}
 	else	{
 		foo = fimg_load_from_dump(argv[idx], &temp);
 		if (foo) {
 			fprintf(stderr, "load from dump -> %d\n", foo);
 			exit(1);
 			}
 		fimg_add_2(&temp, &accu);
 		}
 	}
 if (to_gray) {
 	foo = fimg_desaturate(&accu, &accu, 0);
 	if (foo) {
 		fprintf(stderr, "desaturate: error %d\n", foo);
 		}
 	}
 foo = fimg_dump_to_file(&accu, output_file, 0);
 if (foo) {
 	fprintf(stderr, "error %d while saving '%s'\n", foo, output_file);
 	exit(1);
 	}
 return 0;
 }
--- a/tools/essai.sh
+++ b/tools/essai.sh
@ -27,7 +27,6 @@ function essai_cmixa
 {
 ./mkfimg -vv -t tpat0 $TMPF 800 600
 ./fimgfx -vv cmixa $TMPF bar.fimg
 }
 #  -----------------------------------------------------
 function essai_cumulator
@ -36,11 +35,19 @@ D=" 800 600 "
 ./mkfimg -v -t hdeg	hdeg.fimg $D
 ./mkfimg -v -t vdeg	vdeg.fimg $D
 ./mkfimg -v -t drand48	rand.fimg $D
 ./mkfimg -v -t tpat0	pat0.fimg $D
-./cumulfimgs -vv -o foo.fimg hdeg.fimg rand.fimg vdeg.fimg
+./cumulfimgs -v -g -o foo.fimg			\
 	hdeg.fimg pat0.fimg rand.fimg vdeg.fimg
 }
 #  -----------------------------------------------------
 function essai_contour
 {
 ./mkfimg -vv -t tpat0 $TMPF 800 600
 ./fimgfx -vv ctr2x2 $TMPF bar.fimg
 }
 #  -----------------------------------------------------
-essai_cumulator
+essai_contour
 #  -----------------------------------------------------
--- a/tools/fimgfx.c
+++ b/tools/fimgfx.c
@ -21,7 +21,7 @@ typedef struct {
 	} Fx;
 enum fxid { Fx_cos01=5, Fx_cos010, Fx_pow2, Fx_sqrt, Fx_gray0, Fx_halfsz0,
-		Fx_rot90, Fx_cmixa, Fx_Desat,
+		Fx_rot90, Fx_cmixa, Fx_desat, Fx_ctr2x2, Fx_norm,
 		Fx_xper };
 Fx fx_list[] = {
@ -34,7 +34,9 @@ Fx fx_list[] = {
 	{ "rot90",		Fx_rot90,	0,	0 },
 	{ "cmixa",		Fx_cmixa,	0,	1 },
 	{ "xper",		Fx_xper,	0,	1 },
-	{ "desat",		Fx_Desat,	0,	1 },
+	{ "desat",		Fx_desat,	0,	1 },
 	{ "ctr2x2",		Fx_ctr2x2,	0,	1 },
 	{ "norm",		Fx_norm,	0,	1 },
 	{ NULL,			0,	0 }
 	};
@ -59,6 +61,9 @@ for (n=0, fx=fx_list; fx->name; fx++, n++) {
 return -1;		/* NOT FOUND */
 }
 /* --------------------------------------------------------------------- */
 /*
 *		this is the mutant function
 */
 int do_experiment(FloatImg *S, FloatImg *D, float kf)
 {
 int		foo;
@ -74,10 +79,10 @@ if (foo) {
 	return -98;
 	}
-foo = fimg_killcolors_a(D, kf);
+foo = fimg_classif_trial(S, D, kf, 0);
 if (foo) {
-	fprintf(stderr, "%s err %d killcolors %p %f\n", __func__,
+	fprintf(stderr, "%s err %d classif_trial %p\n", __func__,
-				foo, 		S, kf);
+				foo, 		S);
 	return -98;
 	}
@ -167,11 +172,15 @@ switch (action) {
 		fprintf(stderr, "halfsize was not implemented\n");
 		return -3;
-	case Fx_Desat:
+	case Fx_desat:
 		fimg_copy_data(&src, &dest);
 		foo = fimg_mix_rgb_gray(&dest, global_fvalue);
 		break;
 	case Fx_ctr2x2:
 		foo = fimg_contour_2x2(&src, &dest, 0);
 		break;
 	default:
 		fprintf(stderr, "%s %s : %d is bad action\n",
 					__FILE__, __func__, action);