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Comparing deliantra/server/common/map.C (file contents):
Revision 1.26 by pippijn, Thu Sep 7 09:37:12 2006 UTC vs.
Revision 1.166 by root, Wed Oct 21 00:44:39 2009 UTC

1	/*	1	/*
2	* static char *rcsid_map_c =	2	* This file is part of Deliantra, the Roguelike Realtime MMORPG.
3	* "$Id: map.C,v 1.26 2006/09/07 09:37:12 pippijn Exp $";	3	*
4	*/	4	* Copyright (©) 2005,2006,2007,2008,2009 Marc Alexander Lehmann / Robin Redeker / the Deliantra team
5
6	/*
7	CrossFire, A Multiplayer game for X-windows
8
9	Copyright (C) 2001-2003 Mark Wedel & Crossfire Development Team	5	* Copyright (©) 2001-2003,2007 Mark Wedel & Crossfire Development Team
10	Copyright (C) 1992 Frank Tore Johansen	6	* Copyright (©) 1992,2007 Frank Tore Johansen
11		7	*
12	This program is free software; you can redistribute it and/or modify	8	* Deliantra is free software: you can redistribute it and/or modify it under
13	it under the terms of the GNU General Public License as published by	9	* the terms of the Affero GNU General Public License as published by the
14	the Free Software Foundation; either version 2 of the License, or	10	* Free Software Foundation, either version 3 of the License, or (at your
15	(at your option) any later version.	11	* option) any later version.
16		12	*
17	This program is distributed in the hope that it will be useful,	13	* This program is distributed in the hope that it will be useful,
18	but WITHOUT ANY WARRANTY; without even the implied warranty of	14	* but WITHOUT ANY WARRANTY; without even the implied warranty of
19	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the	15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20	GNU General Public License for more details.	16	* GNU General Public License for more details.
21		17	*
22	You should have received a copy of the GNU General Public License	18	* You should have received a copy of the Affero GNU General Public License
23	along with this program; if not, write to the Free Software	19	* and the GNU General Public License along with this program. If not, see
24	Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.	20	* <http://www.gnu.org/licenses/>.
25		21	*
26	The authors can be reached via e-mail at crossfire-devel@real-time.com	22	* The authors can be reached via e-mail to <support@deliantra.net>
27	*/	23	*/
28		24
29
30	#include <global.h>
31	#include <funcpoint.h>
32
33	#include <loader.h>
34	#ifndef WIN32 /* ---win32 exclude header */
35	#include <unistd.h>	25	#include <unistd.h>
36	#endif /* win32 */
37		26
		27	#include "global.h"
		28	#include "loader.h"
38	#include "path.h"	29	#include "path.h"
39		30
40		31	sint8 maptile::outdoor_darkness;
41	extern int nrofallocobjects,nroffreeobjects;
42
43	/*
44	* Returns the mapstruct which has a name matching the given argument.
45	* return NULL if no match is found.
46	*/
47
48	mapstruct *has_been_loaded (const char *name) {
49	mapstruct *map;
50
51	if (!name || !*name)
52	return 0;
53	for (map = first_map; map; map = map->next)
54	if (!strcmp (name, map->path))
55	break;
56	return (map);
57	}
58
59	/*
60	* This makes a path absolute outside the world of Crossfire.
61	* In other words, it prepends LIBDIR/MAPDIR/ to the given path
62	* and returns the pointer to a static array containing the result.
63	* it really should be called create_mapname
64	*/
65
66	const char *create_pathname (const char *name) {
67	static char buf[MAX_BUF];
68
69	/* Why? having extra / doesn't confuse unix anyplace? Dependancies
70	* someplace else in the code? msw 2-17-97
71	*/
72	if (*name == '/')
73	sprintf (buf, "%s/%s%s", settings.datadir, settings.mapdir, name);
74	else
75	sprintf (buf, "%s/%s/%s", settings.datadir, settings.mapdir, name);
76	return (buf);
77	}
78
79	/*
80	* same as create_pathname, but for the overlay maps.
81	*/
82
83	const char *create_overlay_pathname (const char *name) {
84	static char buf[MAX_BUF];
85
86	/* Why? having extra / doesn't confuse unix anyplace? Dependancies
87	* someplace else in the code? msw 2-17-97
88	*/
89	if (*name == '/')
90	sprintf (buf, "%s/%s%s", settings.localdir, settings.mapdir, name);
91	else
92	sprintf (buf, "%s/%s/%s", settings.localdir, settings.mapdir, name);
93	return (buf);
94	}
95
96	/*
97	* same as create_pathname, but for the template maps.
98	*/
99
100	const char *create_template_pathname (const char *name) {
101	static char buf[MAX_BUF];
102
103	/* Why? having extra / doesn't confuse unix anyplace? Dependancies
104	* someplace else in the code? msw 2-17-97
105	*/
106	if (*name == '/')
107	sprintf (buf, "%s/%s%s", settings.localdir, settings.templatedir, name);
108	else
109	sprintf (buf, "%s/%s/%s", settings.localdir, settings.templatedir, name);
110	return (buf);
111	}
112
113	/*
114	* This makes absolute path to the itemfile where unique objects
115	* will be saved. Converts '/' to '@'. I think it's essier maintain
116	* files than full directory structure, but if this is problem it can
117	* be changed.
118	*/
119	static const char *create_items_path (const char *s) {
120	static char buf[MAX_BUF];
121	char *t;
122
123	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	else
132	*t = *s;
133	*t = 0;
134	return (buf);
135	}
136
137
138	/*
139	* This function checks if a file with the given path exists.
140	* -1 is returned if it fails, otherwise the mode of the file
141	* is returned.
142	* It tries out all the compression suffixes listed in the uncomp[] array.
143	*
144	* If prepend_dir is set, then we call create_pathname (which prepends
145	* libdir & mapdir). Otherwise, we assume the name given is fully
146	* complete.
147	* Only the editor actually cares about the writablity of this -
148	* the rest of the code only cares that the file is readable.
149	* 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	* that seems to be missing the prepend_dir processing
152	*/
153
154	int check_path (const char *name, int prepend_dir)
155	{
156	char buf[MAX_BUF];
157	#ifndef WIN32
158	char *endbuf;
159	struct stat statbuf;
160	int mode = 0;
161	#endif
162
163	if (prepend_dir)
164	strcpy (buf, create_pathname(name));
165	else
166	strcpy(buf, name);
167	#ifdef WIN32 /* ***win32: check this sucker in windows style. */
168	return(_access(buf,0));
169	#else
170
171	/* old method (strchr(buf, '\0')) seemd very odd to me -
172	* this method should be equivalant and is clearer.
173	* Can not use strcat because we need to cycle through
174	* all the names.
175	*/
176	endbuf = buf + strlen(buf);
177
178	if (stat (buf, &statbuf))
179	return -1;
180	if (!S_ISREG (statbuf.st_mode))
181	return (-1);
182
183	if (((statbuf.st_mode & S_IRGRP) && getegid() == statbuf.st_gid) ||
184	((statbuf.st_mode & S_IRUSR) && geteuid() == statbuf.st_uid) ||
185	(statbuf.st_mode & S_IROTH))
186	mode |= 4;
187
188	if ((statbuf.st_mode & S_IWGRP && getegid() == statbuf.st_gid) ||
189	(statbuf.st_mode & S_IWUSR && geteuid() == statbuf.st_uid) ||
190	(statbuf.st_mode & S_IWOTH))
191	mode |= 2;
192
193	return (mode);
194	#endif
195	}
196
197	/*
198	* Prints out debug-information about a map.
199	* Dumping these at llevError doesn't seem right, but is
200	* necessary to make sure the information is in fact logged.
201	*/
202
203	void dump_map(const mapstruct *m) {
204	LOG(llevError,"Map %s status: %d.\n",m->path,m->in_memory);
205	LOG(llevError,"Size: %dx%d Start: %d,%d\n",
206	MAP_WIDTH(m), MAP_HEIGHT(m),
207	MAP_ENTER_X(m), MAP_ENTER_Y(m));
208
209	if(m->msg!=NULL)
210	LOG(llevError,"Message:\n%s",m->msg);
211
212	if(m->maplore!=NULL)
213	LOG(llevError,"Lore:\n%s",m->maplore);
214
215	if(m->tmpname!=NULL)
216	LOG(llevError,"Tmpname: %s\n",m->tmpname);
217
218	LOG(llevError,"Difficulty: %d\n",m->difficulty);
219	LOG(llevError,"Darkness: %d\n",m->darkness);
220	}
221
222	/*
223	* Prints out debug-information about all maps.
224	* This basically just goes through all the maps and calls
225	* dump_map on each one.
226	*/
227
228	void dump_all_maps(void) {
229	mapstruct *m;
230	for(m=first_map;m!=NULL;m=m->next) {
231	dump_map(m);
232	}
233	}
234		32
235	/* This rolls up wall, blocks_magic, blocks_view, etc, all into	33	/* This rolls up wall, blocks_magic, blocks_view, etc, all into
236	* one function that just returns a P_.. value (see map.h)	34	* one function that just returns a P_.. value (see map.h)
237	* it will also do map translation for tiled maps, returning	35	* it will also do map translation for tiled maps, returning
238	* new values into newmap, nx, and ny. Any and all of those	36	* new values into newmap, nx, and ny. Any and all of those
…		…
240	* by a P_NEW_MAP value, another call to get_map_from_coord	38	* 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	39	* is needed. The case of not passing values is if we're just
242	* checking for the existence of something on those spaces, but	40	* checking for the existence of something on those spaces, but
243	* don't expect to insert/remove anything from those spaces.	41	* don't expect to insert/remove anything from those spaces.
244	*/	42	*/
		43	int
245	int get_map_flags(mapstruct *oldmap, mapstruct **newmap, sint16 x, sint16 y, sint16 *nx, sint16 *ny)	44	get_map_flags (maptile *oldmap, maptile **newmap, sint16 x, sint16 y, sint16 *nx, sint16 *ny)
246	{	45	{
247	sint16 newx, newy;
248	int retval=0;
249	mapstruct *mp;
250
251	if (out_of_map(oldmap, x, y)) return P_OUT_OF_MAP;
252	newx = x;	46	sint16 newx = x;
253	newy = y;	47	sint16 newy = y;
		48
254	mp = get_map_from_coord(oldmap, &newx, &newy);	49	maptile *mp = get_map_from_coord (oldmap, &newx, &newy);
255	if (mp != oldmap)	50
256	retval |= P_NEW_MAP;	51	if (!mp)
		52	return P_OUT_OF_MAP;
		53
257	if (newmap) *newmap = mp;	54	if (newmap) *newmap = mp;
258	if (nx) *nx = newx;	55	if (nx) *nx = newx;
259	if (ny) *ny = newy;	56	if (ny) *ny = newy;
260	retval |= mp->spaces[newx + mp->width * newy].flags;
261		57
262	if (retval & P_SAFE)	58	return mp->at (newx, newy).flags () | (mp != oldmap ? P_NEW_MAP : 0);
263	retval |= P_NO_MAGIC | P_NO_CLERIC; // P_SAFE does imply these
264
265	return retval;
266	}	59	}
267
268		60
269	/*	61	/*
270	* Returns true if the given coordinate is blocked except by the	62	* Returns true if the given coordinate is blocked except by the
271	* object passed is not blocking. This is used with	63	* object passed is not blocking. This is used with
272	* multipart monsters - if we want to see if a 2x2 monster	64	* multipart monsters - if we want to see if a 2x2 monster
…		…
276	* monster.	68	* monster.
277	* m, x, y are the target map/coordinates - needed for map tiling.	69	* m, x, y are the target map/coordinates - needed for map tiling.
278	* the coordinates & map passed in should have been updated for tiling	70	* the coordinates & map passed in should have been updated for tiling
279	* by the caller.	71	* by the caller.
280	*/	72	*/
281		73	int
282	int blocked_link(object *ob, mapstruct *m, int sx, int sy) {	74	blocked_link (object *ob, maptile *m, int sx, int sy)
283	object *tmp;	75	{
284	int mflags, blocked;
285
286	/* Make sure the coordinates are valid - they should be, as caller should	76	/* Make sure the coordinates are valid - they should be, as caller should
287	* have already checked this.	77	* have already checked this.
288	*/	78	*/
289	if (OUT_OF_REAL_MAP(m, sx, sy)) {	79	if (OUT_OF_REAL_MAP (m, sx, sy))
		80	{
290	LOG(llevError,"blocked_link: Passed map, x, y coordinates outside of map\n");	81	LOG (llevError, "blocked_link: Passed map, x, y coordinates outside of map\n");
291	return 1;	82	return 1;
292	}	83	}
293		84
294	/* Save some cycles - instead of calling get_map_flags(), just get the value	85	mapspace &ms = m->at (sx, sy);
295	* directly.
296	*/
297	mflags = m->spaces[sx + m->width * sy].flags;
298		86
299	blocked = GET_MAP_MOVE_BLOCK(m, sx, sy);	87	int mflags = ms.flags ();
		88	int blocked = ms.move_block;
300		89
301	/* If space is currently not blocked by anything, no need to	90	/* If space is currently not blocked by anything, no need to
302	* go further. Not true for players - all sorts of special	91	* go further. Not true for players - all sorts of special
303	* things we need to do for players.	92	* things we need to do for players.
304	*/	93	*/
305	if (ob->type != PLAYER && ! (mflags & P_IS_ALIVE) && (blocked==0)) return 0;	94	if (ob->type != PLAYER && !(mflags & P_IS_ALIVE) && (blocked == 0))
		95	return 0;
306		96
307	/* if there isn't anytyhing alive on this space, and this space isn't	97	/* if there isn't anything alive on this space, and this space isn't
308	* otherwise blocked, we can return now. Only if there is a living	98	* 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	99	* 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	100	* or another. Likewise, only if something is blocking us do we
311	* need to investigate if there is a special circumstance that would	101	* need to investigate if there is a special circumstance that would
312	* let the player through (inventory checkers for example)	102	* let the player through (inventory checkers for example)
313	*/	103	*/
314	if (!(mflags & P_IS_ALIVE) && !OB_TYPE_MOVE_BLOCK(ob, blocked)) return 0;	104	if (!(mflags & P_IS_ALIVE) && !OB_TYPE_MOVE_BLOCK (ob, blocked))
		105	return 0;
315		106
316	if(ob->head != NULL)	107	ob = ob->head_ ();
317	ob=ob->head;
318		108
319	/* We basically go through the stack of objects, and if there is	109	/* 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	110	* some other object that has NO_PASS or FLAG_ALIVE set, return
321	* true. If we get through the entire stack, that must mean	111	* true. If we get through the entire stack, that must mean
322	* ob is blocking it, so return 0.	112	* ob is blocking it, so return 0.
323	*/	113	*/
324	for(tmp = GET_MAP_OB(m,sx,sy); tmp!= NULL; tmp = tmp->above) {	114	for (object *tmp = ms.bot; tmp; tmp = tmp->above)
		115	{
		116	if (OB_MOVE_BLOCK (ob, tmp))
		117	{
		118	if (INVOKE_OBJECT (BLOCKED_MOVE, tmp, ob))
		119	if (RESULT_INT (0))
		120	return 1;
		121	else
		122	continue;
325		123
326	/* This must be before the checks below. Code for inventory checkers. */	124	if (tmp->type == CHECK_INV)
327	if (tmp->type==CHECK_INV && OB_MOVE_BLOCK(ob, tmp)) {
328	/* 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
330	* pass through this space.
331	*/	125	{
332	if (tmp->last_sp) {	126	bool have = check_inv_recursive (ob, tmp);
333	if (check_inv_recursive(ob,tmp)==NULL)	127
		128	// last_sp set means we block if we don't have.
		129	if (logical_xor (have, tmp->last_sp))
334	return 1;	130	return 1;
335	else
336	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	}	131	}
346	} /* if check_inv */	132	else if (tmp->type == T_MATCH)
		133	{
		134	// T_MATCH allows "entrance" iff the match is true
		135	// == blocks if the match fails
		136
		137	// we could have used an INVOKE_OBJECT, but decided against it, as we
		138	// assume that T_MATCH is relatively common.
		139	if (!match (tmp->slaying, ob, tmp, ob))
		140	return 1;
		141	}
		142	else
		143	return 1; // unconditional block
		144
347	else {	145	} else {
348	/* Broke apart a big nasty if into several here to make	146	// space does not block the ob, directly, but
349	* this more readable. first check - if the space blocks	147	// anything alive that is not a door still
350	* movement, can't move here.	148	// blocks anything but wizards.
351	* second - if a monster, can't move there, unles it is a	149
352	* hidden dm	150	if (tmp->flag [FLAG_ALIVE]
353	*/	151	&& tmp->head_ () != ob
354	if (OB_MOVE_BLOCK(ob, tmp)) return 1;	152	&& tmp != ob
355	if (QUERY_FLAG(tmp,FLAG_ALIVE) && tmp->head != ob && tmp != ob &&	153	&& tmp->type != DOOR
356	tmp->type != DOOR && !(QUERY_FLAG(tmp,FLAG_WIZ) && tmp->contr->hidden))	154	&& !tmp->flag [FLAG_WIZPASS])
357	return 1;	155	return 1;
358	}	156	}
359
360	}	157	}
		158
361	return 0;	159	return 0;
362	}	160	}
363
364		161
365	/*	162	/*
366	* Returns true if the given object can't fit in the given spot.	163	* Returns qthe blocking object if the given object can't fit in the given
367	* This is meant for multi space objects - for single space objecs,	164	* spot. This is meant for multi space objects - for single space objecs,
368	* just calling get_map_blocked and checking that against movement type	165	* just calling get_map_blocked and checking that against movement type
369	* of object. This function goes through all the parts of the	166	* of object. This function goes through all the parts of the multipart
370	* multipart object and makes sure they can be inserted.	167	* object and makes sure they can be inserted.
371	*	168	*
372	* While this doesn't call out of map, the get_map_flags does.	169	* While this doesn't call out of map, the get_map_flags does.
373	*	170	*
374	* This function has been used to deprecate arch_out_of_map -	171	* This function has been used to deprecate arch_out_of_map -
375	* this function also does that check, and since in most cases,	172	* this function also does that check, and since in most cases,
…		…
386	*	183	*
387	* Note this used to be arch_blocked, but with new movement	184	* Note this used to be arch_blocked, but with new movement
388	* code, we need to have actual object to check its move_type	185	* code, we need to have actual object to check its move_type
389	* against the move_block values.	186	* against the move_block values.
390	*/	187	*/
391		188	bool
392	int ob_blocked(const object *ob,mapstruct *m,sint16 x,sint16 y) {	189	object::blocked (maptile *m, int x, int y) const
393	archetype *tmp;	190	{
394	int flag;	191	for (archetype *tmp = arch; tmp; tmp = (archetype *)tmp->more)
395	mapstruct *m1;
396	sint16 sx, sy;
397
398	if(ob==NULL) {
399	flag= get_map_flags(m,&m1, x,y, &sx, &sy);
400	if (flag & P_OUT_OF_MAP) return P_OUT_OF_MAP;
401
402	/* don't have object, so don't know what types would block */
403	return(GET_MAP_MOVE_BLOCK(m1, sx, sy));
404	}	192	{
		193	mapxy pos (m, x + tmp->x, y + tmp->y);
405		194
406	for(tmp=ob->arch; tmp!=NULL;tmp=tmp->more) {	195	if (!pos.normalise ())
407	flag = get_map_flags(m, &m1, x+tmp->clone.x,y+tmp->clone.y, &sx, &sy);	196	return 1;
408		197
409	if (flag & P_OUT_OF_MAP) return P_OUT_OF_MAP;	198	mapspace &ms = *pos;
410	if (flag & P_IS_ALIVE) return P_IS_ALIVE;
411		199
412	/* find_first_free_spot() calls this function. However, often	200	if (ms.flags () & P_IS_ALIVE)
413	* ob doesn't have any move type (when used to place exits)	201	return 1;
		202
		203	/* However, often ob doesn't have any move type
		204	* (signifying non-moving objects)
414	* so the AND operation in OB_TYPE_MOVE_BLOCK doesn't work.	205	* so the AND operation in OB_TYPE_MOVE_BLOCK doesn't work.
415	*/	206	*/
		207	if (!move_type && ms.move_block != MOVE_ALL)
		208	continue;
416		209
417	if (ob->move_type == 0 && GET_MAP_MOVE_BLOCK(m1, sx, sy) != MOVE_ALL) continue;
418
419	/* Note it is intentional that we check ob - the movement type of the	210	/* Note it is intentional that we check ob - the movement type of the
420	* head of the object should correspond for the entire object.	211	* head of the object should correspond for the entire object.
421	*/	212	*/
422	if (OB_TYPE_MOVE_BLOCK(ob, GET_MAP_MOVE_BLOCK(m1, sx, sy)))	213	if (ms.blocks (move_type))
423	return AB_NO_PASS;	214	return 1;
424
425	}	215	}
		216
426	return 0;	217	return 0;
427	}	218	}
428		219
429	/* When the map is loaded, load_object does not actually insert objects	220	/* 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	221	* into inventory, but just links them. What this does is go through
431	* and insert them properly.	222	* and insert them properly.
432	* The object 'container' is the object that contains the inventory.	223	* The object 'container' is the object that contains the inventory.
433	* This is needed so that we can update the containers weight.	224	* This is needed so that we can update the containers weight.
434	*/	225	*/
435		226	void
436	void fix_container(object *container)	227	fix_container (object *container)
437	{	228	{
438	object *tmp=container->inv, *next;	229	object *tmp = container->inv, *next;
439		230
440	container->inv=NULL;	231	container->inv = 0;
441	while (tmp!=NULL) {	232	while (tmp)
		233	{
442	next = tmp->below;	234	next = tmp->below;
443	if (tmp->inv)	235	if (tmp->inv)
444	fix_container(tmp);	236	fix_container (tmp);
		237
445	(void) insert_ob_in_ob(tmp,container);	238	insert_ob_in_ob (tmp, container);
446	tmp = next;	239	tmp = next;
447	}	240	}
		241
448	/* sum_weight will go through and calculate what all the containers are	242	// go through and calculate what all the containers are carrying.
449	* carrying.	243	//TODO: remove
450	*/	244	container->update_weight ();
451	sum_weight(container);	245	}
		246
		247	void
		248	maptile::set_object_flag (int flag, int value)
		249	{
		250	if (!spaces)
		251	return;
		252
		253	for (mapspace *ms = spaces + size (); ms-- > spaces; )
		254	for (object *tmp = ms->bot; tmp; tmp = tmp->above)
		255	tmp->flag [flag] = value;
		256	}
		257
		258	void
		259	maptile::post_load_original ()
		260	{
		261	if (!spaces)
		262	return;
		263
		264	set_object_flag (FLAG_OBJ_ORIGINAL);
		265
		266	for (mapspace *ms = spaces + size (); ms-- > spaces; )
		267	for (object *tmp = ms->bot; tmp; tmp = tmp->above)
		268	INVOKE_OBJECT (RESET, tmp);
452	}	269	}
453		270
454	/* link_multipart_objects go through all the objects on the map looking	271	/* 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	272	* 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	273	* 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	274	* they are saved).
458	* the more sections and not re-add sections for them.
459	*/	275	*/
460		276	void
461	static void link_multipart_objects(mapstruct *m)	277	maptile::link_multipart_objects ()
462	{	278	{
463	int x,y;	279	if (!spaces)
464	object *tmp, *op, *last, *above;	280	return;
465	archetype *at;
466		281
467	for(x=0;x<MAP_WIDTH(m);x++)	282	for (mapspace *ms = spaces + size (); ms-- > spaces; )
468	for(y=0;y<MAP_HEIGHT(m);y++)	283	{
469	for(tmp=get_map_ob(m,x,y);tmp!=NULL;tmp=above) {	284	object *op = ms->bot;
470	above=tmp->above;	285	while (op)
471		286	{
472	/* already multipart - don't do anything more */	287	/* already multipart - don't do anything more */
473	if (tmp->head || tmp->more) continue;	288	if (op->head_ () == op && !op->more && op->arch->more)
474
475	/* If there is nothing more to this object, this for loop
476	* won't do anything.
477	*/	289	{
478	for (at = tmp->arch->more, last=tmp; at != NULL; at=at->more, last=op) {	290	op->remove ();
479	op = arch_to_object(at);	291	op->expand_tail ();
480		292
481	/* update x,y coordinates */	293	// FIXME: INS_ON_TOP is just a workaround for the pentagram vs.
482	op->x += tmp->x;	294	// multi-tile monster bug, where INS_ABOVE_FLOOR_ONLY put the monsters
483	op->y += tmp->y;	295	// below the pentagrams... hopefully INS_ON_TOP doesn't break anything
484	op->head = tmp;	296	insert (op, op->x, op->y, 0, INS_NO_MERGE | INS_ON_TOP | INS_NO_WALK_ON);
485	op->map = m;	297
486	last->more = op;	298	op = ms->bot; // we are mutating the mapspace too much with INS_ON_TOP
487	op->name = tmp->name;	299	// so we have to reset the iteration through the mapspace
488	op->title = tmp->title;	300	}
489	/* we could link all the parts onto tmp, and then just	301	else
490	* call insert_ob_in_map once, but the effect is the same,	302	op = op->above;
491	* as insert_ob_in_map will call itself with each part, and	303	}
492	* the coding is simpler to just to it here with each part.	304	}
493	*/
494	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 */
496	} /* for objects on this space */
497	}	305	}
498		306
499	/*	307	/*
500	* Loads (ands parses) the objects into a given map from the specified	308	* Loads (ands parses) the objects into a given map from the specified
501	* file pointer.	309	* file pointer.
502	* mapflags is the same as we get with load_original_map
503	*/	310	*/
504	void	311	bool
505	load_objects (mapstruct *m, object_thawer &fp, int mapflags)	312	maptile::_load_objects (object_thawer &f)
506	{	313	{
507	int i, j;	314	for (;;)
508	int unique;
509	object *op, *prev = NULL, *last_more = NULL, *otmp;
510
511	op = get_object ();
512	op->map = m; /* To handle buttons correctly */
513
514	while ((i = load_object (fp, op, mapflags)))
515	{	315	{
516	/* if the archetype for the object is null, means that we	316	coroapi::cede_to_tick (); // cede once in a while
517	* got an invalid object. Don't do anything with it - the game	317
518	* or editor will not be able to do anything with it either.	318	switch (f.kw)
519	*/
520	if (op->arch == NULL)
521	{	319	{
522	LOG (llevDebug, "Discarding object without arch: %s\n",	320	case KW_arch:
523	op->name ? (const char *) op->name : "(null)");	321	if (object *op = object::read (f, this))
		322	{
		323	// TODO: why?
		324	if (op->inv)
		325	op->update_weight ();
		326
		327	if (IN_RANGE_EXC (op->x, 0, width) && IN_RANGE_EXC (op->y, 0, height))
		328	{
		329	// we insert manually because
		330	// a) its way faster
		331	// b) we remove manually, too, and there are good reasons for that
		332	// c) it's correct
		333	mapspace &ms = at (op->x, op->y);
		334
		335	op->flag [FLAG_REMOVED] = false;
		336
		337	op->above = 0;
		338	op->below = ms.top;
		339
		340	*(ms.top ? &ms.top->above : &ms.bot) = op;
		341
		342	ms.top = op;
		343	ms.flags_ = 0;
		344	}
		345	else
		346	{
		347	f.parse_warn (format ("object %s out of range", op->debug_desc ()));
		348	op->destroy ();
		349	}
		350	}
		351
524	continue;	352	continue;
525	}
526		353
527
528	switch (i)
529	{
530	case LL_NORMAL:
531	/* 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)
534	insert_ob_in_map (op, m, op,
535	INS_NO_MERGE | INS_NO_WALK_ON |
536	INS_ABOVE_FLOOR_ONLY | INS_MAP_LOAD);
537	else
538	insert_ob_in_map (op, m, op,
539	INS_NO_MERGE | INS_NO_WALK_ON | INS_ON_TOP |
540	INS_MAP_LOAD);
541
542	if (op->inv)
543	sum_weight (op);
544
545	prev = op, last_more = op;
546	break;
547
548	case LL_MORE:	354	case KW_EOF:
549	insert_ob_in_map (op, m, op,	355	return true;
550	INS_NO_MERGE | INS_NO_WALK_ON |	356
551	INS_ABOVE_FLOOR_ONLY);	357	default:
552	op->head = prev, last_more->more = op, last_more = op;	358	if (!f.parse_error ("map file"))
		359	return false;
553	break;	360	break;
554	}	361	}
555		362
556	if (mapflags & MAP_STYLE)	363	f.next ();
557	remove_from_active_list (op);
558
559	op = get_object ();
560	op->map = m;
561	}
562
563	for (i = 0; i < m->width; i++)
564	{	364	}
565	for (j = 0; j < m->height; j++)	365
		366	return true;
		367	}
		368
		369	void
		370	maptile::activate ()
		371	{
		372	if (spaces)
		373	for (mapspace *ms = spaces + size (); ms-- > spaces; )
		374	for (object *op = ms->bot; op; op = op->above)
		375	op->activate_recursive ();
		376	}
		377
		378	void
		379	maptile::deactivate ()
		380	{
		381	if (spaces)
		382	for (mapspace *ms = spaces + size (); ms-- > spaces; )
		383	for (object *op = ms->bot; op; op = op->above)
		384	op->deactivate_recursive ();
		385	}
		386
		387	bool
		388	maptile::_save_objects (object_freezer &f, int flags)
		389	{
		390	coroapi::cede_to_tick ();
		391
		392	if (flags & IO_HEADER)
		393	_save_header (f);
		394
		395	if (!spaces)
		396	return false;
		397
		398	for (int i = 0; i < size (); ++i)
		399	{
		400	bool unique = 0;
		401
		402	for (object *op = spaces [i].bot; op; op = op->above)
566	{	403	{
567	unique = 0;	404	unique |= op->flag [FLAG_UNIQUE] && op->flag [FLAG_IS_FLOOR];
568	/* check for unique items, or unique squares */	405
569	for (otmp = get_map_ob (m, i, j); otmp; otmp = otmp->above)	406	if (expect_false (!op->can_map_save ()))
		407	continue;
		408
		409	if (expect_false (unique || op->flag [FLAG_UNIQUE]))
570	{	410	{
571	if (QUERY_FLAG (otmp, FLAG_UNIQUE)	411	if (flags & IO_UNIQUES)
572	|| QUERY_FLAG (otmp, FLAG_OBJ_SAVE_ON_OVL))	412	op->write (f);
573	unique = 1;
574	if (!(mapflags & (MAP_OVERLAY | MAP_PLAYER_UNIQUE) || unique))
575	SET_FLAG (otmp, FLAG_OBJ_ORIGINAL);
576	}	413	}
		414	else if (expect_true (flags & IO_OBJECTS))
		415	op->write (f);
577	}	416	}
578	}	417	}
579		418
580	free_object (op);	419	coroapi::cede_to_tick ();
581	link_multipart_objects (m);
582	}
583		420
584	/* This saves all the objects on the map in a non destructive fashion.	421	return true;
585	* Modified by MSW 2001-07-01 to do in a single pass - reduces code,	422	}
586	* and we only save the head of multi part objects - this is needed	423
587	* in order to do map tiling properly.	424	bool
		425	maptile::_save_objects (const char *path, int flags)
		426	{
		427	object_freezer freezer;
		428
		429	if (!_save_objects (freezer, flags))
		430	return false;
		431
		432	return freezer.save (path);
		433	}
		434
		435	maptile::maptile ()
		436	{
		437	in_memory = MAP_SWAPPED;
		438
		439	/* The maps used to pick up default x and y values from the
		440	* map archetype. Mimic that behaviour.
588	*/	441	*/
589	void save_objects (mapstruct *m, object_freezer &fp, object_freezer &fp2, int flag) {	442	width = 16;
590	int i, j = 0,unique=0;	443	height = 16;
591	object *op;	444	timeout = 300;
592	/* first pass - save one-part objects */	445	max_nrof = 1000; // 1000 items of anything
593	for(i = 0; i < MAP_WIDTH(m); i++)	446	max_volume = 2000000; // 2m³
594	for (j = 0; j < MAP_HEIGHT(m); j++) {	447	}
595	unique=0;
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		448
600	if(op->type == PLAYER) {	449	maptile::maptile (int w, int h)
601	LOG(llevDebug, "Player on map that is being saved\n");	450	{
602	continue;	451	in_memory = MAP_SWAPPED;
603	}
604		452
605	if (op->head || op->owner)	453	width = w;
606	continue;	454	height = h;
		455	reset_timeout = 0;
		456	timeout = 300;
		457	enter_x = 0;
		458	enter_y = 0;
607		459
608	if (unique || QUERY_FLAG(op, FLAG_UNIQUE))	460	alloc ();
609	save_object (fp2, op, 3);
610	else
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);
615
616	} /* for this space */
617	} /* for this j */
618	}	461	}
619		462
620	/*	463	/*
621	* Allocates, initialises, and returns a pointer to a mapstruct.
622	* Modified to no longer take a path option which was not being
623	* used anyways. MSW 2001-07-01
624	*/
625
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);
631	if(mp==NULL)
632	first_map=map;
633	else
634	mp->next=map;
635
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;
650	}
651
652	/*
653	* Allocates the arrays contained in a mapstruct.	464	* Allocates the arrays contained in a maptile.
654	* This basically allocates the dynamic array of spaces for the	465	* This basically allocates the dynamic array of spaces for the
655	* map.	466	* map.
656	*/	467	*/
657		468	void
658	void allocate_map(mapstruct *m) {	469	maptile::alloc ()
659	m->in_memory = MAP_IN_MEMORY;	470	{
660	/* Log this condition and free the storage. We could I suppose
661	* realloc, but if the caller is presuming the data will be intact,
662	* that is their poor assumption.
663	*/
664	if (m->spaces) {	471	if (spaces)
665	LOG(llevError,"allocate_map called with already allocated map (%s)\n", m->path);
666	free(m->spaces);
667	}
668
669	m->spaces = (MapSpace *) calloc(1, MAP_WIDTH(m) * MAP_HEIGHT(m) * sizeof(MapSpace));
670
671	if(m->spaces==NULL)
672	fatal(OUT_OF_MEMORY);
673	}
674
675	/* Create and returns a map of the specific size. Used
676	* in random map code and the editor.
677	*/
678	mapstruct *get_empty_map(int sizex, int sizey) {
679	mapstruct *m = get_linked_map();
680	m->width = sizex;
681	m->height = sizey;
682	m->in_memory = MAP_SWAPPED;
683	allocate_map(m);
684	return m;	472	return;
		473
		474	spaces = salloc0<mapspace> (size ());
685	}	475	}
686		476
687	/* Takes a string from a map definition and outputs a pointer to the array of shopitems	477	/* 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	478	* corresponding to that string. Memory is allocated for this, it must be freed
689	* at a later date.	479	* at a later date.
690	* Called by parse_map_headers below.	480	* Called by parse_map_headers below.
691	*/	481	*/
692		482	static shopitems *
693	static shopitems *parse_shop_string (const char *input_string) {	483	parse_shop_string (const char *input_string)
		484	{
694	char *shop_string, *p, *q, *next_semicolon, *next_colon;	485	char *shop_string, *p, *q, *next_semicolon, *next_colon;
695	shopitems *items=NULL;	486	shopitems *items = NULL;
696	int i=0, number_of_entries=0;	487	int i = 0, number_of_entries = 0;
697	const typedata *current_type;	488	const typedata *current_type;
698		489
699	shop_string=strdup_local(input_string);	490	shop_string = strdup (input_string);
700	p=shop_string;	491	p = shop_string;
701	/* first we'll count the entries, we'll need that for allocating the array shortly */	492	/* first we'll count the entries, we'll need that for allocating the array shortly */
702	while (p) {	493	while (p)
		494	{
703	p=strchr(p, ';');	495	p = strchr (p, ';');
704	number_of_entries++;	496	number_of_entries++;
705	if (p) p++;	497	if (p)
		498	p++;
706	}	499	}
		500
707	p=shop_string;	501	p = shop_string;
708	strip_endline(p);	502	strip_endline (p);
709	items=(shopitems *) CALLOC(number_of_entries+1, sizeof(shopitems));	503	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++) {	504	for (i = 0; i < number_of_entries; i++)
		505	{
712	if (!p) {	506	if (!p)
		507	{
713	LOG(llevError, "parse_shop_string: I seem to have run out of string, that shouldn't happen.\n");	508	LOG (llevError, "parse_shop_string: I seem to have run out of string, that shouldn't happen.\n");
714	break;	509	break;
715	}	510	}
		511
716	next_semicolon=strchr(p, ';');	512	next_semicolon = strchr (p, ';');
717	next_colon=strchr(p, ':');	513	next_colon = strchr (p, ':');
718	/* if there is a stregth specified, figure out what it is, we'll need it soon. */	514	/* 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))	515	if (next_colon && (!next_semicolon || next_colon < next_semicolon))
720	items[i].strength=atoi(strchr(p,':')+1);	516	items[i].strength = atoi (strchr (p, ':') + 1);
		517
		518	if (isdigit (*p) || *p == '*')
721		519	{
722	if (isdigit(*p) || *p=='*') {
723	items[i].typenum = atoi(p); /* atoi returns 0 when we have an asterisk */	520	items[i].typenum = atoi (p); /* atoi returns 0 when we have an asterisk */
724	current_type=get_typedata(items[i].typenum);	521	current_type = get_typedata (items[i].typenum);
725	if (current_type) {	522	if (current_type)
		523	{
726	items[i].name=current_type->name;	524	items[i].name = current_type->name;
727	items[i].name_pl=current_type->name_pl;	525	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	}
740	else { /* oh uh, something's wrong, let's free up this one, and try
741	* the next entry while we're at it, better print a warning
742	*/
743	LOG(llevError, "invalid type %s defined in shopitems in string %s\n",
744	p, input_string);
745	}	526	}
746	}	527	}
		528	else
		529	{ /*we have a named type, let's figure out what it is */
		530	q = strpbrk (p, ";:");
		531	if (q)
		532	*q = '\0';
		533
		534	current_type = get_typedata_by_name (p);
		535	if (current_type)
		536	{
		537	items[i].name = current_type->name;
		538	items[i].typenum = current_type->number;
		539	items[i].name_pl = current_type->name_pl;
		540	}
		541	else
		542	{ /* oh uh, something's wrong, let's free up this one, and try
		543	* the next entry while we're at it, better print a warning
		544	*/
		545	LOG (llevError, "invalid type %s defined in shopitems in string %s\n", p, input_string);
		546	}
		547	}
		548
747	items[i].index=number_of_entries;	549	items[i].index = number_of_entries;
748	if (next_semicolon) p=++next_semicolon;	550	if (next_semicolon)
		551	p = ++next_semicolon;
		552	else
749	else p=NULL;	553	p = NULL;
750	}	554	}
		555
751	free(shop_string);	556	free (shop_string);
752	return items;	557	return items;
753	}	558	}
754		559
755	/* opposite of parse string, this puts the string that was originally fed in to	560	/* opposite of parse string, this puts the string that was originally fed in to
756	* the map (or something equivilent) into output_string. */	561	* the map (or something equivilent) into output_string. */
757	static void print_shop_string(mapstruct *m, char *output_string) {	562	static const char *
758	int i;	563	print_shop_string (maptile *m)
759	char tmp[MAX_BUF];	564	{
760	strcpy(output_string, "");	565	static dynbuf_text buf; buf.clear ();
		566
761	for (i=0; i< m->shopitems[0].index; i++) {	567	for (int i = 0; i < m->shopitems[0].index; i++)
		568	{
762	if (m->shopitems[i].typenum) {	569	if (m->shopitems[i].typenum)
		570	{
763	if (m->shopitems[i].strength) {	571	if (m->shopitems[i].strength)
764	sprintf(tmp, "%s:%d;", m->shopitems[i].name, m->shopitems[i].strength);	572	buf.printf ("%s:%d;", m->shopitems[i].name, m->shopitems[i].strength);
765	}	573	else
766	else sprintf(tmp, "%s;", m->shopitems[i].name);	574	buf.printf ("%s;", m->shopitems[i].name);
767	}	575	}
768	else {	576	else
		577	{
769	if (m->shopitems[i].strength) {	578	if (m->shopitems[i].strength)
770	sprintf(tmp, "*:%d;", m->shopitems[i].strength);	579	buf.printf ("*:%d;", m->shopitems[i].strength);
771	}	580	else
772	else sprintf(tmp, "*");	581	buf.printf ("*");
773	}	582	}
774	strcat(output_string, tmp);
775	}	583	}
		584
		585	return buf;
776	}	586	}
777		587
778	/* This loads the header information of the map. The header	588	/* This loads the header information of the map. The header
779	* contains things like difficulty, size, timeout, etc.	589	* contains things like difficulty, size, timeout, etc.
780	* this used to be stored in the map object, but with the	590	* this used to be stored in the map object, but with the
…		…
783	* put all the stuff in the map object so that names actually make	593	* put all the stuff in the map object so that names actually make
784	* sense.	594	* sense.
785	* This could be done in lex (like the object loader), but I think	595	* This could be done in lex (like the object loader), but I think
786	* currently, there are few enough fields this is not a big deal.	596	* currently, there are few enough fields this is not a big deal.
787	* MSW 2001-07-01	597	* MSW 2001-07-01
788	* return 0 on success, 1 on failure.
789	*/	598	*/
790		599	bool
791	static int load_map_header(object_thawer &fp, mapstruct *m)	600	maptile::_load_header (object_thawer &thawer)
792	{	601	{
793	char buf[HUGE_BUF], msgbuf[HUGE_BUF], maplorebuf[HUGE_BUF], *key=NULL, *value, *end;	602	for (;;)
794	int msgpos=0;	603	{
795	int maplorepos=0;	604	switch (thawer.kw)
796
797	while (fgets(buf, HUGE_BUF-1, fp)!=NULL) {
798	buf[HUGE_BUF-1] = 0;
799	key = buf;
800	while (isspace(*key)) key++;
801	if (*key == 0) continue; /* empty line */
802	value = strchr(key, ' ');
803	if (!value) {
804	end = strchr(key, '\n');
805	if (end != NULL) {
806	*end = 0;
807	}
808	} else {
809	*value = 0;
810	value++;
811	end = strchr(value, '\n');
812	while (isspace(*value)) {
813	value++;
814	if (*value == '\0' || value == end) {
815	/* Nothing but spaces. */
816	value = NULL;
817	break;
818	}
819	}
820	}	605	{
		606	case KW_msg:
		607	thawer.get_ml (KW_endmsg, msg);
		608	break;
821		609
822	if (!end) {	610	case KW_lore: // CF+ extension
823	LOG(llevError, "Error loading map header - did not find a newline - perhaps file is truncated? Buf=%s\n",	611	thawer.get_ml (KW_endlore, maplore);
824	buf);	612	break;
		613
		614	case KW_maplore:
		615	thawer.get_ml (KW_endmaplore, maplore);
		616	break;
		617
		618	case KW_arch:
		619	if (strcmp (thawer.get_str (), "map"))
		620	LOG (llevError, "%s: loading map and got a non 'arch map' line (arch %s), skipping.\n", &path, thawer.get_str ());
		621	break;
		622
		623	case KW_oid:
		624	thawer.get (this, thawer.get_sint32 ());
		625	break;
		626
		627	case KW_file_format_version: break; // nop
		628
		629	case KW_name: thawer.get (name); break;
		630	case KW_attach: thawer.get (attach); break;
		631	case KW_reset_time: thawer.get (reset_time); break;
		632	case KW_shopgreed: thawer.get (shopgreed); break;
		633	case KW_shopmin: thawer.get (shopmin); break;
		634	case KW_shopmax: thawer.get (shopmax); break;
		635	case KW_shoprace: thawer.get (shoprace); break;
		636	case KW_outdoor: thawer.get (outdoor); break;
		637	case KW_temp: thawer.get (temp); break;
		638	case KW_pressure: thawer.get (pressure); break;
		639	case KW_humid: thawer.get (humid); break;
		640	case KW_windspeed: thawer.get (windspeed); break;
		641	case KW_winddir: thawer.get (winddir); break;
		642	case KW_sky: thawer.get (sky); break;
		643
		644	case KW_per_player: thawer.get (per_player); break;
		645	case KW_per_party: thawer.get (per_party); break;
		646	case KW_no_reset: thawer.get (no_reset); break;
		647	case KW_no_drop: thawer.get (no_drop); break;
		648
		649	case KW_region: default_region = region::find (thawer.get_str ()); break;
		650	case KW_shopitems: shopitems = parse_shop_string (thawer.get_str ()); break;
		651
		652	// old names new names
		653	case KW_hp: case KW_enter_x: thawer.get (enter_x); break;
		654	case KW_sp: case KW_enter_y: thawer.get (enter_y); break;
		655	case KW_x: case KW_width: thawer.get (width); break;
		656	case KW_y: case KW_height: thawer.get (height); break;
		657	case KW_weight: case KW_reset_timeout: thawer.get (reset_timeout); break;
		658	case KW_value: case KW_swap_time: thawer.get (timeout); break;
		659	case KW_level: case KW_difficulty: thawer.get (difficulty); difficulty = clamp (difficulty, 1, settings.max_level); break;
		660	case KW_invisible: case KW_darkness: thawer.get (darkness); break;
		661	case KW_stand_still: case KW_fixed_resettime: thawer.get (fixed_resettime); break;
		662
		663	case KW_tile_path_1: thawer.get (tile_path [0]); break;
		664	case KW_tile_path_2: thawer.get (tile_path [1]); break;
		665	case KW_tile_path_3: thawer.get (tile_path [2]); break;
		666	case KW_tile_path_4: thawer.get (tile_path [3]); break;
		667
		668	case KW_ERROR:
		669	set_key_text (thawer.kw_str, thawer.value);
		670	break;
		671
		672	case KW_end:
		673	thawer.next ();
825	return 1;	674	return true;
826	}
827		675
828	/* key is the field name, value is what it should be set	676	default:
829	* to. We've already done the work to null terminate key,	677	if (!thawer.parse_error ("map", 0))
830	* and strip off any leading spaces for both of these.	678	return false;
831	* We have not touched the newline at the end of the line -
832	* these are needed for some values. the end pointer
833	* points to the first of the newlines.
834	* 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
836	* through.
837	*
838	* First check for entries that do not use the value parameter, then
839	* validate that value is given and check for the remaining entries
840	* that use the parameter.
841	*/
842
843	if (!strcmp(key,"msg")) {
844	while (fgets(buf, HUGE_BUF-1, fp)!=NULL) {
845	if (!strcmp(buf,"endmsg\n")) break;
846	else {
847	/* slightly more efficient than strcat */
848	strcpy(msgbuf+msgpos, buf);
849	msgpos += strlen(buf);
850	}
851	}
852	/* There are lots of maps that have empty messages (eg, msg/endmsg
853	* with nothing between). There is no reason in those cases to
854	* keep the empty message. Also, msgbuf contains garbage data
855	* when msgpos is zero, so copying it results in crashes
856	*/
857	if (msgpos != 0)
858	m->msg = strdup_local(msgbuf);
859	}
860	else if (!strcmp(key,"maplore")) {
861	while (fgets(buf, HUGE_BUF-1, fp)!=NULL) {
862	if (!strcmp(buf,"endmaplore\n")) break;
863	else {
864	/* slightly more efficient than strcat */
865	strcpy(maplorebuf+maplorepos, buf);
866	maplorepos += strlen(buf);
867	}
868	}
869	if (maplorepos != 0)
870	m->maplore = strdup_local(maplorebuf);
871	}
872	else if (!strcmp(key,"end")) {
873	break;	679	break;
874	}	680	}
875	else if (value == NULL) {
876	LOG(llevError, "Got '%s' line without parameter in map header\n", key);
877	}
878	else if (!strcmp(key, "arch")) {
879	/* This is an oddity, but not something we care about much. */
880	if (strcmp(value,"map\n"))
881	LOG(llevError,"loading map and got a non 'arch map' line(%s %s)?\n",key,value);
882	}
883	else if (!strcmp(key,"name")) {
884	*end=0;
885	m->name = strdup_local(value);
886	}
887	/* first strcmp value on these are old names supported
888	* for compatibility reasons. The new values (second) are
889	* what really should be used.
890	*/
891	else if (!strcmp(key,"oid")) {
892	fp.get (m, atoi(value));
893	} else if (!strcmp(key, "attach")) {
894	m->attach = value;
895	} else if (!strcmp(key,"hp") || !strcmp(key, "enter_x")) {
896	m->enter_x = atoi(value);
897	} else if (!strcmp(key,"sp") || !strcmp(key, "enter_y")) {
898	m->enter_y = atoi(value);
899	} else if (!strcmp(key,"x") || !strcmp(key, "width")) {
900	m->width = atoi(value);
901	} else if (!strcmp(key,"y") || !strcmp(key, "height")) {
902	m->height = atoi(value);
903	} else if (!strcmp(key,"weight") || !strcmp(key, "reset_timeout")) {
904	m->reset_timeout = atoi(value);
905	} else if (!strcmp(key,"value") || !strcmp(key, "swap_time")) {
906	m->timeout = atoi(value);
907	} else if (!strcmp(key,"level") || !strcmp(key, "difficulty")) {
908	m->difficulty = atoi(value);
909	} else if (!strcmp(key,"invisible") || !strcmp(key, "darkness")) {
910	m->darkness = atoi(value);
911	} else if (!strcmp(key,"stand_still") || !strcmp(key, "fixed_resettime")) {
912	m->fixed_resettime = atoi(value);
913	} else if (!strcmp(key,"unique")) {
914	m->unique = atoi(value);
915	} else if (!strcmp(key,"template")) {
916	m->templatemap = atoi(value);
917	} else if (!strcmp(key,"region")) {
918	m->region = get_region_by_name(value);
919	} else if (!strcmp(key,"shopitems")) {
920	*end=0;
921	m->shopitems = parse_shop_string(value);
922	} else if (!strcmp(key,"shopgreed")) {
923	m->shopgreed = atof(value);
924	} else if (!strcmp(key,"shopmin")) {
925	m->shopmin = atol(value);
926	} else if (!strcmp(key,"shopmax")) {
927	m->shopmax = atol(value);
928	} else if (!strcmp(key,"shoprace")) {
929	*end=0;
930	m->shoprace = strdup_local(value);
931	} else if (!strcmp(key,"outdoor")) {
932	m->outdoor = atoi(value);
933	} else if (!strcmp(key, "temp")) {
934	m->temp = atoi(value);
935	} else if (!strcmp(key, "pressure")) {
936	m->pressure = atoi(value);
937	} else if (!strcmp(key, "humid")) {
938	m->humid = atoi(value);
939	} else if (!strcmp(key, "windspeed")) {
940	m->windspeed = atoi(value);
941	} else if (!strcmp(key, "winddir")) {
942	m->winddir = atoi(value);
943	} else if (!strcmp(key, "sky")) {
944	m->sky = atoi(value);
945	} else if (!strcmp(key, "nosmooth")) {
946	m->nosmooth = atoi(value);
947	}
948	else if (!strncmp(key,"tile_path_", 10)) {
949	int tile=atoi(key+10);
950		681
951	if (tile<1 || tile>4) {	682	thawer.next ();
952	LOG(llevError,"load_map_header: tile location %d out of bounds (%s)\n",
953	tile, m->path);
954	} else {
955	char *path;
956
957	*end = 0;
958
959	if (m->tile_path[tile-1]) {
960	LOG(llevError,"load_map_header: tile location %d duplicated (%s)\n",
961	tile, m->path);
962	free(m->tile_path[tile-1]);
963	m->tile_path[tile-1] = NULL;
964	}
965
966	if (check_path(value, 1) != -1) {
967	/* The unadorned path works. */
968	path = value;
969	} else {
970	/* Try again; it could be a relative exit. */
971
972	path = path_combine_and_normalize(m->path, value);
973
974	if (check_path(path, 1) == -1) {
975	LOG(llevError, "get_map_header: Bad tile path %s %s\n", m->path, value);
976	path = NULL;
977	}
978	}
979
980	if (editor) {
981	/* Use the value as in the file. */
982	m->tile_path[tile-1] = strdup_local(value);
983	} else if (path != NULL) {
984	/* Use the normalized value. */
985	m->tile_path[tile-1] = strdup_local(path);
986	}
987	} /* end if tile direction (in)valid */
988	}
989	else {
990	LOG(llevError,"Got unknown value in map header: %s %s\n", key, value);
991	}
992	}
993	if (!key || strcmp(key,"end")) {
994	LOG(llevError,"Got premature eof on map header!\n");
995	return 1;
996	}
997	return 0;
998	}
999
1000	/*
1001	* Opens the file "filename" and reads information about the map
1002	* from the given file, and stores it in a newly allocated
1003	* mapstruct. A pointer to this structure is returned, or NULL on failure.
1004	* 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
1006	* 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.
1008	* MAP_STYLE: style map - don't add active objects, don't add to server
1009	* managed map list.
1010	*/
1011
1012	mapstruct *load_original_map(const char *filename, int flags) {
1013	mapstruct *m;
1014	char pathname[MAX_BUF];
1015		683	}
1016	if (flags & MAP_PLAYER_UNIQUE)
1017	strcpy(pathname, filename);
1018	else if (flags & MAP_OVERLAY)
1019	strcpy(pathname, create_overlay_pathname(filename));
1020	else
1021	strcpy(pathname, create_pathname(filename));
1022		684
1023	LOG(llevDebug, "load_original_map(%x): %s (%s)\n", flags, filename, pathname);	685	abort ();
1024
1025	object_thawer thawer (pathname);
1026
1027	if (!thawer)
1028	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	}
1039
1040	allocate_map(m);
1041
1042	m->in_memory=MAP_LOADING;
1043	load_objects (m, thawer, flags & (MAP_BLOCK|MAP_STYLE));
1044
1045	m->in_memory=MAP_IN_MEMORY;
1046	if (!MAP_DIFFICULTY(m))
1047	MAP_DIFFICULTY(m)=calculate_difficulty(m);
1048	set_map_reset_time(m);
1049	m->instantiate ();
1050	return (m);
1051	}
1052
1053	/*
1054	* Loads a map, which has been loaded earlier, from file.
1055	* Return the map object we load into (this can change from the passed
1056	* option if we can't find the original map)
1057	*/
1058
1059	static mapstruct *load_temporary_map(mapstruct *m) {
1060	char buf[MAX_BUF];
1061
1062	if (!m->tmpname) {
1063	LOG(llevError, "No temporary filename for map %s\n", m->path);
1064	strcpy(buf, m->path);
1065	delete_map(m);
1066	m = load_original_map(buf, 0);
1067	if(m==NULL) return NULL;
1068	fix_auto_apply(m); /* Chests which open as default */
1069	return m;
1070	}
1071
1072	object_thawer thawer (m->tmpname);
1073
1074	if (!thawer)
1075	{
1076	strcpy (buf, m->path);
1077	delete_map (m);
1078	m = load_original_map (buf, 0);
1079	if (!m) return NULL;
1080	fix_auto_apply (m); /* Chests which open as default */
1081	return m;
1082	}
1083
1084	if (load_map_header(thawer, m)) {
1085	LOG(llevError,"Error loading map header for %s (%s)\n",
1086	m->path, m->tmpname);
1087	delete_map(m);
1088	m = load_original_map(m->path, 0);
1089	return NULL;
1090	}
1091	allocate_map(m);
1092
1093	m->in_memory=MAP_LOADING;
1094	load_objects (m, thawer, 0);
1095
1096	m->in_memory=MAP_IN_MEMORY;
1097	INVOKE_MAP (SWAPIN, m);
1098	return m;
1099	}
1100
1101	/*
1102	* Loads a map, which has been loaded earlier, from file.
1103	* Return the map object we load into (this can change from the passed
1104	* option if we can't find the original map)
1105	*/
1106
1107	mapstruct *load_overlay_map(const char *filename, mapstruct *m) {
1108	char pathname[MAX_BUF];
1109
1110	strcpy(pathname, create_overlay_pathname(filename));
1111
1112	object_thawer thawer (pathname);
1113
1114	if (!thawer)
1115	return m;
1116
1117	if (load_map_header(thawer, m)) {
1118	LOG(llevError,"Error loading map header for overlay %s (%s)\n",
1119	m->path, pathname);
1120	delete_map(m);
1121	m = load_original_map(m->path, 0);
1122	return NULL;
1123	}
1124	/*allocate_map(m);*/
1125
1126	m->in_memory=MAP_LOADING;
1127	load_objects (m, thawer, MAP_OVERLAY);
1128
1129	m->in_memory=MAP_IN_MEMORY;
1130	return m;
1131	}	686	}
1132		687
1133	/******************************************************************************	688	/******************************************************************************
1134	* This is the start of unique map handling code	689	* This is the start of unique map handling code
1135	*****************************************************************************/	690	*****************************************************************************/
1136		691
1137	/* This goes through map 'm' and removed any unique items on the map. */	692	/* This goes through the maptile and removed any unique items on the map. */
1138	static void delete_unique_items(mapstruct *m)	693	void
		694	maptile::clear_unique_items ()
1139	{	695	{
1140	int i,j,unique;	696	for (int i = 0; i < size (); ++i)
1141	object *op, *next;	697	{
1142
1143	for(i=0; i<MAP_WIDTH(m); i++)
1144	for(j=0; j<MAP_HEIGHT(m); j++) {
1145	unique=0;	698	int unique = 0;
1146	for (op=get_map_ob(m, i, j); op; op=next) {	699	for (object *op = spaces [i].bot; op; )
1147	next = op->above;	700	{
		701	object *above = op->above;
		702
1148	if (QUERY_FLAG(op, FLAG_IS_FLOOR) && QUERY_FLAG(op, FLAG_UNIQUE))	703	if (QUERY_FLAG (op, FLAG_IS_FLOOR) && QUERY_FLAG (op, FLAG_UNIQUE))
1149	unique=1;	704	unique = 1;
		705
1150	if(op->head == NULL && (QUERY_FLAG(op, FLAG_UNIQUE) || unique)) {	706	if (op->head_ () == op && (QUERY_FLAG (op, FLAG_UNIQUE) || unique))
1151	clean_object(op);	707	op->destroy ();
1152	if (QUERY_FLAG(op, FLAG_IS_LINKED))	708
1153	remove_button_link(op);	709	op = above;
1154	remove_ob(op);
1155	free_object(op);
1156	}
1157	}
1158	}	710	}
1159	}
1160
1161
1162	/*
1163	* Loads unique objects from file(s) into the map which is in memory
1164	* m is the map to load unique items into.
1165	*/
1166	static void load_unique_objects(mapstruct *m) {
1167	int count;
1168	char firstname[MAX_BUF];
1169
1170	for (count=0; count<10; count++) {
1171	sprintf(firstname, "%s.v%02d", create_items_path(m->path), count);
1172	if (!access(firstname, R_OK)) break;
1173	}
1174	/* If we get here, we did not find any map */
1175	if (count==10) return;
1176
1177	object_thawer thawer (firstname);
1178
1179	if (!thawer)
1180	return;
1181
1182	m->in_memory=MAP_LOADING;
1183	if (m->tmpname == NULL) /* if we have loaded unique items from */
1184	delete_unique_items(m); /* original map before, don't duplicate them */
1185	load_objects (m, thawer, 0);
1186
1187	m->in_memory=MAP_IN_MEMORY;
1188	}
1189
1190
1191	/*
1192	* Saves a map to file. If flag is set, it is saved into the same
1193	* file it was (originally) loaded from. Otherwise a temporary
1194	* filename will be genarated, and the file will be stored there.
1195	* The temporary filename will be stored in the mapstructure.
1196	* If the map is unique, we also save to the filename in the map
1197	* (this should have been updated when first loaded)
1198	*/
1199
1200	int
1201	new_save_map (mapstruct * m, int flag)
1202	{
1203	char filename[MAX_BUF], buf[MAX_BUF], shop[MAX_BUF];
1204	int i;
1205
1206	if (flag && !*m->path)
1207	{	711	}
1208	LOG (llevError, "Tried to save map without path.\n");	712	}
1209	return -1;
1210	}
1211		713
1212	if (flag || (m->unique) || (m->templatemap))	714	bool
1213	{	715	maptile::_save_header (object_freezer &freezer)
1214	if (!m->unique && !m->templatemap)	716	{
1215	{ /* flag is set */	717	#define MAP_OUT(k) freezer.put (KW_ ## k, k)
1216	if (flag == 2)	718	#define MAP_OUT2(k,v) freezer.put (KW_ ## k, v)
1217	strcpy (filename, create_overlay_pathname (m->path));
1218	else
1219	strcpy (filename, create_pathname (m->path));
1220	}
1221	else
1222	strcpy (filename, m->path);
1223		719
1224	make_path_to_file (filename);	720	MAP_OUT2 (arch, "map");
1225	}
1226	else
1227	{
1228	if (!m->tmpname)
1229	m->tmpname = tempnam_local (settings.tmpdir, NULL);
1230		721
1231	strcpy (filename, m->tmpname);	722	if (name) MAP_OUT (name);
1232	}	723	MAP_OUT (swap_time);
		724	MAP_OUT (reset_time);
		725	MAP_OUT (reset_timeout);
		726	MAP_OUT (fixed_resettime);
		727	MAP_OUT (no_reset);
		728	MAP_OUT (no_drop);
		729	MAP_OUT (difficulty);
		730	if (default_region) MAP_OUT2 (region, default_region->name);
1233		731
1234	LOG (llevDebug, "Saving map %s to %s\n", m->path, filename);	732	if (shopitems) MAP_OUT2 (shopitems, print_shop_string (this));
1235	m->in_memory = MAP_SAVING;	733	MAP_OUT (shopgreed);
		734	MAP_OUT (shopmin);
		735	MAP_OUT (shopmax);
		736	if (shoprace) MAP_OUT (shoprace);
1236		737
		738	MAP_OUT (darkness);
		739	MAP_OUT (width);
		740	MAP_OUT (height);
		741	MAP_OUT (enter_x);
		742	MAP_OUT (enter_y);
		743
		744	if (msg) freezer.put (KW_msg , KW_endmsg , msg);
		745	if (maplore) freezer.put (KW_maplore, KW_endmaplore, maplore);
		746
		747	MAP_OUT (outdoor);
		748	MAP_OUT (temp);
		749	MAP_OUT (pressure);
		750	MAP_OUT (humid);
		751	MAP_OUT (windspeed);
		752	MAP_OUT (winddir);
		753	MAP_OUT (sky);
		754
		755	MAP_OUT (per_player);
		756	MAP_OUT (per_party);
		757
		758	if (tile_path [0]) MAP_OUT2 (tile_path_1, tile_path [0]);
		759	if (tile_path [1]) MAP_OUT2 (tile_path_2, tile_path [1]);
		760	if (tile_path [2]) MAP_OUT2 (tile_path_3, tile_path [2]);
		761	if (tile_path [3]) MAP_OUT2 (tile_path_4, tile_path [3]);
		762
		763	freezer.put (this);
		764	freezer.put (KW_end);
		765
		766	return true;
		767	}
		768
		769	bool
		770	maptile::_save_header (const char *path)
		771	{
1237	object_freezer freezer;	772	object_freezer freezer;
1238		773
1239	/* legacy */	774	if (!_save_header (freezer))
1240	fprintf (freezer, "arch map\n");	775	return false;
1241	if (m->name)
1242	fprintf (freezer, "name %s\n", m->name);
1243	if (!flag)
1244	fprintf (freezer, "swap_time %d\n", m->swap_time);
1245	if (m->reset_timeout)
1246	fprintf (freezer, "reset_timeout %d\n", m->reset_timeout);
1247	if (m->fixed_resettime)
1248	fprintf (freezer, "fixed_resettime %d\n", m->fixed_resettime);
1249	/* we unfortunately have no idea if this is a value the creator set
1250	* or a difficulty value we generated when the map was first loaded
1251	*/
1252	if (m->difficulty)
1253	fprintf (freezer, "difficulty %d\n", m->difficulty);
1254	if (m->region)
1255	fprintf (freezer, "region %s\n", m->region->name);
1256	if (m->shopitems)
1257	{
1258	print_shop_string (m, shop);
1259	fprintf (freezer, "shopitems %s\n", shop);
1260	}
1261	if (m->shopgreed)
1262	fprintf (freezer, "shopgreed %f\n", m->shopgreed);
1263	#ifndef WIN32
1264	if (m->shopmin)
1265	fprintf (freezer, "shopmin %llu\n", m->shopmin);
1266	if (m->shopmax)
1267	fprintf (freezer, "shopmax %llu\n", m->shopmax);
1268	#else
1269	if (m->shopmin)
1270	fprintf (freezer, "shopmin %I64u\n", m->shopmin);
1271	if (m->shopmax)
1272	fprintf (freezer, "shopmax %I64u\n", m->shopmax);
1273	#endif
1274	if (m->shoprace)
1275	fprintf (freezer, "shoprace %s\n", m->shoprace);
1276	if (m->darkness)
1277	fprintf (freezer, "darkness %d\n", m->darkness);
1278	if (m->width)
1279	fprintf (freezer, "width %d\n", m->width);
1280	if (m->height)
1281	fprintf (freezer, "height %d\n", m->height);
1282	if (m->enter_x)
1283	fprintf (freezer, "enter_x %d\n", m->enter_x);
1284	if (m->enter_y)
1285	fprintf (freezer, "enter_y %d\n", m->enter_y);
1286	if (m->msg)
1287	fprintf (freezer, "msg\n%sendmsg\n", m->msg);
1288	if (m->maplore)
1289	fprintf (freezer, "maplore\n%sendmaplore\n", m->maplore);
1290	if (m->unique)
1291	fprintf (freezer, "unique %d\n", m->unique);
1292	if (m->templatemap)
1293	fprintf (freezer, "template %d\n", m->templatemap);
1294	if (m->outdoor)
1295	fprintf (freezer, "outdoor %d\n", m->outdoor);
1296	if (m->temp)
1297	fprintf (freezer, "temp %d\n", m->temp);
1298	if (m->pressure)
1299	fprintf (freezer, "pressure %d\n", m->pressure);
1300	if (m->humid)
1301	fprintf (freezer, "humid %d\n", m->humid);
1302	if (m->windspeed)
1303	fprintf (freezer, "windspeed %d\n", m->windspeed);
1304	if (m->winddir)
1305	fprintf (freezer, "winddir %d\n", m->winddir);
1306	if (m->sky)
1307	fprintf (freezer, "sky %d\n", m->sky);
1308	if (m->nosmooth)
1309	fprintf (freezer, "nosmooth %d\n", m->nosmooth);
1310		776
1311	/* Save any tiling information, except on overlays */	777	return freezer.save (path);
1312	if (flag != 2)
1313	for (i = 0; i < 4; i++)
1314	if (m->tile_path[i])
1315	fprintf (freezer, "tile_path_%d %s\n", i + 1, m->tile_path[i]);
1316
1317	freezer.put (m);
1318	fprintf (freezer, "end\n");
1319
1320	/* In the game save unique items in the different file, but
1321	* in the editor save them to the normal map file.
1322	* If unique map, save files in the proper destination (set by
1323	* player)
1324	*/
1325	if ((flag == 0 || flag == 2) && !m->unique && !m->templatemap)
1326	{
1327	object_freezer unique;
1328
1329	if (flag == 2)
1330	save_objects (m, freezer, unique, 2);
1331	else
1332	save_objects (m, freezer, unique, 0);
1333
1334	sprintf (buf, "%s.v00", create_items_path (m->path));
1335
1336	unique.save (buf);
1337	}
1338	else
1339	{ /* save same file when not playing, like in editor */
1340	save_objects (m, freezer, freezer, 0);
1341	}
1342
1343	freezer.save (filename);
1344
1345	return 0;
1346	}
1347
1348
1349	/*
1350	* Remove and free all objects in the inventory of the given object.
1351	* object.c ?
1352	*/
1353
1354	void clean_object(object *op)
1355	{
1356	object *tmp, *next;
1357
1358	for(tmp = op->inv; tmp; tmp = next)
1359	{
1360	next = tmp->below;
1361	clean_object(tmp);
1362	if (QUERY_FLAG(tmp, FLAG_IS_LINKED))
1363	remove_button_link(tmp);
1364	remove_ob(tmp);
1365	free_object(tmp);
1366	}
1367	}	778	}
1368		779
1369	/*	780	/*
1370	* Remove and free all objects in the given map.	781	* Remove and free all objects in the given map.
1371	*/	782	*/
		783	void
		784	maptile::clear ()
		785	{
		786	if (spaces)
		787	{
		788	for (mapspace *ms = spaces + size (); ms-- > spaces; )
		789	while (object *op = ms->bot)
		790	{
		791	// manually remove, as to not trigger anything
		792	if (ms->bot = op->above)
		793	ms->bot->below = 0;
1372		794
1373	void free_all_objects(mapstruct *m) {	795	op->flag [FLAG_REMOVED] = true;
1374	int i,j;
1375	object *op;
1376		796
1377	for(i=0;i<MAP_WIDTH(m);i++)	797	object *head = op->head_ ();
1378	for(j=0;j<MAP_HEIGHT(m);j++) {	798	if (op == head)
1379	object *previous_obj=NULL;	799	op->destroy ();
1380	while((op=GET_MAP_OB(m,i,j))!=NULL) {	800	else if (head->map != op->map)
1381	if (op==previous_obj) {	801	{
1382	LOG(llevDebug, "free_all_objects: Link error, bailing out.\n");	802	LOG (llevDebug, "bad luck for object crossing map borders: %s", head->debug_desc ());
1383	break;	803	head->destroy ();
1384	}	804	}
1385	previous_obj=op;
1386	if(op->head!=NULL)
1387	op = op->head;
1388
1389	/* If the map isn't in memory, free_object will remove and
1390	* free objects in op's inventory. So let it do the job.
1391	*/
1392	if (m->in_memory==MAP_IN_MEMORY)
1393	clean_object(op);
1394	remove_ob(op);
1395	free_object(op);
1396	}	805	}
1397	}
1398	}
1399		806
1400	/*	807	sfree0 (spaces, size ());
1401	* Frees everything allocated by the given mapstructure.
1402	* don't free tmpname - our caller is left to do that
1403	*/
1404
1405	void free_map(mapstruct *m,int flag) {
1406	int i;
1407
1408	if (!m->in_memory) {
1409	LOG(llevError,"Trying to free freed map.\n");
1410	return;
1411	}	808	}
1412	if (flag && m->spaces) free_all_objects(m);	809
1413	if (m->name) FREE_AND_CLEAR(m->name);
1414	if (m->spaces) FREE_AND_CLEAR(m->spaces);
1415	if (m->msg) FREE_AND_CLEAR(m->msg);
1416	if (m->maplore) FREE_AND_CLEAR(m->maplore);
1417	if (m->shopitems) FREE_AND_CLEAR(m->shopitems);
1418	if (m->shoprace) FREE_AND_CLEAR(m->shoprace);
1419	if (m->buttons)	810	if (buttons)
1420	free_objectlinkpt(m->buttons);	811	free_objectlinkpt (buttons), buttons = 0;
1421	m->buttons = NULL;	812
		813	sfree0 (regions, size ());
		814	delete [] regionmap; regionmap = 0;
		815	}
		816
		817	void
		818	maptile::clear_header ()
		819	{
		820	name = 0;
		821	msg = 0;
		822	maplore = 0;
		823	shoprace = 0;
		824	delete [] shopitems, shopitems = 0;
		825
1422	for (i=0; i<4; i++) {	826	for (int i = 0; i < 4; i++)
1423	if (m->tile_path[i]) FREE_AND_CLEAR(m->tile_path[i]);	827	tile_path [i] = 0;
1424	m->tile_map[i] = NULL;
1425	}
1426	m->in_memory = MAP_SWAPPED;
1427	}	828	}
1428		829
1429	/*	830	maptile::~maptile ()
1430	* function: vanish mapstruct	831	{
1431	* m : pointer to mapstruct, if NULL no action	832	assert (destroyed ());
1432	* this deletes all the data on the map (freeing pointers)	833	}
1433	* and then removes this map from the global linked list of maps.
1434	*/
1435		834
1436	void delete_map(mapstruct *m) {	835	void
1437	mapstruct *tmp, *last;	836	maptile::clear_links_to (maptile *m)
1438	int i;	837	{
1439
1440	if (!m)
1441	return;
1442
1443	m->clear ();
1444
1445	if (m->in_memory == MAP_IN_MEMORY) {
1446	/* change to MAP_SAVING, even though we are not,
1447	* so that remove_ob doesn't do as much work.
1448	*/
1449	m->in_memory = MAP_SAVING;
1450	free_map (m, 1);
1451	}
1452	/* move this out of free_map, since tmpname can still be needed if
1453	* the map is swapped out.
1454	*/
1455	if (m->tmpname) {
1456	free(m->tmpname);
1457	m->tmpname=NULL;
1458	}
1459	last = NULL;
1460	/* We need to look through all the maps and see if any maps	838	/* We need to look through all the maps and see if any maps
1461	* are pointing at this one for tiling information. Since	839	* are pointing at this one for tiling information. Since
1462	* tiling can be assymetric, we just can not look to see which	840	* tiling can be asymetric, we just can not look to see which
1463	* maps this map tiles with and clears those.	841	* maps this map tiles with and clears those.
1464	*/	842	*/
1465	for (tmp = first_map; tmp != NULL; tmp = tmp->next) {
1466	if (tmp->next == m) last = tmp;
1467
1468	/* This should hopefully get unrolled on a decent compiler */
1469	for (i=0; i<4; i++)	843	for (int i = 0; i < 4; i++)
1470	if (tmp->tile_map[i] == m) tmp->tile_map[i]=NULL;	844	if (tile_map[i] == m)
1471	}	845	tile_map[i] = 0;
		846	}
1472		847
1473	/* If last is null, then this should be the first map in the list */	848	void
1474	if (!last) {	849	maptile::do_destroy ()
1475	if (m == first_map)	850	{
1476	first_map = m->next;	851	attachable::do_destroy ();
		852
		853	clear ();
		854	}
		855
		856	/* decay and destroy perishable items in a map */
		857	void
		858	maptile::do_decay_objects ()
		859	{
		860	if (!spaces)
		861	return;
		862
		863	for (mapspace *ms = spaces + size (); ms-- > spaces; )
		864	for (object *above, *op = ms->bot; op; op = above)
		865	{
		866	above = op->above;
		867
		868	bool destroy = 0;
		869
		870	// do not decay anything above unique floor tiles (yet :)
		871	if (QUERY_FLAG (op, FLAG_IS_FLOOR) && QUERY_FLAG (op, FLAG_UNIQUE))
		872	break;
		873
		874	if (QUERY_FLAG (op, FLAG_IS_FLOOR)
		875	|| QUERY_FLAG (op, FLAG_OBJ_ORIGINAL)
		876	|| QUERY_FLAG (op, FLAG_UNIQUE)
		877	|| QUERY_FLAG (op, FLAG_OVERLAY_FLOOR)
		878	|| QUERY_FLAG (op, FLAG_UNPAID)
		879	|| op->is_alive ())
		880	; // do not decay
		881	else if (op->is_weapon ())
		882	{
		883	op->stats.dam--;
		884	if (op->stats.dam < 0)
		885	destroy = 1;
		886	}
		887	else if (op->is_armor ())
		888	{
		889	op->stats.ac--;
		890	if (op->stats.ac < 0)
		891	destroy = 1;
		892	}
		893	else if (op->type == FOOD)
		894	{
		895	op->stats.food -= rndm (5, 20);
		896	if (op->stats.food < 0)
		897	destroy = 1;
		898	}
1477	else	899	else
1478	/* m->path is a static char, so should hopefully still have
1479	* some useful data in it.
1480	*/	900	{
1481	LOG(llevError,"delete_map: Unable to find map %s in list\n",	901	int mat = op->materials;
1482	m->path);
1483	}
1484	else
1485	last->next = m->next;
1486		902
1487	delete m;	903	if (mat & M_PAPER
1488	}	904	|| mat & M_LEATHER
1489		905	|| mat & M_WOOD
1490		906	|| mat & M_ORGANIC
1491		907	|| mat & M_CLOTH
1492	/*	908	|| mat & M_LIQUID
1493	* Makes sure the given map is loaded and swapped in.	909	|| (mat & M_IRON && rndm (1, 5) == 1)
1494	* name is path name of the map.	910	|| (mat & M_GLASS && rndm (1, 2) == 1)
1495	* flags meaning:	911	|| ((mat & M_STONE || mat & M_ADAMANT) && rndm (1, 10) == 1)
1496	* 0x1 (MAP_FLUSH): flush the map - always load from the map directory,	912	|| ((mat & M_SOFT_METAL || mat & M_BONE) && rndm (1, 3) == 1)
1497	* and don't do unique items or the like.	913	|| (mat & M_ICE && temp > 32))
1498	* 0x2 (MAP_PLAYER_UNIQUE) - this is a unique map for each player.	914	destroy = 1;
1499	* dont do any more name translation on it.
1500	*
1501	* Returns a pointer to the given map.
1502	*/
1503
1504	mapstruct *ready_map_name(const char *name, int flags) {
1505	mapstruct *m;
1506
1507	if (!name)
1508	return (NULL);
1509
1510	/* Have we been at this level before? */
1511	m = has_been_loaded (name);
1512
1513	/* Map is good to go, so just return it */
1514	if (m && (m->in_memory == MAP_LOADING || m->in_memory == MAP_IN_MEMORY)) {
1515	return m;
1516	}
1517
1518	/* unique maps always get loaded from their original location, and never
1519	* a temp location. Likewise, if map_flush is set, or we have never loaded
1520	* this map, load it now. I removed the reset checking from here -
1521	* it seems the probability of a player trying to enter a map that should
1522	* reset but hasn't yet is quite low, and removing that makes this function
1523	* a bit cleaner (and players probably shouldn't rely on exact timing for
1524	* resets in any case - if they really care, they should use the 'maps command.
1525	*/
1526	if ((flags & (MAP_FLUSH|MAP_PLAYER_UNIQUE)) || !m) {
1527
1528	/* first visit or time to reset */
1529	if (m) {
1530	clean_tmp_map(m); /* Doesn't make much difference */
1531	delete_map(m);
1532	}	915	}
1533		916
1534	/* create and load a map */	917	/* adjust overall chance below */
1535	if (flags & MAP_PLAYER_UNIQUE)	918	if (destroy && rndm (0, 1))
1536	LOG(llevDebug, "Trying to load map %s.\n", name);	919	op->destroy ();
1537	else
1538	LOG(llevDebug, "Trying to load map %s.\n", create_pathname(name));
1539
1540	//eval_pv ("$x = Event::time", 1);//D
1541	if (!(m = load_original_map(name, (flags & MAP_PLAYER_UNIQUE))))
1542	return (NULL);
1543	//eval_pv ("warn \"LOAD \", Event::time - $x", 1);//D
1544
1545	fix_auto_apply(m); /* Chests which open as default */
1546
1547	/* If a player unique map, no extra unique object file to load.
1548	* if from the editor, likewise.
1549	*/
1550	if (!(flags & (MAP_FLUSH|MAP_PLAYER_UNIQUE)))
1551	load_unique_objects(m);
1552
1553	if (! (flags & (MAP_FLUSH|MAP_PLAYER_UNIQUE|MAP_OVERLAY))) {
1554	m=load_overlay_map(name, m);
1555	if (m==NULL)
1556	return NULL;
1557	}	920	}
1558
1559	if (flags & MAP_PLAYER_UNIQUE)
1560	INVOKE_MAP (SWAPIN, m);
1561
1562	} else {
1563	/* If in this loop, we found a temporary map, so load it up. */
1564
1565	m=load_temporary_map (m);
1566	if(m==NULL) return NULL;
1567	load_unique_objects(m);
1568
1569	clean_tmp_map(m);
1570	m->in_memory = MAP_IN_MEMORY;
1571	/* tempnam() on sun systems (probably others) uses malloc
1572	* to allocated space for the string. Free it here.
1573	* In some cases, load_temporary_map above won't find the
1574	* temporary map, and so has reloaded a new map. If that
1575	* is the case, tmpname is now null
1576	*/
1577	if (m->tmpname) free(m->tmpname);
1578	m->tmpname = NULL;
1579	/* It's going to be saved anew anyway */
1580	}
1581
1582	/* Below here is stuff common to both first time loaded maps and
1583	* temp maps.
1584	*/
1585
1586	decay_objects(m); /* start the decay */
1587	/* In case other objects press some buttons down */
1588	update_buttons(m);
1589	if (m->outdoor)
1590	set_darkness_map(m);
1591	/* run the weather over this map */
1592	weather_effect(name);
1593	return m;
1594	}	921	}
1595
1596		922
1597	/*	923	/*
1598	* This routine is supposed to find out the difficulty of the map.	924	* This routine is supposed to find out the difficulty of the map.
1599	* difficulty does not have a lot to do with character level,	925	* difficulty does not have a lot to do with character level,
1600	* but does have a lot to do with treasure on the map.	926	* but does have a lot to do with treasure on the map.
1601	*	927	*
1602	* Difficulty can now be set by the map creature. If the value stored	928	* Difficulty can now be set by the map creator. If the value stored
1603	* in the map is zero, then use this routine. Maps should really	929	* in the map is zero, then use this routine. Maps should really
1604	* have a difficulty set than using this function - human calculation	930	* have a difficulty set rather than using this function - human calculation
1605	* is much better than this functions guesswork.	931	* is much better than this function's guesswork.
1606	*/	932	*/
1607		933	int
1608	int calculate_difficulty(mapstruct *m) {	934	maptile::estimate_difficulty () const
1609	object *op;	935	{
1610	archetype *at;
1611	int x, y, i;
1612	long monster_cnt = 0;	936	long monster_cnt = 0;
1613	double avgexp = 0;	937	double avgexp = 0;
1614	sint64 total_exp = 0;	938	sint64 total_exp = 0;
1615		939
1616	if (MAP_DIFFICULTY (m))	940	for (mapspace *ms = spaces + size (); ms-- > spaces; )
1617	{	941	for (object *op = ms->bot; op; op = op->above)
1618	LOG(llevDebug, "Using stored map difficulty: %d\n", MAP_DIFFICULTY (m));
1619	return MAP_DIFFICULTY (m);
1620	}
1621
1622	for(x = 0; x < MAP_WIDTH(m); x++)
1623	for(y = 0; y < MAP_HEIGHT(m); y++)
1624	for(op = get_map_ob(m, x, y); op != NULL; op = op->above)
1625	{	942	{
1626	if(QUERY_FLAG (op, FLAG_MONSTER))	943	if (QUERY_FLAG (op, FLAG_MONSTER))
1627	{	944	{
1628	total_exp += op->stats.exp;	945	total_exp += op->stats.exp;
1629	monster_cnt++;	946	monster_cnt++;
1630	}	947	}
1631		948
1632	if(QUERY_FLAG (op, FLAG_GENERATOR))	949	if (QUERY_FLAG (op, FLAG_GENERATOR))
1633	{	950	{
1634	total_exp += op->stats.exp;	951	total_exp += op->stats.exp;
1635	at = type_to_archetype(GENERATE_TYPE (op));
1636		952
1637	if(at != NULL)	953	if (archetype *at = op->other_arch)
		954	{
1638	total_exp += at->clone.stats.exp * 8;	955	total_exp += at->stats.exp * 8;
1639
1640	monster_cnt++;	956	monster_cnt++;
1641	}	957	}
		958
		959	for (object *inv = op->inv; inv; inv = inv->below)
		960	{
		961	total_exp += op->stats.exp * 8;
		962	monster_cnt++;
		963	}
1642	}	964	}
		965	}
1643		966
1644	avgexp = (double) total_exp / monster_cnt;	967	avgexp = (double) total_exp / monster_cnt;
1645		968
1646	for (i = 1; i <= settings.max_level; i++)	969	for (int i = 1; i <= settings.max_level; i++)
1647	{
1648	if ((level_exp (i, 1) - level_exp (i - 1, 1)) > (100 * avgexp))	970	if ((level_exp (i, 1) - level_exp (i - 1, 1)) > (100 * avgexp))
1649	{
1650	/* LOG(llevDebug, "Calculated difficulty for map: %s: %d\n", m->name, i); */
1651	return i;	971	return i;
1652	}
1653	}
1654		972
1655	return 1;	973	return 1;
1656	}
1657
1658	void clean_tmp_map(mapstruct *m) {
1659	if(m->tmpname == NULL)
1660	return;
1661	INVOKE_MAP (CLEAN, m);
1662	(void) unlink(m->tmpname);
1663	}
1664
1665	void free_all_maps(void)
1666	{
1667	int real_maps=0;
1668
1669	while (first_map) {
1670	/* I think some of the callers above before it gets here set this to be
1671	* saving, but we still want to free this data
1672	*/
1673	if (first_map->in_memory == MAP_SAVING) first_map->in_memory = MAP_IN_MEMORY;
1674	delete_map(first_map);
1675	real_maps++;
1676	}
1677	LOG(llevDebug,"free_all_maps: Freed %d maps\n", real_maps);
1678	}	974	}
1679		975
1680	/* change_map_light() - used to change map light level (darkness)	976	/* change_map_light() - used to change map light level (darkness)
1681	* up or down. Returns true if successful. It should now be	977	* up or down. Returns true if successful. It should now be
1682	* possible to change a value by more than 1.	978	* possible to change a value by more than 1.
1683	* Move this from los.c to map.c since this is more related	979	* Move this from los.c to map.c since this is more related
1684	* to maps than los.	980	* to maps than los.
1685	* postive values make it darker, negative make it brighter	981	* postive values make it darker, negative make it brighter
1686	*/	982	*/
1687		983	int
1688	int change_map_light(mapstruct *m, int change) {	984	maptile::change_map_light (int change)
1689	int new_level = m->darkness + change;	985	{
1690
1691	/* Nothing to do */	986	/* Nothing to do */
1692	if(!change || (new_level <= 0 && m->darkness == 0) ||	987	if (!change)
1693	(new_level >= MAX_DARKNESS && m->darkness >=MAX_DARKNESS)) {
1694	return 0;	988	return 0;
1695	}
1696		989
1697	/* inform all players on the map */	990	/* inform all players on the map */
1698	if (change>0)	991	if (change > 0)
1699	new_info_map(NDI_BLACK|NDI_UNIQUE, m,"It becomes darker.");	992	new_info_map (NDI_BLACK | NDI_UNIQUE, this, "It becomes darker.");
1700	else	993	else
1701	new_info_map(NDI_BLACK|NDI_UNIQUE, m,"It becomes brighter.");	994	new_info_map (NDI_BLACK | NDI_UNIQUE, this, "It becomes brighter.");
1702		995
1703	/* Do extra checking. since m->darkness is a unsigned value,	996	darkness = clamp (darkness + change, -MAX_DARKNESS, MAX_DARKNESS);
1704	* we need to be extra careful about negative values.
1705	* In general, the checks below are only needed if change
1706	* is not +/-1
1707	*/
1708	if (new_level < 0) m->darkness = 0;
1709	else if (new_level >=MAX_DARKNESS) m->darkness = MAX_DARKNESS;
1710	else m->darkness=new_level;
1711		997
1712	/* All clients need to get re-updated for the change */	998	/* All clients need to get re-updated for the change */
1713	update_all_map_los(m);	999	update_all_map_los (this);
		1000
1714	return 1;	1001	return 1;
1715	}	1002	}
1716
1717		1003
1718	/*	1004	/*
1719	* This function updates various attributes about a specific space	1005	* This function updates various attributes about a specific space
1720	* on the map (what it looks like, whether it blocks magic,	1006	* on the map (what it looks like, whether it blocks magic,
1721	* has a living creatures, prevents people from passing	1007	* has a living creatures, prevents people from passing
1722	* through, etc)	1008	* through, etc)
1723	*/	1009	*/
1724	void update_position (mapstruct *m, int x, int y) {	1010	void
1725	object *tmp, *last = NULL;	1011	mapspace::update_ ()
1726	uint8 flags = 0, oldflags, light=0, anywhere=0;	1012	{
1727	New_Face *top,*floor, *middle;	1013	object *last = 0;
1728	object *top_obj, *floor_obj, *middle_obj;	1014	uint8 flags = P_UPTODATE, anywhere = 0;
		1015	sint8 light = 0;
1729	MoveType move_block=0, move_slow=0, move_on=0, move_off=0, move_allow=0;	1016	MoveType move_block = 0, move_slow = 0, move_on = 0, move_off = 0, move_allow = 0;
1730		1017
1731	oldflags = GET_MAP_FLAGS(m,x,y);	1018	//object *middle = 0;
1732	if (!(oldflags & P_NEED_UPDATE)) {	1019	//object *top = 0;
1733	LOG(llevDebug,"update_position called with P_NEED_UPDATE not set: %s (%d, %d)\n",	1020	//object *floor = 0;
1734	m->path, x, y);	1021	// this seems to generate better code than using locals, above
1735	return;	1022	object *&top = faces_obj[0] = 0;
		1023	object *&middle = faces_obj[1] = 0;
		1024	object *&floor = faces_obj[2] = 0;
		1025
		1026	for (object *tmp = bot; tmp; last = tmp, tmp = tmp->above)
1736	}	1027	{
		1028	// Lights are additive, up to MAX_LIGHT_RADIUS, see los.C)
		1029	light += tmp->glow_radius;
1737		1030
1738	middle=blank_face;
1739	top=blank_face;
1740	floor=blank_face;
1741
1742	middle_obj = NULL;
1743	top_obj = NULL;
1744	floor_obj = NULL;
1745
1746	for (tmp = get_map_ob (m, x, y); tmp; last = tmp, tmp = tmp->above) {
1747
1748	/* This could be made additive I guess (two lights better than
1749	* one). But if so, it shouldn't be a simple additive - 2
1750	* light bulbs do not illuminate twice as far as once since
1751	* it is a disapation factor that is squared (or is it cubed?)
1752	*/
1753	if (tmp->glow_radius > light) light = tmp->glow_radius;
1754
1755	/* This call is needed in order to update objects the player	1031	/* This call is needed in order to update objects the player
1756	* is standing in that have animations (ie, grass, fire, etc).	1032	* is standing in that have animations (ie, grass, fire, etc).
1757	* However, it also causes the look window to be re-drawn	1033	* However, it also causes the look window to be re-drawn
1758	* 3 times each time the player moves, because many of the	1034	* 3 times each time the player moves, because many of the
1759	* functions the move_player calls eventualy call this.	1035	* functions the move_player calls eventualy call this.
1760	*	1036	*
1761	* Always put the player down for drawing.	1037	* Always put the player down for drawing.
1762	*/	1038	*/
1763	if (!tmp->invisible) {	1039	if (!tmp->invisible)
		1040	{
1764	if ((tmp->type==PLAYER || QUERY_FLAG(tmp, FLAG_MONSTER))) {	1041	if ((tmp->type == PLAYER || QUERY_FLAG (tmp, FLAG_MONSTER)))
1765	top = tmp->face;
1766	top_obj = tmp;	1042	top = tmp;
		1043	else if (QUERY_FLAG (tmp, FLAG_IS_FLOOR))
		1044	{
		1045	/* If we got a floor, that means middle and top were below it,
		1046	* so should not be visible, so we clear them.
		1047	*/
		1048	middle = 0;
		1049	top = 0;
		1050	floor = tmp;
1767	}	1051	}
		1052	/* Flag anywhere have high priority */
1768	else if (QUERY_FLAG(tmp,FLAG_IS_FLOOR)) {	1053	else if (QUERY_FLAG (tmp, FLAG_SEE_ANYWHERE))
1769	/* If we got a floor, that means middle and top were below it,
1770	* so should not be visible, so we clear them.
1771	*/	1054	{
1772	middle=blank_face;	1055	middle = tmp;
1773	top=blank_face;	1056	anywhere = 1;
1774	floor = tmp->face;
1775	floor_obj = tmp;
1776	}	1057	}
1777	/* Flag anywhere have high priority */	1058
1778	else if (QUERY_FLAG(tmp, FLAG_SEE_ANYWHERE)) {	1059	/* Find the highest visible face around. If equal
		1060	* visibilities, we still want the one nearer to the
		1061	* top
		1062	*/
		1063	else if (!middle || (::faces [tmp->face].visibility > ::faces [middle->face].visibility && !anywhere))
1779	middle = tmp->face;	1064	middle = tmp;
		1065	}
1780		1066
		1067	if (tmp == tmp->above)
		1068	{
		1069	LOG (llevError, "Error in structure of map\n");
		1070	exit (-1);
		1071	}
		1072
		1073	move_slow |= tmp->move_slow;
		1074	move_block |= tmp->move_block;
		1075	move_on |= tmp->move_on;
		1076	move_off |= tmp->move_off;
		1077	move_allow |= tmp->move_allow;
		1078
		1079	if (QUERY_FLAG (tmp, FLAG_BLOCKSVIEW)) flags |= P_BLOCKSVIEW;
		1080	if (QUERY_FLAG (tmp, FLAG_NO_MAGIC)) flags |= P_NO_MAGIC;
		1081	if (tmp->type == PLAYER) flags |= P_PLAYER;
		1082	if (tmp->type == SAFE_GROUND) flags |= P_SAFE;
		1083	if (QUERY_FLAG (tmp, FLAG_ALIVE)) flags |= P_IS_ALIVE;
		1084	if (QUERY_FLAG (tmp, FLAG_DAMNED)) flags |= P_NO_CLERIC;
		1085	}
		1086
		1087	this->light = min (light, MAX_LIGHT_RADIUS);
		1088	this->flags_ = flags;
		1089	this->move_block = move_block & ~move_allow;
		1090	this->move_on = move_on;
		1091	this->move_off = move_off;
		1092	this->move_slow = move_slow;
		1093
		1094	/* At this point, we have a floor face (if there is a floor),
		1095	* and the floor is set - we are not going to touch it at
		1096	* this point.
		1097	* middle contains the highest visibility face.
		1098	* top contains a player/monster face, if there is one.
		1099	*
		1100	* We now need to fill in top.face and/or middle.face.
		1101	*/
		1102
		1103	/* If the top face also happens to be high visibility, re-do our
		1104	* middle face. This should not happen, as we already have the
		1105	* else statement above so middle should not get set. OTOH, it
		1106	* may be possible for the faces to match but be different objects.
		1107	*/
		1108	if (top == middle)
		1109	middle = 0;
		1110
		1111	/* There are three posibilities at this point:
		1112	* 1) top face is set, need middle to be set.
		1113	* 2) middle is set, need to set top.
		1114	* 3) neither middle or top is set - need to set both.
		1115	*/
		1116
		1117	for (object *tmp = last; tmp; tmp = tmp->below)
		1118	{
		1119	/* Once we get to a floor, stop, since we already have a floor object */
		1120	if (QUERY_FLAG (tmp, FLAG_IS_FLOOR))
		1121	break;
		1122
		1123	/* If two top faces are already set, quit processing */
		1124	if (top && middle)
		1125	break;
		1126
		1127	/* Only show visible faces */
		1128	if (!tmp->invisible)
		1129	{
		1130	/* Fill in top if needed */
		1131	if (!top)
		1132	{
		1133	top = tmp;
		1134	if (top == middle)
1781	middle_obj = tmp;	1135	middle = 0;
1782	anywhere =1;
1783	}	1136	}
1784	/* Find the highest visible face around. If equal	1137	else
1785	* visibilities, we still want the one nearer to the
1786	* top
1787	*/
1788	else if (middle == blank_face || (tmp->face->visibility > middle->visibility && !anywhere)) {
1789	middle = tmp->face;
1790	middle_obj = tmp;
1791	}	1138	{
1792	}
1793	if (tmp==tmp->above) {
1794	LOG(llevError, "Error in structure of map\n");
1795	exit (-1);
1796	}
1797
1798	move_slow |= tmp->move_slow;
1799	move_block |= tmp->move_block;
1800	move_on |= tmp->move_on;
1801	move_off |= tmp->move_off;
1802	move_allow |= tmp->move_allow;
1803
1804	if (QUERY_FLAG(tmp,FLAG_ALIVE))
1805	flags |= P_IS_ALIVE;
1806	if (QUERY_FLAG(tmp,FLAG_NO_MAGIC))
1807	flags |= P_NO_MAGIC;
1808	if (QUERY_FLAG(tmp,FLAG_DAMNED))
1809	flags |= P_NO_CLERIC;
1810	if (tmp->type == SAFE_GROUND)
1811	flags |= P_SAFE | P_NO_CLERIC | P_NO_MAGIC;
1812
1813	if (QUERY_FLAG(tmp,FLAG_BLOCKSVIEW))
1814	flags |= P_BLOCKSVIEW;
1815	} /* for stack of objects */
1816
1817	/* we don't want to rely on this function to have accurate flags, but
1818	* since we're already doing the work, we calculate them here.
1819	* if they don't match, logic is broken someplace.
1820	*/
1821	if (((oldflags & ~(P_NEED_UPDATE|P_NO_ERROR)) != flags) &&
1822	(!(oldflags & P_NO_ERROR))) {
1823	LOG(llevDebug,"update_position: updated flags do not match old flags: %s (old=%d,new=%d) %x != %x\n",
1824	m->path, x, y,
1825	(oldflags & ~P_NEED_UPDATE), flags);
1826	}
1827	SET_MAP_FLAGS(m, x, y, flags);
1828	SET_MAP_MOVE_BLOCK(m, x, y, move_block & ~move_allow);
1829	SET_MAP_MOVE_ON(m, x, y, move_on);
1830	SET_MAP_MOVE_OFF(m, x, y, move_off);
1831	SET_MAP_MOVE_SLOW(m, x, y, move_slow);
1832
1833	/* At this point, we have a floor face (if there is a floor),
1834	* and the floor is set - we are not going to touch it at
1835	* this point.
1836	* middle contains the highest visibility face.
1837	* top contains a player/monster face, if there is one.
1838	*
1839	* We now need to fill in top.face and/or middle.face.
1840	*/
1841
1842	/* If the top face also happens to be high visibility, re-do our
1843	* middle face. This should not happen, as we already have the
1844	* else statement above so middle should not get set. OTOH, it
1845	* may be possible for the faces to match but be different objects.
1846	*/
1847	if (top == middle) middle=blank_face;
1848
1849	/* There are three posibilities at this point:
1850	* 1) top face is set, need middle to be set.
1851	* 2) middle is set, need to set top.
1852	* 3) neither middle or top is set - need to set both.
1853	*/
1854
1855	for (tmp=last; tmp; tmp=tmp->below) {
1856	/* Once we get to a floor, stop, since we already have a floor object */
1857	if (QUERY_FLAG(tmp,FLAG_IS_FLOOR)) break;
1858
1859	/* If two top faces are already set, quit processing */
1860	if ((top != blank_face) && (middle != blank_face)) break;
1861
1862	/* Only show visible faces, unless its the editor - show all */
1863	if (!tmp->invisible || editor) {
1864	/* Fill in top if needed */
1865	if (top == blank_face) {
1866	top = tmp->face;
1867	top_obj = tmp;
1868	if (top == middle) middle=blank_face;
1869	} else {
1870	/* top is already set - we should only get here if	1139	/* top is already set - we should only get here if
1871	* middle is not set	1140	* middle is not set
1872	*	1141	*
1873	* Set the middle face and break out, since there is nothing	1142	* Set the middle face and break out, since there is nothing
1874	* more to fill in. We don't check visiblity here, since	1143	* more to fill in. We don't check visiblity here, since
1875	*	1144	*
1876	*/	1145	*/
1877	if (tmp->face != top ) {	1146	if (tmp != top)
1878	middle = tmp->face;	1147	{
1879	middle_obj = tmp;	1148	middle = tmp;
1880	break;	1149	break;
1881	}	1150	}
1882	}	1151	}
1883	}	1152	}
1884	}	1153	}
1885	if (middle == floor) middle = blank_face;
1886	if (top == middle) middle = blank_face;
1887	SET_MAP_FACE(m,x,y,top,0);
1888	if(top != blank_face)
1889	SET_MAP_FACE_OBJ(m,x,y,top_obj,0);
1890	else
1891	SET_MAP_FACE_OBJ(m,x,y,NULL,0);
1892	SET_MAP_FACE(m,x,y,middle,1);
1893	if(middle != blank_face)
1894	SET_MAP_FACE_OBJ(m,x,y,middle_obj,1);
1895	else
1896	SET_MAP_FACE_OBJ(m,x,y,NULL,1);
1897	SET_MAP_FACE(m,x,y,floor,2);
1898	if(floor != blank_face)
1899	SET_MAP_FACE_OBJ(m,x,y,floor_obj,2);
1900	else
1901	SET_MAP_FACE_OBJ(m,x,y,NULL,2);
1902	SET_MAP_LIGHT(m,x,y,light);
1903	}
1904		1154
		1155	if (middle == floor)
		1156	middle = 0;
1905		1157
1906	void set_map_reset_time(mapstruct *map) {	1158	if (top == middle)
1907	int timeout;	1159	middle = 0;
1908		1160
1909	timeout = MAP_RESET_TIMEOUT(map);	1161	#if 0
1910	if (timeout <= 0)	1162	faces_obj [0] = top;
1911	timeout = MAP_DEFAULTRESET;	1163	faces_obj [1] = middle;
1912	if (timeout >= MAP_MAXRESET)	1164	faces_obj [2] = floor;
1913	timeout = MAP_MAXRESET;	1165	#endif
1914	MAP_WHEN_RESET(map) = seconds()+timeout;
1915	}	1166	}
1916		1167
1917	/* this updates the orig_map->tile_map[tile_num] value after loading	1168	uint64
1918	* the map. It also takes care of linking back the freshly loaded	1169	mapspace::volume () const
1919	* maps tile_map values if it tiles back to this one. It returns
1920	* the value of orig_map->tile_map[tile_num]. It really only does this
1921	* so that it is easier for calling functions to verify success.
1922	*/
1923
1924	static mapstruct *load_and_link_tiled_map(mapstruct *orig_map, int tile_num)
1925	{	1170	{
1926	int dest_tile = (tile_num +2) % 4;	1171	uint64 vol = 0;
1927	char *path = path_combine_and_normalize(orig_map->path, orig_map->tile_path[tile_num]);
1928		1172
1929	orig_map->tile_map[tile_num] = ready_map_name(path, 0);	1173	for (object *op = top; op && !op->flag [FLAG_NO_PICK]; op = op->below)
		1174	vol += op->volume ();
1930		1175
1931	/* need to do a strcmp here as the orig_map->path is not a shared string */	1176	return vol;
1932	if (orig_map->tile_map[tile_num]->tile_path[dest_tile] &&	1177	}
1933	!strcmp(orig_map->tile_map[tile_num]->tile_path[dest_tile], orig_map->path))
1934	orig_map->tile_map[tile_num]->tile_map[dest_tile] = orig_map;
1935		1178
1936	return orig_map->tile_map[tile_num];	1179	maptile *
		1180	maptile::tile_available (int dir, bool load)
		1181	{
		1182	if (tile_path[dir])
		1183	{
		1184	if (tile_map[dir] && (!load || tile_map[dir]->in_memory == MAP_ACTIVE))
		1185	return tile_map[dir];
		1186
		1187	if ((tile_map[dir] = find_async (tile_path[dir], this, load)))
		1188	return tile_map[dir];
		1189	}
		1190
		1191	return 0;
1937	}	1192	}
1938		1193
1939	/* this returns TRUE if the coordinates (x,y) are out of	1194	/* this returns TRUE if the coordinates (x,y) are out of
1940	* map m. This function also takes into account any	1195	* map m. This function also takes into account any
1941	* tiling considerations, loading adjacant maps as needed.	1196	* tiling considerations, loading adjacant maps as needed.
1942	* This is the function should always be used when it	1197	* This is the function should always be used when it
1943	* necessary to check for valid coordinates.	1198	* necessary to check for valid coordinates.
1944	* This function will recursively call itself for the	1199	* This function will recursively call itself for the
1945	* tiled maps.	1200	* tiled maps.
1946	*	1201	*/
1947	*	1202	int
1948	*/
1949	int out_of_map(mapstruct *m, int x, int y)	1203	out_of_map (maptile *m, int x, int y)
1950	{	1204	{
1951
1952	/* If we get passed a null map, this is obviously the	1205	/* If we get passed a null map, this is obviously the
1953	* case. This generally shouldn't happen, but if the	1206	* case. This generally shouldn't happen, but if the
1954	* map loads fail below, it could happen.	1207	* map loads fail below, it could happen.
1955	*/	1208	*/
1956	if (!m) return 0;	1209	if (!m)
1957
1958	if (x<0) {
1959	if (!m->tile_path[3]) return 1;
1960	if (!m->tile_map[3] || m->tile_map[3]->in_memory != MAP_IN_MEMORY) {
1961	load_and_link_tiled_map(m, 3);
1962	}
1963	return (out_of_map(m->tile_map[3], x + MAP_WIDTH(m->tile_map[3]), y));
1964	}
1965	if (x>=MAP_WIDTH(m)) {
1966	if (!m->tile_path[1]) return 1;
1967	if (!m->tile_map[1] || m->tile_map[1]->in_memory != MAP_IN_MEMORY) {
1968	load_and_link_tiled_map(m, 1);
1969	}
1970	return (out_of_map(m->tile_map[1], x - MAP_WIDTH(m), y));
1971	}
1972	if (y<0) {
1973	if (!m->tile_path[0]) return 1;
1974	if (!m->tile_map[0] || m->tile_map[0]->in_memory != MAP_IN_MEMORY) {
1975	load_and_link_tiled_map(m, 0);
1976	}
1977	return (out_of_map(m->tile_map[0], x, y + MAP_HEIGHT(m->tile_map[0])));
1978	}
1979	if (y>=MAP_HEIGHT(m)) {
1980	if (!m->tile_path[2]) return 1;
1981	if (!m->tile_map[2] || m->tile_map[2]->in_memory != MAP_IN_MEMORY) {
1982	load_and_link_tiled_map(m, 2);
1983	}
1984	return (out_of_map(m->tile_map[2], x, y - MAP_HEIGHT(m)));
1985	}
1986
1987	/* Simple case - coordinates are within this local
1988	* map.
1989	*/
1990	return 0;	1210	return 0;
		1211
		1212	if (x < 0)
		1213	{
		1214	if (!m->tile_available (3))
		1215	return 1;
		1216
		1217	return out_of_map (m->tile_map[3], x + m->tile_map[3]->width, y);
		1218	}
		1219
		1220	if (x >= m->width)
		1221	{
		1222	if (!m->tile_available (1))
		1223	return 1;
		1224
		1225	return out_of_map (m->tile_map[1], x - m->width, y);
		1226	}
		1227
		1228	if (y < 0)
		1229	{
		1230	if (!m->tile_available (0))
		1231	return 1;
		1232
		1233	return out_of_map (m->tile_map[0], x, y + m->tile_map[0]->height);
		1234	}
		1235
		1236	if (y >= m->height)
		1237	{
		1238	if (!m->tile_available (2))
		1239	return 1;
		1240
		1241	return out_of_map (m->tile_map[2], x, y - m->height);
		1242	}
		1243
		1244	/* Simple case - coordinates are within this local
		1245	* map.
		1246	*/
		1247	return 0;
1991	}	1248	}
1992		1249
1993	/* This is basically the same as out_of_map above, but	1250	/* This is basically the same as out_of_map above, but
1994	* instead we return NULL if no map is valid (coordinates	1251	* instead we return NULL if no map is valid (coordinates
1995	* out of bounds and no tiled map), otherwise it returns	1252	* out of bounds and no tiled map), otherwise it returns
1996	* the map as that the coordinates are really on, and	1253	* the map as that the coordinates are really on, and
1997	* updates x and y to be the localized coordinates.	1254	* updates x and y to be the localised coordinates.
1998	* Using this is more efficient of calling out_of_map	1255	* Using this is more efficient of calling out_of_map
1999	* and then figuring out what the real map is	1256	* and then figuring out what the real map is
2000	*/	1257	*/
2001	mapstruct *get_map_from_coord(mapstruct *m, sint16 *x, sint16 *y)	1258	maptile *
		1259	maptile::xy_find (sint16 &x, sint16 &y)
2002	{	1260	{
2003		1261	if (x < 0)
2004	if (*x<0) {
2005	if (!m->tile_path[3]) return NULL;
2006	if (!m->tile_map[3] || m->tile_map[3]->in_memory != MAP_IN_MEMORY)
2007	load_and_link_tiled_map(m, 3);
2008
2009	*x += MAP_WIDTH(m->tile_map[3]);
2010	return (get_map_from_coord(m->tile_map[3], x, y));
2011	}	1262	{
2012	if (*x>=MAP_WIDTH(m)) {	1263	if (!tile_available (3))
2013	if (!m->tile_path[1]) return NULL;	1264	return 0;
2014	if (!m->tile_map[1] || m->tile_map[1]->in_memory != MAP_IN_MEMORY)
2015	load_and_link_tiled_map(m, 1);
2016		1265
2017	*x -= MAP_WIDTH(m);	1266	x += tile_map[3]->width;
2018	return (get_map_from_coord(m->tile_map[1], x, y));	1267	return tile_map[3]->xy_find (x, y);
		1268	}
		1269
		1270	if (x >= width)
2019	}	1271	{
2020	if (*y<0) {	1272	if (!tile_available (1))
2021	if (!m->tile_path[0]) return NULL;	1273	return 0;
2022	if (!m->tile_map[0] || m->tile_map[0]->in_memory != MAP_IN_MEMORY)
2023	load_and_link_tiled_map(m, 0);
2024		1274
2025	*y += MAP_HEIGHT(m->tile_map[0]);	1275	x -= width;
2026	return (get_map_from_coord(m->tile_map[0], x, y));	1276	return tile_map[1]->xy_find (x, y);
		1277	}
		1278
		1279	if (y < 0)
2027	}	1280	{
2028	if (*y>=MAP_HEIGHT(m)) {	1281	if (!tile_available (0))
2029	if (!m->tile_path[2]) return NULL;	1282	return 0;
2030	if (!m->tile_map[2] || m->tile_map[2]->in_memory != MAP_IN_MEMORY)
2031	load_and_link_tiled_map(m, 2);
2032		1283
2033	*y -= MAP_HEIGHT(m);	1284	y += tile_map[0]->height;
2034	return (get_map_from_coord(m->tile_map[2], x, y));	1285	return tile_map[0]->xy_find (x, y);
		1286	}
		1287
		1288	if (y >= height)
2035	}	1289	{
		1290	if (!tile_available (2))
		1291	return 0;
2036		1292
		1293	y -= height;
		1294	return tile_map[2]->xy_find (x, y);
		1295	}
		1296
2037	/* Simple case - coordinates are within this local	1297	/* Simple case - coordinates are within this local
2038	* map.	1298	* map.
2039	*/	1299	*/
2040		1300	return this;
2041	return m;
2042	}	1301	}
2043		1302
2044	/**	1303	/**
2045	* Return whether map2 is adjacent to map1. If so, store the distance from	1304	* Return whether map2 is adjacent to map1. If so, store the distance from
2046	* map1 to map2 in dx/dy.	1305	* map1 to map2 in dx/dy.
2047	*/	1306	*/
		1307	int
2048	static int adjacent_map(const mapstruct *map1, const mapstruct *map2, int *dx, int *dy) {	1308	adjacent_map (const maptile *map1, const maptile *map2, int *dx, int *dy)
		1309	{
2049	if (!map1 || !map2)	1310	if (!map1 || !map2)
2050	return 0;	1311	return 0;
2051		1312
		1313	//TODO: this doesn't actually check correctly when intermediate maps are not loaded
		1314	//fix: compare paths instead (this is likely faster, too!)
2052	if (map1 == map2) {	1315	if (map1 == map2)
		1316	{
2053	*dx = 0;	1317	*dx = 0;
2054	*dy = 0;	1318	*dy = 0;
2055		1319	}
2056	} else if (map1->tile_map[0] == map2) { /* up */	1320	else if (map1->tile_map[0] == map2)
		1321	{ /* up */
2057	*dx = 0;	1322	*dx = 0;
2058	*dy = -MAP_HEIGHT(map2);	1323	*dy = -map2->height;
		1324	}
2059	} else if (map1->tile_map[1] == map2) { /* right */	1325	else if (map1->tile_map[1] == map2)
2060	*dx = MAP_WIDTH(map1);	1326	{ /* right */
		1327	*dx = map1->width;
2061	*dy = 0;	1328	*dy = 0;
		1329	}
2062	} else if (map1->tile_map[2] == map2) { /* down */	1330	else if (map1->tile_map[2] == map2)
		1331	{ /* down */
2063	*dx = 0;	1332	*dx = 0;
2064	*dy = MAP_HEIGHT(map1);	1333	*dy = map1->height;
		1334	}
2065	} else if (map1->tile_map[3] == map2) { /* left */	1335	else if (map1->tile_map[3] == map2)
2066	*dx = -MAP_WIDTH(map2);	1336	{ /* left */
		1337	*dx = -map2->width;
2067	*dy = 0;	1338	*dy = 0;
2068		1339	}
2069	} else if (map1->tile_map[0] && map1->tile_map[0]->tile_map[1] == map2) { /* up right */	1340	else if (map1->tile_map[0] && map1->tile_map[0]->tile_map[1] == map2)
		1341	{ /* up right */
2070	*dx = MAP_WIDTH(map1->tile_map[0]);	1342	*dx = map1->tile_map[0]->width;
2071	*dy = -MAP_HEIGHT(map1->tile_map[0]);	1343	*dy = -map1->tile_map[0]->height;
		1344	}
2072	} else if (map1->tile_map[0] && map1->tile_map[0]->tile_map[3] == map2) { /* up left */	1345	else if (map1->tile_map[0] && map1->tile_map[0]->tile_map[3] == map2)
2073	*dx = -MAP_WIDTH(map2);	1346	{ /* up left */
2074	*dy = -MAP_HEIGHT(map1->tile_map[0]);	1347	*dx = -map2->width;
		1348	*dy = -map1->tile_map[0]->height;
		1349	}
2075	} else if (map1->tile_map[1] && map1->tile_map[1]->tile_map[0] == map2) { /* right up */	1350	else if (map1->tile_map[1] && map1->tile_map[1]->tile_map[0] == map2)
2076	*dx = MAP_WIDTH(map1);	1351	{ /* right up */
2077	*dy = -MAP_HEIGHT(map2);	1352	*dx = map1->width;
		1353	*dy = -map2->height;
		1354	}
2078	} else if (map1->tile_map[1] && map1->tile_map[1]->tile_map[2] == map2) { /* right down */	1355	else if (map1->tile_map[1] && map1->tile_map[1]->tile_map[2] == map2)
2079	*dx = MAP_WIDTH(map1);	1356	{ /* right down */
2080	*dy = MAP_HEIGHT(map1->tile_map[1]);	1357	*dx = map1->width;
		1358	*dy = map1->tile_map[1]->height;
		1359	}
2081	} else if (map1->tile_map[2] && map1->tile_map[2]->tile_map[1] == map2) { /* down right */	1360	else if (map1->tile_map[2] && map1->tile_map[2]->tile_map[1] == map2)
		1361	{ /* down right */
2082	*dx = MAP_WIDTH(map1->tile_map[2]);	1362	*dx = map1->tile_map[2]->width;
2083	*dy = MAP_HEIGHT(map1);	1363	*dy = map1->height;
		1364	}
2084	} else if (map1->tile_map[2] && map1->tile_map[2]->tile_map[3] == map2) { /* down left */	1365	else if (map1->tile_map[2] && map1->tile_map[2]->tile_map[3] == map2)
2085	*dx = -MAP_WIDTH(map2);	1366	{ /* down left */
2086	*dy = MAP_HEIGHT(map1);	1367	*dx = -map2->width;
		1368	*dy = map1->height;
		1369	}
2087	} else if (map1->tile_map[3] && map1->tile_map[3]->tile_map[0] == map2) { /* left up */	1370	else if (map1->tile_map[3] && map1->tile_map[3]->tile_map[0] == map2)
		1371	{ /* left up */
2088	*dx = -MAP_WIDTH(map1->tile_map[3]);	1372	*dx = -map1->tile_map[3]->width;
2089	*dy = -MAP_HEIGHT(map2);	1373	*dy = -map2->height;
		1374	}
2090	} else if (map1->tile_map[3] && map1->tile_map[3]->tile_map[2] == map2) { /* left down */	1375	else if (map1->tile_map[3] && map1->tile_map[3]->tile_map[2] == map2)
		1376	{ /* left down */
2091	*dx = -MAP_WIDTH(map1->tile_map[3]);	1377	*dx = -map1->tile_map[3]->width;
2092	*dy = MAP_HEIGHT(map1->tile_map[3]);	1378	*dy = map1->tile_map[3]->height;
2093
2094	} else { /* not "adjacent" enough */
2095	return 0;
2096	}	1379	}
2097		1380	else
2098	return 1;	1381	return 0;
		1382
		1383	return 1;
		1384	}
		1385
		1386	maptile *
		1387	maptile::xy_load (sint16 &x, sint16 &y)
		1388	{
		1389	maptile *map = xy_find (x, y);
		1390
		1391	if (map)
		1392	map->load_sync ();
		1393
		1394	return map;
		1395	}
		1396
		1397	maptile *
		1398	get_map_from_coord (maptile *m, sint16 *x, sint16 *y)
		1399	{
		1400	return m->xy_load (*x, *y);
2099	}	1401	}
2100		1402
2101	/* From map.c	1403	/* From map.c
2102	* This is used by get_player to determine where the other	1404	* This is used by get_player to determine where the other
2103	* creature is. get_rangevector takes into account map tiling,	1405	* creature is. get_rangevector takes into account map tiling,
2104	* so you just can not look the the map coordinates and get the	1406	* so you just can not look the the map coordinates and get the
2105	* righte value. distance_x/y are distance away, which	1407	* righte value. distance_x/y are distance away, which
2106	* can be negativbe. direction is the crossfire direction scheme	1408	* can be negative. direction is the crossfire direction scheme
2107	* that the creature should head. part is the part of the	1409	* that the creature should head. part is the part of the
2108	* monster that is closest.	1410	* monster that is closest.
2109	*	1411	*
2110	* get_rangevector looks at op1 and op2, and fills in the	1412	* get_rangevector looks at op1 and op2, and fills in the
2111	* structure for op1 to get to op2.	1413	* structure for op1 to get to op2.
…		…
2116	* be unexpected	1418	* be unexpected
2117	*	1419	*
2118	* currently, the only flag supported (0x1) is don't translate for	1420	* currently, the only flag supported (0x1) is don't translate for
2119	* closest body part of 'op1'	1421	* closest body part of 'op1'
2120	*/	1422	*/
2121		1423	void
2122	void get_rangevector(object *op1, object *op2, rv_vector *retval, int flags) {	1424	get_rangevector (object *op1, object *op2, rv_vector * retval, int flags)
		1425	{
2123	if (!adjacent_map(op1->map, op2->map, &retval->distance_x, &retval->distance_y)) {	1426	if (!adjacent_map (op1->map, op2->map, &retval->distance_x, &retval->distance_y))
		1427	{
2124	/* be conservative and fill in _some_ data */	1428	/* be conservative and fill in _some_ data */
2125	retval->distance = 100000;	1429	retval->distance = 10000;
2126	retval->distance_x = 32767;	1430	retval->distance_x = 10000;
2127	retval->distance_y = 32767;	1431	retval->distance_y = 10000;
2128	retval->direction = 0;	1432	retval->direction = 0;
2129	retval->part = 0;	1433	retval->part = 0;
2130	} else {	1434	}
		1435	else
		1436	{
2131	object *best;	1437	object *best;
2132		1438
2133	retval->distance_x += op2->x-op1->x;	1439	retval->distance_x += op2->x - op1->x;
2134	retval->distance_y += op2->y-op1->y;	1440	retval->distance_y += op2->y - op1->y;
2135		1441
2136	best = op1;	1442	best = op1;
2137	/* If this is multipart, find the closest part now */	1443	/* If this is multipart, find the closest part now */
2138	if (!(flags&0x1) && op1->more) {	1444	if (!(flags & 0x1) && op1->more)
2139	object *tmp;	1445	{
2140	int best_distance = retval->distance_x*retval->distance_x+	1446	int best_distance = retval->distance_x * retval->distance_x + retval->distance_y * retval->distance_y, tmpi;
2141	retval->distance_y*retval->distance_y, tmpi;
2142		1447
2143	/* we just take the offset of the piece to head to figure	1448	/* we just take the offset of the piece to head to figure
2144	* distance instead of doing all that work above again	1449	* distance instead of doing all that work above again
2145	* since the distance fields we set above are positive in the	1450	* since the distance fields we set above are positive in the
2146	* same axis as is used for multipart objects, the simply arithmetic	1451	* same axis as is used for multipart objects, the simply arithmetic
2147	* below works.	1452	* below works.
2148	*/	1453	*/
2149	for (tmp = op1->more; tmp != NULL; tmp = tmp->more) {	1454	for (object *tmp = op1->more; tmp; tmp = tmp->more)
		1455	{
2150	tmpi = (op1->x-tmp->x+retval->distance_x)*(op1->x-tmp->x+retval->distance_x)+	1456	tmpi = (op1->x - tmp->x + retval->distance_x) * (op1->x - tmp->x + retval->distance_x) +
2151	(op1->y-tmp->y+retval->distance_y)*(op1->y-tmp->y+retval->distance_y);	1457	(op1->y - tmp->y + retval->distance_y) * (op1->y - tmp->y + retval->distance_y);
2152	if (tmpi < best_distance) {	1458	if (tmpi < best_distance)
		1459	{
2153	best_distance = tmpi;	1460	best_distance = tmpi;
2154	best = tmp;	1461	best = tmp;
2155	}	1462	}
2156	}	1463	}
		1464
2157	if (best != op1) {	1465	if (best != op1)
		1466	{
2158	retval->distance_x += op1->x-best->x;	1467	retval->distance_x += op1->x - best->x;
2159	retval->distance_y += op1->y-best->y;	1468	retval->distance_y += op1->y - best->y;
2160	}	1469	}
2161	}	1470	}
		1471
2162	retval->part = best;	1472	retval->part = best;
2163	retval->distance = isqrt(retval->distance_x*retval->distance_x+retval->distance_y*retval->distance_y);	1473	retval->distance = upos_max (abs (retval->distance_x), abs (retval->distance_y));
2164	retval->direction = find_dir_2(-retval->distance_x, -retval->distance_y);	1474	retval->direction = find_dir_2 (-retval->distance_x, -retval->distance_y);
2165	}	1475	}
2166	}	1476	}
2167		1477
2168	/* this is basically the same as get_rangevector above, but instead of	1478	/* this is basically the same as get_rangevector above, but instead of
2169	* the first parameter being an object, it instead is the map	1479	* the first parameter being an object, it instead is the map
…		…
2173	* flags has no meaning for this function at this time - I kept it in to	1483	* flags has no meaning for this function at this time - I kept it in to
2174	* be more consistant with the above function and also in case they are needed	1484	* be more consistant with the above function and also in case they are needed
2175	* for something in the future. Also, since no object is pasted, the best	1485	* for something in the future. Also, since no object is pasted, the best
2176	* field of the rv_vector is set to NULL.	1486	* field of the rv_vector is set to NULL.
2177	*/	1487	*/
2178		1488	void
2179	void get_rangevector_from_mapcoord(const mapstruct *m, int x, int y, const object *op2, rv_vector *retval, int flags) {	1489	get_rangevector_from_mapcoord (const maptile *m, int x, int y, const object *op2, rv_vector *retval, int flags)
		1490	{
2180	if (!adjacent_map(m, op2->map, &retval->distance_x, &retval->distance_y)) {	1491	if (!adjacent_map (m, op2->map, &retval->distance_x, &retval->distance_y))
		1492	{
2181	/* be conservative and fill in _some_ data */	1493	/* be conservative and fill in _some_ data */
2182	retval->distance = 100000;	1494	retval->distance = 100000;
2183	retval->distance_x = 32767;	1495	retval->distance_x = 32767;
2184	retval->distance_y = 32767;	1496	retval->distance_y = 32767;
2185	retval->direction = 0;	1497	retval->direction = 0;
2186	retval->part = 0;	1498	retval->part = 0;
2187	} else {	1499	}
		1500	else
		1501	{
2188	retval->distance_x += op2->x-x;	1502	retval->distance_x += op2->x - x;
2189	retval->distance_y += op2->y-y;	1503	retval->distance_y += op2->y - y;
2190		1504
2191	retval->part = NULL;	1505	retval->part = 0;
2192	retval->distance = isqrt(retval->distance_x*retval->distance_x+retval->distance_y*retval->distance_y);	1506	retval->distance = upos_max (abs (retval->distance_x), abs (retval->distance_y));
2193	retval->direction = find_dir_2(-retval->distance_x, -retval->distance_y);	1507	retval->direction = find_dir_2 (-retval->distance_x, -retval->distance_y);
2194	}	1508	}
2195	}	1509	}
2196		1510
2197	/* Returns true of op1 and op2 are effectively on the same map	1511	/* Returns true of op1 and op2 are effectively on the same map
2198	* (as related to map tiling). Note that this looks for a path from	1512	* (as related to map tiling). Note that this looks for a path from
2199	* op1 to op2, so if the tiled maps are assymetric and op2 has a path	1513	* op1 to op2, so if the tiled maps are asymetric and op2 has a path
2200	* to op1, this will still return false.	1514	* to op1, this will still return false.
2201	* Note we only look one map out to keep the processing simple	1515	* Note we only look one map out to keep the processing simple
2202	* and efficient. This could probably be a macro.	1516	* and efficient. This could probably be a macro.
2203	* MSW 2001-08-05	1517	* MSW 2001-08-05
2204	*/	1518	*/
		1519	int
2205	int on_same_map(const object *op1, const object *op2) {	1520	on_same_map (const object *op1, const object *op2)
		1521	{
2206	int dx, dy;	1522	int dx, dy;
2207		1523
2208	return adjacent_map(op1->map, op2->map, &dx, &dy);	1524	return adjacent_map (op1->map, op2->map, &dx, &dy);
2209	}	1525	}
		1526
		1527	object *
		1528	maptile::insert (object *op, int x, int y, object *originator, int flags)
		1529	{
		1530	return insert_ob_in_map_at (op, this, originator, flags, x, y);
		1531	}
		1532
		1533	region *
		1534	maptile::region (int x, int y) const
		1535	{
		1536	if (regions
		1537	&& regionmap
		1538	&& !OUT_OF_REAL_MAP (this, x, y))
		1539	if (struct region *reg = regionmap [regions [y * width + x]])
		1540	return reg;
		1541
		1542	if (default_region)
		1543	return default_region;
		1544
		1545	return ::region::default_region ();
		1546	}
		1547
		1548	/* picks a random object from a style map.
		1549	*/
		1550	object *
		1551	maptile::pick_random_object (rand_gen &gen) const
		1552	{
		1553	/* while returning a null object will result in a crash, that
		1554	* is actually preferable to an infinite loop. That is because
		1555	* most servers will automatically restart in case of crash.
		1556	* Change the logic on getting the random space - shouldn't make
		1557	* any difference, but this seems clearer to me.
		1558	*/
		1559	for (int i = 1000; --i;)
		1560	{
		1561	object *pick = at (gen (width), gen (height)).bot;
		1562
		1563	// do not prefer big monsters just because they are big.
		1564	if (pick && pick->is_head ())
		1565	return pick->head_ ();
		1566	}
		1567
		1568	// instead of crashing in the unlikely(?) case, try to return *something*
		1569	return archetype::find ("bug");
		1570	}
		1571
		1572	void
		1573	maptile::play_sound (faceidx sound, int x, int y) const
		1574	{
		1575	if (!sound)
		1576	return;
		1577
		1578	for_all_players_on_map (pl, this)
		1579	if (client *ns = pl->ns)
		1580	{
		1581	int dx = x - pl->ob->x;
		1582	int dy = y - pl->ob->y;
		1583
		1584	int distance = idistance (dx, dy);
		1585
		1586	if (distance <= MAX_SOUND_DISTANCE)
		1587	ns->play_sound (sound, dx, dy);
		1588	}
		1589	}
		1590
		1591	void
		1592	maptile::say_msg (const char *msg, int x, int y) const
		1593	{
		1594	for_all_players (pl)
		1595	if (client *ns = pl->ns)
		1596	{
		1597	int dx = x - pl->ob->x;
		1598	int dy = y - pl->ob->y;
		1599
		1600	int distance = idistance (dx, dy);
		1601
		1602	if (distance <= MAX_SOUND_DISTANCE)
		1603	ns->send_msg (NDI_GREY | NDI_DEF, SAY_CHANNEL, msg);
		1604	}
		1605	}
		1606
		1607	static void
		1608	split_to_tiles (dynbuf &buf, maptile *m, int x0, int y0, int x1, int y1, int dx, int dy)
		1609	{
		1610	// clip to map to the left
		1611	if (x0 < 0)
		1612	{
		1613	if (maptile *tile = m->tile_available (TILE_LEFT, 1))
		1614	split_to_tiles (buf, tile, x0 + tile->width, y0, min (x1 + tile->width, tile->width), y1, dx - tile->width, dy);
		1615
		1616	if (x1 < 0) // entirely to the left
		1617	return;
		1618
		1619	x0 = 0;
		1620	}
		1621
		1622	// clip to map to the right
		1623	if (x1 > m->width)
		1624	{
		1625	if (maptile *tile = m->tile_available (TILE_RIGHT, 1))
		1626	split_to_tiles (buf, tile, max (x0 - m->width, 0), y0, x1 - m->width, y1, dx + m->width, dy);
		1627
		1628	if (x0 > m->width) // entirely to the right
		1629	return;
		1630
		1631	x1 = m->width;
		1632	}
		1633
		1634	// clip to map above
		1635	if (y0 < 0)
		1636	{
		1637	if (maptile *tile = m->tile_available (TILE_UP, 1))
		1638	split_to_tiles (buf, tile, x0, y0 + tile->height, x1, min (y1 + tile->height, tile->height), dx, dy - tile->height);
		1639
		1640	if (y1 < 0) // entirely above
		1641	return;
		1642
		1643	y0 = 0;
		1644	}
		1645
		1646	// clip to map below
		1647	if (y1 > m->height)
		1648	{
		1649	if (maptile *tile = m->tile_available (TILE_DOWN, 1))
		1650	split_to_tiles (buf, tile, x0, max (y0 - m->height, 0), x1, y1 - m->height, dx, dy + m->height);
		1651
		1652	if (y0 > m->height) // entirely below
		1653	return;
		1654
		1655	y1 = m->height;
		1656	}
		1657
		1658	// if we get here, the rect is within the current map
		1659	maprect *r = (maprect *)buf.alloc (sizeof (maprect));
		1660
		1661	r->m = m;
		1662	r->x0 = x0;
		1663	r->y0 = y0;
		1664	r->x1 = x1;
		1665	r->y1 = y1;
		1666	r->dx = dx;
		1667	r->dy = dy;
		1668	}
		1669
		1670	maprect *
		1671	maptile::split_to_tiles (int x0, int y0, int x1, int y1)
		1672	{
		1673	static dynbuf buf (sizeof (maprect) * 8, sizeof (maprect) * 8);
		1674	buf.clear ();
		1675
		1676	::split_to_tiles (buf, this, x0, y0, x1, y1, 0, 0);
		1677
		1678	// add end marker
		1679	maprect *r = (maprect *)buf.alloc (sizeof (maprect));
		1680	r->m = 0;
		1681
		1682	return (maprect *)buf.linearise ();
		1683	}
		1684

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