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/*
FLAM3 - cosmic recursive fractal flames
Copyright (C) 1992-2009 Spotworks LLC
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "private.h"
#include "img.h"
#include "isaacs.h"
int main(int argc, char **argv) {
char *ai, *fname;
char flamename[256];
char *prefix = args("prefix", "");
int first_frame = argi("begin", 0);
int last_frame = argi("end", 0);
int frame_time = argi("time", 0);
int dtime = argi("dtime", 1);
int do_fields = argi("fields", 0);
int write_genome = argi("write_genome",0);
double qs = argf("qs", 1.0);
double ss = argf("ss", 1.0);
char *format = getenv("format");
int verbose = argi("verbose", 1);
int transparency = argi("transparency", 0);
int bits = argi("bits", 33);
int sub_batch_size = argi("sub_batch_size", 10000);
int bpc = argi("bpc",8);
int earlyclip = argi("earlyclip",0);
int ftime, channels;
unsigned char *image;
flam3_genome *cps,center_cp;
int i, ncps = 0;
char *inf = getenv("in");
double pixel_aspect = argf("pixel_aspect", 1.0);
int num_threads = argi("nthreads",0);
FILE *in,*fp,*genfp;
flam3_frame f;
flam3_img_comments fpc;
stat_struct stats,stats2;
char badval_string[64];
char numiter_string[64];
char rtime_string[64];
#ifdef WIN32
char *slashloc;
char exepath[256];
char palpath[256];
memset(exepath,0,256);
memset(palpath,0,256);
slashloc = strrchr(argv[0],'\\');
if (NULL==slashloc) {
sprintf(palpath,"flam3_palettes=flam3-palettes.xml");
} else {
strncpy(exepath,argv[0],slashloc-argv[0]+1);
sprintf(palpath,"flam3_palettes=%sflam3-palettes.xml",exepath);
}
putenv(palpath);
#endif
memset(¢er_cp,0, sizeof(flam3_genome));
if (1 != argc) {
docstring();
exit(0);
}
/* Init random number generators */
flam3_init_frame(&f);
flam3_srandom();
/* Set the number of threads */
if (num_threads==0) {
num_threads = flam3_count_nthreads();
if (verbose > 1)
fprintf(stderr,"Automatically detected %d core(s)...\n",num_threads);
} else{
if (verbose)
fprintf(stderr,"Manually specified %d thread(s)...\n",num_threads);
}
if (getenv("frame")) {
if (getenv("time")) {
fprintf(stderr, "cannot specify both time and frame.\n");
exit(1);
}
if (getenv("begin") || getenv("end")) {
fprintf(stderr, "cannot specify both frame and begin or end.\n");
exit(1);
}
first_frame = last_frame = atoi(getenv("frame"));
}
if (getenv("time")) {
if (getenv("begin") || getenv("end")) {
fprintf(stderr, "cannot specify both time and begin or end.\n");
exit(1);
}
first_frame = last_frame = frame_time;
}
if (NULL == format) format = "png";
if (strcmp(format, "jpg") &&
strcmp(format, "ppm") &&
strcmp(format, "png")) {
fprintf(stderr, "format must be either jpg, ppm, or png, not %s.\n", format);
exit(1);
}
if (pixel_aspect <= 0.0) {
fprintf(stderr, "pixel aspect ratio must be positive, not %g.\n",
pixel_aspect);
exit(1);
}
if (inf)
in = fopen(inf, "rb");
else
in = stdin;
if (NULL == in) {
perror(inf);
exit(1);
}
cps = flam3_parse_from_file(in, inf, flam3_defaults_on, &ncps);
if (inf)
fclose(in);
if (NULL == cps) {
fprintf(stderr," error reading genomes.\n");
exit(1);
}
if (0 == ncps) {
fprintf(stderr, "error: no genomes.\n");
exit(1);
}
for (i = 0; i < ncps; i++) {
cps[i].sample_density *= qs;
cps[i].height = (int)(cps[i].height * ss);
cps[i].width = (int)(cps[i].width * ss);
cps[i].pixels_per_unit *= ss;
if (cps[i].height<=0 || cps[i].width<=0) {
fprintf(stderr,"output image has dimension <=0, aborting.\n");
exit(1);
}
if (i > 0 && cps[i].time <= cps[i-1].time) {
fprintf(stderr, "error: control points must be sorted by time, but %g <= %g, index %d.\n",
cps[i].time, cps[i-1].time, i);
exit(1);
}
if ((cps[i].width != cps[0].width) ||
(cps[i].height != cps[0].height)) {
fprintf(stderr, "warning: flame %d at time %g size mismatch. "
"(%d,%d) should be (%d,%d).\n",
i, cps[i].time,
cps[i].width, cps[i].height,
cps[0].width, cps[0].height);
cps[i].width = cps[0].width;
cps[i].height = cps[0].height;
}
}
if (!getenv("time") && !getenv("frame")) {
if (!getenv("begin")) {
first_frame = (int) cps[0].time;
}
if (!getenv("end")) {
last_frame = (int) cps[ncps-1].time - 1;
if (last_frame < first_frame) last_frame = first_frame;
}
}
channels = strcmp(format, "png") ? 3 : 4;
/* Check for 16-bit-per-channel processing */
if ( (16 == bpc) && (strcmp(format,"png") != 0)) {
fprintf(stderr,"Support for 16 bpc images is only present for the png format.\n");
exit(1);
} else if (bpc != 8 && bpc != 16) {
fprintf(stderr,"Unexpected bpc specified (%d)\n",bpc);
exit(1);
}
// f.temporal_filter_radius = argf("blur", 0.5);
f.pixel_aspect_ratio = pixel_aspect;
f.genomes = cps;
f.ngenomes = ncps;
f.verbose = verbose;
f.bits = bits;
f.progress = 0;
f.earlyclip = earlyclip;
f.nthreads = num_threads;
f.sub_batch_size = sub_batch_size;
if (16==bpc)
f.bytes_per_channel = 2;
else
f.bytes_per_channel = 1;
image = (void *) malloc((size_t)channels *
(size_t)cps[0].width *
(size_t)cps[0].height * f.bytes_per_channel);
if (dtime < 1) {
fprintf(stderr, "dtime must be positive, not %d.\n", dtime);
exit(1);
}
for (ftime = first_frame; ftime <= last_frame; ftime += dtime) {
f.time = (double) ftime;
if (verbose && ((last_frame-first_frame)/dtime) >= 1) {
fprintf(stderr, "time = %d/%d/%d\n", ftime, last_frame, dtime);
}
if (do_fields) {
if (flam3_render(&f, image, flam3_field_even, channels, transparency,&stats)) {
fprintf(stderr,"error rendering image: aborting.\n");
exit(1);
}
f.time += 0.5;
if (flam3_render(&f, image, flam3_field_odd, channels, transparency,&stats2)) {
fprintf(stderr,"error rendering image: aborting.\n");
exit(1);
}
stats.badvals+=stats2.badvals;
stats.render_seconds+=stats2.render_seconds;
stats.num_iters+=stats2.num_iters;
} else {
if (flam3_render(&f, image, flam3_field_both, channels, transparency,&stats)) {
fprintf(stderr,"error rendering image: aborting.\n");
exit(1);
}
}
if (getenv("out"))
fname = getenv("out");
else {
fname = malloc(strlen(prefix) + 20);
sprintf(fname, "%s%05d.%s", prefix, ftime, format);
}
if (verbose)
fprintf(stderr, "writing %s...", fname);
if (write_genome) {
sprintf(flamename,"%s.flam3",fname);
/* get center genome */
flam3_interpolate(f.genomes, f.ngenomes, f.time, 0, ¢er_cp);
/* write it out */
genfp = fopen(flamename,"w");
if (NULL == genfp) {
perror(flamename);
exit(1);
}
flam3_print(genfp, ¢er_cp, NULL, flam3_print_edits);
fclose(genfp);
}
fp = fopen(fname, "wb");
if (NULL == fp) {
perror(fname);
exit(1);
}
/* Get center cp for embedding in png file */
flam3_interpolate(f.genomes, f.ngenomes, f.time, 0, ¢er_cp);
/* Convert to string */
fpc.genome = flam3_print_to_string(¢er_cp);
sprintf(badval_string, "%g",stats.badvals/(double)stats.num_iters);
fpc.badvals = badval_string;
sprintf(numiter_string,"%g",(double)stats.num_iters);
fpc.numiters = numiter_string;
sprintf(rtime_string,"%d",stats.render_seconds);
fpc.rtime = rtime_string;
if (!strcmp(format, "png")) {
write_png(fp, image, cps[0].width, cps[0].height, &fpc, 1);
} else if (!strcmp(format, "jpg")) {
write_jpeg(fp, image, cps[0].width, cps[0].height, &fpc);
} else {
int size = 3 * cps[0].width * cps[0].height;
fprintf(fp, "P6\n");
fprintf(fp, "%d %d\n255\n", cps[0].width, cps[0].height);
if (size != fwrite(image, 1, size, fp)) {
perror(fname);
}
}
/* Free string */
free(fpc.genome);
clear_cp(¢er_cp,0);
fclose(fp);
if (!getenv("out"))
free(fname);
}
for (i = 0; i < ncps; i++) {
xmlFreeDoc(cps[i].edits);
clear_cp(&cps[i],0);
}
free(cps);
free(image);
if (verbose)
fprintf(stderr, "done.\n");
fflush(stderr);
return 0;
}
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