FloatImg4PythonBinding/Fonderie/glitches.c

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/*
* glitches.c
* ----------
*
* initially developped for the interpolator
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*/
#include <stdio.h>
#include <stdlib.h>
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#include <string.h>
#include <math.h>
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#include "../floatimg.h"
#include "glitches.h"
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extern int verbosity;
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/* -------------------------------------------------------------- */
/* nouveau du 32 decembre 2020, endless september */
int do_something(FloatImg *pimg, int notused)
{
int ypos, idx, pos, sline;
#if DEBUG_LEVEL
fprintf(stderr, ">>> %s ( %p %d )\n", __func__, pimg, notused);
#endif
ypos = rand() % pimg->width;
for (idx=0; idx < pimg->height; idx++) {
sline = idx * pimg->width;
pos = sline + ypos;
// fprintf(stderr, "%6d %6d\n", idx, sline);
pimg->R[pos] = pimg->G[pos];
pimg->B[pos] = pimg->G[pos];
}
return 0;
}
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/* -------------------------------------------------------------- */
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int kill_a_random_line(FloatImg *pvictime, float fval, int bits)
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{
int line, xpos, offset;
float ftmp;
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#if DEBUG_LEVEL
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fprintf(stderr, ">>> %s ( %p %d )\n", __func__, pvictime, bits);
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#endif
line = rand() % pvictime->height;
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if (verbosity > 2) {
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fprintf(stderr, "%s: try to kill line %d\n", __func__, line);
}
offset = pvictime->width * line;
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for (xpos=0; xpos<pvictime->width; xpos++) {
if (bits & 1) { ftmp = pvictime->R[offset+xpos] * fval;
pvictime->R[offset+xpos] = sqrt(ftmp); }
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else pvictime->R[offset+xpos] = 0.0;
if (bits & 2) { ftmp = pvictime->G[offset+xpos] * fval;
pvictime->G[offset+xpos] = sqrt(ftmp); }
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else pvictime->G[offset+xpos] = 0.0;
if (bits & 4) { ftmp = pvictime->B[offset+xpos] * fval;
pvictime->B[offset+xpos] = sqrt(ftmp); }
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else pvictime->B[offset+xpos] = 0.0;
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}
return 0;
}
/* -------------------------------------------------------------- */
int kill_a_few_lines(FloatImg *who, float fval, int number)
{
int idx, foo;
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#if DEBUG_LEVEL
fprintf(stderr, ">>> %s ( %p %f %d )\n", __func__, who, fval, number);
#endif
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/* Frag the pixels */
for (idx=0; idx<number; idx++) {
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foo = kill_a_random_line(who, fval, rand() & 0x07);
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if (foo) abort();
}
return foo;
}
/* -------------------------------------------------------------- */
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int un_petit_flou_8x8(FloatImg *picture, int xpos, int ypos)
{
float sr, sg, sb;
int x, y, off;
/*
* please add boundary check ?
*/
sr = sg = sb = 0.0;
for (y=0; y<8; y++) {
off = xpos + (picture->width * (y+ypos));
for (x=0; x<8; x++) {
sr += picture->R[off];
sg += picture->G[off];
sb += picture->B[off];
off++;
}
}
sr /= 64.0; sg /= 64.0; sb /= 64.0;
for (y=0; y<8; y++) {
off = xpos + (picture->width * (y+ypos));
for (x=0; x<8; x++) {
picture->R[off] = sr;
picture->G[off] = sg;
picture->B[off] = sb;
off++;
}
}
return 0;
}
/* -------------------------------------------------------------- */
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int random_blocks(FloatImg *picture, int percent)
{
int x, y;
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if ( (picture->width%16) || (picture->height%16) )
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{
fprintf(stderr, "%s: %d%d bad dims\n", __func__,
picture->width, picture->height);
}
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for (y=0; y<picture->height; y+=16) {
for (x=0; x<picture->width; x+=16) {
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if (percent < (rand()%100) ) {
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un_petit_flou_8x8(picture, x, y);
un_petit_flou_8x8(picture, x+8, y);
un_petit_flou_8x8(picture, x, y+8);
un_petit_flou_8x8(picture, x+8, y+8);
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}
}
}
return 0;
}
/* -------------------------------------------------------------- */
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int un_moyen_flou_8x8(FloatImg *picture, int xpos, int ypos)
{
int i, j, x, y;
/*
* please add boundary check ?
*/
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for (i=y=0; i<8; i++, y+=8) {
for (j=x=0; j<8; j++, x+=8 ) {
un_petit_flou_8x8(picture, x+xpos, y+ypos);
}
}
return 0;
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}
/* -------------------------------------------------------------- */
int poke_a_random_pixel(FloatImg *picz, float fval, int kaboo)
{
return -1;
}
/* -------------------------------------------------------------- */
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/*
* used by vertical_singlitch()
*/
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static int x_delta(float dy, float phy)
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{
float param, fv;
param = dy + phy;
fv = 9.999*sin(param) + 6.666*sin(param*3) + 3.333*sin(param*5);
return (int)fv;
}
/* -------------------------------------------------------------- */
/*
* please explain arguments
*/
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int vertical_singlitch(FloatImg *picz, int xpos, float fval,
float omega, float phi)
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{
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int y, x, w, h;
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float dy;
float fv;
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#if DEBUG_LEVEL
fprintf(stderr, ">>> %s ( %p %d %f %f )\n", __func__, picz,
xpos, omega, phi);
#endif
h = picz->height; w = picz->width;
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#define BB 4
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for (y=BB; y<h-BB; y++) {
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dy = (float)y * omega; /* normalize vertical position */
x = xpos + x_delta(dy, phi); /* add sinus deviation */
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/* compute bounding box */
if ( (x>BB) && (x<w-BB) ) {
/* an make the glitch */
fimg_plot_rgb(picz, x, y, fval, fval, fval);
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fv = fval / 3.0;
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if (rand() & 8)
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fimg_plot_rgb(picz, x-1, y, fv, fv, fv);
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if (rand() & 8)
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fimg_plot_rgb(picz, x+1, y, fv, fv, fv);
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}
}
return 0;
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}
/* -------------------------------------------------------------- */
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static void shifter(float *fs, float *fd, int w, int nbr)
{
int krkr;
for (krkr=0; krkr<nbr; krkr++) {
fd[krkr] = fs[(krkr+w)%nbr];
}
/* take your sixpack, film at 11 */
}
int multilines_shift_0(FloatImg *picz, int step, int nombre)
{
float *buffline, *sptr;
int idx, ypos;
#if DEBUG_LEVEL
fprintf(stderr, ">>> %s ( %p %d %d )\n", __func__, picz, step, nombre);
#endif
buffline = alloca(picz->width * sizeof(float));
if (NULL==buffline) {
fprintf(stderr, "%s: memory panic\n", __func__);
abort();
}
for (idx=0; idx<nombre; idx++) {
ypos = rand() % picz->height;
sptr = picz->R + (ypos * picz->width);
shifter(sptr, buffline, step, picz->width);
memcpy(sptr, buffline, picz->width*sizeof(float));
sptr = picz->G + (ypos * picz->width);
shifter(sptr, buffline, step, picz->width);
memcpy(sptr, buffline, picz->width*sizeof(float));
sptr = picz->B + (ypos * picz->width);
shifter(sptr, buffline, step, picz->width);
memcpy(sptr, buffline, picz->width*sizeof(float));
}
return 0;
}
/* -------------------------------------------------------------- */
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