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|
/*
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 <assert.h>
#include <string.h>
#include <stdbool.h>
#include <stdlib.h>
#include <unistd.h>
#include <argp.h>
#include "random.h"
#include "img.h"
#include "rect.h"
#include "math.h"
#include "genome.h"
#include "palettes_builtin.h"
#define streq(a,b) (strcmp (a, b) == 0)
const char *argp_program_version = PACKAGE "-" VERSION;
typedef struct {
unsigned int bpc, width, height;
float scale, time;
char *cache;
} render_arguments;
static error_t parse_render_opt (int key, char *arg,
struct argp_state * const state) {
render_arguments * const arguments = state->input;
switch (key) {
case 'b': {
int i = atoi (arg);
if (i == 8 || i == 16) {
arguments->bpc = i;
} else {
argp_error (state, "Bits per channel must be 8 or 16");
}
break;
}
case 't': {
float i = atof (arg);
if (i <= 0) {
argp_error (state, "Time must be > 0");
} else {
arguments->time = i;
}
break;
}
case 's':
if (arguments->width != 0 || arguments->height != 0) {
argp_error (state, "scale, width and height are mutually "
"exclusive");
}
arguments->scale = atof (arg);
if (arguments->scale <= 0.0) {
argp_error (state, "Scale must be > 0");
}
break;
case 'w': {
if (arguments->scale != 1.0 || arguments->height != 0) {
argp_error (state, "scale, width and height are mutually "
"exclusive");
}
int i = atoi (arg);
if (i <= 0) {
argp_error (state, "width must be > 0");
}
arguments->width = i;
break;
}
case 'h': {
if (arguments->scale != 1.0 || arguments->width != 0) {
argp_error (state, "scale, width and height are mutually "
"exclusive");
}
int i = atoi (arg);
if (i <= 0) {
argp_error (state, "height must be > 0");
}
arguments->height = i;
break;
}
case 'c':
arguments->cache = strdup (arg);
break;
case ARGP_KEY_ARG:
if (state->arg_num > 0) {
return ARGP_ERR_UNKNOWN;
}
break;
case ARGP_KEY_END:
break;
default:
return ARGP_ERR_UNKNOWN;
break;
}
return 0;
}
static void do_render (const render_arguments * const arguments) {
randctx rc;
rand_seed(&rc);
int ncps;
flam3_genome * const cps = flam3_parse_xml2 (STDIN_FILENO,
flam3_defaults_on, &ncps, &rc);
if (cps == NULL) {
fprintf(stderr,"error reading genomes from file\n");
exit(1);
}
assert (ncps == 1);
flam3_genome * const genome = &cps[0];
float scale = arguments->scale;
if (arguments->width != 0) {
assert (scale == 1);
assert (arguments->height == 0);
scale = (float) arguments->width / (float) genome->width;
}
if (arguments->height != 0) {
assert (scale == 1);
assert (arguments->width == 0);
scale = (float) arguments->height / (float) genome->height;
}
genome->height *= scale;
genome->width *= scale;
genome->pixels_per_unit *= scale;
const unsigned int bytes_per_channel = arguments->bpc/8;
const unsigned int channels = 4;
const size_t this_size = channels * genome->width * genome->height *
bytes_per_channel;
void *image = (void *) calloc(this_size, sizeof(char));
bucket bucket;
bucket_init (&bucket, (uint2) { genome->width, genome->height });
if (arguments->cache != NULL) {
bucket_deserialize (&bucket, arguments->cache);
}
render_bucket (genome, &bucket, arguments->time);
if (arguments->cache != NULL) {
bucket_serialize (&bucket, arguments->cache);
}
fprintf (stderr, "%lu samples, %lu bad\n",
bucket.samples, bucket.badvals);
render_image (genome, &bucket, image, bytes_per_channel);
write_png (stdout, image, genome->width, genome->height,
bytes_per_channel);
}
static void print_genome (flam3_genome * const genome) {
printf("<pick version=\"" PACKAGE "-" VERSION "\">\n");
flam3_print (stdout, genome, NULL);
printf("</pick>\n");
}
typedef struct {
const char *palette;
unsigned int width, height, max_xforms, max_var;
signed int max_symmetry, min_symmetry;
double post_likelihood, final_likelihood, symmetry_likelihood;
} random_arguments;
static error_t parse_random_opt (int key, char *arg,
struct argp_state * const state) {
random_arguments * const arguments = state->input;
switch (key) {
case 'h': {
int i = atoi (arg);
if (i <= 0) {
argp_error (state, "Height must be > 0");
} else {
arguments->height = i;
}
break;
}
case 'w': {
int i = atoi (arg);
if (i <= 0) {
argp_error (state, "Width must be > 0");
} else {
arguments->width = i;
}
break;
}
case 'x': {
int i = atoi (arg);
if (i <= 0) {
argp_error (state, "Max xforms must be > 0");
} else {
arguments->max_xforms = i;
}
break;
}
case 'v': {
int i = atoi (arg);
if (i <= 0) {
argp_error (state, "Max variations must be > 0");
} else {
arguments->max_var = i;
}
break;
}
case ARGP_KEY_ARG:
if (state->arg_num > 0) {
return ARGP_ERR_UNKNOWN;
}
break;
case ARGP_KEY_END:
break;
default:
return ARGP_ERR_UNKNOWN;
break;
}
return 0;
}
#define GOLDEN_RATIO (1.618033988749894848204586834)
#define GOLDEN_RATIO_M1 (GOLDEN_RATIO-1.0)
#define GOLDEN_RATIO_DIV (GOLDEN_RATIO_M1/GOLDEN_RATIO)
static double golden_bit (randctx * const rc) {
return rand_bool (rc) ? GOLDEN_RATIO_DIV : GOLDEN_RATIO_M1;
}
static void adjust_bounding_box (flam3_genome * const genome, randctx * const rc) {
double bmin[2], bmax[2];
flam3_estimate_bounding_box(genome, 0.01, 100000, bmin, bmax, rc);
if (rand_d01(rc) < 0.3) {
genome->center[0] = (bmin[0] + bmax[0]) / 2.0;
genome->center[1] = (bmin[1] + bmax[1]) / 2.0;
} else {
double mix0, mix1;
if (rand_bool(rc)) {
mix0 = golden_bit(rc) + rand_d11(rc)/5;
mix1 = golden_bit(rc);
} else if (rand_bool(rc)) {
mix0 = golden_bit(rc);
mix1 = golden_bit(rc) + rand_d11(rc)/5;
} else {
mix0 = golden_bit(rc) + rand_d11(rc)/5;
mix1 = golden_bit(rc) + rand_d11(rc)/5;
}
genome->center[0] = mix0 * bmin[0] + (1-mix0)*bmax[0];
genome->center[1] = mix1 * bmin[1] + (1-mix1)*bmax[1];
}
const double zoomin = rand_d01 (rc) * 5;
genome->pixels_per_unit = genome->width / (bmax[0] - bmin[0]) * zoomin;
}
static void do_random (const random_arguments * const arguments) {
randctx rc;
rand_seed(&rc);
flam3_genome genome;
clear_cp (&genome,flam3_defaults_on);
genome.hue_rotation = rand_mod(&rc, 8) ? 0.0 : rand_d01(&rc);
const palette * const p = palette_random (&builtin_palettes, &rc);
assert (p != NULL);
palette_copy (p, &genome.palette);
palette_rotate_hue (&genome.palette, genome.hue_rotation);
genome.interpolation = flam3_interpolation_linear;
genome.rotate = rand_d01 (&rc) * 360.0;
unsigned int nxforms = rand_mod (&rc, arguments->max_xforms) + 1;
flam3_add_xforms(&genome,nxforms,0,0);
/* Add a final xform 15% of the time */
const bool add_final = rand_d01(&rc) < arguments->final_likelihood;
if (add_final) {
flam3_add_xforms(&genome,1,0,1);
++nxforms;
}
/* Loop over xforms */
assert (nxforms > 0);
for (unsigned int i = 0; i < nxforms; i++) {
flam3_xform * const xform = &genome.xform[i];
const bool add_post = rand_d01 (&rc) < arguments->post_likelihood;
xform_rand (xform, add_post, arguments->max_var, &rc);
xform->density = 1.0 / nxforms;
xform->animate = 1.0;
}
/* Randomly add symmetry (but not if we've already added a final xform) */
if (rand_d01(&rc) < arguments->symmetry_likelihood && !add_final) {
assert (arguments->max_symmetry >= arguments->min_symmetry);
unsigned int symrange = arguments->max_symmetry - arguments->min_symmetry + 1;
flam3_add_symmetry(&genome, rand_mod (&rc, symrange) + arguments->min_symmetry);
}
/* random resets genome, adjust before finding appropriate bbox */
genome.width = arguments->width;
genome.height = arguments->height;
adjust_bounding_box (&genome, &rc);
print_genome (&genome);
}
typedef struct {
int method;
unsigned int symmetry;
} mutate_arguments;
static error_t parse_mutate_opt (int key, char *arg,
struct argp_state * const state) {
mutate_arguments * const arguments = state->input;
switch (key) {
case 'm':
if (arg == NULL) {
arguments->method = MUTATE_NOT_SPECIFIED;
} else if (streq (arg, "all-vars")) {
arguments->method = MUTATE_ALL_VARIATIONS;
} else if (streq(arg,"one-xform")) {
arguments->method = MUTATE_ONE_XFORM_COEFS;
} else if (streq(arg,"add-symmetry")) {
arguments->method = MUTATE_ADD_SYMMETRY;
} else if (streq(arg,"post-xforms")) {
arguments->method = MUTATE_POST_XFORMS;
} else if (streq(arg,"color-palette")) {
arguments->method = MUTATE_COLOR_PALETTE;
} else if (streq(arg,"delete-xform")) {
arguments->method = MUTATE_DELETE_XFORM;
} else if (streq(arg,"all-coefs")) {
arguments->method = MUTATE_ALL_COEFS;
} else {
argp_error (state, "Unknown method %s", arg);
}
break;
case ARGP_KEY_ARG:
if (state->arg_num > 0) {
return ARGP_ERR_UNKNOWN;
}
break;
case ARGP_KEY_END:
break;
default:
return ARGP_ERR_UNKNOWN;
break;
}
return 0;
}
static void do_mutate (const mutate_arguments * const arguments) {
randctx rc;
rand_seed(&rc);
int ncps;
flam3_genome * const cps = flam3_parse_xml2 (STDIN_FILENO,
flam3_defaults_on, &ncps, &rc);
if (cps == NULL) {
fprintf(stderr,"error reading genomes from file\n");
exit(1);
}
assert (ncps == 1);
flam3_genome * const genome = &cps[0];
int ivars = 0;
const double speed = 1.0;
flam3_mutate (genome, arguments->method, &ivars, 1, arguments->symmetry,
speed, &builtin_palettes, &rc);
print_genome (genome);
}
typedef struct {
int method;
} cross_arguments;
static error_t parse_cross_opt (int key, char *arg,
struct argp_state * const state) {
mutate_arguments * const arguments = state->input;
switch (key) {
case 'm':
if (arg == NULL) {
arguments->method = CROSS_NOT_SPECIFIED;
} else if (streq(arg,"union")) {
arguments->method = CROSS_UNION;
} else if (streq(arg,"interpolate")) {
arguments->method = CROSS_INTERPOLATE;
} else if (streq(arg,"alternate")) {
arguments->method = CROSS_ALTERNATE;
} else {
argp_error (state, "Unknown method %s", arg);
}
break;
case ARGP_KEY_ARG:
if (state->arg_num > 0) {
return ARGP_ERR_UNKNOWN;
}
break;
case ARGP_KEY_END:
break;
default:
return ARGP_ERR_UNKNOWN;
break;
}
return 0;
}
static void do_cross (const cross_arguments * const arguments) {
randctx rc;
rand_seed(&rc);
int ncps;
flam3_genome * const cps = flam3_parse_xml2 (STDIN_FILENO,
flam3_defaults_on, &ncps, &rc);
if (cps == NULL) {
fprintf(stderr,"error reading genomes from file\n");
exit(1);
}
assert (ncps == 2);
flam3_genome * const genome_a = &cps[0], * const genome_b = &cps[1];
flam3_genome genome_out;
flam3_cross (genome_a, genome_b, &genome_out, arguments->method, &rc);
print_genome (&genome_out);
}
typedef struct {
unsigned int tries, resolution;
bool change_palette;
double time;
} improvecolors_arguments;
static error_t parse_improvecolors_opt (int key, char *arg,
struct argp_state * const state) {
improvecolors_arguments * const arguments = state->input;
return 0;
}
static void do_improvecolors (const improvecolors_arguments * const arguments) {
randctx rc;
rand_seed(&rc);
int ncps;
flam3_genome * const cps = flam3_parse_xml2 (STDIN_FILENO,
flam3_defaults_on, &ncps, &rc);
if (cps == NULL) {
fprintf(stderr,"error reading genomes from file\n");
exit(1);
}
assert (ncps == 1);
flam3_improve_colors (&cps[0], arguments->tries, arguments->change_palette,
arguments->resolution, arguments->time, &builtin_palettes, &rc);
print_genome (&cps[0]);
}
typedef struct {
float time;
} interpolate_arguments;
static error_t parse_interpolate_opt (int key, char *arg,
struct argp_state * const state) {
interpolate_arguments * const arguments = state->input;
switch (key) {
case 't': {
assert (arg != NULL);
float i = atof (arg);
if (i >= 0.0 && i <= 1.0) {
arguments->time = i;
} else {
argp_error (state, "Time must be between 0 and 1");
}
break;
}
case ARGP_KEY_ARG:
if (state->arg_num > 0) {
return ARGP_ERR_UNKNOWN;
}
break;
case ARGP_KEY_END:
break;
default:
return ARGP_ERR_UNKNOWN;
break;
}
return 0;
}
static void do_interpolate (const interpolate_arguments * const arguments) {
randctx rc;
rand_seed(&rc);
int ncps;
flam3_genome * const cps = flam3_parse_xml2 (STDIN_FILENO,
flam3_defaults_on, &ncps, &rc);
if (cps == NULL) {
fprintf(stderr,"error reading genomes from file\n");
exit(1);
}
assert (ncps == 2);
cps[0].time = 0.0;
cps[1].time = 1.0;
flam3_genome genome_out;
flam3_interpolate (cps, 2, arguments->time, 0, &genome_out);
print_genome (&genome_out);
}
static void show_help (const char * const argv0) {
const char *progname = strrchr (argv0, (int) '/');
if (progname == NULL) {
progname = argv0;
} else {
++progname;
}
fprintf (stderr,
"Usage: %s cross [OPTION...]\n"
" Or: %s improvecolors [OPTION...]\n"
" Or: %s interpolate [OPTION...]\n"
" Or: %s mutate [OPTION...]\n"
" Or: %s random [OPTION...]\n"
" Or: %s render [OPTION...]\n",
progname, progname, progname, progname, progname);
}
int main (int argc, char **argv) {
if (argc < 2) {
show_help (argv[0]);
return EXIT_FAILURE;
}
const char * const command = argv[1];
if (streq (command, "cross")) {
const struct argp_option options[] = {
{"method", 'm', "XXX", OPTION_ARG_OPTIONAL, "Cross method" },
{ 0 },
};
const char doc[] = PACKAGE "-cross -- a fractal flame renderer";
const struct argp argp = {
.options = options, .parser = parse_cross_opt,
.args_doc = NULL, .doc = doc, .children = NULL
};
cross_arguments arguments = {
.method = CROSS_NOT_SPECIFIED,
};
argp_parse (&argp, argc, argv, 0, NULL, &arguments);
do_cross (&arguments);
} else if (streq (command, "improvecolors")) {
const struct argp_option options[] = {
{ 0 },
};
const char doc[] = PACKAGE "-improvecolors -- improve flame colors";
const struct argp argp = {
.options = options, .parser = parse_improvecolors_opt,
.args_doc = NULL, .doc = doc, .children = NULL
};
improvecolors_arguments arguments = {
.tries = 100,
.resolution = 10,
.change_palette = true,
.time = 1.0,
};
argp_parse (&argp, argc, argv, 0, NULL, &arguments);
do_improvecolors (&arguments);
} else if (streq (command, "interpolate")) {
const struct argp_option options[] = {
{"time", 't', "float", OPTION_ARG_OPTIONAL, "Time step (0.5)" },
{ 0 },
};
const char doc[] = PACKAGE "-interpolate -- fractal flame interpolation";
const struct argp argp = {
.options = options, .parser = parse_interpolate_opt,
.args_doc = NULL, .doc = doc, .children = NULL
};
interpolate_arguments arguments = {
.time = 0.5,
};
argp_parse (&argp, argc, argv, 0, NULL, &arguments);
do_interpolate (&arguments);
#if 0
} else if (streq (command, "mutate")) {
const struct argp_option options[] = {
{"method", 'm', "XXX", OPTION_ARG_OPTIONAL, "Mutation method" },
{ 0 },
};
const char doc[] = PACKAGE "-mutate -- a fractal flame renderer";
const struct argp argp = {
.options = options, .parser = parse_mutate_opt,
.args_doc = NULL, .doc = doc, .children = NULL
};
mutate_arguments arguments = {
.method = MUTATE_NOT_SPECIFIED,
.symmetry = 0,
};
argp_parse (&argp, argc, argv, 0, NULL, &arguments);
do_mutate (&arguments);
#endif
} else if (streq (command, "random")) {
/* generate random genome */
const struct argp_option options[] = {
{"height", 'h', "pixels", 0, "Output flame height (1000)" },
{"width", 'w', "pixels", 0, "Output flame width (1000)" },
{"max-xforms", 'x', "number", 0, "Max number of xforms (6)" },
{"max-var", 'v', "number", 0, "Max number of variations per xform (unlimited)" },
{ 0 },
};
const char doc[] = PACKAGE "-random -- a fractal flame generator";
const struct argp argp = {
.options = options, .parser = parse_random_opt,
.args_doc = NULL, .doc = doc, .children = NULL
};
random_arguments arguments = {
.palette = "flam3-palettes.xml",
.width = 1000,
.height = 1000,
.max_xforms = 6,
.max_var = flam3_nvariations,
.post_likelihood = 0.4,
.final_likelihood = 0.15,
.symmetry_likelihood = 0.25,
.min_symmetry = -6,
.max_symmetry = 6,
};
argp_parse (&argp, argc, argv, 0, NULL, &arguments);
do_random (&arguments);
} else if (streq (command, "render")) {
/* render flame to image file */
const struct argp_option options[] = {
{"scale", 's', "factor", 0, "Scale image dimensions by factor (1.0)" },
{"width", 'w', "pixels", 0, "Scale image to width" },
{"height", 'h', "pixels", 0, "Scale image to height" },
{"bpc", 'b', "8|16", 0, "Bits per channel of output image (8)" },
{"time", 't', "seconds", 0, "Rendering time" },
{"cache", 'c', "path", 0, "Cache file" },
{ 0 },
};
const char doc[] = PACKAGE "-render -- a fractal flame renderer";
const struct argp argp = {
.options = options, .parser = parse_render_opt,
.args_doc = NULL, .doc = doc, .children = NULL,
};
render_arguments arguments = {
.bpc = 8,
.scale = 1.0,
.width = 0,
.height = 0,
.time = 1.0,
.cache = NULL,
};
argp_parse (&argp, argc, argv, 0, NULL, &arguments);
do_render (&arguments);
} else {
show_help (argv[0]);
return EXIT_FAILURE;
}
return EXIT_SUCCESS;
}
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