nuclear@4: #include <stdio.h>
nuclear@4: #include <stdlib.h>
nuclear@4: #include <string.h>
nuclear@5: #include <stdarg.h>
nuclear@4: #include <errno.h>
nuclear@4: #include <ctype.h>
nuclear@4: #include <assert.h>
nuclear@4: #include "tileset.h"
nuclear@4: #include "image.h"
nuclear@4: 
nuclear@4: struct orig_node {
nuclear@4: 	char *prefix;
nuclear@4: 	struct { int x, y; } *orig;
nuclear@4: 	int count;
nuclear@4: 	struct orig_node *next;
nuclear@4: };
nuclear@4: 
nuclear@4: struct tile_node {
nuclear@4: 	struct tile tile;
nuclear@4: 	struct tile_node *next;
nuclear@4: };
nuclear@4: 
nuclear@4: enum { OPT_IMGDIR, OPT_MAXDIST, OPT_ORIGINS, OPT_PALETTE };
nuclear@4: static struct option {
nuclear@4: 	int id;
nuclear@4: 	char *name, *val;
nuclear@4: 	int ival;
nuclear@4: } opt[] = {
nuclear@4: 	/* maintain the same order as with the enum above */
nuclear@4: 	{ OPT_IMGDIR, "imagedir", 0, 0 },
nuclear@4: 	{ OPT_MAXDIST, "maxdist", 0, 0 },
nuclear@4: 	{ OPT_ORIGINS, "origins", 0, 0 },
nuclear@4: 	{ OPT_PALETTE, "palette", 0, 0 },
nuclear@4: 	{ 0, 0, 0 }
nuclear@4: };
nuclear@4: 
nuclear@4: static struct orig_node *load_origin_list(const char *fname);
nuclear@4: static struct orig_node *find_origin(struct orig_node *list, const char *name);
nuclear@4: static char *clean_line(char *buf);
nuclear@4: static struct option *get_option(const char *name);
nuclear@4: static int tilecmp(const void *a, const void *b);
nuclear@4: 
nuclear@4: int load_tileset(struct tileset *ts, const char *fname)
nuclear@4: {
nuclear@4: 	FILE *fp;
nuclear@4: 	char buf[256];
nuclear@4: 	int i, nline = 0, ntiles = 0;
nuclear@4: 	struct orig_node *origlist = 0;
nuclear@4: 	struct tile_node *tlist = 0;
nuclear@4: 	char *slash, *dir, *imgdir = "";
nuclear@4: 
nuclear@4: 	dir = alloca(strlen(fname) + 1);
nuclear@4: 	strcpy(dir, fname);
nuclear@4: 	if((slash = strrchr(dir, '/'))) {
nuclear@4: 		slash[1] = 0;
nuclear@4: 	} else {
nuclear@4: 		*dir = 0;
nuclear@4: 	}
nuclear@4: 
nuclear@4: 	if(!(fp = fopen(fname, "r"))) {
nuclear@4: 		fprintf(stderr, "failed to load tileset: %s: %s\n", fname, strerror(errno));
nuclear@4: 		return -1;
nuclear@4: 	}
nuclear@4: 
nuclear@4: 	while(fgets(buf, sizeof buf, fp)) {
nuclear@4: 		char *line, *name, *valstr;
nuclear@4: 		struct option *opt;
nuclear@4: 
nuclear@4: 		++nline;
nuclear@4: 
nuclear@4: 		line = clean_line(buf);
nuclear@4: 		if(!*line) continue;
nuclear@4: 
nuclear@4: 		name = line;
nuclear@4: 		if(!(valstr = strchr(line, '='))) {
nuclear@4: 			fprintf(stderr, "tileset: %s line %d: invalid syntax: %s\n", fname, nline, line);
nuclear@4: 			goto fail;
nuclear@4: 		}
nuclear@4: 		*valstr++ = 0;
nuclear@4: 
nuclear@4: 		name = clean_line(name);
nuclear@4: 		valstr = clean_line(valstr);
nuclear@4: 
nuclear@4: 		if(!*name || !*valstr) {
nuclear@4: 			fprintf(stderr, "tileset: %s line %d: malformed line\n", fname, nline);
nuclear@4: 			goto fail;
nuclear@4: 		}
nuclear@4: 
nuclear@4: 		/* first check to see if it's an option */
nuclear@4: 		if((opt = get_option(name))) {
nuclear@4: 			opt->val = strdup(valstr);
nuclear@4: 			opt->ival = atoi(valstr);
nuclear@4: 
nuclear@4: 			switch(opt->id) {
nuclear@4: 			case OPT_IMGDIR:
nuclear@4: 				{
nuclear@4: 					int len = strlen(opt->val);
nuclear@4: 					imgdir = alloca(len + 2);
nuclear@4: 					strcpy(imgdir, opt->val);
nuclear@4: 
nuclear@4: 					if(imgdir[len - 1] != '/') {
nuclear@4: 						imgdir[len] = '/';
nuclear@4: 						imgdir[len + 1] = 0;
nuclear@4: 					}
nuclear@4: 					printf("imgdir: \"%s\"\n", imgdir);
nuclear@4: 				}
nuclear@4: 				break;
nuclear@4: 
nuclear@4: 			case OPT_ORIGINS:
nuclear@4: 				{
nuclear@4: 					char *path = alloca(strlen(dir) + strlen(opt->val) + 1);
nuclear@4: 					sprintf(path, "%s%s", dir, opt->val);
nuclear@4: 
nuclear@4: 					if(!(origlist = load_origin_list(path))) {
nuclear@4: 						goto failmsg;
nuclear@4: 					}
nuclear@4: 				}
nuclear@4: 			default:
nuclear@4: 				break;
nuclear@4: 			}
nuclear@4: 
nuclear@4: 		} else {
nuclear@4: 			/* otherwise it's just a tile... add it to the list */
nuclear@4: 			char *path;
nuclear@4: 			struct tile_node *tnode;
nuclear@4: 
nuclear@4: 			if(!(tnode = malloc(sizeof *tnode))) {
nuclear@4: 				goto failmsg;
nuclear@4: 			}
nuclear@4: 			if(!(tnode->tile.name = strdup(name))) {
nuclear@4: 				free(tnode);
nuclear@4: 				goto failmsg;
nuclear@4: 			}
nuclear@4: 
nuclear@4: 			if(!(path = malloc(strlen(dir) + strlen(imgdir) + strlen(valstr) + 1))) {
nuclear@4: 				free(tnode->tile.name);
nuclear@4: 				free(tnode);
nuclear@4: 				goto failmsg;
nuclear@4: 			}
nuclear@4: 
nuclear@4: 			sprintf(path, "%s%s%s", dir, imgdir, valstr);
nuclear@4: 			if(load_image(&tnode->tile.img, path) == -1) {
nuclear@4: 				free(tnode->tile.name);
nuclear@4: 				free(tnode);
nuclear@4: 				free(path);
nuclear@4: 				goto failmsg;
nuclear@4: 			}
nuclear@4: 			free(path);
nuclear@4: 			tnode->next = tlist;
nuclear@4: 			tlist = tnode;
nuclear@4: 			++ntiles;
nuclear@4: 		}
nuclear@4: 	}
nuclear@4: 	fclose(fp), fp = 0;
nuclear@4: 
nuclear@4: 	/* if there is a palette, load it */
nuclear@4: 	if(opt[OPT_PALETTE].val) {
nuclear@4: 		const char *fname = opt[OPT_PALETTE].val;
nuclear@4: 		char *path = alloca(strlen(dir) + strlen(fname) + 1);
nuclear@4: 		sprintf(path, "%s%s", dir, fname);
nuclear@4: 
nuclear@4: 		if((ts->pal_size = load_palette(ts->pal, path)) == -1) {
nuclear@4: 			goto failmsg;
nuclear@4: 		}
nuclear@4: 	}
nuclear@4: 
nuclear@4: 	/* allocate the array of tiles and copy all the tiles from the list */
nuclear@4: 	if(!(ts->tile = calloc(ntiles, sizeof *ts->tile))) {
nuclear@4: 		goto failmsg;
nuclear@4: 	}
nuclear@4: 	ts->num_tiles = ntiles;
nuclear@4: 
nuclear@4: 	i = 0;
nuclear@4: 	while(tlist) {
nuclear@4: 		int idx;
nuclear@4: 		struct orig_node *onode;
nuclear@4: 		struct tile_node *tnode = tlist;
nuclear@4: 		tlist = tlist->next;
nuclear@4: 
nuclear@4: 		ts->tile[i] = tnode->tile;
nuclear@4: 		free(tnode);
nuclear@4: 
nuclear@4: 		/* determine the origin index by the tile z number,
nuclear@4: 		 * which if it exists, it starts at name[3]
nuclear@4: 		 */
nuclear@4: 		idx = atoi(ts->tile[i].name + 3);
nuclear@4: 
nuclear@4: 		/* retrieve the origin for this tile */
nuclear@4: 		if((onode = find_origin(origlist, ts->tile[i].name))) {
nuclear@4: 			if(idx >= onode->count) idx = onode->count - 1;
nuclear@4: 			ts->tile[i].orig_x = onode->orig[idx].x;
nuclear@4: 			ts->tile[i].orig_y = onode->orig[idx].y;
nuclear@4: 		}
nuclear@4: 		++i;
nuclear@4: 	}
nuclear@4: 
nuclear@4: 	/* now we need to sort them so that we can binary-search tiles later in real-time */
nuclear@4: 	qsort(ts->tile, ntiles, sizeof *ts->tile, tilecmp);
nuclear@4: 
nuclear@4: 	printf("loaded tileset %s\n", fname);
nuclear@4: 	for(i=0; i<ntiles; i++) {
nuclear@5: 		printf("  tile: %s (orig: %d,%d)\n", ts->tile[i].name, ts->tile[i].orig_x, ts->tile[i].orig_y);
nuclear@4: 	}
nuclear@4: 
nuclear@4: 	return 0;
nuclear@4: 
nuclear@4: failmsg:
nuclear@4: 	fprintf(stderr, "failed to load tileset: %s\n", fname);
nuclear@4: fail:
nuclear@4: 	if(fp) fclose(fp);
nuclear@4: 	while(tlist) {
nuclear@4: 		struct tile_node *n = tlist;
nuclear@4: 		tlist = tlist->next;
nuclear@4: 		free(n->tile.name);
nuclear@4: 		destroy_image(&n->tile.img);
nuclear@4: 		free(n);
nuclear@4: 	}
nuclear@4: 	return -1;
nuclear@4: }
nuclear@4: 
nuclear@4: void destroy_tileset(struct tileset *ts)
nuclear@4: {
nuclear@4: 	int i;
nuclear@4: 
nuclear@4: 	if(!ts) return;
nuclear@4: 
nuclear@4: 	if(ts->tile) {
nuclear@4: 		for(i=0; i<ts->num_tiles; i++) {
nuclear@4: 			free(ts->tile[i].name);
nuclear@4: 			destroy_image(&ts->tile[i].img);
nuclear@4: 		}
nuclear@4: 		free(ts->tile);
nuclear@4: 		ts->tile = 0;
nuclear@4: 	}
nuclear@4: }
nuclear@4: 
nuclear@4: struct tile *get_tile(struct tileset *ts, const char *name)
nuclear@4: {
nuclear@4: 	struct tile key;
nuclear@4: 	key.name = (char*)name;
nuclear@4: 	return bsearch(&key, ts->tile, ts->num_tiles, sizeof *ts->tile, tilecmp);
nuclear@4: }
nuclear@4: 
nuclear@5: struct tile *get_tilef(struct tileset *ts, const char *fmt, ...)
nuclear@5: {
nuclear@5: 	va_list ap;
nuclear@5: 	int sz = strlen(fmt) * 2;
nuclear@5: 	char *buf = alloca(sz + 1);
nuclear@5: 
nuclear@5: 	va_start(ap, fmt);
nuclear@5: 	vsnprintf(buf, sz, fmt, ap);
nuclear@5: 	va_end(ap);
nuclear@5: 
nuclear@5: 	return get_tile(ts, buf);
nuclear@5: }
nuclear@5: 
nuclear@4: static struct orig_node *load_origin_list(const char *fname)
nuclear@4: {
nuclear@4: 	FILE *fp;
nuclear@4: 	char buf[256];
nuclear@4: 	int i, valbuf[2][64], num, nline = 0;
nuclear@4: 	struct orig_node *head = 0;
nuclear@4: 
nuclear@4: 	if(!(fp = fopen(fname, "r"))) {
nuclear@4: 		fprintf(stderr, "failed to load origins file: %s: %s\n", fname, strerror(errno));
nuclear@4: 		return 0;
nuclear@4: 	}
nuclear@4: 
nuclear@4: 	while(fgets(buf, sizeof buf, fp)) {
nuclear@4: 		char *tok, *name, *line;
nuclear@4: 		struct orig_node *onode;
nuclear@4: 
nuclear@4: 		++nline;
nuclear@4: 
nuclear@4: 		line = clean_line(buf);
nuclear@4: 		if(!*line) continue;
nuclear@4: 
nuclear@4: 		if(!(name = strtok(line, " \t\n\r"))) {
nuclear@4: 			continue;
nuclear@4: 		}
nuclear@4: 		num = 0;
nuclear@4: 		while(num < 64 && (tok = strtok(0, " \t\n\r"))) {
nuclear@4: 			if(sscanf(tok, "%dx%d", valbuf[0] + num, valbuf[1] + num) != 2) {
nuclear@4: 				fprintf(stderr, "failed to load origins file: %s: ", fname);
nuclear@4: 				fprintf(stderr, "invalid token \"%s\" on line %d (%s)\n", tok, nline, name);
nuclear@4: 				goto fail;
nuclear@4: 			}
nuclear@4: 			++num;
nuclear@4: 		}
nuclear@4: 		if(num >= 64) {
nuclear@4: 			fprintf(stderr, "warning: origins file %s: excessive number of %s origins on line %d\n", fname, name, nline);
nuclear@4: 		}
nuclear@4: 
nuclear@4: 		if(!(onode = malloc(sizeof *onode))) {
nuclear@4: 			fprintf(stderr, "failed to allocate origins node\n");
nuclear@4: 			goto fail;
nuclear@4: 		}
nuclear@4: 		if(!(onode->prefix = malloc(strlen(name) + 1))) {
nuclear@4: 			fprintf(stderr, "failed to allocate origins name\n");
nuclear@4: 			free(onode);
nuclear@4: 			goto fail;
nuclear@4: 		}
nuclear@4: 		if(!(onode->orig = malloc(num * sizeof *onode->orig))) {
nuclear@4: 			fprintf(stderr, "failed to allocate origins array\n");
nuclear@4: 			free(onode);
nuclear@4: 			goto fail;
nuclear@4: 		}
nuclear@4: 
nuclear@4: 		strcpy(onode->prefix, name);
nuclear@4: 		onode->count = num;
nuclear@4: 		onode->next = head;
nuclear@4: 		head = onode;
nuclear@4: 
nuclear@4: 		for(i=0; i<num; i++) {
nuclear@4: 			onode->orig[i].x = valbuf[0][i];
nuclear@4: 			onode->orig[i].y = valbuf[1][i];
nuclear@4: 		}
nuclear@4: 	}
nuclear@4: 	fclose(fp);
nuclear@4: 	return head;
nuclear@4: 
nuclear@4: fail:
nuclear@4: 	fclose(fp);
nuclear@4: 	while(head) {
nuclear@4: 		struct orig_node *tmp = head;
nuclear@4: 		head = head->next;
nuclear@4: 		free(tmp->prefix);
nuclear@4: 		free(tmp->orig);
nuclear@4: 	}
nuclear@4: 	return 0;
nuclear@4: }
nuclear@4: 
nuclear@4: static struct orig_node *find_origin(struct orig_node *list, const char *name)
nuclear@4: {
nuclear@4: 	struct orig_node *node = list;
nuclear@4: 	struct orig_node *best = 0;
nuclear@4: 	int best_len = 0;
nuclear@4: 
nuclear@4: 	while(node) {
nuclear@4: 		const char *nmptr = name;
nuclear@4: 		const char *pptr = node->prefix;
nuclear@4: 		int len;
nuclear@4: 
nuclear@4: 		while(*pptr && *nmptr && *pptr == *nmptr) ++pptr, ++nmptr;
nuclear@4: 		if((len = nmptr - name) > best_len) {
nuclear@4: 			best = node;
nuclear@4: 			best_len = len;
nuclear@4: 		}
nuclear@4: 		node = node->next;
nuclear@4: 	}
nuclear@4: 	return best;
nuclear@4: }
nuclear@4: 
nuclear@4: static char *clean_line(char *buf)
nuclear@4: {
nuclear@4: 	char *end = buf + strlen(buf);
nuclear@4: 
nuclear@4: 	while(*buf && isspace(*buf)) ++buf;
nuclear@4: 	while(end > buf && (!*end || isspace(*end))) {
nuclear@4: 		*end-- = 0;
nuclear@4: 	}
nuclear@4: 
nuclear@4: 	/* also remove comments */
nuclear@4: 	if((end = strchr(buf, '#'))) {
nuclear@4: 		*end = 0;
nuclear@4: 	}
nuclear@4: 	return buf;
nuclear@4: }
nuclear@4: 
nuclear@4: static struct option *get_option(const char *name)
nuclear@4: {
nuclear@4: 	int i;
nuclear@4: 	for(i=0; opt[i].name; i++) {
nuclear@4: 		if(strcmp(name, opt[i].name) == 0) {
nuclear@4: 			assert(i == opt[i].id);
nuclear@4: 			return opt + i;
nuclear@4: 		}
nuclear@4: 	}
nuclear@4: 	return 0;
nuclear@4: }
nuclear@4: 
nuclear@4: /* tile comparison for sorting the array of tiles by name */
nuclear@4: static int tilecmp(const void *a, const void *b)
nuclear@4: {
nuclear@4: 	const struct tile *ta = a;
nuclear@4: 	const struct tile *tb = b;
nuclear@4: 	return strcmp(ta->name, tb->name);
nuclear@4: }