FloatImg4PythonBinding/Fonderie/fonctions.c

/*
 *	Fonctions de la Fonderie du Cumul
 *	~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 *	Du code bien cracra / tTh / Tetalab
 */
#include  <stdio.h>
#include  <string.h>
#include  <stdlib.h>
#include  <malloc.h>

#include  <floatimg.h>

#include  "fonctions.h"
#include  "crapulator.h"

/* -------------------------------------------------------------- */
/*	global vars from main
 */
extern	int		verbosity;

/*	private vars of this module - it was very dirty
 */
static	A_Fifo		g_fifo;

/* -------------------------------------------------------------- */
static int big_adder(FloatImg *from, FloatImg *to)
{
int		size, idx;

size = from->width * from->height;

for (idx=0; idx<size; idx++)		to->R[idx] += from->R[idx];
for (idx=0; idx<size; idx++)		to->G[idx] += from->G[idx];
for (idx=0; idx<size; idx++)		to->B[idx] += from->B[idx];

return 0;
}
/* -------------------------------------------------------------- */
/*
 *	97% of the total run time was in that function \o_
 */
int faire_la_somme(A_Fifo *pfifo, FloatImg *destination, int step)
{
int		idx, foo;
FloatImg	*pdest;

if (NULL==destination) {
	pdest = &(pfifo->total);		}
else	{
	pdest = destination;			}

fimg_clear(pdest);
for (idx=0; idx<pfifo->nbslots; idx += step) {
	/***************************************
	 *    Here was the giant bootleneck    *
	 ***************************************/
	// HERE -> foo = fimg_add_2(&(pfifo->slots[idx]), pdest);
	foo = big_adder(&(pfifo->slots[idx]), pdest);
	if (foo)
		{
		fprintf(stderr, "%s: err %d on add_2\n", __func__, foo);
		abort();
		}
	}

return 0;
}
/* -------------------------------------------------------------- */
/* -------------------------------------------------------------- */
/*
 *	this func save the fifo content as
 *	  - float     FIMG
 *	  - 16 bits   PNM
 *	  - 8 bits    PNG
 */
int export_fifo(char *fname, int postproc, int step)
{
int		foo, type;

foo = faire_la_somme(&g_fifo, NULL, step);

/* BEGIN GRUIK CODE */
extern int	convert_to_gray;
/* END OF THE KLUGE */
if (convert_to_gray) {
	fimg_to_gray(&g_fifo.total);
	// fprintf(stderr, "%p gray-washed\n", &fifo.total);
	}

foo = crapulator(&g_fifo.total, postproc, 0.0);
if (foo) {
	fprintf(stderr, "%s: ERR post process picture -> %d\n",
				__func__, foo);
	return foo;
	}

type = format_from_extension(fname);
switch (type) {
	case FILE_TYPE_PNG:
		foo = fimg_save_as_png(&g_fifo.total, fname, 0);
		break;
	case FILE_TYPE_PNM:
		foo = fimg_save_as_pnm(&g_fifo.total, fname, 0);
		break;
	case FILE_TYPE_FIMG:
		foo = fimg_dump_to_file(&g_fifo.total, fname, 0);
		break;
	default:
		fprintf(stderr, "%s : type of '%s' unknow\n",
				__func__, 	fname);
		foo = 888;
		break;
	}

if (foo) {
	fprintf(stderr, "ERR EXPORT '%s' is %d\n", fname, foo);
	exit(3);
	}

return 0;
}
/* -------------------------------------------------------------- */
int insert_picture(FloatImg *src)
{
FloatImg	*dst;
int		nbre;

/*
 * this is the where we can insert the 'input filter'
 */

dst = &g_fifo.slots[g_fifo.next];

nbre = dst->width * dst->height * dst->type;
memcpy(dst->R, src->R, nbre*sizeof(float));

g_fifo.next++,  g_fifo.next %= g_fifo.nbslots;
// maybe we can write :
//	(++fifo.next) %= fifo.nbslots;

if (verbosity > 2) fprintf(stderr, "%s : next slot %d\n",
				__func__, g_fifo.next);

return 0;
}
/* -------------------------------------------------------------- */
int create_fifo(int nbslot, int w, int h, int t)
{
int		foo, idx;

#if DEBUG_LEVEL
fprintf(stderr, ">>> %s ( %d  %dx%d  %d )\n", __func__,
			nbslot, w, h, t);
#endif

memset(&g_fifo, 0, sizeof(A_Fifo));

g_fifo.nbslots = nbslot;

g_fifo.slots = calloc(nbslot, sizeof(FloatImg));
if (NULL==g_fifo.slots)	abort();
for (idx=0; idx<nbslot; idx++) {
	foo = fimg_create(&g_fifo.slots[idx], w, h, t);
	if (foo) {
		fprintf(stderr, "%s idx %d err%d\n", __func__, idx, foo);
		return foo;
		}
	}
foo = fimg_create(&g_fifo.total, w, h, t);
g_fifo.next = 0;
g_fifo.magic = MAGIC_FIFO;

return 0;
}
/* -------------------------------------------------------------- */