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/cvs/deliantra/server/common/map.C

Comparing deliantra/server/common/map.C (file contents):
Revision 1.25 by root, Mon Sep 4 17:36:12 2006 UTC vs.
Revision 1.49 by root, Mon Dec 25 14:54:44 2006 UTC

1	/*
2	* static char *rcsid_map_c =
3	* "$Id: map.C,v 1.25 2006/09/04 17:36:12 root Exp $";
4	*/
5
6	/*	1	/*
7	CrossFire, A Multiplayer game for X-windows	2	CrossFire, A Multiplayer game for X-windows
8		3
9	Copyright (C) 2001-2003 Mark Wedel & Crossfire Development Team	4	Copyright (C) 2001-2003 Mark Wedel & Crossfire Development Team
10	Copyright (C) 1992 Frank Tore Johansen	5	Copyright (C) 1992 Frank Tore Johansen
…		…
21		16
22	You should have received a copy of the GNU General Public License	17	You should have received a copy of the GNU General Public License
23	along with this program; if not, write to the Free Software	18	along with this program; if not, write to the Free Software
24	Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.	19	Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
25		20
26	The authors can be reached via e-mail at crossfire-devel@real-time.com	21	The authors can be reached via e-mail at <crossfire@schmorp.de>
27	*/	22	*/
28		23
29		24
30	#include <global.h>	25	#include <global.h>
31	#include <funcpoint.h>	26	#include <funcpoint.h>
32		27
33	#include <loader.h>	28	#include <loader.h>
34	#ifndef WIN32 /* ---win32 exclude header */
35	#include <unistd.h>	29	#include <unistd.h>
36	#endif /* win32 */
37		30
38	#include "path.h"	31	#include "path.h"
39		32
40
41	extern int nrofallocobjects,nroffreeobjects;
42
43	/*	33	/*
44	* Returns the mapstruct which has a name matching the given argument.	34	* Returns the maptile which has a name matching the given argument.
45	* return NULL if no match is found.	35	* return NULL if no match is found.
46	*/	36	*/
47		37	maptile *
48	mapstruct *has_been_loaded (const char *name) {	38	has_been_loaded (const char *name)
49	mapstruct *map;	39	{
		40	maptile *map;
50		41
51	if (!name || !*name)	42	if (!name || !*name)
52	return 0;	43	return 0;
		44
53	for (map = first_map; map; map = map->next)	45	for (map = first_map; map; map = map->next)
54	if (!strcmp (name, map->path))	46	if (!strcmp (name, map->path))
55	break;	47	break;
		48
56	return (map);	49	return (map);
57	}	50	}
58		51
59	/*	52	/*
60	* This makes a path absolute outside the world of Crossfire.	53	* This makes a path absolute outside the world of Crossfire.
61	* In other words, it prepends LIBDIR/MAPDIR/ to the given path	54	* In other words, it prepends LIBDIR/MAPDIR/ to the given path
62	* and returns the pointer to a static array containing the result.	55	* and returns the pointer to a static array containing the result.
63	* it really should be called create_mapname	56	* it really should be called create_mapname
64	*/	57	*/
65		58
		59	const char *
66	const char *create_pathname (const char *name) {	60	create_pathname (const char *name)
		61	{
67	static char buf[MAX_BUF];	62	static char buf[MAX_BUF];
68		63
69	/* Why? having extra / doesn't confuse unix anyplace? Dependancies	64	/* Why? having extra / doesn't confuse unix anyplace? Dependancies
70	* someplace else in the code? msw 2-17-97	65	* someplace else in the code? msw 2-17-97
71	*/	66	*/
72	if (*name == '/')	67	if (*name == '/')
73	sprintf (buf, "%s/%s%s", settings.datadir, settings.mapdir, name);	68	sprintf (buf, "%s/%s%s", settings.datadir, settings.mapdir, name);
74	else	69	else
75	sprintf (buf, "%s/%s/%s", settings.datadir, settings.mapdir, name);	70	sprintf (buf, "%s/%s/%s", settings.datadir, settings.mapdir, name);
76	return (buf);	71	return (buf);
77	}	72	}
78		73
79	/*	74	/*
80	* same as create_pathname, but for the overlay maps.	75	* same as create_pathname, but for the overlay maps.
81	*/	76	*/
82		77
		78	const char *
83	const char *create_overlay_pathname (const char *name) {	79	create_overlay_pathname (const char *name)
		80	{
84	static char buf[MAX_BUF];	81	static char buf[MAX_BUF];
85		82
86	/* Why? having extra / doesn't confuse unix anyplace? Dependancies	83	/* Why? having extra / doesn't confuse unix anyplace? Dependancies
87	* someplace else in the code? msw 2-17-97	84	* someplace else in the code? msw 2-17-97
88	*/	85	*/
89	if (*name == '/')	86	if (*name == '/')
90	sprintf (buf, "%s/%s%s", settings.localdir, settings.mapdir, name);	87	sprintf (buf, "%s/%s%s", settings.localdir, settings.mapdir, name);
91	else	88	else
92	sprintf (buf, "%s/%s/%s", settings.localdir, settings.mapdir, name);	89	sprintf (buf, "%s/%s/%s", settings.localdir, settings.mapdir, name);
93	return (buf);	90	return (buf);
94	}	91	}
95		92
96	/*	93	/*
97	* same as create_pathname, but for the template maps.	94	* same as create_pathname, but for the template maps.
98	*/	95	*/
99		96
		97	const char *
100	const char *create_template_pathname (const char *name) {	98	create_template_pathname (const char *name)
		99	{
101	static char buf[MAX_BUF];	100	static char buf[MAX_BUF];
102		101
103	/* Why? having extra / doesn't confuse unix anyplace? Dependancies	102	/* Why? having extra / doesn't confuse unix anyplace? Dependancies
104	* someplace else in the code? msw 2-17-97	103	* someplace else in the code? msw 2-17-97
105	*/	104	*/
106	if (*name == '/')	105	if (*name == '/')
107	sprintf (buf, "%s/%s%s", settings.localdir, settings.templatedir, name);	106	sprintf (buf, "%s/%s%s", settings.localdir, settings.templatedir, name);
108	else	107	else
109	sprintf (buf, "%s/%s/%s", settings.localdir, settings.templatedir, name);	108	sprintf (buf, "%s/%s/%s", settings.localdir, settings.templatedir, name);
110	return (buf);	109	return (buf);
111	}	110	}
112		111
113	/*	112	/*
114	* This makes absolute path to the itemfile where unique objects	113	* This makes absolute path to the itemfile where unique objects
115	* will be saved. Converts '/' to '@'. I think it's essier maintain	114	* will be saved. Converts '/' to '@'. I think it's essier maintain
116	* files than full directory structure, but if this is problem it can	115	* files than full directory structure, but if this is problem it can
117	* be changed.	116	* be changed.
118	*/	117	*/
		118	static const char *
119	static const char *create_items_path (const char *s) {	119	create_items_path (const char *s)
		120	{
120	static char buf[MAX_BUF];	121	static char buf[MAX_BUF];
121	char *t;	122	char *t;
122		123
		124	if (*s == '/')
		125	s++;
		126
		127	sprintf (buf, "%s/%s/", settings.localdir, settings.uniquedir);
		128
		129	for (t = buf + strlen (buf); *s; s++, t++)
123	if (*s == '/')	130	if (*s == '/')
124	s++;
125
126	sprintf (buf, "%s/%s/", settings.localdir, settings.uniquedir);
127
128	for (t=buf+strlen(buf); *s; s++,t++)
129	if (*s == '/')
130	*t = '@';	131	*t = '@';
131	else	132	else
132	*t = *s;	133	*t = *s;
133	*t = 0;	134	*t = 0;
134	return (buf);	135	return (buf);
135	}	136	}
136		137
137		138
138	/*	139	/*
139	* This function checks if a file with the given path exists.	140	* This function checks if a file with the given path exists.
…		…
149	* when the editor goes away, the call to stat should probably be	150	* when the editor goes away, the call to stat should probably be
150	* replaced by an access instead (similar to the windows one, but	151	* replaced by an access instead (similar to the windows one, but
151	* that seems to be missing the prepend_dir processing	152	* that seems to be missing the prepend_dir processing
152	*/	153	*/
153		154
		155	int
154	int check_path (const char *name, int prepend_dir)	156	check_path (const char *name, int prepend_dir)
155	{	157	{
156	char buf[MAX_BUF];	158	char buf[MAX_BUF];
157	#ifndef WIN32	159
158	char *endbuf;	160	char *endbuf;
159	struct stat statbuf;	161	struct stat statbuf;
160	int mode = 0, i;	162	int mode = 0;
161	#endif
162		163
163	if (prepend_dir)	164	if (prepend_dir)
164	strcpy (buf, create_pathname(name));	165	strcpy (buf, create_pathname (name));
165	else	166	else
166	strcpy(buf, name);	167	strcpy (buf, name);
167	#ifdef WIN32 /* ***win32: check this sucker in windows style. */
168	return(_access(buf,0));
169	#else
170		168
171	/* old method (strchr(buf, '\0')) seemd very odd to me -	169	/* old method (strchr(buf, '\0')) seemd very odd to me -
172	* this method should be equivalant and is clearer.	170	* this method should be equivalant and is clearer.
173	* Can not use strcat because we need to cycle through	171	* Can not use strcat because we need to cycle through
174	* all the names.	172	* all the names.
175	*/	173	*/
176	endbuf = buf + strlen(buf);	174	endbuf = buf + strlen (buf);
177		175
178	if (stat (buf, &statbuf))	176	if (stat (buf, &statbuf))
179	return -1;	177	return -1;
180	if (!S_ISREG (statbuf.st_mode))	178	if (!S_ISREG (statbuf.st_mode))
181	return (-1);	179	return (-1);
182		180
183	if (((statbuf.st_mode & S_IRGRP) && getegid() == statbuf.st_gid) ||	181	if (((statbuf.st_mode & S_IRGRP) && getegid () == statbuf.st_gid) ||
184	((statbuf.st_mode & S_IRUSR) && geteuid() == statbuf.st_uid) ||	182	((statbuf.st_mode & S_IRUSR) && geteuid () == statbuf.st_uid) || (statbuf.st_mode & S_IROTH))
185	(statbuf.st_mode & S_IROTH))
186	mode |= 4;	183	mode |= 4;
187		184
188	if ((statbuf.st_mode & S_IWGRP && getegid() == statbuf.st_gid) ||	185	if ((statbuf.st_mode & S_IWGRP && getegid () == statbuf.st_gid) ||
189	(statbuf.st_mode & S_IWUSR && geteuid() == statbuf.st_uid) ||	186	(statbuf.st_mode & S_IWUSR && geteuid () == statbuf.st_uid) || (statbuf.st_mode & S_IWOTH))
190	(statbuf.st_mode & S_IWOTH))
191	mode |= 2;	187	mode |= 2;
192		188
193	return (mode);	189	return (mode);
194	#endif
195	}	190	}
196		191
197	/*	192	/*
198	* Prints out debug-information about a map.	193	* Prints out debug-information about a map.
199	* Dumping these at llevError doesn't seem right, but is	194	* Dumping these at llevError doesn't seem right, but is
200	* necessary to make sure the information is in fact logged.	195	* necessary to make sure the information is in fact logged.
201	*/	196	*/
202		197
203	void dump_map(const mapstruct *m) {	198	void
		199	dump_map (const maptile *m)
		200	{
204	LOG(llevError,"Map %s status: %d.\n",m->path,m->in_memory);	201	LOG (llevError, "Map %s status: %d.\n", m->path, m->in_memory);
205	LOG(llevError,"Size: %dx%d Start: %d,%d\n",	202	LOG (llevError, "Size: %dx%d Start: %d,%d\n", m->width, m->height, m->enter_x, m->enter_y);
206	MAP_WIDTH(m), MAP_HEIGHT(m),
207	MAP_ENTER_X(m), MAP_ENTER_Y(m));
208		203
209	if(m->msg!=NULL)	204	if (m->msg != NULL)
210	LOG(llevError,"Message:\n%s",m->msg);	205	LOG (llevError, "Message:\n%s", m->msg);
211		206
212	if(m->maplore!=NULL)	207	if (m->maplore != NULL)
213	LOG(llevError,"Lore:\n%s",m->maplore);	208	LOG (llevError, "Lore:\n%s", m->maplore);
214		209
215	if(m->tmpname!=NULL)	210	if (m->tmpname != NULL)
216	LOG(llevError,"Tmpname: %s\n",m->tmpname);	211	LOG (llevError, "Tmpname: %s\n", m->tmpname);
217		212
218	LOG(llevError,"Difficulty: %d\n",m->difficulty);	213	LOG (llevError, "Difficulty: %d\n", m->difficulty);
219	LOG(llevError,"Darkness: %d\n",m->darkness);	214	LOG (llevError, "Darkness: %d\n", m->darkness);
220	}	215	}
221		216
222	/*	217	/*
223	* Prints out debug-information about all maps.	218	* Prints out debug-information about all maps.
224	* This basically just goes through all the maps and calls	219	* This basically just goes through all the maps and calls
225	* dump_map on each one.	220	* dump_map on each one.
226	*/	221	*/
227		222
		223	void
228	void dump_all_maps(void) {	224	dump_all_maps (void)
229	mapstruct *m;	225	{
230	for(m=first_map;m!=NULL;m=m->next) {	226	maptile *m;
		227
		228	for (m = first_map; m; m = m->next)
231	dump_map(m);	229	dump_map (m);
232	}
233	}	230	}
234		231
235	/* This rolls up wall, blocks_magic, blocks_view, etc, all into	232	/* This rolls up wall, blocks_magic, blocks_view, etc, all into
236	* one function that just returns a P_.. value (see map.h)	233	* one function that just returns a P_.. value (see map.h)
237	* it will also do map translation for tiled maps, returning	234	* it will also do map translation for tiled maps, returning
…		…
240	* by a P_NEW_MAP value, another call to get_map_from_coord	237	* by a P_NEW_MAP value, another call to get_map_from_coord
241	* is needed. The case of not passing values is if we're just	238	* is needed. The case of not passing values is if we're just
242	* checking for the existence of something on those spaces, but	239	* checking for the existence of something on those spaces, but
243	* don't expect to insert/remove anything from those spaces.	240	* don't expect to insert/remove anything from those spaces.
244	*/	241	*/
		242	int
245	int get_map_flags(mapstruct *oldmap, mapstruct **newmap, sint16 x, sint16 y, sint16 *nx, sint16 *ny)	243	get_map_flags (maptile *oldmap, maptile **newmap, sint16 x, sint16 y, sint16 *nx, sint16 *ny)
246	{	244	{
247	sint16 newx, newy;	245	sint16 newx, newy;
248	int retval=0;	246	int retval = 0;
249	mapstruct *mp;	247	maptile *mp;
250		248
251	if (out_of_map(oldmap, x, y)) return P_OUT_OF_MAP;
252	newx = x;	249	newx = x;
253	newy = y;	250	newy = y;
		251
254	mp = get_map_from_coord(oldmap, &newx, &newy);	252	mp = get_map_from_coord (oldmap, &newx, &newy);
		253
		254	if (!mp)
		255	return P_OUT_OF_MAP;
		256
255	if (mp != oldmap)	257	if (mp != oldmap)
256	retval |= P_NEW_MAP;	258	retval |= P_NEW_MAP;
		259
257	if (newmap) *newmap = mp;	260	if (newmap) *newmap = mp;
258	if (nx) *nx = newx;	261	if (nx) *nx = newx;
259	if (ny) *ny = newy;	262	if (ny) *ny = newy;
260	retval |= mp->spaces[newx + mp->width * newy].flags;
261		263
262	if (retval & P_SAFE)	264	return retval | mp->at (newx, newy).flags ();
263	retval |= P_NO_MAGIC | P_NO_CLERIC; // P_SAFE does imply these
264
265	return retval;
266	}	265	}
267
268		266
269	/*	267	/*
270	* Returns true if the given coordinate is blocked except by the	268	* Returns true if the given coordinate is blocked except by the
271	* object passed is not blocking. This is used with	269	* object passed is not blocking. This is used with
272	* multipart monsters - if we want to see if a 2x2 monster	270	* multipart monsters - if we want to see if a 2x2 monster
…		…
276	* monster.	274	* monster.
277	* m, x, y are the target map/coordinates - needed for map tiling.	275	* m, x, y are the target map/coordinates - needed for map tiling.
278	* the coordinates & map passed in should have been updated for tiling	276	* the coordinates & map passed in should have been updated for tiling
279	* by the caller.	277	* by the caller.
280	*/	278	*/
281		279	int
282	int blocked_link(object *ob, mapstruct *m, int sx, int sy) {	280	blocked_link (object *ob, maptile *m, int sx, int sy)
		281	{
283	object *tmp;	282	object *tmp;
284	int mflags, blocked;	283	int mflags, blocked;
285		284
286	/* Make sure the coordinates are valid - they should be, as caller should	285	/* Make sure the coordinates are valid - they should be, as caller should
287	* have already checked this.	286	* have already checked this.
288	*/	287	*/
289	if (OUT_OF_REAL_MAP(m, sx, sy)) {	288	if (OUT_OF_REAL_MAP (m, sx, sy))
		289	{
290	LOG(llevError,"blocked_link: Passed map, x, y coordinates outside of map\n");	290	LOG (llevError, "blocked_link: Passed map, x, y coordinates outside of map\n");
291	return 1;	291	return 1;
292	}	292	}
293		293
294	/* Save some cycles - instead of calling get_map_flags(), just get the value	294	/* Save some cycles - instead of calling get_map_flags(), just get the value
295	* directly.	295	* directly.
296	*/	296	*/
297	mflags = m->spaces[sx + m->width * sy].flags;	297	mflags = m->at (sx, sy).flags ();
298		298
299	blocked = GET_MAP_MOVE_BLOCK(m, sx, sy);	299	blocked = GET_MAP_MOVE_BLOCK (m, sx, sy);
300		300
301	/* If space is currently not blocked by anything, no need to	301	/* If space is currently not blocked by anything, no need to
302	* go further. Not true for players - all sorts of special	302	* go further. Not true for players - all sorts of special
303	* things we need to do for players.	303	* things we need to do for players.
304	*/	304	*/
305	if (ob->type != PLAYER && ! (mflags & P_IS_ALIVE) && (blocked==0)) return 0;	305	if (ob->type != PLAYER && !(mflags & P_IS_ALIVE) && (blocked == 0))
		306	return 0;
306		307
307	/* if there isn't anytyhing alive on this space, and this space isn't	308	/* if there isn't anytyhing alive on this space, and this space isn't
308	* otherwise blocked, we can return now. Only if there is a living	309	* otherwise blocked, we can return now. Only if there is a living
309	* creature do we need to investigate if it is part of this creature	310	* creature do we need to investigate if it is part of this creature
310	* or another. Likewise, only if something is blocking us do we	311	* or another. Likewise, only if something is blocking us do we
311	* need to investigate if there is a special circumstance that would	312	* need to investigate if there is a special circumstance that would
312	* let the player through (inventory checkers for example)	313	* let the player through (inventory checkers for example)
313	*/	314	*/
314	if (!(mflags & P_IS_ALIVE) && !OB_TYPE_MOVE_BLOCK(ob, blocked)) return 0;	315	if (!(mflags & P_IS_ALIVE) && !OB_TYPE_MOVE_BLOCK (ob, blocked))
		316	return 0;
315		317
316	if(ob->head != NULL)	318	if (ob->head != NULL)
317	ob=ob->head;	319	ob = ob->head;
318		320
319	/* We basically go through the stack of objects, and if there is	321	/* We basically go through the stack of objects, and if there is
320	* some other object that has NO_PASS or FLAG_ALIVE set, return	322	* some other object that has NO_PASS or FLAG_ALIVE set, return
321	* true. If we get through the entire stack, that must mean	323	* true. If we get through the entire stack, that must mean
322	* ob is blocking it, so return 0.	324	* ob is blocking it, so return 0.
323	*/	325	*/
324	for(tmp = GET_MAP_OB(m,sx,sy); tmp!= NULL; tmp = tmp->above) {	326	for (tmp = GET_MAP_OB (m, sx, sy); tmp; tmp = tmp->above)
		327	{
325		328
326	/* This must be before the checks below. Code for inventory checkers. */	329	/* This must be before the checks below. Code for inventory checkers. */
327	if (tmp->type==CHECK_INV && OB_MOVE_BLOCK(ob, tmp)) {	330	if (tmp->type == CHECK_INV && OB_MOVE_BLOCK (ob, tmp))
		331	{
328	/* If last_sp is set, the player/monster needs an object,	332	/* If last_sp is set, the player/monster needs an object,
329	* so we check for it. If they don't have it, they can't	333	* so we check for it. If they don't have it, they can't
330	* pass through this space.	334	* pass through this space.
331	*/	335	*/
332	if (tmp->last_sp) {	336	if (tmp->last_sp)
		337	{
333	if (check_inv_recursive(ob,tmp)==NULL)	338	if (check_inv_recursive (ob, tmp) == NULL)
334	return 1;	339	return 1;
335	else	340	else
336	continue;	341	continue;
337	} else {
338	/* In this case, the player must not have the object -
339	* if they do, they can't pass through.
340	*/
341	if (check_inv_recursive(ob,tmp)!=NULL) /* player has object */
342	return 1;
343	else
344	continue;
345	}	342	}
346	} /* if check_inv */
347	else {	343	else
		344	{
		345	/* In this case, the player must not have the object -
		346	* if they do, they can't pass through.
		347	*/
		348	if (check_inv_recursive (ob, tmp) != NULL) /* player has object */
		349	return 1;
		350	else
		351	continue;
		352	}
		353	} /* if check_inv */
		354	else
		355	{
348	/* Broke apart a big nasty if into several here to make	356	/* Broke apart a big nasty if into several here to make
349	* this more readable. first check - if the space blocks	357	* this more readable. first check - if the space blocks
350	* movement, can't move here.	358	* movement, can't move here.
351	* second - if a monster, can't move there, unles it is a	359	* second - if a monster, can't move there, unles it is a
352	* hidden dm	360	* hidden dm
353	*/	361	*/
354	if (OB_MOVE_BLOCK(ob, tmp)) return 1;	362	if (OB_MOVE_BLOCK (ob, tmp))
		363	return 1;
355	if (QUERY_FLAG(tmp,FLAG_ALIVE) && tmp->head != ob && tmp != ob &&	364	if (QUERY_FLAG (tmp, FLAG_ALIVE) && tmp->head != ob && tmp != ob &&
356	tmp->type != DOOR && !(QUERY_FLAG(tmp,FLAG_WIZ) && tmp->contr->hidden))	365	tmp->type != DOOR && !(QUERY_FLAG (tmp, FLAG_WIZ) && tmp->contr->hidden))
357	return 1;	366	return 1;
358	}	367	}
359		368
360	}	369	}
361	return 0;	370	return 0;
362	}	371	}
363		372
364		373
365	/*	374	/*
366	* Returns true if the given object can't fit in the given spot.	375	* Returns true if the given object can't fit in the given spot.
…		…
386	*	395	*
387	* Note this used to be arch_blocked, but with new movement	396	* Note this used to be arch_blocked, but with new movement
388	* code, we need to have actual object to check its move_type	397	* code, we need to have actual object to check its move_type
389	* against the move_block values.	398	* against the move_block values.
390	*/	399	*/
391		400	int
392	int ob_blocked(const object *ob,mapstruct *m,sint16 x,sint16 y) {	401	ob_blocked (const object *ob, maptile *m, sint16 x, sint16 y)
		402	{
393	archetype *tmp;	403	archetype *tmp;
394	int flag;	404	int flag;
395	mapstruct *m1;	405	maptile *m1;
396	sint16 sx, sy;	406	sint16 sx, sy;
397		407
398	if(ob==NULL) {	408	if (ob == NULL)
		409	{
399	flag= get_map_flags(m,&m1, x,y, &sx, &sy);	410	flag = get_map_flags (m, &m1, x, y, &sx, &sy);
400	if (flag & P_OUT_OF_MAP) return P_OUT_OF_MAP;	411	if (flag & P_OUT_OF_MAP)
		412	return P_OUT_OF_MAP;
401		413
402	/* don't have object, so don't know what types would block */	414	/* don't have object, so don't know what types would block */
403	return(GET_MAP_MOVE_BLOCK(m1, sx, sy));	415	return m1->at (sx, sy).move_block;
404	}	416	}
405		417
406	for(tmp=ob->arch; tmp!=NULL;tmp=tmp->more) {	418	for (tmp = ob->arch; tmp; tmp = tmp->more)
		419	{
407	flag = get_map_flags(m, &m1, x+tmp->clone.x,y+tmp->clone.y, &sx, &sy);	420	flag = get_map_flags (m, &m1, x + tmp->clone.x, y + tmp->clone.y, &sx, &sy);
408		421
409	if (flag & P_OUT_OF_MAP) return P_OUT_OF_MAP;	422	if (flag & P_OUT_OF_MAP)
410	if (flag & P_IS_ALIVE) return P_IS_ALIVE;	423	return P_OUT_OF_MAP;
		424	if (flag & P_IS_ALIVE)
		425	return P_IS_ALIVE;
411		426
		427	mapspace &ms = m1->at (sx, sy);
		428
		429
412	/* find_first_free_spot() calls this function. However, often	430	/* find_first_free_spot() calls this function. However, often
413	* ob doesn't have any move type (when used to place exits)	431	* ob doesn't have any move type (when used to place exits)
414	* so the AND operation in OB_TYPE_MOVE_BLOCK doesn't work.	432	* so the AND operation in OB_TYPE_MOVE_BLOCK doesn't work.
415	*/	433	*/
416		434
417	if (ob->move_type == 0 && GET_MAP_MOVE_BLOCK(m1, sx, sy) != MOVE_ALL) continue;	435	if (ob->move_type == 0 && ms.move_block != MOVE_ALL)
		436	continue;
418		437
419	/* Note it is intentional that we check ob - the movement type of the	438	/* Note it is intentional that we check ob - the movement type of the
420	* head of the object should correspond for the entire object.	439	* head of the object should correspond for the entire object.
421	*/	440	*/
422	if (OB_TYPE_MOVE_BLOCK(ob, GET_MAP_MOVE_BLOCK(m1, sx, sy)))	441	if (OB_TYPE_MOVE_BLOCK (ob, ms.move_block))
423	return AB_NO_PASS;	442	return P_NO_PASS;
424
425	}	443	}
		444
426	return 0;	445	return 0;
427	}	446	}
428		447
429	/* When the map is loaded, load_object does not actually insert objects	448	/* When the map is loaded, load_object does not actually insert objects
430	* into inventory, but just links them. What this does is go through	449	* into inventory, but just links them. What this does is go through
431	* and insert them properly.	450	* and insert them properly.
432	* The object 'container' is the object that contains the inventory.	451	* The object 'container' is the object that contains the inventory.
433	* This is needed so that we can update the containers weight.	452	* This is needed so that we can update the containers weight.
434	*/	453	*/
435		454
		455	void
436	void fix_container(object *container)	456	fix_container (object *container)
437	{	457	{
438	object *tmp=container->inv, *next;	458	object *tmp = container->inv, *next;
439		459
440	container->inv=NULL;	460	container->inv = NULL;
441	while (tmp!=NULL) {	461	while (tmp != NULL)
		462	{
442	next = tmp->below;	463	next = tmp->below;
443	if (tmp->inv)	464	if (tmp->inv)
444	fix_container(tmp);	465	fix_container (tmp);
445	(void) insert_ob_in_ob(tmp,container);	466	(void) insert_ob_in_ob (tmp, container);
446	tmp = next;	467	tmp = next;
447	}	468	}
448	/* sum_weight will go through and calculate what all the containers are	469	/* sum_weight will go through and calculate what all the containers are
449	* carrying.	470	* carrying.
450	*/	471	*/
451	sum_weight(container);	472	sum_weight (container);
452	}	473	}
453		474
454	/* link_multipart_objects go through all the objects on the map looking	475	/* link_multipart_objects go through all the objects on the map looking
455	* for objects whose arch says they are multipart yet according to the	476	* for objects whose arch says they are multipart yet according to the
456	* info we have, they only have the head (as would be expected when	477	* info we have, they only have the head (as would be expected when
457	* they are saved). We do have to look for the old maps that did save	478	* they are saved). We do have to look for the old maps that did save
458	* the more sections and not re-add sections for them.	479	* the more sections and not re-add sections for them.
459	*/	480	*/
460		481
461	static void link_multipart_objects(mapstruct *m)	482	static void
		483	link_multipart_objects (maptile *m)
462	{	484	{
463	int x,y;	485	int x, y;
464	object *tmp, *op, *last, *above;	486	object *tmp, *op, *last, *above;
465	archetype *at;	487	archetype *at;
466		488
467	for(x=0;x<MAP_WIDTH(m);x++)	489	for (x = 0; x < m->width; x++)
468	for(y=0;y<MAP_HEIGHT(m);y++)	490	for (y = 0; y < m->height; y++)
469	for(tmp=get_map_ob(m,x,y);tmp!=NULL;tmp=above) {	491	for (tmp = GET_MAP_OB (m, x, y); tmp != NULL; tmp = above)
		492	{
470	above=tmp->above;	493	above = tmp->above;
471		494
472	/* already multipart - don't do anything more */	495	/* already multipart - don't do anything more */
473	if (tmp->head || tmp->more) continue;	496	if (tmp->head || tmp->more)
		497	continue;
474		498
475	/* If there is nothing more to this object, this for loop	499	/* If there is nothing more to this object, this for loop
476	* won't do anything.	500	* won't do anything.
477	*/	501	*/
478	for (at = tmp->arch->more, last=tmp; at != NULL; at=at->more, last=op) {	502	for (at = tmp->arch->more, last = tmp; at != NULL; at = at->more, last = op)
		503	{
479	op = arch_to_object(at);	504	op = arch_to_object (at);
480		505
481	/* update x,y coordinates */	506	/* update x,y coordinates */
482	op->x += tmp->x;	507	op->x += tmp->x;
483	op->y += tmp->y;	508	op->y += tmp->y;
484	op->head = tmp;	509	op->head = tmp;
485	op->map = m;	510	op->map = m;
486	last->more = op;	511	last->more = op;
487	op->name = tmp->name;	512	op->name = tmp->name;
488	op->title = tmp->title;	513	op->title = tmp->title;
489	/* we could link all the parts onto tmp, and then just	514	/* we could link all the parts onto tmp, and then just
490	* call insert_ob_in_map once, but the effect is the same,	515	* call insert_ob_in_map once, but the effect is the same,
491	* as insert_ob_in_map will call itself with each part, and	516	* as insert_ob_in_map will call itself with each part, and
492	* the coding is simpler to just to it here with each part.	517	* the coding is simpler to just to it here with each part.
493	*/	518	*/
494	insert_ob_in_map(op, op->map, tmp,INS_NO_MERGE|INS_ABOVE_FLOOR_ONLY|INS_NO_WALK_ON);	519	insert_ob_in_map (op, op->map, tmp, INS_NO_MERGE | INS_ABOVE_FLOOR_ONLY | INS_NO_WALK_ON);
495	} /* for at = tmp->arch->more */	520	} /* for at = tmp->arch->more */
496	} /* for objects on this space */	521	} /* for objects on this space */
497	}	522	}
498		523
499	/*	524	/*
500	* Loads (ands parses) the objects into a given map from the specified	525	* Loads (ands parses) the objects into a given map from the specified
501	* file pointer.	526	* file pointer.
502	* mapflags is the same as we get with load_original_map	527	* mapflags is the same as we get with load_original_map
503	*/	528	*/
504	void	529	void
505	load_objects (mapstruct *m, object_thawer &fp, int mapflags)	530	load_objects (maptile *m, object_thawer & fp, int mapflags)
506	{	531	{
507	int i, j;	532	int i, j;
508	int unique;	533	int unique;
509	object *op, *prev = NULL, *last_more = NULL, *otmp;	534	object *op, *prev = NULL, *last_more = NULL, *otmp;
510		535
511	op = get_object ();	536	op = object::create ();
512	op->map = m; /* To handle buttons correctly */	537	op->map = m; /* To handle buttons correctly */
513		538
514	while ((i = load_object (fp, op, mapflags)))	539	while ((i = load_object (fp, op, mapflags)))
515	{	540	{
516	/* if the archetype for the object is null, means that we	541	/* if the archetype for the object is null, means that we
517	* got an invalid object. Don't do anything with it - the game	542	* got an invalid object. Don't do anything with it - the game
518	* or editor will not be able to do anything with it either.	543	* or editor will not be able to do anything with it either.
519	*/	544	*/
520	if (op->arch == NULL)	545	if (op->arch == NULL)
521	{	546	{
522	LOG (llevDebug, "Discarding object without arch: %s\n",	547	LOG (llevDebug, "Discarding object without arch: %s\n", op->name ? (const char *) op->name : "(null)");
523	op->name ? (const char *) op->name : "(null)");
524	continue;	548	continue;
525	}	549	}
526
527		550
528	switch (i)	551	switch (i)
529	{	552	{
530	case LL_NORMAL:	553	case LL_NORMAL:
531	/* if we are loading an overlay, put the floors on the bottom */	554	/* if we are loading an overlay, put the floors on the bottom */
532	if ((QUERY_FLAG (op, FLAG_IS_FLOOR) ||
533	QUERY_FLAG (op, FLAG_OVERLAY_FLOOR)) && mapflags & MAP_OVERLAY)	555	if ((QUERY_FLAG (op, FLAG_IS_FLOOR) || QUERY_FLAG (op, FLAG_OVERLAY_FLOOR)) && mapflags & MAP_OVERLAY)
534	insert_ob_in_map (op, m, op,	556	insert_ob_in_map (op, m, op, INS_NO_MERGE | INS_NO_WALK_ON | INS_ABOVE_FLOOR_ONLY | INS_MAP_LOAD);
535	INS_NO_MERGE | INS_NO_WALK_ON |
536	INS_ABOVE_FLOOR_ONLY | INS_MAP_LOAD);
537	else	557	else
538	insert_ob_in_map (op, m, op,	558	insert_ob_in_map (op, m, op, INS_NO_MERGE | INS_NO_WALK_ON | INS_ON_TOP | INS_MAP_LOAD);
539	INS_NO_MERGE | INS_NO_WALK_ON | INS_ON_TOP |
540	INS_MAP_LOAD);
541		559
542	if (op->inv)	560	if (op->inv)
543	sum_weight (op);	561	sum_weight (op);
544		562
545	prev = op, last_more = op;	563	prev = op, last_more = op;
546	break;	564	break;
547		565
548	case LL_MORE:	566	case LL_MORE:
549	insert_ob_in_map (op, m, op,	567	insert_ob_in_map (op, m, op, INS_NO_MERGE | INS_NO_WALK_ON | INS_ABOVE_FLOOR_ONLY);
550	INS_NO_MERGE | INS_NO_WALK_ON |
551	INS_ABOVE_FLOOR_ONLY);
552	op->head = prev, last_more->more = op, last_more = op;	568	op->head = prev, last_more->more = op, last_more = op;
553	break;	569	break;
554	}	570	}
555		571
556	if (mapflags & MAP_STYLE)	572	if (mapflags & MAP_STYLE)
557	remove_from_active_list (op);	573	remove_from_active_list (op);
558		574
559	op = get_object ();	575	op = object::create ();
560	op->map = m;	576	op->map = m;
561	}	577	}
562		578
563	for (i = 0; i < m->width; i++)	579	for (i = 0; i < m->width; i++)
564	{	580	{
565	for (j = 0; j < m->height; j++)	581	for (j = 0; j < m->height; j++)
566	{	582	{
567	unique = 0;	583	unique = 0;
568	/* check for unique items, or unique squares */	584	/* check for unique items, or unique squares */
569	for (otmp = get_map_ob (m, i, j); otmp; otmp = otmp->above)	585	for (otmp = GET_MAP_OB (m, i, j); otmp; otmp = otmp->above)
570	{	586	{
571	if (QUERY_FLAG (otmp, FLAG_UNIQUE)	587	if (QUERY_FLAG (otmp, FLAG_UNIQUE) || QUERY_FLAG (otmp, FLAG_OBJ_SAVE_ON_OVL))
572	|| QUERY_FLAG (otmp, FLAG_OBJ_SAVE_ON_OVL))
573	unique = 1;	588	unique = 1;
		589
574	if (!(mapflags & (MAP_OVERLAY | MAP_PLAYER_UNIQUE) || unique))	590	if (!(mapflags & (MAP_OVERLAY | MAP_PLAYER_UNIQUE) || unique))
575	SET_FLAG (otmp, FLAG_OBJ_ORIGINAL);	591	SET_FLAG (otmp, FLAG_OBJ_ORIGINAL);
576	}	592	}
577	}	593	}
578	}	594	}
579		595
580	free_object (op);	596	op->destroy ();
581	link_multipart_objects (m);	597	link_multipart_objects (m);
582	}	598	}
583		599
584	/* This saves all the objects on the map in a non destructive fashion.	600	/* This saves all the objects on the map in a non destructive fashion.
585	* Modified by MSW 2001-07-01 to do in a single pass - reduces code,	601	* Modified by MSW 2001-07-01 to do in a single pass - reduces code,
586	* and we only save the head of multi part objects - this is needed	602	* and we only save the head of multi part objects - this is needed
587	* in order to do map tiling properly.	603	* in order to do map tiling properly.
588	*/	604	*/
		605	void
589	void save_objects (mapstruct *m, object_freezer &fp, object_freezer &fp2, int flag) {	606	save_objects (maptile *m, object_freezer & fp, object_freezer & fp2, int flag)
		607	{
590	int i, j = 0,unique=0;	608	int i, j = 0, unique = 0;
591	object *op;	609	object *op;
		610
592	/* first pass - save one-part objects */	611	/* first pass - save one-part objects */
593	for(i = 0; i < MAP_WIDTH(m); i++)	612	for (i = 0; i < m->width; i++)
594	for (j = 0; j < MAP_HEIGHT(m); j++) {	613	for (j = 0; j < m->height; j++)
		614	{
		615	unique = 0;
		616	for (op = m->at (i, j).bot; op; op = op->above)
		617	{
		618	if (op->flag [FLAG_IS_FLOOR] && op->flag [FLAG_UNIQUE])
595	unique=0;	619	unique = 1;
596	for(op = get_map_ob (m, i, j); op; op = op->above) {
597	if (QUERY_FLAG(op,FLAG_IS_FLOOR) && QUERY_FLAG(op, FLAG_UNIQUE))
598	unique=1;
599		620
600	if(op->type == PLAYER) {	621	if (op->type == PLAYER)
601	LOG(llevDebug, "Player on map that is being saved\n");
602	continue;	622	continue;
603	}
604		623
605	if (op->head || op->owner)	624	if (op->head || op->owner)
606	continue;	625	continue;
607		626
608	if (unique || QUERY_FLAG(op, FLAG_UNIQUE))	627	if (unique || op->flag [FLAG_UNIQUE])
609	save_object (fp2, op, 3);	628	save_object (fp2, op, 3);
610	else	629	else if (flag == 0 || (flag == 2 && (!op->flag [FLAG_OBJ_ORIGINAL] && !op->flag [FLAG_UNPAID])))
611	if (flag == 0 ||
612	(flag == 2 && (!QUERY_FLAG(op, FLAG_OBJ_ORIGINAL) &&
613	!QUERY_FLAG(op, FLAG_UNPAID))))
614	save_object(fp, op, 3);	630	save_object (fp, op, 3);
		631	}
		632	}
		633	}
615		634
616	} /* for this space */	635	maptile::maptile ()
617	} /* for this j */	636	{
		637	in_memory = MAP_SWAPPED;
		638	/* The maps used to pick up default x and y values from the
		639	* map archetype. Mimic that behaviour.
		640	*/
		641	this->width = 16;
		642	this->height = 16;
		643	this->reset_timeout = 0;
		644	this->timeout = 300;
		645	this->enter_x = 0;
		646	this->enter_y = 0;
		647	/*set part to -1 indicating conversion to weather map not yet done */
		648	this->worldpartx = -1;
		649	this->worldparty = -1;
618	}	650	}
619		651
620	/*	652	/*
621	* Allocates, initialises, and returns a pointer to a mapstruct.	653	* Allocates, initialises, and returns a pointer to a maptile.
622	* Modified to no longer take a path option which was not being	654	* Modified to no longer take a path option which was not being
623	* used anyways. MSW 2001-07-01	655	* used anyways. MSW 2001-07-01
624	*/	656	*/
		657	maptile *
		658	get_linked_map (void)
		659	{
		660	maptile *mp, *map = new maptile;
625		661
626	mapstruct *get_linked_map(void) {
627	mapstruct *map = new mapstruct;
628	mapstruct *mp;
629
630	for(mp=first_map;mp!=NULL&&mp->next!=NULL;mp=mp->next);	662	for (mp = first_map; mp && mp->next; mp = mp->next);
		663
631	if(mp==NULL)	664	if (mp == NULL)
632	first_map=map;	665	first_map = map;
633	else	666	else
634	mp->next=map;	667	mp->next = map;
635		668
636	map->in_memory=MAP_SWAPPED;
637	/* The maps used to pick up default x and y values from the
638	* map archetype. Mimic that behaviour.
639	*/
640	MAP_WIDTH(map)=16;
641	MAP_HEIGHT(map)=16;
642	MAP_RESET_TIMEOUT(map)=0;
643	MAP_TIMEOUT(map)=300;
644	MAP_ENTER_X(map)=0;
645	MAP_ENTER_Y(map)=0;
646	/*set part to -1 indicating conversion to weather map not yet done*/
647	MAP_WORLDPARTX(map)=-1;
648	MAP_WORLDPARTY(map)=-1;
649	return map;	669	return map;
650	}	670	}
651		671
652	/*	672	/*
653	* Allocates the arrays contained in a mapstruct.	673	* Allocates the arrays contained in a maptile.
654	* This basically allocates the dynamic array of spaces for the	674	* This basically allocates the dynamic array of spaces for the
655	* map.	675	* map.
656	*/	676	*/
657		677	void
658	void allocate_map(mapstruct *m) {	678	maptile::allocate ()
		679	{
659	m->in_memory = MAP_IN_MEMORY;	680	in_memory = MAP_IN_MEMORY;
		681
660	/* Log this condition and free the storage. We could I suppose	682	/* Log this condition and free the storage. We could I suppose
661	* realloc, but if the caller is presuming the data will be intact,	683	* realloc, but if the caller is presuming the data will be intact,
662	* that is their poor assumption.	684	* that is their poor assumption.
663	*/	685	*/
664	if (m->spaces) {	686	if (spaces)
		687	{
665	LOG(llevError,"allocate_map called with already allocated map (%s)\n", m->path);	688	LOG (llevError, "allocate_map called with already allocated map (%s)\n", path);
666	free(m->spaces);	689	free (spaces);
667	}	690	}
668		691
669	m->spaces = (MapSpace *) calloc(1, MAP_WIDTH(m) * MAP_HEIGHT(m) * sizeof(MapSpace));	692	spaces = (mapspace *)
		693	calloc (1, width * height * sizeof (mapspace));
670		694
671	if(m->spaces==NULL)	695	if (!spaces)
672	fatal(OUT_OF_MEMORY);	696	fatal (OUT_OF_MEMORY);
673	}	697	}
674		698
675	/* Create and returns a map of the specific size. Used	699	/* Create and returns a map of the specific size. Used
676	* in random map code and the editor.	700	* in random map code and the editor.
677	*/	701	*/
		702	maptile *
678	mapstruct *get_empty_map(int sizex, int sizey) {	703	get_empty_map (int sizex, int sizey)
		704	{
679	mapstruct *m = get_linked_map();	705	maptile *m = get_linked_map ();
		706
680	m->width = sizex;	707	m->width = sizex;
681	m->height = sizey;	708	m->height = sizey;
682	m->in_memory = MAP_SWAPPED;	709	m->in_memory = MAP_SWAPPED;
683	allocate_map(m);	710	m->allocate ();
		711
684	return m;	712	return m;
685	}	713	}
686		714
687	/* Takes a string from a map definition and outputs a pointer to the array of shopitems	715	/* Takes a string from a map definition and outputs a pointer to the array of shopitems
688	* corresponding to that string. Memory is allocated for this, it must be freed	716	* corresponding to that string. Memory is allocated for this, it must be freed
689	* at a later date.	717	* at a later date.
690	* Called by parse_map_headers below.	718	* Called by parse_map_headers below.
691	*/	719	*/
692		720
		721	static shopitems *
693	static shopitems *parse_shop_string (const char *input_string) {	722	parse_shop_string (const char *input_string)
		723	{
694	char *shop_string, *p, *q, *next_semicolon, *next_colon;	724	char *shop_string, *p, *q, *next_semicolon, *next_colon;
695	shopitems *items=NULL;	725	shopitems *items = NULL;
696	int i=0, number_of_entries=0;	726	int i = 0, number_of_entries = 0;
697	const typedata *current_type;	727	const typedata *current_type;
698		728
699	shop_string=strdup_local(input_string);	729	shop_string = strdup (input_string);
700	p=shop_string;	730	p = shop_string;
701	/* first we'll count the entries, we'll need that for allocating the array shortly */	731	/* first we'll count the entries, we'll need that for allocating the array shortly */
702	while (p) {	732	while (p)
		733	{
703	p=strchr(p, ';');	734	p = strchr (p, ';');
704	number_of_entries++;	735	number_of_entries++;
705	if (p) p++;	736	if (p)
		737	p++;
706	}	738	}
707	p=shop_string;	739	p = shop_string;
708	strip_endline(p);	740	strip_endline (p);
709	items=(shopitems *) CALLOC(number_of_entries+1, sizeof(shopitems));	741	items = new shopitems[number_of_entries + 1];
710	memset(items, 0, (sizeof(shopitems) * number_of_entries+1));
711	for (i=0; i<number_of_entries; i++) {	742	for (i = 0; i < number_of_entries; i++)
		743	{
712	if (!p) {	744	if (!p)
		745	{
713	LOG(llevError, "parse_shop_string: I seem to have run out of string, that shouldn't happen.\n");	746	LOG (llevError, "parse_shop_string: I seem to have run out of string, that shouldn't happen.\n");
714	break;	747	break;
715	}	748	}
716	next_semicolon=strchr(p, ';');	749	next_semicolon = strchr (p, ';');
717	next_colon=strchr(p, ':');	750	next_colon = strchr (p, ':');
718	/* if there is a stregth specified, figure out what it is, we'll need it soon. */	751	/* if there is a stregth specified, figure out what it is, we'll need it soon. */
719	if (next_colon &&( !next_semicolon || next_colon<next_semicolon))	752	if (next_colon && (!next_semicolon || next_colon < next_semicolon))
720	items[i].strength=atoi(strchr(p,':')+1);	753	items[i].strength = atoi (strchr (p, ':') + 1);
		754
		755	if (isdigit (*p) || *p == '*')
721		756	{
722	if (isdigit(*p) || *p=='*') {
723	items[i].typenum = atoi(p); /* atoi returns 0 when we have an asterisk */	757	items[i].typenum = atoi (p); /* atoi returns 0 when we have an asterisk */
724	current_type=get_typedata(items[i].typenum);	758	current_type = get_typedata (items[i].typenum);
725	if (current_type) {	759	if (current_type)
		760	{
726	items[i].name=current_type->name;	761	items[i].name = current_type->name;
727	items[i].name_pl=current_type->name_pl;	762	items[i].name_pl = current_type->name_pl;
728	}
729	}
730	else { /*we have a named type, let's figure out what it is */
731	q=strpbrk(p,";:");
732	if (q) *q='\0';
733
734	current_type=get_typedata_by_name(p);
735	if (current_type) {
736	items[i].name=current_type->name;
737	items[i].typenum=current_type->number;
738	items[i].name_pl=current_type->name_pl;
739	}	763	}
740	else { /* oh uh, something's wrong, let's free up this one, and try	764	}
741	* the next entry while we're at it, better print a warning	765	else
742	*/	766	{ /*we have a named type, let's figure out what it is */
743	LOG(llevError, "invalid type %s defined in shopitems in string %s\n",	767	q = strpbrk (p, ";:");
744	p, input_string);	768	if (q)
		769	*q = '\0';
		770
		771	current_type = get_typedata_by_name (p);
		772	if (current_type)
		773	{
		774	items[i].name = current_type->name;
		775	items[i].typenum = current_type->number;
		776	items[i].name_pl = current_type->name_pl;
745	}	777	}
		778	else
		779	{ /* oh uh, something's wrong, let's free up this one, and try
		780	* the next entry while we're at it, better print a warning
		781	*/
		782	LOG (llevError, "invalid type %s defined in shopitems in string %s\n", p, input_string);
746	}	783	}
		784	}
747	items[i].index=number_of_entries;	785	items[i].index = number_of_entries;
748	if (next_semicolon) p=++next_semicolon;	786	if (next_semicolon)
		787	p = ++next_semicolon;
		788	else
749	else p=NULL;	789	p = NULL;
750	}	790	}
751	free(shop_string);	791	free (shop_string);
752	return items;	792	return items;
753	}	793	}
754		794
755	/* opposite of parse string, this puts the string that was originally fed in to	795	/* opposite of parse string, this puts the string that was originally fed in to
756	* the map (or something equivilent) into output_string. */	796	* the map (or something equivilent) into output_string. */
		797	static void
757	static void print_shop_string(mapstruct *m, char *output_string) {	798	print_shop_string (maptile *m, char *output_string)
		799	{
758	int i;	800	int i;
759	char tmp[MAX_BUF];	801	char tmp[MAX_BUF];
		802
760	strcpy(output_string, "");	803	strcpy (output_string, "");
761	for (i=0; i< m->shopitems[0].index; i++) {	804	for (i = 0; i < m->shopitems[0].index; i++)
		805	{
762	if (m->shopitems[i].typenum) {	806	if (m->shopitems[i].typenum)
		807	{
763	if (m->shopitems[i].strength) {	808	if (m->shopitems[i].strength)
		809	{
764	sprintf(tmp, "%s:%d;", m->shopitems[i].name, m->shopitems[i].strength);	810	sprintf (tmp, "%s:%d;", m->shopitems[i].name, m->shopitems[i].strength);
765	}	811	}
		812	else
766	else sprintf(tmp, "%s;", m->shopitems[i].name);	813	sprintf (tmp, "%s;", m->shopitems[i].name);
		814	}
		815	else
767	}	816	{
768	else {
769	if (m->shopitems[i].strength) {	817	if (m->shopitems[i].strength)
		818	{
770	sprintf(tmp, "*:%d;", m->shopitems[i].strength);	819	sprintf (tmp, "*:%d;", m->shopitems[i].strength);
771	}	820	}
		821	else
772	else sprintf(tmp, "*");	822	sprintf (tmp, "*");
773	}	823	}
774	strcat(output_string, tmp);	824	strcat (output_string, tmp);
775	}	825	}
776	}	826	}
777		827
778	/* This loads the header information of the map. The header	828	/* This loads the header information of the map. The header
779	* contains things like difficulty, size, timeout, etc.	829	* contains things like difficulty, size, timeout, etc.
…		…
786	* currently, there are few enough fields this is not a big deal.	836	* currently, there are few enough fields this is not a big deal.
787	* MSW 2001-07-01	837	* MSW 2001-07-01
788	* return 0 on success, 1 on failure.	838	* return 0 on success, 1 on failure.
789	*/	839	*/
790		840
		841	static int
791	static int load_map_header(object_thawer &fp, mapstruct *m)	842	load_map_header (object_thawer & fp, maptile *m)
792	{	843	{
793	char buf[HUGE_BUF], msgbuf[HUGE_BUF], maplorebuf[HUGE_BUF], *key=NULL, *value, *end;	844	char buf[HUGE_BUF], msgbuf[HUGE_BUF], maplorebuf[HUGE_BUF], *key = NULL, *value, *end;
794	int msgpos=0;	845	int msgpos = 0;
795	int maplorepos=0;	846	int maplorepos = 0;
796		847
797	while (fgets(buf, HUGE_BUF-1, fp)!=NULL) {	848	while (fgets (buf, HUGE_BUF, fp) != NULL)
		849	{
798	buf[HUGE_BUF-1] = 0;	850	buf[HUGE_BUF - 1] = 0;
799	key = buf;	851	key = buf;
		852
800	while (isspace(*key)) key++;	853	while (isspace (*key))
801	if (*key == 0) continue; /* empty line */	854	key++;
		855
		856	if (*key == 0)
		857	continue; /* empty line */
		858
802	value = strchr(key, ' ');	859	value = strchr (key, ' ');
		860
803	if (!value) {	861	if (!value)
		862	{
804	end = strchr(key, '\n');	863	if ((end = strchr (key, '\n')))
805	if (end != NULL) {
806	*end = 0;	864	*end = 0;
807	}	865	}
808	} else {	866	else
		867	{
809	*value = 0;	868	*value = 0;
810	value++;	869	value++;
811	end = strchr(value, '\n');	870	end = strchr (value, '\n');
		871
812	while (isspace(*value)) {	872	while (isspace (*value))
		873	{
813	value++;	874	value++;
		875
814	if (*value == '\0' || value == end) {	876	if (*value == '\0' || value == end)
		877	{
815	/* Nothing but spaces. */	878	/* Nothing but spaces. */
816	value = NULL;	879	value = NULL;
817	break;	880	break;
818	}	881	}
819	}	882	}
820	}	883	}
821		884
822	if (!end) {	885	if (!end)
		886	{
823	LOG(llevError, "Error loading map header - did not find a newline - perhaps file is truncated? Buf=%s\n",	887	LOG (llevError, "Error loading map header - did not find a newline - perhaps file is truncated? Buf=%s\n", buf);
824	buf);
825	return 1;	888	return 1;
826	}	889	}
827		890
828	/* key is the field name, value is what it should be set	891	/* key is the field name, value is what it should be set
829	* to. We've already done the work to null terminate key,	892	* to. We've already done the work to null terminate key,
830	* and strip off any leading spaces for both of these.	893	* and strip off any leading spaces for both of these.
831	* We have not touched the newline at the end of the line -	894	* We have not touched the newline at the end of the line -
832	* these are needed for some values. the end pointer	895	* these are needed for some values. the end pointer
833	* points to the first of the newlines.	896	* points to the first of the newlines.
834	* value could be NULL! It would be easy enough to just point	897	* value could be NULL! It would be easy enough to just point
835	* this to "" to prevent cores, but that would let more errors slide	898	* this to "" to prevent cores, but that would let more errors slide
836	* through.	899	* through.
837	*	900	*
838	* First check for entries that do not use the value parameter, then	901	* First check for entries that do not use the value parameter, then
839	* validate that value is given and check for the remaining entries	902	* validate that value is given and check for the remaining entries
840	* that use the parameter.	903	* that use the parameter.
841	*/	904	*/
842		905
843	if (!strcmp(key,"msg")) {	906	if (!strcmp (key, "msg"))
		907	{
844	while (fgets(buf, HUGE_BUF-1, fp)!=NULL) {	908	while (fgets (buf, HUGE_BUF, fp) != NULL)
		909	{
845	if (!strcmp(buf,"endmsg\n")) break;	910	if (!strcmp (buf, "endmsg\n"))
		911	break;
846	else {	912	else
		913	{
847	/* slightly more efficient than strcat */	914	/* slightly more efficient than strcat */
848	strcpy(msgbuf+msgpos, buf);	915	strcpy (msgbuf + msgpos, buf);
849	msgpos += strlen(buf);	916	msgpos += strlen (buf);
850	}	917	}
851	}	918	}
852	/* There are lots of maps that have empty messages (eg, msg/endmsg	919	/* There are lots of maps that have empty messages (eg, msg/endmsg
853	* with nothing between). There is no reason in those cases to	920	* with nothing between). There is no reason in those cases to
854	* keep the empty message. Also, msgbuf contains garbage data	921	* keep the empty message. Also, msgbuf contains garbage data
855	* when msgpos is zero, so copying it results in crashes	922	* when msgpos is zero, so copying it results in crashes
856	*/	923	*/
857	if (msgpos != 0)	924	if (msgpos != 0)
858	m->msg = strdup_local(msgbuf);	925	m->msg = strdup (msgbuf);
859	}	926	}
860	else if (!strcmp(key,"maplore")) {	927	else if (!strcmp (key, "maplore"))
		928	{
861	while (fgets(buf, HUGE_BUF-1, fp)!=NULL) {	929	while (fgets (buf, HUGE_BUF, fp) != NULL)
		930	{
862	if (!strcmp(buf,"endmaplore\n")) break;	931	if (!strcmp (buf, "endmaplore\n"))
		932	break;
863	else {	933	else
		934	{
864	/* slightly more efficient than strcat */	935	/* slightly more efficient than strcat */
865	strcpy(maplorebuf+maplorepos, buf);	936	strcpy (maplorebuf + maplorepos, buf);
866	maplorepos += strlen(buf);	937	maplorepos += strlen (buf);
867	}	938	}
868	}	939	}
869	if (maplorepos != 0)	940	if (maplorepos != 0)
870	m->maplore = strdup_local(maplorebuf);	941	m->maplore = strdup (maplorebuf);
871	}	942	}
872	else if (!strcmp(key,"end")) {	943	else if (!strcmp (key, "end"))
		944	{
873	break;	945	break;
874	}	946	}
875	else if (value == NULL) {	947	else if (value == NULL)
		948	{
876	LOG(llevError, "Got '%s' line without parameter in map header\n", key);	949	LOG (llevError, "Got '%s' line without parameter in map header\n", key);
877	}	950	}
878	else if (!strcmp(key, "arch")) {	951	else if (!strcmp (key, "arch"))
		952	{
879	/* This is an oddity, but not something we care about much. */	953	/* This is an oddity, but not something we care about much. */
880	if (strcmp(value,"map\n"))	954	if (strcmp (value, "map\n"))
881	LOG(llevError,"loading map and got a non 'arch map' line(%s %s)?\n",key,value);	955	LOG (llevError, "loading map and got a non 'arch map' line(%s %s)?\n", key, value);
882	}	956	}
883	else if (!strcmp(key,"name")) {	957	else if (!strcmp (key, "name"))
		958	{
884	*end=0;	959	*end = 0;
885	m->name = strdup_local(value);	960	m->name = strdup (value);
886	}	961	}
887	/* first strcmp value on these are old names supported	962	/* first strcmp value on these are old names supported
888	* for compatibility reasons. The new values (second) are	963	* for compatibility reasons. The new values (second) are
889	* what really should be used.	964	* what really should be used.
890	*/	965	*/
891	else if (!strcmp(key,"oid")) {	966	else if (!strcmp (key, "oid"))
892	fp.get (m, atoi(value));	967	fp.get (m, atoi (value));
893	} else if (!strcmp(key, "attach")) {	968	else if (!strcmp (key, "attach"))
894	m->attach = value;	969	m->attach = value;
895	} else if (!strcmp(key,"hp") || !strcmp(key, "enter_x")) {	970	else if (!strcmp (key, "hp") || !strcmp (key, "enter_x"))
896	m->enter_x = atoi(value);	971	m->enter_x = atoi (value);
897	} else if (!strcmp(key,"sp") || !strcmp(key, "enter_y")) {	972	else if (!strcmp (key, "sp") || !strcmp (key, "enter_y"))
898	m->enter_y = atoi(value);	973	m->enter_y = atoi (value);
899	} else if (!strcmp(key,"x") || !strcmp(key, "width")) {	974	else if (!strcmp (key, "x") || !strcmp (key, "width"))
900	m->width = atoi(value);	975	m->width = atoi (value);
901	} else if (!strcmp(key,"y") || !strcmp(key, "height")) {	976	else if (!strcmp (key, "y") || !strcmp (key, "height"))
902	m->height = atoi(value);	977	m->height = atoi (value);
903	} else if (!strcmp(key,"weight") || !strcmp(key, "reset_timeout")) {	978	else if (!strcmp (key, "weight") || !strcmp (key, "reset_timeout"))
904	m->reset_timeout = atoi(value);	979	m->reset_timeout = atoi (value);
905	} else if (!strcmp(key,"value") || !strcmp(key, "swap_time")) {	980	else if (!strcmp (key, "value") || !strcmp (key, "swap_time"))
906	m->timeout = atoi(value);	981	m->timeout = atoi (value);
907	} else if (!strcmp(key,"level") || !strcmp(key, "difficulty")) {	982	else if (!strcmp (key, "level") || !strcmp (key, "difficulty"))
908	m->difficulty = atoi(value);	983	m->difficulty = clamp (atoi (value), 1, settings.max_level);
909	} else if (!strcmp(key,"invisible") || !strcmp(key, "darkness")) {	984	else if (!strcmp (key, "invisible") || !strcmp (key, "darkness"))
910	m->darkness = atoi(value);	985	m->darkness = atoi (value);
911	} else if (!strcmp(key,"stand_still") || !strcmp(key, "fixed_resettime")) {	986	else if (!strcmp (key, "stand_still") || !strcmp (key, "fixed_resettime"))
912	m->fixed_resettime = atoi(value);	987	m->fixed_resettime = atoi (value);
913	} else if (!strcmp(key,"unique")) {	988	else if (!strcmp (key, "unique"))
914	m->unique = atoi(value);	989	m->unique = atoi (value);
915	} else if (!strcmp(key,"template")) {	990	else if (!strcmp (key, "template"))
916	m->templatemap = atoi(value);	991	m->templatemap = atoi (value);
917	} else if (!strcmp(key,"region")) {	992	else if (!strcmp (key, "region"))
918	m->region = get_region_by_name(value);	993	m->region = get_region_by_name (value);
919	} else if (!strcmp(key,"shopitems")) {	994	else if (!strcmp (key, "shopitems"))
		995	{
920	*end=0;	996	*end = 0;
921	m->shopitems = parse_shop_string(value);	997	m->shopitems = parse_shop_string (value);
		998	}
922	} else if (!strcmp(key,"shopgreed")) {	999	else if (!strcmp (key, "shopgreed"))
923	m->shopgreed = atof(value);	1000	m->shopgreed = atof (value);
924	} else if (!strcmp(key,"shopmin")) {	1001	else if (!strcmp (key, "shopmin"))
925	m->shopmin = atol(value);	1002	m->shopmin = atol (value);
926	} else if (!strcmp(key,"shopmax")) {	1003	else if (!strcmp (key, "shopmax"))
927	m->shopmax = atol(value);	1004	m->shopmax = atol (value);
928	} else if (!strcmp(key,"shoprace")) {	1005	else if (!strcmp (key, "shoprace"))
		1006	{
929	*end=0;	1007	*end = 0;
930	m->shoprace = strdup_local(value);	1008	m->shoprace = strdup (value);
		1009	}
931	} else if (!strcmp(key,"outdoor")) {	1010	else if (!strcmp (key, "outdoor"))
932	m->outdoor = atoi(value);	1011	m->outdoor = atoi (value);
933	} else if (!strcmp(key, "temp")) {	1012	else if (!strcmp (key, "temp"))
934	m->temp = atoi(value);	1013	m->temp = atoi (value);
935	} else if (!strcmp(key, "pressure")) {	1014	else if (!strcmp (key, "pressure"))
936	m->pressure = atoi(value);	1015	m->pressure = atoi (value);
937	} else if (!strcmp(key, "humid")) {	1016	else if (!strcmp (key, "humid"))
938	m->humid = atoi(value);	1017	m->humid = atoi (value);
939	} else if (!strcmp(key, "windspeed")) {	1018	else if (!strcmp (key, "windspeed"))
940	m->windspeed = atoi(value);	1019	m->windspeed = atoi (value);
941	} else if (!strcmp(key, "winddir")) {	1020	else if (!strcmp (key, "winddir"))
942	m->winddir = atoi(value);	1021	m->winddir = atoi (value);
943	} else if (!strcmp(key, "sky")) {	1022	else if (!strcmp (key, "sky"))
944	m->sky = atoi(value);	1023	m->sky = atoi (value);
945	} else if (!strcmp(key, "nosmooth")) {	1024	else if (!strcmp (key, "nosmooth"))
946	m->nosmooth = atoi(value);	1025	m->nosmooth = atoi (value);
947	}
948	else if (!strncmp(key,"tile_path_", 10)) {	1026	else if (!strncmp (key, "tile_path_", 10))
		1027	{
949	int tile=atoi(key+10);	1028	int tile = atoi (key + 10);
950		1029
951	if (tile<1 || tile>4) {	1030	if (tile < 1 || tile > 4)
		1031	{
952	LOG(llevError,"load_map_header: tile location %d out of bounds (%s)\n",	1032	LOG (llevError, "load_map_header: tile location %d out of bounds (%s)\n", tile, m->path);
953	tile, m->path);	1033	}
954	} else {	1034	else
		1035	{
955	char *path;	1036	char *path;
956		1037
957	*end = 0;	1038	*end = 0;
958		1039
959	if (m->tile_path[tile-1]) {	1040	if (m->tile_path[tile - 1])
		1041	{
960	LOG(llevError,"load_map_header: tile location %d duplicated (%s)\n",	1042	LOG (llevError, "load_map_header: tile location %d duplicated (%s)\n", tile, m->path);
961	tile, m->path);
962	free(m->tile_path[tile-1]);	1043	free (m->tile_path[tile - 1]);
963	m->tile_path[tile-1] = NULL;	1044	m->tile_path[tile - 1] = NULL;
964	}	1045	}
965		1046
966	if (check_path(value, 1) != -1) {	1047	if (check_path (value, 1) != -1)
		1048	{
967	/* The unadorned path works. */	1049	/* The unadorned path works. */
968	path = value;	1050	path = value;
		1051	}
969	} else {	1052	else
		1053	{
970	/* Try again; it could be a relative exit. */	1054	/* Try again; it could be a relative exit. */
971		1055
972	path = path_combine_and_normalize(m->path, value);	1056	path = path_combine_and_normalize (m->path, value);
973		1057
974	if (check_path(path, 1) == -1) {	1058	if (check_path (path, 1) == -1)
		1059	{
975	LOG(llevError, "get_map_header: Bad tile path %s %s\n", m->path, value);	1060	LOG (llevError, "get_map_header: Bad tile path %s %s\n", m->path, value);
976	path = NULL;	1061	path = NULL;
977	}	1062	}
978	}	1063	}
979		1064
980	if (editor) {	1065	if (editor)
		1066	{
981	/* Use the value as in the file. */	1067	/* Use the value as in the file. */
982	m->tile_path[tile-1] = strdup_local(value);	1068	m->tile_path[tile - 1] = strdup (value);
983	} else if (path != NULL) {
984	/* Use the normalized value. */
985	m->tile_path[tile-1] = strdup_local(path);
986	}	1069	}
		1070	else if (path != NULL)
		1071	{
		1072	/* Use the normalized value. */
		1073	m->tile_path[tile - 1] = strdup (path);
		1074	}
987	} /* end if tile direction (in)valid */	1075	} /* end if tile direction (in)valid */
988	}	1076	}
989	else {	1077	else
990	LOG(llevError,"Got unknown value in map header: %s %s\n", key, value);	1078	LOG (llevError, "Got unknown value in map header: %s %s\n", key, value);
991	}
992	}	1079	}
		1080
993	if (!key || strcmp(key,"end")) {	1081	if (!key || strcmp (key, "end"))
		1082	{
994	LOG(llevError,"Got premature eof on map header!\n");	1083	LOG (llevError, "Got premature eof on map header!\n");
995	return 1;	1084	return 1;
996	}	1085	}
		1086
997	return 0;	1087	return 0;
998	}	1088	}
999		1089
1000	/*	1090	/*
1001	* Opens the file "filename" and reads information about the map	1091	* Opens the file "filename" and reads information about the map
1002	* from the given file, and stores it in a newly allocated	1092	* from the given file, and stores it in a newly allocated
1003	* mapstruct. A pointer to this structure is returned, or NULL on failure.	1093	* maptile. A pointer to this structure is returned, or NULL on failure.
1004	* flags correspond to those in map.h. Main ones used are	1094	* flags correspond to those in map.h. Main ones used are
1005	* MAP_PLAYER_UNIQUE, in which case we don't do any name changes, and	1095	* MAP_PLAYER_UNIQUE, in which case we don't do any name changes, and
1006	* MAP_BLOCK, in which case we block on this load. This happens in all	1096	* MAP_BLOCK, in which case we block on this load. This happens in all
1007	* cases, no matter if this flag is set or not.	1097	* cases, no matter if this flag is set or not.
1008	* MAP_STYLE: style map - don't add active objects, don't add to server	1098	* MAP_STYLE: style map - don't add active objects, don't add to server
1009	* managed map list.	1099	* managed map list.
1010	*/	1100	*/
1011		1101
		1102	maptile *
1012	mapstruct *load_original_map(const char *filename, int flags) {	1103	load_original_map (const char *filename, int flags)
1013	mapstruct *m;	1104	{
		1105	maptile *m;
1014	char pathname[MAX_BUF];	1106	char pathname[MAX_BUF];
1015		1107
1016	if (flags & MAP_PLAYER_UNIQUE)	1108	if (flags & MAP_PLAYER_UNIQUE)
1017	strcpy(pathname, filename);	1109	strcpy (pathname, filename);
1018	else if (flags & MAP_OVERLAY)	1110	else if (flags & MAP_OVERLAY)
1019	strcpy(pathname, create_overlay_pathname(filename));	1111	strcpy (pathname, create_overlay_pathname (filename));
1020	else	1112	else
1021	strcpy(pathname, create_pathname(filename));	1113	strcpy (pathname, create_pathname (filename));
1022		1114
1023	LOG(llevDebug, "load_original_map(%x): %s (%s)\n", flags, filename, pathname);	1115	LOG (llevDebug, "load_original_map(%x): %s (%s)\n", flags, filename, pathname);
1024		1116
1025	object_thawer thawer (pathname);	1117	object_thawer thawer (pathname);
1026		1118
1027	if (!thawer)	1119	if (!thawer)
		1120	return 0;
		1121
		1122	m = get_linked_map ();
		1123
		1124	strcpy (m->path, filename);
		1125	if (load_map_header (thawer, m))
		1126	{
		1127	LOG (llevError, "Error loading map header for %s, flags=%d\n", filename, flags);
		1128	delete_map (m);
1028	return 0;	1129	return 0;
1029
1030	m = get_linked_map();
1031
1032	strcpy (m->path, filename);
1033	if (load_map_header(thawer, m)) {
1034	LOG(llevError,"Error loading map header for %s, flags=%d\n",
1035	filename, flags);
1036	delete_map(m);
1037	return NULL;
1038	}	1130	}
1039		1131
1040	allocate_map(m);	1132	m->allocate ();
1041		1133
1042	m->in_memory=MAP_LOADING;	1134	m->in_memory = MAP_LOADING;
1043	load_objects (m, thawer, flags & (MAP_BLOCK|MAP_STYLE));	1135	load_objects (m, thawer, flags & (MAP_BLOCK | MAP_STYLE));
1044		1136
1045	m->in_memory=MAP_IN_MEMORY;	1137	m->in_memory = MAP_IN_MEMORY;
1046	if (!MAP_DIFFICULTY(m))	1138	if (!m->difficulty)
1047	MAP_DIFFICULTY(m)=calculate_difficulty(m);	1139	m->difficulty = calculate_difficulty (m);
1048	set_map_reset_time(m);	1140	set_map_reset_time (m);
1049	m->instantiate ();	1141	m->instantiate ();
1050	return (m);	1142	return (m);
1051	}	1143	}
1052		1144
1053	/*	1145	/*
1054	* Loads a map, which has been loaded earlier, from file.	1146	* Loads a map, which has been loaded earlier, from file.
1055	* Return the map object we load into (this can change from the passed	1147	* Return the map object we load into (this can change from the passed
1056	* option if we can't find the original map)	1148	* option if we can't find the original map)
1057	*/	1149	*/
1058		1150
1059	static mapstruct *load_temporary_map(mapstruct *m) {	1151	static maptile *
1060	int comp;	1152	load_temporary_map (maptile *m)
		1153	{
1061	char buf[MAX_BUF];	1154	char buf[MAX_BUF];
1062		1155
1063	if (!m->tmpname) {	1156	if (!m->tmpname)
		1157	{
1064	LOG(llevError, "No temporary filename for map %s\n", m->path);	1158	LOG (llevError, "No temporary filename for map %s\n", m->path);
1065	strcpy(buf, m->path);
1066	delete_map(m);
1067	m = load_original_map(buf, 0);
1068	if(m==NULL) return NULL;
1069	fix_auto_apply(m); /* Chests which open as default */
1070	return m;
1071	}
1072
1073	object_thawer thawer (m->tmpname);
1074
1075	if (!thawer)
1076	{
1077	strcpy (buf, m->path);	1159	strcpy (buf, m->path);
1078	delete_map (m);	1160	delete_map (m);
1079	m = load_original_map (buf, 0);	1161	m = load_original_map (buf, 0);
1080	if (!m) return NULL;	1162	if (m == NULL)
1081	fix_auto_apply (m); /* Chests which open as default */
1082	return m;
1083	}
1084
1085	if (load_map_header(thawer, m)) {
1086	LOG(llevError,"Error loading map header for %s (%s)\n",
1087	m->path, m->tmpname);
1088	delete_map(m);
1089	m = load_original_map(m->path, 0);
1090	return NULL;	1163	return NULL;
		1164	fix_auto_apply (m); /* Chests which open as default */
		1165	return m;
		1166	}
		1167
		1168	object_thawer thawer (m->tmpname);
		1169
		1170	if (!thawer)
1091	}	1171	{
1092	allocate_map(m);	1172	strcpy (buf, m->path);
		1173	delete_map (m);
		1174	m = load_original_map (buf, 0);
		1175	if (!m)
		1176	return NULL;
		1177	fix_auto_apply (m); /* Chests which open as default */
		1178	return m;
		1179	}
1093		1180
		1181	if (load_map_header (thawer, m))
		1182	{
		1183	LOG (llevError, "Error loading map header for %s (%s)\n", m->path, m->tmpname);
		1184	delete_map (m);
		1185	m = load_original_map (m->path, 0);
		1186	return NULL;
		1187	}
		1188
		1189	m->allocate ();
		1190
1094	m->in_memory=MAP_LOADING;	1191	m->in_memory = MAP_LOADING;
1095	load_objects (m, thawer, 0);	1192	load_objects (m, thawer, 0);
1096		1193
1097	m->in_memory=MAP_IN_MEMORY;	1194	m->in_memory = MAP_IN_MEMORY;
1098	INVOKE_MAP (SWAPIN, m);	1195	INVOKE_MAP (SWAPIN, m);
1099	return m;	1196	return m;
1100	}	1197	}
1101		1198
1102	/*	1199	/*
1103	* Loads a map, which has been loaded earlier, from file.	1200	* Loads a map, which has been loaded earlier, from file.
1104	* Return the map object we load into (this can change from the passed	1201	* Return the map object we load into (this can change from the passed
1105	* option if we can't find the original map)	1202	* option if we can't find the original map)
1106	*/	1203	*/
1107		1204
		1205	maptile *
1108	mapstruct *load_overlay_map(const char *filename, mapstruct *m) {	1206	load_overlay_map (const char *filename, maptile *m)
		1207	{
1109	char pathname[MAX_BUF];	1208	char pathname[MAX_BUF];
1110		1209
1111	strcpy(pathname, create_overlay_pathname(filename));	1210	strcpy (pathname, create_overlay_pathname (filename));
1112		1211
1113	object_thawer thawer (pathname);	1212	object_thawer thawer (pathname);
1114		1213
1115	if (!thawer)	1214	if (!thawer)
1116	return m;
1117
1118	if (load_map_header(thawer, m)) {
1119	LOG(llevError,"Error loading map header for overlay %s (%s)\n",
1120	m->path, pathname);
1121	delete_map(m);
1122	m = load_original_map(m->path, 0);
1123	return NULL;
1124	}
1125	/*allocate_map(m);*/
1126
1127	m->in_memory=MAP_LOADING;
1128	load_objects (m, thawer, MAP_OVERLAY);
1129
1130	m->in_memory=MAP_IN_MEMORY;
1131	return m;	1215	return m;
		1216
		1217	if (load_map_header (thawer, m))
		1218	{
		1219	LOG (llevError, "Error loading map header for overlay %s (%s)\n", m->path, pathname);
		1220	delete_map (m);
		1221	m = load_original_map (m->path, 0);
		1222	return 0;
		1223	}
		1224	/*m->allocate ();*/
		1225
		1226	m->in_memory = MAP_LOADING;
		1227	load_objects (m, thawer, MAP_OVERLAY);
		1228
		1229	m->in_memory = MAP_IN_MEMORY;
		1230	return m;
1132	}	1231	}
1133		1232
1134	/******************************************************************************	1233	/******************************************************************************
1135	* This is the start of unique map handling code	1234	* This is the start of unique map handling code
1136	*****************************************************************************/	1235	*****************************************************************************/
1137		1236
1138	/* This goes through map 'm' and removed any unique items on the map. */	1237	/* This goes through map 'm' and removed any unique items on the map. */
1139	static void delete_unique_items(mapstruct *m)	1238	static void
		1239	delete_unique_items (maptile *m)
1140	{	1240	{
1141	int i,j,unique;	1241	int i, j, unique;
1142	object *op, *next;	1242	object *op, *next;
1143		1243
1144	for(i=0; i<MAP_WIDTH(m); i++)	1244	for (i = 0; i < m->width; i++)
1145	for(j=0; j<MAP_HEIGHT(m); j++) {	1245	for (j = 0; j < m->height; j++)
		1246	{
1146	unique=0;	1247	unique = 0;
		1248
1147	for (op=get_map_ob(m, i, j); op; op=next) {	1249	for (op = GET_MAP_OB (m, i, j); op; op = next)
		1250	{
1148	next = op->above;	1251	next = op->above;
		1252
1149	if (QUERY_FLAG(op, FLAG_IS_FLOOR) && QUERY_FLAG(op, FLAG_UNIQUE))	1253	if (QUERY_FLAG (op, FLAG_IS_FLOOR) && QUERY_FLAG (op, FLAG_UNIQUE))
1150	unique=1;	1254	unique = 1;
		1255
1151	if(op->head == NULL && (QUERY_FLAG(op, FLAG_UNIQUE) || unique)) {	1256	if (op->head == NULL && (QUERY_FLAG (op, FLAG_UNIQUE) || unique))
1152	clean_object(op);	1257	{
1153	if (QUERY_FLAG(op, FLAG_IS_LINKED))	1258	op->destroy_inv (false);
1154	remove_button_link(op);	1259	op->destroy ();
1155	remove_ob(op);
1156	free_object(op);
1157	}	1260	}
1158	}	1261	}
1159	}	1262	}
1160	}	1263	}
1161		1264
1162		1265
1163	/*	1266	/*
1164	* Loads unique objects from file(s) into the map which is in memory	1267	* Loads unique objects from file(s) into the map which is in memory
1165	* m is the map to load unique items into.	1268	* m is the map to load unique items into.
1166	*/	1269	*/
1167	static void load_unique_objects(mapstruct *m) {	1270	static void
		1271	load_unique_objects (maptile *m)
		1272	{
1168	int count;	1273	int count;
1169	char firstname[MAX_BUF];	1274	char firstname[MAX_BUF];
1170		1275
1171	for (count=0; count<10; count++) {	1276	for (count = 0; count < 10; count++)
		1277	{
1172	sprintf(firstname, "%s.v%02d", create_items_path(m->path), count);	1278	sprintf (firstname, "%s.v%02d", create_items_path (m->path), count);
1173	if (!access(firstname, R_OK)) break;	1279	if (!access (firstname, R_OK))
		1280	break;
1174	}	1281	}
1175	/* If we get here, we did not find any map */	1282	/* If we get here, we did not find any map */
1176	if (count==10) return;	1283	if (count == 10)
		1284	return;
1177		1285
1178	object_thawer thawer (firstname);	1286	object_thawer thawer (firstname);
1179		1287
1180	if (!thawer)	1288	if (!thawer)
1181	return;	1289	return;
1182		1290
1183	m->in_memory=MAP_LOADING;	1291	m->in_memory = MAP_LOADING;
1184	if (m->tmpname == NULL) /* if we have loaded unique items from */	1292	if (m->tmpname == NULL) /* if we have loaded unique items from */
1185	delete_unique_items(m); /* original map before, don't duplicate them */	1293	delete_unique_items (m); /* original map before, don't duplicate them */
1186	load_objects (m, thawer, 0);	1294	load_objects (m, thawer, 0);
1187		1295
1188	m->in_memory=MAP_IN_MEMORY;	1296	m->in_memory = MAP_IN_MEMORY;
1189	}	1297	}
1190		1298
1191		1299
1192	/*	1300	/*
1193	* Saves a map to file. If flag is set, it is saved into the same	1301	* Saves a map to file. If flag is set, it is saved into the same
1194	* file it was (originally) loaded from. Otherwise a temporary	1302	* file it was (originally) loaded from. Otherwise a temporary
1195	* filename will be genarated, and the file will be stored there.	1303	* filename will be genarated, and the file will be stored there.
1196	* The temporary filename will be stored in the mapstructure.	1304	* The temporary filename will be stored in the maptileure.
1197	* If the map is unique, we also save to the filename in the map	1305	* If the map is unique, we also save to the filename in the map
1198	* (this should have been updated when first loaded)	1306	* (this should have been updated when first loaded)
1199	*/	1307	*/
1200		1308
1201	int	1309	int
1202	new_save_map (mapstruct * m, int flag)	1310	new_save_map (maptile *m, int flag)
1203	{	1311	{
1204	char filename[MAX_BUF], buf[MAX_BUF], buf_s[MAX_BUF], shop[MAX_BUF];	1312	char filename[MAX_BUF], buf[MAX_BUF], shop[MAX_BUF];
1205	int i;	1313	int i;
1206		1314
1207	if (flag && !*m->path)	1315	if (flag && !*m->path)
1208	{	1316	{
1209	LOG (llevError, "Tried to save map without path.\n");	1317	LOG (llevError, "Tried to save map without path.\n");
…		…
1211	}	1319	}
1212		1320
1213	if (flag || (m->unique) || (m->templatemap))	1321	if (flag || (m->unique) || (m->templatemap))
1214	{	1322	{
1215	if (!m->unique && !m->templatemap)	1323	if (!m->unique && !m->templatemap)
1216	{ /* flag is set */	1324	{ /* flag is set */
1217	if (flag == 2)	1325	if (flag == 2)
1218	strcpy (filename, create_overlay_pathname (m->path));	1326	strcpy (filename, create_overlay_pathname (m->path));
1219	else	1327	else
1220	strcpy (filename, create_pathname (m->path));	1328	strcpy (filename, create_pathname (m->path));
1221	}	1329	}
…		…
1225	make_path_to_file (filename);	1333	make_path_to_file (filename);
1226	}	1334	}
1227	else	1335	else
1228	{	1336	{
1229	if (!m->tmpname)	1337	if (!m->tmpname)
1230	m->tmpname = tempnam_local (settings.tmpdir, NULL);	1338	m->tmpname = tempnam (settings.tmpdir, NULL);
1231		1339
1232	strcpy (filename, m->tmpname);	1340	strcpy (filename, m->tmpname);
1233	}	1341	}
1234		1342
1235	LOG (llevDebug, "Saving map %s to %s\n", m->path, filename);	1343	LOG (llevDebug, "Saving map %s to %s\n", m->path, filename);
…		…
1259	print_shop_string (m, shop);	1367	print_shop_string (m, shop);
1260	fprintf (freezer, "shopitems %s\n", shop);	1368	fprintf (freezer, "shopitems %s\n", shop);
1261	}	1369	}
1262	if (m->shopgreed)	1370	if (m->shopgreed)
1263	fprintf (freezer, "shopgreed %f\n", m->shopgreed);	1371	fprintf (freezer, "shopgreed %f\n", m->shopgreed);
1264	#ifndef WIN32
1265	if (m->shopmin)	1372	if (m->shopmin)
1266	fprintf (freezer, "shopmin %llu\n", m->shopmin);	1373	fprintf (freezer, "shopmin %llu\n", m->shopmin);
1267	if (m->shopmax)	1374	if (m->shopmax)
1268	fprintf (freezer, "shopmax %llu\n", m->shopmax);	1375	fprintf (freezer, "shopmax %llu\n", m->shopmax);
1269	#else
1270	if (m->shopmin)
1271	fprintf (freezer, "shopmin %I64u\n", m->shopmin);
1272	if (m->shopmax)
1273	fprintf (freezer, "shopmax %I64u\n", m->shopmax);
1274	#endif
1275	if (m->shoprace)	1376	if (m->shoprace)
1276	fprintf (freezer, "shoprace %s\n", m->shoprace);	1377	fprintf (freezer, "shoprace %s\n", m->shoprace);
1277	if (m->darkness)	1378	if (m->darkness)
1278	fprintf (freezer, "darkness %d\n", m->darkness);	1379	fprintf (freezer, "darkness %d\n", m->darkness);
1279	if (m->width)	1380	if (m->width)
…		…
1335	sprintf (buf, "%s.v00", create_items_path (m->path));	1436	sprintf (buf, "%s.v00", create_items_path (m->path));
1336		1437
1337	unique.save (buf);	1438	unique.save (buf);
1338	}	1439	}
1339	else	1440	else
1340	{ /* save same file when not playing, like in editor */	1441	{ /* save same file when not playing, like in editor */
1341	save_objects (m, freezer, freezer, 0);	1442	save_objects (m, freezer, freezer, 0);
1342	}	1443	}
1343		1444
1344	freezer.save (filename);	1445	freezer.save (filename);
1345		1446
1346	return 0;	1447	return 0;
1347	}
1348
1349
1350	/*
1351	* Remove and free all objects in the inventory of the given object.
1352	* object.c ?
1353	*/
1354
1355	void clean_object(object *op)
1356	{
1357	object *tmp, *next;
1358
1359	for(tmp = op->inv; tmp; tmp = next)
1360	{
1361	next = tmp->below;
1362	clean_object(tmp);
1363	if (QUERY_FLAG(tmp, FLAG_IS_LINKED))
1364	remove_button_link(tmp);
1365	remove_ob(tmp);
1366	free_object(tmp);
1367	}
1368	}	1448	}
1369		1449
1370	/*	1450	/*
1371	* Remove and free all objects in the given map.	1451	* Remove and free all objects in the given map.
1372	*/	1452	*/
1373		1453	void
1374	void free_all_objects(mapstruct *m) {	1454	free_all_objects (maptile *m)
1375	int i,j;	1455	{
1376	object *op;	1456	if (!m->spaces)
		1457	return;
1377		1458
1378	for(i=0;i<MAP_WIDTH(m);i++)	1459	for (int i = 0; i < m->width; i++)
1379	for(j=0;j<MAP_HEIGHT(m);j++) {	1460	for (int j = 0; j < m->height; j++)
1380	object *previous_obj=NULL;	1461	{
1381	while((op=GET_MAP_OB(m,i,j))!=NULL) {	1462	mapspace &ms = m->at (i, j);
1382	if (op==previous_obj) {	1463
1383	LOG(llevDebug, "free_all_objects: Link error, bailing out.\n");	1464	while (object *op = ms.bot)
1384	break;	1465	{
1385	}
1386	previous_obj=op;
1387	if(op->head!=NULL)	1466	if (op->head)
1388	op = op->head;	1467	op = op->head;
1389		1468
1390	/* If the map isn't in memory, free_object will remove and	1469	op->destroy_inv (false);
1391	* free objects in op's inventory. So let it do the job.	1470	op->destroy ();
1392	*/
1393	if (m->in_memory==MAP_IN_MEMORY)
1394	clean_object(op);
1395	remove_ob(op);
1396	free_object(op);
1397	}	1471	}
1398	}	1472	}
1399	}	1473	}
1400		1474
1401	/*	1475	/*
1402	* Frees everything allocated by the given mapstructure.	1476	* Frees everything allocated by the given maptileure.
1403	* don't free tmpname - our caller is left to do that	1477	* don't free tmpname - our caller is left to do that
1404	*/	1478	*/
1405		1479	void
1406	void free_map(mapstruct *m,int flag) {	1480	free_map (maptile *m, int flag)
1407	int i;	1481	{
1408		1482	if (m->in_memory != MAP_IN_MEMORY)
1409	if (!m->in_memory) {
1410	LOG(llevError,"Trying to free freed map.\n");
1411	return;	1483	return;
1412	}	1484
1413	if (flag && m->spaces) free_all_objects(m);	1485	m->in_memory = MAP_SAVING;
		1486
		1487	// TODO: use new/delete
		1488	#define FREE_AND_CLEAR(p) { free (p); p = NULL; }
		1489
		1490	if (flag && m->spaces)
		1491	free_all_objects (m);
		1492	if (m->name)
1414	if (m->name) FREE_AND_CLEAR(m->name);	1493	FREE_AND_CLEAR (m->name);
		1494	if (m->spaces)
1415	if (m->spaces) FREE_AND_CLEAR(m->spaces);	1495	FREE_AND_CLEAR (m->spaces);
		1496	if (m->msg)
1416	if (m->msg) FREE_AND_CLEAR(m->msg);	1497	FREE_AND_CLEAR (m->msg);
		1498	if (m->maplore)
1417	if (m->maplore) FREE_AND_CLEAR(m->maplore);	1499	FREE_AND_CLEAR (m->maplore);
1418	if (m->shopitems) FREE_AND_CLEAR(m->shopitems);	1500
		1501	delete [] m->shopitems;
		1502	m->shopitems = 0;
		1503
		1504	if (m->shoprace)
1419	if (m->shoprace) FREE_AND_CLEAR(m->shoprace);	1505	FREE_AND_CLEAR (m->shoprace);
		1506
1420	if (m->buttons)	1507	if (m->buttons)
1421	free_objectlinkpt(m->buttons);	1508	free_objectlinkpt (m->buttons);
		1509
1422	m->buttons = NULL;	1510	m->buttons = NULL;
		1511
1423	for (i=0; i<4; i++) {	1512	for (int i = 0; i < 4; i++)
		1513	{
		1514	if (m->tile_path[i])
1424	if (m->tile_path[i]) FREE_AND_CLEAR(m->tile_path[i]);	1515	FREE_AND_CLEAR (m->tile_path[i]);
		1516
1425	m->tile_map[i] = NULL;	1517	m->tile_map[i] = 0;
1426	}	1518	}
		1519
1427	m->in_memory = MAP_SWAPPED;	1520	m->in_memory = MAP_SWAPPED;
1428	}
1429		1521
1430	/*	1522	#undef FREE_AND_CLEAR
1431	* function: vanish mapstruct	1523	}
1432	* m : pointer to mapstruct, if NULL no action
1433	* this deletes all the data on the map (freeing pointers)
1434	* and then removes this map from the global linked list of maps.
1435	*/
1436		1524
1437	void delete_map(mapstruct *m) {	1525	maptile::~maptile ()
1438	mapstruct *tmp, *last;	1526	{
1439	int i;
1440
1441	if (!m)
1442	return;
1443
1444	m->clear ();
1445
1446	if (m->in_memory == MAP_IN_MEMORY) {
1447	/* change to MAP_SAVING, even though we are not,
1448	* so that remove_ob doesn't do as much work.
1449	*/
1450	m->in_memory = MAP_SAVING;
1451	free_map (m, 1);	1527	free_map (this, 1);
1452	}
1453	/* move this out of free_map, since tmpname can still be needed if
1454	* the map is swapped out.
1455	*/
1456	if (m->tmpname) {
1457	free(m->tmpname);	1528	free (tmpname);
1458	m->tmpname=NULL;	1529	}
1459	}	1530
1460	last = NULL;	1531	void
		1532	maptile::do_destroy ()
		1533	{
		1534	attachable::do_destroy ();
		1535
		1536	free_all_objects (this);
		1537
1461	/* We need to look through all the maps and see if any maps	1538	/* We need to look through all the maps and see if any maps
1462	* are pointing at this one for tiling information. Since	1539	* are pointing at this one for tiling information. Since
1463	* tiling can be assymetric, we just can not look to see which	1540	* tiling can be asymetric, we just can not look to see which
1464	* maps this map tiles with and clears those.	1541	* maps this map tiles with and clears those.
1465	*/	1542	*/
1466	for (tmp = first_map; tmp != NULL; tmp = tmp->next) {	1543	//TODO: non-euclidean-tiling MUST GO
1467	if (tmp->next == m) last = tmp;	1544	for (maptile *m = first_map; m; m = m->next)
1468
1469	/* This should hopefully get unrolled on a decent compiler */
1470	for (i=0; i<4; i++)	1545	for (int i = 0; i < 4; i++)
1471	if (tmp->tile_map[i] == m) tmp->tile_map[i]=NULL;	1546	if (m->tile_map[i] == this)
1472	}	1547	m->tile_map[i] = 0;
1473		1548
1474	/* If last is null, then this should be the first map in the list */	1549	if (first_map == this)
1475	if (!last) {
1476	if (m == first_map)
1477	first_map = m->next;	1550	first_map = next;
1478	else
1479	/* m->path is a static char, so should hopefully still have
1480	* some useful data in it.
1481	*/
1482	LOG(llevError,"delete_map: Unable to find map %s in list\n",
1483	m->path);
1484	}
1485	else	1551	else
1486	last->next = m->next;	1552	for (maptile *m = first_map; m; m = m->next)
1487		1553	if (m->next = this)
1488	delete m;	1554	{
		1555	m->next = next;
		1556	break;
		1557	}
1489	}	1558	}
1490		1559
1491		1560	//TODO: must go
		1561	void
		1562	delete_map (maptile *m)
		1563	{
		1564	if (m)
		1565	m->destroy ();
		1566	}
1492		1567
1493	/*	1568	/*
1494	* Makes sure the given map is loaded and swapped in.	1569	* Makes sure the given map is loaded and swapped in.
1495	* name is path name of the map.	1570	* name is path name of the map.
1496	* flags meaning:	1571	* flags meaning:
…		…
1499	* 0x2 (MAP_PLAYER_UNIQUE) - this is a unique map for each player.	1574	* 0x2 (MAP_PLAYER_UNIQUE) - this is a unique map for each player.
1500	* dont do any more name translation on it.	1575	* dont do any more name translation on it.
1501	*	1576	*
1502	* Returns a pointer to the given map.	1577	* Returns a pointer to the given map.
1503	*/	1578	*/
1504		1579	maptile *
1505	mapstruct *ready_map_name(const char *name, int flags) {	1580	ready_map_name (const char *name, int flags)
1506	mapstruct *m;	1581	{
1507
1508	if (!name)	1582	if (!name)
1509	return (NULL);	1583	return 0;
1510		1584
1511	/* Have we been at this level before? */	1585	/* Have we been at this level before? */
1512	m = has_been_loaded (name);	1586	maptile *m = has_been_loaded (name);
1513		1587
1514	/* Map is good to go, so just return it */	1588	/* Map is good to go, so just return it */
1515	if (m && (m->in_memory == MAP_LOADING || m->in_memory == MAP_IN_MEMORY)) {	1589	if (m && (m->in_memory == MAP_LOADING || m->in_memory == MAP_IN_MEMORY))
1516	return m;
1517	}
1518
1519	/* unique maps always get loaded from their original location, and never
1520	* a temp location. Likewise, if map_flush is set, or we have never loaded
1521	* this map, load it now. I removed the reset checking from here -
1522	* it seems the probability of a player trying to enter a map that should
1523	* reset but hasn't yet is quite low, and removing that makes this function
1524	* a bit cleaner (and players probably shouldn't rely on exact timing for
1525	* resets in any case - if they really care, they should use the 'maps command.
1526	*/
1527	if ((flags & (MAP_FLUSH|MAP_PLAYER_UNIQUE)) || !m) {
1528
1529	/* first visit or time to reset */
1530	if (m) {
1531	clean_tmp_map(m); /* Doesn't make much difference */
1532	delete_map(m);
1533	}
1534
1535	/* create and load a map */
1536	if (flags & MAP_PLAYER_UNIQUE)
1537	LOG(llevDebug, "Trying to load map %s.\n", name);
1538	else
1539	LOG(llevDebug, "Trying to load map %s.\n", create_pathname(name));
1540
1541	//eval_pv ("$x = Event::time", 1);//D
1542	if (!(m = load_original_map(name, (flags & MAP_PLAYER_UNIQUE))))
1543	return (NULL);
1544	//eval_pv ("warn \"LOAD \", Event::time - $x", 1);//D
1545
1546	fix_auto_apply(m); /* Chests which open as default */
1547
1548	/* If a player unique map, no extra unique object file to load.
1549	* if from the editor, likewise.
1550	*/
1551	if (!(flags & (MAP_FLUSH|MAP_PLAYER_UNIQUE)))
1552	load_unique_objects(m);
1553
1554	if (! (flags & (MAP_FLUSH|MAP_PLAYER_UNIQUE|MAP_OVERLAY))) {
1555	m=load_overlay_map(name, m);
1556	if (m==NULL)
1557	return NULL;
1558	}
1559
1560	if (flags & MAP_PLAYER_UNIQUE)
1561	INVOKE_MAP (SWAPIN, m);
1562
1563	} else {
1564	/* If in this loop, we found a temporary map, so load it up. */
1565
1566	m=load_temporary_map (m);
1567	if(m==NULL) return NULL;
1568	load_unique_objects(m);
1569
1570	clean_tmp_map(m);
1571	m->in_memory = MAP_IN_MEMORY;
1572	/* tempnam() on sun systems (probably others) uses malloc
1573	* to allocated space for the string. Free it here.
1574	* In some cases, load_temporary_map above won't find the
1575	* temporary map, and so has reloaded a new map. If that
1576	* is the case, tmpname is now null
1577	*/
1578	if (m->tmpname) free(m->tmpname);
1579	m->tmpname = NULL;
1580	/* It's going to be saved anew anyway */
1581	}
1582
1583	/* Below here is stuff common to both first time loaded maps and
1584	* temp maps.
1585	*/
1586
1587	decay_objects(m); /* start the decay */
1588	/* In case other objects press some buttons down */
1589	update_buttons(m);
1590	if (m->outdoor)
1591	set_darkness_map(m);
1592	/* run the weather over this map */
1593	weather_effect(name);
1594	return m;	1590	return m;
		1591
		1592	/* unique maps always get loaded from their original location, and never
		1593	* a temp location. Likewise, if map_flush is set, or we have never loaded
		1594	* this map, load it now. I removed the reset checking from here -
		1595	* it seems the probability of a player trying to enter a map that should
		1596	* reset but hasn't yet is quite low, and removing that makes this function
		1597	* a bit cleaner (and players probably shouldn't rely on exact timing for
		1598	* resets in any case - if they really care, they should use the 'maps command.
		1599	*/
		1600	if ((flags & (MAP_FLUSH | MAP_PLAYER_UNIQUE)) || !m)
		1601	{
		1602	/* first visit or time to reset */
		1603	if (m)
		1604	{
		1605	clean_tmp_map (m); /* Doesn't make much difference */
		1606	delete_map (m);
		1607	}
		1608
		1609	/* create and load a map */
		1610	if (flags & MAP_PLAYER_UNIQUE)
		1611	LOG (llevDebug, "Trying to load map %s.\n", name);
		1612	else
		1613	LOG (llevDebug, "Trying to load map %s.\n", create_pathname (name));
		1614
		1615	//eval_pv ("$x = Event::time", 1);//D
		1616	if (!(m = load_original_map (name, (flags & MAP_PLAYER_UNIQUE))))
		1617	return (NULL);
		1618	//eval_pv ("warn \"LOAD \", Event::time - $x", 1);//D
		1619
		1620	fix_auto_apply (m); /* Chests which open as default */
		1621
		1622	/* If a player unique map, no extra unique object file to load.
		1623	* if from the editor, likewise.
		1624	*/
		1625	if (!(flags & (MAP_FLUSH | MAP_PLAYER_UNIQUE)))
		1626	load_unique_objects (m);
		1627
		1628	if (!(flags & (MAP_FLUSH | MAP_PLAYER_UNIQUE | MAP_OVERLAY)))
		1629	{
		1630	m = load_overlay_map (name, m);
		1631	if (m == NULL)
		1632	return NULL;
		1633	}
		1634
		1635	if (flags & MAP_PLAYER_UNIQUE)
		1636	INVOKE_MAP (SWAPIN, m);
		1637
		1638	}
		1639	else
		1640	{
		1641	/* If in this loop, we found a temporary map, so load it up. */
		1642
		1643	m = load_temporary_map (m);
		1644	if (m == NULL)
		1645	return NULL;
		1646	load_unique_objects (m);
		1647
		1648	clean_tmp_map (m);
		1649	m->in_memory = MAP_IN_MEMORY;
		1650	/* tempnam() on sun systems (probably others) uses malloc
		1651	* to allocated space for the string. Free it here.
		1652	* In some cases, load_temporary_map above won't find the
		1653	* temporary map, and so has reloaded a new map. If that
		1654	* is the case, tmpname is now null
		1655	*/
		1656	if (m->tmpname)
		1657	free (m->tmpname);
		1658	m->tmpname = NULL;
		1659	/* It's going to be saved anew anyway */
		1660	}
		1661
		1662	/* Below here is stuff common to both first time loaded maps and
		1663	* temp maps.
		1664	*/
		1665
		1666	decay_objects (m); /* start the decay */
		1667	/* In case other objects press some buttons down */
		1668	update_buttons (m);
		1669	if (m->outdoor)
		1670	set_darkness_map (m);
		1671	/* run the weather over this map */
		1672	weather_effect (name);
		1673	return m;
1595	}	1674	}
1596		1675
1597		1676
1598	/*	1677	/*
1599	* This routine is supposed to find out the difficulty of the map.	1678	* This routine is supposed to find out the difficulty of the map.
…		…
1604	* in the map is zero, then use this routine. Maps should really	1683	* in the map is zero, then use this routine. Maps should really
1605	* have a difficulty set than using this function - human calculation	1684	* have a difficulty set than using this function - human calculation
1606	* is much better than this functions guesswork.	1685	* is much better than this functions guesswork.
1607	*/	1686	*/
1608		1687
		1688	int
1609	int calculate_difficulty(mapstruct *m) {	1689	calculate_difficulty (maptile *m)
		1690	{
1610	object *op;	1691	object *op;
1611	archetype *at;	1692	archetype *at;
1612	int x, y, i, diff;	1693	int x, y, i;
1613	long monster_cnt = 0;	1694	long monster_cnt = 0;
1614	double avgexp = 0;	1695	double avgexp = 0;
1615	sint64 total_exp = 0;	1696	sint64 total_exp = 0;
1616		1697
1617	if (MAP_DIFFICULTY (m))	1698	if (m->difficulty)
1618	{	1699	{
1619	LOG(llevDebug, "Using stored map difficulty: %d\n", MAP_DIFFICULTY (m));	1700	LOG (llevDebug, "Using stored map difficulty: %d\n", m->difficulty);
1620	return MAP_DIFFICULTY (m);	1701	return m->difficulty;
1621	}	1702	}
1622		1703
1623	for(x = 0; x < MAP_WIDTH(m); x++)	1704	for (x = 0; x < m->width; x++)
1624	for(y = 0; y < MAP_HEIGHT(m); y++)	1705	for (y = 0; y < m->height; y++)
1625	for(op = get_map_ob(m, x, y); op != NULL; op = op->above)	1706	for (op = GET_MAP_OB (m, x, y); op != NULL; op = op->above)
1626	{	1707	{
1627	if(QUERY_FLAG (op, FLAG_MONSTER))	1708	if (QUERY_FLAG (op, FLAG_MONSTER))
1628	{	1709	{
1629	total_exp += op->stats.exp;	1710	total_exp += op->stats.exp;
1630	monster_cnt++;	1711	monster_cnt++;
1631	}	1712	}
1632		1713
1633	if(QUERY_FLAG (op, FLAG_GENERATOR))	1714	if (QUERY_FLAG (op, FLAG_GENERATOR))
1634	{	1715	{
1635	total_exp += op->stats.exp;	1716	total_exp += op->stats.exp;
1636	at = type_to_archetype(GENERATE_TYPE (op));	1717	at = type_to_archetype (GENERATE_TYPE (op));
1637		1718
1638	if(at != NULL)	1719	if (at != NULL)
1639	total_exp += at->clone.stats.exp * 8;	1720	total_exp += at->clone.stats.exp * 8;
1640		1721
1641	monster_cnt++;	1722	monster_cnt++;
1642	}	1723	}
1643	}	1724	}
…		…
1654	}	1735	}
1655		1736
1656	return 1;	1737	return 1;
1657	}	1738	}
1658		1739
1659	void clean_tmp_map(mapstruct *m) {	1740	void
		1741	clean_tmp_map (maptile *m)
		1742	{
1660	if(m->tmpname == NULL)	1743	if (m->tmpname == NULL)
1661	return;	1744	return;
1662	INVOKE_MAP (CLEAN, m);	1745	INVOKE_MAP (CLEAN, m);
1663	(void) unlink(m->tmpname);	1746	(void) unlink (m->tmpname);
1664	}	1747	}
1665		1748
		1749	void
1666	void free_all_maps(void)	1750	free_all_maps (void)
1667	{	1751	{
1668	int real_maps=0;	1752	int real_maps = 0;
1669		1753
1670	while (first_map) {	1754	while (first_map)
		1755	{
1671	/* I think some of the callers above before it gets here set this to be	1756	/* I think some of the callers above before it gets here set this to be
1672	* saving, but we still want to free this data	1757	* saving, but we still want to free this data
1673	*/	1758	*/
1674	if (first_map->in_memory == MAP_SAVING) first_map->in_memory = MAP_IN_MEMORY;	1759	if (first_map->in_memory == MAP_SAVING)
		1760	first_map->in_memory = MAP_IN_MEMORY;
1675	delete_map(first_map);	1761	delete_map (first_map);
1676	real_maps++;	1762	real_maps++;
1677	}	1763	}
1678	LOG(llevDebug,"free_all_maps: Freed %d maps\n", real_maps);	1764	LOG (llevDebug, "free_all_maps: Freed %d maps\n", real_maps);
1679	}	1765	}
1680		1766
1681	/* change_map_light() - used to change map light level (darkness)	1767	/* change_map_light() - used to change map light level (darkness)
1682	* up or down. Returns true if successful. It should now be	1768	* up or down. Returns true if successful. It should now be
1683	* possible to change a value by more than 1.	1769	* possible to change a value by more than 1.
1684	* Move this from los.c to map.c since this is more related	1770	* Move this from los.c to map.c since this is more related
1685	* to maps than los.	1771	* to maps than los.
1686	* postive values make it darker, negative make it brighter	1772	* postive values make it darker, negative make it brighter
1687	*/	1773	*/
1688		1774
		1775	int
1689	int change_map_light(mapstruct *m, int change) {	1776	change_map_light (maptile *m, int change)
		1777	{
1690	int new_level = m->darkness + change;	1778	int new_level = m->darkness + change;
1691		1779
1692	/* Nothing to do */	1780	/* Nothing to do */
1693	if(!change || (new_level <= 0 && m->darkness == 0) ||	1781	if (!change || (new_level <= 0 && m->darkness == 0) || (new_level >= MAX_DARKNESS && m->darkness >= MAX_DARKNESS))
1694	(new_level >= MAX_DARKNESS && m->darkness >=MAX_DARKNESS)) {	1782	{
1695	return 0;	1783	return 0;
1696	}	1784	}
1697		1785
1698	/* inform all players on the map */	1786	/* inform all players on the map */
1699	if (change>0)	1787	if (change > 0)
1700	new_info_map(NDI_BLACK|NDI_UNIQUE, m,"It becomes darker.");	1788	new_info_map (NDI_BLACK | NDI_UNIQUE, m, "It becomes darker.");
1701	else	1789	else
1702	new_info_map(NDI_BLACK|NDI_UNIQUE, m,"It becomes brighter.");	1790	new_info_map (NDI_BLACK | NDI_UNIQUE, m, "It becomes brighter.");
1703		1791
1704	/* Do extra checking. since m->darkness is a unsigned value,	1792	/* Do extra checking. since m->darkness is a unsigned value,
1705	* we need to be extra careful about negative values.	1793	* we need to be extra careful about negative values.
1706	* In general, the checks below are only needed if change	1794	* In general, the checks below are only needed if change
1707	* is not +/-1	1795	* is not +/-1
1708	*/	1796	*/
1709	if (new_level < 0) m->darkness = 0;	1797	if (new_level < 0)
1710	else if (new_level >=MAX_DARKNESS) m->darkness = MAX_DARKNESS;	1798	m->darkness = 0;
		1799	else if (new_level >= MAX_DARKNESS)
		1800	m->darkness = MAX_DARKNESS;
		1801	else
1711	else m->darkness=new_level;	1802	m->darkness = new_level;
1712		1803
1713	/* All clients need to get re-updated for the change */	1804	/* All clients need to get re-updated for the change */
1714	update_all_map_los(m);	1805	update_all_map_los (m);
1715	return 1;	1806	return 1;
1716	}	1807	}
1717
1718		1808
1719	/*	1809	/*
1720	* This function updates various attributes about a specific space	1810	* This function updates various attributes about a specific space
1721	* on the map (what it looks like, whether it blocks magic,	1811	* on the map (what it looks like, whether it blocks magic,
1722	* has a living creatures, prevents people from passing	1812	* has a living creatures, prevents people from passing
1723	* through, etc)	1813	* through, etc)
1724	*/	1814	*/
1725	void update_position (mapstruct *m, int x, int y) {	1815	void
		1816	mapspace::update_ ()
		1817	{
1726	object *tmp, *last = NULL;	1818	object *tmp, *last = 0;
1727	uint8 flags = 0, oldflags, light=0, anywhere=0;	1819	uint8 flags = 0, light = 0, anywhere = 0;
1728	New_Face *top,*floor, *middle;	1820	New_Face *top, *floor, *middle;
1729	object *top_obj, *floor_obj, *middle_obj;	1821	object *top_obj, *floor_obj, *middle_obj;
1730	MoveType move_block=0, move_slow=0, move_on=0, move_off=0, move_allow=0;	1822	MoveType move_block = 0, move_slow = 0, move_on = 0, move_off = 0, move_allow = 0;
1731		1823
1732	oldflags = GET_MAP_FLAGS(m,x,y);
1733	if (!(oldflags & P_NEED_UPDATE)) {
1734	LOG(llevDebug,"update_position called with P_NEED_UPDATE not set: %s (%d, %d)\n",
1735	m->path, x, y);
1736	return;
1737	}
1738
1739	middle=blank_face;	1824	middle = blank_face;
1740	top=blank_face;	1825	top = blank_face;
1741	floor=blank_face;	1826	floor = blank_face;
1742		1827
1743	middle_obj = NULL;	1828	middle_obj = 0;
1744	top_obj = NULL;	1829	top_obj = 0;
1745	floor_obj = NULL;	1830	floor_obj = 0;
1746		1831
1747	for (tmp = get_map_ob (m, x, y); tmp; last = tmp, tmp = tmp->above) {	1832	for (tmp = bot; tmp; last = tmp, tmp = tmp->above)
1748		1833	{
1749	/* This could be made additive I guess (two lights better than	1834	/* This could be made additive I guess (two lights better than
1750	* one). But if so, it shouldn't be a simple additive - 2	1835	* one). But if so, it shouldn't be a simple additive - 2
1751	* light bulbs do not illuminate twice as far as once since	1836	* light bulbs do not illuminate twice as far as once since
1752	* it is a disapation factor that is squared (or is it cubed?)	1837	* it is a dissapation factor that is cubed.
1753	*/	1838	*/
1754	if (tmp->glow_radius > light) light = tmp->glow_radius;	1839	if (tmp->glow_radius > light)
		1840	light = tmp->glow_radius;
1755		1841
1756	/* This call is needed in order to update objects the player	1842	/* This call is needed in order to update objects the player
1757	* is standing in that have animations (ie, grass, fire, etc).	1843	* is standing in that have animations (ie, grass, fire, etc).
1758	* However, it also causes the look window to be re-drawn	1844	* However, it also causes the look window to be re-drawn
1759	* 3 times each time the player moves, because many of the	1845	* 3 times each time the player moves, because many of the
1760	* functions the move_player calls eventualy call this.	1846	* functions the move_player calls eventualy call this.
1761	*	1847	*
1762	* Always put the player down for drawing.	1848	* Always put the player down for drawing.
1763	*/	1849	*/
1764	if (!tmp->invisible) {	1850	if (!tmp->invisible)
		1851	{
1765	if ((tmp->type==PLAYER || QUERY_FLAG(tmp, FLAG_MONSTER))) {	1852	if ((tmp->type == PLAYER || QUERY_FLAG (tmp, FLAG_MONSTER)))
		1853	{
1766	top = tmp->face;	1854	top = tmp->face;
1767	top_obj = tmp;	1855	top_obj = tmp;
1768	}	1856	}
1769	else if (QUERY_FLAG(tmp,FLAG_IS_FLOOR)) {	1857	else if (QUERY_FLAG (tmp, FLAG_IS_FLOOR))
		1858	{
1770	/* If we got a floor, that means middle and top were below it,	1859	/* If we got a floor, that means middle and top were below it,
1771	* so should not be visible, so we clear them.	1860	* so should not be visible, so we clear them.
1772	*/	1861	*/
1773	middle=blank_face;	1862	middle = blank_face;
1774	top=blank_face;	1863	top = blank_face;
1775	floor = tmp->face;	1864	floor = tmp->face;
1776	floor_obj = tmp;	1865	floor_obj = tmp;
1777	}	1866	}
1778	/* Flag anywhere have high priority */	1867	/* Flag anywhere have high priority */
1779	else if (QUERY_FLAG(tmp, FLAG_SEE_ANYWHERE)) {	1868	else if (QUERY_FLAG (tmp, FLAG_SEE_ANYWHERE))
		1869	{
1780	middle = tmp->face;	1870	middle = tmp->face;
1781		1871
1782	middle_obj = tmp;	1872	middle_obj = tmp;
1783	anywhere =1;	1873	anywhere = 1;
1784	}	1874	}
1785	/* Find the highest visible face around. If equal	1875	/* Find the highest visible face around. If equal
1786	* visibilities, we still want the one nearer to the	1876	* visibilities, we still want the one nearer to the
1787	* top	1877	* top
1788	*/	1878	*/
1789	else if (middle == blank_face || (tmp->face->visibility > middle->visibility && !anywhere)) {	1879	else if (middle == blank_face || (tmp->face->visibility > middle->visibility && !anywhere))
		1880	{
1790	middle = tmp->face;	1881	middle = tmp->face;
1791	middle_obj = tmp;	1882	middle_obj = tmp;
1792	}	1883	}
1793	}	1884	}
		1885
1794	if (tmp==tmp->above) {	1886	if (tmp == tmp->above)
		1887	{
1795	LOG(llevError, "Error in structure of map\n");	1888	LOG (llevError, "Error in structure of map\n");
1796	exit (-1);	1889	exit (-1);
1797	}
1798		1890	}
		1891
1799	move_slow |= tmp->move_slow;	1892	move_slow |= tmp->move_slow;
1800	move_block |= tmp->move_block;	1893	move_block |= tmp->move_block;
1801	move_on |= tmp->move_on;	1894	move_on |= tmp->move_on;
1802	move_off |= tmp->move_off;	1895	move_off |= tmp->move_off;
1803	move_allow |= tmp->move_allow;	1896	move_allow |= tmp->move_allow;
1804		1897
1805	if (QUERY_FLAG(tmp,FLAG_ALIVE))
1806	flags |= P_IS_ALIVE;
1807	if (QUERY_FLAG(tmp,FLAG_NO_MAGIC))
1808	flags |= P_NO_MAGIC;
1809	if (QUERY_FLAG(tmp,FLAG_DAMNED))
1810	flags |= P_NO_CLERIC;
1811	if (tmp->type == SAFE_GROUND)
1812	flags |= P_SAFE | P_NO_CLERIC | P_NO_MAGIC;
1813
1814	if (QUERY_FLAG(tmp,FLAG_BLOCKSVIEW))	1898	if (QUERY_FLAG (tmp, FLAG_BLOCKSVIEW)) flags |= P_BLOCKSVIEW;
1815	flags |= P_BLOCKSVIEW;	1899	if (QUERY_FLAG (tmp, FLAG_NO_MAGIC)) flags |= P_NO_MAGIC;
1816	} /* for stack of objects */	1900	if (tmp->type == PLAYER) flags |= P_PLAYER;
1817		1901	if (tmp->type == SAFE_GROUND) flags |= P_SAFE;
1818	/* we don't want to rely on this function to have accurate flags, but	1902	if (QUERY_FLAG (tmp, FLAG_ALIVE)) flags |= P_IS_ALIVE;
1819	* since we're already doing the work, we calculate them here.	1903	if (QUERY_FLAG (tmp, FLAG_DAMNED)) flags |= P_NO_CLERIC;
1820	* if they don't match, logic is broken someplace.
1821	*/
1822	if (((oldflags & ~(P_NEED_UPDATE|P_NO_ERROR)) != flags) &&
1823	(!(oldflags & P_NO_ERROR))) {
1824	LOG(llevDebug,"update_position: updated flags do not match old flags: %s (old=%d,new=%d) %x != %x\n",
1825	m->path, x, y,
1826	(oldflags & ~P_NEED_UPDATE), flags);
1827	}	1904	}
1828	SET_MAP_FLAGS(m, x, y, flags);
1829	SET_MAP_MOVE_BLOCK(m, x, y, move_block & ~move_allow);
1830	SET_MAP_MOVE_ON(m, x, y, move_on);
1831	SET_MAP_MOVE_OFF(m, x, y, move_off);
1832	SET_MAP_MOVE_SLOW(m, x, y, move_slow);
1833		1905
		1906	this->light = light;
		1907	this->flags_ = flags;
		1908	this->move_block = move_block & ~move_allow;
		1909	this->move_on = move_on;
		1910	this->move_off = move_off;
		1911	this->move_slow = move_slow;
		1912
1834	/* At this point, we have a floor face (if there is a floor),	1913	/* At this point, we have a floor face (if there is a floor),
1835	* and the floor is set - we are not going to touch it at	1914	* and the floor is set - we are not going to touch it at
1836	* this point.	1915	* this point.
1837	* middle contains the highest visibility face.	1916	* middle contains the highest visibility face.
1838	* top contains a player/monster face, if there is one.	1917	* top contains a player/monster face, if there is one.
1839	*	1918	*
1840	* We now need to fill in top.face and/or middle.face.	1919	* We now need to fill in top.face and/or middle.face.
1841	*/	1920	*/
1842		1921
1843	/* If the top face also happens to be high visibility, re-do our	1922	/* If the top face also happens to be high visibility, re-do our
1844	* middle face. This should not happen, as we already have the	1923	* middle face. This should not happen, as we already have the
1845	* else statement above so middle should not get set. OTOH, it	1924	* else statement above so middle should not get set. OTOH, it
1846	* may be possible for the faces to match but be different objects.	1925	* may be possible for the faces to match but be different objects.
1847	*/	1926	*/
1848	if (top == middle) middle=blank_face;	1927	if (top == middle)
		1928	middle = blank_face;
1849		1929
1850	/* There are three posibilities at this point:	1930	/* There are three posibilities at this point:
1851	* 1) top face is set, need middle to be set.	1931	* 1) top face is set, need middle to be set.
1852	* 2) middle is set, need to set top.	1932	* 2) middle is set, need to set top.
1853	* 3) neither middle or top is set - need to set both.	1933	* 3) neither middle or top is set - need to set both.
1854	*/	1934	*/
1855		1935
1856	for (tmp=last; tmp; tmp=tmp->below) {	1936	for (tmp = last; tmp; tmp = tmp->below)
		1937	{
1857	/* Once we get to a floor, stop, since we already have a floor object */	1938	/* Once we get to a floor, stop, since we already have a floor object */
1858	if (QUERY_FLAG(tmp,FLAG_IS_FLOOR)) break;	1939	if (QUERY_FLAG (tmp, FLAG_IS_FLOOR))
		1940	break;
1859		1941
1860	/* If two top faces are already set, quit processing */	1942	/* If two top faces are already set, quit processing */
1861	if ((top != blank_face) && (middle != blank_face)) break;	1943	if ((top != blank_face) && (middle != blank_face))
		1944	break;
1862		1945
1863	/* Only show visible faces, unless its the editor - show all */	1946	/* Only show visible faces, unless its the editor - show all */
1864	if (!tmp->invisible || editor) {	1947	if (!tmp->invisible || editor)
		1948	{
1865	/* Fill in top if needed */	1949	/* Fill in top if needed */
1866	if (top == blank_face) {	1950	if (top == blank_face)
		1951	{
1867	top = tmp->face;	1952	top = tmp->face;
1868	top_obj = tmp;	1953	top_obj = tmp;
		1954	if (top == middle)
1869	if (top == middle) middle=blank_face;	1955	middle = blank_face;
		1956	}
1870	} else {	1957	else
		1958	{
1871	/* top is already set - we should only get here if	1959	/* top is already set - we should only get here if
1872	* middle is not set	1960	* middle is not set
1873	*	1961	*
1874	* Set the middle face and break out, since there is nothing	1962	* Set the middle face and break out, since there is nothing
1875	* more to fill in. We don't check visiblity here, since	1963	* more to fill in. We don't check visiblity here, since
1876	*	1964	*
1877	*/	1965	*/
1878	if (tmp->face != top ) {	1966	if (tmp->face != top)
		1967	{
1879	middle = tmp->face;	1968	middle = tmp->face;
1880	middle_obj = tmp;	1969	middle_obj = tmp;
1881	break;	1970	break;
1882	}	1971	}
1883	}	1972	}
1884	}	1973	}
1885	}	1974	}
1886	if (middle == floor) middle = blank_face;	1975
1887	if (top == middle) middle = blank_face;	1976	if (middle == floor)
1888	SET_MAP_FACE(m,x,y,top,0);
1889	if(top != blank_face)
1890	SET_MAP_FACE_OBJ(m,x,y,top_obj,0);
1891	else
1892	SET_MAP_FACE_OBJ(m,x,y,NULL,0);
1893	SET_MAP_FACE(m,x,y,middle,1);
1894	if(middle != blank_face)	1977	middle = blank_face;
1895	SET_MAP_FACE_OBJ(m,x,y,middle_obj,1);
1896	else
1897	SET_MAP_FACE_OBJ(m,x,y,NULL,1);
1898	SET_MAP_FACE(m,x,y,floor,2);
1899	if(floor != blank_face)
1900	SET_MAP_FACE_OBJ(m,x,y,floor_obj,2);
1901	else
1902	SET_MAP_FACE_OBJ(m,x,y,NULL,2);
1903	SET_MAP_LIGHT(m,x,y,light);
1904	}
1905		1978
		1979	if (top == middle)
		1980	middle = blank_face;
1906		1981
		1982	faces [0] = top; faces_obj [0] = top != blank_face ? top_obj : 0;
		1983	faces [1] = middle; faces_obj [1] = middle != blank_face ? middle_obj : 0;
		1984	faces [2] = floor; faces_obj [2] = floor != blank_face ? floor_obj : 0;
		1985	}
		1986
		1987	void
1907	void set_map_reset_time(mapstruct *map) {	1988	set_map_reset_time (maptile *map)
		1989	{
1908	int timeout;	1990	int timeout;
1909		1991
1910	timeout = MAP_RESET_TIMEOUT(map);	1992	timeout = map->reset_timeout;
1911	if (timeout <= 0)	1993	if (timeout <= 0)
1912	timeout = MAP_DEFAULTRESET;	1994	timeout = MAP_DEFAULTRESET;
1913	if (timeout >= MAP_MAXRESET)	1995	if (timeout >= MAP_MAXRESET)
1914	timeout = MAP_MAXRESET;	1996	timeout = MAP_MAXRESET;
1915	MAP_WHEN_RESET(map) = seconds()+timeout;	1997	map->reset_time = time (0) + timeout;
1916	}	1998	}
1917		1999
1918	/* this updates the orig_map->tile_map[tile_num] value after loading	2000	/* this updates the orig_map->tile_map[tile_num] value after loading
1919	* the map. It also takes care of linking back the freshly loaded	2001	* the map. It also takes care of linking back the freshly loaded
1920	* maps tile_map values if it tiles back to this one. It returns	2002	* maps tile_map values if it tiles back to this one. It returns
1921	* the value of orig_map->tile_map[tile_num]. It really only does this	2003	* the value of orig_map->tile_map[tile_num]. It really only does this
1922	* so that it is easier for calling functions to verify success.	2004	* so that it is easier for calling functions to verify success.
1923	*/	2005	*/
1924		2006
		2007	static maptile *
1925	static mapstruct *load_and_link_tiled_map(mapstruct *orig_map, int tile_num)	2008	load_and_link_tiled_map (maptile *orig_map, int tile_num)
1926	{	2009	{
1927	int dest_tile = (tile_num +2) % 4;	2010	int dest_tile = (tile_num + 2) % 4;
1928	char *path = path_combine_and_normalize(orig_map->path, orig_map->tile_path[tile_num]);	2011	char *path = path_combine_and_normalize (orig_map->path, orig_map->tile_path[tile_num]);
1929		2012
1930	orig_map->tile_map[tile_num] = ready_map_name(path, 0);	2013	orig_map->tile_map[tile_num] = ready_map_name (path, 0);
1931		2014
1932	/* need to do a strcmp here as the orig_map->path is not a shared string */	2015	/* need to do a strcmp here as the orig_map->path is not a shared string */
1933	if (orig_map->tile_map[tile_num]->tile_path[dest_tile] &&	2016	if (orig_map->tile_map[tile_num]->tile_path[dest_tile] && !strcmp (orig_map->tile_map[tile_num]->tile_path[dest_tile], orig_map->path))
1934	!strcmp(orig_map->tile_map[tile_num]->tile_path[dest_tile], orig_map->path))
1935	orig_map->tile_map[tile_num]->tile_map[dest_tile] = orig_map;	2017	orig_map->tile_map[tile_num]->tile_map[dest_tile] = orig_map;
1936		2018
1937	return orig_map->tile_map[tile_num];	2019	return orig_map->tile_map[tile_num];
1938	}	2020	}
1939		2021
1940	/* this returns TRUE if the coordinates (x,y) are out of	2022	/* this returns TRUE if the coordinates (x,y) are out of
1941	* map m. This function also takes into account any	2023	* map m. This function also takes into account any
1942	* tiling considerations, loading adjacant maps as needed.	2024	* tiling considerations, loading adjacant maps as needed.
…		…
1945	* This function will recursively call itself for the	2027	* This function will recursively call itself for the
1946	* tiled maps.	2028	* tiled maps.
1947	*	2029	*
1948	*	2030	*
1949	*/	2031	*/
		2032	int
1950	int out_of_map(mapstruct *m, int x, int y)	2033	out_of_map (maptile *m, int x, int y)
1951	{	2034	{
1952
1953	/* If we get passed a null map, this is obviously the	2035	/* If we get passed a null map, this is obviously the
1954	* case. This generally shouldn't happen, but if the	2036	* case. This generally shouldn't happen, but if the
1955	* map loads fail below, it could happen.	2037	* map loads fail below, it could happen.
1956	*/	2038	*/
1957	if (!m) return 0;	2039	if (!m)
1958
1959	if (x<0) {
1960	if (!m->tile_path[3]) return 1;
1961	if (!m->tile_map[3] || m->tile_map[3]->in_memory != MAP_IN_MEMORY) {
1962	load_and_link_tiled_map(m, 3);
1963	}
1964	return (out_of_map(m->tile_map[3], x + MAP_WIDTH(m->tile_map[3]), y));
1965	}
1966	if (x>=MAP_WIDTH(m)) {
1967	if (!m->tile_path[1]) return 1;
1968	if (!m->tile_map[1] || m->tile_map[1]->in_memory != MAP_IN_MEMORY) {
1969	load_and_link_tiled_map(m, 1);
1970	}
1971	return (out_of_map(m->tile_map[1], x - MAP_WIDTH(m), y));
1972	}
1973	if (y<0) {
1974	if (!m->tile_path[0]) return 1;
1975	if (!m->tile_map[0] || m->tile_map[0]->in_memory != MAP_IN_MEMORY) {
1976	load_and_link_tiled_map(m, 0);
1977	}
1978	return (out_of_map(m->tile_map[0], x, y + MAP_HEIGHT(m->tile_map[0])));
1979	}
1980	if (y>=MAP_HEIGHT(m)) {
1981	if (!m->tile_path[2]) return 1;
1982	if (!m->tile_map[2] || m->tile_map[2]->in_memory != MAP_IN_MEMORY) {
1983	load_and_link_tiled_map(m, 2);
1984	}
1985	return (out_of_map(m->tile_map[2], x, y - MAP_HEIGHT(m)));
1986	}
1987
1988	/* Simple case - coordinates are within this local
1989	* map.
1990	*/
1991	return 0;	2040	return 0;
		2041
		2042	if (x < 0)
		2043	{
		2044	if (!m->tile_path[3])
		2045	return 1;
		2046
		2047	if (!m->tile_map[3] || m->tile_map[3]->in_memory != MAP_IN_MEMORY)
		2048	load_and_link_tiled_map (m, 3);
		2049
		2050	return (out_of_map (m->tile_map[3], x + m->tile_map[3]->width, y));
		2051	}
		2052
		2053	if (x >= m->width)
		2054	{
		2055	if (!m->tile_path[1])
		2056	return 1;
		2057
		2058	if (!m->tile_map[1] || m->tile_map[1]->in_memory != MAP_IN_MEMORY)
		2059	load_and_link_tiled_map (m, 1);
		2060
		2061	return (out_of_map (m->tile_map[1], x - m->width, y));
		2062	}
		2063
		2064	if (y < 0)
		2065	{
		2066	if (!m->tile_path[0])
		2067	return 1;
		2068
		2069	if (!m->tile_map[0] || m->tile_map[0]->in_memory != MAP_IN_MEMORY)
		2070	load_and_link_tiled_map (m, 0);
		2071
		2072	return (out_of_map (m->tile_map[0], x, y + m->tile_map[0]->height));
		2073	}
		2074
		2075	if (y >= m->height)
		2076	{
		2077	if (!m->tile_path[2])
		2078	return 1;
		2079
		2080	if (!m->tile_map[2] || m->tile_map[2]->in_memory != MAP_IN_MEMORY)
		2081	load_and_link_tiled_map (m, 2);
		2082
		2083	return (out_of_map (m->tile_map[2], x, y - m->height));
		2084	}
		2085
		2086	/* Simple case - coordinates are within this local
		2087	* map.
		2088	*/
		2089	return 0;
1992	}	2090	}
1993		2091
1994	/* This is basically the same as out_of_map above, but	2092	/* This is basically the same as out_of_map above, but
1995	* instead we return NULL if no map is valid (coordinates	2093	* instead we return NULL if no map is valid (coordinates
1996	* out of bounds and no tiled map), otherwise it returns	2094	* out of bounds and no tiled map), otherwise it returns
1997	* the map as that the coordinates are really on, and	2095	* the map as that the coordinates are really on, and
1998	* updates x and y to be the localized coordinates.	2096	* updates x and y to be the localized coordinates.
1999	* Using this is more efficient of calling out_of_map	2097	* Using this is more efficient of calling out_of_map
2000	* and then figuring out what the real map is	2098	* and then figuring out what the real map is
2001	*/	2099	*/
		2100	maptile *
2002	mapstruct *get_map_from_coord(mapstruct *m, sint16 *x, sint16 *y)	2101	get_map_from_coord (maptile *m, sint16 * x, sint16 * y)
2003	{	2102	{
2004		2103
2005	if (*x<0) {	2104	if (*x < 0)
		2105	{
2006	if (!m->tile_path[3]) return NULL;	2106	if (!m->tile_path[3])
		2107	return 0;
2007	if (!m->tile_map[3] || m->tile_map[3]->in_memory != MAP_IN_MEMORY)	2108	if (!m->tile_map[3] || m->tile_map[3]->in_memory != MAP_IN_MEMORY)
2008	load_and_link_tiled_map(m, 3);	2109	load_and_link_tiled_map (m, 3);
2009		2110
2010	*x += MAP_WIDTH(m->tile_map[3]);	2111	*x += m->tile_map[3]->width;
2011	return (get_map_from_coord(m->tile_map[3], x, y));	2112	return (get_map_from_coord (m->tile_map[3], x, y));
		2113	}
		2114
		2115	if (*x >= m->width)
2012	}	2116	{
2013	if (*x>=MAP_WIDTH(m)) {
2014	if (!m->tile_path[1]) return NULL;	2117	if (!m->tile_path[1])
		2118	return 0;
		2119
2015	if (!m->tile_map[1] || m->tile_map[1]->in_memory != MAP_IN_MEMORY)	2120	if (!m->tile_map[1] || m->tile_map[1]->in_memory != MAP_IN_MEMORY)
2016	load_and_link_tiled_map(m, 1);	2121	load_and_link_tiled_map (m, 1);
2017		2122
2018	*x -= MAP_WIDTH(m);	2123	*x -= m->width;
2019	return (get_map_from_coord(m->tile_map[1], x, y));	2124	return (get_map_from_coord (m->tile_map[1], x, y));
		2125	}
		2126
		2127	if (*y < 0)
2020	}	2128	{
2021	if (*y<0) {
2022	if (!m->tile_path[0]) return NULL;	2129	if (!m->tile_path[0])
		2130	return 0;
		2131
2023	if (!m->tile_map[0] || m->tile_map[0]->in_memory != MAP_IN_MEMORY)	2132	if (!m->tile_map[0] || m->tile_map[0]->in_memory != MAP_IN_MEMORY)
2024	load_and_link_tiled_map(m, 0);	2133	load_and_link_tiled_map (m, 0);
2025		2134
2026	*y += MAP_HEIGHT(m->tile_map[0]);	2135	*y += m->tile_map[0]->height;
2027	return (get_map_from_coord(m->tile_map[0], x, y));	2136	return (get_map_from_coord (m->tile_map[0], x, y));
		2137	}
		2138
		2139	if (*y >= m->height)
2028	}	2140	{
2029	if (*y>=MAP_HEIGHT(m)) {
2030	if (!m->tile_path[2]) return NULL;	2141	if (!m->tile_path[2])
		2142	return 0;
		2143
2031	if (!m->tile_map[2] || m->tile_map[2]->in_memory != MAP_IN_MEMORY)	2144	if (!m->tile_map[2] || m->tile_map[2]->in_memory != MAP_IN_MEMORY)
2032	load_and_link_tiled_map(m, 2);	2145	load_and_link_tiled_map (m, 2);
2033		2146
2034	*y -= MAP_HEIGHT(m);	2147	*y -= m->height;
2035	return (get_map_from_coord(m->tile_map[2], x, y));	2148	return (get_map_from_coord (m->tile_map[2], x, y));
2036	}	2149	}
2037		2150
2038	/* Simple case - coordinates are within this local	2151	/* Simple case - coordinates are within this local
2039	* map.	2152	* map.
2040	*/	2153	*/
2041		2154
2042	return m;	2155	return m;
2043	}	2156	}
2044		2157
2045	/**	2158	/**
2046	* Return whether map2 is adjacent to map1. If so, store the distance from	2159	* Return whether map2 is adjacent to map1. If so, store the distance from
2047	* map1 to map2 in dx/dy.	2160	* map1 to map2 in dx/dy.
2048	*/	2161	*/
		2162	static int
2049	static int adjacent_map(const mapstruct *map1, const mapstruct *map2, int *dx, int *dy) {	2163	adjacent_map (const maptile *map1, const maptile *map2, int *dx, int *dy)
		2164	{
2050	if (!map1 || !map2)	2165	if (!map1 || !map2)
		2166	return 0;
		2167
		2168	if (map1 == map2)
		2169	{
		2170	*dx = 0;
		2171	*dy = 0;
		2172
		2173	}
		2174	else if (map1->tile_map[0] == map2)
		2175	{ /* up */
		2176	*dx = 0;
		2177	*dy = -map2->height;
		2178	}
		2179	else if (map1->tile_map[1] == map2)
		2180	{ /* right */
		2181	*dx = map1->width;
		2182	*dy = 0;
		2183	}
		2184	else if (map1->tile_map[2] == map2)
		2185	{ /* down */
		2186	*dx = 0;
		2187	*dy = map1->height;
		2188	}
		2189	else if (map1->tile_map[3] == map2)
		2190	{ /* left */
		2191	*dx = -map2->width;
		2192	*dy = 0;
		2193
		2194	}
		2195	else if (map1->tile_map[0] && map1->tile_map[0]->tile_map[1] == map2)
		2196	{ /* up right */
		2197	*dx = map1->tile_map[0]->width;
		2198	*dy = -map1->tile_map[0]->height;
		2199	}
		2200	else if (map1->tile_map[0] && map1->tile_map[0]->tile_map[3] == map2)
		2201	{ /* up left */
		2202	*dx = -map2->width;
		2203	*dy = -map1->tile_map[0]->height;
		2204	}
		2205	else if (map1->tile_map[1] && map1->tile_map[1]->tile_map[0] == map2)
		2206	{ /* right up */
		2207	*dx = map1->width;
		2208	*dy = -map2->height;
		2209	}
		2210	else if (map1->tile_map[1] && map1->tile_map[1]->tile_map[2] == map2)
		2211	{ /* right down */
		2212	*dx = map1->width;
		2213	*dy = map1->tile_map[1]->height;
		2214	}
		2215	else if (map1->tile_map[2] && map1->tile_map[2]->tile_map[1] == map2)
		2216	{ /* down right */
		2217	*dx = map1->tile_map[2]->width;
		2218	*dy = map1->height;
		2219	}
		2220	else if (map1->tile_map[2] && map1->tile_map[2]->tile_map[3] == map2)
		2221	{ /* down left */
		2222	*dx = -map2->width;
		2223	*dy = map1->height;
		2224	}
		2225	else if (map1->tile_map[3] && map1->tile_map[3]->tile_map[0] == map2)
		2226	{ /* left up */
		2227	*dx = -map1->tile_map[3]->width;
		2228	*dy = -map2->height;
		2229	}
		2230	else if (map1->tile_map[3] && map1->tile_map[3]->tile_map[2] == map2)
		2231	{ /* left down */
		2232	*dx = -map1->tile_map[3]->width;
		2233	*dy = map1->tile_map[3]->height;
		2234
		2235	}
		2236	else
		2237	{ /* not "adjacent" enough */
2051	return 0;	2238	return 0;
2052
2053	if (map1 == map2) {
2054	*dx = 0;
2055	*dy = 0;
2056
2057	} else if (map1->tile_map[0] == map2) { /* up */
2058	*dx = 0;
2059	*dy = -MAP_HEIGHT(map2);
2060	} else if (map1->tile_map[1] == map2) { /* right */
2061	*dx = MAP_WIDTH(map1);
2062	*dy = 0;
2063	} else if (map1->tile_map[2] == map2) { /* down */
2064	*dx = 0;
2065	*dy = MAP_HEIGHT(map1);
2066	} else if (map1->tile_map[3] == map2) { /* left */
2067	*dx = -MAP_WIDTH(map2);
2068	*dy = 0;
2069
2070	} else if (map1->tile_map[0] && map1->tile_map[0]->tile_map[1] == map2) { /* up right */
2071	*dx = MAP_WIDTH(map1->tile_map[0]);
2072	*dy = -MAP_HEIGHT(map1->tile_map[0]);
2073	} else if (map1->tile_map[0] && map1->tile_map[0]->tile_map[3] == map2) { /* up left */
2074	*dx = -MAP_WIDTH(map2);
2075	*dy = -MAP_HEIGHT(map1->tile_map[0]);
2076	} else if (map1->tile_map[1] && map1->tile_map[1]->tile_map[0] == map2) { /* right up */
2077	*dx = MAP_WIDTH(map1);
2078	*dy = -MAP_HEIGHT(map2);
2079	} else if (map1->tile_map[1] && map1->tile_map[1]->tile_map[2] == map2) { /* right down */
2080	*dx = MAP_WIDTH(map1);
2081	*dy = MAP_HEIGHT(map1->tile_map[1]);
2082	} else if (map1->tile_map[2] && map1->tile_map[2]->tile_map[1] == map2) { /* down right */
2083	*dx = MAP_WIDTH(map1->tile_map[2]);
2084	*dy = MAP_HEIGHT(map1);
2085	} else if (map1->tile_map[2] && map1->tile_map[2]->tile_map[3] == map2) { /* down left */
2086	*dx = -MAP_WIDTH(map2);
2087	*dy = MAP_HEIGHT(map1);
2088	} else if (map1->tile_map[3] && map1->tile_map[3]->tile_map[0] == map2) { /* left up */
2089	*dx = -MAP_WIDTH(map1->tile_map[3]);
2090	*dy = -MAP_HEIGHT(map2);
2091	} else if (map1->tile_map[3] && map1->tile_map[3]->tile_map[2] == map2) { /* left down */
2092	*dx = -MAP_WIDTH(map1->tile_map[3]);
2093	*dy = MAP_HEIGHT(map1->tile_map[3]);
2094
2095	} else { /* not "adjacent" enough */
2096	return 0;
2097	}	2239	}
2098		2240
2099	return 1;	2241	return 1;
2100	}	2242	}
2101		2243
2102	/* From map.c	2244	/* From map.c
2103	* This is used by get_player to determine where the other	2245	* This is used by get_player to determine where the other
2104	* creature is. get_rangevector takes into account map tiling,	2246	* creature is. get_rangevector takes into account map tiling,
…		…
2118	*	2260	*
2119	* currently, the only flag supported (0x1) is don't translate for	2261	* currently, the only flag supported (0x1) is don't translate for
2120	* closest body part of 'op1'	2262	* closest body part of 'op1'
2121	*/	2263	*/
2122		2264
		2265	void
2123	void get_rangevector(object *op1, object *op2, rv_vector *retval, int flags) {	2266	get_rangevector (object *op1, object *op2, rv_vector * retval, int flags)
		2267	{
2124	if (!adjacent_map(op1->map, op2->map, &retval->distance_x, &retval->distance_y)) {	2268	if (!adjacent_map (op1->map, op2->map, &retval->distance_x, &retval->distance_y))
		2269	{
2125	/* be conservative and fill in _some_ data */	2270	/* be conservative and fill in _some_ data */
2126	retval->distance = 100000;	2271	retval->distance = 100000;
2127	retval->distance_x = 32767;	2272	retval->distance_x = 32767;
2128	retval->distance_y = 32767;	2273	retval->distance_y = 32767;
2129	retval->direction = 0;	2274	retval->direction = 0;
2130	retval->part = 0;	2275	retval->part = 0;
2131	} else {	2276	}
		2277	else
		2278	{
2132	object *best;	2279	object *best;
2133		2280
2134	retval->distance_x += op2->x-op1->x;	2281	retval->distance_x += op2->x - op1->x;
2135	retval->distance_y += op2->y-op1->y;	2282	retval->distance_y += op2->y - op1->y;
2136		2283
2137	best = op1;	2284	best = op1;
2138	/* If this is multipart, find the closest part now */	2285	/* If this is multipart, find the closest part now */
2139	if (!(flags&0x1) && op1->more) {	2286	if (!(flags & 0x1) && op1->more)
		2287	{
2140	object *tmp;	2288	object *tmp;
2141	int best_distance = retval->distance_x*retval->distance_x+	2289	int best_distance = retval->distance_x * retval->distance_x + retval->distance_y * retval->distance_y, tmpi;
2142	retval->distance_y*retval->distance_y, tmpi;
2143		2290
2144	/* we just take the offset of the piece to head to figure	2291	/* we just take the offset of the piece to head to figure
2145	* distance instead of doing all that work above again	2292	* distance instead of doing all that work above again
2146	* since the distance fields we set above are positive in the	2293	* since the distance fields we set above are positive in the
2147	* same axis as is used for multipart objects, the simply arithmetic	2294	* same axis as is used for multipart objects, the simply arithmetic
2148	* below works.	2295	* below works.
2149	*/	2296	*/
2150	for (tmp = op1->more; tmp != NULL; tmp = tmp->more) {	2297	for (tmp = op1->more; tmp != NULL; tmp = tmp->more)
		2298	{
2151	tmpi = (op1->x-tmp->x+retval->distance_x)*(op1->x-tmp->x+retval->distance_x)+	2299	tmpi = (op1->x - tmp->x + retval->distance_x) * (op1->x - tmp->x + retval->distance_x) +
2152	(op1->y-tmp->y+retval->distance_y)*(op1->y-tmp->y+retval->distance_y);	2300	(op1->y - tmp->y + retval->distance_y) * (op1->y - tmp->y + retval->distance_y);
2153	if (tmpi < best_distance) {	2301	if (tmpi < best_distance)
		2302	{
2154	best_distance = tmpi;	2303	best_distance = tmpi;
2155	best = tmp;	2304	best = tmp;
2156	}	2305	}
2157	}	2306	}
2158	if (best != op1) {	2307	if (best != op1)
		2308	{
2159	retval->distance_x += op1->x-best->x;	2309	retval->distance_x += op1->x - best->x;
2160	retval->distance_y += op1->y-best->y;	2310	retval->distance_y += op1->y - best->y;
2161	}	2311	}
2162	}	2312	}
2163	retval->part = best;	2313	retval->part = best;
2164	retval->distance = isqrt(retval->distance_x*retval->distance_x+retval->distance_y*retval->distance_y);	2314	retval->distance = isqrt (retval->distance_x * retval->distance_x + retval->distance_y * retval->distance_y);
2165	retval->direction = find_dir_2(-retval->distance_x, -retval->distance_y);	2315	retval->direction = find_dir_2 (-retval->distance_x, -retval->distance_y);
2166	}	2316	}
2167	}	2317	}
2168		2318
2169	/* this is basically the same as get_rangevector above, but instead of	2319	/* this is basically the same as get_rangevector above, but instead of
2170	* the first parameter being an object, it instead is the map	2320	* the first parameter being an object, it instead is the map
…		…
2175	* be more consistant with the above function and also in case they are needed	2325	* be more consistant with the above function and also in case they are needed
2176	* for something in the future. Also, since no object is pasted, the best	2326	* for something in the future. Also, since no object is pasted, the best
2177	* field of the rv_vector is set to NULL.	2327	* field of the rv_vector is set to NULL.
2178	*/	2328	*/
2179		2329
		2330	void
2180	void get_rangevector_from_mapcoord(const mapstruct *m, int x, int y, const object *op2, rv_vector *retval, int flags) {	2331	get_rangevector_from_mapcoord (const maptile *m, int x, int y, const object *op2, rv_vector * retval, int flags)
		2332	{
2181	if (!adjacent_map(m, op2->map, &retval->distance_x, &retval->distance_y)) {	2333	if (!adjacent_map (m, op2->map, &retval->distance_x, &retval->distance_y))
		2334	{
2182	/* be conservative and fill in _some_ data */	2335	/* be conservative and fill in _some_ data */
2183	retval->distance = 100000;	2336	retval->distance = 100000;
2184	retval->distance_x = 32767;	2337	retval->distance_x = 32767;
2185	retval->distance_y = 32767;	2338	retval->distance_y = 32767;
2186	retval->direction = 0;	2339	retval->direction = 0;
2187	retval->part = 0;	2340	retval->part = 0;
2188	} else {	2341	}
		2342	else
		2343	{
2189	retval->distance_x += op2->x-x;	2344	retval->distance_x += op2->x - x;
2190	retval->distance_y += op2->y-y;	2345	retval->distance_y += op2->y - y;
2191		2346
2192	retval->part = NULL;	2347	retval->part = NULL;
2193	retval->distance = isqrt(retval->distance_x*retval->distance_x+retval->distance_y*retval->distance_y);	2348	retval->distance = isqrt (retval->distance_x * retval->distance_x + retval->distance_y * retval->distance_y);
2194	retval->direction = find_dir_2(-retval->distance_x, -retval->distance_y);	2349	retval->direction = find_dir_2 (-retval->distance_x, -retval->distance_y);
2195	}	2350	}
2196	}	2351	}
2197		2352
2198	/* Returns true of op1 and op2 are effectively on the same map	2353	/* Returns true of op1 and op2 are effectively on the same map
2199	* (as related to map tiling). Note that this looks for a path from	2354	* (as related to map tiling). Note that this looks for a path from
…		…
2201	* to op1, this will still return false.	2356	* to op1, this will still return false.
2202	* Note we only look one map out to keep the processing simple	2357	* Note we only look one map out to keep the processing simple
2203	* and efficient. This could probably be a macro.	2358	* and efficient. This could probably be a macro.
2204	* MSW 2001-08-05	2359	* MSW 2001-08-05
2205	*/	2360	*/
		2361	int
2206	int on_same_map(const object *op1, const object *op2) {	2362	on_same_map (const object *op1, const object *op2)
		2363	{
2207	int dx, dy;	2364	int dx, dy;
2208		2365
2209	return adjacent_map(op1->map, op2->map, &dx, &dy);	2366	return adjacent_map (op1->map, op2->map, &dx, &dy);
2210	}	2367	}

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