libtthimage/Lib/patterns4.c

246 lines
5.4 KiB
C
Raw Normal View History

2022-06-27 09:48:18 +11:00
/*
patterns4.c
------------------
some random noises
see also 'patterns.c' & 'patterns2.c'
*/
#include <stdio.h>
#include <stdlib.h>
#include "../tthimage.h"
/*::------------------------------------------------------------------::*/
/*
* bruit monochrome
*/
int
Image_gray_noise_0(Image_Desc *dst, int low, int high)
{
int x, y, v, delta;
delta = high - low;
2023-09-19 00:29:40 +11:00
if (0 == delta) {
fprintf(stderr, "%s: bad low/high parameters %d %d <- delta is 0\n",
__func__, low, high);
return DIVISOR_IS_ZERO;
}
2022-06-27 09:48:18 +11:00
for (x=0; x<dst->width; x++)
{
for (y=0; y<dst->height; y++)
{
v = (rand() % delta) + low;
(dst->Rpix[y])[x] = v;
(dst->Gpix[y])[x] = v;
(dst->Bpix[y])[x] = v;
}
}
return OLL_KORRECT;
}
/*::------------------------------------------------------------------::*/
int
Image_rgb_noise_0(Image_Desc *dst, int low, int high)
{
int x, y, r, g, b, delta;
delta = high - low;
2023-09-19 00:29:40 +11:00
if (0 == delta) {
fprintf(stderr, "%s: bad low/high parameters %d %d <- delta is 0\n",
__func__, low, high);
return DIVISOR_IS_ZERO;
}
2022-06-27 09:48:18 +11:00
for (x=0; x<dst->width; x++)
{
for (y=0; y<dst->height; y++)
{
r = (rand() % delta) + low;
g = (rand() % delta) + low;
b = (rand() % delta) + low;
(dst->Rpix[y])[x] = r;
(dst->Gpix[y])[x] = g;
(dst->Bpix[y])[x] = b;
}
}
return OLL_KORRECT;
}
/*::------------------------------------------------------------------::*/
int
Image_rgba_noise_0(Image_Desc *dst, int low, int high)
{
int x, y, r, g, b, a, delta;
if (dst->type != IMAGE_RGBA)
{
fprintf(stderr, "RGBA noise 0: image is not RGBA (%d)\n", dst->type);
return IMAGE_BAD_TYPE;
}
if (dst->Apix == NULL)
{
fprintf(stderr, "RGBA noise 0: %p: no alpha buffer ?\n", dst);
return NO_ALPHA_CHANNEL;
}
delta = high - low;
for (x=0; x<dst->width; x++)
{
for (y=0; y<dst->height; y++)
{
r = (rand() % delta) + low;
g = (rand() % delta) + low;
b = (rand() % delta) + low;
a = (rand() % delta) + low;
Image_plotRGBA(dst, x, y, r, g, b, a);
}
}
return FUNC_IS_BETA;
}
/*::------------------------------------------------------------------::*/
/* new 21 mars 2002 - need more doc
*/
int
Image_rgb_noise_1(Image_Desc *dst, RGBA *low, RGBA *high)
{
int minr, ming, minb;
int maxr, maxg, maxb;
int dltr, dltg, dltb;
int x, y, r, g, b;
#if DEBUG_LEVEL
Image_print_rgba("rgb noise 1: low", low, 0);
Image_print_rgba("rgb noise 1: high", high, 0);
#endif
minr = (low->r < high->r) ? low->r : high->r;
ming = (low->g < high->g) ? low->g : high->g;
minb = (low->b < high->b) ? low->b : high->b;
maxr = (low->r > high->r) ? low->r : high->r;
maxg = (low->g > high->g) ? low->g : high->g;
maxb = (low->b > high->b) ? low->b : high->b;
dltr = maxr - minr;
dltg = maxg - ming;
dltb = maxb - minb;
#if DEBUG_LEVEL
printf("\n");
printf("rgb noise 1: min %3d %3d %3d\n", minr, ming, minb);
printf("rgb noise 1: max %3d %3d %3d\n", maxr, maxg, maxb);
printf("rgb noise 1: delta %3d %3d %3d\n", dltr, dltg, dltb);
#endif
if ( dltr==0 || dltg==0 || dltb==0 )
{
fprintf(stderr, "Rgb noise 1: a delta is zero...\n");
return DIVISOR_IS_ZERO;
}
for (x=0; x<dst->width; x++)
{
for (y=0; y<dst->height; y++)
{
r = (rand() % dltr) + minr;
g = (rand() % dltg) + ming;
b = (rand() % dltb) + minb;
(dst->Rpix[y])[x] = r;
(dst->Gpix[y])[x] = g;
(dst->Bpix[y])[x] = b;
}
}
return OLL_KORRECT;
}
/*::------------------------------------------------------------------::*/
/*
* pour avoir une courbe de r<EFBFBD>partition en cloche, j'utilise
* l'algo du "lancement de deux d<>s", mais ce n'est probablement
* pas tr<EFBFBD>s rigoureux :)
*/
int
Image_gray_noise_2(Image_Desc *dst, int low, int high)
{
int x, y, v, delta;
delta = (high - low) / 2;
#if DEBUG_LEVEL
fprintf(stderr, "Gray noise 2: low=%d high=%d delta=%d\n", low, high, delta);
#endif
for (x=0; x<dst->width; x++)
{
for (y=0; y<dst->height; y++)
{
v = (rand()%delta) + (rand()%delta) + low;
(dst->Rpix[y])[x] = v;
(dst->Gpix[y])[x] = v;
(dst->Bpix[y])[x] = v;
}
}
return FUNC_IS_BETA;
}
/*::------------------------------------------------------------------::*/
/*
* hop, clonage du commentaire de la func du dessus :)
*
* pour avoir une courbe de r<EFBFBD>partition en cloche, j'utilise
* l'algo du "lancement de deux d<>s", mais ce n'est probablement
* pas tr<EFBFBD>s rigoureux :)
*/
int
Image_rgb_noise_2(Image_Desc *dst, RGBA *low, RGBA *high)
{
int x, y, r, g, b;
int minr, ming, minb;
int maxr, maxg, maxb;
int dltr, dltg, dltb;
#if DEBUG_LEVEL
Image_print_rgba("rgb noise 2: low", low, 0);
Image_print_rgba("rgb noise 2: high", high, 0);
#endif
minr = (low->r < high->r) ? low->r : high->r;
ming = (low->g < high->g) ? low->g : high->g;
minb = (low->b < high->b) ? low->b : high->b;
maxr = (low->r > high->r) ? low->r : high->r;
maxg = (low->g > high->g) ? low->g : high->g;
maxb = (low->b > high->b) ? low->b : high->b;
dltr = maxr - minr;
dltg = maxg - ming;
dltb = maxb - minb;
#if DEBUG_LEVEL
printf("\n");
printf("rgb noise 2: min %3d %3d %3d\n", minr, ming, minb);
printf("rgb noise 2: max %3d %3d %3d\n", maxr, maxg, maxb);
printf("rgb noise 2: delta %3d %3d %3d\n", dltr, dltg, dltb);
#endif
for (x=0; x<dst->width; x++)
{
for (y=0; y<dst->height; y++)
{
r = (rand()%dltr) + (rand()%dltr) + minr;
g = (rand()%dltg) + (rand()%dltg) + ming;
b = (rand()%dltb) + (rand()%dltb) + minb;
(dst->Rpix[y])[x] = r;
(dst->Gpix[y])[x] = g;
(dst->Bpix[y])[x] = b;
}
}
return FUNC_IS_BETA;
}
/*::------------------------------------------------------------------::*/