libtthimage/Lib/combine2.c

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2022-06-26 20:06:35 +11:00
/*
combine2.c
mixages...
----------
*/
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
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#include "../tthimage.h"
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/*::------------------------------------------------------------------::*/
/*
Le coefficient K va de 0 a 10000 !
*/
int
Image_mix(Image_Desc *a, Image_Desc *b, Image_Desc *c, int k)
{
int x, y;
int ra, rb, mk;
uint8_t *pra, *prb, *prk, *pga, *pgb, *pgk, *pba, *pbb, *pbk;
int foo;
if ( (foo=Image_compare_desc(a, b)) ||
(foo=Image_compare_desc(a, c)) )
{
fprintf(stderr, "Image mix: images differentes %s\n", Image_err2str(foo));
fprintf(stderr, " a %dx%d b %dx%d c %dx%d\n",
a->width, a->height,
b->width, b->height,
c->width, c->height);
return IMG_ARE_DIFFERENT;
}
#if DEBUG_LEVEL > 1
fprintf(stderr, "Mixing: %p and %p to %p, k=%d\n", a, b, c, k);
#endif
mk = 10000 - k;
for (y=0; y<a->height; y++)
{
pra = a->Rpix[y]; prb = b->Rpix[y]; prk = c->Rpix[y];
pga = a->Gpix[y]; pgb = b->Gpix[y]; pgk = c->Gpix[y];
pba = a->Bpix[y]; pbb = b->Bpix[y]; pbk = c->Bpix[y];
for (x=0; x<a->width; x++)
{
ra = pra[x];
rb = prb[x];
prk[x] = ((ra * k) + (rb * mk)) / 10000;
ra = pga[x];
rb = pgb[x];
pgk[x] = ((ra * k) + (rb * mk)) / 10000;
ra = pba[x];
rb = pbb[x];
pbk[x] = ((ra * k) + (rb * mk)) / 10000;
}
}
return 0;
}
/*::------------------------------------------------------------------::*/
/* new 6 nov 2001
Les coefficients K[rgb] vont de 0 a 10000 !
*/
int
Image_mix_rgb(Image_Desc *a, Image_Desc *b, Image_Desc *c,
int kr, int kg, int kb)
{
int foo, x, y;
uint8_t *pra, *prb, *prk, *pga, *pgb, *pgk, *pba, *pbb, *pbk;
int ra, rb, mkr, mkg, mkb;
if ( (foo=Image_compare_desc(a, b)) ||
(foo=Image_compare_desc(a, c)) )
{
fprintf(stderr, "Image mix: images differentes %s\n", Image_err2str(foo));
fprintf(stderr, " a %dx%d b %dx%d c %dx%d\n",
a->width, a->height,
b->width, b->height,
c->width, c->height);
return IMG_ARE_DIFFERENT;
}
mkr = 10000 - kr;
mkg = 10000 - kg;
mkb = 10000 - kb;
for (y=0; y<a->height; y++)
{
pra = a->Rpix[y]; prb = b->Rpix[y]; prk = c->Rpix[y];
pga = a->Gpix[y]; pgb = b->Gpix[y]; pgk = c->Gpix[y];
pba = a->Bpix[y]; pbb = b->Bpix[y]; pbk = c->Bpix[y];
for (x=0; x<a->width; x++)
{
ra = pra[x];
rb = prb[x];
prk[x] = ((ra * kr) + (rb * mkr)) / 10000;
ra = pga[x];
rb = pgb[x];
pgk[x] = ((ra * kg) + (rb * mkg)) / 10000;
ra = pba[x];
rb = pbb[x];
pbk[x] = ((ra * kb) + (rb * mkb)) / 10000;
}
}
return 0;
}
/*::------------------------------------------------------------------::*/
/*
* les deux images sources (a & b) et l'image de destination (d)
* doivent avoir les m<EFBFBD>mes largeur et hauteur. quand <EFBFBD> l'image
* de 'ratio', ses dimensions peuvent <EFBFBD>tre diff<EFBFBD>rentes.
*
* XXX mettre en place un test unitaire !!!
*/
int
Image_trimix(Image_Desc *a, Image_Desc *b, Image_Desc *c, Image_Desc *d, char w)
{
int x, y, rv, gv, bv, cx, cy;
int ra, ga, ba, rb, gb, bb, rc, gc, bc;
fprintf(stderr, "Image tri mix (%02X) : NO SANITY CONTROL\n", w);
/*
* YES, I know that i can optimize this func for speed.
* I do that when a got a zen-er life. Sorry. man vi, man gcc.
*/
for (y=0; y<a->height; y++)
{
cy = y % c->height;
for (x=0; x<a->width; x++)
{
cx = x % c->width;
Image_getRGB(a, x, y, &ra, &ga, &ba);
Image_getRGB(b, x, y, &rb, &gb, &bb);
Image_getRGB(c, cx, cy, &rc, &gc, &bc);
rv = (ra * rb) + (rc * (256-rb));
gv = (ga * gb) + (gc * (256-gb));
bv = (ba * bb) + (bc * (256-bb));
(d->Rpix[y])[x] = rv/256;
(d->Gpix[y])[x] = gv/256;
(d->Bpix[y])[x] = bv/256;
}
}
return FUNC_IS_ALPHA;
}
/*::------------------------------------------------------------------::*/