/* * FONDERIE */ #include #include #include #include #include #include #include "../floatimg.h" #include "fifo.h" #include "glitches.h" #include "crapulator.h" #include "filterstack.h" int verbosity; /* -------------------------------------------------------------- */ /* * this is the real worker ? or just a wrapper ? */ int traite_une_image(FloatImg *image, char *outd) { static int numero; int foo; char ligne[200]; #if DEBUG_LEVEL fprintf(stderr, "\n>>> %s ( %p '%s' )\n", __func__, image, outd); #endif /* here, we put the picz in the fifo machinery */ foo = insert_picture(image); if (foo) { fprintf(stderr, "%s: err %d on insert\n", __func__, foo); return foo; } /* and now, we pull the result on the magic computation */ sprintf(ligne, "%s/%05d.png", outd, numero); if (verbosity > 1) fprintf(stderr, " exporting to '%s'\n", ligne); foo = export_fifo(ligne, 1); if (foo) { fprintf(stderr, "%s: err %d on export\n", __func__, foo); return foo; } numero++; /* VERY IMPORTANT :) */ return 0; } /* -------------------------------------------------------------- */ int insert_blank(FloatImg *image, int nbre, char *outd) { int idx, foo; #if DEBUG_LEVEL fprintf(stderr, ">>> %s ( %p %d '%s' )\n", __func__, image, nbre, outd); #endif fimg_clear(image); for (idx=0; idx>> %s ( '%s' -> '%s' %d )\n", __func__, pattern, outdir, szfifo); #endif (void)fimg_timer_set(0); memset(&globbuf, 0, sizeof(glob_t)); foo = glob(pattern, 0, NULL, &globbuf); if (foo) { fprintf(stderr, "glob (%s) failure %d\n", pattern, foo); exit(1); } fprintf(stderr, "glob '%s' -> %d, %d files found\n", pattern, foo, (int)globbuf.gl_pathc); /* get the size of the inputs images */ foo = fimg_fileinfos(globbuf.gl_pathv[0], datas); width = datas[0]; height = datas[1]; fprintf(stderr, "first image size %dx%d\n", width, height); fimg_create(&input, width, height, 3); /* get the maximum value of the first pic */ foo = fimg_load_from_dump(globbuf.gl_pathv[0], &input); if (foo) { fprintf(stderr, "%s: err %d loading %s\n", __func__, foo, globbuf.gl_pathv[0]); exit(1); } maxvalue = fimg_get_maxvalue(&input); fprintf(stderr, "first image maxvalue %f\n", maxvalue); foo = create_fifo(szfifo, width, height, FIMG_TYPE_RGB); fprintf(stderr, "init fifo (%d slots) --> %d\n", szfifo, foo); /* XXX inject a few strange pics in the fifo */ insert_blank(&input, blk, outdir); for (idx=0; idx %d\n", idx, foo); continue; } /* fscking input filter here */ foo = filterstack_run(0, &input, 0); if (foo) { fprintf(stderr, "%s: input filter -> %d\n", __func__, foo); exit(1); } #if 0 if (idx==42) fimg_dump_to_file(&input, "inputXXX.fimg", 0); #endif foo = traite_une_image(&input, outdir); if (foo) { fprintf(stderr, "traitement %s -> %d WTF?\n", cptr, foo); break; } fprintf(stderr, "\t%5d / %5d\r", idx, (int)globbuf.gl_pathc); } fputs("\n", stderr); insert_blank(&input, blk, outdir); /* * PLEASE, FLUSH THE FIFO ! */ fin = fimg_timer_get(0); if (idx) { fprintf(stderr, "\nelapsed %.2f seconds, %.2f s/pic\n", fin, fin/idx); } else { fprintf(stderr, "\nelapsed %.2f seconds\n", fin); } return 8; /* why 9 ? */ } /* -------------------------------------------------------------- */ void help(void) { puts("\tFONDERIE\noptions:"); puts("\t-E\tinput:filter:chain"); puts("\t-F\toutput:filter:chain"); // puts("\t-g\tconvert to gray"); puts("\t-I\tinput glob pattern"); puts("\t-L\tlist available filters"); puts("\t-O\toutput directory"); puts("\t-T\tfifo size"); puts("\t-v\tincrease verbosity"); exit(0); } /* -------------------------------------------------------------- */ int main (int argc, char *argv[]) { int foo, opt; int fifosize = 10; char *in_pattern = "capture/?????.fimg"; char *out_dir = "p8"; int outfmt = FILE_TYPE_PNG; int blanks = 20; char *InFchain = "none"; char *OutFchain = "none"; fprintf(stderr, "*** %s\n\tcompiled %s, %s, pid %d\n", argv[0], __DATE__, __TIME__, getpid()); fimg_print_version(2); while ((opt = getopt(argc, argv, "B:E:F:ghI:LO:T:vw:x:")) != -1) { switch(opt) { case 'E': InFchain = optarg; break; case 'F': OutFchain = optarg; break; case 'B': blanks = atoi(optarg); break; case 'g': // convert_to_gray = 1; break; case 'h': help(); break; case 'I': in_pattern = optarg; break; case 'L': list_crapulors("available filters"); exit(0); case 'O': out_dir = optarg; break; case 'T': fifosize = atoi(optarg); break; case 'v': verbosity++; break; } } if (verbosity) { fprintf(stderr, "\tinput glob '%s'\n", in_pattern); fprintf(stderr, "\toutput dir '%s'\n", out_dir); fprintf(stderr, "\tsrc filter '%s'\n", InFchain); fprintf(stderr, "\tout filter '%s'\n", OutFchain); } foo = parse_filter_chain(0, InFchain); if (foo) { fprintf(stderr, "err %d parsing '%s'\n", foo, InFchain); exit(1); } foo = parse_filter_chain(1, OutFchain); if (foo) { fprintf(stderr, "err %d parsing '%s'\n", foo, OutFchain); exit(1); } if (verbosity > 1) { filterstack_list(0, "input"); filterstack_list(1, "ouput"); fprintf(stderr, ".\n"); } foo = demarre_la_machine(in_pattern, out_dir, fifosize, outfmt, blanks); fprintf(stderr, "retour du big-run de la machine -> %d\n", foo); return 0; } /* -------------------------------------------------------------- */