lbm2bin: src/image.c annotate

lbm2bin

annotate src/image.c @ 4:0b96363742d3

added palette export, and fixed a planar pixel output bug

author	John Tsiombikas <nuclear@member.fsf.org>
date	Sun, 16 Jul 2017 21:30:23 +0300
parents
children

rev	line source
nuclear@0	1 /*
nuclear@0	2 colcycle - color cycling image viewer
nuclear@0	3 Copyright (C) 2016-2017 John Tsiombikas <nuclear@member.fsf.org>
nuclear@0	4
nuclear@0	5 This program is free software: you can redistribute it and/or modify
nuclear@0	6 it under the terms of the GNU General Public License as published by
nuclear@0	7 the Free Software Foundation, either version 3 of the License, or
nuclear@0	8 (at your option) any later version.
nuclear@0	9
nuclear@0	10 This program is distributed in the hope that it will be useful,
nuclear@0	11 but WITHOUT ANY WARRANTY; without even the implied warranty of
nuclear@0	12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nuclear@0	13 GNU General Public License for more details.
nuclear@0	14
nuclear@0	15 You should have received a copy of the GNU General Public License
nuclear@0	16 along with this program. If not, see <http://www.gnu.org/licenses/>.
nuclear@0	17 */
nuclear@0	18 #include <stdio.h>
nuclear@0	19 #include <stdlib.h>
nuclear@0	20 #include <string.h>
nuclear@0	21 #include <errno.h>
nuclear@0	22 #include <ctype.h>
nuclear@0	23 #include <math.h>
nuclear@0	24 #if defined(__WATCOMC__) \|\| defined(_MSC_VER) \|\| defined(WIN32)
nuclear@0	25 #include <malloc.h>
nuclear@0	26 #else
nuclear@0	27 #include <alloca.h>
nuclear@0	28 #endif
nuclear@0	29 #include "image.h"
nuclear@0	30 #include "imagelbm.h"
nuclear@0	31
nuclear@0	32 #ifndef M_PI
nuclear@0	33 #define M_PI 3.141593
nuclear@0	34 #endif
nuclear@0	35
nuclear@0	36 static int flatten_crange_list(struct image *img);
nuclear@0	37
nuclear@0	38 int gen_test_image(struct image *img)
nuclear@0	39 {
nuclear@0	40 int i, j;
nuclear@0	41 unsigned char *pptr;
nuclear@0	42
nuclear@0	43 img->width = 640;
nuclear@0	44 img->height = 480;
nuclear@0	45 img->bpp = 8;
nuclear@0	46
nuclear@0	47 if(!(img->range = malloc(sizeof *img->range))) {
nuclear@0	48 return -1;
nuclear@0	49 }
nuclear@0	50 img->num_ranges = 1;
nuclear@0	51 img->range[0].low = 0;
nuclear@0	52 img->range[0].high = 255;
nuclear@0	53 img->range[0].cmode = CYCLE_NORMAL;
nuclear@0	54 img->range[0].rate = 5000;
nuclear@0	55
nuclear@0	56 if(!(img->pixels = malloc(img->width * img->height))) {
nuclear@0	57 free(img->range);
nuclear@0	58 return -1;
nuclear@0	59 }
nuclear@0	60
nuclear@0	61 for(i=0; i<256; i++) {
nuclear@0	62 float theta = M_PI * 2.0 * (float)i / 256.0;
nuclear@0	63 float r = cos(theta) * 0.5 + 0.5;
nuclear@0	64 float g = sin(theta) * 0.5 + 0.5;
nuclear@0	65 float b = -cos(theta) * 0.5 + 0.5;
nuclear@0	66 img->palette[i].r = (int)(r * 255.0);
nuclear@0	67 img->palette[i].g = (int)(g * 255.0);
nuclear@0	68 img->palette[i].b = (int)(b * 255.0);
nuclear@0	69 }
nuclear@0	70
nuclear@0	71 pptr = img->pixels;
nuclear@0	72 for(i=0; i<img->height; i++) {
nuclear@0	73 int c = (i << 8) / img->height;
nuclear@0	74 for(j=0; j<img->width; j++) {
nuclear@0	75 int chess = ((i >> 6) & 1) == ((j >> 6) & 1);
nuclear@0	76 *pptr++ = (chess ? c : c + 128) & 0xff;
nuclear@0	77 }
nuclear@0	78 }
nuclear@0	79 return 0;
nuclear@0	80 }
nuclear@0	81
nuclear@0	82 #define MAX_TOKEN_SIZE 256
nuclear@0	83 static int image_block(FILE fp, struct image img);
nuclear@0	84 static int nextc = -1;
nuclear@0	85 static char token[MAX_TOKEN_SIZE];
nuclear@0	86
nuclear@0	87 int load_image(struct image img, const char fname)
nuclear@0	88 {
nuclear@0	89 FILE *fp;
nuclear@0	90 int c;
nuclear@0	91
nuclear@0	92 if(!(fp = fopen(fname, "rb"))) {
nuclear@0	93 fprintf(stderr, "failed to open file: %s: %s\n", fname, strerror(errno));
nuclear@0	94 return -1;
nuclear@0	95 }
nuclear@0	96
nuclear@0	97 if(file_is_lbm(fp)) {
nuclear@0	98 if(load_image_lbm(img, fp) == -1) {
nuclear@0	99 fclose(fp);
nuclear@0	100 return -1;
nuclear@0	101 }
nuclear@0	102 fclose(fp);
nuclear@0	103 flatten_crange_list(img);
nuclear@0	104 return 0;
nuclear@0	105 }
nuclear@0	106
nuclear@0	107 /* find the start of the root block */
nuclear@0	108 while((c = fgetc(fp)) != -1 && c != '{');
nuclear@0	109 if(feof(fp)) {
nuclear@0	110 fprintf(stderr, "invalid image format, no image block found: %s\n", fname);
nuclear@0	111 return -1;
nuclear@0	112 }
nuclear@0	113
nuclear@0	114 nextc = c; /* prime the pump with the extra char we read above */
nuclear@0	115 if(image_block(fp, img) == -1) {
nuclear@0	116 fprintf(stderr, "failed to read image block from: %s\n", fname);
nuclear@0	117 fclose(fp);
nuclear@0	118 return -1;
nuclear@0	119 }
nuclear@0	120 fclose(fp);
nuclear@0	121
nuclear@0	122 flatten_crange_list(img);
nuclear@0	123 return 0;
nuclear@0	124 }
nuclear@0	125
nuclear@0	126 void destroy_image(struct image *img)
nuclear@0	127 {
nuclear@0	128 if(img) {
nuclear@0	129 free(img->pixels);
nuclear@0	130 free(img->range);
nuclear@0	131 memset(img, 0, sizeof *img);
nuclear@0	132 }
nuclear@0	133 }
nuclear@0	134
nuclear@0	135 static int flatten_crange_list(struct image *img)
nuclear@0	136 {
nuclear@0	137 struct colrange *list = img->range;
nuclear@0	138 struct colrange *rptr;
nuclear@0	139
nuclear@0	140 if(img->num_ranges <= 0) {
nuclear@0	141 return 0;
nuclear@0	142 }
nuclear@0	143
nuclear@0	144 if(!(img->range = malloc(img->num_ranges * sizeof *img->range))) {
nuclear@0	145 perror("flatten_crange_list: failed to allocate range array\n");
nuclear@0	146 return -1;
nuclear@0	147 }
nuclear@0	148
nuclear@0	149 rptr = img->range;
nuclear@0	150 while(list) {
nuclear@0	151 struct colrange *rng = list;
nuclear@0	152 list = list->next;
nuclear@0	153 rptr++ = rng;
nuclear@0	154 free(rng);
nuclear@0	155 }
nuclear@0	156 return 0;
nuclear@0	157 }
nuclear@0	158
nuclear@0	159 /* ---- parser ---- */
nuclear@0	160
nuclear@0	161 enum {
nuclear@0	162 TOKEN_NUM,
nuclear@0	163 TOKEN_NAME,
nuclear@0	164 TOKEN_STR
nuclear@0	165 };
nuclear@0	166
nuclear@0	167 static int next_char(FILE *fp)
nuclear@0	168 {
nuclear@0	169 while((nextc = fgetc(fp)) != -1 && isspace(nextc));
nuclear@0	170 return nextc;
nuclear@0	171 }
nuclear@0	172
nuclear@0	173 static int next_token(FILE *fp)
nuclear@0	174 {
nuclear@0	175 char *ptr;
nuclear@0	176
nuclear@0	177 if(nextc == -1) {
nuclear@0	178 return -1;
nuclear@0	179 }
nuclear@0	180
nuclear@0	181 switch(nextc) {
nuclear@0	182 case '{':
nuclear@0	183 case '}':
nuclear@0	184 case ',':
nuclear@0	185 case '[':
nuclear@0	186 case ']':
nuclear@0	187 case ':':
nuclear@0	188 token[0] = nextc;
nuclear@0	189 token[1] = 0;
nuclear@0	190 nextc = next_char(fp);
nuclear@0	191 return token[0];
nuclear@0	192
nuclear@0	193 case '\'':
nuclear@0	194 ptr = token;
nuclear@0	195 nextc = next_char(fp);
nuclear@0	196 while(nextc != -1 && nextc != '\'') {
nuclear@0	197 *ptr++ = nextc;
nuclear@0	198 nextc = fgetc(fp);
nuclear@0	199 }
nuclear@0	200 nextc = next_char(fp);
nuclear@0	201 return TOKEN_STR;
nuclear@0	202
nuclear@0	203 default:
nuclear@0	204 break;
nuclear@0	205 }
nuclear@0	206
nuclear@0	207 if(isalpha(nextc)) {
nuclear@0	208 ptr = token;
nuclear@0	209 while(nextc != -1 && isalpha(nextc)) {
nuclear@0	210 *ptr++ = nextc;
nuclear@0	211 nextc = next_char(fp);
nuclear@0	212 }
nuclear@0	213 *ptr = 0;
nuclear@0	214 return TOKEN_NAME;
nuclear@0	215 }
nuclear@0	216 if(isdigit(nextc)) {
nuclear@0	217 ptr = token;
nuclear@0	218 while(nextc != -1 && isdigit(nextc)) {
nuclear@0	219 *ptr++ = nextc;
nuclear@0	220 nextc = next_char(fp);
nuclear@0	221 }
nuclear@0	222 *ptr = 0;
nuclear@0	223 return TOKEN_NUM;
nuclear@0	224 }
nuclear@0	225
nuclear@0	226 token[0] = nextc;
nuclear@0	227 token[1] = 0;
nuclear@0	228 fprintf(stderr, "next_token: unexpected character: %c\n", nextc);
nuclear@0	229 return -1;
nuclear@0	230 }
nuclear@0	231
nuclear@0	232 static int expect(FILE *fp, int tok)
nuclear@0	233 {
nuclear@0	234 if(next_token(fp) != tok) {
nuclear@0	235 return 0;
nuclear@0	236 }
nuclear@0	237 return 1;
nuclear@0	238 }
nuclear@0	239
nuclear@0	240 static const char *toktypestr(int tok)
nuclear@0	241 {
nuclear@0	242 static char buf[] = "' '";
nuclear@0	243 switch(tok) {
nuclear@0	244 case TOKEN_NUM:
nuclear@0	245 return "number";
nuclear@0	246 case TOKEN_NAME:
nuclear@0	247 return "name";
nuclear@0	248 case TOKEN_STR:
nuclear@0	249 return "string";
nuclear@0	250 default:
nuclear@0	251 break;
nuclear@0	252 }
nuclear@0	253 buf[1] = tok;
nuclear@0	254 return buf;
nuclear@0	255 }
nuclear@0	256
nuclear@0	257 #define EXPECT(fp, x) \
nuclear@0	258 do { \
nuclear@0	259 if(!expect(fp, x)) { \
nuclear@0	260 fprintf(stderr, "%s: expected: %s, found: %s\n", __FUNCTION__, toktypestr(x), token); \
nuclear@0	261 return -1; \
nuclear@0	262 } \
nuclear@0	263 } while(0)
nuclear@0	264
nuclear@0	265 static int palette(FILE fp, struct image img)
nuclear@0	266 {
nuclear@0	267 int tok, cidx = 0;
nuclear@0	268 struct color col, *cptr;
nuclear@0	269
nuclear@0	270 EXPECT(fp, '[');
nuclear@0	271
nuclear@0	272 while((tok = next_token(fp)) == '[') {
nuclear@0	273 cptr = cidx < 256 ? &img->palette[cidx] : &col;
nuclear@0	274 ++cidx;
nuclear@0	275
nuclear@0	276 EXPECT(fp, TOKEN_NUM);
nuclear@0	277 cptr->r = atoi(token);
nuclear@0	278 EXPECT(fp, ',');
nuclear@0	279 EXPECT(fp, TOKEN_NUM);
nuclear@0	280 cptr->g = atoi(token);
nuclear@0	281 EXPECT(fp, ',');
nuclear@0	282 EXPECT(fp, TOKEN_NUM);
nuclear@0	283 cptr->b = atoi(token);
nuclear@0	284 EXPECT(fp, ']');
nuclear@0	285
nuclear@0	286 if(nextc == ',') {
nuclear@0	287 next_token(fp); /* skip comma */
nuclear@0	288 }
nuclear@0	289 }
nuclear@0	290
nuclear@0	291 if(tok != ']') {
nuclear@0	292 fprintf(stderr, "palette must be closed by a ']' token\n");
nuclear@0	293 return -1;
nuclear@0	294 }
nuclear@0	295 return 0;
nuclear@0	296 }
nuclear@0	297
nuclear@0	298 static int crange(FILE fp, struct colrange rng)
nuclear@0	299 {
nuclear@0	300 int val;
nuclear@0	301 char name[MAX_TOKEN_SIZE];
nuclear@0	302
nuclear@0	303 EXPECT(fp, '{');
nuclear@0	304
nuclear@0	305 while(nextc != -1 && nextc != '}') {
nuclear@0	306 EXPECT(fp, TOKEN_NAME);
nuclear@0	307 strcpy(name, token);
nuclear@0	308 EXPECT(fp, ':');
nuclear@0	309 EXPECT(fp, TOKEN_NUM);
nuclear@0	310 val = atoi(token);
nuclear@0	311
nuclear@0	312 if(strcmp(name, "reverse") == 0) {
nuclear@0	313 rng->cmode = val;
nuclear@0	314 } else if(strcmp(name, "rate") == 0) {
nuclear@0	315 rng->rate = val;
nuclear@0	316 } else if(strcmp(name, "low") == 0) {
nuclear@0	317 rng->low = val;
nuclear@0	318 } else if(strcmp(name, "high") == 0) {
nuclear@0	319 rng->high = val;
nuclear@0	320 } else {
nuclear@0	321 fprintf(stderr, "invalid attribute %s in cycles range\n", name);
nuclear@0	322 return -1;
nuclear@0	323 }
nuclear@0	324
nuclear@0	325 if(nextc == ',') {
nuclear@0	326 next_token(fp);
nuclear@0	327 }
nuclear@0	328 }
nuclear@0	329
nuclear@0	330 EXPECT(fp, '}');
nuclear@0	331 return 0;
nuclear@0	332 }
nuclear@0	333
nuclear@0	334 static int cycles(FILE fp, struct image img)
nuclear@0	335 {
nuclear@0	336 struct colrange list = 0, rng;
nuclear@0	337
nuclear@0	338 EXPECT(fp, '[');
nuclear@0	339
nuclear@0	340 img->num_ranges = 0;
nuclear@0	341 while(nextc == '{') {
nuclear@0	342 if(!(rng = malloc(sizeof *rng))) {
nuclear@0	343 perror("failed to allocate color range");
nuclear@0	344 goto err;
nuclear@0	345 }
nuclear@0	346 if(crange(fp, rng) == -1) {
nuclear@0	347 free(rng);
nuclear@0	348 goto err;
nuclear@0	349 }
nuclear@0	350 if(rng->low != rng->high && rng->rate > 0) {
nuclear@0	351 rng->next = list;
nuclear@0	352 list = rng;
nuclear@0	353 ++img->num_ranges;
nuclear@0	354 } else {
nuclear@0	355 free(rng);
nuclear@0	356 }
nuclear@0	357
nuclear@0	358 if(nextc == ',') {
nuclear@0	359 next_token(fp); /* eat the comma */
nuclear@0	360 }
nuclear@0	361 }
nuclear@0	362
nuclear@0	363 img->range = list;
nuclear@0	364
nuclear@0	365 if(!expect(fp, ']')) {
nuclear@0	366 fprintf(stderr, "cycles: missing closing bracket\n");
nuclear@0	367 goto err;
nuclear@0	368 }
nuclear@0	369 return 0;
nuclear@0	370
nuclear@0	371 err:
nuclear@0	372 while(list) {
nuclear@0	373 rng = list;
nuclear@0	374 list = list->next;
nuclear@0	375 free(rng);
nuclear@0	376 }
nuclear@0	377 img->num_ranges = 0;
nuclear@0	378 return -1;
nuclear@0	379 }
nuclear@0	380
nuclear@0	381 static int pixels(FILE fp, struct image img)
nuclear@0	382 {
nuclear@0	383 int tok, num_pixels;
nuclear@0	384 unsigned char *pptr;
nuclear@0	385
nuclear@0	386 if(img->width <= 0 \|\| img->height <= 0) {
nuclear@0	387 fprintf(stderr, "pixel block found before defining the image dimensions!\n");
nuclear@0	388 return -1;
nuclear@0	389 }
nuclear@0	390 num_pixels = img->width * img->height;
nuclear@0	391 if(!(img->pixels = malloc(num_pixels))) {
nuclear@0	392 perror("failed to allocate pixels");
nuclear@0	393 return -1;
nuclear@0	394 }
nuclear@0	395 pptr = img->pixels;
nuclear@0	396
nuclear@0	397 EXPECT(fp, '[');
nuclear@0	398
nuclear@0	399 while((tok = next_token(fp)) == TOKEN_NUM) {
nuclear@0	400 if(pptr - img->pixels >= num_pixels) {
nuclear@0	401 pptr = 0;
nuclear@0	402 fprintf(stderr, "more pixel data provided than the specified image dimensions\n");
nuclear@0	403 }
nuclear@0	404 if(!pptr) continue;
nuclear@0	405 *pptr++ = atoi(token);
nuclear@0	406
nuclear@0	407 if(nextc == ',') {
nuclear@0	408 next_token(fp); /* eat comma */
nuclear@0	409 }
nuclear@0	410 }
nuclear@0	411
nuclear@0	412 if(tok != ']') {
nuclear@0	413 printf("pixels: missing closing bracket\n");
nuclear@0	414 return -1;
nuclear@0	415 }
nuclear@0	416 return 0;
nuclear@0	417 }
nuclear@0	418
nuclear@0	419 static int attribute(FILE fp, struct image img)
nuclear@0	420 {
nuclear@0	421 char *attr_name;
nuclear@0	422
nuclear@0	423 if(!expect(fp, TOKEN_NAME)) {
nuclear@0	424 return -1;
nuclear@0	425 }
nuclear@0	426 attr_name = alloca(strlen(token) + 1);
nuclear@0	427 strcpy(attr_name, token);
nuclear@0	428
nuclear@0	429 if(!expect(fp, ':')) {
nuclear@0	430 return -1;
nuclear@0	431 }
nuclear@0	432
nuclear@0	433 if(strcmp(attr_name, "filename") == 0) {
nuclear@0	434 if(!expect(fp, TOKEN_STR)) {
nuclear@0	435 fprintf(stderr, "attribute: filename should be a string\n");
nuclear@0	436 return -1;
nuclear@0	437 }
nuclear@0	438
nuclear@0	439 } else if(strcmp(attr_name, "width") == 0 \|\| strcmp(attr_name, "height") == 0) {
nuclear@0	440 int *dst = attr_name[0] == 'w' ? &img->width : &img->height;
nuclear@0	441 if(!expect(fp, TOKEN_NUM)) {
nuclear@0	442 fprintf(stderr, "attribute: %s should be a number\n", attr_name);
nuclear@0	443 return -1;
nuclear@0	444 }
nuclear@0	445 *dst = atoi(token);
nuclear@0	446
nuclear@0	447 } else if(strcmp(attr_name, "colors") == 0) {
nuclear@0	448 if(palette(fp, img) == -1) {
nuclear@0	449 fprintf(stderr, "attribute: colors should be a palette\n");
nuclear@0	450 return -1;
nuclear@0	451 }
nuclear@0	452
nuclear@0	453 } else if(strcmp(attr_name, "cycles") == 0) {
nuclear@0	454 if(cycles(fp, img) == -1) {
nuclear@0	455 fprintf(stderr, "attribute: cycles should be a list of palranges\n");
nuclear@0	456 return -1;
nuclear@0	457 }
nuclear@0	458
nuclear@0	459 } else if(strcmp(attr_name, "pixels") == 0) {
nuclear@0	460 if(pixels(fp, img) == -1) {
nuclear@0	461 fprintf(stderr, "attribute: pixels should be a list of indices\n");
nuclear@0	462 return -1;
nuclear@0	463 }
nuclear@0	464
nuclear@0	465 } else {
nuclear@0	466 fprintf(stderr, "unknown attribute: %s\n", attr_name);
nuclear@0	467 return -1;
nuclear@0	468 }
nuclear@0	469 return 0;
nuclear@0	470 }
nuclear@0	471
nuclear@0	472 static int image_block(FILE fp, struct image img)
nuclear@0	473 {
nuclear@0	474 EXPECT(fp, '{');
nuclear@0	475
nuclear@0	476 img->width = img->height = -1;
nuclear@0	477 img->bpp = 8;
nuclear@0	478
nuclear@0	479 while(attribute(fp, img) != -1) {
nuclear@0	480 if(nextc == ',') {
nuclear@0	481 next_token(fp); /* eat comma */
nuclear@0	482 }
nuclear@0	483 }
nuclear@0	484 return 0;
nuclear@0	485 }